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annotate src/share/vm/opto/divnode.cpp @ 605:98cb887364d3

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6810672: Comment typos Summary: I have collected some typos I have found while looking at the code. Reviewed-by: kvn, never
author twisti
date Fri, 27 Feb 2009 13:27:09 -0800
parents 30663ca5e8f4
children cecd04fc6f93
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1 /*
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2 * Copyright 1997-2009 Sun Microsystems, Inc. All Rights Reserved.
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3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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4 *
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5 * This code is free software; you can redistribute it and/or modify it
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6 * under the terms of the GNU General Public License version 2 only, as
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7 * published by the Free Software Foundation.
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8 *
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9 * This code is distributed in the hope that it will be useful, but WITHOUT
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10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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12 * version 2 for more details (a copy is included in the LICENSE file that
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13 * accompanied this code).
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14 *
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15 * You should have received a copy of the GNU General Public License version
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16 * 2 along with this work; if not, write to the Free Software Foundation,
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17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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18 *
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19 * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
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20 * CA 95054 USA or visit www.sun.com if you need additional information or
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21 * have any questions.
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22 *
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23 */
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24
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25 // Portions of code courtesy of Clifford Click
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26
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27 // Optimization - Graph Style
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28
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29 #include "incls/_precompiled.incl"
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30 #include "incls/_divnode.cpp.incl"
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31 #include <math.h>
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32
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33 //----------------------magic_int_divide_constants-----------------------------
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34 // Compute magic multiplier and shift constant for converting a 32 bit divide
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35 // by constant into a multiply/shift/add series. Return false if calculations
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36 // fail.
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37 //
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38 // Borrowed almost verbatim from Hacker's Delight by Henry S. Warren, Jr. with
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39 // minor type name and parameter changes.
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40 static bool magic_int_divide_constants(jint d, jint &M, jint &s) {
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41 int32_t p;
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42 uint32_t ad, anc, delta, q1, r1, q2, r2, t;
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43 const uint32_t two31 = 0x80000000L; // 2**31.
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44
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45 ad = ABS(d);
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46 if (d == 0 || d == 1) return false;
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47 t = two31 + ((uint32_t)d >> 31);
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48 anc = t - 1 - t%ad; // Absolute value of nc.
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49 p = 31; // Init. p.
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50 q1 = two31/anc; // Init. q1 = 2**p/|nc|.
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51 r1 = two31 - q1*anc; // Init. r1 = rem(2**p, |nc|).
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52 q2 = two31/ad; // Init. q2 = 2**p/|d|.
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53 r2 = two31 - q2*ad; // Init. r2 = rem(2**p, |d|).
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54 do {
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55 p = p + 1;
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56 q1 = 2*q1; // Update q1 = 2**p/|nc|.
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57 r1 = 2*r1; // Update r1 = rem(2**p, |nc|).
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58 if (r1 >= anc) { // (Must be an unsigned
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59 q1 = q1 + 1; // comparison here).
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60 r1 = r1 - anc;
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61 }
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62 q2 = 2*q2; // Update q2 = 2**p/|d|.
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63 r2 = 2*r2; // Update r2 = rem(2**p, |d|).
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64 if (r2 >= ad) { // (Must be an unsigned
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65 q2 = q2 + 1; // comparison here).
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66 r2 = r2 - ad;
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67 }
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68 delta = ad - r2;
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69 } while (q1 < delta || (q1 == delta && r1 == 0));
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70
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71 M = q2 + 1;
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72 if (d < 0) M = -M; // Magic number and
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73 s = p - 32; // shift amount to return.
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74
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75 return true;
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76 }
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77
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78 //--------------------------transform_int_divide-------------------------------
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79 // Convert a division by constant divisor into an alternate Ideal graph.
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80 // Return NULL if no transformation occurs.
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81 static Node *transform_int_divide( PhaseGVN *phase, Node *dividend, jint divisor ) {
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82
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83 // Check for invalid divisors
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84 assert( divisor != 0 && divisor != min_jint,
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85 "bad divisor for transforming to long multiply" );
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86
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87 bool d_pos = divisor >= 0;
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88 jint d = d_pos ? divisor : -divisor;
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89 const int N = 32;
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90
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91 // Result
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92 Node *q = NULL;
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93
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94 if (d == 1) {
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95 // division by +/- 1
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96 if (!d_pos) {
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97 // Just negate the value
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98 q = new (phase->C, 3) SubINode(phase->intcon(0), dividend);
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99 }
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100 } else if ( is_power_of_2(d) ) {
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101 // division by +/- a power of 2
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102
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103 // See if we can simply do a shift without rounding
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104 bool needs_rounding = true;
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105 const Type *dt = phase->type(dividend);
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106 const TypeInt *dti = dt->isa_int();
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107 if (dti && dti->_lo >= 0) {
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108 // we don't need to round a positive dividend
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109 needs_rounding = false;
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110 } else if( dividend->Opcode() == Op_AndI ) {
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111 // An AND mask of sufficient size clears the low bits and
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112 // I can avoid rounding.
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113 const TypeInt *andconi_t = phase->type( dividend->in(2) )->isa_int();
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114 if( andconi_t && andconi_t->is_con() ) {
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115 jint andconi = andconi_t->get_con();
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116 if( andconi < 0 && is_power_of_2(-andconi) && (-andconi) >= d ) {
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117 dividend = dividend->in(1);
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118 needs_rounding = false;
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119 }
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120 }
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121 }
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122
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123 // Add rounding to the shift to handle the sign bit
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124 int l = log2_intptr(d-1)+1;
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125 if (needs_rounding) {
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126 // Divide-by-power-of-2 can be made into a shift, but you have to do
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127 // more math for the rounding. You need to add 0 for positive
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128 // numbers, and "i-1" for negative numbers. Example: i=4, so the
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129 // shift is by 2. You need to add 3 to negative dividends and 0 to
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130 // positive ones. So (-7+3)>>2 becomes -1, (-4+3)>>2 becomes -1,
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131 // (-2+3)>>2 becomes 0, etc.
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132
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133 // Compute 0 or -1, based on sign bit
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134 Node *sign = phase->transform(new (phase->C, 3) RShiftINode(dividend, phase->intcon(N - 1)));
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135 // Mask sign bit to the low sign bits
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136 Node *round = phase->transform(new (phase->C, 3) URShiftINode(sign, phase->intcon(N - l)));
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137 // Round up before shifting
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138 dividend = phase->transform(new (phase->C, 3) AddINode(dividend, round));
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139 }
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140
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141 // Shift for division
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142 q = new (phase->C, 3) RShiftINode(dividend, phase->intcon(l));
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143
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144 if (!d_pos) {
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145 q = new (phase->C, 3) SubINode(phase->intcon(0), phase->transform(q));
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146 }
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147 } else {
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148 // Attempt the jint constant divide -> multiply transform found in
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149 // "Division by Invariant Integers using Multiplication"
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150 // by Granlund and Montgomery
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151 // See also "Hacker's Delight", chapter 10 by Warren.
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152
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153 jint magic_const;
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154 jint shift_const;
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155 if (magic_int_divide_constants(d, magic_const, shift_const)) {
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156 Node *magic = phase->longcon(magic_const);
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157 Node *dividend_long = phase->transform(new (phase->C, 2) ConvI2LNode(dividend));
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158
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159 // Compute the high half of the dividend x magic multiplication
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160 Node *mul_hi = phase->transform(new (phase->C, 3) MulLNode(dividend_long, magic));
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161
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162 if (magic_const < 0) {
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163 mul_hi = phase->transform(new (phase->C, 3) RShiftLNode(mul_hi, phase->intcon(N)));
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164 mul_hi = phase->transform(new (phase->C, 2) ConvL2INode(mul_hi));
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165
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166 // The magic multiplier is too large for a 32 bit constant. We've adjusted
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167 // it down by 2^32, but have to add 1 dividend back in after the multiplication.
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168 // This handles the "overflow" case described by Granlund and Montgomery.
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169 mul_hi = phase->transform(new (phase->C, 3) AddINode(dividend, mul_hi));
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170
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171 // Shift over the (adjusted) mulhi
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172 if (shift_const != 0) {
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173 mul_hi = phase->transform(new (phase->C, 3) RShiftINode(mul_hi, phase->intcon(shift_const)));
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174 }
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175 } else {
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176 // No add is required, we can merge the shifts together.
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177 mul_hi = phase->transform(new (phase->C, 3) RShiftLNode(mul_hi, phase->intcon(N + shift_const)));
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178 mul_hi = phase->transform(new (phase->C, 2) ConvL2INode(mul_hi));
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179 }
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180
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181 // Get a 0 or -1 from the sign of the dividend.
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182 Node *addend0 = mul_hi;
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183 Node *addend1 = phase->transform(new (phase->C, 3) RShiftINode(dividend, phase->intcon(N-1)));
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184
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185 // If the divisor is negative, swap the order of the input addends;
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186 // this has the effect of negating the quotient.
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187 if (!d_pos) {
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188 Node *temp = addend0; addend0 = addend1; addend1 = temp;
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189 }
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190
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191 // Adjust the final quotient by subtracting -1 (adding 1)
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192 // from the mul_hi.
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193 q = new (phase->C, 3) SubINode(addend0, addend1);
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194 }
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195 }
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196
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197 return q;
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198 }
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199
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200 //---------------------magic_long_divide_constants-----------------------------
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201 // Compute magic multiplier and shift constant for converting a 64 bit divide
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202 // by constant into a multiply/shift/add series. Return false if calculations
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203 // fail.
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204 //
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205 // Borrowed almost verbatim from Hacker's Delight by Henry S. Warren, Jr. with
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206 // minor type name and parameter changes. Adjusted to 64 bit word width.
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207 static bool magic_long_divide_constants(jlong d, jlong &M, jint &s) {
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208 int64_t p;
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209 uint64_t ad, anc, delta, q1, r1, q2, r2, t;
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210 const uint64_t two63 = 0x8000000000000000LL; // 2**63.
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211
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212 ad = ABS(d);
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213 if (d == 0 || d == 1) return false;
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214 t = two63 + ((uint64_t)d >> 63);
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215 anc = t - 1 - t%ad; // Absolute value of nc.
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216 p = 63; // Init. p.
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217 q1 = two63/anc; // Init. q1 = 2**p/|nc|.
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218 r1 = two63 - q1*anc; // Init. r1 = rem(2**p, |nc|).
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219 q2 = two63/ad; // Init. q2 = 2**p/|d|.
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220 r2 = two63 - q2*ad; // Init. r2 = rem(2**p, |d|).
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221 do {
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222 p = p + 1;
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223 q1 = 2*q1; // Update q1 = 2**p/|nc|.
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224 r1 = 2*r1; // Update r1 = rem(2**p, |nc|).
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225 if (r1 >= anc) { // (Must be an unsigned
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226 q1 = q1 + 1; // comparison here).
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227 r1 = r1 - anc;
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228 }
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229 q2 = 2*q2; // Update q2 = 2**p/|d|.
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230 r2 = 2*r2; // Update r2 = rem(2**p, |d|).
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231 if (r2 >= ad) { // (Must be an unsigned
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232 q2 = q2 + 1; // comparison here).
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233 r2 = r2 - ad;
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234 }
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235 delta = ad - r2;
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236 } while (q1 < delta || (q1 == delta && r1 == 0));
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237
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238 M = q2 + 1;
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239 if (d < 0) M = -M; // Magic number and
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240 s = p - 64; // shift amount to return.
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241
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242 return true;
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243 }
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244
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245 //---------------------long_by_long_mulhi--------------------------------------
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246 // Generate ideal node graph for upper half of a 64 bit x 64 bit multiplication
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247 static Node* long_by_long_mulhi(PhaseGVN* phase, Node* dividend, jlong magic_const) {
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248 // If the architecture supports a 64x64 mulhi, there is
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249 // no need to synthesize it in ideal nodes.
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250 if (Matcher::has_match_rule(Op_MulHiL)) {
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251 Node* v = phase->longcon(magic_const);
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252 return new (phase->C, 3) MulHiLNode(dividend, v);
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253 }
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254
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255 // Taken from Hacker's Delight, Fig. 8-2. Multiply high signed.
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256 // (http://www.hackersdelight.org/HDcode/mulhs.c)
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257 //
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258 // int mulhs(int u, int v) {
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259 // unsigned u0, v0, w0;
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260 // int u1, v1, w1, w2, t;
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261 //
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262 // u0 = u & 0xFFFF; u1 = u >> 16;
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263 // v0 = v & 0xFFFF; v1 = v >> 16;
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264 // w0 = u0*v0;
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265 // t = u1*v0 + (w0 >> 16);
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266 // w1 = t & 0xFFFF;
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267 // w2 = t >> 16;
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268 // w1 = u0*v1 + w1;
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269 // return u1*v1 + w2 + (w1 >> 16);
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270 // }
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271 //
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272 // Note: The version above is for 32x32 multiplications, while the
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273 // following inline comments are adapted to 64x64.
