Mercurial > hg > truffle
view graal/com.oracle.max.asmdis/src/com/sun/max/asm/ppc/complete/PPCRawAssembler.java @ 4142:bc8527f3071c
Adjust code base to new level of warnings.
author | Thomas Wuerthinger <thomas.wuerthinger@oracle.com> |
---|---|
date | Sun, 18 Dec 2011 05:24:06 +0100 |
parents | e233f5660da4 |
children |
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/* * Copyright (c) 2007, 2011, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package com.sun.max.asm.ppc.complete; import static com.sun.max.asm.ppc.GPR.*; import com.sun.max.asm.ppc.*; public abstract class PPCRawAssembler extends AbstractPPCAssembler { // START GENERATED RAW ASSEMBLER METHODS /** * Pseudo-external assembler syntax: {@code b }<i>li</i> * Example disassembly syntax: {@code b L1: -33554432} * <p> * Constraint: {@code (-33554432 <= li && li <= 33554428) && ((li % 4) == 0)}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 2.4.1 [Book 1]" */ // Template#: 1, Serial#: 1 public void b(final int li) { int instruction = 0x48000000; checkConstraint((-33554432 <= li && li <= 33554428) && ((li % 4) == 0), "(-33554432 <= li && li <= 33554428) && ((li % 4) == 0)"); instruction |= (((li >> 2) & 0xffffff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code ba }<i>li</i> * Example disassembly syntax: {@code ba L1: -33554432} * <p> * Constraint: {@code (-33554432 <= li && li <= 33554428) && ((li % 4) == 0)}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 2.4.1 [Book 1]" */ // Template#: 2, Serial#: 2 public void ba(final int li) { int instruction = 0x48000002; checkConstraint((-33554432 <= li && li <= 33554428) && ((li % 4) == 0), "(-33554432 <= li && li <= 33554428) && ((li % 4) == 0)"); instruction |= (((li >> 2) & 0xffffff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bl }<i>li</i> * Example disassembly syntax: {@code bl L1: -33554432} * <p> * Constraint: {@code (-33554432 <= li && li <= 33554428) && ((li % 4) == 0)}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 2.4.1 [Book 1]" */ // Template#: 3, Serial#: 3 public void bl(final int li) { int instruction = 0x48000001; checkConstraint((-33554432 <= li && li <= 33554428) && ((li % 4) == 0), "(-33554432 <= li && li <= 33554428) && ((li % 4) == 0)"); instruction |= (((li >> 2) & 0xffffff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bla }<i>li</i> * Example disassembly syntax: {@code bla L1: -33554432} * <p> * Constraint: {@code (-33554432 <= li && li <= 33554428) && ((li % 4) == 0)}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 2.4.1 [Book 1]" */ // Template#: 4, Serial#: 4 public void bla(final int li) { int instruction = 0x48000003; checkConstraint((-33554432 <= li && li <= 33554428) && ((li % 4) == 0), "(-33554432 <= li && li <= 33554428) && ((li % 4) == 0)"); instruction |= (((li >> 2) & 0xffffff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bc }<i>bo</i>, <i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bc 0, 0x0, L1: -32768} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 2.4.1 [Book 1]" */ // Template#: 5, Serial#: 5 public void bc(final BOOperand bo, final int bi, final int bd) { int instruction = 0x40000000; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bo.value() & 0x1f) << 21); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bca }<i>bo</i>, <i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bca 0, 0x0, L1: -32768} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 2.4.1 [Book 1]" */ // Template#: 6, Serial#: 6 public void bca(final BOOperand bo, final int bi, final int bd) { int instruction = 0x40000002; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bo.value() & 0x1f) << 21); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bcl }<i>bo</i>, <i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bcl 0, 0x0, L1: -32768} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 2.4.1 [Book 1]" */ // Template#: 7, Serial#: 7 public void bcl(final BOOperand bo, final int bi, final int bd) { int instruction = 0x40000001; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bo.value() & 0x1f) << 21); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bcla }<i>bo</i>, <i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bcla 0, 0x0, L1: -32768} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 2.4.1 [Book 1]" */ // Template#: 8, Serial#: 8 public void bcla(final BOOperand bo, final int bi, final int bd) { int instruction = 0x40000003; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bo.value() & 0x1f) << 21); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bclr }<i>bo</i>, <i>bi</i>, <i>bh</i> * Example disassembly syntax: {@code bclr 0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code 0 <= bh && bh <= 3}<br /> * Constraint: {@code bh != 2}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 2.4.1 [Book 1]" */ // Template#: 9, Serial#: 9 public void bclr(final BOOperand bo, final int bi, final int bh) { int instruction = 0x4C000020; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint(0 <= bh && bh <= 3, "0 <= bh && bh <= 3"); checkConstraint(bh != 2, "bh != 2"); instruction |= ((bo.value() & 0x1f) << 21); instruction |= ((bi & 0x1f) << 16); instruction |= ((bh & 0x3) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bclrl }<i>bo</i>, <i>bi</i>, <i>bh</i> * Example disassembly syntax: {@code bclrl 0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code 0 <= bh && bh <= 3}<br /> * Constraint: {@code bh != 2}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 2.4.1 [Book 1]" */ // Template#: 10, Serial#: 10 public void bclrl(final BOOperand bo, final int bi, final int bh) { int instruction = 0x4C000021; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint(0 <= bh && bh <= 3, "0 <= bh && bh <= 3"); checkConstraint(bh != 2, "bh != 2"); instruction |= ((bo.value() & 0x1f) << 21); instruction |= ((bi & 0x1f) << 16); instruction |= ((bh & 0x3) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bcctr }<i>bo</i>, <i>bi</i>, <i>bh</i> * Example disassembly syntax: {@code bcctr 0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code 0 <= bh && bh <= 3}<br /> * Constraint: {@code bh != 2}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 2.4.1 [Book 1]" */ // Template#: 11, Serial#: 11 public void bcctr(final BOOperand bo, final int bi, final int bh) { int instruction = 0x4C000420; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint(0 <= bh && bh <= 3, "0 <= bh && bh <= 3"); checkConstraint(bh != 2, "bh != 2"); instruction |= ((bo.value() & 0x1f) << 21); instruction |= ((bi & 0x1f) << 16); instruction |= ((bh & 0x3) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bcctrl }<i>bo</i>, <i>bi</i>, <i>bh</i> * Example disassembly syntax: {@code bcctrl 0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code 0 <= bh && bh <= 3}<br /> * Constraint: {@code bh != 2}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 2.4.1 [Book 1]" */ // Template#: 12, Serial#: 12 public void bcctrl(final BOOperand bo, final int bi, final int bh) { int instruction = 0x4C000421; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint(0 <= bh && bh <= 3, "0 <= bh && bh <= 3"); checkConstraint(bh != 2, "bh != 2"); instruction |= ((bo.value() & 0x1f) << 21); instruction |= ((bi & 0x1f) << 16); instruction |= ((bh & 0x3) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code crand }<i>bt</i>, <i>ba</i>, <i>bb</i> * Example disassembly syntax: {@code crand 0x0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= bt && bt <= 31}<br /> * Constraint: {@code 0 <= ba && ba <= 31}<br /> * Constraint: {@code 0 <= bb && bb <= 31}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 2.4.3 [Book 1]" */ // Template#: 13, Serial#: 13 public void crand(final int bt, final int ba, final int bb) { int instruction = 0x4C000202; checkConstraint(0 <= bt && bt <= 31, "0 <= bt && bt <= 31"); checkConstraint(0 <= ba && ba <= 31, "0 <= ba && ba <= 31"); checkConstraint(0 <= bb && bb <= 31, "0 <= bb && bb <= 31"); instruction |= ((bt & 0x1f) << 21); instruction |= ((ba & 0x1f) << 16); instruction |= ((bb & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code crxor }<i>bt</i>, <i>ba</i>, <i>bb</i> * Example disassembly syntax: {@code crxor 0x0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= bt && bt <= 31}<br /> * Constraint: {@code 0 <= ba && ba <= 31}<br /> * Constraint: {@code 0 <= bb && bb <= 31}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 2.4.3 [Book 1]" */ // Template#: 14, Serial#: 14 public void crxor(final int bt, final int ba, final int bb) { int instruction = 0x4C000182; checkConstraint(0 <= bt && bt <= 31, "0 <= bt && bt <= 31"); checkConstraint(0 <= ba && ba <= 31, "0 <= ba && ba <= 31"); checkConstraint(0 <= bb && bb <= 31, "0 <= bb && bb <= 31"); instruction |= ((bt & 0x1f) << 21); instruction |= ((ba & 0x1f) << 16); instruction |= ((bb & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cror }<i>bt</i>, <i>ba</i>, <i>bb</i> * Example disassembly syntax: {@code cror 0x0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= bt && bt <= 31}<br /> * Constraint: {@code 0 <= ba && ba <= 31}<br /> * Constraint: {@code 0 <= bb && bb <= 31}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 2.4.3 [Book 1]" */ // Template#: 15, Serial#: 15 public void cror(final int bt, final int ba, final int bb) { int instruction = 0x4C000382; checkConstraint(0 <= bt && bt <= 31, "0 <= bt && bt <= 31"); checkConstraint(0 <= ba && ba <= 31, "0 <= ba && ba <= 31"); checkConstraint(0 <= bb && bb <= 31, "0 <= bb && bb <= 31"); instruction |= ((bt & 0x1f) << 21); instruction |= ((ba & 0x1f) << 16); instruction |= ((bb & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code crnand }<i>bt</i>, <i>ba</i>, <i>bb</i> * Example disassembly syntax: {@code crnand 0x0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= bt && bt <= 31}<br /> * Constraint: {@code 0 <= ba && ba <= 31}<br /> * Constraint: {@code 0 <= bb && bb <= 31}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 2.4.3 [Book 1]" */ // Template#: 16, Serial#: 16 public void crnand(final int bt, final int ba, final int bb) { int instruction = 0x4C0001C2; checkConstraint(0 <= bt && bt <= 31, "0 <= bt && bt <= 31"); checkConstraint(0 <= ba && ba <= 31, "0 <= ba && ba <= 31"); checkConstraint(0 <= bb && bb <= 31, "0 <= bb && bb <= 31"); instruction |= ((bt & 0x1f) << 21); instruction |= ((ba & 0x1f) << 16); instruction |= ((bb & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code crnor }<i>bt</i>, <i>ba</i>, <i>bb</i> * Example disassembly syntax: {@code crnor 0x0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= bt && bt <= 31}<br /> * Constraint: {@code 0 <= ba && ba <= 31}<br /> * Constraint: {@code 0 <= bb && bb <= 31}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 2.4.3 [Book 1]" */ // Template#: 17, Serial#: 17 public void crnor(final int bt, final int ba, final int bb) { int instruction = 0x4C000042; checkConstraint(0 <= bt && bt <= 31, "0 <= bt && bt <= 31"); checkConstraint(0 <= ba && ba <= 31, "0 <= ba && ba <= 31"); checkConstraint(0 <= bb && bb <= 31, "0 <= bb && bb <= 31"); instruction |= ((bt & 0x1f) << 21); instruction |= ((ba & 0x1f) << 16); instruction |= ((bb & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code creqv }<i>bt</i>, <i>ba</i>, <i>bb</i> * Example disassembly syntax: {@code creqv 0x0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= bt && bt <= 31}<br /> * Constraint: {@code 0 <= ba && ba <= 31}<br /> * Constraint: {@code 0 <= bb && bb <= 31}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 2.4.3 [Book 1]" */ // Template#: 18, Serial#: 18 public void creqv(final int bt, final int ba, final int bb) { int instruction = 0x4C000242; checkConstraint(0 <= bt && bt <= 31, "0 <= bt && bt <= 31"); checkConstraint(0 <= ba && ba <= 31, "0 <= ba && ba <= 31"); checkConstraint(0 <= bb && bb <= 31, "0 <= bb && bb <= 31"); instruction |= ((bt & 0x1f) << 21); instruction |= ((ba & 0x1f) << 16); instruction |= ((bb & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code crandc }<i>bt</i>, <i>ba</i>, <i>bb</i> * Example disassembly syntax: {@code crandc 0x0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= bt && bt <= 31}<br /> * Constraint: {@code 0 <= ba && ba <= 31}<br /> * Constraint: {@code 0 <= bb && bb <= 31}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 2.4.3 [Book 1]" */ // Template#: 19, Serial#: 19 public void crandc(final int bt, final int ba, final int bb) { int instruction = 0x4C000102; checkConstraint(0 <= bt && bt <= 31, "0 <= bt && bt <= 31"); checkConstraint(0 <= ba && ba <= 31, "0 <= ba && ba <= 31"); checkConstraint(0 <= bb && bb <= 31, "0 <= bb && bb <= 31"); instruction |= ((bt & 0x1f) << 21); instruction |= ((ba & 0x1f) << 16); instruction |= ((bb & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code crorc }<i>bt</i>, <i>ba</i>, <i>bb</i> * Example disassembly syntax: {@code crorc 0x0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= bt && bt <= 31}<br /> * Constraint: {@code 0 <= ba && ba <= 31}<br /> * Constraint: {@code 0 <= bb && bb <= 31}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 2.4.3 [Book 1]" */ // Template#: 20, Serial#: 20 public void crorc(final int bt, final int ba, final int bb) { int instruction = 0x4C000342; checkConstraint(0 <= bt && bt <= 31, "0 <= bt && bt <= 31"); checkConstraint(0 <= ba && ba <= 31, "0 <= ba && ba <= 31"); checkConstraint(0 <= bb && bb <= 31, "0 <= bb && bb <= 31"); instruction |= ((bt & 0x1f) << 21); instruction |= ((ba & 0x1f) << 16); instruction |= ((bb & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mcrf }<i>bf</i>, <i>bfa</i> * Example disassembly syntax: {@code mcrf 0, 0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 2.4.4 [Book 1]" */ // Template#: 21, Serial#: 21 public void mcrf(final CRF bf, final CRF bfa) { int instruction = 0x4C000000; instruction |= ((bf.value() & 0x7) << 23); instruction |= ((bfa.value() & 0x7) << 18); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lbz }<i>rt</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code lbz r0, -32768(0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 1]" */ // Template#: 22, Serial#: 22 public void lbz(final GPR rt, final int d, final ZeroOrRegister ra) { int instruction = 0x88000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lbzu }<i>rt</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code lbzu r0, -32768(r0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * Constraint: {@code ra.value() != rt.value()}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 1]" */ // Template#: 23, Serial#: 23 public void lbzu(final GPR rt, final int d, final GPR ra) { int instruction = 0x8C000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); checkConstraint(ra.value() != rt.value(), "ra.value() != rt.value()"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lbzx }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code lbzx r0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 1]" */ // Template#: 24, Serial#: 24 public void lbzx(final GPR rt, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C0000AE; checkConstraint(ra != R0, "ra != R0"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lbzux }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code lbzux r0, r0, r0} * <p> * Constraint: {@code ra != R0}<br /> * Constraint: {@code ra.value() != rt.value()}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 1]" */ // Template#: 25, Serial#: 25 public void lbzux(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C0000EE; checkConstraint(ra != R0, "ra != R0"); checkConstraint(ra.value() != rt.value(), "ra.value() != rt.value()"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lhz }<i>rt</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code lhz r0, -32768(0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 1]" */ // Template#: 26, Serial#: 26 public void lhz(final GPR rt, final int d, final ZeroOrRegister ra) { int instruction = 0xA0000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lhzu }<i>rt</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code lhzu r0, -32768(r0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * Constraint: {@code ra.value() != rt.value()}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 1]" */ // Template#: 27, Serial#: 27 public void lhzu(final GPR rt, final int d, final GPR ra) { int instruction = 0xA4000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); checkConstraint(ra.value() != rt.value(), "ra.value() != rt.value()"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lhzx }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code lhzx r0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 1]" */ // Template#: 28, Serial#: 28 public void lhzx(final GPR rt, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C00022E; checkConstraint(ra != R0, "ra != R0"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lhzux }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code lhzux r0, r0, r0} * <p> * Constraint: {@code ra != R0}<br /> * Constraint: {@code ra.value() != rt.value()}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 1]" */ // Template#: 29, Serial#: 29 public void lhzux(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C00026E; checkConstraint(ra != R0, "ra != R0"); checkConstraint(ra.value() != rt.value(), "ra.value() != rt.value()"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lha }<i>rt</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code lha r0, -32768(0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 1]" */ // Template#: 30, Serial#: 30 public void lha(final GPR rt, final int d, final ZeroOrRegister ra) { int instruction = 0xA8000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lhau }<i>rt</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code lhau r0, -32768(r0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * Constraint: {@code ra.value() != rt.value()}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 1]" */ // Template#: 31, Serial#: 31 public void lhau(final GPR rt, final int d, final GPR ra) { int instruction = 0xAC000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); checkConstraint(ra.value() != rt.value(), "ra.value() != rt.value()"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lhax }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code lhax r0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 1]" */ // Template#: 32, Serial#: 32 public void lhax(final GPR rt, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C0002AE; checkConstraint(ra != R0, "ra != R0"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lhaux }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code lhaux r0, r0, r0} * <p> * Constraint: {@code ra != R0}<br /> * Constraint: {@code ra.value() != rt.value()}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 1]" */ // Template#: 33, Serial#: 33 public void lhaux(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C0002EE; checkConstraint(ra != R0, "ra != R0"); checkConstraint(ra.value() != rt.value(), "ra.value() != rt.value()"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lwz }<i>rt</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code lwz r0, -32768(0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 1]" */ // Template#: 34, Serial#: 34 public void lwz(final GPR rt, final int d, final ZeroOrRegister ra) { int instruction = 0x80000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lwzu }<i>rt</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code lwzu r0, -32768(r0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * Constraint: {@code ra.value() != rt.value()}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 1]" */ // Template#: 35, Serial#: 35 public void lwzu(final GPR rt, final int d, final GPR ra) { int instruction = 0x84000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); checkConstraint(ra.value() != rt.value(), "ra.value() != rt.value()"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lwzx }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code lwzx r0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 1]" */ // Template#: 36, Serial#: 36 public void lwzx(final GPR rt, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C00002E; checkConstraint(ra != R0, "ra != R0"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lwzux }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code lwzux r0, r0, r0} * <p> * Constraint: {@code ra != R0}<br /> * Constraint: {@code ra.value() != rt.value()}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 1]" */ // Template#: 37, Serial#: 37 public void lwzux(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C00006E; checkConstraint(ra != R0, "ra != R0"); checkConstraint(ra.value() != rt.value(), "ra.value() != rt.value()"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lwa }<i>rt</i>, <i>ds</i>, <i>ra</i> * Example disassembly syntax: {@code lwa r0, -32768(0)} * <p> * Constraint: {@code (-32768 <= ds && ds <= 32764) && ((ds % 4) == 0)}<br /> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 1]" */ // Template#: 38, Serial#: 38 public void lwa(final GPR rt, final int ds, final ZeroOrRegister ra) { int instruction = 0xE8000002; checkConstraint((-32768 <= ds && ds <= 32764) && ((ds % 4) == 0), "(-32768 <= ds && ds <= 32764) && ((ds % 4) == 0)"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= (((ds >> 2) & 0x3fff) << 2); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lwax }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code lwax r0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 1]" */ // Template#: 39, Serial#: 39 public void lwax(final GPR rt, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C0002AA; checkConstraint(ra != R0, "ra != R0"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lwaux }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code lwaux r0, r0, r0} * <p> * Constraint: {@code ra != R0}<br /> * Constraint: {@code ra.value() != rt.value()}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 1]" */ // Template#: 40, Serial#: 40 public void lwaux(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C0002EA; checkConstraint(ra != R0, "ra != R0"); checkConstraint(ra.value() != rt.value(), "ra.value() != rt.value()"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code ld }<i>rt</i>, <i>ds</i>, <i>ra</i> * Example disassembly syntax: {@code ld r0, -32768(0)} * <p> * Constraint: {@code (-32768 <= ds && ds <= 32764) && ((ds % 4) == 0)}<br /> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 1]" */ // Template#: 41, Serial#: 41 public void ld(final GPR rt, final int ds, final ZeroOrRegister ra) { int instruction = 0xE8000000; checkConstraint((-32768 <= ds && ds <= 32764) && ((ds % 4) == 0), "(-32768 <= ds && ds <= 32764) && ((ds % 4) == 0)"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= (((ds >> 2) & 0x3fff) << 2); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code ldu }<i>rt</i>, <i>ds</i>, <i>ra</i> * Example disassembly syntax: {@code ldu r0, -32768(r0)} * <p> * Constraint: {@code (-32768 <= ds && ds <= 32764) && ((ds % 4) == 0)}<br /> * Constraint: {@code ra != R0}<br /> * Constraint: {@code ra.value() != rt.value()}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 1]" */ // Template#: 42, Serial#: 42 public void ldu(final GPR rt, final int ds, final GPR ra) { int instruction = 0xE8000001; checkConstraint((-32768 <= ds && ds <= 32764) && ((ds % 4) == 0), "(-32768 <= ds && ds <= 32764) && ((ds % 4) == 0)"); checkConstraint(ra != R0, "ra != R0"); checkConstraint(ra.value() != rt.value(), "ra.value() != rt.value()"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= (((ds >> 2) & 0x3fff) << 2); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code ldx }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code ldx r0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 1]" */ // Template#: 43, Serial#: 43 public void ldx(final GPR rt, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C00002A; checkConstraint(ra != R0, "ra != R0"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code ldux }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code ldux r0, r0, r0} * <p> * Constraint: {@code ra != R0}<br /> * Constraint: {@code ra.value() != rt.value()}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 1]" */ // Template#: 44, Serial#: 44 public void ldux(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C00006A; checkConstraint(ra != R0, "ra != R0"); checkConstraint(ra.value() != rt.value(), "ra.value() != rt.value()"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stb }<i>rs</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code stb r0, -32768(0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.3 [Book 1]" */ // Template#: 45, Serial#: 45 public void stb(final GPR rs, final int d, final ZeroOrRegister ra) { int instruction = 0x98000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((rs.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stbu }<i>rs</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code stbu r0, -32768(r0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.3 [Book 1]" */ // Template#: 46, Serial#: 46 public void stbu(final GPR rs, final int d, final GPR ra) { int instruction = 0x9C000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((rs.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stbx }<i>rs</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code stbx r0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.3 [Book 1]" */ // Template#: 47, Serial#: 47 public void stbx(final GPR rs, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C0001AE; checkConstraint(ra != R0, "ra != R0"); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stbux }<i>rs</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code stbux r0, r0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.3 [Book 1]" */ // Template#: 48, Serial#: 48 public void stbux(final GPR rs, final GPR ra, final GPR rb) { int instruction = 0x7C0001EE; checkConstraint(ra != R0, "ra != R0"); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code sth }<i>rs</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code sth r0, -32768(0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.3 [Book 1]" */ // Template#: 49, Serial#: 49 public void sth(final GPR rs, final int d, final ZeroOrRegister ra) { int instruction = 0xB0000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((rs.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code sthu }<i>rs</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code sthu r0, -32768(r0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.3 [Book 1]" */ // Template#: 50, Serial#: 50 public void sthu(final GPR rs, final int d, final GPR ra) { int instruction = 0xB4000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((rs.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code sthx }<i>rs</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code sthx r0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.3 [Book 1]" */ // Template#: 51, Serial#: 51 public void sthx(final GPR rs, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C00032E; checkConstraint(ra != R0, "ra != R0"); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code sthux }<i>rs</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code sthux r0, r0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.3 [Book 1]" */ // Template#: 52, Serial#: 52 public void sthux(final GPR rs, final GPR ra, final GPR rb) { int instruction = 0x7C00036E; checkConstraint(ra != R0, "ra != R0"); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stw }<i>rs</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code stw r0, -32768(0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.3 [Book 1]" */ // Template#: 53, Serial#: 53 public void stw(final GPR rs, final int d, final ZeroOrRegister ra) { int instruction = 0x90000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((rs.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stwu }<i>rs</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code stwu r0, -32768(r0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.3 [Book 1]" */ // Template#: 54, Serial#: 54 public void stwu(final GPR rs, final int d, final GPR ra) { int instruction = 0x94000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((rs.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stwx }<i>rs</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code stwx r0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.3 [Book 1]" */ // Template#: 55, Serial#: 55 public void stwx(final GPR rs, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C00012E; checkConstraint(ra != R0, "ra != R0"); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stwux }<i>rs</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code stwux r0, r0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.3 [Book 1]" */ // Template#: 56, Serial#: 56 public void stwux(final GPR rs, final GPR ra, final GPR rb) { int instruction = 0x7C00016E; checkConstraint(ra != R0, "ra != R0"); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code std }<i>rs</i>, <i>ds</i>, <i>ra</i> * Example disassembly syntax: {@code std r0, -32768(0)} * <p> * Constraint: {@code (-32768 <= ds && ds <= 32764) && ((ds % 4) == 0)}<br /> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.3 [Book 1]" */ // Template#: 57, Serial#: 57 public void std(final GPR rs, final int ds, final ZeroOrRegister ra) { int instruction = 0xF8000000; checkConstraint((-32768 <= ds && ds <= 32764) && ((ds % 4) == 0), "(-32768 <= ds && ds <= 32764) && ((ds % 4) == 0)"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((rs.value() & 0x1f) << 21); instruction |= (((ds >> 2) & 0x3fff) << 2); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stdu }<i>rs</i>, <i>ds</i>, <i>ra</i> * Example disassembly syntax: {@code stdu r0, -32768(r0)} * <p> * Constraint: {@code (-32768 <= ds && ds <= 32764) && ((ds % 4) == 0)}<br /> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.3 [Book 1]" */ // Template#: 58, Serial#: 58 public void stdu(final GPR rs, final int ds, final GPR ra) { int instruction = 0xF8000001; checkConstraint((-32768 <= ds && ds <= 32764) && ((ds % 4) == 0), "(-32768 <= ds && ds <= 32764) && ((ds % 4) == 0)"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((rs.value() & 0x1f) << 21); instruction |= (((ds >> 2) & 0x3fff) << 2); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stdx }<i>rs</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code stdx r0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.3 [Book 1]" */ // Template#: 59, Serial#: 59 public void stdx(final GPR rs, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C00012A; checkConstraint(ra != R0, "ra != R0"); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stdux }<i>rs</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code stdux r0, r0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.3 [Book 1]" */ // Template#: 60, Serial#: 60 public void stdux(final GPR rs, final GPR ra, final GPR rb) { int instruction = 0x7C00016A; checkConstraint(ra != R0, "ra != R0"); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lhbrx }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code lhbrx r0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.4 [Book 1]" */ // Template#: 61, Serial#: 61 public void lhbrx(final GPR rt, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C00062C; checkConstraint(ra != R0, "ra != R0"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lwbrx }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code lwbrx r0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.4 [Book 1]" */ // Template#: 62, Serial#: 62 public void lwbrx(final GPR rt, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C00042C; checkConstraint(ra != R0, "ra != R0"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code sthbrx }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code sthbrx r0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.4 [Book 1]" */ // Template#: 63, Serial#: 63 public void sthbrx(final GPR rt, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C00072C; checkConstraint(ra != R0, "ra != R0"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stwbrx }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code stwbrx r0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.4 [Book 1]" */ // Template#: 64, Serial#: 64 public void stwbrx(final GPR rt, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C00052C; checkConstraint(ra != R0, "ra != R0"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lmw }<i>rt</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code lmw r0, -32768(0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * Constraint: {@code ra.value() < rt.value()}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.5 [Book 1]" */ // Template#: 65, Serial#: 65 public void lmw(final GPR rt, final int d, final ZeroOrRegister ra) { int instruction = 0xB8000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); checkConstraint(ra.value() < rt.value(), "ra.value() < rt.value()"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stmw }<i>rs</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code stmw r0, -32768(0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.5 [Book 1]" */ // Template#: 66, Serial#: 66 public void stmw(final GPR rs, final int d, final ZeroOrRegister ra) { int instruction = 0xBC000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((rs.