b55add7e20
Review URL: http://codereview.chromium.org/5545006 git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@5935 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
765 lines
29 KiB
C++
Executable File
765 lines
29 KiB
C++
Executable File
// Copyright 2010 the V8 project authors. All rights reserved.
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are
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// met:
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//
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// * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// * Redistributions in binary form must reproduce the above
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// copyright notice, this list of conditions and the following
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// disclaimer in the documentation and/or other materials provided
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// with the distribution.
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// * Neither the name of Google Inc. nor the names of its
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// contributors may be used to endorse or promote products derived
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// from this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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#include "v8.h"
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#include "compiler.h"
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#include "bootstrapper.h"
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#include "codegen-inl.h"
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#include "compilation-cache.h"
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#include "data-flow.h"
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#include "debug.h"
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#include "full-codegen.h"
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#include "hydrogen.h"
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#include "lithium-allocator.h"
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#include "liveedit.h"
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#include "oprofile-agent.h"
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#include "parser.h"
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#include "rewriter.h"
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#include "runtime-profiler.h"
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#include "scopeinfo.h"
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#include "scopes.h"
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#include "vm-state-inl.h"
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namespace v8 {
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namespace internal {
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CompilationInfo::CompilationInfo(Handle<Script> script)
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: flags_(0),
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function_(NULL),
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scope_(NULL),
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script_(script),
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extension_(NULL),
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pre_parse_data_(NULL),
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supports_deoptimization_(false),
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osr_ast_id_(AstNode::kNoNumber) {
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Initialize(NONOPT);
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}
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CompilationInfo::CompilationInfo(Handle<SharedFunctionInfo> shared_info)
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: flags_(IsLazy::encode(true)),
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function_(NULL),
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scope_(NULL),
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shared_info_(shared_info),
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script_(Handle<Script>(Script::cast(shared_info->script()))),
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extension_(NULL),
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pre_parse_data_(NULL),
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supports_deoptimization_(false),
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osr_ast_id_(AstNode::kNoNumber) {
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Initialize(BASE);
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}
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CompilationInfo::CompilationInfo(Handle<JSFunction> closure)
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: flags_(IsLazy::encode(true)),
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function_(NULL),
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scope_(NULL),
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closure_(closure),
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shared_info_(Handle<SharedFunctionInfo>(closure->shared())),
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script_(Handle<Script>(Script::cast(shared_info_->script()))),
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extension_(NULL),
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pre_parse_data_(NULL),
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supports_deoptimization_(false),
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osr_ast_id_(AstNode::kNoNumber) {
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Initialize(BASE);
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}
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// Determine whether to use the full compiler for all code. If the flag
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// --always-full-compiler is specified this is the case. For the virtual frame
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// based compiler the full compiler is also used if a debugger is connected, as
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// the code from the full compiler supports mode precise break points. For the
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// crankshaft adaptive compiler debugging the optimized code is not possible at
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// all. However crankshaft support recompilation of functions, so in this case
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// the full compiler need not be be used if a debugger is attached, but only if
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// break points has actually been set.
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static bool AlwaysFullCompiler() {
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#ifdef ENABLE_DEBUGGER_SUPPORT
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if (V8::UseCrankshaft()) {
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return FLAG_always_full_compiler || Debug::has_break_points();
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} else {
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return FLAG_always_full_compiler || Debugger::IsDebuggerActive();
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}
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#else
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return FLAG_always_full_compiler;
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#endif
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}
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static void FinishOptimization(Handle<JSFunction> function, int64_t start) {
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int opt_count = function->shared()->opt_count();
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function->shared()->set_opt_count(opt_count + 1);
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if (!FLAG_trace_opt) return;
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double ms = static_cast<double>(OS::Ticks() - start) / 1000;
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PrintF("[optimizing: ");
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function->PrintName();
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PrintF(" / %" V8PRIxPTR, reinterpret_cast<intptr_t>(*function));
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PrintF(" - took %0.3f ms]\n", ms);
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}
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static void AbortAndDisable(CompilationInfo* info) {
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// Disable optimization for the shared function info and mark the
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// code as non-optimizable. The marker on the shared function info
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// is there because we flush non-optimized code thereby loosing the
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// non-optimizable information for the code. When the code is
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// regenerated and set on the shared function info it is marked as
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// non-optimizable if optimization is disabled for the shared
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// function info.
