void PerformanceDebugger::report_context(InlinedScope* s) { if (!DebugPerformance) return; Reporter r(this); GrowableArray<Expr*>* temps = s->contextTemporaries(); const int len = temps->length(); int nused = 0; for (int i = 0; i < len; i++) { PReg* r = temps->at(i)->preg(); if (r->uplevelR() || r->uplevelW() || (r->isBlockPReg() && !r->isUnused())) nused++; } if (nused == 0) { str->print(" could not eliminate context of scope %s (fixable compiler restriction; should be eliminated)\n", s->key()->print_string()); } else { str->print(" could not eliminate context of scope %s; temp(s) still used: ", s->key()->print_string()); for (int j = 0; j < len; j++) { PReg* r = temps->at(j)->preg(); if (r->uplevelR() || r->uplevelW()) { str->print("%d ", j); } else if (r->isBlockPReg() && !r->isUnused()) { str->print("%d (non-inlined block)", j); } } str->print("\n"); } }
void Compiler::computeBlockInfo() { FlagSetting(EliminateUnneededNodes, true); // unused context nodes must be eliminated GrowableArray<InlinedScope*>* allContexts = new GrowableArray<InlinedScope*>(25); topScope->collectContextInfo(allContexts); // for now, just allocate all contexts as in interpreter // fix this later: collect all uplevel-accessed PRegs at same loop depth, form physical // contexts for these // also, if uplevel-read and single def --> could copy into context and keep // stack/register copy // remove all unused contexts // need to iterate because removing a nested context may enable removal of a parent context // (could avoid iteration with topo sort, but there are few contexts anyway) bool changed = EliminateContexts; while (changed) { changed = false; for (int i = allContexts->length() - 1; i >= 0; i--) { InlinedScope* s = allContexts->at(i); if (s == NULL) continue; PReg* contextPR = s->context(); assert(contextPR->isSinglyAssigned(), "should have exactly one def"); GrowableArray<Expr*>* temps = s->contextTemporaries(); bool noUplevelAccesses = true; // check if all context temps can be stack-allocated for (int j = temps->length() - 1; j >= 0; j--) { PReg* r = temps->at(j)->preg(); if (r->uplevelR() || r->uplevelW() // this temp is still uplevel-accessed, so can't eliminate context || (r->isBlockPReg() && !r->isUnused()) // this block still forces a context ) { noUplevelAccesses = false; break; } } // TO DO: check if context is needed for NLRs // (noUplevelAccesses alone does not allow elimination) if (/*noUplevelAccesses || */contextPR->isSinglyUsed()) { // can eliminate context -- no uplevel-accessed vars // (single use is context initializer) if (CompilerDebug) cout(PrintEliminateContexts)->print("%*s*eliminating context %s\n", s->depth, "", contextPR->safeName()); contextPR->scope()->gen()->removeContextCreation(); allContexts->at_put(i, NULL); // make code generator break if it tries to access this context changed = true; } } } // now collect all remaining contexts int i = allContexts->length(); contextList = new GrowableArray<InlinedScope*>(i, i, NULL); while (i-- > 0) { // should merge several contexts into one physical context if possible // fix this later InlinedScope* s = allContexts->at(i); if (s == NULL) continue; PReg* contextPR = s->context(); if (CompilerDebug) { cout(PrintEliminateContexts)->print("%*s*could not eliminate context %s in scope %s\n", s->depth, "", contextPR->safeName(), s->key()->print_string()); } reporter->report_context(s); contextList->at_put(i, s); ContextCreateNode* c = s->contextInitializer()->creator(); c->set_contextNo(i); GrowableArray<Expr*>* temps = s->contextTemporaries(); // allocate the temps in this context (but only if they're used) int ntemps = temps->length(); int size = 0; for (int j = 0; j < ntemps; j++) { PReg* p = temps->at(j)->preg(); // should be: // if (p->isUsed() && (p->uplevelR() || p->uplevelW())) { // but doesn't work yet (probably must fix set_self_via_context etc.) // -Urs 6/96 if (p->isUsed()) { // allocate p to context temp assert(p->scope() == s || p->isBlockPReg(), "oops"); Location loc = Mapping::contextTemporary(i, size, s->scopeID()); if (p->isBlockPReg()) { // Blocks aren't actually assigned (at the PReg level) so that the inlining info // isn't lost. Thus we need to create a fake destination here if the context exists. SAPReg* dest = new SAPReg(s, loc, true, true, PrologueBCI, EpilogueBCI); Expr* e = new UnknownExpr(dest, NULL); //contextPR->scope()->contextInitializer()->initialize(j, init); temps->at_put(j, e); } else { p->allocateTo(loc); } size++; } } c->set_sizeOfContext(size); if (size < ntemps && c->scope()->number_of_noninlined_blocks() > 0) { // this hasn't been exercised much compiler_warning("while compiling %s: eliminated some context temps", key->print_string()); } } // Compute the number of noninlined blocks for the nmethod and allocate const int nblocks = topScope->number_of_noninlined_blocks(); if (is_method_compile() || nblocks > 0) { // allocate nblocks+1 jumpTable entries const jumpTableID id = Universe::code->jump_table()->allocate(nblocks + 1); if (is_method_compile()) { main_jumpTable_id = id; } else { promoted_jumpTable_id = id; } // first is for nmethod itself int block_index = 1; for (int i = bbIterator->exposedBlks->length() - 1; i >= 0; i--) { BlockPReg* blk = bbIterator->exposedBlks->at(i); if (blk->isUsed()) { assert(block_index <= nblocks, "nblocks too small"); blk->closure()->set_id(id.sub(block_index++)); } } assert(nblocks + 1 == block_index, "just checking"); } }