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274
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275 const int N = 64;
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276
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277 // u0 = u & 0xFFFFFFFF; u1 = u >> 32;
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278 Node* u0 = phase->transform(new (phase->C, 3) AndLNode(dividend, phase->longcon(0xFFFFFFFF)));
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279 Node* u1 = phase->transform(new (phase->C, 3) RShiftLNode(dividend, phase->intcon(N / 2)));
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280
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281 // v0 = v & 0xFFFFFFFF; v1 = v >> 32;
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282 Node* v0 = phase->longcon(magic_const & 0xFFFFFFFF);
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283 Node* v1 = phase->longcon(magic_const >> (N / 2));
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284
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285 // w0 = u0*v0;
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286 Node* w0 = phase->transform(new (phase->C, 3) MulLNode(u0, v0));
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287
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288 // t = u1*v0 + (w0 >> 32);
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289 Node* u1v0 = phase->transform(new (phase->C, 3) MulLNode(u1, v0));
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290 Node* temp = phase->transform(new (phase->C, 3) URShiftLNode(w0, phase->intcon(N / 2)));
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291 Node* t = phase->transform(new (phase->C, 3) AddLNode(u1v0, temp));
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292
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293 // w1 = t & 0xFFFFFFFF;
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294 Node* w1 = new (phase->C, 3) AndLNode(t, phase->longcon(0xFFFFFFFF));
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295
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296 // w2 = t >> 32;
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297 Node* w2 = new (phase->C, 3) RShiftLNode(t, phase->intcon(N / 2));
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298
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299 // 6732154: Construct both w1 and w2 before transforming, so t
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300 // doesn't go dead prematurely.
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301 w1 = phase->transform(w1);
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302 w2 = phase->transform(w2);
294
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303
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304 // w1 = u0*v1 + w1;
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305 Node* u0v1 = phase->transform(new (phase->C, 3) MulLNode(u0, v1));
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306 w1 = phase->transform(new (phase->C, 3) AddLNode(u0v1, w1));
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307
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308 // return u1*v1 + w2 + (w1 >> 32);
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309 Node* u1v1 = phase->transform(new (phase->C, 3) MulLNode(u1, v1));
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310 Node* temp1 = phase->transform(new (phase->C, 3) AddLNode(u1v1, w2));
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311 Node* temp2 = phase->transform(new (phase->C, 3) RShiftLNode(w1, phase->intcon(N / 2)));
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312
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313 return new (phase->C, 3) AddLNode(temp1, temp2);
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314 }
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315
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316
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317 //--------------------------transform_long_divide------------------------------
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318 // Convert a division by constant divisor into an alternate Ideal graph.
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319 // Return NULL if no transformation occurs.
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320 static Node *transform_long_divide( PhaseGVN *phase, Node *dividend, jlong divisor ) {
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321 // Check for invalid divisors
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322 assert( divisor != 0L && divisor != min_jlong,
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323 "bad divisor for transforming to long multiply" );
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324
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325 bool d_pos = divisor >= 0;
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326 jlong d = d_pos ? divisor : -divisor;
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327 const int N = 64;
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328
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329 // Result
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330 Node *q = NULL;
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331
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332 if (d == 1) {
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333 // division by +/- 1
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334 if (!d_pos) {
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335 // Just negate the value
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336 q = new (phase->C, 3) SubLNode(phase->longcon(0), dividend);
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337 }
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338 } else if ( is_power_of_2_long(d) ) {
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339
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340 // division by +/- a power of 2
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341
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342 // See if we can simply do a shift without rounding
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343 bool needs_rounding = true;
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344 const Type *dt = phase->type(dividend);
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345 const TypeLong *dtl = dt->isa_long();
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346
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347 if (dtl && dtl->_lo > 0) {
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348 // we don't need to round a positive dividend
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349 needs_rounding = false;
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350 } else if( dividend->Opcode() == Op_AndL ) {
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351 // An AND mask of sufficient size clears the low bits and
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352 // I can avoid rounding.
400
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353 const TypeLong *andconl_t = phase->type( dividend->in(2) )->isa_long();
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354 if( andconl_t && andconl_t->is_con() ) {
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355 jlong andconl = andconl_t->get_con();
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356 if( andconl < 0 && is_power_of_2_long(-andconl) && (-andconl) >= d ) {
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357 dividend = dividend->in(1);
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358 needs_rounding = false;
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359 }
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360 }
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361 }
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362
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363 // Add rounding to the shift to handle the sign bit
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364 int l = log2_long(d-1)+1;
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365 if (needs_rounding) {
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366 // Divide-by-power-of-2 can be made into a shift, but you have to do
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367 // more math for the rounding. You need to add 0 for positive
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368 // numbers, and "i-1" for negative numbers. Example: i=4, so the
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369 // shift is by 2. You need to add 3 to negative dividends and 0 to
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370 // positive ones. So (-7+3)>>2 becomes -1, (-4+3)>>2 becomes -1,
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371 // (-2+3)>>2 becomes 0, etc.
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372
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373 // Compute 0 or -1, based on sign bit
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374 Node *sign = phase->transform(new (phase->C, 3) RShiftLNode(dividend, phase->intcon(N - 1)));
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375 // Mask sign bit to the low sign bits
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376 Node *round = phase->transform(new (phase->C, 3) URShiftLNode(sign, phase->intcon(N - l)));
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377 // Round up before shifting
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378 dividend = phase->transform(new (phase->C, 3) AddLNode(dividend, round));
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379 }
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380
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381 // Shift for division
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382 q = new (phase->C, 3) RShiftLNode(dividend, phase->intcon(l));
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383
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384 if (!d_pos) {
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385 q = new (phase->C, 3) SubLNode(phase->longcon(0), phase->transform(q));
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386 }
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387 } else {
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388 // Attempt the jlong constant divide -> multiply transform found in
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389 // "Division by Invariant Integers using Multiplication"
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390 // by Granlund and Montgomery
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391 // See also "Hacker's Delight", chapter 10 by Warren.
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392
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393 jlong magic_const;
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394 jint shift_const;
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395 if (magic_long_divide_constants(d, magic_const, shift_const)) {
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396 // Compute the high half of the dividend x magic multiplication
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397 Node *mul_hi = phase->transform(long_by_long_mulhi(phase, dividend, magic_const));
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398
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399 // The high half of the 128-bit multiply is computed.
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400 if (magic_const < 0) {
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401 // The magic multiplier is too large for a 64 bit constant. We've adjusted
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402 // it down by 2^64, but have to add 1 dividend back in after the multiplication.
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403 // This handles the "overflow" case described by Granlund and Montgomery.
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404 mul_hi = phase->transform(new (phase->C, 3) AddLNode(dividend, mul_hi));
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405 }
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406
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407 // Shift over the (adjusted) mulhi
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408 if (shift_const != 0) {
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409 mul_hi = phase->transform(new (phase->C, 3) RShiftLNode(mul_hi, phase->intcon(shift_const)));
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410 }
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411
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412 // Get a 0 or -1 from the sign of the dividend.
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413 Node *addend0 = mul_hi;
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414 Node *addend1 = phase->transform(new (phase->C, 3) RShiftLNode(dividend, phase->intcon(N-1)));
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415
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416 // If the divisor is negative, swap the order of the input addends;
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417 // this has the effect of negating the quotient.
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418 if (!d_pos) {
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419 Node *temp = addend0; addend0 = addend1; addend1 = temp;
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420 }
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421
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422 // Adjust the final quotient by subtracting -1 (adding 1)
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423 // from the mul_hi.
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424 q = new (phase->C, 3) SubLNode(addend0, addend1);
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425 }
0
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426 }
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427
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428 return q;
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429 }
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430
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431 //=============================================================================
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432 //------------------------------Identity---------------------------------------
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433 // If the divisor is 1, we are an identity on the dividend.
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434 Node *DivINode::Identity( PhaseTransform *phase ) {
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435 return (phase->type( in(2) )->higher_equal(TypeInt::ONE)) ? in(1) : this;
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436 }
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437
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438 //------------------------------Idealize---------------------------------------
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439 // Divides can be changed to multiplies and/or shifts
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440 Node *DivINode::Ideal(PhaseGVN *phase, bool can_reshape) {
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441 if (in(0) && remove_dead_region(phase, can_reshape)) return this;
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442 // Don't bother trying to transform a dead node
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443 if( in(0) && in(0)->is_top() ) return NULL;
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444
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445 const Type *t = phase->type( in(2) );
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446 if( t == TypeInt::ONE ) // Identity?
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447 return NULL; // Skip it
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448
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449 const TypeInt *ti = t->isa_int();
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450 if( !ti ) return NULL;
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451 if( !ti->is_con() ) return NULL;
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452 jint i = ti->get_con(); // Get divisor
0
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453
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454 if (i == 0) return NULL; // Dividing by zero constant does not idealize
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455
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456 set_req(0,NULL); // Dividing by a not-zero constant; no faulting
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457
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458 // Dividing by MININT does not optimize as a power-of-2 shift.
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459 if( i == min_jint ) return NULL;
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460
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461 return transform_int_divide( phase, in(1), i );
0
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462 }
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463
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464 //------------------------------Value------------------------------------------
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465 // A DivINode divides its inputs. The third input is a Control input, used to
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466 // prevent hoisting the divide above an unsafe test.
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467 const Type *DivINode::Value( PhaseTransform *phase ) const {
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468 // Either input is TOP ==> the result is TOP
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469 const Type *t1 = phase->type( in(1) );
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470 const Type *t2 = phase->type( in(2) );
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471 if( t1 == Type::TOP ) return Type::TOP;
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472 if( t2 == Type::TOP ) return Type::TOP;
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473
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474 // x/x == 1 since we always generate the dynamic divisor check for 0.
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475 if( phase->eqv( in(1), in(2) ) )
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476 return TypeInt::ONE;
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477
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478 // Either input is BOTTOM ==> the result is the local BOTTOM
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479 const Type *bot = bottom_type();
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480 if( (t1 == bot) || (t2 == bot) ||
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481 (t1 == Type::BOTTOM) || (t2 == Type::BOTTOM) )
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482 return bot;
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483
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484 // Divide the two numbers. We approximate.
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485 // If divisor is a constant and not zero
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486 const TypeInt *i1 = t1->is_int();
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487 const TypeInt *i2 = t2->is_int();
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488 int widen = MAX2(i1->_widen, i2->_widen);
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489
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490 if( i2->is_con() && i2->get_con() != 0 ) {
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491 int32 d = i2->get_con(); // Divisor
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492 jint lo, hi;
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493 if( d >= 0 ) {
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494 lo = i1->_lo/d;
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495 hi = i1->_hi/d;
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496 } else {
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497 if( d == -1 && i1->_lo == min_jint ) {
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498 // 'min_jint/-1' throws arithmetic exception during compilation
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499 lo = min_jint;
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500 // do not support holes, 'hi' must go to either min_jint or max_jint:
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501 // [min_jint, -10]/[-1,-1] ==> [min_jint] UNION [10,max_jint]
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502 hi = i1->_hi == min_jint ? min_jint : max_jint;
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503 } else {
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504 lo = i1->_hi/d;
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505 hi = i1->_lo/d;
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506 }
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507 }
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508 return TypeInt::make(lo, hi, widen);
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509 }
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510
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511 // If the dividend is a constant
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512 if( i1->is_con() ) {
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513 int32 d = i1->get_con();
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514 if( d < 0 ) {
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515 if( d == min_jint ) {
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516 // (-min_jint) == min_jint == (min_jint / -1)
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517 return TypeInt::make(min_jint, max_jint/2 + 1, widen);
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518 } else {
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duke
parents:
diff changeset
519 return TypeInt::make(d, -d, widen);
a61af66fc99e Initial load
duke
parents:
diff changeset
520 }
a61af66fc99e Initial load
duke
parents:
diff changeset
521 }
a61af66fc99e Initial load
duke
parents:
diff changeset
522 return TypeInt::make(-d, d, widen);
a61af66fc99e Initial load
duke
parents:
diff changeset
523 }
a61af66fc99e Initial load
duke
parents:
diff changeset
524
a61af66fc99e Initial load
duke
parents:
diff changeset
525 // Otherwise we give up all hope
a61af66fc99e Initial load
duke
parents:
diff changeset
526 return TypeInt::INT;
a61af66fc99e Initial load
duke
parents:
diff changeset
527 }
a61af66fc99e Initial load
duke
parents:
diff changeset
528
a61af66fc99e Initial load
duke
parents:
diff changeset
529
a61af66fc99e Initial load
duke
parents:
diff changeset
530 //=============================================================================
a61af66fc99e Initial load
duke
parents:
diff changeset
531 //------------------------------Identity---------------------------------------
a61af66fc99e Initial load
duke
parents:
diff changeset
532 // If the divisor is 1, we are an identity on the dividend.
a61af66fc99e Initial load
duke
parents:
diff changeset
533 Node *DivLNode::Identity( PhaseTransform *phase ) {
a61af66fc99e Initial load
duke
parents:
diff changeset
534 return (phase->type( in(2) )->higher_equal(TypeLong::ONE)) ? in(1) : this;
a61af66fc99e Initial load
duke
parents:
diff changeset
535 }
a61af66fc99e Initial load
duke
parents:
diff changeset
536
a61af66fc99e Initial load
duke
parents:
diff changeset
537 //------------------------------Idealize---------------------------------------
a61af66fc99e Initial load
duke
parents:
diff changeset
538 // Dividing by a power of 2 is a shift.
a61af66fc99e Initial load
duke
parents:
diff changeset
539 Node *DivLNode::Ideal( PhaseGVN *phase, bool can_reshape) {
a61af66fc99e Initial load
duke
parents:
diff changeset
540 if (in(0) && remove_dead_region(phase, can_reshape)) return this;
305
ab075d07f1ba 6736417: Fastdebug C2 crashes in StoreBNode::Ideal
kvn
parents: 294
diff changeset
541 // Don't bother trying to transform a dead node
ab075d07f1ba 6736417: Fastdebug C2 crashes in StoreBNode::Ideal
kvn
parents: 294
diff changeset
542 if( in(0) && in(0)->is_top() ) return NULL;
0
a61af66fc99e Initial load
duke
parents:
diff changeset
543
a61af66fc99e Initial load
duke
parents:
diff changeset
544 const Type *t = phase->type( in(2) );
145
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
545 if( t == TypeLong::ONE ) // Identity?
