Mercurial > hg > graal-compiler
view graal/com.oracle.jvmci.code/src/com/oracle/jvmci/code/CodeUtil.java @ 21556:48c1ebd24120
renamed com.oracle.graal.api[meta|code] modules to com.oracle.jvmci.[meta|code] (JBS:GRAAL-53)
| author | Doug Simon <doug.simon@oracle.com> |
|---|---|
| date | Wed, 27 May 2015 00:36:16 +0200 |
| parents | graal/com.oracle.graal.api.code/src/com/oracle/graal/api/code/CodeUtil.java@93215cb4a2f9 |
| children | f5b549811bac |
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/* * Copyright (c) 2010, 2013, 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.oracle.jvmci.code; import com.oracle.jvmci.meta.Signature; import com.oracle.jvmci.meta.ResolvedJavaMethod; import com.oracle.jvmci.meta.JavaType; import com.oracle.jvmci.meta.MetaUtil; import java.util.*; /** * Miscellaneous collection of utility methods used by {@code com.oracle.jvmci.code} and its * clients. */ public class CodeUtil { public static final String NEW_LINE = String.format("%n"); public static final int K = 1024; public static final int M = 1024 * 1024; public static boolean isOdd(int n) { return (n & 1) == 1; } public static boolean isEven(int n) { return (n & 1) == 0; } /** * Checks whether the specified integer is a power of two. * * @param val the value to check * @return {@code true} if the value is a power of two; {@code false} otherwise */ public static boolean isPowerOf2(int val) { return val > 0 && (val & val - 1) == 0; } /** * Checks whether the specified long is a power of two. * * @param val the value to check * @return {@code true} if the value is a power of two; {@code false} otherwise */ public static boolean isPowerOf2(long val) { return val > 0 && (val & val - 1) == 0; } /** * Computes the log (base 2) of the specified integer, rounding down. (E.g {@code log2(8) = 3}, * {@code log2(21) = 4} ) * * @param val the value * @return the log base 2 of the value */ public static int log2(int val) { assert val > 0; return (Integer.SIZE - 1) - Integer.numberOfLeadingZeros(val); } /** * Computes the log (base 2) of the specified long, rounding down. (E.g {@code log2(8) = 3}, * {@code log2(21) = 4}) * * @param val the value * @return the log base 2 of the value */ public static int log2(long val) { assert val > 0; return (Long.SIZE - 1) - Long.numberOfLeadingZeros(val); } /** * Narrow an integer value to a given bit width, and return the result as a signed long. * * @param value the value * @param resultBits the result bit width * @return {@code value} interpreted as {@code resultBits} bit number, encoded as signed long */ public static long narrow(long value, int resultBits) { long ret = value & mask(resultBits); return signExtend(ret, resultBits); } /** * Sign extend an integer. * * @param value the input value * @param inputBits the bit width of the input value * @return a signed long with the same value as the signed {@code inputBits}-bit number * {@code value} */ public static long signExtend(long value, int inputBits) { if (inputBits < 64) { if ((value >>> (inputBits - 1) & 1) == 1) { return value | (-1L << inputBits); } else { return value & ~(-1L << inputBits); } } else { return value; } } /** * Zero extend an integer. * * @param value the input value * @param inputBits the bit width of the input value * @return an unsigned long with the same value as the unsigned {@code inputBits}-bit number * {@code value} */ public static long zeroExtend(long value, int inputBits) { if (inputBits < 64) { return value & ~(-1L << inputBits); } else { return value; } } /** * Convert an integer to long. * * @param value the input value * @param inputBits the bit width of the input value * @param unsigned whether the values should be interpreted as signed or unsigned * @return a long with the same value as the {@code inputBits}-bit number {@code value} */ public static long convert(long value, int inputBits, boolean unsigned) { if (unsigned) { return zeroExtend(value, inputBits); } else { return signExtend(value, inputBits); } } /** * Get a bitmask with the low {@code bits} bit set and the high {@code 64 - bits} bit clear. */ public static long mask(int bits) { assert 0 <= bits && bits <= 64; if (bits == 64) { return 0xffffffffffffffffL; } else { return (1L << bits) - 1; } } /** * Get the minimum value representable in a {@code bits} bit signed integer. */ public static long minValue(int bits) { assert 0 < bits && bits <= 64; return -1L << (bits - 1); } /** * Get the maximum value representable in a {@code bits} bit signed integer. */ public static long maxValue(int bits) { assert 0 < bits && bits <= 64; return mask(bits - 1); } /** * Formats the values in a frame as a tabulated string. * * @param frame * @return the values in {@code frame} as a tabulated string */ public static String tabulateValues(BytecodeFrame frame) { int cols = Math.max(frame.numLocals, Math.max(frame.numStack, frame.numLocks)); assert cols > 0; ArrayList<Object> cells = new ArrayList<>(); cells.add(""); for (int i = 0; i < cols; i++) { cells.add(i); } cols++; if (frame.numLocals != 0) { cells.add("locals:"); cells.addAll(Arrays.asList(frame.values).subList(0, frame.numLocals)); cells.addAll(Collections.nCopies(cols - frame.numLocals - 1, "")); } if (frame.numStack != 0) { cells.add("stack:"); cells.addAll(Arrays.asList(frame.values).subList(frame.numLocals, frame.numLocals + frame.numStack)); cells.addAll(Collections.nCopies(cols - frame.numStack - 1, "")); } if (frame.numLocks != 0) { cells.add("locks:"); cells.addAll(Arrays.asList(frame.values).subList(frame.numLocals + frame.numStack, frame.values.length)); cells.addAll(Collections.nCopies(cols - frame.numLocks - 1, "")); } Object[] cellArray = cells.toArray(); for (int i = 0; i < cellArray.length; i++) { if ((i % cols) != 0) { cellArray[i] = "|" + cellArray[i]; } } return CodeUtil.tabulate(cellArray, cols, 1, 1); } /** * Formats a given table as a string. The value of each cell is produced by * {@link String#valueOf(Object)}. * * @param cells the cells of the table in row-major order * @param cols the number of columns per row * @param lpad the number of space padding inserted before each formatted cell value * @param rpad the number of space padding inserted after each formatted cell value * @return a string with one line per row and each column left-aligned */ public static String tabulate(Object[] cells, int cols, int lpad, int rpad) { int rows = (cells.length + (cols - 1)) / cols; int[] colWidths = new int[cols]; for (int col = 0; col < cols; col++) { for (int row = 0; row < rows; row++) { int index = col + (row * cols); if (index < cells.length) { Object cell = cells[index]; colWidths[col] = Math.max(colWidths[col], String.valueOf(cell).length()); } } } StringBuilder sb = new StringBuilder(); String nl = NEW_LINE; for (int row = 0; row < rows; row++) { for (int col = 0; col < cols; col++) { int index = col + (row * cols); if (index < cells.length) { for (int i = 0; i < lpad; i++) { sb.append(' '); } Object cell = cells[index]; String s = String.valueOf(cell); int w = s.length(); sb.append(s); while (w < colWidths[col]) { sb.append(' '); w++; } for (int i = 0; i < rpad; i++) { sb.append(' '); } } } sb.append(nl); } return sb.toString(); } /** * Appends a formatted code position to a {@link StringBuilder}. * * @param sb the {@link StringBuilder} to append to * @param pos the code position to format and append to {@code sb} * @return the value of {@code sb} */ public static StringBuilder append(StringBuilder sb, BytecodePosition pos) { MetaUtil.appendLocation(sb.append("at "), pos.getMethod(), pos.getBCI()); if (pos.getCaller() != null) { sb.append(NEW_LINE); append(sb, pos.getCaller()); } return sb; } /** * Appends a formatted frame to a {@link StringBuilder}. * * @param sb the {@link StringBuilder} to append to * @param frame the frame to format and append to {@code sb} * @return the value of {@code sb} */ public static StringBuilder append(StringBuilder sb, BytecodeFrame frame) { MetaUtil.appendLocation(sb.append("at "), frame.getMethod(), frame.getBCI()); assert sb.charAt(sb.length() - 1) == ']'; sb.deleteCharAt(sb.length() - 1); sb.append(", duringCall: ").append(frame.duringCall).append(", rethrow: ").append(frame.rethrowException).append(']'); if (frame.values != null && frame.values.length > 0) { sb.append(NEW_LINE); String table = tabulateValues(frame); String[] rows = table.split(NEW_LINE); for (int i = 0; i < rows.length; i++) { String row = rows[i]; if (!row.trim().isEmpty()) { sb.append(" ").append(row); if (i != rows.length - 1) { sb.append(NEW_LINE); } } } } if (frame.caller() != null) { sb.append(NEW_LINE); append(sb, frame.caller()); } else if (frame.getCaller() != null) { sb.append(NEW_LINE); append(sb, frame.getCaller()); } return sb; } public interface RefMapFormatter { String formatStackSlot(int frameRefMapIndex); String formatRegister(int regRefMapIndex); } /** * Formats a location in a register reference map. */ public static class DefaultRegFormatter implements RefMapFormatter { private final Register[] registers; public DefaultRegFormatter(Architecture arch) { registers = new Register[arch.getRegisterReferenceMapSize()]; for (Register r : arch.getRegisters()) { if (r.getReferenceMapIndex() >= 0) { registers[r.getReferenceMapIndex()] = r; } } } public String formatStackSlot(int frameRefMapIndex) { return null; } public String formatRegister(int regRefMapIndex) { int i = regRefMapIndex; int idx = 0; while (registers[i] == null) { i--; idx++; } if (idx == 0) { return registers[i].toString(); } else { return String.format("%s+%d", registers[i].toString(), idx); } } } /** * Formats a location present in a register or frame reference map. */ public static class DefaultRefMapFormatter extends DefaultRegFormatter { /** * The size of a stack slot. */ public final int slotSize; /** * The register used as the frame pointer. */ public final Register fp; /** * The offset (in bytes) from the slot pointed to by {@link #fp} to the slot corresponding * to bit 0 in the frame reference map. */ public final int refMapToFPOffset; public DefaultRefMapFormatter(Architecture arch, int slotSize, Register fp, int refMapToFPOffset) { super(arch); this.slotSize = slotSize; this.fp = fp; this.refMapToFPOffset = refMapToFPOffset; } @Override public String formatStackSlot(int frameRefMapIndex) { int refMapOffset = frameRefMapIndex * slotSize; int fpOffset = refMapOffset + refMapToFPOffset; if (fpOffset >= 0) { return fp + "+" + fpOffset; } return fp.name + fpOffset; } } public static class NumberedRefMapFormatter implements RefMapFormatter { public String formatStackSlot(int frameRefMapIndex) { return "s" + frameRefMapIndex; } public String formatRegister(int regRefMapIndex) { return "r" + regRefMapIndex; } } /** * Appends a formatted debug info to a {@link StringBuilder}. * * @param sb the {@link StringBuilder} to append to * @param info the debug info to format and append to {@code sb} * @return the value of {@code sb} */ public static StringBuilder append(StringBuilder sb, DebugInfo info, RefMapFormatter formatterArg) { RefMapFormatter formatter = formatterArg; if (formatter == null) { formatter = new NumberedRefMapFormatter(); } String nl = NEW_LINE; ReferenceMap refMap = info.getReferenceMap(); if (refMap != null && refMap.hasRegisterRefMap()) { sb.append(" reg-ref-map:"); refMap.appendRegisterMap(sb, formatter); sb.append(nl); } if (refMap != null && refMap.hasFrameRefMap()) { sb.append("frame-ref-map:"); refMap.appendFrameMap(sb, formatter); sb.append(nl); } RegisterSaveLayout calleeSaveInfo = info.getCalleeSaveInfo(); if (calleeSaveInfo != null) { sb.append("callee-save-info:").append(nl); Map<Integer, Register> map = calleeSaveInfo.slotsToRegisters(true); for (Map.Entry<Integer, Register> e : map.entrySet()) { sb.append(" ").append(e.getValue()).append(" -> ").append(formatter.formatStackSlot(e.getKey())).append(nl); } } BytecodeFrame frame = info.frame(); if (frame != null) { append(sb, frame); } else if (info.getBytecodePosition() != null) { append(sb, info.getBytecodePosition()); } return sb; } /** * Create a calling convention from a {@link ResolvedJavaMethod}. */ public static CallingConvention getCallingConvention(CodeCacheProvider codeCache, CallingConvention.Type type, ResolvedJavaMethod method, boolean stackOnly) { Signature sig = method.getSignature(); JavaType retType = sig.getReturnType(null); int sigCount = sig.getParameterCount(false); JavaType[] argTypes; int argIndex = 0; if (!method.isStatic()) { argTypes = new JavaType[sigCount + 1]; argTypes[argIndex++] = method.getDeclaringClass(); } else { argTypes = new JavaType[sigCount]; } for (int i = 0; i < sigCount; i++) { argTypes[argIndex++] = sig.getParameterType(i, null); } RegisterConfig registerConfig = codeCache.getRegisterConfig(); return registerConfig.getCallingConvention(type, retType, argTypes, codeCache.getTarget(), stackOnly); } }