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lswi }<i>rt</i>, <i>ra</i>, <i>nb</i> * Example disassembly syntax: {@code lswi r0, 0, 0x0} * <p> * Constraint: {@code ra != R0}<br /> * Constraint: {@code 0 <= nb && nb <= 31}<br /> * Constraint: {@code ra.isOutsideRegisterRange(rt, nb)}<br /> * * @see com.sun.max.asm.ppc.ZeroOrRegister#isOutsideRegisterRange * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.6 [Book 1]" */ // Template#: 67, Serial#: 67 public void lswi(final GPR rt, final ZeroOrRegister ra, final int nb) { int instruction = 0x7C0004AA; checkConstraint(ra != R0, "ra != R0"); checkConstraint(0 <= nb && nb <= 31, "0 <= nb && nb <= 31"); checkConstraint(ra.isOutsideRegisterRange(rt, nb), "ra.isOutsideRegisterRange(rt, nb)"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((nb & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lswx }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code lswx r0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * Constraint: {@code rt.value() != ra.value()}<br /> * Constraint: {@code rt.value() != rb.value()}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.6 [Book 1]" */ // Template#: 68, Serial#: 68 public void lswx(final GPR rt, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C00042A; checkConstraint(ra != R0, "ra != R0"); checkConstraint(rt.value() != ra.value(), "rt.value() != ra.value()"); checkConstraint(rt.value() != rb.value(), "rt.value() != rb.value()"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stswi }<i>rs</i>, <i>ra</i>, <i>nb</i> * Example disassembly syntax: {@code stswi r0, 0, 0x0} * <p> * Constraint: {@code ra != R0}<br /> * Constraint: {@code 0 <= nb && nb <= 31}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.6 [Book 1]" */ // Template#: 69, Serial#: 69 public void stswi(final GPR rs, final ZeroOrRegister ra, final int nb) { int instruction = 0x7C0005AA; checkConstraint(ra != R0, "ra != R0"); checkConstraint(0 <= nb && nb <= 31, "0 <= nb && nb <= 31"); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((nb & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stswx }<i>rs</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code stswx r0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.6 [Book 1]" */ // Template#: 70, Serial#: 70 public void stswx(final GPR rs, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C00052A; checkConstraint(ra != R0, "ra != R0"); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code addi }<i>rt</i>, <i>ra</i>, <i>si</i> * Example disassembly syntax: {@code addi r0, 0, -32768} * <p> * Constraint: {@code ra != R0}<br /> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 71, Serial#: 71 public void addi(final GPR rt, final ZeroOrRegister ra, final int si) { int instruction = 0x38000000; checkConstraint(ra != R0, "ra != R0"); checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code addis }<i>rt</i>, <i>ra</i>, <i>sis</i> * Example disassembly syntax: {@code addis r0, 0, 0x0} * <p> * Constraint: {@code ra != R0}<br /> * Constraint: {@code -32768 <= sis && sis <= 65535}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 72, Serial#: 72 public void addis(final GPR rt, final ZeroOrRegister ra, final int sis) { int instruction = 0x3C000000; checkConstraint(ra != R0, "ra != R0"); checkConstraint(-32768 <= sis && sis <= 65535, "-32768 <= sis && sis <= 65535"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (sis & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code add }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code add r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 73, Serial#: 73 public void add(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000214; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code add. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code add. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 74, Serial#: 74 public void add_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000215; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code addo }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code addo r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 75, Serial#: 75 public void addo(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000614; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code addo. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code addo. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 76, Serial#: 76 public void addo_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000615; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subf }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code subf r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 77, Serial#: 77 public void subf(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000050; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subf. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code subf. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 78, Serial#: 78 public void subf_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000051; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subfo }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code subfo r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 79, Serial#: 79 public void subfo(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000450; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subfo. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code subfo. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 80, Serial#: 80 public void subfo_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000451; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code addic }<i>rt</i>, <i>ra</i>, <i>si</i> * Example disassembly syntax: {@code addic r0, r0, -32768} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 81, Serial#: 81 public void addic(final GPR rt, final GPR ra, final int si) { int instruction = 0x30000000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code addic. }<i>rt</i>, <i>ra</i>, <i>si</i> * Example disassembly syntax: {@code addic. r0, r0, -32768} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 82, Serial#: 82 public void addic_(final GPR rt, final GPR ra, final int si) { int instruction = 0x34000000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subfic }<i>rt</i>, <i>ra</i>, <i>si</i> * Example disassembly syntax: {@code subfic r0, r0, -32768} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 83, Serial#: 83 public void subfic(final GPR rt, final GPR ra, final int si) { int instruction = 0x20000000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code addc }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code addc r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 84, Serial#: 84 public void addc(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000014; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code addc. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code addc. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 85, Serial#: 85 public void addc_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000015; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code addco }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code addco r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 86, Serial#: 86 public void addco(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000414; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code addco. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code addco. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 87, Serial#: 87 public void addco_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000415; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subfc }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code subfc r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 88, Serial#: 88 public void subfc(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000010; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subfc. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code subfc. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 89, Serial#: 89 public void subfc_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000011; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subfco }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code subfco r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 90, Serial#: 90 public void subfco(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000410; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subfco. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code subfco. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 91, Serial#: 91 public void subfco_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000411; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code adde }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code adde r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 92, Serial#: 92 public void adde(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000114; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code adde. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code adde. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 93, Serial#: 93 public void adde_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000115; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code addeo }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code addeo r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 94, Serial#: 94 public void addeo(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000514; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code addeo. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code addeo. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 95, Serial#: 95 public void addeo_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000515; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subfe }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code subfe r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 96, Serial#: 96 public void subfe(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000110; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subfe. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code subfe. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 97, Serial#: 97 public void subfe_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000111; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subfeo }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code subfeo r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 98, Serial#: 98 public void subfeo(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000510; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subfeo. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code subfeo. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 99, Serial#: 99 public void subfeo_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000511; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code addme }<i>rt</i>, <i>ra</i> * Example disassembly syntax: {@code addme r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 100, Serial#: 100 public void addme(final GPR rt, final GPR ra) { int instruction = 0x7C0001D4; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code addme. }<i>rt</i>, <i>ra</i> * Example disassembly syntax: {@code addme. r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 101, Serial#: 101 public void addme_(final GPR rt, final GPR ra) { int instruction = 0x7C0001D5; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code addmeo }<i>rt</i>, <i>ra</i> * Example disassembly syntax: {@code addmeo r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 102, Serial#: 102 public void addmeo(final GPR rt, final GPR ra) { int instruction = 0x7C0005D4; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code addmeo. }<i>rt</i>, <i>ra</i> * Example disassembly syntax: {@code addmeo. r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 103, Serial#: 103 public void addmeo_(final GPR rt, final GPR ra) { int instruction = 0x7C0005D5; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subfme }<i>rt</i>, <i>ra</i> * Example disassembly syntax: {@code subfme r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 104, Serial#: 104 public void subfme(final GPR rt, final GPR ra) { int instruction = 0x7C0001D0; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subfme. }<i>rt</i>, <i>ra</i> * Example disassembly syntax: {@code subfme. r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 105, Serial#: 105 public void subfme_(final GPR rt, final GPR ra) { int instruction = 0x7C0001D1; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subfmeo }<i>rt</i>, <i>ra</i> * Example disassembly syntax: {@code subfmeo r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 106, Serial#: 106 public void subfmeo(final GPR rt, final GPR ra) { int instruction = 0x7C0005D0; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subfmeo. }<i>rt</i>, <i>ra</i> * Example disassembly syntax: {@code subfmeo. r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 107, Serial#: 107 public void subfmeo_(final GPR rt, final GPR ra) { int instruction = 0x7C0005D1; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code addze }<i>rt</i>, <i>ra</i> * Example disassembly syntax: {@code addze r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 108, Serial#: 108 public void addze(final GPR rt, final GPR ra) { int instruction = 0x7C000194; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code addze. }<i>rt</i>, <i>ra</i> * Example disassembly syntax: {@code addze. r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 109, Serial#: 109 public void addze_(final GPR rt, final GPR ra) { int instruction = 0x7C000195; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code addzeo }<i>rt</i>, <i>ra</i> * Example disassembly syntax: {@code addzeo r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 110, Serial#: 110 public void addzeo(final GPR rt, final GPR ra) { int instruction = 0x7C000594; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code addzeo. }<i>rt</i>, <i>ra</i> * Example disassembly syntax: {@code addzeo. r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 111, Serial#: 111 public void addzeo_(final GPR rt, final GPR ra) { int instruction = 0x7C000595; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subfze }<i>rt</i>, <i>ra</i> * Example disassembly syntax: {@code subfze r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 112, Serial#: 112 public void subfze(final GPR rt, final GPR ra) { int instruction = 0x7C000190; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subfze. }<i>rt</i>, <i>ra</i> * Example disassembly syntax: {@code subfze. r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 113, Serial#: 113 public void subfze_(final GPR rt, final GPR ra) { int instruction = 0x7C000191; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subfzeo }<i>rt</i>, <i>ra</i> * Example disassembly syntax: {@code subfzeo r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 114, Serial#: 114 public void subfzeo(final GPR rt, final GPR ra) { int instruction = 0x7C000590; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subfzeo. }<i>rt</i>, <i>ra</i> * Example disassembly syntax: {@code subfzeo. r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 115, Serial#: 115 public void subfzeo_(final GPR rt, final GPR ra) { int instruction = 0x7C000591; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code neg }<i>rt</i>, <i>ra</i> * Example disassembly syntax: {@code neg r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 116, Serial#: 116 public void neg(final GPR rt, final GPR ra) { int instruction = 0x7C0000D0; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code neg. }<i>rt</i>, <i>ra</i> * Example disassembly syntax: {@code neg. r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 117, Serial#: 117 public void neg_(final GPR rt, final GPR ra) { int instruction = 0x7C0000D1; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code nego }<i>rt</i>, <i>ra</i> * Example disassembly syntax: {@code nego r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 118, Serial#: 118 public void nego(final GPR rt, final GPR ra) { int instruction = 0x7C0004D0; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code nego. }<i>rt</i>, <i>ra</i> * Example disassembly syntax: {@code nego. r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 119, Serial#: 119 public void nego_(final GPR rt, final GPR ra) { int instruction = 0x7C0004D1; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mulli }<i>rt</i>, <i>ra</i>, <i>si</i> * Example disassembly syntax: {@code mulli r0, r0, -32768} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 120, Serial#: 120 public void mulli(final GPR rt, final GPR ra, final int si) { int instruction = 0x1C000000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mulld }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code mulld r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 121, Serial#: 121 public void mulld(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C0001D2; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mulld. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code mulld. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 122, Serial#: 122 public void mulld_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C0001D3; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mulldo }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code mulldo r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 123, Serial#: 123 public void mulldo(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C0005D2; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mulldo. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code mulldo. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 124, Serial#: 124 public void mulldo_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C0005D3; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mullw }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code mullw r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 125, Serial#: 125 public void mullw(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C0001D6; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mullw. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code mullw. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 126, Serial#: 126 public void mullw_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C0001D7; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mullwo }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code mullwo r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 127, Serial#: 127 public void mullwo(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C0005D6; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mullwo. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code mullwo. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 128, Serial#: 128 public void mullwo_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C0005D7; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mulhd }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code mulhd r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 129, Serial#: 129 public void mulhd(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000092; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mulhd. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code mulhd. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 130, Serial#: 130 public void mulhd_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000093; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mulhw }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code mulhw r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 131, Serial#: 131 public void mulhw(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000096; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mulhw. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code mulhw. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 132, Serial#: 132 public void mulhw_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000097; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mulhdu }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code mulhdu r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 133, Serial#: 133 public void mulhdu(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000012; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mulhdu. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code mulhdu. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 134, Serial#: 134 public void mulhdu_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000013; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mulhwu }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code mulhwu r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 135, Serial#: 135 public void mulhwu(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000016; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mulhwu. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code mulhwu. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 136, Serial#: 136 public void mulhwu_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000017; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code divd }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code divd r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 137, Serial#: 137 public void divd(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C0003D2; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code divd. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code divd. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 138, Serial#: 138 public void divd_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C0003D3; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code divdo }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code divdo r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 139, Serial#: 139 public void divdo(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C0007D2; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code divdo. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code divdo. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 140, Serial#: 140 public void divdo_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C0007D3; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code divw }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code divw r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 141, Serial#: 141 public void divw(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C0003D6; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code divw. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code divw. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 142, Serial#: 142 public void divw_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C0003D7; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code divwo }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code divwo r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 143, Serial#: 143 public void divwo(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C0007D6; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code divwo. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code divwo. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 144, Serial#: 144 public void divwo_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C0007D7; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code divdu }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code divdu r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 145, Serial#: 145 public void divdu(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000392; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code divdu. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code divdu. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 146, Serial#: 146 public void divdu_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000393; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code divduo }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code divduo r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 147, Serial#: 147 public void divduo(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000792; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code divduo. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code divduo. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 148, Serial#: 148 public void divduo_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000793; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code divwu }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code divwu r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 149, Serial#: 149 public void divwu(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000396; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code divwu. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code divwu. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 150, Serial#: 150 public void divwu_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000397; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code divwuo }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code divwuo r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 151, Serial#: 151 public void divwuo(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000796; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code divwuo. }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code divwuo. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.8 [Book 1]" */ // Template#: 152, Serial#: 152 public void divwuo_(final GPR rt, final GPR ra, final GPR rb) { int instruction = 0x7C000797; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cmpi }<i>bf</i>, <i>l</i>, <i>ra</i>, <i>si</i> * Example disassembly syntax: {@code cmpi 0, 0x0, r0, -32768} * <p> * Constraint: {@code 0 <= l && l <= 1}<br /> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.9 [Book 1]" */ // Template#: 153, Serial#: 153 public void cmpi(final CRF bf, final int l, final GPR ra, final int si) { int instruction = 0x2C000000; checkConstraint(0 <= l && l <= 1, "0 <= l && l <= 1"); checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((bf.value() & 0x7) << 23); instruction |= ((l & 0x1) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cmp }<i>bf</i>, <i>l</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code cmp 0, 0x0, r0, r0} * <p> * Constraint: {@code 0 <= l && l <= 1}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.9 [Book 1]" */ // Template#: 154, Serial#: 154 public void cmp(final CRF bf, final int l, final GPR ra, final GPR rb) { int instruction = 0x7C000000; checkConstraint(0 <= l && l <= 1, "0 <= l && l <= 1"); instruction |= ((bf.value() & 0x7) << 23); instruction |= ((l & 0x1) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cmpli }<i>bf</i>, <i>l</i>, <i>ra</i>, <i>ui</i> * Example disassembly syntax: {@code cmpli 0, 0x0, r0, 0x0} * <p> * Constraint: {@code 0 <= l && l <= 1}<br /> * Constraint: {@code 0 <= ui && ui <= 65535}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.9 [Book 1]" */ // Template#: 155, Serial#: 155 public void cmpli(final CRF bf, final int l, final GPR ra, final int ui) { int instruction = 0x28000000; checkConstraint(0 <= l && l <= 1, "0 <= l && l <= 1"); checkConstraint(0 <= ui && ui <= 65535, "0 <= ui && ui <= 65535"); instruction |= ((bf.value() & 0x7) << 23); instruction |= ((l & 0x1) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (ui & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cmpl }<i>bf</i>, <i>l</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code cmpl 0, 0x0, r0, r0} * <p> * Constraint: {@code 0 <= l && l <= 1}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.9 [Book 1]" */ // Template#: 156, Serial#: 156 public void cmpl(final CRF bf, final int l, final GPR ra, final GPR rb) { int instruction = 0x7C000040; checkConstraint(0 <= l && l <= 1, "0 <= l && l <= 1"); instruction |= ((bf.value() & 0x7) << 23); instruction |= ((l & 0x1) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdi }<i>to</i>, <i>ra</i>, <i>si</i> * Example disassembly syntax: {@code tdi 0x0, r0, -32768} * <p> * Constraint: {@code 0 <= to && to <= 31}<br /> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.10 [Book 1]" */ // Template#: 157, Serial#: 157 public void tdi(final int to, final GPR ra, final int si) { int instruction = 0x08000000; checkConstraint(0 <= to && to <= 31, "0 <= to && to <= 31"); checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((to & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twi }<i>to</i>, <i>ra</i>, <i>si</i> * Example disassembly syntax: {@code twi 0x0, r0, -32768} * <p> * Constraint: {@code 0 <= to && to <= 31}<br /> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.10 [Book 1]" */ // Template#: 158, Serial#: 158 public void twi(final int to, final GPR ra, final int si) { int instruction = 0x0C000000; checkConstraint(0 <= to && to <= 31, "0 <= to && to <= 31"); checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((to & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code td }<i>to</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code td 0x0, r0, r0} * <p> * Constraint: {@code 0 <= to && to <= 31}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.10 [Book 1]" */ // Template#: 159, Serial#: 159 public void td(final int to, final GPR ra, final GPR rb) { int instruction = 0x7C000088; checkConstraint(0 <= to && to <= 31, "0 <= to && to <= 31"); instruction |= ((to & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tw }<i>to</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code tw 0x0, r0, r0} * <p> * Constraint: {@code 0 <= to && to <= 31}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.10 [Book 1]" */ // Template#: 160, Serial#: 160 public void tw(final int to, final GPR ra, final GPR rb) { int instruction = 0x7C000008; checkConstraint(0 <= to && to <= 31, "0 <= to && to <= 31"); instruction |= ((to & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code andi. }<i>ra</i>, <i>rs</i>, <i>ui</i> * Example disassembly syntax: {@code andi. r0, r0, 0x0} * <p> * Constraint: {@code 0 <= ui && ui <= 65535}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 161, Serial#: 161 public void andi_(final GPR ra, final GPR rs, final int ui) { int instruction = 0x70000000; checkConstraint(0 <= ui && ui <= 65535, "0 <= ui && ui <= 65535"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= (ui & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code andis. }<i>ra</i>, <i>rs</i>, <i>ui</i> * Example disassembly syntax: {@code andis. r0, r0, 0x0} * <p> * Constraint: {@code 0 <= ui && ui <= 65535}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 162, Serial#: 162 public void andis_(final GPR ra, final GPR rs, final int ui) { int instruction = 0x74000000; checkConstraint(0 <= ui && ui <= 65535, "0 <= ui && ui <= 65535"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= (ui & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code ori }<i>ra</i>, <i>rs</i>, <i>ui</i> * Example disassembly syntax: {@code ori r0, r0, 0x0} * <p> * Constraint: {@code 0 <= ui && ui <= 65535}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 163, Serial#: 163 public void ori(final GPR ra, final GPR rs, final int ui) { int instruction = 0x60000000; checkConstraint(0 <= ui && ui <= 65535, "0 <= ui && ui <= 65535"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= (ui & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code oris }<i>ra</i>, <i>rs</i>, <i>ui</i> * Example disassembly syntax: {@code oris r0, r0, 0x0} * <p> * Constraint: {@code 0 <= ui && ui <= 65535}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 164, Serial#: 164 public void oris(final GPR ra, final GPR rs, final int ui) { int instruction = 0x64000000; checkConstraint(0 <= ui && ui <= 65535, "0 <= ui && ui <= 65535"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= (ui & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code xori }<i>ra</i>, <i>rs</i>, <i>ui</i> * Example disassembly syntax: {@code xori r0, r0, 0x0} * <p> * Constraint: {@code 0 <= ui && ui <= 65535}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 165, Serial#: 165 public void xori(final GPR ra, final GPR rs, final int ui) { int instruction = 0x68000000; checkConstraint(0 <= ui && ui <= 65535, "0 <= ui && ui <= 65535"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= (ui & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code xoris }<i>ra</i>, <i>rs</i>, <i>ui</i> * Example disassembly syntax: {@code xoris r0, r0, 0x0} * <p> * Constraint: {@code 0 <= ui && ui <= 65535}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 166, Serial#: 166 public void xoris(final GPR ra, final GPR rs, final int ui) { int instruction = 0x6C000000; checkConstraint(0 <= ui && ui <= 65535, "0 <= ui && ui <= 65535"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= (ui & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code and }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code and r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 167, Serial#: 167 public void and(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000038; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code and. }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code and. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 168, Serial#: 168 public void and_(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000039; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code or }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code or r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 169, Serial#: 169 public void or(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000378; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code or. }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code or. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 170, Serial#: 170 public void or_(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000379; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code xor }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code xor r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 171, Serial#: 171 public void xor(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000278; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code xor. }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code xor. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 172, Serial#: 172 public void xor_(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000279; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code nand }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code nand r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 173, Serial#: 173 public void nand(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C0003B8; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code nand. }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code nand. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 174, Serial#: 174 public void nand_(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C0003B9; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code nor }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code nor r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 175, Serial#: 175 public void nor(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C0000F8; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code nor. }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code nor. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 176, Serial#: 176 public void nor_(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C0000F9; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code eqv }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code eqv r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 177, Serial#: 177 public void eqv(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000238; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code eqv. }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code eqv. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 178, Serial#: 178 public void eqv_(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000239; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code andc }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code andc r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 179, Serial#: 179 public void andc(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000078; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code andc. }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code andc. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 180, Serial#: 180 public void andc_(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000079; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code orc }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code orc r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 181, Serial#: 181 public void orc(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000338; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code orc. }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code orc. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 182, Serial#: 182 public void orc_(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000339; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code extsb }<i>ra</i>, <i>rs</i> * Example disassembly syntax: {@code extsb r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 183, Serial#: 183 public void extsb(final GPR ra, final GPR rs) { int instruction = 0x7C000774; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code extsb. }<i>ra</i>, <i>rs</i> * Example disassembly syntax: {@code extsb. r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 184, Serial#: 184 public void extsb_(final GPR ra, final GPR rs) { int instruction = 0x7C000775; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code extsh }<i>ra</i>, <i>rs</i> * Example disassembly syntax: {@code extsh r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 185, Serial#: 185 public void extsh(final GPR ra, final GPR rs) { int instruction = 0x7C000734; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code extsh. }<i>ra</i>, <i>rs</i> * Example disassembly syntax: {@code extsh. r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 186, Serial#: 186 public void extsh_(final GPR ra, final GPR rs) { int instruction = 0x7C000735; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code extsw }<i>ra</i>, <i>rs</i> * Example disassembly syntax: {@code extsw r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 187, Serial#: 187 public void extsw(final GPR ra, final GPR rs) { int instruction = 0x7C0007B4; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code extsw. }<i>ra</i>, <i>rs</i> * Example disassembly syntax: {@code extsw. r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 188, Serial#: 188 public void extsw_(final GPR ra, final GPR rs) { int instruction = 0x7C0007B5; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cntlzd }<i>ra</i>, <i>rs</i> * Example disassembly syntax: {@code cntlzd r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 189, Serial#: 189 public void cntlzd(final GPR ra, final GPR rs) { int instruction = 0x7C000074; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cntlzd. }<i>ra</i>, <i>rs</i> * Example disassembly syntax: {@code cntlzd. r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 190, Serial#: 190 public void cntlzd_(final GPR ra, final GPR rs) { int instruction = 0x7C000075; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cntlzw }<i>ra</i>, <i>rs</i> * Example disassembly syntax: {@code cntlzw r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 191, Serial#: 191 public void cntlzw(final GPR ra, final GPR rs) { int instruction = 0x7C000034; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cntlzw. }<i>ra</i>, <i>rs</i> * Example disassembly syntax: {@code cntlzw. r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.11 [Book 1]" */ // Template#: 192, Serial#: 192 public void cntlzw_(final GPR ra, final GPR rs) { int instruction = 0x7C000035; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rldicl }<i>ra</i>, <i>rs</i>, <i>sh</i>, <i>mb</i> * Example disassembly syntax: {@code rldicl r0, r0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= sh && sh <= 63}<br /> * Constraint: {@code 0 <= mb && mb <= 63}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12 [Book 1]" */ // Template#: 193, Serial#: 193 public void rldicl(final GPR ra, final GPR rs, final int sh, final int mb) { int instruction = 0x78000000; checkConstraint(0 <= sh && sh <= 63, "0 <= sh && sh <= 63"); checkConstraint(0 <= mb && mb <= 63, "0 <= mb && mb <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((sh & 0x1f) << 11) | (((sh >>> 5) & 0x1) << 1); instruction |= ((mb & 0x1f) << 6) | (((mb >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rldicl. }<i>ra</i>, <i>rs</i>, <i>sh</i>, <i>mb</i> * Example disassembly syntax: {@code rldicl. r0, r0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= sh && sh <= 63}<br /> * Constraint: {@code 0 <= mb && mb <= 63}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12 [Book 1]" */ // Template#: 194, Serial#: 194 public void rldicl_(final GPR ra, final GPR rs, final int sh, final int mb) { int instruction = 0x78000001; checkConstraint(0 <= sh && sh <= 63, "0 <= sh && sh <= 63"); checkConstraint(0 <= mb && mb <= 63, "0 <= mb && mb <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((sh & 0x1f) << 11) | (((sh >>> 5) & 0x1) << 1); instruction |= ((mb & 0x1f) << 6) | (((mb >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rldicr }<i>ra</i>, <i>rs</i>, <i>sh</i>, <i>me</i> * Example disassembly syntax: {@code rldicr r0, r0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= sh && sh <= 63}<br /> * Constraint: {@code 0 <= me && me <= 63}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12 [Book 1]" */ // Template#: 195, Serial#: 195 public void rldicr(final GPR ra, final GPR rs, final int sh, final int me) { int instruction = 0x78000004; checkConstraint(0 <= sh && sh <= 63, "0 <= sh && sh <= 63"); checkConstraint(0 <= me && me <= 63, "0 <= me && me <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((sh & 0x1f) << 11) | (((sh >>> 5) & 0x1) << 1); instruction |= ((me & 0x1f) << 6) | (((me >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rldicr. }<i>ra</i>, <i>rs</i>, <i>sh</i>, <i>me</i> * Example disassembly syntax: {@code rldicr. r0, r0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= sh && sh <= 63}<br /> * Constraint: {@code 0 <= me && me <= 63}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12 [Book 1]" */ // Template#: 196, Serial#: 196 public void rldicr_(final GPR ra, final GPR rs, final int sh, final int me) { int instruction = 0x78000005; checkConstraint(0 <= sh && sh <= 63, "0 <= sh && sh <= 63"); checkConstraint(0 <= me && me <= 63, "0 <= me && me <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((sh & 0x1f) << 11) | (((sh >>> 5) & 0x1) << 1); instruction |= ((me & 0x1f) << 6) | (((me >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rldic }<i>ra</i>, <i>rs</i>, <i>sh</i>, <i>mb</i> * Example disassembly syntax: {@code rldic r0, r0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= sh && sh <= 63}<br /> * Constraint: {@code 0 <= mb && mb <= 63}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12 [Book 1]" */ // Template#: 197, Serial#: 197 public void rldic(final GPR ra, final GPR rs, final int sh, final int mb) { int instruction = 0x78000008; checkConstraint(0 <= sh && sh <= 63, "0 <= sh && sh <= 63"); checkConstraint(0 <= mb && mb <= 63, "0 <= mb && mb <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((sh & 0x1f) << 11) | (((sh >>> 5) & 0x1) << 1); instruction |= ((mb & 0x1f) << 6) | (((mb >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rldic. }<i>ra</i>, <i>rs</i>, <i>sh</i>, <i>mb</i> * Example disassembly syntax: {@code rldic. r0, r0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= sh && sh <= 63}<br /> * Constraint: {@code 0 <= mb && mb <= 63}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12 [Book 1]" */ // Template#: 198, Serial#: 198 public void rldic_(final GPR ra, final GPR rs, final int sh, final int mb) { int instruction = 0x78000009; checkConstraint(0 <= sh && sh <= 63, "0 <= sh && sh <= 63"); checkConstraint(0 <= mb && mb <= 63, "0 <= mb && mb <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((sh & 0x1f) << 11) | (((sh >>> 5) & 0x1) << 1); instruction |= ((mb & 0x1f) << 6) | (((mb >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rlwinm }<i>ra</i>, <i>rs</i>, <i>sh</i>, <i>mb</i>, <i>me</i> * Example disassembly syntax: {@code rlwinm r0, r0, 0x0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= sh && sh <= 31}<br /> * Constraint: {@code 0 <= mb && mb <= 31}<br /> * Constraint: {@code 0 <= me && me <= 31}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12 [Book 1]" */ // Template#: 199, Serial#: 199 public void rlwinm(final GPR ra, final GPR rs, final int sh, final int mb, final int me) { int instruction = 0x54000000; checkConstraint(0 <= sh && sh <= 31, "0 <= sh && sh <= 31"); checkConstraint(0 <= mb && mb <= 31, "0 <= mb && mb <= 31"); checkConstraint(0 <= me && me <= 31, "0 <= me && me <= 31"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((sh & 0x1f) << 11); instruction |= ((mb & 0x1f) << 6); instruction |= ((me & 0x1f) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rlwinm. }<i>ra</i>, <i>rs</i>, <i>sh</i>, <i>mb</i>, <i>me</i> * Example disassembly syntax: {@code rlwinm. r0, r0, 0x0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= sh && sh <= 31}<br /> * Constraint: {@code 0 <= mb && mb <= 31}<br /> * Constraint: {@code 0 <= me && me <= 31}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12 [Book 1]" */ // Template#: 200, Serial#: 200 public void rlwinm_(final GPR ra, final GPR rs, final int sh, final int mb, final int me) { int instruction = 0x54000001; checkConstraint(0 <= sh && sh <= 31, "0 <= sh && sh <= 31"); checkConstraint(0 <= mb && mb <= 31, "0 <= mb && mb <= 31"); checkConstraint(0 <= me && me <= 31, "0 <= me && me <= 31"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((sh & 0x1f) << 11); instruction |= ((mb & 0x1f) << 6); instruction |= ((me & 0x1f) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rldcl }<i>ra</i>, <i>rs</i>, <i>rb</i>, <i>mb</i> * Example disassembly syntax: {@code rldcl r0, r0, r0, 0x0} * <p> * Constraint: {@code 0 <= mb && mb <= 63}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12 [Book 1]" */ // Template#: 201, Serial#: 201 public void rldcl(final GPR ra, final GPR rs, final GPR rb, final int mb) { int instruction = 0x78000010; checkConstraint(0 <= mb && mb <= 63, "0 <= mb && mb <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); instruction |= ((mb & 0x1f) << 6) | (((mb >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rldcl. }<i>ra</i>, <i>rs</i>, <i>rb</i>, <i>mb</i> * Example disassembly syntax: {@code rldcl. r0, r0, r0, 0x0} * <p> * Constraint: {@code 0 <= mb && mb <= 63}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12 [Book 1]" */ // Template#: 202, Serial#: 202 public void rldcl_(final GPR ra, final GPR rs, final GPR rb, final int mb) { int instruction = 0x78000011; checkConstraint(0 <= mb && mb <= 63, "0 <= mb && mb <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); instruction |= ((mb & 0x1f) << 6) | (((mb >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rldcr }<i>ra</i>, <i>rs</i>, <i>rb</i>, <i>me</i> * Example disassembly syntax: {@code rldcr r0, r0, r0, 0x0} * <p> * Constraint: {@code 0 <= me && me <= 63}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12 [Book 1]" */ // Template#: 203, Serial#: 203 public void rldcr(final GPR ra, final GPR rs, final GPR rb, final int me) { int instruction = 0x78000012; checkConstraint(0 <= me && me <= 63, "0 <= me && me <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); instruction |= ((me & 0x1f) << 6) | (((me >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rldcr. }<i>ra</i>, <i>rs</i>, <i>rb</i>, <i>me</i> * Example disassembly syntax: {@code rldcr. r0, r0, r0, 0x0} * <p> * Constraint: {@code 0 <= me && me <= 63}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12 [Book 1]" */ // Template#: 204, Serial#: 204 public void rldcr_(final GPR ra, final GPR rs, final GPR rb, final int me) { int instruction = 0x78000013; checkConstraint(0 <= me && me <= 63, "0 <= me && me <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); instruction |= ((me & 0x1f) << 6) | (((me >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rlwnm }<i>ra</i>, <i>rs</i>, <i>rb</i>, <i>mb</i>, <i>me</i> * Example disassembly syntax: {@code rlwnm r0, r0, r0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= mb && mb <= 31}<br /> * Constraint: {@code 0 <= me && me <= 31}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12 [Book 1]" */ // Template#: 205, Serial#: 205 public void rlwnm(final GPR ra, final GPR rs, final GPR rb, final int mb, final int me) { int instruction = 0x5C000000; checkConstraint(0 <= mb && mb <= 31, "0 <= mb && mb <= 31"); checkConstraint(0 <= me && me <= 31, "0 <= me && me <= 31"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); instruction |= ((mb & 0x1f) << 6); instruction |= ((me & 0x1f) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rlwnm. }<i>ra</i>, <i>rs</i>, <i>rb</i>, <i>mb</i>, <i>me</i> * Example disassembly syntax: {@code rlwnm. r0, r0, r0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= mb && mb <= 31}<br /> * Constraint: {@code 0 <= me && me <= 31}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12 [Book 1]" */ // Template#: 206, Serial#: 206 public void rlwnm_(final GPR ra, final GPR rs, final GPR rb, final int mb, final int me) { int instruction = 0x5C000001; checkConstraint(0 <= mb && mb <= 31, "0 <= mb && mb <= 31"); checkConstraint(0 <= me && me <= 31, "0 <= me && me <= 31"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); instruction |= ((mb & 0x1f) << 6); instruction |= ((me & 0x1f) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rldimi }<i>ra</i>, <i>rs</i>, <i>sh</i>, <i>mb</i> * Example disassembly syntax: {@code rldimi r0, r0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= sh && sh <= 63}<br /> * Constraint: {@code 0 <= mb && mb <= 63}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12 [Book 1]" */ // Template#: 207, Serial#: 207 public void rldimi(final GPR ra, final GPR rs, final int sh, final int mb) { int instruction = 0x7800000C; checkConstraint(0 <= sh && sh <= 63, "0 <= sh && sh <= 63"); checkConstraint(0 <= mb && mb <= 63, "0 <= mb && mb <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((sh & 0x1f) << 11) | (((sh >>> 5) & 0x1) << 1); instruction |= ((mb & 0x1f) << 6) | (((mb >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rldimi. }<i>ra</i>, <i>rs</i>, <i>sh</i>, <i>mb</i> * Example disassembly syntax: {@code rldimi. r0, r0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= sh && sh <= 63}<br /> * Constraint: {@code 0 <= mb && mb <= 63}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12 [Book 1]" */ // Template#: 208, Serial#: 208 public void rldimi_(final GPR ra, final GPR rs, final int sh, final int mb) { int instruction = 0x7800000D; checkConstraint(0 <= sh && sh <= 63, "0 <= sh && sh <= 63"); checkConstraint(0 <= mb && mb <= 63, "0 <= mb && mb <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((sh & 0x1f) << 11) | (((sh >>> 5) & 0x1) << 1); instruction |= ((mb & 0x1f) << 6) | (((mb >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rlwimi }<i>ra</i>, <i>rs</i>, <i>sh</i>, <i>mb</i>, <i>me</i> * Example disassembly syntax: {@code rlwimi r0, r0, 0x0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= sh && sh <= 31}<br /> * Constraint: {@code 0 <= mb && mb <= 31}<br /> * Constraint: {@code 0 <= me && me <= 31}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12 [Book 1]" */ // Template#: 209, Serial#: 209 public void rlwimi(final GPR ra, final GPR rs, final int sh, final int mb, final int me) { int instruction = 0x50000000; checkConstraint(0 <= sh && sh <= 31, "0 <= sh && sh <= 31"); checkConstraint(0 <= mb && mb <= 31, "0 <= mb && mb <= 31"); checkConstraint(0 <= me && me <= 31, "0 <= me && me <= 31"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((sh & 0x1f) << 11); instruction |= ((mb & 0x1f) << 6); instruction |= ((me & 0x1f) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rlwimi. }<i>ra</i>, <i>rs</i>, <i>sh</i>, <i>mb</i>, <i>me</i> * Example disassembly syntax: {@code rlwimi. r0, r0, 0x0, 0x0, 0x0} * <p> * Constraint: {@code 0 <= sh && sh <= 31}<br /> * Constraint: {@code 0 <= mb && mb <= 31}<br /> * Constraint: {@code 0 <= me && me <= 31}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12 [Book 1]" */ // Template#: 210, Serial#: 210 public void rlwimi_(final GPR ra, final GPR rs, final int sh, final int mb, final int me) { int instruction = 0x50000001; checkConstraint(0 <= sh && sh <= 31, "0 <= sh && sh <= 31"); checkConstraint(0 <= mb && mb <= 31, "0 <= mb && mb <= 31"); checkConstraint(0 <= me && me <= 31, "0 <= me && me <= 31"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((sh & 0x1f) << 11); instruction |= ((mb & 0x1f) << 6); instruction |= ((me & 0x1f) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code sld }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code sld r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12.2 [Book 1]" */ // Template#: 211, Serial#: 211 public void sld(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000036; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code sld. }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code sld. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12.2 [Book 1]" */ // Template#: 212, Serial#: 212 public void sld_(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000037; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code slw }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code slw r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12.2 [Book 1]" */ // Template#: 213, Serial#: 213 public void slw(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000030; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code slw. }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code slw. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12.2 [Book 1]" */ // Template#: 214, Serial#: 214 public void slw_(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000031; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code srd }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code srd r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12.2 [Book 1]" */ // Template#: 215, Serial#: 215 public void srd(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000436; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code srd. }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code srd. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12.2 [Book 1]" */ // Template#: 216, Serial#: 216 public void srd_(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000437; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code srw }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code srw r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12.2 [Book 1]" */ // Template#: 217, Serial#: 217 public void srw(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000430; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code srw. }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code srw. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12.2 [Book 1]" */ // Template#: 218, Serial#: 218 public void srw_(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000431; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code sradi }<i>ra</i>, <i>rs</i>, <i>sh</i> * Example disassembly syntax: {@code sradi r0, r0, 0x0} * <p> * Constraint: {@code 0 <= sh && sh <= 63}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12.2 [Book 1]" */ // Template#: 219, Serial#: 219 public void sradi(final GPR ra, final GPR rs, final int sh) { int instruction = 0x7C000674; checkConstraint(0 <= sh && sh <= 63, "0 <= sh && sh <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((sh & 0x1f) << 11) | (((sh >>> 5) & 0x1) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code sradi. }<i>ra</i>, <i>rs</i>, <i>sh</i> * Example disassembly syntax: {@code sradi. r0, r0, 0x0} * <p> * Constraint: {@code 0 <= sh && sh <= 63}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12.2 [Book 1]" */ // Template#: 220, Serial#: 220 public void sradi_(final GPR ra, final GPR rs, final int sh) { int instruction = 0x7C000675; checkConstraint(0 <= sh && sh <= 63, "0 <= sh && sh <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((sh & 0x1f) << 11) | (((sh >>> 5) & 0x1) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code srawi }<i>ra</i>, <i>rs</i>, <i>sh</i> * Example disassembly syntax: {@code srawi r0, r0, 0x0} * <p> * Constraint: {@code 0 <= sh && sh <= 31}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12.2 [Book 1]" */ // Template#: 221, Serial#: 221 public void srawi(final GPR ra, final GPR rs, final int sh) { int instruction = 0x7C000670; checkConstraint(0 <= sh && sh <= 31, "0 <= sh && sh <= 31"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((sh & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code srawi. }<i>ra</i>, <i>rs</i>, <i>sh</i> * Example disassembly syntax: {@code srawi. r0, r0, 0x0} * <p> * Constraint: {@code 0 <= sh && sh <= 31}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12.2 [Book 1]" */ // Template#: 222, Serial#: 222 public void srawi_(final GPR ra, final GPR rs, final int sh) { int instruction = 0x7C000671; checkConstraint(0 <= sh && sh <= 31, "0 <= sh && sh <= 31"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((sh & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code srad }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code srad r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12.2 [Book 1]" */ // Template#: 223, Serial#: 223 public void srad(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000634; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code srad. }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code srad. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12.2 [Book 1]" */ // Template#: 224, Serial#: 224 public void srad_(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000635; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code sraw }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code sraw r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12.2 [Book 1]" */ // Template#: 225, Serial#: 225 public void sraw(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000630; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code sraw. }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code sraw. r0, r0, r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.12.2 [Book 1]" */ // Template#: 226, Serial#: 226 public void sraw_(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x7C000631; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mtspr }<i>spr</i>, <i>rs</i> * Example disassembly syntax: {@code mtspr 0x0, r0} * <p> * Constraint: {@code 0 <= spr && spr <= 1023}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.13 [Book 1]" */ // Template#: 227, Serial#: 227 public void mtspr(final int spr, final GPR rs) { int instruction = 0x7C0003A6; checkConstraint(0 <= spr && spr <= 1023, "0 <= spr && spr <= 1023"); instruction |= ((spr & 0x1f) << 16) | (((spr >>> 5) & 0x1f) << 11); instruction |= ((rs.value() & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mfspr }<i>rt</i>, <i>spr</i> * Example disassembly syntax: {@code mfspr r0, 0x0} * <p> * Constraint: {@code 0 <= spr && spr <= 1023}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.13 [Book 1]" */ // Template#: 228, Serial#: 228 public void mfspr(final GPR rt, final int spr) { int instruction = 0x7C0002A6; checkConstraint(0 <= spr && spr <= 1023, "0 <= spr && spr <= 1023"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((spr & 0x1f) << 16) | (((spr >>> 5) & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mtcrf }<i>fxm</i>, <i>rs</i> * Example disassembly syntax: {@code mtcrf 0x0, r0} * <p> * Constraint: {@code 0 <= fxm && fxm <= 255}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.13 [Book 1]" */ // Template#: 229, Serial#: 229 public void mtcrf(final int fxm, final GPR rs) { int instruction = 0x7C000120; checkConstraint(0 <= fxm && fxm <= 255, "0 <= fxm && fxm <= 255"); instruction |= ((fxm & 0xff) << 12); instruction |= ((rs.value() & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mfcr }<i>rt</i> * Example disassembly syntax: {@code mfcr r0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.13 [Book 1]" */ // Template#: 230, Serial#: 230 public void mfcr(final GPR rt) { int instruction = 0x7C000026; instruction |= ((rt.value() & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lfs }<i>frt</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code lfs f0, -32768(0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.2 [Book 1]" */ // Template#: 231, Serial#: 231 public void lfs(final FPR frt, final int d, final ZeroOrRegister ra) { int instruction = 0xC0000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((frt.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lfsx }<i>frt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code lfsx f0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.2 [Book 1]" */ // Template#: 232, Serial#: 232 public void lfsx(final FPR frt, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C00042E; checkConstraint(ra != R0, "ra != R0"); instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lfsu }<i>frt</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code lfsu f0, -32768(r0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.2 [Book 1]" */ // Template#: 233, Serial#: 233 public void lfsu(final FPR frt, final int d, final GPR ra) { int instruction = 0xC4000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((frt.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lfsux }<i>frt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code lfsux f0, r0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.2 [Book 1]" */ // Template#: 234, Serial#: 234 public void lfsux(final FPR frt, final GPR ra, final GPR rb) { int instruction = 0x7C00046E; checkConstraint(ra != R0, "ra != R0"); instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lfd }<i>frt</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code lfd f0, -32768(0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.2 [Book 1]" */ // Template#: 235, Serial#: 235 public void lfd(final FPR frt, final int d, final ZeroOrRegister ra) { int instruction = 0xC8000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((frt.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lfdx }<i>frt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code lfdx f0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.2 [Book 1]" */ // Template#: 236, Serial#: 236 public void lfdx(final FPR frt, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C0004AE; checkConstraint(ra != R0, "ra != R0"); instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lfdu }<i>frt</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code lfdu f0, -32768(r0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.2 [Book 1]" */ // Template#: 237, Serial#: 237 public void lfdu(final FPR frt, final int d, final GPR ra) { int instruction = 0xCC000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((frt.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lfdux }<i>frt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code lfdux f0, r0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.2 [Book 1]" */ // Template#: 238, Serial#: 238 public void lfdux(final FPR frt, final GPR ra, final GPR rb) { int instruction = 0x7C0004EE; checkConstraint(ra != R0, "ra != R0"); instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stfs }<i>frs</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code stfs f0, -32768(0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.3 [Book 1]" */ // Template#: 239, Serial#: 239 public void stfs(final FPR frs, final int d, final ZeroOrRegister ra) { int instruction = 0xD0000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((frs.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stfsx }<i>frs</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code stfsx f0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.3 [Book 1]" */ // Template#: 240, Serial#: 240 public void stfsx(final FPR frs, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C00052E; checkConstraint(ra != R0, "ra != R0"); instruction |= ((frs.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stfsu }<i>frs</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code stfsu f0, -32768(r0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.3 [Book 1]" */ // Template#: 241, Serial#: 241 public void stfsu(final FPR frs, final int d, final GPR ra) { int instruction = 0xD4000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((frs.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stfsux }<i>frs</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code stfsux f0, r0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.3 [Book 1]" */ // Template#: 242, Serial#: 242 public void stfsux(final FPR frs, final GPR ra, final GPR rb) { int instruction = 0x7C00056E; checkConstraint(ra != R0, "ra != R0"); instruction |= ((frs.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stfd }<i>frs</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code stfd f0, -32768(0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.3 [Book 1]" */ // Template#: 243, Serial#: 243 public void stfd(final FPR frs, final int d, final ZeroOrRegister ra) { int instruction = 0xD8000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((frs.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stfdx }<i>frs</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code stfdx f0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.3 [Book 1]" */ // Template#: 244, Serial#: 244 public void stfdx(final FPR frs, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C0005AE; checkConstraint(ra != R0, "ra != R0"); instruction |= ((frs.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stfdu }<i>frs</i>, <i>d</i>, <i>ra</i> * Example disassembly syntax: {@code stfdu f0, -32768(r0)} * <p> * Constraint: {@code -32768 <= d && d <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.3 [Book 1]" */ // Template#: 245, Serial#: 245 public void stfdu(final FPR frs, final int d, final GPR ra) { int instruction = 0xDC000000; checkConstraint(-32768 <= d && d <= 32767, "-32768 <= d && d <= 32767"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((frs.value() & 0x1f) << 21); instruction |= (d & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stfdux }<i>frs</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code stfdux f0, r0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.3 [Book 1]" */ // Template#: 246, Serial#: 246 public void stfdux(final FPR frs, final GPR ra, final GPR rb) { int instruction = 0x7C0005EE; checkConstraint(ra != R0, "ra != R0"); instruction |= ((frs.