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Handle<SharedFunctionInfo> shared = info->shared_info();
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shared->set_optimization_disabled(true);
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Handle<Code> code = Handle<Code>(shared->code());
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ASSERT(code->kind() == Code::FUNCTION);
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code->set_optimizable(false);
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info->SetCode(code);
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if (FLAG_trace_opt) {
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PrintF("[disabled optimization for: ");
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info->closure()->PrintName();
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PrintF(" / %" V8PRIxPTR "]\n",
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reinterpret_cast<intptr_t>(*info->closure()));
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}
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}
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static bool MakeCrankshaftCode(CompilationInfo* info) {
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// Test if we can optimize this function when asked to. We can only
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// do this after the scopes are computed.
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if (!info->AllowOptimize()) info->DisableOptimization();
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// In case we are not optimizing simply return the code from
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// the full code generator.
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if (!info->IsOptimizing()) {
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return FullCodeGenerator::MakeCode(info);
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}
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// We should never arrive here if there is not code object on the
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// shared function object.
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Handle<Code> code(info->shared_info()->code());
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ASSERT(code->kind() == Code::FUNCTION);
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// Fall back to using the full code generator if it's not possible
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// to use the Hydrogen-based optimizing compiler. We already have
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// generated code for this from the shared function object.
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if (AlwaysFullCompiler() || !FLAG_use_hydrogen) {
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info->SetCode(code);
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return true;
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}
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// Limit the number of times we re-compile a functions with
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// the optimizing compiler.
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const int kMaxOptCount = FLAG_deopt_every_n_times == 0 ? 10 : 1000;
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if (info->shared_info()->opt_count() > kMaxOptCount) {
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AbortAndDisable(info);
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// True indicates the compilation pipeline is still going, not
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// necessarily that we optimized the code.
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return true;
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}
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// Due to an encoding limit on LUnallocated operands in the Lithium
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// language, we cannot optimize functions with too many formal parameters
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// or perform on-stack replacement for function with too many
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// stack-allocated local variables.
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//
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// The encoding is as a signed value, with parameters using the negative
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// indices and locals the non-negative ones.
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const int limit = LUnallocated::kMaxFixedIndices / 2;
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Scope* scope = info->scope();
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if (scope->num_parameters() > limit || scope->num_stack_slots() > limit) {
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AbortAndDisable(info);
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// True indicates the compilation pipeline is still going, not
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// necessarily that we optimized the code.
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return true;
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}
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// Take --hydrogen-filter into account.
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Vector<const char> filter = CStrVector(FLAG_hydrogen_filter);
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Handle<String> name = info->function()->debug_name();
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bool match = filter.is_empty() || name->IsEqualTo(filter);
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if (!match) {
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info->SetCode(code);
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return true;
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}
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// Recompile the unoptimized version of the code if the current version
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// doesn't have deoptimization support. Alternatively, we may decide to
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// run the full code generator to get a baseline for the compile-time
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// performance of the hydrogen-based compiler.
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int64_t start = OS::Ticks();
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bool should_recompile = !info->shared_info()->has_deoptimization_support();
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if (should_recompile || FLAG_time_hydrogen) {
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HPhase phase(HPhase::kFullCodeGen);
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CompilationInfo unoptimized(info->shared_info());
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// Note that we use the same AST that we will use for generating the
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// optimized code.
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unoptimized.SetFunction(info->function());
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unoptimized.SetScope(info->scope());
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if (should_recompile) unoptimized.EnableDeoptimizationSupport();
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bool succeeded = FullCodeGenerator::MakeCode(&unoptimized);
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if (should_recompile) {
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if (!succeeded) return false;
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Handle<SharedFunctionInfo> shared = info->shared_info();
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shared->EnableDeoptimizationSupport(*unoptimized.code());
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// The existing unoptimized code was replaced with the new one.