0
a61af66fc99e Initial load
duke
parents:
diff changeset
546 return NULL; // Skip it
a61af66fc99e Initial load
duke
parents:
diff changeset
547
145
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
548 const TypeLong *tl = t->isa_long();
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
549 if( !tl ) return NULL;
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
550 if( !tl->is_con() ) return NULL;
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
551 jlong l = tl->get_con(); // Get divisor
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
552
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
553 if (l == 0) return NULL; // Dividing by zero constant does not idealize
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
554
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
555 set_req(0,NULL); // Dividing by a not-zero constant; no faulting
0
a61af66fc99e Initial load
duke
parents:
diff changeset
556
a61af66fc99e Initial load
duke
parents:
diff changeset
557 // Dividing by MININT does not optimize as a power-of-2 shift.
145
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
558 if( l == min_jlong ) return NULL;
0
a61af66fc99e Initial load
duke
parents:
diff changeset
559
145
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
560 return transform_long_divide( phase, in(1), l );
0
a61af66fc99e Initial load
duke
parents:
diff changeset
561 }
a61af66fc99e Initial load
duke
parents:
diff changeset
562
a61af66fc99e Initial load
duke
parents:
diff changeset
563 //------------------------------Value------------------------------------------
a61af66fc99e Initial load
duke
parents:
diff changeset
564 // A DivLNode divides its inputs. The third input is a Control input, used to
a61af66fc99e Initial load
duke
parents:
diff changeset
565 // prevent hoisting the divide above an unsafe test.
a61af66fc99e Initial load
duke
parents:
diff changeset
566 const Type *DivLNode::Value( PhaseTransform *phase ) const {
a61af66fc99e Initial load
duke
parents:
diff changeset
567 // Either input is TOP ==> the result is TOP
a61af66fc99e Initial load
duke
parents:
diff changeset
568 const Type *t1 = phase->type( in(1) );
a61af66fc99e Initial load
duke
parents:
diff changeset
569 const Type *t2 = phase->type( in(2) );
a61af66fc99e Initial load
duke
parents:
diff changeset
570 if( t1 == Type::TOP ) return Type::TOP;
a61af66fc99e Initial load
duke
parents:
diff changeset
571 if( t2 == Type::TOP ) return Type::TOP;
a61af66fc99e Initial load
duke
parents:
diff changeset
572
a61af66fc99e Initial load
duke
parents:
diff changeset
573 // x/x == 1 since we always generate the dynamic divisor check for 0.
a61af66fc99e Initial load
duke
parents:
diff changeset
574 if( phase->eqv( in(1), in(2) ) )
a61af66fc99e Initial load
duke
parents:
diff changeset
575 return TypeLong::ONE;
a61af66fc99e Initial load
duke
parents:
diff changeset
576
a61af66fc99e Initial load
duke
parents:
diff changeset
577 // Either input is BOTTOM ==> the result is the local BOTTOM
a61af66fc99e Initial load
duke
parents:
diff changeset
578 const Type *bot = bottom_type();
a61af66fc99e Initial load
duke
parents:
diff changeset
579 if( (t1 == bot) || (t2 == bot) ||
a61af66fc99e Initial load
duke
parents:
diff changeset
580 (t1 == Type::BOTTOM) || (t2 == Type::BOTTOM) )
a61af66fc99e Initial load
duke
parents:
diff changeset
581 return bot;
a61af66fc99e Initial load
duke
parents:
diff changeset
582
a61af66fc99e Initial load
duke
parents:
diff changeset
583 // Divide the two numbers. We approximate.
a61af66fc99e Initial load
duke
parents:
diff changeset
584 // If divisor is a constant and not zero
a61af66fc99e Initial load
duke
parents:
diff changeset
585 const TypeLong *i1 = t1->is_long();
a61af66fc99e Initial load
duke
parents:
diff changeset
586 const TypeLong *i2 = t2->is_long();
a61af66fc99e Initial load
duke
parents:
diff changeset
587 int widen = MAX2(i1->_widen, i2->_widen);
a61af66fc99e Initial load
duke
parents:
diff changeset
588
a61af66fc99e Initial load
duke
parents:
diff changeset
589 if( i2->is_con() && i2->get_con() != 0 ) {
a61af66fc99e Initial load
duke
parents:
diff changeset
590 jlong d = i2->get_con(); // Divisor
a61af66fc99e Initial load
duke
parents:
diff changeset
591 jlong lo, hi;
a61af66fc99e Initial load
duke
parents:
diff changeset
592 if( d >= 0 ) {
a61af66fc99e Initial load
duke
parents:
diff changeset
593 lo = i1->_lo/d;
a61af66fc99e Initial load
duke
parents:
diff changeset
594 hi = i1->_hi/d;
a61af66fc99e Initial load
duke
parents:
diff changeset
595 } else {
a61af66fc99e Initial load
duke
parents:
diff changeset
596 if( d == CONST64(-1) && i1->_lo == min_jlong ) {
a61af66fc99e Initial load
duke
parents:
diff changeset
597 // 'min_jlong/-1' throws arithmetic exception during compilation
a61af66fc99e Initial load
duke
parents:
diff changeset
598 lo = min_jlong;
a61af66fc99e Initial load
duke
parents:
diff changeset
599 // do not support holes, 'hi' must go to either min_jlong or max_jlong:
a61af66fc99e Initial load
duke
parents:
diff changeset
600 // [min_jlong, -10]/[-1,-1] ==> [min_jlong] UNION [10,max_jlong]
a61af66fc99e Initial load
duke
parents:
diff changeset
601 hi = i1->_hi == min_jlong ? min_jlong : max_jlong;
a61af66fc99e Initial load
duke
parents:
diff changeset
602 } else {
a61af66fc99e Initial load
duke
parents:
diff changeset
603 lo = i1->_hi/d;
a61af66fc99e Initial load
duke
parents:
diff changeset
604 hi = i1->_lo/d;
a61af66fc99e Initial load
duke
parents:
diff changeset
605 }
a61af66fc99e Initial load
duke
parents:
diff changeset
606 }
a61af66fc99e Initial load
duke
parents:
diff changeset
607 return TypeLong::make(lo, hi, widen);
a61af66fc99e Initial load
duke
parents:
diff changeset
608 }
a61af66fc99e Initial load
duke
parents:
diff changeset
609
a61af66fc99e Initial load
duke
parents:
diff changeset
610 // If the dividend is a constant
a61af66fc99e Initial load
duke
parents:
diff changeset
611 if( i1->is_con() ) {
a61af66fc99e Initial load
duke
parents:
diff changeset
612 jlong d = i1->get_con();
a61af66fc99e Initial load
duke
parents:
diff changeset
613 if( d < 0 ) {
a61af66fc99e Initial load
duke
parents:
diff changeset
614 if( d == min_jlong ) {
a61af66fc99e Initial load
duke
parents:
diff changeset
615 // (-min_jlong) == min_jlong == (min_jlong / -1)
a61af66fc99e Initial load
duke
parents:
diff changeset
616 return TypeLong::make(min_jlong, max_jlong/2 + 1, widen);
a61af66fc99e Initial load
duke
parents:
diff changeset
617 } else {
a61af66fc99e Initial load
duke
parents:
diff changeset
618 return TypeLong::make(d, -d, widen);
a61af66fc99e Initial load
duke
parents:
diff changeset
619 }
a61af66fc99e Initial load
duke
parents:
diff changeset
620 }
a61af66fc99e Initial load
duke
parents:
diff changeset
621 return TypeLong::make(-d, d, widen);
a61af66fc99e Initial load
duke
parents:
diff changeset
622 }
a61af66fc99e Initial load
duke
parents:
diff changeset
623
a61af66fc99e Initial load
duke
parents:
diff changeset
624 // Otherwise we give up all hope
a61af66fc99e Initial load
duke
parents:
diff changeset
625 return TypeLong::LONG;
a61af66fc99e Initial load
duke
parents:
diff changeset
626 }
a61af66fc99e Initial load
duke
parents:
diff changeset
627
a61af66fc99e Initial load
duke
parents:
diff changeset
628
a61af66fc99e Initial load
duke
parents:
diff changeset
629 //=============================================================================
a61af66fc99e Initial load
duke
parents:
diff changeset
630 //------------------------------Value------------------------------------------
a61af66fc99e Initial load
duke
parents:
diff changeset
631 // An DivFNode divides its inputs. The third input is a Control input, used to
a61af66fc99e Initial load
duke
parents:
diff changeset
632 // prevent hoisting the divide above an unsafe test.
a61af66fc99e Initial load
duke
parents:
diff changeset
633 const Type *DivFNode::Value( PhaseTransform *phase ) const {
a61af66fc99e Initial load
duke
parents:
diff changeset
634 // Either input is TOP ==> the result is TOP
a61af66fc99e Initial load
duke
parents:
diff changeset
635 const Type *t1 = phase->type( in(1) );
a61af66fc99e Initial load
duke
parents:
diff changeset
636 const Type *t2 = phase->type( in(2) );
a61af66fc99e Initial load
duke
parents:
diff changeset
637 if( t1 == Type::TOP ) return Type::TOP;
a61af66fc99e Initial load
duke
parents:
diff changeset
638 if( t2 == Type::TOP ) return Type::TOP;
a61af66fc99e Initial load
duke
parents:
diff changeset
639
a61af66fc99e Initial load
duke
parents:
diff changeset
640 // Either input is BOTTOM ==> the result is the local BOTTOM
a61af66fc99e Initial load
duke
parents:
diff changeset
641 const Type *bot = bottom_type();
a61af66fc99e Initial load
duke
parents:
diff changeset
642 if( (t1 == bot) || (t2 == bot) ||
a61af66fc99e Initial load
duke
parents:
diff changeset
643 (t1 == Type::BOTTOM) || (t2 == Type::BOTTOM) )
a61af66fc99e Initial load
duke
parents:
diff changeset
644 return bot;
a61af66fc99e Initial load
duke
parents:
diff changeset
645
a61af66fc99e Initial load
duke
parents:
diff changeset
646 // x/x == 1, we ignore 0/0.