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fmr }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fmr f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.4 [Book 1]" */ // Template#: 247, Serial#: 247 public void fmr(final FPR frt, final FPR frb) { int instruction = 0xFC000090; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fmr. }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fmr. f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.4 [Book 1]" */ // Template#: 248, Serial#: 248 public void fmr_(final FPR frt, final FPR frb) { int instruction = 0xFC000091; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fneg }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fneg f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.4 [Book 1]" */ // Template#: 249, Serial#: 249 public void fneg(final FPR frt, final FPR frb) { int instruction = 0xFC000050; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fneg. }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fneg. f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.4 [Book 1]" */ // Template#: 250, Serial#: 250 public void fneg_(final FPR frt, final FPR frb) { int instruction = 0xFC000051; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fabs }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fabs f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.4 [Book 1]" */ // Template#: 251, Serial#: 251 public void fabs(final FPR frt, final FPR frb) { int instruction = 0xFC000210; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fabs. }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fabs. f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.4 [Book 1]" */ // Template#: 252, Serial#: 252 public void fabs_(final FPR frt, final FPR frb) { int instruction = 0xFC000211; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fnabs }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fnabs f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.4 [Book 1]" */ // Template#: 253, Serial#: 253 public void fnabs(final FPR frt, final FPR frb) { int instruction = 0xFC000110; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fnabs. }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fnabs. f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.4 [Book 1]" */ // Template#: 254, Serial#: 254 public void fnabs_(final FPR frt, final FPR frb) { int instruction = 0xFC000111; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fadd }<i>frt</i>, <i>fra</i>, <i>frb</i> * Example disassembly syntax: {@code fadd f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 255, Serial#: 255 public void fadd(final FPR frt, final FPR fra, final FPR frb) { int instruction = 0xFC00002A; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fadd. }<i>frt</i>, <i>fra</i>, <i>frb</i> * Example disassembly syntax: {@code fadd. f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 256, Serial#: 256 public void fadd_(final FPR frt, final FPR fra, final FPR frb) { int instruction = 0xFC00002B; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fadds }<i>frt</i>, <i>fra</i>, <i>frb</i> * Example disassembly syntax: {@code fadds f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 257, Serial#: 257 public void fadds(final FPR frt, final FPR fra, final FPR frb) { int instruction = 0xEC00002A; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fadds. }<i>frt</i>, <i>fra</i>, <i>frb</i> * Example disassembly syntax: {@code fadds. f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 258, Serial#: 258 public void fadds_(final FPR frt, final FPR fra, final FPR frb) { int instruction = 0xEC00002B; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fsub }<i>frt</i>, <i>fra</i>, <i>frb</i> * Example disassembly syntax: {@code fsub f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 259, Serial#: 259 public void fsub(final FPR frt, final FPR fra, final FPR frb) { int instruction = 0xFC000028; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fsub. }<i>frt</i>, <i>fra</i>, <i>frb</i> * Example disassembly syntax: {@code fsub. f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 260, Serial#: 260 public void fsub_(final FPR frt, final FPR fra, final FPR frb) { int instruction = 0xFC000029; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fsubs }<i>frt</i>, <i>fra</i>, <i>frb</i> * Example disassembly syntax: {@code fsubs f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 261, Serial#: 261 public void fsubs(final FPR frt, final FPR fra, final FPR frb) { int instruction = 0xEC000028; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fsubs. }<i>frt</i>, <i>fra</i>, <i>frb</i> * Example disassembly syntax: {@code fsubs. f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 262, Serial#: 262 public void fsubs_(final FPR frt, final FPR fra, final FPR frb) { int instruction = 0xEC000029; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fmul }<i>frt</i>, <i>fra</i>, <i>frc</i> * Example disassembly syntax: {@code fmul f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 263, Serial#: 263 public void fmul(final FPR frt, final FPR fra, final FPR frc) { int instruction = 0xFC000032; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frc.value() & 0x1f) << 6); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fmul. }<i>frt</i>, <i>fra</i>, <i>frc</i> * Example disassembly syntax: {@code fmul. f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 264, Serial#: 264 public void fmul_(final FPR frt, final FPR fra, final FPR frc) { int instruction = 0xFC000033; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frc.value() & 0x1f) << 6); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fmuls }<i>frt</i>, <i>fra</i>, <i>frc</i> * Example disassembly syntax: {@code fmuls f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 265, Serial#: 265 public void fmuls(final FPR frt, final FPR fra, final FPR frc) { int instruction = 0xEC000032; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frc.value() & 0x1f) << 6); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fmuls. }<i>frt</i>, <i>fra</i>, <i>frc</i> * Example disassembly syntax: {@code fmuls. f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 266, Serial#: 266 public void fmuls_(final FPR frt, final FPR fra, final FPR frc) { int instruction = 0xEC000033; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frc.value() & 0x1f) << 6); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fdiv }<i>frt</i>, <i>fra</i>, <i>frb</i> * Example disassembly syntax: {@code fdiv f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 267, Serial#: 267 public void fdiv(final FPR frt, final FPR fra, final FPR frb) { int instruction = 0xFC000024; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fdiv. }<i>frt</i>, <i>fra</i>, <i>frb</i> * Example disassembly syntax: {@code fdiv. f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 268, Serial#: 268 public void fdiv_(final FPR frt, final FPR fra, final FPR frb) { int instruction = 0xFC000025; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fdivs }<i>frt</i>, <i>fra</i>, <i>frb</i> * Example disassembly syntax: {@code fdivs f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 269, Serial#: 269 public void fdivs(final FPR frt, final FPR fra, final FPR frb) { int instruction = 0xEC000024; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fdivs. }<i>frt</i>, <i>fra</i>, <i>frb</i> * Example disassembly syntax: {@code fdivs. f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 270, Serial#: 270 public void fdivs_(final FPR frt, final FPR fra, final FPR frb) { int instruction = 0xEC000025; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fmadd }<i>frt</i>, <i>fra</i>, <i>frc</i>, <i>frb</i> * Example disassembly syntax: {@code fmadd f0, f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 271, Serial#: 271 public void fmadd(final FPR frt, final FPR fra, final FPR frc, final FPR frb) { int instruction = 0xFC00003A; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frc.value() & 0x1f) << 6); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fmadd. }<i>frt</i>, <i>fra</i>, <i>frc</i>, <i>frb</i> * Example disassembly syntax: {@code fmadd. f0, f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 272, Serial#: 272 public void fmadd_(final FPR frt, final FPR fra, final FPR frc, final FPR frb) { int instruction = 0xFC00003B; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frc.value() & 0x1f) << 6); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fmadds }<i>frt</i>, <i>fra</i>, <i>frc</i>, <i>frb</i> * Example disassembly syntax: {@code fmadds f0, f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 273, Serial#: 273 public void fmadds(final FPR frt, final FPR fra, final FPR frc, final FPR frb) { int instruction = 0xEC00003A; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frc.value() & 0x1f) << 6); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fmadds. }<i>frt</i>, <i>fra</i>, <i>frc</i>, <i>frb</i> * Example disassembly syntax: {@code fmadds. f0, f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 274, Serial#: 274 public void fmadds_(final FPR frt, final FPR fra, final FPR frc, final FPR frb) { int instruction = 0xEC00003B; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frc.value() & 0x1f) << 6); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fmsub }<i>frt</i>, <i>fra</i>, <i>frc</i>, <i>frb</i> * Example disassembly syntax: {@code fmsub f0, f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 275, Serial#: 275 public void fmsub(final FPR frt, final FPR fra, final FPR frc, final FPR frb) { int instruction = 0xFC000038; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frc.value() & 0x1f) << 6); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fmsub. }<i>frt</i>, <i>fra</i>, <i>frc</i>, <i>frb</i> * Example disassembly syntax: {@code fmsub. f0, f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 276, Serial#: 276 public void fmsub_(final FPR frt, final FPR fra, final FPR frc, final FPR frb) { int instruction = 0xFC000039; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frc.value() & 0x1f) << 6); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fmsubs }<i>frt</i>, <i>fra</i>, <i>frc</i>, <i>frb</i> * Example disassembly syntax: {@code fmsubs f0, f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 277, Serial#: 277 public void fmsubs(final FPR frt, final FPR fra, final FPR frc, final FPR frb) { int instruction = 0xEC000038; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frc.value() & 0x1f) << 6); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fmsubs. }<i>frt</i>, <i>fra</i>, <i>frc</i>, <i>frb</i> * Example disassembly syntax: {@code fmsubs. f0, f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 278, Serial#: 278 public void fmsubs_(final FPR frt, final FPR fra, final FPR frc, final FPR frb) { int instruction = 0xEC000039; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frc.value() & 0x1f) << 6); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fnmadd }<i>frt</i>, <i>fra</i>, <i>frc</i>, <i>frb</i> * Example disassembly syntax: {@code fnmadd f0, f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 279, Serial#: 279 public void fnmadd(final FPR frt, final FPR fra, final FPR frc, final FPR frb) { int instruction = 0xFC00003E; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frc.value() & 0x1f) << 6); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fnmadd. }<i>frt</i>, <i>fra</i>, <i>frc</i>, <i>frb</i> * Example disassembly syntax: {@code fnmadd. f0, f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 280, Serial#: 280 public void fnmadd_(final FPR frt, final FPR fra, final FPR frc, final FPR frb) { int instruction = 0xFC00003F; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frc.value() & 0x1f) << 6); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fnmadds }<i>frt</i>, <i>fra</i>, <i>frc</i>, <i>frb</i> * Example disassembly syntax: {@code fnmadds f0, f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 281, Serial#: 281 public void fnmadds(final FPR frt, final FPR fra, final FPR frc, final FPR frb) { int instruction = 0xEC00003E; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frc.value() & 0x1f) << 6); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fnmadds. }<i>frt</i>, <i>fra</i>, <i>frc</i>, <i>frb</i> * Example disassembly syntax: {@code fnmadds. f0, f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 282, Serial#: 282 public void fnmadds_(final FPR frt, final FPR fra, final FPR frc, final FPR frb) { int instruction = 0xEC00003F; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frc.value() & 0x1f) << 6); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fnmsub }<i>frt</i>, <i>fra</i>, <i>frc</i>, <i>frb</i> * Example disassembly syntax: {@code fnmsub f0, f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 283, Serial#: 283 public void fnmsub(final FPR frt, final FPR fra, final FPR frc, final FPR frb) { int instruction = 0xFC00003C; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frc.value() & 0x1f) << 6); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fnmsub. }<i>frt</i>, <i>fra</i>, <i>frc</i>, <i>frb</i> * Example disassembly syntax: {@code fnmsub. f0, f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 284, Serial#: 284 public void fnmsub_(final FPR frt, final FPR fra, final FPR frc, final FPR frb) { int instruction = 0xFC00003D; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frc.value() & 0x1f) << 6); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fnmsubs }<i>frt</i>, <i>fra</i>, <i>frc</i>, <i>frb</i> * Example disassembly syntax: {@code fnmsubs f0, f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 285, Serial#: 285 public void fnmsubs(final FPR frt, final FPR fra, final FPR frc, final FPR frb) { int instruction = 0xEC00003C; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frc.value() & 0x1f) << 6); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fnmsubs. }<i>frt</i>, <i>fra</i>, <i>frc</i>, <i>frb</i> * Example disassembly syntax: {@code fnmsubs. f0, f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.5 [Book 1]" */ // Template#: 286, Serial#: 286 public void fnmsubs_(final FPR frt, final FPR fra, final FPR frc, final FPR frb) { int instruction = 0xEC00003D; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frc.value() & 0x1f) << 6); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code frsp }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code frsp f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.6 [Book 1]" */ // Template#: 287, Serial#: 287 public void frsp(final FPR frt, final FPR frb) { int instruction = 0xFC000018; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code frsp. }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code frsp. f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.6 [Book 1]" */ // Template#: 288, Serial#: 288 public void frsp_(final FPR frt, final FPR frb) { int instruction = 0xFC000019; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fctid }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fctid f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.6 [Book 1]" */ // Template#: 289, Serial#: 289 public void fctid(final FPR frt, final FPR frb) { int instruction = 0xFC00065C; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fctid. }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fctid. f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.6 [Book 1]" */ // Template#: 290, Serial#: 290 public void fctid_(final FPR frt, final FPR frb) { int instruction = 0xFC00065D; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fctidz }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fctidz f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.6 [Book 1]" */ // Template#: 291, Serial#: 291 public void fctidz(final FPR frt, final FPR frb) { int instruction = 0xFC00065E; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fctidz. }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fctidz. f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.6 [Book 1]" */ // Template#: 292, Serial#: 292 public void fctidz_(final FPR frt, final FPR frb) { int instruction = 0xFC00065F; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fctiw }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fctiw f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.6 [Book 1]" */ // Template#: 293, Serial#: 293 public void fctiw(final FPR frt, final FPR frb) { int instruction = 0xFC00001C; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fctiw. }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fctiw. f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.6 [Book 1]" */ // Template#: 294, Serial#: 294 public void fctiw_(final FPR frt, final FPR frb) { int instruction = 0xFC00001D; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fctiwz }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fctiwz f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.6 [Book 1]" */ // Template#: 295, Serial#: 295 public void fctiwz(final FPR frt, final FPR frb) { int instruction = 0xFC00001E; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fctiwz. }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fctiwz. f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.6 [Book 1]" */ // Template#: 296, Serial#: 296 public void fctiwz_(final FPR frt, final FPR frb) { int instruction = 0xFC00001F; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fcfid }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fcfid f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.6 [Book 1]" */ // Template#: 297, Serial#: 297 public void fcfid(final FPR frt, final FPR frb) { int instruction = 0xFC00069C; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fcfid. }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fcfid. f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.6 [Book 1]" */ // Template#: 298, Serial#: 298 public void fcfid_(final FPR frt, final FPR frb) { int instruction = 0xFC00069D; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fcmpu }<i>bf</i>, <i>fra</i>, <i>frb</i> * Example disassembly syntax: {@code fcmpu 0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.7 [Book 1]" */ // Template#: 299, Serial#: 299 public void fcmpu(final CRF bf, final FPR fra, final FPR frb) { int instruction = 0xFC000000; instruction |= ((bf.value() & 0x7) << 23); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fcmpo }<i>bf</i>, <i>fra</i>, <i>frb</i> * Example disassembly syntax: {@code fcmpo 0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.7 [Book 1]" */ // Template#: 300, Serial#: 300 public void fcmpo(final CRF bf, final FPR fra, final FPR frb) { int instruction = 0xFC000040; instruction |= ((bf.value() & 0x7) << 23); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mffs }<i>frt</i> * Example disassembly syntax: {@code mffs f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.8 [Book 1]" */ // Template#: 301, Serial#: 301 public void mffs(final FPR frt) { int instruction = 0xFC00048E; instruction |= ((frt.value() & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mffs. }<i>frt</i> * Example disassembly syntax: {@code mffs. f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.8 [Book 1]" */ // Template#: 302, Serial#: 302 public void mffs_(final FPR frt) { int instruction = 0xFC00048F; instruction |= ((frt.value() & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mcrfs }<i>bf</i>, <i>bfa</i> * Example disassembly syntax: {@code mcrfs 0, 0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.8 [Book 1]" */ // Template#: 303, Serial#: 303 public void mcrfs(final CRF bf, final CRF bfa) { int instruction = 0xFC000080; instruction |= ((bf.value() & 0x7) << 23); instruction |= ((bfa.value() & 0x7) << 18); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mtfsfi }<i>bf</i>, <i>u</i> * Example disassembly syntax: {@code mtfsfi 0, 0x0} * <p> * Constraint: {@code 0 <= u && u <= 15}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.8 [Book 1]" */ // Template#: 304, Serial#: 304 public void mtfsfi(final CRF bf, final int u) { int instruction = 0xFC00010C; checkConstraint(0 <= u && u <= 15, "0 <= u && u <= 15"); instruction |= ((bf.value() & 0x7) << 23); instruction |= ((u & 0xf) << 12); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mtfsfi. }<i>bf</i>, <i>u</i> * Example disassembly syntax: {@code mtfsfi. 0, 0x0} * <p> * Constraint: {@code 0 <= u && u <= 15}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.8 [Book 1]" */ // Template#: 305, Serial#: 305 public void mtfsfi_(final CRF bf, final int u) { int instruction = 0xFC00010D; checkConstraint(0 <= u && u <= 15, "0 <= u && u <= 15"); instruction |= ((bf.value() & 0x7) << 23); instruction |= ((u & 0xf) << 12); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mtfsf }<i>flm</i>, <i>frb</i> * Example disassembly syntax: {@code mtfsf 0x0, f0} * <p> * Constraint: {@code 0 <= flm && flm <= 255}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.8 [Book 1]" */ // Template#: 306, Serial#: 306 public void mtfsf(final int flm, final FPR frb) { int instruction = 0xFC00058E; checkConstraint(0 <= flm && flm <= 255, "0 <= flm && flm <= 255"); instruction |= ((flm & 0xff) << 17); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mtfsf. }<i>flm</i>, <i>frb</i> * Example disassembly syntax: {@code mtfsf. 0x0, f0} * <p> * Constraint: {@code 0 <= flm && flm <= 255}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.8 [Book 1]" */ // Template#: 307, Serial#: 307 public void mtfsf_(final int flm, final FPR frb) { int instruction = 0xFC00058F; checkConstraint(0 <= flm && flm <= 255, "0 <= flm && flm <= 255"); instruction |= ((flm & 0xff) << 17); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mtfsb0 }<i>bt</i> * Example disassembly syntax: {@code mtfsb0 0x0} * <p> * Constraint: {@code 0 <= bt && bt <= 31}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.8 [Book 1]" */ // Template#: 308, Serial#: 308 public void mtfsb0(final int bt) { int instruction = 0xFC00008C; checkConstraint(0 <= bt && bt <= 31, "0 <= bt && bt <= 31"); instruction |= ((bt & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mtfsb0. }<i>bt</i> * Example disassembly syntax: {@code mtfsb0. 0x0} * <p> * Constraint: {@code 0 <= bt && bt <= 31}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.8 [Book 1]" */ // Template#: 309, Serial#: 309 public void mtfsb0_(final int bt) { int instruction = 0xFC00008D; checkConstraint(0 <= bt && bt <= 31, "0 <= bt && bt <= 31"); instruction |= ((bt & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mtfsb1 }<i>bt</i> * Example disassembly syntax: {@code mtfsb1 0x0} * <p> * Constraint: {@code 0 <= bt && bt <= 31}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.8 [Book 1]" */ // Template#: 310, Serial#: 310 public void mtfsb1(final int bt) { int instruction = 0xFC00004C; checkConstraint(0 <= bt && bt <= 31, "0 <= bt && bt <= 31"); instruction |= ((bt & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mtfsb1. }<i>bt</i> * Example disassembly syntax: {@code mtfsb1. 0x0} * <p> * Constraint: {@code 0 <= bt && bt <= 31}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 4.6.8 [Book 1]" */ // Template#: 311, Serial#: 311 public void mtfsb1_(final int bt) { int instruction = 0xFC00004D; checkConstraint(0 <= bt && bt <= 31, "0 <= bt && bt <= 31"); instruction |= ((bt & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mtocrf }<i>fxm</i>, <i>rs</i> * Example disassembly syntax: {@code mtocrf 0x0, r0} * <p> * Constraint: {@code 0 <= fxm && fxm <= 255}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 5.1.1 [Book 1]" */ // Template#: 312, Serial#: 312 public void mtocrf(final int fxm, final GPR rs) { int instruction = 0x7C100120; checkConstraint(0 <= fxm && fxm <= 255, "0 <= fxm && fxm <= 255"); instruction |= ((fxm & 0xff) << 12); instruction |= ((rs.value() & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mfocrf }<i>rt</i>, <i>fxm</i> * Example disassembly syntax: {@code mfocrf r0, 0x0} * <p> * Constraint: {@code 0 <= fxm && fxm <= 255}<br /> * Constraint: {@code CRF.isExactlyOneCRFSelected(fxm)}<br /> * * @see com.sun.max.asm.ppc.CRF#isExactlyOneCRFSelected * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 5.1.1 [Book 1]" */ // Template#: 313, Serial#: 313 public void mfocrf(final GPR rt, final int fxm) { int instruction = 0x7C100026; checkConstraint(0 <= fxm && fxm <= 255, "0 <= fxm && fxm <= 255"); checkConstraint(CRF.isExactlyOneCRFSelected(fxm), "CRF.isExactlyOneCRFSelected(fxm)"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((fxm & 0xff) << 12); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fsqrt }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fsqrt f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 5.2.1 [Book 1]" */ // Template#: 314, Serial#: 314 public void fsqrt(final FPR frt, final FPR frb) { int instruction = 0xFC00002C; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fsqrt. }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fsqrt. f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 5.2.1 [Book 1]" */ // Template#: 315, Serial#: 315 public void fsqrt_(final FPR frt, final FPR frb) { int instruction = 0xFC00002D; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fsqrts }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fsqrts f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 5.2.1 [Book 1]" */ // Template#: 316, Serial#: 316 public void fsqrts(final FPR frt, final FPR frb) { int instruction = 0xEC00002C; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fsqrts. }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fsqrts. f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 5.2.1 [Book 1]" */ // Template#: 317, Serial#: 317 public void fsqrts_(final FPR frt, final FPR frb) { int instruction = 0xEC00002D; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fre }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fre f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 5.2.1 [Book 1]" */ // Template#: 318, Serial#: 318 public void fre(final FPR frt, final FPR frb) { int instruction = 0xFC000030; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fre. }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fre. f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 5.2.1 [Book 1]" */ // Template#: 319, Serial#: 319 public void fre_(final FPR frt, final FPR frb) { int instruction = 0xFC000031; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fres }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fres f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 5.2.1 [Book 1]" */ // Template#: 320, Serial#: 320 public void fres(final FPR frt, final FPR frb) { int instruction = 0xEC000030; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fres. }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code fres. f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 5.2.1 [Book 1]" */ // Template#: 321, Serial#: 321 public void fres_(final FPR frt, final FPR frb) { int instruction = 0xEC000031; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code frsqrte }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code frsqrte f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 5.2.1 [Book 1]" */ // Template#: 322, Serial#: 322 public void frsqrte(final FPR frt, final FPR frb) { int instruction = 0xFC000034; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code frsqrte. }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code frsqrte. f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 5.2.1 [Book 1]" */ // Template#: 323, Serial#: 323 public void frsqrte_(final FPR frt, final FPR frb) { int instruction = 0xFC000035; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code frsqrtes }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code frsqrtes f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 5.2.1 [Book 1]" */ // Template#: 324, Serial#: 324 public void frsqrtes(final FPR frt, final FPR frb) { int instruction = 0xEC000034; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code frsqrtes. }<i>frt</i>, <i>frb</i> * Example disassembly syntax: {@code frsqrtes. f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 5.2.1 [Book 1]" */ // Template#: 325, Serial#: 325 public void frsqrtes_(final FPR frt, final FPR frb) { int instruction = 0xEC000035; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fsel }<i>frt</i>, <i>fra</i>, <i>frc</i>, <i>frb</i> * Example disassembly syntax: {@code fsel f0, f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 5.2.2 [Book 1]" */ // Template#: 326, Serial#: 326 public void fsel(final FPR frt, final FPR fra, final FPR frc, final FPR frb) { int instruction = 0xFC00002E; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frc.value() & 0x1f) << 6); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code fsel. }<i>frt</i>, <i>fra</i>, <i>frc</i>, <i>frb</i> * Example disassembly syntax: {@code fsel. f0, f0, f0, f0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 5.2.2 [Book 1]" */ // Template#: 327, Serial#: 327 public void fsel_(final FPR frt, final FPR fra, final FPR frc, final FPR frb) { int instruction = 0xFC00002F; instruction |= ((frt.value() & 0x1f) << 21); instruction |= ((fra.value() & 0x1f) << 16); instruction |= ((frc.value() & 0x1f) << 6); instruction |= ((frb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mcrxr }<i>bf</i> * Example disassembly syntax: {@code mcrxr 0} * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 6.1 [Book 1]" */ // Template#: 328, Serial#: 328 public void mcrxr(final CRF bf) { int instruction = 0x7C000400; instruction |= ((bf.value() & 0x7) << 23); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code icbi }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code icbi 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.2.1 [Book 2]" */ // Template#: 329, Serial#: 329 public void icbi(final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C0007AC; checkConstraint(ra != R0, "ra != R0"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code dcbt }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code dcbt 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.2.2 [Book 2]" */ // Template#: 330, Serial#: 330 public void dcbt(final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C00022C; checkConstraint(ra != R0, "ra != R0"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code dcbtst }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code dcbtst 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.2.2 [Book 2]" */ // Template#: 331, Serial#: 331 public void dcbtst(final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C0001EC; checkConstraint(ra != R0, "ra != R0"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code dcbz }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code dcbz 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.2.2 [Book 2]" */ // Template#: 332, Serial#: 332 public void dcbz(final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C0007EC; checkConstraint(ra != R0, "ra != R0"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code dcbst }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code dcbst 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.2.2 [Book 2]" */ // Template#: 333, Serial#: 333 public void dcbst(final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C00006C; checkConstraint(ra != R0, "ra != R0"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code dcbf }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code dcbf 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.2.2 [Book 2]" */ // Template#: 334, Serial#: 334 public void dcbf(final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C0000AC; checkConstraint(ra != R0, "ra != R0"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code isync } * Example disassembly syntax: {@code isync } * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.1 [Book 2]" */ // Template#: 335, Serial#: 335 public void isync() { int instruction = 0x4C00012C; emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lwarx }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code lwarx r0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 2]" */ // Template#: 336, Serial#: 336 public void lwarx(final GPR rt, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C000028; checkConstraint(ra != R0, "ra != R0"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code ldarx }<i>rt</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code ldarx r0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 2]" */ // Template#: 337, Serial#: 337 public void ldarx(final GPR rt, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C0000A8; checkConstraint(ra != R0, "ra != R0"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stwcx. }<i>rs</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code stwcx. r0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 2]" */ // Template#: 338, Serial#: 338 public void stwcx(final GPR rs, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C00012D; checkConstraint(ra != R0, "ra != R0"); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code stdcx. }<i>rs</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code stdcx. r0, 0, r0} * <p> * Constraint: {@code ra != R0}<br /> * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.2 [Book 2]" */ // Template#: 339, Serial#: 339 public void stdcx(final GPR rs, final ZeroOrRegister ra, final GPR rb) { int instruction = 0x7C0001AD; checkConstraint(ra != R0, "ra != R0"); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code sync } * Example disassembly syntax: {@code sync } * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.3 [Book 2]" */ // Template#: 340, Serial#: 340 public void sync() { int instruction = 0x7C0004AC; emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code eieio } * Example disassembly syntax: {@code eieio } * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section 3.3.3 [Book 2]" */ // Template#: 341, Serial#: 341 public void eieio() { int instruction = 0x7C0006AC; emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bt{++|--} }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bt 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bc(CRTrue | prediction, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bc(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 342, Serial#: 342 public void bt(final int bi, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41800000; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bta{++|--} }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bta 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bca(CRTrue | prediction, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bca(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 343, Serial#: 343 public void bta(final int bi, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41800002; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code btl{++|--} }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code btl 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcl(CRTrue | prediction, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 344, Serial#: 344 public void btl(final int bi, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41800001; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code btla{++|--} }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code btla 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcla(CRTrue | prediction, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcla(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 345, Serial#: 345 public void btla(final int bi, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41800003; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bf{++|--} }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bf 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bc(CRFalse | prediction, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bc(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 346, Serial#: 346 public void bf(final int bi, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40800000; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bfa{++|--} }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bfa 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bca(CRFalse | prediction, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bca(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 347, Serial#: 347 public void bfa(final int bi, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40800002; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bfl{++|--} }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bfl 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcl(CRFalse | prediction, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 348, Serial#: 348 public void bfl(final int bi, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40800001; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bfla{++|--} }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bfla 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcla(CRFalse | prediction, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcla(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 349, Serial#: 349 public void bfla(final int bi, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40800003; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdnz{++|--} }<i>bd</i> * Example disassembly syntax: {@code bdnz L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bc(CTRNonZero | (prediction & 0x1) | (((prediction >>> 1) & 0x1) << 3), 0, bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bc(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 350, Serial#: 350 public void bdnz(final int bd, final BranchPredictionBits prediction) { int instruction = 0x42000000; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x1) << 21) | (((prediction.value() >>> 1) & 0x1) << 24); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdnza{++|--} }<i>bd</i> * Example disassembly syntax: {@code bdnza L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bca(CTRNonZero | (prediction & 0x1) | (((prediction >>> 1) & 0x1) << 3), 0, bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bca(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 351, Serial#: 351 public void bdnza(final int bd, final BranchPredictionBits prediction) { int instruction = 0x42000002; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x1) << 21) | (((prediction.value() >>> 1) & 0x1) << 24); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdnzl{++|--} }<i>bd</i> * Example disassembly syntax: {@code bdnzl L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcl(CTRNonZero | (prediction & 0x1) | (((prediction >>> 1) & 0x1) << 3), 0, bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 352, Serial#: 352 public void bdnzl(final int bd, final BranchPredictionBits prediction) { int instruction = 0x42000001; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x1) << 21) | (((prediction.value() >>> 1) & 0x1) << 24); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdnzla{++|--} }<i>bd</i> * Example disassembly syntax: {@code bdnzla L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcla(CTRNonZero | (prediction & 0x1) | (((prediction >>> 1) & 0x1) << 3), 0, bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcla(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 353, Serial#: 353 public void bdnzla(final int bd, final