2022-12-14 00:16:59 +00:00
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#include "compiler/InterferenceGraph.h"
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#include "compiler/CError.h"
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#include "compiler/CParser.h"
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#include "compiler/BitVectors.h"
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#include "compiler/Coloring.h"
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#include "compiler/LiveInfo.h"
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#include "compiler/PCode.h"
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#include "compiler/PCodeListing.h"
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#include "compiler/PCodeUtilities.h"
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#include "compiler/Registers.h"
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#include "compiler/RegisterInfo.h"
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#include "compiler/CompilerTools.h"
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IGNode **interferencegraph;
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static UInt32 *interferencematrix;
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Boolean coalesced_nregisters;
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static SInt16 *coalesced;
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static void makeinterfere(UInt32 a, UInt32 b) {
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if (a < b)
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bitvectorsetbit(((b * b) / 2) + a, interferencematrix);
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else if (a > b)
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bitvectorsetbit(((a * a) / 2) + b, interferencematrix);
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}
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int interferes(UInt32 a, UInt32 b) {
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if (a < b)
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return bitvectorgetbit(((b * b) / 2) + a, interferencematrix) > 0;
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else if (a > b)
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return bitvectorgetbit(((a * a) / 2) + b, interferencematrix) > 0;
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else
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return 0;
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}
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static void buildinterferencematrix(void) {
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UInt32 regs; // r31
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PCodeBlock *block; // r30
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PCode *instr; // r29
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UInt32 *vec; // r28
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PCodeArg *op;
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long reg;
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UInt32 i;
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UInt32 j;
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regs = used_virtual_registers[coloring_class];
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interferencematrix = oalloc(4 * ((((regs * regs) / 2) + 31) >> 5));
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bitvectorinitialize(interferencematrix, (regs * regs) / 2, 0);
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for (i = 0; i < 32; i++)
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for (j = 0; j < 32; j++)
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if (i != j)
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makeinterfere(i, j);
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vec = oalloc(4 * ((regs + 31) >> 5));
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for (block = pcbasicblocks; block; block = block->nextBlock) {
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bitvectorcopy(vec, liveinfo[block->blockIndex].vecC, regs);
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for (instr = block->lastPCode; instr; instr = instr->prevPCode) {
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op = instr->args;
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i = instr->argCount;
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while (i--) {
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if (
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op->kind == PCOp_REGISTER &&
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(char) op->arg == coloring_class &&
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(op->data.reg.effect & EffectWrite)
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)
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{
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reg = op->data.reg.reg;
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bitvectorclearbit(reg, vec);
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for (j = 0; j < regs; j++) {
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if (bitvectorgetbit(j, vec)) {
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if (
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(instr->flags & fPCodeFlag10) &&
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instr->args[0].kind == PCOp_REGISTER &&
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(char) instr->args[0].arg == coloring_class &&
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instr->args[1].data.reg.reg == j
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)
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continue;
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makeinterfere(reg, j);
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}
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}
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}
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op++;
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}
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op = instr->args;
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i = instr->argCount;
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while (i--) {
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if (
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op->kind == PCOp_REGISTER &&
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(char) op->arg == coloring_class &&
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(op->data.reg.effect & EffectRead)
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)
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{
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reg = op->data.reg.reg;
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if (bitvectorgetbit(reg, vec) == 0)
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op->data.reg.effect |= Effect4;
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bitvectorsetbit(reg, vec);
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}
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op++;
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}
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if (coloring_class == RegClass_GPR) {
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if (PCODE_FLAG_SET_F(instr) & (fPCodeFlag2 | fPCodeFlag4 | fPCodeFlag40000)) {
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if (instr->args[1].data.reg.reg >= n_real_registers[coloring_class])
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makeinterfere(0, instr->args[1].data.reg.reg);
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if (PCODE_FLAG_SET_F(instr) & fPCodeFlag2000000)
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makeinterfere(instr->args[0].data.reg.reg, instr->args[1].data.reg.reg);
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} else {
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switch (instr->op) {
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case PC_DCBF:
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case PC_DCBST:
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case PC_DCBT:
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case PC_DCBTST:
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case PC_DCBZ:
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case PC_DCBI:
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case PC_ICBI:
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case PC_DCCCI:
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case PC_ICBT:
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case PC_ICCCI:
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case PC_ICREAD:
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case PC_DCBA:
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case PC_DST:
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case PC_DSTT:
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case PC_DSTST:
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case PC_DSTSTT:
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if (instr->args[0].data.reg.reg >= n_real_registers[coloring_class])
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makeinterfere(0, instr->args[0].data.reg.reg);
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break;
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}
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}
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}
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if (coloring_class == RegClass_GPR && (instr->flags & fPCodeFlag8)) {
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i = branch_count_volatiles();
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op = instr->args;
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#line 219
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CError_ASSERT(instr->argCount != 0);
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while (op->kind != PCOp_REGISTER && !(op->data.reg.effect & EffectWrite)) {
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i++;
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op++;
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#line 226
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CError_ASSERT(i <= instr->argCount);
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}
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op = instr->args + i;
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while (i < instr->argCount) {
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if (op->kind == PCOp_REGISTER && op->arg == RegClass_GPR) {
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for (j = 0; j < n_scratch_registers[coloring_class]; j++)
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makeinterfere(op->data.reg.reg, scratch_registers[coloring_class][j]);
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}
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op++;
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}
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}
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}
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}
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}
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static short coalesced_path(short id) {
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while (id != coalesced[id])
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id = coalesced[id];
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return id;
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}
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static void coalescenodes(void) {
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PCodeArg *op;
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UInt32 regs;
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PCodeBlock *block;
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PCode *instr;
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UInt32 i;
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short path1;
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short path2;
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short node1;
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short node2;
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regs = used_virtual_registers[coloring_class];
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coalesced = oalloc(sizeof(SInt16) * regs);
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for (i = 0; i < regs; i++)
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coalesced[i] = i;
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for (block = pcbasicblocks; block; block = block->nextBlock) {
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for (instr = block->firstPCode; instr; instr = instr->nextPCode) {
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if ((instr->flags & fPCodeFlag10) && !(instr->flags & fSideEffects)) {
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if (PCODE_FLAG_SET_F(instr) & fPCodeFlag20000000) {
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#line 309
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CError_FATAL();
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continue;
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}
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if (instr->argCount > 2) {
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if (instr->argCount != 3 || instr->args[2].kind != PCOp_PLACEHOLDEROPERAND) {
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#line 316
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CError_FATAL();
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continue;
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}
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}
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if (instr->args[0].kind == PCOp_REGISTER && (char) instr->args[0].arg == coloring_class) {
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path1 = coalesced_path(instr->args[0].data.reg.reg);
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path2 = coalesced_path(instr->args[1].data.reg.reg);
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if (path1 == path2) {
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deletepcode(instr);
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continue;
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}
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if (!interferes(path1, path2)) {
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if (path1 >= n_real_registers[coloring_class] && path2 >= n_real_registers[coloring_class]) {
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if (path1 < first_fe_temporary_register[coloring_class])
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continue;
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if (path1 > last_temporary_register[coloring_class])
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continue;
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if (path2 < first_fe_temporary_register[coloring_class])
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continue;
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if (path2 > last_temporary_register[coloring_class])
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continue;
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}
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node1 = (path2 < path1) ? path2 : path1;
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node2 = (path2 > path1) ? path2 : path1;
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if (coloring_class == RegClass_GPR && node2 == _CALLER_SP_)
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continue;
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coalesced[node2] = node1;
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for (i = 0; i < regs; i++) {
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if (interferes(node2, i))
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makeinterfere(node1, i);
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}
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deletepcode(instr);
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}
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}
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}
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}
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}
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for (block = pcbasicblocks; block; block = block->nextBlock) {
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for (instr = block->firstPCode; instr; instr = instr->nextPCode) {
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op = instr->args;
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i = instr->argCount;
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while (i--) {
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if (
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op->kind == PCOp_REGISTER &&
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(char) op->arg == coloring_class &&
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op->data.reg.reg != coalesced[op->data.reg.reg]
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)
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op->data.reg.reg = coalesced_path(op->data.reg.reg);
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op++;
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}
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}
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}
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}
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static void buildadjacencyvectors(void) {
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IGNode *node;