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Compiler::RecordFunctionCompilation(Logger::LAZY_COMPILE_TAG,
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Handle<String>(shared->DebugName()),
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shared->start_position(),
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&unoptimized);
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}
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}
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// Check that the unoptimized, shared code is ready for
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// optimizations. When using the always_opt flag we disregard the
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// optimizable marker in the code object and optimize anyway. This
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// is safe as long as the unoptimized code has deoptimization
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// support.
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ASSERT(FLAG_always_opt || info->shared_info()->code()->optimizable());
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ASSERT(info->shared_info()->has_deoptimization_support());
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if (FLAG_trace_hydrogen) {
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PrintF("-----------------------------------------------------------\n");
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PrintF("Compiling method %s using hydrogen\n", *name->ToCString());
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HTracer::Instance()->TraceCompilation(info->function());
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}
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TypeFeedbackOracle oracle(Handle<Code>(info->shared_info()->code()));
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HGraphBuilder builder(&oracle);
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HPhase phase(HPhase::kTotal);
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HGraph* graph = builder.CreateGraph(info);
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if (graph != NULL && FLAG_build_lithium) {
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Handle<Code> code = graph->Compile();
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if (!code.is_null()) {
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info->SetCode(code);
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FinishOptimization(info->closure(), start);
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return true;
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}
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}
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// Compilation with the Hydrogen compiler failed. Keep using the
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// shared code but mark it as unoptimizable.
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AbortAndDisable(info);
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// True indicates the compilation pipeline is still going, not necessarily
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// that we optimized the code.
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return true;
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}
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static bool MakeCode(CompilationInfo* info) {
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// Precondition: code has been parsed. Postcondition: the code field in
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// the compilation info is set if compilation succeeded.
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ASSERT(info->function() != NULL);
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if (Rewriter::Rewrite(info) && Scope::Analyze(info)) {
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if (V8::UseCrankshaft()) return MakeCrankshaftCode(info);
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// Generate code and return it. Code generator selection is governed by
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// which backends are enabled and whether the function is considered
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// run-once code or not.
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//
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// --full-compiler enables the dedicated backend for code we expect to
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// be run once
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//
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// The normal choice of backend can be overridden with the flags
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// --always-full-compiler.
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if (Rewriter::Analyze(info)) {
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Handle<SharedFunctionInfo> shared = info->shared_info();
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bool is_run_once = (shared.is_null())
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? info->scope()->is_global_scope()
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: (shared->is_toplevel() || shared->try_full_codegen());
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bool can_use_full =
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FLAG_full_compiler && !info->function()->contains_loops();
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if (AlwaysFullCompiler() || (is_run_once && can_use_full)) {
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return FullCodeGenerator::MakeCode(info);
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} else {
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return AssignedVariablesAnalyzer::Analyze(info) &&
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CodeGenerator::MakeCode(info);
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}
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}
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}
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return false;
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}
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#ifdef ENABLE_DEBUGGER_SUPPORT
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bool Compiler::MakeCodeForLiveEdit(CompilationInfo* info) {
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// Precondition: code has been parsed. Postcondition: the code field in
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// the compilation info is set if compilation succeeded.
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bool succeeded = MakeCode(info);
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if (!info->shared_info().is_null()) {
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Handle<SerializedScopeInfo> scope_info =
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SerializedScopeInfo::Create(info->scope());
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info->shared_info()->set_scope_info(*scope_info);
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}
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return succeeded;
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}
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#endif
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static Handle<SharedFunctionInfo> MakeFunctionInfo(CompilationInfo* info) {
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CompilationZoneScope zone_scope(DELETE_ON_EXIT);
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PostponeInterruptsScope postpone;
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ASSERT(!i::Top::global_context().is_null());
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Handle<Script> script = info->script();
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script->set_context_data((*i::Top::global_context())->data());
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#ifdef ENABLE_DEBUGGER_SUPPORT
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if (info->is_eval()) {
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Script::CompilationType compilation_type = Script::COMPILATION_TYPE_EVAL;
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script->set_compilation_type(Smi::FromInt(compilation_type));
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// For eval scripts add information on the function from which eval was
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// called.