BranchPredictionBits prediction) { int instruction = 0x42000003; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x1) << 21) | (((prediction.value() >>> 1) & 0x1) << 24); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdz{++|--} }<i>bd</i> * Example disassembly syntax: {@code bdz L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bc(CTRZero | (prediction & 0x1) | (((prediction >>> 1) & 0x1) << 3), 0, bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bc(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 354, Serial#: 354 public void bdz(final int bd, final BranchPredictionBits prediction) { int instruction = 0x42400000; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x1) << 21) | (((prediction.value() >>> 1) & 0x1) << 24); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdza{++|--} }<i>bd</i> * Example disassembly syntax: {@code bdza L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bca(CTRZero | (prediction & 0x1) | (((prediction >>> 1) & 0x1) << 3), 0, bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bca(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 355, Serial#: 355 public void bdza(final int bd, final BranchPredictionBits prediction) { int instruction = 0x42400002; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x1) << 21) | (((prediction.value() >>> 1) & 0x1) << 24); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdzl{++|--} }<i>bd</i> * Example disassembly syntax: {@code bdzl L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcl(CTRZero | (prediction & 0x1) | (((prediction >>> 1) & 0x1) << 3), 0, bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 356, Serial#: 356 public void bdzl(final int bd, final BranchPredictionBits prediction) { int instruction = 0x42400001; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x1) << 21) | (((prediction.value() >>> 1) & 0x1) << 24); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdzla{++|--} }<i>bd</i> * Example disassembly syntax: {@code bdzla L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcla(CTRZero | (prediction & 0x1) | (((prediction >>> 1) & 0x1) << 3), 0, bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcla(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 357, Serial#: 357 public void bdzla(final int bd, final BranchPredictionBits prediction) { int instruction = 0x42400003; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x1) << 21) | (((prediction.value() >>> 1) & 0x1) << 24); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdnzt }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bdnzt 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bc(CTRNonZero_CRTrue, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bc(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 358, Serial#: 358 public void bdnzt(final int bi, final int bd) { int instruction = 0x41000000; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdnzta }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bdnzta 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bca(CTRNonZero_CRTrue, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bca(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 359, Serial#: 359 public void bdnzta(final int bi, final int bd) { int instruction = 0x41000002; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdnztl }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bdnztl 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcl(CTRNonZero_CRTrue, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 360, Serial#: 360 public void bdnztl(final int bi, final int bd) { int instruction = 0x41000001; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdnztla }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bdnztla 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcla(CTRNonZero_CRTrue, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcla(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 361, Serial#: 361 public void bdnztla(final int bi, final int bd) { int instruction = 0x41000003; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdnzf }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bdnzf 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bc(CTRNonZero_CRFalse, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bc(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 362, Serial#: 362 public void bdnzf(final int bi, final int bd) { int instruction = 0x40000000; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdnzfa }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bdnzfa 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bca(CTRNonZero_CRFalse, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bca(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 363, Serial#: 363 public void bdnzfa(final int bi, final int bd) { int instruction = 0x40000002; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdnzfl }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bdnzfl 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcl(CTRNonZero_CRFalse, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 364, Serial#: 364 public void bdnzfl(final int bi, final int bd) { int instruction = 0x40000001; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdnzfla }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bdnzfla 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcla(CTRNonZero_CRFalse, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcla(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 365, Serial#: 365 public void bdnzfla(final int bi, final int bd) { int instruction = 0x40000003; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdzt }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bdzt 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bc(CTRZero_CRTrue, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bc(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 366, Serial#: 366 public void bdzt(final int bi, final int bd) { int instruction = 0x41400000; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdzta }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bdzta 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bca(CTRZero_CRTrue, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bca(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 367, Serial#: 367 public void bdzta(final int bi, final int bd) { int instruction = 0x41400002; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdztl }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bdztl 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcl(CTRZero_CRTrue, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 368, Serial#: 368 public void bdztl(final int bi, final int bd) { int instruction = 0x41400001; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdztla }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bdztla 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcla(CTRZero_CRTrue, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcla(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 369, Serial#: 369 public void bdztla(final int bi, final int bd) { int instruction = 0x41400003; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdzf }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bdzf 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bc(CTRZero_CRFalse, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bc(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 370, Serial#: 370 public void bdzf(final int bi, final int bd) { int instruction = 0x40400000; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdzfa }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bdzfa 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bca(CTRZero_CRFalse, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bca(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 371, Serial#: 371 public void bdzfa(final int bi, final int bd) { int instruction = 0x40400002; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdzfl }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bdzfl 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcl(CTRZero_CRFalse, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 372, Serial#: 372 public void bdzfl(final int bi, final int bd) { int instruction = 0x40400001; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdzfla }<i>bi</i>, <i>bd</i> * Example disassembly syntax: {@code bdzfla 0x0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcla(CTRZero_CRFalse, bi, bd)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcla(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 373, Serial#: 373 public void bdzfla(final int bi, final int bd) { int instruction = 0x40400003; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((bi & 0x1f) << 16); instruction |= (((bd >> 2) & 0x3fff) << 2); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code blr } * Example disassembly syntax: {@code blr } * <p> * This is a synthetic instruction equivalent to: {@code bclr(Always, 0, 0)} * * @see #bclr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 374, Serial#: 374 public void blr() { int instruction = 0x4E800020; emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code blrl } * Example disassembly syntax: {@code blrl } * <p> * This is a synthetic instruction equivalent to: {@code bclrl(Always, 0, 0)} * * @see #bclrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 375, Serial#: 375 public void blrl() { int instruction = 0x4E800021; emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code btlr{++|--} }<i>bi</i> * Example disassembly syntax: {@code btlr 0x0} * <p> * This is a synthetic instruction equivalent to: {@code bclr(CRTrue | prediction, bi, 0)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * * @see #bclr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 376, Serial#: 376 public void btlr(final int bi, final BranchPredictionBits prediction) { int instruction = 0x4D800020; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); instruction |= ((bi & 0x1f) << 16); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code btlrl{++|--} }<i>bi</i> * Example disassembly syntax: {@code btlrl 0x0} * <p> * This is a synthetic instruction equivalent to: {@code bclrl(CRTrue | prediction, bi, 0)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * * @see #bclrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 377, Serial#: 377 public void btlrl(final int bi, final BranchPredictionBits prediction) { int instruction = 0x4D800021; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); instruction |= ((bi & 0x1f) << 16); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bflr{++|--} }<i>bi</i> * Example disassembly syntax: {@code bflr 0x0} * <p> * This is a synthetic instruction equivalent to: {@code bclr(CRFalse | prediction, bi, 0)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * * @see #bclr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 378, Serial#: 378 public void bflr(final int bi, final BranchPredictionBits prediction) { int instruction = 0x4C800020; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); instruction |= ((bi & 0x1f) << 16); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bflrl{++|--} }<i>bi</i> * Example disassembly syntax: {@code bflrl 0x0} * <p> * This is a synthetic instruction equivalent to: {@code bclrl(CRFalse | prediction, bi, 0)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * * @see #bclrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 379, Serial#: 379 public void bflrl(final int bi, final BranchPredictionBits prediction) { int instruction = 0x4C800021; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); instruction |= ((bi & 0x1f) << 16); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdnzlr{++|--} } * Example disassembly syntax: {@code bdnzlr } * <p> * This is a synthetic instruction equivalent to: {@code bclr(CTRNonZero | (prediction & 0x1) | (((prediction >>> 1) & 0x1) << 3), 0, 0)} * * @see #bclr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 380, Serial#: 380 public void bdnzlr(final BranchPredictionBits prediction) { int instruction = 0x4E000020; instruction |= ((prediction.value() & 0x1) << 21) | (((prediction.value() >>> 1) & 0x1) << 24); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdnzlrl{++|--} } * Example disassembly syntax: {@code bdnzlrl } * <p> * This is a synthetic instruction equivalent to: {@code bclrl(CTRNonZero | (prediction & 0x1) | (((prediction >>> 1) & 0x1) << 3), 0, 0)} * * @see #bclrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 381, Serial#: 381 public void bdnzlrl(final BranchPredictionBits prediction) { int instruction = 0x4E000021; instruction |= ((prediction.value() & 0x1) << 21) | (((prediction.value() >>> 1) & 0x1) << 24); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdzlr{++|--} } * Example disassembly syntax: {@code bdzlr } * <p> * This is a synthetic instruction equivalent to: {@code bclr(CTRZero | (prediction & 0x1) | (((prediction >>> 1) & 0x1) << 3), 0, 0)} * * @see #bclr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 382, Serial#: 382 public void bdzlr(final BranchPredictionBits prediction) { int instruction = 0x4E400020; instruction |= ((prediction.value() & 0x1) << 21) | (((prediction.value() >>> 1) & 0x1) << 24); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdzlrl{++|--} } * Example disassembly syntax: {@code bdzlrl } * <p> * This is a synthetic instruction equivalent to: {@code bclrl(CTRZero | (prediction & 0x1) | (((prediction >>> 1) & 0x1) << 3), 0, 0)} * * @see #bclrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 383, Serial#: 383 public void bdzlrl(final BranchPredictionBits prediction) { int instruction = 0x4E400021; instruction |= ((prediction.value() & 0x1) << 21) | (((prediction.value() >>> 1) & 0x1) << 24); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdnztlr }<i>bi</i> * Example disassembly syntax: {@code bdnztlr 0x0} * <p> * This is a synthetic instruction equivalent to: {@code bclr(CTRNonZero_CRTrue, bi, 0)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * * @see #bclr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 384, Serial#: 384 public void bdnztlr(final int bi) { int instruction = 0x4D000020; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); instruction |= ((bi & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdnztlrl }<i>bi</i> * Example disassembly syntax: {@code bdnztlrl 0x0} * <p> * This is a synthetic instruction equivalent to: {@code bclrl(CTRNonZero_CRTrue, bi, 0)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * * @see #bclrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 385, Serial#: 385 public void bdnztlrl(final int bi) { int instruction = 0x4D000021; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); instruction |= ((bi & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdnzflr }<i>bi</i> * Example disassembly syntax: {@code bdnzflr 0x0} * <p> * This is a synthetic instruction equivalent to: {@code bclr(CTRNonZero_CRFalse, bi, 0)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * * @see #bclr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 386, Serial#: 386 public void bdnzflr(final int bi) { int instruction = 0x4C000020; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); instruction |= ((bi & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdnzflrl }<i>bi</i> * Example disassembly syntax: {@code bdnzflrl 0x0} * <p> * This is a synthetic instruction equivalent to: {@code bclrl(CTRNonZero_CRFalse, bi, 0)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * * @see #bclrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 387, Serial#: 387 public void bdnzflrl(final int bi) { int instruction = 0x4C000021; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); instruction |= ((bi & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdztlr }<i>bi</i> * Example disassembly syntax: {@code bdztlr 0x0} * <p> * This is a synthetic instruction equivalent to: {@code bclr(CTRZero_CRTrue, bi, 0)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * * @see #bclr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 388, Serial#: 388 public void bdztlr(final int bi) { int instruction = 0x4D400020; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); instruction |= ((bi & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdztlrl }<i>bi</i> * Example disassembly syntax: {@code bdztlrl 0x0} * <p> * This is a synthetic instruction equivalent to: {@code bclrl(CTRZero_CRTrue, bi, 0)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * * @see #bclrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 389, Serial#: 389 public void bdztlrl(final int bi) { int instruction = 0x4D400021; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); instruction |= ((bi & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdzflr }<i>bi</i> * Example disassembly syntax: {@code bdzflr 0x0} * <p> * This is a synthetic instruction equivalent to: {@code bclr(CTRZero_CRFalse, bi, 0)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * * @see #bclr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 390, Serial#: 390 public void bdzflr(final int bi) { int instruction = 0x4C400020; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); instruction |= ((bi & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bdzflrl }<i>bi</i> * Example disassembly syntax: {@code bdzflrl 0x0} * <p> * This is a synthetic instruction equivalent to: {@code bclrl(CTRZero_CRFalse, bi, 0)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * * @see #bclrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 391, Serial#: 391 public void bdzflrl(final int bi) { int instruction = 0x4C400021; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); instruction |= ((bi & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bctr } * Example disassembly syntax: {@code bctr } * <p> * This is a synthetic instruction equivalent to: {@code bcctr(Always, 0, 0)} * * @see #bcctr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 392, Serial#: 392 public void bctr() { int instruction = 0x4E800420; emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bctrl } * Example disassembly syntax: {@code bctrl } * <p> * This is a synthetic instruction equivalent to: {@code bcctrl(Always, 0, 0)} * * @see #bcctrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 393, Serial#: 393 public void bctrl() { int instruction = 0x4E800421; emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code btctr{++|--} }<i>bi</i> * Example disassembly syntax: {@code btctr 0x0} * <p> * This is a synthetic instruction equivalent to: {@code bcctr(CRTrue | prediction, bi, 0)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * * @see #bcctr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 394, Serial#: 394 public void btctr(final int bi, final BranchPredictionBits prediction) { int instruction = 0x4D800420; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); instruction |= ((bi & 0x1f) << 16); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code btctrl{++|--} }<i>bi</i> * Example disassembly syntax: {@code btctrl 0x0} * <p> * This is a synthetic instruction equivalent to: {@code bcctrl(CRTrue | prediction, bi, 0)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * * @see #bcctrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 395, Serial#: 395 public void btctrl(final int bi, final BranchPredictionBits prediction) { int instruction = 0x4D800421; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); instruction |= ((bi & 0x1f) << 16); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bfctr{++|--} }<i>bi</i> * Example disassembly syntax: {@code bfctr 0x0} * <p> * This is a synthetic instruction equivalent to: {@code bcctr(CRFalse | prediction, bi, 0)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * * @see #bcctr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 396, Serial#: 396 public void bfctr(final int bi, final BranchPredictionBits prediction) { int instruction = 0x4C800420; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); instruction |= ((bi & 0x1f) << 16); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bfctrl{++|--} }<i>bi</i> * Example disassembly syntax: {@code bfctrl 0x0} * <p> * This is a synthetic instruction equivalent to: {@code bcctrl(CRFalse | prediction, bi, 0)} * <p> * Constraint: {@code 0 <= bi && bi <= 31}<br /> * * @see #bcctrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.2 [Book 1]" */ // Template#: 397, Serial#: 397 public void bfctrl(final int bi, final BranchPredictionBits prediction) { int instruction = 0x4C800421; checkConstraint(0 <= bi && bi <= 31, "0 <= bi && bi <= 31"); instruction |= ((bi & 0x1f) << 16); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code blt{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code blt cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bc(CRTrue | prediction, (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bc(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 398, Serial#: 398 public void blt(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41800000; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code blta{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code blta cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bca(CRTrue | prediction, (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bca(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 399, Serial#: 399 public void blta(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41800002; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bltl{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bltl cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcl(CRTrue | prediction, (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 400, Serial#: 400 public void bltl(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41800001; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bltla{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bltla cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcla(CRTrue | prediction, (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcla(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 401, Serial#: 401 public void bltla(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41800003; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code ble{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code ble cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bc(CRFalse | prediction, 1 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bc(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 402, Serial#: 402 public void ble(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40810000; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code blea{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code blea cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bca(CRFalse | prediction, 1 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bca(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 403, Serial#: 403 public void blea(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40810002; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code blel{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code blel cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcl(CRFalse | prediction, 1 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 404, Serial#: 404 public void blel(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40810001; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code blela{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code blela cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcla(CRFalse | prediction, 1 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcla(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 405, Serial#: 405 public void blela(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40810003; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code beq{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code beq cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bc(CRTrue | prediction, 2 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bc(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 406, Serial#: 406 public void beq(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41820000; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code beqa{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code beqa cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bca(CRTrue | prediction, 2 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bca(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 407, Serial#: 407 public void beqa(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41820002; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code beql{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code beql cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcl(CRTrue | prediction, 2 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 408, Serial#: 408 public void beql(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41820001; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code beqla{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code beqla cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcla(CRTrue | prediction, 2 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcla(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 409, Serial#: 409 public void beqla(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41820003; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bge{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bge cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bc(CRFalse | prediction, (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bc(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 410, Serial#: 410 public void bge(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40800000; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bgea{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bgea cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bca(CRFalse | prediction, (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bca(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 411, Serial#: 411 public void bgea(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40800002; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bgel{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bgel cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcl(CRFalse | prediction, (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 412, Serial#: 412 public void bgel(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40800001; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bgela{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bgela cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcla(CRFalse | prediction, (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcla(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 413, Serial#: 413 public void bgela(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40800003; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bgt{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bgt cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bc(CRTrue | prediction, 1 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bc(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 414, Serial#: 414 public void bgt(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41810000; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bgta{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bgta cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bca(CRTrue | prediction, 1 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bca(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 415, Serial#: 415 public void bgta(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41810002; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bgtl{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bgtl cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcl(CRTrue | prediction, 1 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 416, Serial#: 416 public void bgtl(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41810001; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bgtla{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bgtla cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcla(CRTrue | prediction, 1 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcla(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 417, Serial#: 417 public void bgtla(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41810003; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnl{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bnl cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bc(CRFalse | prediction, (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bc(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 418, Serial#: 418 public void bnl(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40800000; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnla{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bnla cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bca(CRFalse | prediction, (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bca(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 419, Serial#: 419 public void bnla(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40800002; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnll{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bnll cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcl(CRFalse | prediction, (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 420, Serial#: 420 public void bnll(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40800001; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnlla{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bnlla cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcla(CRFalse | prediction, (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcla(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 421, Serial#: 421 public void bnlla(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40800003; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bne{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bne cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bc(CRFalse | prediction, 2 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bc(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 422, Serial#: 422 public void bne(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40820000; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnea{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bnea cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bca(CRFalse | prediction, 2 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bca(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 423, Serial#: 423 public void bnea(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40820002; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnel{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bnel cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcl(CRFalse | prediction, 2 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 424, Serial#: 424 public void bnel(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40820001; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnela{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bnela cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcla(CRFalse | prediction, 2 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcla(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 425, Serial#: 425 public void bnela(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40820003; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bng{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bng cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bc(CRFalse | prediction, 1 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bc(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 426, Serial#: 426 public void bng(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40810000; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnga{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bnga cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bca(CRFalse | prediction, 1 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bca(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 427, Serial#: 427 public void bnga(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40810002; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bngl{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bngl cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcl(CRFalse | prediction, 1 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 428, Serial#: 428 public void bngl(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40810001; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bngla{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bngla cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcla(CRFalse | prediction, 1 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcla(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 429, Serial#: 429 public void bngla(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40810003; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bso{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bso cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bc(CRTrue | prediction, 3 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bc(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 430, Serial#: 430 public void bso(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41830000; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bsoa{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bsoa cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bca(CRTrue | prediction, 3 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bca(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 431, Serial#: 431 public void bsoa(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41830002; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bsol{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bsol cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcl(CRTrue | prediction, 3 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 432, Serial#: 432 public void bsol(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41830001; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bsola{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bsola cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcla(CRTrue | prediction, 3 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcla(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 433, Serial#: 433 public void bsola(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41830003; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bns{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bns cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bc(CRFalse | prediction, 3 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bc(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 434, Serial#: 434 public void