a61af66fc99e Initial load
duke
parents:
diff changeset
647 // Note: if t1 and t2 are zero then result is NaN (JVMS page 213)
131
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
648 // Does not work for variables because of NaN's
0
a61af66fc99e Initial load
duke
parents:
diff changeset
649 if( phase->eqv( in(1), in(2) ) && t1->base() == Type::FloatCon)
a61af66fc99e Initial load
duke
parents:
diff changeset
650 if (!g_isnan(t1->getf()) && g_isfinite(t1->getf()) && t1->getf() != 0.0) // could be negative ZERO or NaN
a61af66fc99e Initial load
duke
parents:
diff changeset
651 return TypeF::ONE;
a61af66fc99e Initial load
duke
parents:
diff changeset
652
a61af66fc99e Initial load
duke
parents:
diff changeset
653 if( t2 == TypeF::ONE )
a61af66fc99e Initial load
duke
parents:
diff changeset
654 return t1;
a61af66fc99e Initial load
duke
parents:
diff changeset
655
a61af66fc99e Initial load
duke
parents:
diff changeset
656 // If divisor is a constant and not zero, divide them numbers
a61af66fc99e Initial load
duke
parents:
diff changeset
657 if( t1->base() == Type::FloatCon &&
a61af66fc99e Initial load
duke
parents:
diff changeset
658 t2->base() == Type::FloatCon &&
a61af66fc99e Initial load
duke
parents:
diff changeset
659 t2->getf() != 0.0 ) // could be negative zero
a61af66fc99e Initial load
duke
parents:
diff changeset
660 return TypeF::make( t1->getf()/t2->getf() );
a61af66fc99e Initial load
duke
parents:
diff changeset
661
a61af66fc99e Initial load
duke
parents:
diff changeset
662 // If the dividend is a constant zero
a61af66fc99e Initial load
duke
parents:
diff changeset
663 // Note: if t1 and t2 are zero then result is NaN (JVMS page 213)
a61af66fc99e Initial load
duke
parents:
diff changeset
664 // Test TypeF::ZERO is not sufficient as it could be negative zero
a61af66fc99e Initial load
duke
parents:
diff changeset
665
a61af66fc99e Initial load
duke
parents:
diff changeset
666 if( t1 == TypeF::ZERO && !g_isnan(t2->getf()) && t2->getf() != 0.0 )
a61af66fc99e Initial load
duke
parents:
diff changeset
667 return TypeF::ZERO;
a61af66fc99e Initial load
duke
parents:
diff changeset
668
a61af66fc99e Initial load
duke
parents:
diff changeset
669 // Otherwise we give up all hope
a61af66fc99e Initial load
duke
parents:
diff changeset
670 return Type::FLOAT;
a61af66fc99e Initial load
duke
parents:
diff changeset
671 }
a61af66fc99e Initial load
duke
parents:
diff changeset
672
a61af66fc99e Initial load
duke
parents:
diff changeset
673 //------------------------------isA_Copy---------------------------------------
a61af66fc99e Initial load
duke
parents:
diff changeset
674 // Dividing by self is 1.
a61af66fc99e Initial load
duke
parents:
diff changeset
675 // If the divisor is 1, we are an identity on the dividend.
a61af66fc99e Initial load
duke
parents:
diff changeset
676 Node *DivFNode::Identity( PhaseTransform *phase ) {
a61af66fc99e Initial load
duke
parents:
diff changeset
677 return (phase->type( in(2) ) == TypeF::ONE) ? in(1) : this;
a61af66fc99e Initial load
duke
parents:
diff changeset
678 }
a61af66fc99e Initial load
duke
parents:
diff changeset
679
a61af66fc99e Initial load
duke
parents:
diff changeset
680
a61af66fc99e Initial load
duke
parents:
diff changeset
681 //------------------------------Idealize---------------------------------------
a61af66fc99e Initial load
duke
parents:
diff changeset
682 Node *DivFNode::Ideal(PhaseGVN *phase, bool can_reshape) {
a61af66fc99e Initial load
duke
parents:
diff changeset
683 if (in(0) && remove_dead_region(phase, can_reshape)) return this;
305
ab075d07f1ba 6736417: Fastdebug C2 crashes in StoreBNode::Ideal
kvn
parents: 294
diff changeset
684 // Don't bother trying to transform a dead node
ab075d07f1ba 6736417: Fastdebug C2 crashes in StoreBNode::Ideal
kvn
parents: 294
diff changeset
685 if( in(0) && in(0)->is_top() ) return NULL;
0
a61af66fc99e Initial load
duke
parents:
diff changeset
686
a61af66fc99e Initial load
duke
parents:
diff changeset
687 const Type *t2 = phase->type( in(2) );
a61af66fc99e Initial load
duke
parents:
diff changeset
688 if( t2 == TypeF::ONE ) // Identity?
a61af66fc99e Initial load
duke
parents:
diff changeset
689 return NULL; // Skip it
a61af66fc99e Initial load
duke
parents:
diff changeset
690
a61af66fc99e Initial load
duke
parents:
diff changeset
691 const TypeF *tf = t2->isa_float_constant();
a61af66fc99e Initial load
duke
parents:
diff changeset
692 if( !tf ) return NULL;
a61af66fc99e Initial load
duke
parents:
diff changeset
693 if( tf->base() != Type::FloatCon ) return NULL;
a61af66fc99e Initial load
duke
parents:
diff changeset
694
a61af66fc99e Initial load
duke
parents:
diff changeset
695 // Check for out of range values
a61af66fc99e Initial load
duke
parents:
diff changeset
696 if( tf->is_nan() || !tf->is_finite() ) return NULL;
a61af66fc99e Initial load
duke
parents:
diff changeset
697
a61af66fc99e Initial load
duke
parents:
diff changeset
698 // Get the value
a61af66fc99e Initial load
duke
parents:
diff changeset
699 float f = tf->getf();
a61af66fc99e Initial load
duke
parents:
diff changeset
700 int exp;
a61af66fc99e Initial load
duke
parents:
diff changeset
701
a61af66fc99e Initial load
duke
parents:
diff changeset
702 // Only for special case of dividing by a power of 2
a61af66fc99e Initial load
duke
parents:
diff changeset
703 if( frexp((double)f, &exp) != 0.5 ) return NULL;
a61af66fc99e Initial load
duke
parents:
diff changeset
704
a61af66fc99e Initial load
duke
parents:
diff changeset
705 // Limit the range of acceptable exponents
a61af66fc99e Initial load
duke
parents:
diff changeset
706 if( exp < -126 || exp > 126 ) return NULL;
a61af66fc99e Initial load
duke
parents:
diff changeset
707
a61af66fc99e Initial load
duke
parents:
diff changeset
708 // Compute the reciprocal
a61af66fc99e Initial load
duke
parents:
diff changeset
709 float reciprocal = ((float)1.0) / f;
a61af66fc99e Initial load
duke
parents:
diff changeset
710
a61af66fc99e Initial load
duke
parents:
diff changeset
711 assert( frexp((double)reciprocal, &exp) == 0.5, "reciprocal should be power of 2" );
a61af66fc99e Initial load
duke
parents:
diff changeset
712
a61af66fc99e Initial load
duke
parents:
diff changeset
713 // return multiplication by the reciprocal
a61af66fc99e Initial load
duke
parents:
diff changeset
714 return (new (phase->C, 3) MulFNode(in(1), phase->makecon(TypeF::make(reciprocal))));
a61af66fc99e Initial load
duke
parents:
diff changeset
715 }
a61af66fc99e Initial load
duke
parents:
diff changeset
716
a61af66fc99e Initial load
duke
parents:
diff changeset
717 //=============================================================================
a61af66fc99e Initial load
duke
parents:
diff changeset
718 //------------------------------Value------------------------------------------
a61af66fc99e Initial load
duke
parents:
diff changeset
719 // An DivDNode divides its inputs. The third input is a Control input, used to
131
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
720 // prevent hoisting the divide above an unsafe test.
0
a61af66fc99e Initial load
duke
parents:
diff changeset
721 const Type *DivDNode::Value( PhaseTransform *phase ) const {
a61af66fc99e Initial load
duke
parents:
diff changeset
722 // Either input is TOP ==> the result is TOP
a61af66fc99e Initial load
duke
parents:
diff changeset
723 const Type *t1 = phase->type( in(1) );
a61af66fc99e Initial load
duke
parents:
diff changeset
724 const Type *t2 = phase->type( in(2) );
a61af66fc99e Initial load
duke
parents:
diff changeset
725 if( t1 == Type::TOP ) return Type::TOP;
a61af66fc99e Initial load
duke
parents:
diff changeset
726 if( t2 == Type::TOP ) return Type::TOP;
a61af66fc99e Initial load
duke
parents:
diff changeset
727
a61af66fc99e Initial load
duke
parents:
diff changeset
728 // Either input is BOTTOM ==> the result is the local BOTTOM
a61af66fc99e Initial load
duke
parents:
diff changeset
729 const Type *bot = bottom_type();
a61af66fc99e Initial load
duke
parents:
diff changeset
730 if( (t1 == bot) || (t2 == bot) ||
a61af66fc99e Initial load
duke
parents:
diff changeset
731 (t1 == Type::BOTTOM) || (t2 == Type::BOTTOM) )
a61af66fc99e Initial load
duke
parents:
diff changeset
732 return bot;
a61af66fc99e Initial load
duke
parents:
diff changeset
733
a61af66fc99e Initial load
duke
parents:
diff changeset
734 // x/x == 1, we ignore 0/0.
a61af66fc99e Initial load
duke
parents:
diff changeset
735 // Note: if t1 and t2 are zero then result is NaN (JVMS page 213)
a61af66fc99e Initial load
duke
parents:
diff changeset
736 // Does not work for variables because of NaN's
a61af66fc99e Initial load
duke
parents:
diff changeset
737 if( phase->eqv( in(1), in(2) ) && t1->base() == Type::DoubleCon)
a61af66fc99e Initial load
duke
parents:
diff changeset
738 if (!g_isnan(t1->getd()) && g_isfinite(t1->getd()) && t1->getd() != 0.0) // could be negative ZERO or NaN
a61af66fc99e Initial load
duke
parents:
diff changeset
739 return TypeD::ONE;
a61af66fc99e Initial load
duke
parents:
diff changeset
740
a61af66fc99e Initial load
duke
parents:
diff changeset
741 if( t2 == TypeD::ONE )
a61af66fc99e Initial load
duke
parents:
diff changeset
742 return t1;
a61af66fc99e Initial load
duke
parents:
diff changeset
743
404
78c058bc5cdc 6717150: improper constant folding of subnormal strictfp multiplications and divides
rasbold
parents: 400
diff changeset
744 #if defined(IA32)
78c058bc5cdc 6717150: improper constant folding of subnormal strictfp multiplications and divides
rasbold
parents: 400
diff changeset
745 if (!phase->C->method()->is_strict())
78c058bc5cdc 6717150: improper constant folding of subnormal strictfp multiplications and divides
rasbold
parents: 400
diff changeset
746 // Can't trust native compilers to properly fold strict double
78c058bc5cdc 6717150: improper constant folding of subnormal strictfp multiplications and divides
rasbold
parents: 400
diff changeset
747 // division with round-to-zero on this platform.
78c058bc5cdc 6717150: improper constant folding of subnormal strictfp multiplications and divides
rasbold
parents: 400
diff changeset
748 #endif
78c058bc5cdc 6717150: improper constant folding of subnormal strictfp multiplications and divides
rasbold
parents: 400
diff changeset
749 {
78c058bc5cdc 6717150: improper constant folding of subnormal strictfp multiplications and divides
rasbold
parents: 400
diff changeset
750 // If divisor is a constant and not zero, divide them numbers
78c058bc5cdc 6717150: improper constant folding of subnormal strictfp multiplications and divides
rasbold
parents: 400
diff changeset
751 if( t1->base() == Type::DoubleCon &&
78c058bc5cdc 6717150: improper constant folding of subnormal strictfp multiplications and divides
rasbold
parents: 400
diff changeset
752 t2->base() == Type::DoubleCon &&
78c058bc5cdc 6717150: improper constant folding of subnormal strictfp multiplications and divides
rasbold
parents: 400
diff changeset
753 t2->getd() != 0.0 ) // could be negative zero
78c058bc5cdc 6717150: improper constant folding of subnormal strictfp multiplications and divides
rasbold
parents: 400
diff changeset
754 return TypeD::make( t1->getd()/t2->getd() );
78c058bc5cdc 6717150: improper constant folding of subnormal strictfp multiplications and divides
rasbold
parents: 400
diff changeset
755 }
0
a61af66fc99e Initial load
duke
parents:
diff changeset
756
a61af66fc99e Initial load
duke
parents:
diff changeset
757 // If the dividend is a constant zero
a61af66fc99e Initial load
duke
parents:
diff changeset
758 // Note: if t1 and t2 are zero then result is NaN (JVMS page 213)
a61af66fc99e Initial load
duke
parents:
diff changeset
759 // Test TypeF::ZERO is not sufficient as it could be negative zero
a61af66fc99e Initial load
duke
parents:
diff changeset
760 if( t1 == TypeD::ZERO && !g_isnan(t2->getd()) && t2->getd() != 0.0 )
a61af66fc99e Initial load
duke
parents:
diff changeset
761 return TypeD::ZERO;
a61af66fc99e Initial load
duke
parents:
diff changeset
762
a61af66fc99e Initial load
duke
parents:
diff changeset
763 // Otherwise we give up all hope
a61af66fc99e Initial load
duke
parents:
diff changeset
764 return Type::DOUBLE;
a61af66fc99e Initial load
duke
parents:
diff changeset
765 }
a61af66fc99e Initial load
duke
parents:
diff changeset
766
a61af66fc99e Initial load
duke
parents:
diff changeset
767
a61af66fc99e Initial load
duke
parents:
diff changeset
768 //------------------------------isA_Copy---------------------------------------
a61af66fc99e Initial load
duke
parents:
diff changeset
769 // Dividing by self is 1.