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if (info->is_eval()) {
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StackTraceFrameIterator it;
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if (!it.done()) {
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script->set_eval_from_shared(
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JSFunction::cast(it.frame()->function())->shared());
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int offset = static_cast<int>(
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it.frame()->pc() - it.frame()->code()->instruction_start());
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script->set_eval_from_instructions_offset(Smi::FromInt(offset));
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}
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}
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}
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// Notify debugger
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Debugger::OnBeforeCompile(script);
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#endif
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// Only allow non-global compiles for eval.
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ASSERT(info->is_eval() || info->is_global());
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if (!ParserApi::Parse(info)) return Handle<SharedFunctionInfo>::null();
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// Measure how long it takes to do the compilation; only take the
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// rest of the function into account to avoid overlap with the
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// parsing statistics.
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HistogramTimer* rate = info->is_eval()
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? &Counters::compile_eval
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: &Counters::compile;
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HistogramTimerScope timer(rate);
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// Compile the code.
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FunctionLiteral* lit = info->function();
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LiveEditFunctionTracker live_edit_tracker(lit);
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if (!MakeCode(info)) {
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Top::StackOverflow();
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return Handle<SharedFunctionInfo>::null();
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}
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ASSERT(!info->code().is_null());
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if (script->name()->IsString()) {
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PROFILE(CodeCreateEvent(
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info->is_eval()
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? Logger::EVAL_TAG
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: Logger::ToNativeByScript(Logger::SCRIPT_TAG, *script),
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*info->code(),
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String::cast(script->name())));
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OPROFILE(CreateNativeCodeRegion(String::cast(script->name()),
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info->code()->instruction_start(),
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info->code()->instruction_size()));
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} else {
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PROFILE(CodeCreateEvent(
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info->is_eval()
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? Logger::EVAL_TAG
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: Logger::ToNativeByScript(Logger::SCRIPT_TAG, *script),
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*info->code(),
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""));
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OPROFILE(CreateNativeCodeRegion(info->is_eval() ? "Eval" : "Script",
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info->code()->instruction_start(),
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info->code()->instruction_size()));
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}
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// Allocate function.
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Handle<SharedFunctionInfo> result =
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Factory::NewSharedFunctionInfo(
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lit->name(),
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lit->materialized_literal_count(),
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info->code(),
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SerializedScopeInfo::Create(info->scope()));
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ASSERT_EQ(RelocInfo::kNoPosition, lit->function_token_position());
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Compiler::SetFunctionInfo(result, lit, true, script);
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// Hint to the runtime system used when allocating space for initial
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// property space by setting the expected number of properties for
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// the instances of the function.
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SetExpectedNofPropertiesFromEstimate(result, lit->expected_property_count());
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#ifdef ENABLE_DEBUGGER_SUPPORT
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// Notify debugger
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Debugger::OnAfterCompile(script, Debugger::NO_AFTER_COMPILE_FLAGS);
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#endif
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live_edit_tracker.RecordFunctionInfo(result, lit);
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return result;
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}
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Handle<SharedFunctionInfo> Compiler::Compile(Handle<String> source,
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Handle<Object> script_name,
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int line_offset,
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int column_offset,
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v8::Extension* extension,
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ScriptDataImpl* input_pre_data,
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Handle<Object> script_data,
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NativesFlag natives) {
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int source_length = source->length();
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Counters::total_load_size.Increment(source_length);
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Counters::total_compile_size.Increment(source_length);
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// The VM is in the COMPILER state until exiting this function.
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VMState state(COMPILER);
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// Do a lookup in the compilation cache but not for extensions.
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Handle<SharedFunctionInfo> result;
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if (extension == NULL) {
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result = CompilationCache::LookupScript(source,
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script_name,
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line_offset,
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column_offset);
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}
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if (result.is_null()) {
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// No cache entry found. Do pre-parsing, if it makes sense, and compile
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// the script.
