/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- * vim: set ts=8 sts=2 et sw=2 tw=80: * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifdef JS_JITSPEW # include "jit/JSONSpewer.h" # include "jit/BacktrackingAllocator.h" # include "jit/LIR.h" # include "jit/MIR.h" # include "jit/MIRGraph.h" # include "jit/RangeAnalysis.h" using namespace js; using namespace js::jit; void JSONSpewer::beginFunction(JSScript* script) { beginObject(); formatProperty("name", "%s:%u", script->filename(), script->lineno()); beginListProperty("passes"); } void JSONSpewer::beginWasmFunction(unsigned funcIndex) { beginObject(); formatProperty("name", "wasm-func%u", funcIndex); beginListProperty("passes"); } void JSONSpewer::beginPass(const char* pass) { beginObject(); property("name", pass); } void JSONSpewer::spewMResumePoint(MResumePoint* rp) { if (!rp) { return; } beginObjectProperty("resumePoint"); if (rp->caller()) { property("caller", rp->caller()->block()->id()); } property("mode", ResumeModeToString(rp->mode())); beginListProperty("operands"); for (MResumePoint* iter = rp; iter; iter = iter->caller()) { for (int i = iter->numOperands() - 1; i >= 0; i--) { value(iter->getOperand(i)->id()); } if (iter->caller()) { value("|"); } } endList(); endObject(); } void JSONSpewer::spewMDef(MDefinition* def) { beginObject(); property("id", def->id()); propertyName("opcode"); out_.printf("\""); def->printOpcode(out_); out_.printf("\""); beginListProperty("attributes"); # define OUTPUT_ATTRIBUTE(X) \ do { \ if (def->is##X()) value(#X); \ } while (0); MIR_FLAG_LIST(OUTPUT_ATTRIBUTE); # undef OUTPUT_ATTRIBUTE endList(); beginListProperty("inputs"); for (size_t i = 0, e = def->numOperands(); i < e; i++) { value(def->getOperand(i)->id()); } endList(); beginListProperty("uses"); for (MUseDefIterator use(def); use; use++) { value(use.def()->id()); } endList(); if (!def->isLowered()) { beginListProperty("memInputs"); if (def->dependency()) { value(def->dependency()->id()); } endList(); } bool isTruncated = false; if (def->isAdd() || def->isSub() || def->isMod() || def->isMul() || def->isDiv()) { isTruncated = static_cast(def)->isTruncated(); } if (def->type() != MIRType::None && def->range()) { beginStringProperty("type"); def->range()->dump(out_); out_.printf(" : %s%s", StringFromMIRType(def->type()), (isTruncated ? " (t)" : "")); endStringProperty(); } else { formatProperty("type", "%s%s", StringFromMIRType(def->type()), (isTruncated ? " (t)" : "")); } if (def->isInstruction()) { if (MResumePoint* rp = def->toInstruction()->resumePoint()) { spewMResumePoint(rp); } } endObject(); } void JSONSpewer::spewMIR(MIRGraph* mir) { beginObjectProperty("mir"); beginListProperty("blocks"); for (MBasicBlockIterator block(mir->begin()); block != mir->end(); block++) { beginObject(); property("number", block->id()); beginListProperty("attributes"); if (block->hasLastIns()) { if (block->isLoopBackedge()) { value("backedge"); } if (block->isLoopHeader()) { value("loopheader"); } if (block->isSplitEdge()) { value("splitedge"); } } endList(); beginListProperty("predecessors"); for (size_t i = 0; i < block->numPredecessors(); i++) { value(block->getPredecessor(i)->id()); } endList(); beginListProperty("successors"); if (block->hasLastIns()) { for (size_t i = 0; i < block->numSuccessors(); i++) { value(block->getSuccessor(i)->id()); } } endList(); beginListProperty("instructions"); for (MPhiIterator phi(block->phisBegin()); phi != block->phisEnd(); phi++) { spewMDef(*phi); } for (MInstructionIterator i(block->begin()); i != block->end(); i++) { spewMDef(*i); } endList(); spewMResumePoint(block->entryResumePoint()); endObject(); } endList(); endObject(); } void JSONSpewer::spewLIns(LNode* ins) { beginObject(); property("id", ins->id()); propertyName("opcode"); out_.printf("\""); ins->dump(out_); out_.printf("\""); beginListProperty("defs"); for (size_t i = 0; i < ins->numDefs(); i++) { if (ins->isPhi()) { value(ins->toPhi()->getDef(i)->virtualRegister()); } else { value(ins->toInstruction()->getDef(i)->virtualRegister()); } } endList(); endObject(); } void JSONSpewer::spewLIR(MIRGraph* mir) { beginObjectProperty("lir"); beginListProperty("blocks"); for (MBasicBlockIterator i(mir->begin()); i != mir->end(); i++) { LBlock* block = i->lir(); if (!block) { continue; } beginObject(); property("number", i->id()); beginListProperty("instructions"); for (size_t p = 0; p < block->numPhis(); p++) { spewLIns(block->getPhi(p)); } for (LInstructionIterator ins(block->begin()); ins != block->end(); ins++) { spewLIns(*ins); } endList(); endObject(); } endList(); endObject(); } void JSONSpewer::spewRanges(BacktrackingAllocator* regalloc) { beginObjectProperty("ranges"); beginListProperty("blocks"); for (size_t bno = 0; bno < regalloc->graph.numBlocks(); bno++) { beginObject(); property("number", bno); beginListProperty("vregs"); LBlock* lir = regalloc->graph.getBlock(bno); for (LInstructionIterator ins = lir->begin(); ins != lir->end(); ins++) { for (size_t k = 0; k < ins->numDefs(); k++) { uint32_t id = ins->getDef(k)->virtualRegister(); VirtualRegister* vreg = ®alloc->vregs[id]; beginObject(); property("vreg", id); beginListProperty("ranges"); for (LiveRange::RegisterLinkIterator iter = vreg->rangesBegin(); iter; iter++) { LiveRange* range = LiveRange::get(*iter); beginObject(); property("allocation", range->bundle()->allocation().toString().get()); property("start", range->from().bits()); property("end", range->to().bits()); endObject(); } endList(); endObject(); } } endList(); endObject(); } endList(); endObject(); } void JSONSpewer::endPass() { endObject(); } void JSONSpewer::endFunction() { endList(); endObject(); } #endif /* JS_JITSPEW */