a61af66fc99e Initial load
duke
parents:
diff changeset
770 // If the divisor is 1, we are an identity on the dividend.
a61af66fc99e Initial load
duke
parents:
diff changeset
771 Node *DivDNode::Identity( PhaseTransform *phase ) {
a61af66fc99e Initial load
duke
parents:
diff changeset
772 return (phase->type( in(2) ) == TypeD::ONE) ? in(1) : this;
a61af66fc99e Initial load
duke
parents:
diff changeset
773 }
a61af66fc99e Initial load
duke
parents:
diff changeset
774
a61af66fc99e Initial load
duke
parents:
diff changeset
775 //------------------------------Idealize---------------------------------------
a61af66fc99e Initial load
duke
parents:
diff changeset
776 Node *DivDNode::Ideal(PhaseGVN *phase, bool can_reshape) {
a61af66fc99e Initial load
duke
parents:
diff changeset
777 if (in(0) && remove_dead_region(phase, can_reshape)) return this;
305
ab075d07f1ba 6736417: Fastdebug C2 crashes in StoreBNode::Ideal
kvn
parents: 294
diff changeset
778 // Don't bother trying to transform a dead node
ab075d07f1ba 6736417: Fastdebug C2 crashes in StoreBNode::Ideal
kvn
parents: 294
diff changeset
779 if( in(0) && in(0)->is_top() ) return NULL;
0
a61af66fc99e Initial load
duke
parents:
diff changeset
780
a61af66fc99e Initial load
duke
parents:
diff changeset
781 const Type *t2 = phase->type( in(2) );
a61af66fc99e Initial load
duke
parents:
diff changeset
782 if( t2 == TypeD::ONE ) // Identity?
a61af66fc99e Initial load
duke
parents:
diff changeset
783 return NULL; // Skip it
a61af66fc99e Initial load
duke
parents:
diff changeset
784
a61af66fc99e Initial load
duke
parents:
diff changeset
785 const TypeD *td = t2->isa_double_constant();
a61af66fc99e Initial load
duke
parents:
diff changeset
786 if( !td ) return NULL;
a61af66fc99e Initial load
duke
parents:
diff changeset
787 if( td->base() != Type::DoubleCon ) return NULL;
a61af66fc99e Initial load
duke
parents:
diff changeset
788
a61af66fc99e Initial load
duke
parents:
diff changeset
789 // Check for out of range values
a61af66fc99e Initial load
duke
parents:
diff changeset
790 if( td->is_nan() || !td->is_finite() ) return NULL;
a61af66fc99e Initial load
duke
parents:
diff changeset
791
a61af66fc99e Initial load
duke
parents:
diff changeset
792 // Get the value
a61af66fc99e Initial load
duke
parents:
diff changeset
793 double d = td->getd();
a61af66fc99e Initial load
duke
parents:
diff changeset
794 int exp;
a61af66fc99e Initial load
duke
parents:
diff changeset
795
a61af66fc99e Initial load
duke
parents:
diff changeset
796 // Only for special case of dividing by a power of 2
a61af66fc99e Initial load
duke
parents:
diff changeset
797 if( frexp(d, &exp) != 0.5 ) return NULL;
a61af66fc99e Initial load
duke
parents:
diff changeset
798
a61af66fc99e Initial load
duke
parents:
diff changeset
799 // Limit the range of acceptable exponents
a61af66fc99e Initial load
duke
parents:
diff changeset
800 if( exp < -1021 || exp > 1022 ) return NULL;
a61af66fc99e Initial load
duke
parents:
diff changeset
801
a61af66fc99e Initial load
duke
parents:
diff changeset
802 // Compute the reciprocal
a61af66fc99e Initial load
duke
parents:
diff changeset
803 double reciprocal = 1.0 / d;
a61af66fc99e Initial load
duke
parents:
diff changeset
804
a61af66fc99e Initial load
duke
parents:
diff changeset
805 assert( frexp(reciprocal, &exp) == 0.5, "reciprocal should be power of 2" );
a61af66fc99e Initial load
duke
parents:
diff changeset
806
a61af66fc99e Initial load
duke
parents:
diff changeset
807 // return multiplication by the reciprocal
a61af66fc99e Initial load
duke
parents:
diff changeset
808 return (new (phase->C, 3) MulDNode(in(1), phase->makecon(TypeD::make(reciprocal))));
a61af66fc99e Initial load
duke
parents:
diff changeset
809 }
a61af66fc99e Initial load
duke
parents:
diff changeset
810
a61af66fc99e Initial load
duke
parents:
diff changeset
811 //=============================================================================
a61af66fc99e Initial load
duke
parents:
diff changeset
812 //------------------------------Idealize---------------------------------------
a61af66fc99e Initial load
duke
parents:
diff changeset
813 Node *ModINode::Ideal(PhaseGVN *phase, bool can_reshape) {
a61af66fc99e Initial load
duke
parents:
diff changeset
814 // Check for dead control input
305
ab075d07f1ba 6736417: Fastdebug C2 crashes in StoreBNode::Ideal
kvn
parents: 294
diff changeset
815 if( in(0) && remove_dead_region(phase, can_reshape) ) return this;
ab075d07f1ba 6736417: Fastdebug C2 crashes in StoreBNode::Ideal
kvn
parents: 294
diff changeset
816 // Don't bother trying to transform a dead node
ab075d07f1ba 6736417: Fastdebug C2 crashes in StoreBNode::Ideal
kvn
parents: 294
diff changeset
817 if( in(0) && in(0)->is_top() ) return NULL;
0
a61af66fc99e Initial load
duke
parents:
diff changeset
818
a61af66fc99e Initial load
duke
parents:
diff changeset
819 // Get the modulus
a61af66fc99e Initial load
duke
parents:
diff changeset
820 const Type *t = phase->type( in(2) );
a61af66fc99e Initial load
duke
parents:
diff changeset
821 if( t == Type::TOP ) return NULL;
a61af66fc99e Initial load
duke
parents:
diff changeset
822 const TypeInt *ti = t->is_int();
a61af66fc99e Initial load
duke
parents:
diff changeset
823
a61af66fc99e Initial load
duke
parents:
diff changeset
824 // Check for useless control input
a61af66fc99e Initial load
duke
parents:
diff changeset
825 // Check for excluding mod-zero case
a61af66fc99e Initial load
duke
parents:
diff changeset
826 if( in(0) && (ti->_hi < 0 || ti->_lo > 0) ) {
a61af66fc99e Initial load
duke
parents:
diff changeset
827 set_req(0, NULL); // Yank control input
a61af66fc99e Initial load
duke
parents:
diff changeset
828 return this;
a61af66fc99e Initial load
duke
parents:
diff changeset
829 }
a61af66fc99e Initial load
duke
parents:
diff changeset
830
a61af66fc99e Initial load
duke
parents:
diff changeset
831 // See if we are MOD'ing by 2^k or 2^k-1.
a61af66fc99e Initial load
duke
parents:
diff changeset
832 if( !ti->is_con() ) return NULL;
a61af66fc99e Initial load
duke
parents:
diff changeset
833 jint con = ti->get_con();
a61af66fc99e Initial load
duke
parents:
diff changeset
834
a61af66fc99e Initial load
duke
parents:
diff changeset
835 Node *hook = new (phase->C, 1) Node(1);
a61af66fc99e Initial load
duke
parents:
diff changeset
836
a61af66fc99e Initial load
duke
parents:
diff changeset
837 // First, special check for modulo 2^k-1
a61af66fc99e Initial load
duke
parents:
diff changeset
838 if( con >= 0 && con < max_jint && is_power_of_2(con+1) ) {
a61af66fc99e Initial load
duke
parents:
diff changeset
839 uint k = exact_log2(con+1); // Extract k
a61af66fc99e Initial load
duke
parents:
diff changeset
840
a61af66fc99e Initial load
duke
parents:
diff changeset
841 // Basic algorithm by David Detlefs. See fastmod_int.java for gory details.
a61af66fc99e Initial load
duke
parents:
diff changeset
842 static int unroll_factor[] = { 999, 999, 29, 14, 9, 7, 5, 4, 4, 3, 3, 2, 2, 2, 2, 2, 1 /*past here we assume 1 forever*/};
a61af66fc99e Initial load
duke
parents:
diff changeset
843 int trip_count = 1;
a61af66fc99e Initial load
duke
parents:
diff changeset
844 if( k < ARRAY_SIZE(unroll_factor)) trip_count = unroll_factor[k];
a61af66fc99e Initial load
duke
parents:
diff changeset
845
a61af66fc99e Initial load
duke
parents:
diff changeset
846 // If the unroll factor is not too large, and if conditional moves are
a61af66fc99e Initial load
duke
parents:
diff changeset
847 // ok, then use this case
a61af66fc99e Initial load
duke
parents:
diff changeset
848 if( trip_count <= 5 && ConditionalMoveLimit != 0 ) {
a61af66fc99e Initial load
duke
parents:
diff changeset
849 Node *x = in(1); // Value being mod'd
a61af66fc99e Initial load
duke
parents:
diff changeset
850 Node *divisor = in(2); // Also is mask
a61af66fc99e Initial load
duke
parents:
diff changeset
851
a61af66fc99e Initial load
duke
parents:
diff changeset
852 hook->init_req(0, x); // Add a use to x to prevent him from dying
a61af66fc99e Initial load
duke
parents:
diff changeset
853 // Generate code to reduce X rapidly to nearly 2^k-1.
a61af66fc99e Initial load
duke
parents:
diff changeset
854 for( int i = 0; i < trip_count; i++ ) {
145
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
855 Node *xl = phase->transform( new (phase->C, 3) AndINode(x,divisor) );
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
856 Node *xh = phase->transform( new (phase->C, 3) RShiftINode(x,phase->intcon(k)) ); // Must be signed
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
857 x = phase->transform( new (phase->C, 3) AddINode(xh,xl) );
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
858 hook->set_req(0, x);
0
a61af66fc99e Initial load
duke
parents:
diff changeset
859 }
a61af66fc99e Initial load
duke
parents:
diff changeset
860
a61af66fc99e Initial load
duke
parents:
diff changeset
861 // Generate sign-fixup code. Was original value positive?
a61af66fc99e Initial load
duke
parents:
diff changeset
862 // int hack_res = (i >= 0) ? divisor : 1;
a61af66fc99e Initial load
duke
parents:
diff changeset
863 Node *cmp1 = phase->transform( new (phase->C, 3) CmpINode( in(1), phase->intcon(0) ) );
a61af66fc99e Initial load
duke
parents:
diff changeset
864 Node *bol1 = phase->transform( new (phase->C, 2) BoolNode( cmp1, BoolTest::ge ) );
a61af66fc99e Initial load
duke
parents:
diff changeset
865 Node *cmov1= phase->transform( new (phase->C, 4) CMoveINode(bol1, phase->intcon(1), divisor, TypeInt::POS) );
a61af66fc99e Initial load
duke
parents:
diff changeset
866 // if( x >= hack_res ) x -= divisor;
a61af66fc99e Initial load
duke
parents:
diff changeset
867 Node *sub = phase->transform( new (phase->C, 3) SubINode( x, divisor ) );
a61af66fc99e Initial load
duke
parents:
diff changeset
868 Node *cmp2 = phase->transform( new (phase->C, 3) CmpINode( x, cmov1 ) );
a61af66fc99e Initial load
duke
parents:
diff changeset
869 Node *bol2 = phase->transform( new (phase->C, 2) BoolNode( cmp2, BoolTest::ge ) );
a61af66fc99e Initial load
duke
parents:
diff changeset
870 // Convention is to not transform the return value of an Ideal
a61af66fc99e Initial load
duke
parents:
diff changeset
871 // since Ideal is expected to return a modified 'this' or a new node.