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// Building preparse data that is only used immediately after is only a
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// saving if we might skip building the AST for lazily compiled functions.
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// I.e., preparse data isn't relevant when the lazy flag is off, and
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// for small sources, odds are that there aren't many functions
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// that would be compiled lazily anyway, so we skip the preparse step
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// in that case too.
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ScriptDataImpl* pre_data = input_pre_data;
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if (pre_data == NULL
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&& source_length >= FLAG_min_preparse_length) {
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if (source->IsExternalTwoByteString()) {
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ExternalTwoByteStringUC16CharacterStream stream(
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Handle<ExternalTwoByteString>::cast(source), 0, source->length());
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pre_data = ParserApi::PartialPreParse(&stream, extension);
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} else {
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GenericStringUC16CharacterStream stream(source, 0, source->length());
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pre_data = ParserApi::PartialPreParse(&stream, extension);
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}
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}
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// Create a script object describing the script to be compiled.
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Handle<Script> script = Factory::NewScript(source);
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if (natives == NATIVES_CODE) {
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script->set_type(Smi::FromInt(Script::TYPE_NATIVE));
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}
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if (!script_name.is_null()) {
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script->set_name(*script_name);
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script->set_line_offset(Smi::FromInt(line_offset));
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script->set_column_offset(Smi::FromInt(column_offset));
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}
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script->set_data(script_data.is_null() ? Heap::undefined_value()
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: *script_data);
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// Compile the function and add it to the cache.
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|
CompilationInfo info(script);
|
|
info.MarkAsGlobal();
|
|
info.SetExtension(extension);
|
|
info.SetPreParseData(pre_data);
|
|
result = MakeFunctionInfo(&info);
|
|
if (extension == NULL && !result.is_null()) {
|
|
CompilationCache::PutScript(source, result);
|
|
}
|
|
|
|
// Get rid of the pre-parsing data (if necessary).
|
|
if (input_pre_data == NULL && pre_data != NULL) {
|
|
delete pre_data;
|
|
}
|
|
}
|
|
|
|
if (result.is_null()) Top::ReportPendingMessages();
|
|
return result;
|
|
}
|
|
|
|
|
|
Handle<SharedFunctionInfo> Compiler::CompileEval(Handle<String> source,
|
|
Handle<Context> context,
|
|
bool is_global) {
|
|
int source_length = source->length();
|
|
Counters::total_eval_size.Increment(source_length);
|
|
Counters::total_compile_size.Increment(source_length);
|
|
|
|
// The VM is in the COMPILER state until exiting this function.
|
|
VMState state(COMPILER);
|
|
|
|
// Do a lookup in the compilation cache; if the entry is not there, invoke
|
|
// the compiler and add the result to the cache.
|
|
Handle<SharedFunctionInfo> result;
|
|
result = CompilationCache::LookupEval(source, context, is_global);
|
|
|
|
if (result.is_null()) {
|
|
// Create a script object describing the script to be compiled.
|
|
Handle<Script> script = Factory::NewScript(source);
|
|
CompilationInfo info(script);
|
|
info.MarkAsEval();
|
|
if (is_global) info.MarkAsGlobal();
|
|
info.SetCallingContext(context);
|
|
result = MakeFunctionInfo(&info);
|
|
if (!result.is_null()) {
|
|
CompilationCache::PutEval(source, context, is_global, result);
|
|
}
|
|
}
|
|
|
|
return result;
|
|
}
|
|
|
|
|
|
bool Compiler::CompileLazy(CompilationInfo* info) {
|
|
CompilationZoneScope zone_scope(DELETE_ON_EXIT);
|
|
|
|
// The VM is in the COMPILER state until exiting this function.
|
|
VMState state(COMPILER);
|
|
|
|
PostponeInterruptsScope postpone;
|
|
|
|
Handle<SharedFunctionInfo> shared = info->shared_info();
|
|
int compiled_size = shared->end_position() - shared->start_position();
|
|
Counters::total_compile_size.Increment(compiled_size);
|
|
|
|
// Generate the AST for the lazily compiled function.