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UInt32 regs;
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UInt32 i;
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UInt32 counter;
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short *array;
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short *dest;
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short *src;
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UInt32 j;
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regs = used_virtual_registers[coloring_class];
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interferencegraph = oalloc(sizeof(IGNode *) * regs);
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array = oalloc(sizeof(short) * regs);
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for (i = 0; i < regs; i++) {
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counter = 0;
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for (j = 0; j < regs; j++) {
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if (interferes(i, j))
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array[counter++] = j;
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}
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node = interferencegraph[i] = oalloc(sizeof(IGNode) + sizeof(short) * (counter - 1));
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memclrw(node, sizeof(IGNode) + sizeof(short) * (counter - 1));
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node->x10 = i;
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node->x14 = -1;
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node->arraySize = counter;
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node->x12 = counter;
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dest = node->array;
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src = array;
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for (j = 0; j < counter; j++)
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*(dest++) = *(src++);
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if (i != coalesced[i]) {
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node->flags |= fCoalesced;
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j = coalesced_path(i);
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interferencegraph[j]->flags |= fCoalescedInto;
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node->x14 = j;
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}
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}
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}
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static void eliminatedeadcode(void) {
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UInt32 regs;
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PCodeBlock *block;
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PCode *instr;
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UInt32 *vec;
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UInt32 i;
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PCodeArg *op;
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regs = used_virtual_registers[coloring_class];
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vec = oalloc(4 * ((regs + 31) >> 5));
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for (block = pcbasicblocks; block; block = block->nextBlock) {
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bitvectorcopy(vec, liveinfo[block->blockIndex].vecC, regs);
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for (instr = block->lastPCode; instr; instr = instr->prevPCode) {
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if (dead(instr, coloring_class, vec)) {
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deletepcode(instr);
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continue;
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}
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op = instr->args;
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i = instr->argCount;
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while (i--) {
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if (
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op->kind == PCOp_REGISTER &&
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(char) op->arg == coloring_class &&
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(op->data.reg.effect & EffectWrite)
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)
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bitvectorclearbit(op->data.reg.reg, vec);
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op++;
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}
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op = instr->args;
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i = instr->argCount;
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while (i--) {
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if (
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op->kind == PCOp_REGISTER &&
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(char) op->arg == coloring_class &&
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(op->data.reg.effect & EffectRead)
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)
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{
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int reg = op->data.reg.reg;
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if (!bitvectorgetbit(reg, vec))
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op->data.reg.effect |= Effect4;
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bitvectorsetbit(reg, vec);
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}
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op++;
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}
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}
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}
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}
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static void findrematerializations(void) {
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UInt32 regs;
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UInt32 i;
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PCodeBlock *block;
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PCode *instr;
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PCodeArg *op;
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IGNode *node;
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regs = used_virtual_registers[coloring_class];
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for (block = pcbasicblocks; block; block = block->nextBlock) {
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for (instr = block->lastPCode; instr; instr = instr->prevPCode) {
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op = instr->args;
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i = instr->argCount;
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while (i--) {
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if (
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op->kind == PCOp_REGISTER &&
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(char) op->arg == coloring_class &&
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(op->data.reg.effect & EffectWrite) &&
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op->data.reg.reg >= n_real_registers[coloring_class] &&
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!(interferencegraph[op->data.reg.reg]->flags & (fPairLow | fPairHigh)) &&
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!(interferencegraph[op->data.reg.reg]->flags & fIGNode40)
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)
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{
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node = interferencegraph[op->data.reg.reg];
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if (!node->instr8) {
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node->instr8 = instr;
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} else {
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node->instr8 = NULL;
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node->flags |= fIGNode40;
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|
}
|
|
|
|
}
|
|
|
|
op++;
|
|
|
|
}
|
|
|
|
}
|
|
|
|
}
|
|
|
|
|
|
|
|
for (i = 0; i < regs; i++) {
|
|
|
|
node = interferencegraph[i];
|
|
|
|
if (node->instr8 && !is_location_independent(node->instr8))
|
|
|
|
node->instr8 = NULL;
|
|
|
|
}
|
|
|
|
}
|
|
|
|
|
|
|
|
void buildinterferencegraph(Object *proc) {
|
|
|
|
int regs = used_virtual_registers[coloring_class];
|
|
|
|
|
|
|
|
computelivevariables(proc);
|
|
|
|
eliminatedeadcode();
|
|
|
|
buildinterferencematrix();
|
|
|
|
if (copts.debuglisting)
|
|
|
|
pclistinterferences(register_class_format[coloring_class], regs);
|
|
|
|
coalescenodes();
|
|
|
|
buildadjacencyvectors();
|
|
|
|
findrematerializations();
|
|
|
|
}
|