a61af66fc99e Initial load
duke
parents:
diff changeset
872 Node *cmov2= new (phase->C, 4) CMoveINode(bol2, x, sub, TypeInt::INT);
a61af66fc99e Initial load
duke
parents:
diff changeset
873 // cmov2 is now the mod
a61af66fc99e Initial load
duke
parents:
diff changeset
874
a61af66fc99e Initial load
duke
parents:
diff changeset
875 // Now remove the bogus extra edges used to keep things alive
a61af66fc99e Initial load
duke
parents:
diff changeset
876 if (can_reshape) {
a61af66fc99e Initial load
duke
parents:
diff changeset
877 phase->is_IterGVN()->remove_dead_node(hook);
a61af66fc99e Initial load
duke
parents:
diff changeset
878 } else {
a61af66fc99e Initial load
duke
parents:
diff changeset
879 hook->set_req(0, NULL); // Just yank bogus edge during Parse phase
a61af66fc99e Initial load
duke
parents:
diff changeset
880 }
a61af66fc99e Initial load
duke
parents:
diff changeset
881 return cmov2;
a61af66fc99e Initial load
duke
parents:
diff changeset
882 }
a61af66fc99e Initial load
duke
parents:
diff changeset
883 }
a61af66fc99e Initial load
duke
parents:
diff changeset
884
a61af66fc99e Initial load
duke
parents:
diff changeset
885 // Fell thru, the unroll case is not appropriate. Transform the modulo
a61af66fc99e Initial load
duke
parents:
diff changeset
886 // into a long multiply/int multiply/subtract case
a61af66fc99e Initial load
duke
parents:
diff changeset
887
a61af66fc99e Initial load
duke
parents:
diff changeset
888 // Cannot handle mod 0, and min_jint isn't handled by the transform
a61af66fc99e Initial load
duke
parents:
diff changeset
889 if( con == 0 || con == min_jint ) return NULL;
a61af66fc99e Initial load
duke
parents:
diff changeset
890
a61af66fc99e Initial load
duke
parents:
diff changeset
891 // Get the absolute value of the constant; at this point, we can use this
a61af66fc99e Initial load
duke
parents:
diff changeset
892 jint pos_con = (con >= 0) ? con : -con;
a61af66fc99e Initial load
duke
parents:
diff changeset
893
a61af66fc99e Initial load
duke
parents:
diff changeset
894 // integer Mod 1 is always 0
a61af66fc99e Initial load
duke
parents:
diff changeset
895 if( pos_con == 1 ) return new (phase->C, 1) ConINode(TypeInt::ZERO);
a61af66fc99e Initial load
duke
parents:
diff changeset
896
a61af66fc99e Initial load
duke
parents:
diff changeset
897 int log2_con = -1;
a61af66fc99e Initial load
duke
parents:
diff changeset
898
a61af66fc99e Initial load
duke
parents:
diff changeset
899 // If this is a power of two, they maybe we can mask it
a61af66fc99e Initial load
duke
parents:
diff changeset
900 if( is_power_of_2(pos_con) ) {
a61af66fc99e Initial load
duke
parents:
diff changeset
901 log2_con = log2_intptr((intptr_t)pos_con);
a61af66fc99e Initial load
duke
parents:
diff changeset
902
a61af66fc99e Initial load
duke
parents:
diff changeset
903 const Type *dt = phase->type(in(1));
a61af66fc99e Initial load
duke
parents:
diff changeset
904 const TypeInt *dti = dt->isa_int();
a61af66fc99e Initial load
duke
parents:
diff changeset
905
a61af66fc99e Initial load
duke
parents:
diff changeset
906 // See if this can be masked, if the dividend is non-negative
a61af66fc99e Initial load
duke
parents:
diff changeset
907 if( dti && dti->_lo >= 0 )
a61af66fc99e Initial load
duke
parents:
diff changeset
908 return ( new (phase->C, 3) AndINode( in(1), phase->intcon( pos_con-1 ) ) );
a61af66fc99e Initial load
duke
parents:
diff changeset
909 }
a61af66fc99e Initial load
duke
parents:
diff changeset
910
a61af66fc99e Initial load
duke
parents:
diff changeset
911 // Save in(1) so that it cannot be changed or deleted
a61af66fc99e Initial load
duke
parents:
diff changeset
912 hook->init_req(0, in(1));
a61af66fc99e Initial load
duke
parents:
diff changeset
913
a61af66fc99e Initial load
duke
parents:
diff changeset
914 // Divide using the transform from DivI to MulL
145
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
915 Node *result = transform_int_divide( phase, in(1), pos_con );
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
916 if (result != NULL) {
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
917 Node *divide = phase->transform(result);
0
a61af66fc99e Initial load
duke
parents:
diff changeset
918
145
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
919 // Re-multiply, using a shift if this is a power of two
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
920 Node *mult = NULL;
0
a61af66fc99e Initial load
duke
parents:
diff changeset
921
145
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
922 if( log2_con >= 0 )
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
923 mult = phase->transform( new (phase->C, 3) LShiftINode( divide, phase->intcon( log2_con ) ) );
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
924 else
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
925 mult = phase->transform( new (phase->C, 3) MulINode( divide, phase->intcon( pos_con ) ) );
0
a61af66fc99e Initial load
duke
parents:
diff changeset
926
145
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
927 // Finally, subtract the multiplied divided value from the original
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
928 result = new (phase->C, 3) SubINode( in(1), mult );
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
929 }
0
a61af66fc99e Initial load
duke
parents:
diff changeset
930
a61af66fc99e Initial load
duke
parents:
diff changeset
931 // Now remove the bogus extra edges used to keep things alive
a61af66fc99e Initial load
duke
parents:
diff changeset
932 if (can_reshape) {
a61af66fc99e Initial load
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parents:
diff changeset
933 phase->is_IterGVN()->remove_dead_node(hook);
a61af66fc99e Initial load
duke
parents:
diff changeset
934 } else {
a61af66fc99e Initial load
duke
parents:
diff changeset
935 hook->set_req(0, NULL); // Just yank bogus edge during Parse phase
a61af66fc99e Initial load
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parents:
diff changeset
936 }
a61af66fc99e Initial load
duke
parents:
diff changeset
937
a61af66fc99e Initial load
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parents:
diff changeset
938 // return the value
a61af66fc99e Initial load
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parents:
diff changeset
939 return result;
a61af66fc99e Initial load
duke
parents:
diff changeset
940 }
a61af66fc99e Initial load
duke
parents:
diff changeset
941
a61af66fc99e Initial load
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parents:
diff changeset
942 //------------------------------Value------------------------------------------
a61af66fc99e Initial load
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parents:
diff changeset
943 const Type *ModINode::Value( PhaseTransform *phase ) const {
a61af66fc99e Initial load
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parents:
diff changeset
944 // Either input is TOP ==> the result is TOP
a61af66fc99e Initial load
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parents:
diff changeset
945 const Type *t1 = phase->type( in(1) );
a61af66fc99e Initial load
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parents:
diff changeset
946 const Type *t2 = phase->type( in(2) );
a61af66fc99e Initial load
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parents:
diff changeset
947 if( t1 == Type::TOP ) return Type::TOP;
a61af66fc99e Initial load
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parents:
diff changeset
948 if( t2 == Type::TOP ) return Type::TOP;
a61af66fc99e Initial load
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parents:
diff changeset
949
a61af66fc99e Initial load
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parents:
diff changeset
950 // We always generate the dynamic check for 0.
a61af66fc99e Initial load
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parents:
diff changeset
951 // 0 MOD X is 0
a61af66fc99e Initial load
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parents:
diff changeset
952 if( t1 == TypeInt::ZERO ) return TypeInt::ZERO;
a61af66fc99e Initial load
duke
parents:
diff changeset
953 // X MOD X is 0
a61af66fc99e Initial load
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parents:
diff changeset
954 if( phase->eqv( in(1), in(2) ) ) return TypeInt::ZERO;
a61af66fc99e Initial load
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parents:
diff changeset
955
a61af66fc99e Initial load
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parents:
diff changeset
956 // Either input is BOTTOM ==> the result is the local BOTTOM
a61af66fc99e Initial load
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parents:
diff changeset
957 const Type *bot = bottom_type();
a61af66fc99e Initial load
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parents:
diff changeset
958 if( (t1 == bot) || (t2 == bot) ||
a61af66fc99e Initial load
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parents:
diff changeset
959 (t1 == Type::BOTTOM) || (t2 == Type::BOTTOM) )
a61af66fc99e Initial load
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parents:
diff changeset
960 return bot;
a61af66fc99e Initial load
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parents:
diff changeset
961
a61af66fc99e Initial load
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parents:
diff changeset
962 const TypeInt *i1 = t1->is_int();
a61af66fc99e Initial load
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parents:
diff changeset
963 const TypeInt *i2 = t2->is_int();
a61af66fc99e Initial load
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parents:
diff changeset
964 if( !i1->is_con() || !i2->is_con() ) {
a61af66fc99e Initial load
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parents:
diff changeset
965 if( i1->_lo >= 0 && i2->_lo >= 0 )
a61af66fc99e Initial load
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parents:
diff changeset
966 return TypeInt::POS;
a61af66fc99e Initial load
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parents:
diff changeset
967 // If both numbers are not constants, we know little.
a61af66fc99e Initial load
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parents:
diff changeset
968 return TypeInt::INT;
a61af66fc99e Initial load
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parents:
diff changeset
969 }
a61af66fc99e Initial load
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parents:
diff changeset
970 // Mod by zero? Throw exception at runtime!
a61af66fc99e Initial load
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parents:
diff changeset
971 if( !i2->get_con() ) return TypeInt::POS;
a61af66fc99e Initial load
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parents:
diff changeset
972
a61af66fc99e Initial load
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parents:
diff changeset
973 // We must be modulo'ing 2 float constants.
a61af66fc99e Initial load
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parents:
diff changeset
974 // Check for min_jint % '-1', result is defined to be '0'.
a61af66fc99e Initial load
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parents:
diff changeset
975 if( i1->get_con() == min_jint && i2->get_con() == -1 )
a61af66fc99e Initial load
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parents:
diff changeset
976 return TypeInt::ZERO;
a61af66fc99e Initial load
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parents:
diff changeset
977
a61af66fc99e Initial load
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parents:
diff changeset
978 return TypeInt::make( i1->get_con() % i2->get_con() );
a61af66fc99e Initial load
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parents:
diff changeset
979 }
a61af66fc99e Initial load
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parents:
diff changeset
980
a61af66fc99e Initial load
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parents:
diff changeset
981
a61af66fc99e Initial load
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parents:
diff changeset
982 //=============================================================================
a61af66fc99e Initial load
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parents:
diff changeset
983 //------------------------------Idealize---------------------------------------
a61af66fc99e Initial load
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parents:
diff changeset
984 Node *ModLNode::Ideal(PhaseGVN *phase, bool can_reshape) {
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parents:
diff changeset
985 // Check for dead control input
305
ab075d07f1ba 6736417: Fastdebug C2 crashes in StoreBNode::Ideal
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parents: 294
diff changeset
986 if( in(0) && remove_dead_region(phase, can_reshape) ) return this;
ab075d07f1ba 6736417: Fastdebug C2 crashes in StoreBNode::Ideal
kvn
parents: 294
diff changeset
987 // Don't bother trying to transform a dead node
ab075d07f1ba 6736417: Fastdebug C2 crashes in StoreBNode::Ideal
kvn
parents: 294
diff changeset
988 if( in(0) && in(0)->is_top() ) return NULL;
0
a61af66fc99e Initial load
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parents:
diff changeset
989
a61af66fc99e Initial load
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parents:
diff changeset
990 // Get the modulus
a61af66fc99e Initial load
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parents:
diff changeset
991 const Type *t = phase->type( in(2) );
a61af66fc99e Initial load
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parents:
diff changeset
992 if( t == Type::TOP ) return NULL;
145
f3de1255b035 6603011: RFE: Optimize long division
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diff changeset
993 const TypeLong *tl = t->is_long();
0
a61af66fc99e Initial load
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parents:
diff changeset
994
a61af66fc99e Initial load
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parents:
diff changeset
995 // Check for useless control input
a61af66fc99e Initial load
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parents:
diff changeset
996 // Check for excluding mod-zero case
145
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
997 if( in(0) && (tl->_hi < 0 || tl->_lo > 0) ) {
0
a61af66fc99e Initial load
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parents:
diff changeset
998 set_req(0, NULL); // Yank control input
a61af66fc99e Initial load
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parents:
diff changeset
999 return this;
a61af66fc99e Initial load
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parents:
diff changeset
1000 }
a61af66fc99e Initial load
duke
parents:
diff changeset
1001
a61af66fc99e Initial load
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parents:
diff changeset
1002 // See if we are MOD'ing by 2^k or 2^k-1.