|
|
if (ParserApi::Parse(info)) {
|
|
// Measure how long it takes to do the lazy compilation; only take the
|
|
// rest of the function into account to avoid overlap with the lazy
|
|
// parsing statistics.
|
|
HistogramTimerScope timer(&Counters::compile_lazy);
|
|
|
|
// Compile the code.
|
|
if (!MakeCode(info)) {
|
|
Top::StackOverflow();
|
|
} else {
|
|
ASSERT(!info->code().is_null());
|
|
Handle<Code> code = info->code();
|
|
Handle<JSFunction> function = info->closure();
|
|
RecordFunctionCompilation(Logger::LAZY_COMPILE_TAG,
|
|
Handle<String>(shared->DebugName()),
|
|
shared->start_position(),
|
|
info);
|
|
|
|
if (info->IsOptimizing()) {
|
|
function->ReplaceCode(*code);
|
|
} else {
|
|
// Update the shared function info with the compiled code and the
|
|
// scope info. Please note, that the order of the shared function
|
|
// info initialization is important since set_scope_info might
|
|
// trigger a GC, causing the ASSERT below to be invalid if the code
|
|
// was flushed. By settting the code object last we avoid this.
|
|
Handle<SerializedScopeInfo> scope_info =
|
|
SerializedScopeInfo::Create(info->scope());
|
|
shared->set_scope_info(*scope_info);
|
|
shared->set_code(*code);
|
|
if (!function.is_null()) {
|
|
function->ReplaceCode(*code);
|
|
ASSERT(!function->IsOptimized());
|
|
}
|
|
|
|
// Set the expected number of properties for instances.
|
|
FunctionLiteral* lit = info->function();
|
|
int expected = lit->expected_property_count();
|
|
SetExpectedNofPropertiesFromEstimate(shared, expected);
|
|
|
|
// Set the optimization hints after performing lazy compilation, as
|
|
// these are not set when the function is set up as a lazily
|
|
// compiled function.
|
|
shared->SetThisPropertyAssignmentsInfo(
|
|
lit->has_only_simple_this_property_assignments(),
|
|
*lit->this_property_assignments());
|
|
|
|
// Check the function has compiled code.
|
|
ASSERT(shared->is_compiled());
|
|
shared->set_code_age(0);
|
|
|
|
if (V8::UseCrankshaft() && info->AllowOptimize()) {
|
|
// If we're asked to always optimize, we compile the optimized
|
|
// version of the function right away - unless the debugger is
|
|
// active as it makes no sense to compile optimized code then.
|
|
if (FLAG_always_opt && !Debug::has_break_points()) {
|
|
CompilationInfo optimized(function);
|
|
optimized.SetOptimizing(AstNode::kNoNumber);
|
|
return CompileLazy(&optimized);
|
|
} else if (CompilationCache::ShouldOptimizeEagerly(function)) {
|
|
RuntimeProfiler::OptimizeSoon(*function);
|
|
}
|
|
}
|
|
}
|
|
|
|
return true;
|
|
}
|
|
}
|
|
|
|
ASSERT(info->code().is_null());
|
|
return false;
|
|
}
|
|
|
|
|
|
Handle<SharedFunctionInfo> Compiler::BuildFunctionInfo(FunctionLiteral* literal,
|
|
Handle<Script> script) {
|
|
// Precondition: code has been parsed and scopes have been analyzed.
|
|
CompilationInfo info(script);
|
|
info.SetFunction(literal);
|
|
info.SetScope(literal->scope());
|
|
|
|
LiveEditFunctionTracker live_edit_tracker(literal);
|
|
// Determine if the function can be lazily compiled. This is necessary to
|
|
// allow some of our builtin JS files to be lazily compiled. These
|
|
// builtins cannot be handled lazily by the parser, since we have to know
|
|
// if a function uses the special natives syntax, which is something the
|
|
// parser records.