bns(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40830000; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnsa{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bnsa cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bca(CRFalse | prediction, 3 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bca(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 435, Serial#: 435 public void bnsa(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40830002; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnsl{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bnsl cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcl(CRFalse | prediction, 3 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 436, Serial#: 436 public void bnsl(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40830001; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnsla{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bnsla cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcla(CRFalse | prediction, 3 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcla(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 437, Serial#: 437 public void bnsla(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40830003; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bun{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bun cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bc(CRTrue | prediction, 3 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bc(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 438, Serial#: 438 public void bun(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41830000; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code buna{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code buna cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bca(CRTrue | prediction, 3 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bca(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 439, Serial#: 439 public void buna(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41830002; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bunl{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bunl cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcl(CRTrue | prediction, 3 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 440, Serial#: 440 public void bunl(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41830001; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bunla{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bunla cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcla(CRTrue | prediction, 3 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcla(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 441, Serial#: 441 public void bunla(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x41830003; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnu{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bnu cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bc(CRFalse | prediction, 3 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bc(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 442, Serial#: 442 public void bnu(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40830000; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnua{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bnua cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bca(CRFalse | prediction, 3 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bca(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 443, Serial#: 443 public void bnua(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40830002; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnul{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bnul cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcl(CRFalse | prediction, 3 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 444, Serial#: 444 public void bnul(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40830001; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnula{++|--} }<i>crf</i>, <i>bd</i> * Example disassembly syntax: {@code bnula cr0, L1: -32768} * <p> * This is a synthetic instruction equivalent to: {@code bcla(CRFalse | prediction, 3 | (crf * 4), bd)} * <p> * Constraint: {@code (-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)}<br /> * * @see #bcla(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 445, Serial#: 445 public void bnula(final CRF crf, final int bd, final BranchPredictionBits prediction) { int instruction = 0x40830003; checkConstraint((-32768 <= bd && bd <= 32764) && ((bd % 4) == 0), "(-32768 <= bd && bd <= 32764) && ((bd % 4) == 0)"); instruction |= ((crf.value() & 0x7) << 18); instruction |= (((bd >> 2) & 0x3fff) << 2); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bltlr{++|--} }<i>crf</i> * Example disassembly syntax: {@code bltlr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclr(CRTrue | prediction, (crf * 4), 0)} * * @see #bclr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 446, Serial#: 446 public void bltlr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4D800020; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bltlrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code bltlrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclrl(CRTrue | prediction, (crf * 4), 0)} * * @see #bclrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 447, Serial#: 447 public void bltlrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4D800021; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code blelr{++|--} }<i>crf</i> * Example disassembly syntax: {@code blelr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclr(CRFalse | prediction, 1 | (crf * 4), 0)} * * @see #bclr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 448, Serial#: 448 public void blelr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C810020; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code blelrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code blelrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclrl(CRFalse | prediction, 1 | (crf * 4), 0)} * * @see #bclrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 449, Serial#: 449 public void blelrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C810021; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code beqlr{++|--} }<i>crf</i> * Example disassembly syntax: {@code beqlr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclr(CRTrue | prediction, 2 | (crf * 4), 0)} * * @see #bclr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 450, Serial#: 450 public void beqlr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4D820020; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code beqlrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code beqlrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclrl(CRTrue | prediction, 2 | (crf * 4), 0)} * * @see #bclrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 451, Serial#: 451 public void beqlrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4D820021; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bgelr{++|--} }<i>crf</i> * Example disassembly syntax: {@code bgelr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclr(CRFalse | prediction, (crf * 4), 0)} * * @see #bclr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 452, Serial#: 452 public void bgelr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C800020; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bgelrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code bgelrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclrl(CRFalse | prediction, (crf * 4), 0)} * * @see #bclrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 453, Serial#: 453 public void bgelrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C800021; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bgtlr{++|--} }<i>crf</i> * Example disassembly syntax: {@code bgtlr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclr(CRTrue | prediction, 1 | (crf * 4), 0)} * * @see #bclr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 454, Serial#: 454 public void bgtlr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4D810020; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bgtlrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code bgtlrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclrl(CRTrue | prediction, 1 | (crf * 4), 0)} * * @see #bclrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 455, Serial#: 455 public void bgtlrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4D810021; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnllr{++|--} }<i>crf</i> * Example disassembly syntax: {@code bnllr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclr(CRFalse | prediction, (crf * 4), 0)} * * @see #bclr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 456, Serial#: 456 public void bnllr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C800020; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnllrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code bnllrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclrl(CRFalse | prediction, (crf * 4), 0)} * * @see #bclrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 457, Serial#: 457 public void bnllrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C800021; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnelr{++|--} }<i>crf</i> * Example disassembly syntax: {@code bnelr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclr(CRFalse | prediction, 2 | (crf * 4), 0)} * * @see #bclr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 458, Serial#: 458 public void bnelr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C820020; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnelrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code bnelrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclrl(CRFalse | prediction, 2 | (crf * 4), 0)} * * @see #bclrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 459, Serial#: 459 public void bnelrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C820021; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnglr{++|--} }<i>crf</i> * Example disassembly syntax: {@code bnglr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclr(CRFalse | prediction, 1 | (crf * 4), 0)} * * @see #bclr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 460, Serial#: 460 public void bnglr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C810020; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnglrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code bnglrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclrl(CRFalse | prediction, 1 | (crf * 4), 0)} * * @see #bclrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 461, Serial#: 461 public void bnglrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C810021; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bsolr{++|--} }<i>crf</i> * Example disassembly syntax: {@code bsolr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclr(CRTrue | prediction, 3 | (crf * 4), 0)} * * @see #bclr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 462, Serial#: 462 public void bsolr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4D830020; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bsolrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code bsolrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclrl(CRTrue | prediction, 3 | (crf * 4), 0)} * * @see #bclrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 463, Serial#: 463 public void bsolrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4D830021; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnslr{++|--} }<i>crf</i> * Example disassembly syntax: {@code bnslr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclr(CRFalse | prediction, 3 | (crf * 4), 0)} * * @see #bclr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 464, Serial#: 464 public void bnslr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C830020; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnslrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code bnslrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclrl(CRFalse | prediction, 3 | (crf * 4), 0)} * * @see #bclrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 465, Serial#: 465 public void bnslrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C830021; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bunlr{++|--} }<i>crf</i> * Example disassembly syntax: {@code bunlr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclr(CRTrue | prediction, 3 | (crf * 4), 0)} * * @see #bclr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 466, Serial#: 466 public void bunlr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4D830020; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bunlrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code bunlrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclrl(CRTrue | prediction, 3 | (crf * 4), 0)} * * @see #bclrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 467, Serial#: 467 public void bunlrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4D830021; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnulr{++|--} }<i>crf</i> * Example disassembly syntax: {@code bnulr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclr(CRFalse | prediction, 3 | (crf * 4), 0)} * * @see #bclr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 468, Serial#: 468 public void bnulr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C830020; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnulrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code bnulrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bclrl(CRFalse | prediction, 3 | (crf * 4), 0)} * * @see #bclrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 469, Serial#: 469 public void bnulrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C830021; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bltctr{++|--} }<i>crf</i> * Example disassembly syntax: {@code bltctr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctr(CRTrue | prediction, (crf * 4), 0)} * * @see #bcctr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 470, Serial#: 470 public void bltctr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4D800420; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bltctrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code bltctrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctrl(CRTrue | prediction, (crf * 4), 0)} * * @see #bcctrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 471, Serial#: 471 public void bltctrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4D800421; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code blectr{++|--} }<i>crf</i> * Example disassembly syntax: {@code blectr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctr(CRFalse | prediction, 1 | (crf * 4), 0)} * * @see #bcctr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 472, Serial#: 472 public void blectr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C810420; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code blectrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code blectrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctrl(CRFalse | prediction, 1 | (crf * 4), 0)} * * @see #bcctrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 473, Serial#: 473 public void blectrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C810421; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code beqctr{++|--} }<i>crf</i> * Example disassembly syntax: {@code beqctr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctr(CRTrue | prediction, 2 | (crf * 4), 0)} * * @see #bcctr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 474, Serial#: 474 public void beqctr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4D820420; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code beqctrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code beqctrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctrl(CRTrue | prediction, 2 | (crf * 4), 0)} * * @see #bcctrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 475, Serial#: 475 public void beqctrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4D820421; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bgectr{++|--} }<i>crf</i> * Example disassembly syntax: {@code bgectr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctr(CRFalse | prediction, (crf * 4), 0)} * * @see #bcctr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 476, Serial#: 476 public void bgectr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C800420; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bgectrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code bgectrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctrl(CRFalse | prediction, (crf * 4), 0)} * * @see #bcctrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 477, Serial#: 477 public void bgectrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C800421; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bgtctr{++|--} }<i>crf</i> * Example disassembly syntax: {@code bgtctr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctr(CRTrue | prediction, 1 | (crf * 4), 0)} * * @see #bcctr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 478, Serial#: 478 public void bgtctr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4D810420; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bgtctrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code bgtctrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctrl(CRTrue | prediction, 1 | (crf * 4), 0)} * * @see #bcctrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 479, Serial#: 479 public void bgtctrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4D810421; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnlctr{++|--} }<i>crf</i> * Example disassembly syntax: {@code bnlctr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctr(CRFalse | prediction, (crf * 4), 0)} * * @see #bcctr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 480, Serial#: 480 public void bnlctr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C800420; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnlctrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code bnlctrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctrl(CRFalse | prediction, (crf * 4), 0)} * * @see #bcctrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 481, Serial#: 481 public void bnlctrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C800421; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnectr{++|--} }<i>crf</i> * Example disassembly syntax: {@code bnectr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctr(CRFalse | prediction, 2 | (crf * 4), 0)} * * @see #bcctr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 482, Serial#: 482 public void bnectr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C820420; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnectrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code bnectrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctrl(CRFalse | prediction, 2 | (crf * 4), 0)} * * @see #bcctrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 483, Serial#: 483 public void bnectrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C820421; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bngctr{++|--} }<i>crf</i> * Example disassembly syntax: {@code bngctr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctr(CRFalse | prediction, 1 | (crf * 4), 0)} * * @see #bcctr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 484, Serial#: 484 public void bngctr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C810420; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bngctrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code bngctrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctrl(CRFalse | prediction, 1 | (crf * 4), 0)} * * @see #bcctrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 485, Serial#: 485 public void bngctrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C810421; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bsoctr{++|--} }<i>crf</i> * Example disassembly syntax: {@code bsoctr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctr(CRTrue | prediction, 3 | (crf * 4), 0)} * * @see #bcctr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 486, Serial#: 486 public void bsoctr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4D830420; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bsoctrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code bsoctrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctrl(CRTrue | prediction, 3 | (crf * 4), 0)} * * @see #bcctrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 487, Serial#: 487 public void bsoctrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4D830421; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnsctr{++|--} }<i>crf</i> * Example disassembly syntax: {@code bnsctr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctr(CRFalse | prediction, 3 | (crf * 4), 0)} * * @see #bcctr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 488, Serial#: 488 public void bnsctr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C830420; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnsctrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code bnsctrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctrl(CRFalse | prediction, 3 | (crf * 4), 0)} * * @see #bcctrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 489, Serial#: 489 public void bnsctrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C830421; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bunctr{++|--} }<i>crf</i> * Example disassembly syntax: {@code bunctr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctr(CRTrue | prediction, 3 | (crf * 4), 0)} * * @see #bcctr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 490, Serial#: 490 public void bunctr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4D830420; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bunctrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code bunctrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctrl(CRTrue | prediction, 3 | (crf * 4), 0)} * * @see #bcctrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 491, Serial#: 491 public void bunctrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4D830421; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnuctr{++|--} }<i>crf</i> * Example disassembly syntax: {@code bnuctr cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctr(CRFalse | prediction, 3 | (crf * 4), 0)} * * @see #bcctr(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 492, Serial#: 492 public void bnuctr(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C830420; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code bnuctrl{++|--} }<i>crf</i> * Example disassembly syntax: {@code bnuctrl cr0} * <p> * This is a synthetic instruction equivalent to: {@code bcctrl(CRFalse | prediction, 3 | (crf * 4), 0)} * * @see #bcctrl(BOOperand, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.2.3 [Book 1]" */ // Template#: 493, Serial#: 493 public void bnuctrl(final CRF crf, final BranchPredictionBits prediction) { int instruction = 0x4C830421; instruction |= ((crf.value() & 0x7) << 18); instruction |= ((prediction.value() & 0x3) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code crset }<i>ba</i> * Example disassembly syntax: {@code crset 0x0} * <p> * This is a synthetic instruction equivalent to: {@code creqv(ba, ba, ba)} * <p> * Constraint: {@code 0 <= ba && ba <= 31}<br /> * Constraint: {@code 0 <= ba && ba <= 31}<br /> * Constraint: {@code 0 <= ba && ba <= 31}<br /> * * @see #creqv(int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.3 [Book 1]" */ // Template#: 494, Serial#: 494 public void crset(final int ba) { int instruction = 0x4C000242; checkConstraint(0 <= ba && ba <= 31, "0 <= ba && ba <= 31"); checkConstraint(0 <= ba && ba <= 31, "0 <= ba && ba <= 31"); checkConstraint(0 <= ba && ba <= 31, "0 <= ba && ba <= 31"); instruction |= ((ba & 0x1f) << 21); instruction |= ((ba & 0x1f) << 16); instruction |= ((ba & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code crclr }<i>ba</i> * Example disassembly syntax: {@code crclr 0x0} * <p> * This is a synthetic instruction equivalent to: {@code crxor(ba, ba, ba)} * <p> * Constraint: {@code 0 <= ba && ba <= 31}<br /> * Constraint: {@code 0 <= ba && ba <= 31}<br /> * Constraint: {@code 0 <= ba && ba <= 31}<br /> * * @see #crxor(int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.3 [Book 1]" */ // Template#: 495, Serial#: 495 public void crclr(final int ba) { int instruction = 0x4C000182; checkConstraint(0 <= ba && ba <= 31, "0 <= ba && ba <= 31"); checkConstraint(0 <= ba && ba <= 31, "0 <= ba && ba <= 31"); checkConstraint(0 <= ba && ba <= 31, "0 <= ba && ba <= 31"); instruction |= ((ba & 0x1f) << 21); instruction |= ((ba & 0x1f) << 16); instruction |= ((ba & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code crmove }<i>bt</i>, <i>ba</i> * Example disassembly syntax: {@code crmove 0x0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code cror(bt, ba, ba)} * <p> * Constraint: {@code 0 <= bt && bt <= 31}<br /> * Constraint: {@code 0 <= ba && ba <= 31}<br /> * Constraint: {@code 0 <= ba && ba <= 31}<br /> * * @see #cror(int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.3 [Book 1]" */ // Template#: 496, Serial#: 496 public void crmove(final int bt, final int ba) { int instruction = 0x4C000382; checkConstraint(0 <= bt && bt <= 31, "0 <= bt && bt <= 31"); checkConstraint(0 <= ba && ba <= 31, "0 <= ba && ba <= 31"); checkConstraint(0 <= ba && ba <= 31, "0 <= ba && ba <= 31"); instruction |= ((bt & 0x1f) << 21); instruction |= ((ba & 0x1f) << 16); instruction |= ((ba & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code crnot }<i>bt</i>, <i>ba</i> * Example disassembly syntax: {@code crnot 0x0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code crnor(bt, ba, ba)} * <p> * Constraint: {@code 0 <= bt && bt <= 31}<br /> * Constraint: {@code 0 <= ba && ba <= 31}<br /> * Constraint: {@code 0 <= ba && ba <= 31}<br /> * * @see #crnor(int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.3 [Book 1]" */ // Template#: 497, Serial#: 497 public void crnot(final int bt, final int ba) { int instruction = 0x4C000042; checkConstraint(0 <= bt && bt <= 31, "0 <= bt && bt <= 31"); checkConstraint(0 <= ba && ba <= 31, "0 <= ba && ba <= 31"); checkConstraint(0 <= ba && ba <= 31, "0 <= ba && ba <= 31"); instruction |= ((bt & 0x1f) << 21); instruction |= ((ba & 0x1f) << 16); instruction |= ((ba & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subi }<i>rt</i>, <i>ra</i>, <i>val</i> * Example disassembly syntax: {@code subi r0, 0, 0xffff8000} * <p> * This is a synthetic instruction equivalent to: {@code addi(rt, ra, -val)} * <p> * Constraint: {@code ra != R0}<br /> * Constraint: {@code -32768 <= -val && -val <= 32767}<br /> * * @see #addi(GPR, ZeroOrRegister, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.4.1 [Book 1]" */ // Template#: 498, Serial#: 498 public void subi(final GPR rt, final ZeroOrRegister ra, final int val) { int instruction = 0x38000000; checkConstraint(ra != R0, "ra != R0"); checkConstraint(-32768 <= -val && -val <= 32767, "-32768 <= -val && -val <= 32767"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (-val & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subis }<i>rt</i>, <i>ra</i>, <i>val</i> * Example disassembly syntax: {@code subis r0, 0, 0xffff8000} * <p> * This is a synthetic instruction equivalent to: {@code addis(rt, ra, -val)} * <p> * Constraint: {@code ra != R0}<br /> * Constraint: {@code -32768 <= -val && -val <= 32767}<br /> * * @see #addis(GPR, ZeroOrRegister, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.4.1 [Book 1]" */ // Template#: 499, Serial#: 499 public void subis(final GPR rt, final ZeroOrRegister ra, final int val) { int instruction = 0x3C000000; checkConstraint(ra != R0, "ra != R0"); checkConstraint(-32768 <= -val && -val <= 32767, "-32768 <= -val && -val <= 32767"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (-val & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subic }<i>rt</i>, <i>ra</i>, <i>val</i> * Example disassembly syntax: {@code subic r0, r0, 0xffff8000} * <p> * This is a synthetic instruction equivalent to: {@code addic(rt, ra, -val)} * <p> * Constraint: {@code -32768 <= -val && -val <= 32767}<br /> * * @see #addic(GPR, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.4.1 [Book 1]" */ // Template#: 500, Serial#: 500 public void subic(final GPR rt, final GPR ra, final int val) { int instruction = 0x30000000; checkConstraint(-32768 <= -val && -val <= 32767, "-32768 <= -val && -val <= 32767"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (-val & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subic. }<i>rt</i>, <i>ra</i>, <i>val</i> * Example disassembly syntax: {@code subic. r0, r0, 0xffff8000} * <p> * This is a synthetic instruction equivalent to: {@code addic_(rt, ra, -val)} * <p> * Constraint: {@code -32768 <= -val && -val <= 32767}<br /> * * @see #addic_(GPR, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.4.1 [Book 1]" */ // Template#: 501, Serial#: 501 public void subic_(final GPR rt, final GPR ra, final int val) { int instruction = 0x34000000; checkConstraint(-32768 <= -val && -val <= 32767, "-32768 <= -val && -val <= 32767"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (-val & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code sub }<i>rt</i>, <i>rb</i>, <i>ra</i> * Example disassembly syntax: {@code sub r0, r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code subf(rt, ra, rb)} * * @see #subf(GPR, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.4.2 [Book 1]" */ // Template#: 502, Serial#: 502 public void sub(final GPR rt, final GPR rb, final GPR ra) { int instruction = 0x7C000050; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code sub. }<i>rt</i>, <i>rb</i>, <i>ra</i> * Example disassembly syntax: {@code sub. r0, r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code subf_(rt, ra, rb)} * * @see #subf_(GPR, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.4.2 [Book 1]" */ // Template#: 503, Serial#: 503 public void sub_(final GPR rt, final GPR rb, final GPR ra) { int instruction = 0x7C000051; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subo }<i>rt</i>, <i>rb</i>, <i>ra</i> * Example disassembly syntax: {@code subo r0, r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code subfo(rt, ra, rb)} * * @see #subfo(GPR, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.4.2 [Book 1]" */ // Template#: 504, Serial#: 504 public void subo(final GPR rt, final GPR rb, final GPR ra) { int instruction = 0x7C000450; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subo. }<i>rt</i>, <i>rb</i>, <i>ra</i> * Example disassembly syntax: {@code subo. r0, r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code subfo_(rt, ra, rb)} * * @see #subfo_(GPR, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.4.2 [Book 1]" */ // Template#: 505, Serial#: 505 public void subo_(final GPR rt, final GPR rb, final GPR ra) { int instruction = 0x7C000451; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subc }<i>rt</i>, <i>rb</i>, <i>ra</i> * Example disassembly syntax: {@code subc r0, r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code subfc(rt, ra, rb)} * * @see #subfc(GPR, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.4.2 [Book 1]" */ // Template#: 506, Serial#: 506 public void subc(final GPR rt, final GPR rb, final GPR ra) { int instruction = 0x7C000010; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subc. }<i>rt</i>, <i>rb</i>, <i>ra</i> * Example disassembly syntax: {@code subc. r0, r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code subfc_(rt, ra, rb)} * * @see #subfc_(GPR, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.4.2 [Book 1]" */ // Template#: 507, Serial#: 507 public void subc_(final GPR rt, final GPR rb, final GPR ra) { int instruction = 0x7C000011; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subco }<i>rt</i>, <i>rb</i>, <i>ra</i> * Example disassembly syntax: {@code subco r0, r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code subfco(rt, ra, rb)} * * @see #subfco(GPR, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.4.2 [Book 1]" */ // Template#: 508, Serial#: 508 public void subco(final GPR rt, final GPR rb, final GPR ra) { int instruction = 0x7C000410; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code subco. }<i>rt</i>, <i>rb</i>, <i>ra</i> * Example disassembly syntax: {@code subco. r0, r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code subfco_(rt, ra, rb)} * * @see #subfco_(GPR, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.4.2 [Book 1]" */ // Template#: 509, Serial#: 509 public void subco_(final GPR rt, final GPR rb, final GPR ra) { int instruction = 0x7C000411; instruction |= ((rt.