145
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1003 if( !tl->is_con() ) return NULL;
f3de1255b035 6603011: RFE: Optimize long division
rasbold
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diff changeset
1004 jlong con = tl->get_con();
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1005
f3de1255b035 6603011: RFE: Optimize long division
rasbold
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diff changeset
1006 Node *hook = new (phase->C, 1) Node(1);
0
a61af66fc99e Initial load
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parents:
diff changeset
1007
a61af66fc99e Initial load
duke
parents:
diff changeset
1008 // Expand mod
145
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1009 if( con >= 0 && con < max_jlong && is_power_of_2_long(con+1) ) {
568
30663ca5e8f4 6805724: ModLNode::Ideal() generates functionally incorrect graph when divisor is any (2^k-1) constant.
twisti
parents: 567
diff changeset
1010 uint k = exact_log2_long(con+1); // Extract k
145
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1011
0
a61af66fc99e Initial load
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parents:
diff changeset
1012 // Basic algorithm by David Detlefs. See fastmod_long.java for gory details.
a61af66fc99e Initial load
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parents:
diff changeset
1013 // Used to help a popular random number generator which does a long-mod
a61af66fc99e Initial load
duke
parents:
diff changeset
1014 // of 2^31-1 and shows up in SpecJBB and SciMark.
a61af66fc99e Initial load
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parents:
diff changeset
1015 static int unroll_factor[] = { 999, 999, 61, 30, 20, 15, 12, 10, 8, 7, 6, 6, 5, 5, 4, 4, 4, 3, 3, 3, 3, 3, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 1 /*past here we assume 1 forever*/};
a61af66fc99e Initial load
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parents:
diff changeset
1016 int trip_count = 1;
a61af66fc99e Initial load
duke
parents:
diff changeset
1017 if( k < ARRAY_SIZE(unroll_factor)) trip_count = unroll_factor[k];
a61af66fc99e Initial load
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parents:
diff changeset
1018
145
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1019 // If the unroll factor is not too large, and if conditional moves are
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1020 // ok, then use this case
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1021 if( trip_count <= 5 && ConditionalMoveLimit != 0 ) {
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1022 Node *x = in(1); // Value being mod'd
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1023 Node *divisor = in(2); // Also is mask
0
a61af66fc99e Initial load
duke
parents:
diff changeset
1024
145
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1025 hook->init_req(0, x); // Add a use to x to prevent him from dying
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1026 // Generate code to reduce X rapidly to nearly 2^k-1.
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1027 for( int i = 0; i < trip_count; i++ ) {
0
a61af66fc99e Initial load
duke
parents:
diff changeset
1028 Node *xl = phase->transform( new (phase->C, 3) AndLNode(x,divisor) );
a61af66fc99e Initial load
duke
parents:
diff changeset
1029 Node *xh = phase->transform( new (phase->C, 3) RShiftLNode(x,phase->intcon(k)) ); // Must be signed
a61af66fc99e Initial load
duke
parents:
diff changeset
1030 x = phase->transform( new (phase->C, 3) AddLNode(xh,xl) );
a61af66fc99e Initial load
duke
parents:
diff changeset
1031 hook->set_req(0, x); // Add a use to x to prevent him from dying
145
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1032 }
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1033
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1034 // Generate sign-fixup code. Was original value positive?
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1035 // long hack_res = (i >= 0) ? divisor : CONST64(1);
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1036 Node *cmp1 = phase->transform( new (phase->C, 3) CmpLNode( in(1), phase->longcon(0) ) );
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1037 Node *bol1 = phase->transform( new (phase->C, 2) BoolNode( cmp1, BoolTest::ge ) );
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1038 Node *cmov1= phase->transform( new (phase->C, 4) CMoveLNode(bol1, phase->longcon(1), divisor, TypeLong::LONG) );
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1039 // if( x >= hack_res ) x -= divisor;
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1040 Node *sub = phase->transform( new (phase->C, 3) SubLNode( x, divisor ) );
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1041 Node *cmp2 = phase->transform( new (phase->C, 3) CmpLNode( x, cmov1 ) );
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1042 Node *bol2 = phase->transform( new (phase->C, 2) BoolNode( cmp2, BoolTest::ge ) );
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1043 // Convention is to not transform the return value of an Ideal
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1044 // since Ideal is expected to return a modified 'this' or a new node.
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1045 Node *cmov2= new (phase->C, 4) CMoveLNode(bol2, x, sub, TypeLong::LONG);
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1046 // cmov2 is now the mod
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1047
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1048 // Now remove the bogus extra edges used to keep things alive
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1049 if (can_reshape) {
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1050 phase->is_IterGVN()->remove_dead_node(hook);
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1051 } else {
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1052 hook->set_req(0, NULL); // Just yank bogus edge during Parse phase
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1053 }
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1054 return cmov2;
0
a61af66fc99e Initial load
duke
parents:
diff changeset
1055 }
145
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1056 }
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1057
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1058 // Fell thru, the unroll case is not appropriate. Transform the modulo
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1059 // into a long multiply/int multiply/subtract case
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1060
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1061 // Cannot handle mod 0, and min_jint isn't handled by the transform
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1062 if( con == 0 || con == min_jlong ) return NULL;
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1063
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1064 // Get the absolute value of the constant; at this point, we can use this
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1065 jlong pos_con = (con >= 0) ? con : -con;
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1066
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1067 // integer Mod 1 is always 0
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1068 if( pos_con == 1 ) return new (phase->C, 1) ConLNode(TypeLong::ZERO);
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1069
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1070 int log2_con = -1;
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1071
605
98cb887364d3 6810672: Comment typos
twisti
parents: 568
diff changeset
1072 // If this is a power of two, then maybe we can mask it
145
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1073 if( is_power_of_2_long(pos_con) ) {
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1074 log2_con = log2_long(pos_con);
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1075
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1076 const Type *dt = phase->type(in(1));
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1077 const TypeLong *dtl = dt->isa_long();
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1078
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1079 // See if this can be masked, if the dividend is non-negative
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1080 if( dtl && dtl->_lo >= 0 )
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1081 return ( new (phase->C, 3) AndLNode( in(1), phase->longcon( pos_con-1 ) ) );
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1082 }
0
a61af66fc99e Initial load
duke
parents:
diff changeset
1083
145
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1084 // Save in(1) so that it cannot be changed or deleted
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1085 hook->init_req(0, in(1));
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1086
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1087 // Divide using the transform from DivI to MulL
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1088 Node *result = transform_long_divide( phase, in(1), pos_con );
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1089 if (result != NULL) {
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1090 Node *divide = phase->transform(result);
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1091
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1092 // Re-multiply, using a shift if this is a power of two
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1093 Node *mult = NULL;
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1094
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1095 if( log2_con >= 0 )
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1096 mult = phase->transform( new (phase->C, 3) LShiftLNode( divide, phase->intcon( log2_con ) ) );
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1097 else
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1098 mult = phase->transform( new (phase->C, 3) MulLNode( divide, phase->longcon( pos_con ) ) );
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1099
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1100 // Finally, subtract the multiplied divided value from the original
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1101 result = new (phase->C, 3) SubLNode( in(1), mult );
0
a61af66fc99e Initial load
duke
parents:
diff changeset
1102 }
145
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1103
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1104 // Now remove the bogus extra edges used to keep things alive
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1105 if (can_reshape) {
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1106 phase->is_IterGVN()->remove_dead_node(hook);
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1107 } else {
f3de1255b035 6603011: RFE: Optimize long division
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parents: 131
diff changeset
1108 hook->set_req(0, NULL); // Just yank bogus edge during Parse phase
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1109 }
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1110
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1111 // return the value
f3de1255b035 6603011: RFE: Optimize long division
rasbold
parents: 131
diff changeset
1112 return result;
0
a61af66fc99e Initial load
duke
parents:
diff changeset
1113 }
a61af66fc99e Initial load
duke
parents:
diff changeset
1114
a61af66fc99e Initial load
duke
parents:
diff changeset
1115 //------------------------------Value------------------------------------------
a61af66fc99e Initial load
duke
parents:
diff changeset
1116 const Type *ModLNode::Value( PhaseTransform *phase ) const {
a61af66fc99e Initial load
duke
parents:
diff changeset
1117 // Either input is TOP ==> the result is TOP
a61af66fc99e Initial load
duke
parents:
diff changeset
1118 const Type *t1 = phase->type( in(1) );
a61af66fc99e Initial load
duke
parents:
diff changeset
1119 const Type *t2 = phase->type( in(2) );
a61af66fc99e Initial load
duke
parents:
diff changeset
1120 if( t1 == Type::TOP ) return Type::TOP;
a61af66fc99e Initial load
duke
parents:
diff changeset
1121 if( t2 == Type::TOP ) return Type::TOP;
a61af66fc99e Initial load
duke
parents:
diff changeset
1122
a61af66fc99e Initial load
duke
parents:
diff changeset
1123 // We always generate the dynamic check for 0.
a61af66fc99e Initial load
duke
parents:
diff changeset
1124 // 0 MOD X is 0
a61af66fc99e Initial load
duke
parents:
diff changeset
1125 if( t1 == TypeLong::ZERO ) return TypeLong::ZERO;
a61af66fc99e Initial load
duke
parents:
diff changeset
1126 // X MOD X is 0
a61af66fc99e Initial load
duke
parents:
diff changeset
1127 if( phase->eqv( in(1), in(2) ) ) return TypeLong::ZERO;
a61af66fc99e Initial load
duke
parents:
diff changeset
1128
a61af66fc99e Initial load
duke
parents:
diff changeset
1129 // Either input is BOTTOM ==> the result is the local BOTTOM
a61af66fc99e Initial load
duke
parents:
diff changeset
1130 const Type *bot = bottom_type();
a61af66fc99e Initial load
duke
parents:
diff changeset
1131 if( (t1 == bot) || (t2 == bot) ||
a61af66fc99e Initial load
duke
parents:
diff changeset
1132 (t1 == Type::BOTTOM) || (t2 == Type::BOTTOM) )
a61af66fc99e Initial load
duke
parents:
diff changeset
1133 return bot;
a61af66fc99e Initial load
duke
parents:
diff changeset
1134
a61af66fc99e Initial load
duke
parents:
diff changeset
1135 const TypeLong *i1 = t1->is_long();
a61af66fc99e Initial load
duke
parents:
diff changeset
1136 const TypeLong *i2 = t2->is_long();
a61af66fc99e Initial load
duke
parents:
diff changeset
1137 if( !i1->is_con() || !i2->is_con() ) {
a61af66fc99e Initial load
duke
parents:
diff changeset
1138 if( i1->_lo >= CONST64(0) && i2->_lo >= CONST64(0) )
a61af66fc99e Initial load
duke
parents:
diff changeset
1139 return TypeLong::POS;
a61af66fc99e Initial load
duke
parents:
diff changeset
1140 // If both numbers are not constants, we know little.
a61af66fc99e Initial load
duke
parents:
diff changeset
1141 return TypeLong::LONG;
a61af66fc99e Initial load
duke
parents:
diff changeset
1142 }
a61af66fc99e Initial load
duke
parents:
diff changeset
1143 // Mod by zero? Throw exception at runtime!
a61af66fc99e Initial load
duke
parents:
diff changeset
1144 if( !i2->get_con() ) return TypeLong::POS;
a61af66fc99e Initial load
duke
parents:
diff changeset
1145
a61af66fc99e Initial load
duke
parents:
diff changeset
1146 // We must be modulo'ing 2 float constants.
a61af66fc99e Initial load
duke
parents:
diff changeset
1147 // Check for min_jint % '-1', result is defined to be '0'.
a61af66fc99e Initial load
duke
parents:
diff changeset
1148 if( i1->get_con() == min_jlong && i2->get_con() == -1 )
a61af66fc99e Initial load
duke
parents:
diff changeset
1149 return TypeLong::ZERO;
a61af66fc99e Initial load
duke
parents:
diff changeset
1150
a61af66fc99e Initial load
duke
parents:
diff changeset
1151 return TypeLong::make( i1->get_con() % i2->get_con() );
a61af66fc99e Initial load
duke
parents:
diff changeset
1152 }
a61af66fc99e Initial load
duke
parents:
diff changeset
1153
a61af66fc99e Initial load
duke
parents:
diff changeset
1154
a61af66fc99e Initial load
duke
parents:
diff changeset
1155 //=============================================================================
a61af66fc99e Initial load
duke
parents:
diff changeset
1156 //------------------------------Value------------------------------------------
a61af66fc99e Initial load
duke
parents:
diff changeset
1157 const Type *ModFNode::Value( PhaseTransform *phase ) const {
a61af66fc99e Initial load
duke
parents:
diff changeset
1158 // Either input is TOP ==> the result is TOP
a61af66fc99e Initial load
duke
parents:
diff changeset
1159 const Type *t1 = phase->type( in(1) );
a61af66fc99e Initial load
duke
parents:
diff changeset
1160 const Type *t2 = phase->type( in(2) );
a61af66fc99e Initial load
duke
parents:
diff changeset
1161 if( t1 == Type::TOP ) return Type::TOP;
a61af66fc99e Initial load
duke
parents:
diff changeset
1162 if( t2 == Type::TOP ) return Type::TOP;
a61af66fc99e Initial load
duke
parents:
diff changeset
1163
a61af66fc99e Initial load
duke
parents:
diff changeset
1164 // Either input is BOTTOM ==> the result is the local BOTTOM
a61af66fc99e Initial load
duke
parents:
diff changeset
1165 const Type *bot = bottom_type();
a61af66fc99e Initial load
duke
parents:
diff changeset
1166 if( (t1 == bot) || (t2 == bot) ||
a61af66fc99e Initial load
duke
parents:
diff changeset
1167 (t1 == Type::BOTTOM) || (t2 == Type::BOTTOM) )
a61af66fc99e Initial load
duke
parents:
diff changeset
1168 return bot;
a61af66fc99e Initial load
duke
parents:
diff changeset
1169
131
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1170 // If either number is not a constant, we know nothing.
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1171 if ((t1->base() != Type::FloatCon) || (t2->base() != Type::FloatCon)) {
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1172 return Type::FLOAT; // note: x%x can be either NaN or 0
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1173 }
0
a61af66fc99e Initial load
duke
parents:
diff changeset
1174
131
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1175 float f1 = t1->getf();
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1176 float f2 = t2->getf();
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1177 jint x1 = jint_cast(f1); // note: *(int*)&f1, not just (int)f1
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1178 jint x2 = jint_cast(f2);
0
a61af66fc99e Initial load
duke
parents:
diff changeset
1179
131
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1180 // If either is a NaN, return an input NaN
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1181 if (g_isnan(f1)) return t1;
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1182 if (g_isnan(f2)) return t2;
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1183
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1184 // If an operand is infinity or the divisor is +/- zero, punt.
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1185 if (!g_isfinite(f1) || !g_isfinite(f2) || x2 == 0 || x2 == min_jint)
0
a61af66fc99e Initial load
duke
parents:
diff changeset
1186 return Type::FLOAT;
a61af66fc99e Initial load
duke
parents:
diff changeset
1187
a61af66fc99e Initial load
duke
parents:
diff changeset
1188 // We must be modulo'ing 2 float constants.
a61af66fc99e Initial load
duke
parents:
diff changeset
1189 // Make sure that the sign of the fmod is equal to the sign of the dividend
131
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1190 jint xr = jint_cast(fmod(f1, f2));
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1191 if ((x1 ^ xr) < 0) {
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1192 xr ^= min_jint;
0
a61af66fc99e Initial load
duke
parents:
diff changeset
1193 }
131
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1194
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1195 return TypeF::make(jfloat_cast(xr));
0
a61af66fc99e Initial load
duke
parents:
diff changeset
1196 }
a61af66fc99e Initial load
duke
parents:
diff changeset
1197
a61af66fc99e Initial load
duke
parents:
diff changeset
1198
a61af66fc99e Initial load
duke
parents:
diff changeset
1199 //=============================================================================
a61af66fc99e Initial load
duke
parents:
diff changeset
1200 //------------------------------Value------------------------------------------
a61af66fc99e Initial load
duke
parents:
diff changeset
1201 const Type *ModDNode::Value( PhaseTransform *phase ) const {
a61af66fc99e Initial load
duke
parents:
diff changeset
1202 // Either input is TOP ==> the result is TOP
a61af66fc99e Initial load
duke
parents:
diff changeset
1203 const Type *t1 = phase->type( in(1) );
a61af66fc99e Initial load
duke
parents:
diff changeset
1204 const Type *t2 = phase->type( in(2) );
a61af66fc99e Initial load
duke
parents:
diff changeset
1205 if( t1 == Type::TOP ) return Type::TOP;
a61af66fc99e Initial load
duke
parents:
diff changeset
1206 if( t2 == Type::TOP ) return Type::TOP;
a61af66fc99e Initial load
duke
parents:
diff changeset
1207
a61af66fc99e Initial load
duke
parents:
diff changeset
1208 // Either input is BOTTOM ==> the result is the local BOTTOM
a61af66fc99e Initial load
duke
parents:
diff changeset
1209 const Type *bot = bottom_type();
a61af66fc99e Initial load
duke
parents:
diff changeset
1210 if( (t1 == bot) || (t2 == bot) ||
a61af66fc99e Initial load
duke
parents:
diff changeset
1211 (t1 == Type::BOTTOM) || (t2 == Type::BOTTOM) )
a61af66fc99e Initial load
duke
parents:
diff changeset
1212 return bot;
a61af66fc99e Initial load
duke
parents:
diff changeset
1213
131
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1214 // If either number is not a constant, we know nothing.
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1215 if ((t1->base() != Type::DoubleCon) || (t2->base() != Type::DoubleCon)) {
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1216 return Type::DOUBLE; // note: x%x can be either NaN or 0
0
a61af66fc99e Initial load
duke
parents:
diff changeset
1217 }
a61af66fc99e Initial load
duke
parents:
diff changeset
1218
131
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1219 double f1 = t1->getd();
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1220 double f2 = t2->getd();
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1221 jlong x1 = jlong_cast(f1); // note: *(long*)&f1, not just (long)f1
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1222 jlong x2 = jlong_cast(f2);
0
a61af66fc99e Initial load
duke
parents:
diff changeset
1223
131
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1224 // If either is a NaN, return an input NaN
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1225 if (g_isnan(f1)) return t1;
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1226 if (g_isnan(f2)) return t2;
0
a61af66fc99e Initial load
duke
parents:
diff changeset
1227
131
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1228 // If an operand is infinity or the divisor is +/- zero, punt.
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1229 if (!g_isfinite(f1) || !g_isfinite(f2) || x2 == 0 || x2 == min_jlong)
0
a61af66fc99e Initial load
duke
parents:
diff changeset
1230 return Type::DOUBLE;
a61af66fc99e Initial load
duke
parents:
diff changeset
1231
a61af66fc99e Initial load
duke
parents:
diff changeset
1232 // We must be modulo'ing 2 double constants.
131
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1233 // Make sure that the sign of the fmod is equal to the sign of the dividend
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1234 jlong xr = jlong_cast(fmod(f1, f2));
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1235 if ((x1 ^ xr) < 0) {
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1236 xr ^= min_jlong;
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1237 }
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1238
6e825ad773c6 6695288: runThese tests expr30303 and drem00301m1 fail when compiled code executes without deopt
jrose
parents: 0
diff changeset
1239 return TypeD::make(jdouble_cast(xr));
0
a61af66fc99e Initial load
duke
parents:
diff changeset
1240 }
a61af66fc99e Initial load
duke
parents:
diff changeset
1241
a61af66fc99e Initial load
duke
parents:
diff changeset
1242 //=============================================================================
a61af66fc99e Initial load
duke
parents:
diff changeset
1243
a61af66fc99e Initial load
duke
parents:
diff changeset
1244 DivModNode::DivModNode( Node *c, Node *dividend, Node *divisor ) : MultiNode(3) {
a61af66fc99e Initial load
duke
parents:
diff changeset
1245 init_req(0, c);
a61af66fc99e Initial load
duke
parents:
diff changeset
1246 init_req(1, dividend);
a61af66fc99e Initial load
duke
parents:
diff changeset
1247 init_req(2, divisor);
a61af66fc99e Initial load
duke
parents:
diff changeset
1248 }
a61af66fc99e Initial load
duke
parents:
diff changeset
1249
a61af66fc99e Initial load
duke
parents:
diff changeset
1250 //------------------------------make------------------------------------------
a61af66fc99e Initial load
duke
parents:
diff changeset
1251 DivModINode* DivModINode::make(Compile* C, Node* div_or_mod) {
a61af66fc99e Initial load
duke
parents:
diff changeset
1252 Node* n = div_or_mod;
a61af66fc99e Initial load
duke
parents:
diff changeset
1253 assert(n->Opcode() == Op_DivI || n->Opcode() == Op_ModI,
a61af66fc99e Initial load
duke
parents:
diff changeset
1254 "only div or mod input pattern accepted");
a61af66fc99e Initial load
duke
parents:
diff changeset
1255
a61af66fc99e Initial load
duke
parents:
diff changeset
1256 DivModINode* divmod = new (C, 3) DivModINode(n->in(0), n->in(1), n->in(2));
a61af66fc99e Initial load
duke
parents:
diff changeset
1257 Node* dproj = new (C, 1) ProjNode(divmod, DivModNode::div_proj_num);
a61af66fc99e Initial load
duke
parents:
diff changeset
1258 Node* mproj = new (C, 1) ProjNode(divmod, DivModNode::mod_proj_num);
a61af66fc99e Initial load
duke
parents:
diff changeset
1259 return divmod;
a61af66fc99e Initial load
duke
parents:
diff changeset
1260 }
a61af66fc99e Initial load
duke
parents:
diff changeset
1261
a61af66fc99e Initial load
duke
parents:
diff changeset
1262 //------------------------------make------------------------------------------
a61af66fc99e Initial load
duke
parents:
diff changeset
1263 DivModLNode* DivModLNode::make(Compile* C, Node* div_or_mod) {
a61af66fc99e Initial load
duke
parents:
diff changeset
1264 Node* n = div_or_mod;
a61af66fc99e Initial load
duke
parents:
diff changeset
1265 assert(n->Opcode() == Op_DivL || n->Opcode() == Op_ModL,
a61af66fc99e Initial load
duke
parents:
diff changeset
1266 "only div or mod input pattern accepted");
a61af66fc99e Initial load
duke
parents:
diff changeset
1267
a61af66fc99e Initial load
duke
parents:
diff changeset
1268 DivModLNode* divmod = new (C, 3) DivModLNode(n->in(0), n->in(1), n->in(2));
a61af66fc99e Initial load
duke
parents:
diff changeset
1269 Node* dproj = new (C, 1) ProjNode(divmod, DivModNode::div_proj_num);
a61af66fc99e Initial load
duke
parents:
diff changeset
1270 Node* mproj = new (C, 1) ProjNode(divmod, DivModNode::mod_proj_num);
a61af66fc99e Initial load
duke
parents:
diff changeset
1271 return divmod;
a61af66fc99e Initial load
duke
parents:
diff changeset
1272 }
a61af66fc99e Initial load
duke
parents:
diff changeset
1273
a61af66fc99e Initial load
duke
parents:
diff changeset
1274 //------------------------------match------------------------------------------
a61af66fc99e Initial load
duke
parents:
diff changeset
1275 // return result(s) along with their RegMask info
a61af66fc99e Initial load
duke
parents:
diff changeset
1276 Node *DivModINode::match( const ProjNode *proj, const Matcher *match ) {
a61af66fc99e Initial load
duke
parents:
diff changeset
1277 uint ideal_reg = proj->ideal_reg();
a61af66fc99e Initial load
duke
parents:
diff changeset
1278 RegMask rm;
a61af66fc99e Initial load
duke
parents:
diff changeset
1279 if (proj->_con == div_proj_num) {
a61af66fc99e Initial load
duke
parents:
diff changeset
1280 rm = match->divI_proj_mask();
a61af66fc99e Initial load
duke
parents:
diff changeset
1281 } else {
a61af66fc99e Initial load
duke
parents:
diff changeset
1282 assert(proj->_con == mod_proj_num, "must be div or mod projection");
a61af66fc99e Initial load
duke
parents:
diff changeset
1283 rm = match->modI_proj_mask();
a61af66fc99e Initial load
duke
parents:
diff changeset
1284 }
a61af66fc99e Initial load
duke
parents:
diff changeset
1285 return new (match->C, 1)MachProjNode(this, proj->_con, rm, ideal_reg);
a61af66fc99e Initial load
duke
parents:
diff changeset
1286 }
a61af66fc99e Initial load
duke
parents:
diff changeset
1287
a61af66fc99e Initial load
duke
parents:
diff changeset
1288
a61af66fc99e Initial load
duke
parents:
diff changeset
1289 //------------------------------match------------------------------------------
a61af66fc99e Initial load
duke
parents:
diff changeset
1290 // return result(s) along with their RegMask info
a61af66fc99e Initial load
duke
parents:
diff changeset
1291 Node *DivModLNode::match( const ProjNode *proj, const Matcher *match ) {
a61af66fc99e Initial load
duke
parents:
diff changeset
1292 uint ideal_reg = proj->ideal_reg();
a61af66fc99e Initial load
duke
parents:
diff changeset
1293 RegMask rm;
a61af66fc99e Initial load
duke
parents:
diff changeset
1294 if (proj->_con == div_proj_num) {
a61af66fc99e Initial load
duke
parents:
diff changeset
1295 rm = match->divL_proj_mask();
a61af66fc99e Initial load
duke
parents:
diff changeset
1296 } else {
a61af66fc99e Initial load
duke
parents:
diff changeset
1297 assert(proj->_con == mod_proj_num, "must be div or mod projection");
a61af66fc99e Initial load
duke
parents:
diff changeset
1298 rm = match->modL_proj_mask();
a61af66fc99e Initial load
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parents:
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1299 }
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1300 return new (match->C, 1)MachProjNode(this, proj->_con, rm, ideal_reg);
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1301 }