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cmpdi }<i>bf</i>, <i>ra</i>, <i>si</i> * Example disassembly syntax: {@code cmpdi 0, r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code cmpi(bf, 1, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #cmpi(CRF, int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.5.1 [Book 1]" */ // Template#: 510, Serial#: 510 public void cmpdi(final CRF bf, final GPR ra, final int si) { int instruction = 0x2C200000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((bf.value() & 0x7) << 23); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cmpdi }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code cmpdi r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code cmpi(CR0, 1, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #cmpi(CRF, int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.5.1 [Book 1]" */ // Template#: 511, Serial#: 511 public void cmpdi(final GPR ra, final int si) { int instruction = 0x2C200000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cmpd }<i>bf</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code cmpd 0, r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code cmp(bf, 1, ra, rb)} * * @see #cmp(CRF, int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.5.1 [Book 1]" */ // Template#: 512, Serial#: 512 public void cmpd(final CRF bf, final GPR ra, final GPR rb) { int instruction = 0x7C200000; instruction |= ((bf.value() & 0x7) << 23); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cmpd }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code cmpd r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code cmp(CR0, 1, ra, rb)} * * @see #cmp(CRF, int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.5.1 [Book 1]" */ // Template#: 513, Serial#: 513 public void cmpd(final GPR ra, final GPR rb) { int instruction = 0x7C200000; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cmpldi }<i>bf</i>, <i>ra</i>, <i>ui</i> * Example disassembly syntax: {@code cmpldi 0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code cmpli(bf, 1, ra, ui)} * <p> * Constraint: {@code 0 <= ui && ui <= 65535}<br /> * * @see #cmpli(CRF, int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.5.1 [Book 1]" */ // Template#: 514, Serial#: 514 public void cmpldi(final CRF bf, final GPR ra, final int ui) { int instruction = 0x28200000; checkConstraint(0 <= ui && ui <= 65535, "0 <= ui && ui <= 65535"); instruction |= ((bf.value() & 0x7) << 23); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (ui & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cmpldi }<i>ra</i>, <i>ui</i> * Example disassembly syntax: {@code cmpldi r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code cmpli(CR0, 1, ra, ui)} * <p> * Constraint: {@code 0 <= ui && ui <= 65535}<br /> * * @see #cmpli(CRF, int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.5.1 [Book 1]" */ // Template#: 515, Serial#: 515 public void cmpldi(final GPR ra, final int ui) { int instruction = 0x28200000; checkConstraint(0 <= ui && ui <= 65535, "0 <= ui && ui <= 65535"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (ui & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cmpld }<i>bf</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code cmpld 0, r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code cmpl(bf, 1, ra, rb)} * * @see #cmpl(CRF, int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.5.1 [Book 1]" */ // Template#: 516, Serial#: 516 public void cmpld(final CRF bf, final GPR ra, final GPR rb) { int instruction = 0x7C200040; instruction |= ((bf.value() & 0x7) << 23); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cmpld }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code cmpld r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code cmpl(CR0, 1, ra, rb)} * * @see #cmpl(CRF, int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.5.1 [Book 1]" */ // Template#: 517, Serial#: 517 public void cmpld(final GPR ra, final GPR rb) { int instruction = 0x7C200040; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cmpwi }<i>bf</i>, <i>ra</i>, <i>si</i> * Example disassembly syntax: {@code cmpwi 0, r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code cmpi(bf, 0, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #cmpi(CRF, int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.5.2 [Book 1]" */ // Template#: 518, Serial#: 518 public void cmpwi(final CRF bf, final GPR ra, final int si) { int instruction = 0x2C000000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((bf.value() & 0x7) << 23); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cmpwi }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code cmpwi r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code cmpi(CR0, 0, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #cmpi(CRF, int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.5.2 [Book 1]" */ // Template#: 519, Serial#: 519 public void cmpwi(final GPR ra, final int si) { int instruction = 0x2C000000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cmpw }<i>bf</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code cmpw 0, r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code cmp(bf, 0, ra, rb)} * * @see #cmp(CRF, int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.5.2 [Book 1]" */ // Template#: 520, Serial#: 520 public void cmpw(final CRF bf, final GPR ra, final GPR rb) { int instruction = 0x7C000000; instruction |= ((bf.value() & 0x7) << 23); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cmpw }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code cmpw r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code cmp(CR0, 0, ra, rb)} * * @see #cmp(CRF, int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.5.2 [Book 1]" */ // Template#: 521, Serial#: 521 public void cmpw(final GPR ra, final GPR rb) { int instruction = 0x7C000000; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cmplwi }<i>bf</i>, <i>ra</i>, <i>ui</i> * Example disassembly syntax: {@code cmplwi 0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code cmpli(bf, 0, ra, ui)} * <p> * Constraint: {@code 0 <= ui && ui <= 65535}<br /> * * @see #cmpli(CRF, int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.5.2 [Book 1]" */ // Template#: 522, Serial#: 522 public void cmplwi(final CRF bf, final GPR ra, final int ui) { int instruction = 0x28000000; checkConstraint(0 <= ui && ui <= 65535, "0 <= ui && ui <= 65535"); instruction |= ((bf.value() & 0x7) << 23); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (ui & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cmplwi }<i>ra</i>, <i>ui</i> * Example disassembly syntax: {@code cmplwi r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code cmpli(CR0, 0, ra, ui)} * <p> * Constraint: {@code 0 <= ui && ui <= 65535}<br /> * * @see #cmpli(CRF, int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.5.2 [Book 1]" */ // Template#: 523, Serial#: 523 public void cmplwi(final GPR ra, final int ui) { int instruction = 0x28000000; checkConstraint(0 <= ui && ui <= 65535, "0 <= ui && ui <= 65535"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (ui & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cmplw }<i>bf</i>, <i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code cmplw 0, r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code cmpl(bf, 0, ra, rb)} * * @see #cmpl(CRF, int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.5.2 [Book 1]" */ // Template#: 524, Serial#: 524 public void cmplw(final CRF bf, final GPR ra, final GPR rb) { int instruction = 0x7C000040; instruction |= ((bf.value() & 0x7) << 23); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code cmplw }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code cmplw r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code cmpl(CR0, 0, ra, rb)} * * @see #cmpl(CRF, int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.5.2 [Book 1]" */ // Template#: 525, Serial#: 525 public void cmplw(final GPR ra, final GPR rb) { int instruction = 0x7C000040; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twlti }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code twlti r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code twi(16, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #twi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 526, Serial#: 526 public void twlti(final GPR ra, final int si) { int instruction = 0x0E000000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twlei }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code twlei r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code twi(20, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #twi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 527, Serial#: 527 public void twlei(final GPR ra, final int si) { int instruction = 0x0E800000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tweqi }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code tweqi r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code twi(4, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #twi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 528, Serial#: 528 public void tweqi(final GPR ra, final int si) { int instruction = 0x0C800000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twgei }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code twgei r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code twi(12, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #twi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 529, Serial#: 529 public void twgei(final GPR ra, final int si) { int instruction = 0x0D800000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twgti }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code twgti r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code twi(8, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #twi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 530, Serial#: 530 public void twgti(final GPR ra, final int si) { int instruction = 0x0D000000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twnli }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code twnli r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code twi(12, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #twi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 531, Serial#: 531 public void twnli(final GPR ra, final int si) { int instruction = 0x0D800000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twnei }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code twnei r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code twi(24, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #twi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 532, Serial#: 532 public void twnei(final GPR ra, final int si) { int instruction = 0x0F000000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twngi }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code twngi r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code twi(20, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #twi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 533, Serial#: 533 public void twngi(final GPR ra, final int si) { int instruction = 0x0E800000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twllti }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code twllti r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code twi(2, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #twi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 534, Serial#: 534 public void twllti(final GPR ra, final int si) { int instruction = 0x0C400000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twllei }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code twllei r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code twi(6, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #twi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 535, Serial#: 535 public void twllei(final GPR ra, final int si) { int instruction = 0x0CC00000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twlgei }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code twlgei r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code twi(5, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #twi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 536, Serial#: 536 public void twlgei(final GPR ra, final int si) { int instruction = 0x0CA00000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twlgti }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code twlgti r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code twi(1, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #twi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 537, Serial#: 537 public void twlgti(final GPR ra, final int si) { int instruction = 0x0C200000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twlnli }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code twlnli r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code twi(5, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #twi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 538, Serial#: 538 public void twlnli(final GPR ra, final int si) { int instruction = 0x0CA00000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twlngi }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code twlngi r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code twi(6, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #twi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 539, Serial#: 539 public void twlngi(final GPR ra, final int si) { int instruction = 0x0CC00000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twlt }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code twlt r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code tw(16, ra, rb)} * * @see #tw(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 540, Serial#: 540 public void twlt(final GPR ra, final GPR rb) { int instruction = 0x7E000008; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twle }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code twle r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code tw(20, ra, rb)} * * @see #tw(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 541, Serial#: 541 public void twle(final GPR ra, final GPR rb) { int instruction = 0x7E800008; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tweq }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code tweq r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code tw(4, ra, rb)} * * @see #tw(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 542, Serial#: 542 public void tweq(final GPR ra, final GPR rb) { int instruction = 0x7C800008; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twge }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code twge r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code tw(12, ra, rb)} * * @see #tw(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 543, Serial#: 543 public void twge(final GPR ra, final GPR rb) { int instruction = 0x7D800008; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twgt }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code twgt r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code tw(8, ra, rb)} * * @see #tw(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 544, Serial#: 544 public void twgt(final GPR ra, final GPR rb) { int instruction = 0x7D000008; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twnl }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code twnl r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code tw(12, ra, rb)} * * @see #tw(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 545, Serial#: 545 public void twnl(final GPR ra, final GPR rb) { int instruction = 0x7D800008; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twne }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code twne r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code tw(24, ra, rb)} * * @see #tw(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 546, Serial#: 546 public void twne(final GPR ra, final GPR rb) { int instruction = 0x7F000008; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twng }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code twng r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code tw(20, ra, rb)} * * @see #tw(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 547, Serial#: 547 public void twng(final GPR ra, final GPR rb) { int instruction = 0x7E800008; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twllt }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code twllt r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code tw(2, ra, rb)} * * @see #tw(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 548, Serial#: 548 public void twllt(final GPR ra, final GPR rb) { int instruction = 0x7C400008; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twlle }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code twlle r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code tw(6, ra, rb)} * * @see #tw(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 549, Serial#: 549 public void twlle(final GPR ra, final GPR rb) { int instruction = 0x7CC00008; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twlge }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code twlge r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code tw(5, ra, rb)} * * @see #tw(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 550, Serial#: 550 public void twlge(final GPR ra, final GPR rb) { int instruction = 0x7CA00008; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twlgt }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code twlgt r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code tw(1, ra, rb)} * * @see #tw(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 551, Serial#: 551 public void twlgt(final GPR ra, final GPR rb) { int instruction = 0x7C200008; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twlnl }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code twlnl r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code tw(5, ra, rb)} * * @see #tw(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 552, Serial#: 552 public void twlnl(final GPR ra, final GPR rb) { int instruction = 0x7CA00008; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code twlng }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code twlng r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code tw(6, ra, rb)} * * @see #tw(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 553, Serial#: 553 public void twlng(final GPR ra, final GPR rb) { int instruction = 0x7CC00008; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code trap } * Example disassembly syntax: {@code trap } * <p> * This is a synthetic instruction equivalent to: {@code tw(31, R0, R0)} * * @see #tw(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 554, Serial#: 554 public void trap() { int instruction = 0x7FE00008; emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdlti }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code tdlti r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code tdi(16, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #tdi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 555, Serial#: 555 public void tdlti(final GPR ra, final int si) { int instruction = 0x0A000000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdlei }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code tdlei r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code tdi(20, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #tdi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 556, Serial#: 556 public void tdlei(final GPR ra, final int si) { int instruction = 0x0A800000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdeqi }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code tdeqi r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code tdi(4, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #tdi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 557, Serial#: 557 public void tdeqi(final GPR ra, final int si) { int instruction = 0x08800000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdgei }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code tdgei r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code tdi(12, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #tdi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 558, Serial#: 558 public void tdgei(final GPR ra, final int si) { int instruction = 0x09800000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdgti }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code tdgti r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code tdi(8, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #tdi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 559, Serial#: 559 public void tdgti(final GPR ra, final int si) { int instruction = 0x09000000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdnli }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code tdnli r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code tdi(12, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #tdi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 560, Serial#: 560 public void tdnli(final GPR ra, final int si) { int instruction = 0x09800000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdnei }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code tdnei r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code tdi(24, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #tdi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 561, Serial#: 561 public void tdnei(final GPR ra, final int si) { int instruction = 0x0B000000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdngi }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code tdngi r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code tdi(20, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #tdi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 562, Serial#: 562 public void tdngi(final GPR ra, final int si) { int instruction = 0x0A800000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdllti }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code tdllti r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code tdi(2, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #tdi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 563, Serial#: 563 public void tdllti(final GPR ra, final int si) { int instruction = 0x08400000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdllei }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code tdllei r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code tdi(6, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #tdi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 564, Serial#: 564 public void tdllei(final GPR ra, final int si) { int instruction = 0x08C00000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdlgei }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code tdlgei r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code tdi(5, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #tdi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 565, Serial#: 565 public void tdlgei(final GPR ra, final int si) { int instruction = 0x08A00000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdlgti }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code tdlgti r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code tdi(1, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #tdi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 566, Serial#: 566 public void tdlgti(final GPR ra, final int si) { int instruction = 0x08200000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdlnli }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code tdlnli r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code tdi(5, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #tdi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 567, Serial#: 567 public void tdlnli(final GPR ra, final int si) { int instruction = 0x08A00000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdlngi }<i>ra</i>, <i>si</i> * Example disassembly syntax: {@code tdlngi r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code tdi(6, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #tdi(int, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 568, Serial#: 568 public void tdlngi(final GPR ra, final int si) { int instruction = 0x08C00000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdlt }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code tdlt r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code td(16, ra, rb)} * * @see #td(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 569, Serial#: 569 public void tdlt(final GPR ra, final GPR rb) { int instruction = 0x7E000088; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdle }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code tdle r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code td(20, ra, rb)} * * @see #td(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 570, Serial#: 570 public void tdle(final GPR ra, final GPR rb) { int instruction = 0x7E800088; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdeq }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code tdeq r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code td(4, ra, rb)} * * @see #td(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 571, Serial#: 571 public void tdeq(final GPR ra, final GPR rb) { int instruction = 0x7C800088; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdge }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code tdge r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code td(12, ra, rb)} * * @see #td(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 572, Serial#: 572 public void tdge(final GPR ra, final GPR rb) { int instruction = 0x7D800088; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdgt }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code tdgt r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code td(8, ra, rb)} * * @see #td(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 573, Serial#: 573 public void tdgt(final GPR ra, final GPR rb) { int instruction = 0x7D000088; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdnl }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code tdnl r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code td(12, ra, rb)} * * @see #td(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 574, Serial#: 574 public void tdnl(final GPR ra, final GPR rb) { int instruction = 0x7D800088; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdne }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code tdne r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code td(24, ra, rb)} * * @see #td(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 575, Serial#: 575 public void tdne(final GPR ra, final GPR rb) { int instruction = 0x7F000088; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdng }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code tdng r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code td(20, ra, rb)} * * @see #td(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 576, Serial#: 576 public void tdng(final GPR ra, final GPR rb) { int instruction = 0x7E800088; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdllt }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code tdllt r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code td(2, ra, rb)} * * @see #td(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 577, Serial#: 577 public void tdllt(final GPR ra, final GPR rb) { int instruction = 0x7C400088; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdlle }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code tdlle r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code td(6, ra, rb)} * * @see #td(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 578, Serial#: 578 public void tdlle(final GPR ra, final GPR rb) { int instruction = 0x7CC00088; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdlge }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code tdlge r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code td(5, ra, rb)} * * @see #td(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 579, Serial#: 579 public void tdlge(final GPR ra, final GPR rb) { int instruction = 0x7CA00088; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdlgt }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code tdlgt r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code td(1, ra, rb)} * * @see #td(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 580, Serial#: 580 public void tdlgt(final GPR ra, final GPR rb) { int instruction = 0x7C200088; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdlnl }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code tdlnl r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code td(5, ra, rb)} * * @see #td(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 581, Serial#: 581 public void tdlnl(final GPR ra, final GPR rb) { int instruction = 0x7CA00088; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code tdlng }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code tdlng r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code td(6, ra, rb)} * * @see #td(int, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.6 [Book 1]" */ // Template#: 582, Serial#: 582 public void tdlng(final GPR ra, final GPR rb) { int instruction = 0x7CC00088; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code extldi }<i>ra</i>, <i>rs</i>, <i>n</i>, <i>b</i> * Example disassembly syntax: {@code extldi r0, r0, 0x0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rldicr(ra, rs, b, n - 1)} * <p> * Constraint: {@code 0 <= b && b <= 63}<br /> * Constraint: {@code 0 <= n - 1 && n - 1 <= 63}<br /> * * @see #rldicr(GPR, GPR, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.1 [Book 1]" */ // Template#: 583, Serial#: 583 public void extldi(final GPR ra, final GPR rs, final int n, final int b) { int instruction = 0x78000004; checkConstraint(0 <= b && b <= 63, "0 <= b && b <= 63"); checkConstraint(0 <= n - 1 && n - 1 <= 63, "0 <= n - 1 && n - 1 <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((b & 0x1f) << 11) | (((b >>> 5) & 0x1) << 1); instruction |= ((n - 1 & 0x1f) << 6) | (((n - 1 >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code extldi. }<i>ra</i>, <i>rs</i>, <i>n</i>, <i>b</i> * Example disassembly syntax: {@code extldi. r0, r0, 0x0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rldicr_(ra, rs, b, n - 1)} * <p> * Constraint: {@code 0 <= b && b <= 63}<br /> * Constraint: {@code 0 <= n - 1 && n - 1 <= 63}<br /> * * @see #rldicr_(GPR, GPR, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.1 [Book 1]" */ // Template#: 584, Serial#: 584 public void extldi_(final GPR ra, final GPR rs, final int n, final int b) { int instruction = 0x78000005; checkConstraint(0 <= b && b <= 63, "0 <= b && b <= 63"); checkConstraint(0 <= n - 1 && n - 1 <= 63, "0 <= n - 1 && n - 1 <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((b & 0x1f) << 11) | (((b >>> 5) & 0x1) << 1); instruction |= ((n - 1 & 0x1f) << 6) | (((n - 1 >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code extrdi }<i>ra</i>, <i>rs</i>, <i>n</i>, <i>b</i> * Example disassembly syntax: {@code extrdi r0, r0, 0x0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rldicl(ra, rs, b + n, 64 - n)} * <p> * Constraint: {@code 0 <= b + n && b + n <= 63}<br /> * Constraint: {@code 0 <= 64 - n && 64 - n <= 63}<br /> * * @see #rldicl(GPR, GPR, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.1 [Book 1]" */ // Template#: 585, Serial#: 585 public void extrdi(final GPR ra, final GPR rs, final int n, final int b) { int instruction = 0x78000000; checkConstraint(0 <= b + n && b + n <= 63, "0 <= b + n && b + n <= 63"); checkConstraint(0 <= 64 - n && 64 - n <= 63, "0 <= 64 - n && 64 - n <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((b + n & 0x1f) << 11) | (((b + n >>> 5) & 0x1) << 1); instruction |= ((64 - n & 0x1f) << 6) | (((64 - n >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code extrdi. }<i>ra</i>, <i>rs</i>, <i>n</i>, <i>b</i> * Example disassembly syntax: {@code extrdi. r0, r0, 0x0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rldicl_(ra, rs, b + n, 64 - n)} * <p> * Constraint: {@code 0 <= b + n && b + n <= 63}<br /> * Constraint: {@code 0 <= 64 - n && 64 - n <= 63}<br /> * * @see #rldicl_(GPR, GPR, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.1 [Book 1]" */ // Template#: 586, Serial#: 586 public void extrdi_(final GPR ra, final GPR rs, final int n, final int b) { int instruction = 0x78000001; checkConstraint(0 <= b + n && b + n <= 63, "0 <= b + n && b + n <= 63"); checkConstraint(0 <= 64 - n && 64 - n <= 63, "0 <= 64 - n && 64 - n <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((b + n & 0x1f) << 11) | (((b + n >>> 5) & 0x1) << 1); instruction |= ((64 - n & 0x1f) << 6) | (((64 - n >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code insrdi }<i>ra</i>, <i>rs</i>, <i>n</i>, <i>b</i> * Example disassembly syntax: {@code insrdi r0, r0, 0x0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rldimi(ra, rs, 64 - (b + n), b)} * <p> * Constraint: {@code 0 <= 64 - (b + n) && 64 - (b + n) <= 63}<br /> * Constraint: {@code 0 <= b && b <= 63}<br /> * * @see #rldimi(GPR, GPR, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.1 [Book 1]" */ // Template#: 587, Serial#: 587 public void insrdi(final GPR ra, final GPR rs, final int n, final int b) { int instruction = 0x7800000C; checkConstraint(0 <= 64 - (b + n) && 64 - (b + n) <= 63, "0 <= 64 - (b + n) && 64 - (b + n) <= 63"); checkConstraint(0 <= b && b <= 63, "0 <= b && b <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((64 - (b + n) & 0x1f) << 11) | (((64 - (b + n) >>> 5) & 0x1) << 1); instruction |= ((b & 0x1f) << 6) | (((b >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code insrdi. }<i>ra</i>, <i>rs</i>, <i>n</i>, <i>b</i> * Example disassembly syntax: {@code insrdi. r0, r0, 0x0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rldimi_(ra, rs, 64 - (b + n), b)} * <p> * Constraint: {@code 0 <= 64 - (b + n) && 64 - (b + n) <= 63}<br /> * Constraint: {@code 0 <= b && b <= 63}<br /> * * @see #rldimi_(GPR, GPR, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.1 [Book 1]" */ // Template#: 588, Serial#: 588 public void insrdi_(final GPR ra, final GPR rs, final int n, final int b) { int instruction = 0x7800000D; checkConstraint(0 <= 64 - (b + n) && 64 - (b + n) <= 63, "0 <= 64 - (b + n) && 64 - (b + n) <= 63"); checkConstraint(0 <= b && b <= 63, "0 <= b && b <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((64 - (b + n) & 0x1f) << 11) | (((64 - (b + n) >>> 5) & 0x1) << 1); instruction |= ((b & 0x1f) << 6) | (((b >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rotldi }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code rotldi r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rldicl(ra, rs, n, 0)} * <p> * Constraint: {@code 0 <= n && n <= 63}<br /> * * @see #rldicl(GPR, GPR, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.1 [Book 1]" */ // Template#: 589, Serial#: 589 public void rotldi(final GPR ra, final GPR rs, final int n) { int instruction = 0x78000000; checkConstraint(0 <= n && n <= 63, "0 <= n && n <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((n & 0x1f) << 11) | (((n >>> 5) & 0x1) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rotldi. }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code rotldi. r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rldicl_(ra, rs, n, 0)} * <p> * Constraint: {@code 0 <= n && n <= 63}<br /> * * @see #rldicl_(GPR, GPR, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.1 [Book 1]" */ // Template#: 590, Serial#: 590 public void rotldi_(final GPR ra, final GPR rs, final int n) { int instruction = 0x78000001; checkConstraint(0 <= n && n <= 63, "0 <= n && n <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((n & 0x1f) << 11) | (((n >>> 5) & 0x1) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rotrdi }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code rotrdi r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rldicl(ra, rs, 64 - n, 0)} * <p> * Constraint: {@code 0 <= 64 - n && 64 - n <= 63}<br /> * * @see #rldicl(GPR, GPR, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.1 [Book 1]" */ // Template#: 591, Serial#: 591 public void rotrdi(final GPR ra, final GPR rs, final int n) { int instruction = 0x78000000; checkConstraint(0 <= 64 - n && 64 - n <= 63, "0 <= 64 - n && 64 - n <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((64 - n & 0x1f) << 11) | (((64 - n >>> 5) & 0x1) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rotrdi. }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code rotrdi. r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rldicl_(ra, rs, 64 - n, 0)} * <p> * Constraint: {@code 0 <= 64 - n && 64 - n <= 63}<br /> * * @see #rldicl_(GPR, GPR, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.1 [Book 1]" */ // Template#: 592, Serial#: 592 public void rotrdi_(final GPR ra, final GPR rs, final int n) { int instruction = 0x78000001; checkConstraint(0 <= 64 - n && 64 - n <= 63, "0 <= 64 - n && 64 - n <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((64 - n & 0x1f) << 11) | (((64 - n >>> 5) & 0x1) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rotld }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code rotld r0, r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code rldcl(ra, rs, rb, 0)} * * @see #rldcl(GPR, GPR, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.1 [Book 1]" */ // Template#: 593, Serial#: 593 public void rotld(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x78000010; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rotld. }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code rotld. r0, r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code rldcl_(ra, rs, rb, 0)} * * @see #rldcl_(GPR, GPR, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.1 [Book 1]" */ // Template#: 594, Serial#: 594 public void rotld_(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x78000011; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code sldi }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code sldi r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rldicr(ra, rs, n, 63 - n)} * <p> * Constraint: {@code 0 <= n && n <= 63}<br /> * Constraint: {@code 0 <= 63 - n && 63 - n <= 63}<br /> * * @see #rldicr(GPR, GPR, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.1 [Book 1]" */ // Template#: 595, Serial#: 595 public void sldi(final GPR ra, final GPR rs, final int n) { int instruction = 0x78000004; checkConstraint(0 <= n && n <= 63, "0 <= n && n <= 63"); checkConstraint(0 <= 63 - n && 63 - n <= 63, "0 <= 63 - n && 63 - n <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((n & 0x1f) << 11) | (((n >>> 5) & 0x1) << 1); instruction |= ((63 - n & 0x1f) << 6) | (((63 - n >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code sldi. }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code sldi. r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rldicr_(ra, rs, n, 63 - n)} * <p> * Constraint: {@code 0 <= n && n <= 63}<br /> * Constraint: {@code 0 <= 63 - n && 63 - n <= 63}<br /> * * @see #rldicr_(GPR, GPR, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.1 [Book 1]" */ // Template#: 596, Serial#: 596 public void sldi_(final GPR ra, final GPR rs, final int n) { int instruction = 0x78000005; checkConstraint(0 <= n && n <= 63, "0 <= n && n <= 63"); checkConstraint(0 <= 63 - n && 63 - n <= 63, "0 <= 63 - n && 63 - n <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((n & 0x1f) << 11) | (((n >>> 5) & 0x1) << 1); instruction |= ((63 - n & 0x1f) << 6) | (((63 - n >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code srdi }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code srdi r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rldicl(ra, rs, 64 - n, n)} * <p> * Constraint: {@code 0 <= 64 - n && 64 - n <= 63}<br /> * Constraint: {@code 0 <= n && n <= 63}<br /> * * @see #rldicl(GPR, GPR, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.1 [Book 1]" */ // Template#: 597, Serial#: 597 public void srdi(final GPR ra, final GPR rs, final int n) { int instruction = 0x78000000; checkConstraint(0 <= 64 - n && 64 - n <= 63, "0 <= 64 - n && 64 - n <= 63"); checkConstraint(0 <= n && n <= 63, "0 <= n && n <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((64 - n & 0x1f) << 11) | (((64 - n >>> 5) & 0x1) << 1); instruction |= ((n & 0x1f) << 6) | (((n >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code srdi. }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code srdi. r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rldicl_(ra, rs, 64 - n, n)} * <p> * Constraint: {@code 0 <= 64 - n && 64 - n <= 63}<br /> * Constraint: {@code 0 <= n && n <= 63}<br /> * * @see #rldicl_(GPR, GPR, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.1 [Book 1]" */ // Template#: 598, Serial#: 598 public void srdi_(final GPR ra, final GPR rs, final int n) { int instruction = 0x78000001; checkConstraint(0 <= 64 - n && 64 - n <= 63, "0 <= 64 - n && 64 - n <= 63"); checkConstraint(0 <= n && n <= 63, "0 <= n && n <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((64 - n & 0x1f) << 11) | (((64 - n >>> 5) & 0x1) << 1); instruction |= ((n & 0x1f) << 6) | (((n >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code clrldi }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code clrldi r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rldicl(ra, rs, 0, n)} * <p> * Constraint: {@code 0 <= n && n <= 63}<br /> * * @see #rldicl(GPR, GPR, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.1 [Book 1]" */ // Template#: 599, Serial#: 599 public void clrldi(final GPR ra, final GPR rs, final int n) { int instruction = 0x78000000; checkConstraint(0 <= n && n <= 63, "0 <= n && n <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((n & 0x1f) << 6) | (((n >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code clrldi. }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code clrldi. r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rldicl_(ra, rs, 0, n)} * <p> * Constraint: {@code 0 <= n && n <= 63}<br /> * * @see #rldicl_(GPR, GPR, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.1 [Book 1]" */ // Template#: 600, Serial#: 600 public void clrldi_(final GPR ra, final GPR rs, final int n) { int instruction = 0x78000001; checkConstraint(0 <= n && n <= 63, "0 <= n && n <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((n & 0x1f) << 6) | (((n >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code clrrdi }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code clrrdi r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rldicr(ra, rs, 0, 63 - n)} * <p> * Constraint: {@code 0 <= 63 - n && 63 - n <= 63}<br /> * * @see #rldicr(GPR, GPR, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.1 [Book 1]" */ // Template#: 601, Serial#: 601 public void clrrdi(final GPR ra, final GPR rs, final int n) { int instruction = 0x78000004; checkConstraint(0 <= 63 - n && 63 - n <= 63, "0 <= 63 - n && 63 - n <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((63 - n & 0x1f) << 6) | (((63 - n >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code clrrdi. }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code clrrdi. r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rldicr_(ra, rs, 0, 63 - n)} * <p> * Constraint: {@code 0 <= 63 - n && 63 - n <= 63}<br /> * * @see #rldicr_(GPR, GPR, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.1 [Book 1]" */ // Template#: 602, Serial#: 602 public void clrrdi_(final GPR ra, final GPR rs, final int n) { int instruction = 0x78000005; checkConstraint(0 <= 63 - n && 63 - n <= 63, "0 <= 63 - n && 63 - n <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((63 - n & 0x1f) << 6) | (((63 - n >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code clrlsldi }<i>ra</i>, <i>rs</i>, <i>b</i>, <i>n</i> * Example disassembly syntax: {@code clrlsldi r0, r0, 0x0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rldic(ra, rs, n, b - n)} * <p> * Constraint: {@code 0 <= n && n <= 63}<br /> * Constraint: {@code 0 <= b - n && b - n <= 63}<br /> * * @see #rldic(GPR, GPR, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.1 [Book 1]" */ // Template#: 603, Serial#: 603 public void clrlsldi(final GPR ra, final GPR rs, final int b, final int n) { int instruction = 0x78000008; checkConstraint(0 <= n && n <= 63, "0 <= n && n <= 63"); checkConstraint(0 <= b - n && b - n <= 63, "0 <= b - n && b - n <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((n & 0x1f) << 11) | (((n >>> 5) & 0x1) << 1); instruction |= ((b - n & 0x1f) << 6) | (((b - n >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code clrlsldi. }<i>ra</i>, <i>rs</i>, <i>b</i>, <i>n</i> * Example disassembly syntax: {@code clrlsldi. r0, r0, 0x0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rldic_(ra, rs, n, b - n)} * <p> * Constraint: {@code 0 <= n && n <= 63}<br /> * Constraint: {@code 0 <= b - n && b - n <= 63}<br /> * * @see #rldic_(GPR, GPR, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.1 [Book 1]" */ // Template#: 604, Serial#: 604 public void clrlsldi_(final GPR ra, final GPR rs, final int b, final int n) { int instruction = 0x78000009; checkConstraint(0 <= n && n <= 63, "0 <= n && n <= 63"); checkConstraint(0 <= b - n && b - n <= 63, "0 <= b - n && b - n <= 63"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((n & 0x1f) << 11) | (((n >>> 5) & 0x1) << 1); instruction |= ((b - n & 0x1f) << 6) | (((b - n >>> 5) & 0x1) << 5); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code extlwi }<i>ra</i>, <i>rs</i>, <i>n</i>, <i>b</i> * Example disassembly syntax: {@code extlwi r0, r0, 0x0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rlwinm(ra, rs, b, 0, n - 1)} * <p> * Constraint: {@code 0 <= b && b <= 31}<br /> * Constraint: {@code 0 <= n - 1 && n - 1 <= 31}<br /> * Constraint: {@code n > 0}<br /> * * @see #rlwinm(GPR, GPR, int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 605, Serial#: 605 public void extlwi(final GPR ra, final GPR rs, final int n, final int b) { int instruction = 0x54000000; checkConstraint(0 <= b && b <= 31, "0 <= b && b <= 31"); checkConstraint(0 <= n - 1 && n - 1 <= 31, "0 <= n - 1 && n - 1 <= 31"); checkConstraint(n > 0, "n > 0"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((b & 0x1f) << 11); instruction |= ((n - 1 & 0x1f) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code extlwi. }<i>ra</i>, <i>rs</i>, <i>n</i>, <i>b</i> * Example disassembly syntax: {@code extlwi. r0, r0, 0x0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rlwinm_(ra, rs, b, 0, n - 1)} * <p> * Constraint: {@code 0 <= b && b <= 31}<br /> * Constraint: {@code 0 <= n - 1 && n - 1 <= 31}<br /> * Constraint: {@code n > 0}<br /> * * @see #rlwinm_(GPR, GPR, int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 606, Serial#: 606 public void extlwi_(final GPR ra, final GPR rs, final int n, final int b) { int instruction = 0x54000001; checkConstraint(0 <= b && b <= 31, "0 <= b && b <= 31"); checkConstraint(0 <= n - 1 && n - 1 <= 31, "0 <= n - 1 && n - 1 <= 31"); checkConstraint(n > 0, "n > 0"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((b & 0x1f) << 11); instruction |= ((n - 1 & 0x1f) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code extrwi }<i>ra</i>, <i>rs</i>, <i>n</i>, <i>b</i> * Example disassembly syntax: {@code extrwi r0, r0, 0x0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rlwinm(ra, rs, b + n, 32 - n, 31)} * <p> * Constraint: {@code 0 <= b + n && b + n <= 31}<br /> * Constraint: {@code 0 <= 32 - n && 32 - n <= 31}<br /> * Constraint: {@code n > 0}<br /> * * @see #rlwinm(GPR, GPR, int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 607, Serial#: 607 public void extrwi(final GPR ra, final GPR rs, final int n, final int b) { int instruction = 0x5400003E; checkConstraint(0 <= b + n && b + n <= 31, "0 <= b + n && b + n <= 31"); checkConstraint(0 <= 32 - n && 32 - n <= 31, "0 <= 32 - n && 32 - n <= 31"); checkConstraint(n > 0, "n > 0"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((b + n & 0x1f) << 11); instruction |= ((32 - n & 0x1f) << 6); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code extrwi. }<i>ra</i>, <i>rs</i>, <i>n</i>, <i>b</i> * Example disassembly syntax: {@code extrwi. r0, r0, 0x0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rlwinm_(ra, rs, b + n, 32 - n, 31)} * <p> * Constraint: {@code 0 <= b + n && b + n <= 31}<br /> * Constraint: {@code 0 <= 32 - n && 32 - n <= 31}<br /> * Constraint: {@code n > 0}<br /> * * @see #rlwinm_(GPR, GPR, int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 608, Serial#: 608 public void extrwi_(final GPR ra, final GPR rs, final int n, final int b) { int instruction = 0x5400003F; checkConstraint(0 <= b + n && b + n <= 31, "0 <= b + n && b + n <= 31"); checkConstraint(0 <= 32 - n && 32 - n <= 31, "0 <= 32 - n && 32 - n <= 31"); checkConstraint(n > 0, "n > 0"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((b + n & 0x1f) << 11); instruction |= ((32 - n & 0x1f) << 6); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code inslwi }<i>ra</i>, <i>rs</i>, <i>n</i>, <i>b</i> * Example disassembly syntax: {@code inslwi r0, r0, 0x0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rlwimi(ra, rs, 32 - b, b, (b + n) - 1)} * <p> * Constraint: {@code 0 <= 32 - b && 32 - b <= 31}<br /> * Constraint: {@code 0 <= b && b <= 31}<br /> * Constraint: {@code 0 <= (b + n) - 1 && (b + n) - 1 <= 31}<br /> * Constraint: {@code n > 0}<br /> * * @see #rlwimi(GPR, GPR, int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 609, Serial#: 609 public void inslwi(final GPR ra, final GPR rs, final int n, final int b) { int instruction = 0x50000000; checkConstraint(0 <= 32 - b && 32 - b <= 31, "0 <= 32 - b && 32 - b <= 31"); checkConstraint(0 <= b && b <= 31, "0 <= b && b <= 31"); checkConstraint(0 <= (b + n) - 1 && (b + n) - 1 <= 31, "0 <= (b + n) - 1 && (b + n) - 1 <= 31"); checkConstraint(n > 0, "n > 0"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((32 - b & 0x1f) << 11); instruction |= ((b & 0x1f) << 6); instruction |= (((b + n) - 1 & 0x1f) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code inslwi. }<i>ra</i>, <i>rs</i>, <i>n</i>, <i>b</i> * Example disassembly syntax: {@code inslwi. r0, r0, 0x0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rlwimi_(ra, rs, 32 - b, b, (b + n) - 1)} * <p> * Constraint: {@code 0 <= 32 - b && 32 - b <= 31}<br /> * Constraint: {@code 0 <= b && b <= 31}<br /> * Constraint: {@code 0 <= (b + n) - 1 && (b + n) - 1 <= 31}<br /> * Constraint: {@code n > 0}<br /> * * @see #rlwimi_(GPR, GPR, int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 610, Serial#: 610 public void inslwi_(final GPR ra, final GPR rs, final int n, final int b) { int instruction = 0x50000001; checkConstraint(0 <= 32 - b && 32 - b <= 31, "0 <= 32 - b && 32 - b <= 31"); checkConstraint(0 <= b && b <= 31, "0 <= b && b <= 31"); checkConstraint(0 <= (b + n) - 1 && (b + n) - 1 <= 31, "0 <= (b + n) - 1 && (b + n) - 1 <= 31"); checkConstraint(n > 0, "n > 0"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((32 - b & 0x1f) << 11); instruction |= ((b & 0x1f) << 6); instruction |= (((b + n) - 1 & 0x1f) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code insrwi }<i>ra</i>, <i>rs</i>, <i>n</i>, <i>b</i> * Example disassembly syntax: {@code insrwi r0, r0, 0x0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rlwimi(ra, rs, 32 - (b + n), b, (b + n) - 1)} * <p> * Constraint: {@code 0 <= 32 - (b + n) && 32 - (b + n) <= 31}<br /> * Constraint: {@code 0 <= b && b <= 31}<br /> * Constraint: {@code 0 <= (b + n) - 1 && (b + n) - 1 <= 31}<br /> * Constraint: {@code n > 0}<br /> * * @see #rlwimi(GPR, GPR, int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 611, Serial#: 611 public void insrwi(final GPR ra, final GPR rs, final int n, final int b) { int instruction = 0x50000000; checkConstraint(0 <= 32 - (b + n) && 32 - (b + n) <= 31, "0 <= 32 - (b + n) && 32 - (b + n) <= 31"); checkConstraint(0 <= b && b <= 31, "0 <= b && b <= 31"); checkConstraint(0 <= (b + n) - 1 && (b + n) - 1 <= 31, "0 <= (b + n) - 1 && (b + n) - 1 <= 31"); checkConstraint(n > 0, "n > 0"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((32 - (b + n) & 0x1f) << 11); instruction |= ((b & 0x1f) << 6); instruction |= (((b + n) - 1 & 0x1f) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code insrwi. }<i>ra</i>, <i>rs</i>, <i>n</i>, <i>b</i> * Example disassembly syntax: {@code insrwi. r0, r0, 0x0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rlwimi_(ra, rs, 32 - (b + n), b, (b + n) - 1)} * <p> * Constraint: {@code 0 <= 32 - (b + n) && 32 - (b + n) <= 31}<br /> * Constraint: {@code 0 <= b && b <= 31}<br /> * Constraint: {@code 0 <= (b + n) - 1 && (b + n) - 1 <= 31}<br /> * Constraint: {@code n > 0}<br /> * * @see #rlwimi_(GPR, GPR, int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 612, Serial#: 612 public void insrwi_(final GPR ra, final GPR rs, final int n, final int b) { int instruction = 0x50000001; checkConstraint(0 <= 32 - (b + n) && 32 - (b + n) <= 31, "0 <= 32 - (b + n) && 32 - (b + n) <= 31"); checkConstraint(0 <= b && b <= 31, "0 <= b && b <= 31"); checkConstraint(0 <= (b + n) - 1 && (b + n) - 1 <= 31, "0 <= (b + n) - 1 && (b + n) - 1 <= 31"); checkConstraint(n > 0, "n > 0"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((32 - (b + n) & 0x1f) << 11); instruction |= ((b & 0x1f) << 6); instruction |= (((b + n) - 1 & 0x1f) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rotlwi }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code rotlwi r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rlwinm(ra, rs, n, 0, 31)} * <p> * Constraint: {@code 0 <= n && n <= 31}<br /> * * @see #rlwinm(GPR, GPR, int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 613, Serial#: 613 public void rotlwi(final GPR ra, final GPR rs, final int n) { int instruction = 0x5400003E; checkConstraint(0 <= n && n <= 31, "0 <= n && n <= 31"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((n & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rotlwi. }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code rotlwi. r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rlwinm_(ra, rs, n, 0, 31)} * <p> * Constraint: {@code 0 <= n && n <= 31}<br /> * * @see #rlwinm_(GPR, GPR, int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 614, Serial#: 614 public void rotlwi_(final GPR ra, final GPR rs, final int n) { int instruction = 0x5400003F; checkConstraint(0 <= n && n <= 31, "0 <= n && n <= 31"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((n & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rotrwi }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code rotrwi r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rlwinm(ra, rs, 32 - n, 0, 31)} * <p> * Constraint: {@code 0 <= 32 - n && 32 - n <= 31}<br /> * * @see #rlwinm(GPR, GPR, int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 615, Serial#: 615 public void rotrwi(final GPR ra, final GPR rs, final int n) { int instruction = 0x5400003E; checkConstraint(0 <= 32 - n && 32 - n <= 31, "0 <= 32 - n && 32 - n <= 31"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((32 - n & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rotrwi. }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code rotrwi. r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rlwinm_(ra, rs, 32 - n, 0, 31)} * <p> * Constraint: {@code 0 <= 32 - n && 32 - n <= 31}<br /> * * @see #rlwinm_(GPR, GPR, int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 616, Serial#: 616 public void rotrwi_(final GPR ra, final GPR rs, final int n) { int instruction = 0x5400003F; checkConstraint(0 <= 32 - n && 32 - n <= 31, "0 <= 32 - n && 32 - n <= 31"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((32 - n & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rotlw }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code rotlw r0, r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code rlwnm(ra, rs, rb, 0, 31)} * * @see #rlwnm(GPR, GPR, GPR, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 617, Serial#: 617 public void rotlw(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x5C00003E; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code rotlw. }<i>ra</i>, <i>rs</i>, <i>rb</i> * Example disassembly syntax: {@code rotlw. r0, r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code rlwnm_(ra, rs, rb, 0, 31)} * * @see #rlwnm_(GPR, GPR, GPR, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 618, Serial#: 618 public void rotlw_(final GPR ra, final GPR rs, final GPR rb) { int instruction = 0x5C00003F; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code slwi }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code slwi r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rlwinm(ra, rs, n, 0, 31 - n)} * <p> * Constraint: {@code 0 <= n && n <= 31}<br /> * Constraint: {@code 0 <= 31 - n && 31 - n <= 31}<br /> * Constraint: {@code n < 32}<br /> * * @see #rlwinm(GPR, GPR, int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 619, Serial#: 619 public void slwi(final GPR ra, final GPR rs, final int n) { int instruction = 0x54000000; checkConstraint(0 <= n && n <= 31, "0 <= n && n <= 31"); checkConstraint(0 <= 31 - n && 31 - n <= 31, "0 <= 31 - n && 31 - n <= 31"); checkConstraint(n < 32, "n < 32"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((n & 0x1f) << 11); instruction |= ((31 - n & 0x1f) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code slwi. }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code slwi. r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rlwinm_(ra, rs, n, 0, 31 - n)} * <p> * Constraint: {@code 0 <= n && n <= 31}<br /> * Constraint: {@code 0 <= 31 - n && 31 - n <= 31}<br /> * Constraint: {@code n < 32}<br /> * * @see #rlwinm_(GPR, GPR, int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 620, Serial#: 620 public void slwi_(final GPR ra, final GPR rs, final int n) { int instruction = 0x54000001; checkConstraint(0 <= n && n <= 31, "0 <= n && n <= 31"); checkConstraint(0 <= 31 - n && 31 - n <= 31, "0 <= 31 - n && 31 - n <= 31"); checkConstraint(n < 32, "n < 32"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((n & 0x1f) << 11); instruction |= ((31 - n & 0x1f) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code srwi }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code srwi r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rlwinm(ra, rs, 32 - n, n, 31)} * <p> * Constraint: {@code 0 <= 32 - n && 32 - n <= 31}<br /> * Constraint: {@code 0 <= n && n <= 31}<br /> * Constraint: {@code n < 32}<br /> * * @see #rlwinm(GPR, GPR, int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 621, Serial#: 621 public void srwi(final GPR ra, final GPR rs, final int n) { int instruction = 0x5400003E; checkConstraint(0 <= 32 - n && 32 - n <= 31, "0 <= 32 - n && 32 - n <= 31"); checkConstraint(0 <= n && n <= 31, "0 <= n && n <= 31"); checkConstraint(n < 32, "n < 32"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((32 - n & 0x1f) << 11); instruction |= ((n & 0x1f) << 6); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code srwi. }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code srwi. r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rlwinm_(ra, rs, 32 - n, n, 31)} * <p> * Constraint: {@code 0 <= 32 - n && 32 - n <= 31}<br /> * Constraint: {@code 0 <= n && n <= 31}<br /> * Constraint: {@code n < 32}<br /> * * @see #rlwinm_(GPR, GPR, int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 622, Serial#: 622 public void srwi_(final GPR ra, final GPR rs, final int n) { int instruction = 0x5400003F; checkConstraint(0 <= 32 - n && 32 - n <= 31, "0 <= 32 - n && 32 - n <= 31"); checkConstraint(0 <= n && n <= 31, "0 <= n && n <= 31"); checkConstraint(n < 32, "n < 32"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((32 - n & 0x1f) << 11); instruction |= ((n & 0x1f) << 6); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code clrlwi }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code clrlwi r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rlwinm(ra, rs, 0, n, 31)} * <p> * Constraint: {@code 0 <= n && n <= 31}<br /> * Constraint: {@code n < 32}<br /> * * @see #rlwinm(GPR, GPR, int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 623, Serial#: 623 public void clrlwi(final GPR ra, final GPR rs, final int n) { int instruction = 0x5400003E; checkConstraint(0 <= n && n <= 31, "0 <= n && n <= 31"); checkConstraint(n < 32, "n < 32"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((n & 0x1f) << 6); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code clrlwi. }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code clrlwi. r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rlwinm_(ra, rs, 0, n, 31)} * <p> * Constraint: {@code 0 <= n && n <= 31}<br /> * Constraint: {@code n < 32}<br /> * * @see #rlwinm_(GPR, GPR, int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 624, Serial#: 624 public void clrlwi_(final GPR ra, final GPR rs, final int n) { int instruction = 0x5400003F; checkConstraint(0 <= n && n <= 31, "0 <= n && n <= 31"); checkConstraint(n < 32, "n < 32"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((n & 0x1f) << 6); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code clrrwi }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code clrrwi r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rlwinm(ra, rs, 0, 0, 31 - n)} * <p> * Constraint: {@code 0 <= 31 - n && 31 - n <= 31}<br /> * Constraint: {@code n < 32}<br /> * * @see #rlwinm(GPR, GPR, int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 625, Serial#: 625 public void clrrwi(final GPR ra, final GPR rs, final int n) { int instruction = 0x54000000; checkConstraint(0 <= 31 - n && 31 - n <= 31, "0 <= 31 - n && 31 - n <= 31"); checkConstraint(n < 32, "n < 32"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((31 - n & 0x1f) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code clrrwi. }<i>ra</i>, <i>rs</i>, <i>n</i> * Example disassembly syntax: {@code clrrwi. r0, r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rlwinm_(ra, rs, 0, 0, 31 - n)} * <p> * Constraint: {@code 0 <= 31 - n && 31 - n <= 31}<br /> * Constraint: {@code n < 32}<br /> * * @see #rlwinm_(GPR, GPR, int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 626, Serial#: 626 public void clrrwi_(final GPR ra, final GPR rs, final int n) { int instruction = 0x54000001; checkConstraint(0 <= 31 - n && 31 - n <= 31, "0 <= 31 - n && 31 - n <= 31"); checkConstraint(n < 32, "n < 32"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((31 - n & 0x1f) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code clrlslwi }<i>ra</i>, <i>rs</i>, <i>b</i>, <i>n</i> * Example disassembly syntax: {@code clrlslwi r0, r0, 0x0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rlwinm(ra, rs, n, b - n, 31 - n)} * <p> * Constraint: {@code 0 <= n && n <= 31}<br /> * Constraint: {@code 0 <= b - n && b - n <= 31}<br /> * Constraint: {@code 0 <= 31 - n && 31 - n <= 31}<br /> * Constraint: {@code n <= b}<br /> * Constraint: {@code b < 32}<br /> * * @see #rlwinm(GPR, GPR, int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 627, Serial#: 627 public void clrlslwi(final GPR ra, final GPR rs, final int b, final int n) { int instruction = 0x54000000; checkConstraint(0 <= n && n <= 31, "0 <= n && n <= 31"); checkConstraint(0 <= b - n && b - n <= 31, "0 <= b - n && b - n <= 31"); checkConstraint(0 <= 31 - n && 31 - n <= 31, "0 <= 31 - n && 31 - n <= 31"); checkConstraint(n <= b, "n <= b"); checkConstraint(b < 32, "b < 32"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((n & 0x1f) << 11); instruction |= ((b - n & 0x1f) << 6); instruction |= ((31 - n & 0x1f) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code clrlslwi. }<i>ra</i>, <i>rs</i>, <i>b</i>, <i>n</i> * Example disassembly syntax: {@code clrlslwi. r0, r0, 0x0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code rlwinm_(ra, rs, n, b - n, 31 - n)} * <p> * Constraint: {@code 0 <= n && n <= 31}<br /> * Constraint: {@code 0 <= b - n && b - n <= 31}<br /> * Constraint: {@code 0 <= 31 - n && 31 - n <= 31}<br /> * Constraint: {@code n <= b}<br /> * Constraint: {@code b < 32}<br /> * * @see #rlwinm_(GPR, GPR, int, int, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.7.2 [Book 1]" */ // Template#: 628, Serial#: 628 public void clrlslwi_(final GPR ra, final GPR rs, final int b, final int n) { int instruction = 0x54000001; checkConstraint(0 <= n && n <= 31, "0 <= n && n <= 31"); checkConstraint(0 <= b - n && b - n <= 31, "0 <= b - n && b - n <= 31"); checkConstraint(0 <= 31 - n && 31 - n <= 31, "0 <= 31 - n && 31 - n <= 31"); checkConstraint(n <= b, "n <= b"); checkConstraint(b < 32, "b < 32"); instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rs.value() & 0x1f) << 21); instruction |= ((n & 0x1f) << 11); instruction |= ((b - n & 0x1f) << 6); instruction |= ((31 - n & 0x1f) << 1); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mtxer }<i>rs</i> * Example disassembly syntax: {@code mtxer r0} * <p> * This is a synthetic instruction equivalent to: {@code mtspr(1, rs)} * * @see #mtspr(int, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.8 [Book 1]" */ // Template#: 629, Serial#: 629 public void mtxer(final GPR rs) { int instruction = 0x7C0103A6; instruction |= ((rs.value() & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mtlr }<i>rs</i> * Example disassembly syntax: {@code mtlr r0} * <p> * This is a synthetic instruction equivalent to: {@code mtspr(8, rs)} * * @see #mtspr(int, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.8 [Book 1]" */ // Template#: 630, Serial#: 630 public void mtlr(final GPR rs) { int instruction = 0x7C0803A6; instruction |= ((rs.value() & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mtctr }<i>rs</i> * Example disassembly syntax: {@code mtctr r0} * <p> * This is a synthetic instruction equivalent to: {@code mtspr(9, rs)} * * @see #mtspr(int, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.8 [Book 1]" */ // Template#: 631, Serial#: 631 public void mtctr(final GPR rs) { int instruction = 0x7C0903A6; instruction |= ((rs.value() & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mfxer }<i>rt</i> * Example disassembly syntax: {@code mfxer r0} * <p> * This is a synthetic instruction equivalent to: {@code mfspr(rt, 1)} * * @see #mfspr(GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.8 [Book 1]" */ // Template#: 632, Serial#: 632 public void mfxer(final GPR rt) { int instruction = 0x7C0102A6; instruction |= ((rt.value() & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mflr }<i>rt</i> * Example disassembly syntax: {@code mflr r0} * <p> * This is a synthetic instruction equivalent to: {@code mfspr(rt, 8)} * * @see #mfspr(GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.8 [Book 1]" */ // Template#: 633, Serial#: 633 public void mflr(final GPR rt) { int instruction = 0x7C0802A6; instruction |= ((rt.value() & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mfctr }<i>rt</i> * Example disassembly syntax: {@code mfctr r0} * <p> * This is a synthetic instruction equivalent to: {@code mfspr(rt, 9)} * * @see #mfspr(GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.8 [Book 1]" */ // Template#: 634, Serial#: 634 public void mfctr(final GPR rt) { int instruction = 0x7C0902A6; instruction |= ((rt.value() & 0x1f) << 21); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code nop } * Example disassembly syntax: {@code nop } * <p> * This is a synthetic instruction equivalent to: {@code ori(R0, R0, 0)} * * @see #ori(GPR, GPR, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.9 [Book 1]" */ // Template#: 635, Serial#: 635 public void nop() { int instruction = 0x60000000; emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code li }<i>rt</i>, <i>si</i> * Example disassembly syntax: {@code li r0, -32768} * <p> * This is a synthetic instruction equivalent to: {@code addi(rt, 0, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * * @see #addi(GPR, ZeroOrRegister, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.9 [Book 1]" */ // Template#: 636, Serial#: 636 public void li(final GPR rt, final int si) { int instruction = 0x38000000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= (si & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code lis }<i>rt</i>, <i>sis</i> * Example disassembly syntax: {@code lis r0, 0x0} * <p> * This is a synthetic instruction equivalent to: {@code addis(rt, 0, sis)} * <p> * Constraint: {@code -32768 <= sis && sis <= 65535}<br /> * * @see #addis(GPR, ZeroOrRegister, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.9 [Book 1]" */ // Template#: 637, Serial#: 637 public void lis(final GPR rt, final int sis) { int instruction = 0x3C000000; checkConstraint(-32768 <= sis && sis <= 65535, "-32768 <= sis && sis <= 65535"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= (sis & 0xffff); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code la }<i>rt</i>, <i>si</i>, <i>ra</i> * Example disassembly syntax: {@code la r0, -32768(0)} * <p> * This is a synthetic instruction equivalent to: {@code addi(rt, ra, si)} * <p> * Constraint: {@code -32768 <= si && si <= 32767}<br /> * Constraint: {@code ra != R0}<br /> * * @see #addi(GPR, ZeroOrRegister, int) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.9 [Book 1]" */ // Template#: 638, Serial#: 638 public void la(final GPR rt, final int si, final ZeroOrRegister ra) { int instruction = 0x38000000; checkConstraint(-32768 <= si && si <= 32767, "-32768 <= si && si <= 32767"); checkConstraint(ra != R0, "ra != R0"); instruction |= ((rt.value() & 0x1f) << 21); instruction |= (si & 0xffff); instruction |= ((ra.value() & 0x1f) << 16); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mr }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code mr r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code or(ra, rb.value(), rb)} * * @see #or(GPR, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.9 [Book 1]" */ // Template#: 639, Serial#: 639 public void mr(final GPR ra, final GPR rb) { int instruction = 0x7C000378; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mr. }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code mr. r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code or_(ra, rb.value(), rb)} * * @see #or_(GPR, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.9 [Book 1]" */ // Template#: 640, Serial#: 640 public void mr_(final GPR ra, final GPR rb) { int instruction = 0x7C000379; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code not }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code not r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code nor(ra, rb.value(), rb)} * * @see #nor(GPR, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.9 [Book 1]" */ // Template#: 641, Serial#: 641 public void not(final GPR ra, final GPR rb) { int instruction = 0x7C0000F8; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code not. }<i>ra</i>, <i>rb</i> * Example disassembly syntax: {@code not. r0, r0} * <p> * This is a synthetic instruction equivalent to: {@code nor_(ra, rb.value(), rb)} * * @see #nor_(GPR, GPR, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.9 [Book 1]" */ // Template#: 642, Serial#: 642 public void not_(final GPR ra, final GPR rb) { int instruction = 0x7C0000F9; instruction |= ((ra.value() & 0x1f) << 16); instruction |= ((rb.value() & 0x1f) << 21); instruction |= ((rb.value() & 0x1f) << 11); emitInt(instruction); } /** * Pseudo-external assembler syntax: {@code mtcr }<i>rs</i> * Example disassembly syntax: {@code mtcr r0} * <p> * This is a synthetic instruction equivalent to: {@code mtcrf(255, rs)} * * @see #mtcrf(int, GPR) * * @see "<a href="http://www.ibm.com/developerworks/eserver/library/es-archguide-v2.html">PowerPC Architecture Book, Version 2.02</a> - Section B.9 [Book 1]" */ // Template#: 643, Serial#: 643 public void mtcr(final GPR rs) { int instruction = 0x7C0FF120; instruction |= ((rs.value() & 0x1f) << 21); emitInt(instruction); } // END GENERATED RAW ASSEMBLER METHODS }