|
|
bool allow_lazy = literal->AllowsLazyCompilation() &&
|
|
!LiveEditFunctionTracker::IsActive();
|
|
|
|
Handle<SerializedScopeInfo> scope_info(SerializedScopeInfo::Empty());
|
|
|
|
// Generate code
|
|
if (FLAG_lazy && allow_lazy) {
|
|
Handle<Code> code(Builtins::builtin(Builtins::LazyCompile));
|
|
info.SetCode(code);
|
|
} else {
|
|
if (V8::UseCrankshaft()) {
|
|
if (!MakeCrankshaftCode(&info)) {
|
|
return Handle<SharedFunctionInfo>::null();
|
|
}
|
|
} else {
|
|
// The bodies of function literals have not yet been visited by the
|
|
// AST optimizer/analyzer.
|
|
if (!Rewriter::Analyze(&info)) return Handle<SharedFunctionInfo>::null();
|
|
|
|
bool is_run_once = literal->try_full_codegen();
|
|
bool can_use_full = FLAG_full_compiler && !literal->contains_loops();
|
|
|
|
if (AlwaysFullCompiler() || (is_run_once && can_use_full)) {
|
|
if (!FullCodeGenerator::MakeCode(&info)) {
|
|
return Handle<SharedFunctionInfo>::null();
|
|
}
|
|
} else {
|
|
// We fall back to the classic V8 code generator.
|
|
if (!AssignedVariablesAnalyzer::Analyze(&info) ||
|
|
!CodeGenerator::MakeCode(&info)) {
|
|
return Handle<SharedFunctionInfo>::null();
|
|
}
|
|
}
|
|
}
|
|
ASSERT(!info.code().is_null());
|
|
|
|
// Function compilation complete.
|
|
RecordFunctionCompilation(Logger::FUNCTION_TAG,
|
|
literal->debug_name(),
|
|
literal->start_position(),
|
|
&info);
|
|
scope_info = SerializedScopeInfo::Create(info.scope());
|
|
}
|
|
|
|
// Create a shared function info object.
|
|
Handle<SharedFunctionInfo> result =
|
|
Factory::NewSharedFunctionInfo(literal->name(),
|
|
literal->materialized_literal_count(),
|
|
info.code(),
|
|
scope_info);
|
|
SetFunctionInfo(result, literal, false, script);
|
|
result->set_allows_lazy_compilation(allow_lazy);
|
|
|
|
// Set the expected number of properties for instances and return
|
|
// the resulting function.
|
|
SetExpectedNofPropertiesFromEstimate(result,
|
|
literal->expected_property_count());
|
|
live_edit_tracker.RecordFunctionInfo(result, literal);
|
|
return result;
|
|
}
|
|
|
|
|
|
// Sets the function info on a function.
|
|
// The start_position points to the first '(' character after the function name
|
|
// in the full script source. When counting characters in the script source the
|
|
// the first character is number 0 (not 1).
|
|
void Compiler::SetFunctionInfo(Handle<SharedFunctionInfo> function_info,
|
|
FunctionLiteral* lit,
|
|
bool is_toplevel,
|
|
Handle<Script> script) {
|
|
function_info->set_length(lit->num_parameters());
|
|
function_info->set_formal_parameter_count(lit->num_parameters());
|
|
function_info->set_script(*script);
|
|
function_info->set_function_token_position(lit->function_token_position());
|
|
function_info->set_start_position(lit->start_position());
|
|
function_info->set_end_position(lit->end_position());
|
|
function_info->set_is_expression(lit->is_expression());
|
|
function_info->set_is_toplevel(is_toplevel);
|
|
function_info->set_inferred_name(*lit->inferred_name());
|
|
function_info->SetThisPropertyAssignmentsInfo(
|
|
lit->has_only_simple_this_property_assignments(),
|
|
*lit->this_property_assignments());
|
|
function_info->set_try_full_codegen(lit->try_full_codegen());
|
|
function_info->set_allows_lazy_compilation(lit->AllowsLazyCompilation());
|
|
}
|
|
|
|
|
|
void Compiler::RecordFunctionCompilation(Logger::LogEventsAndTags tag,
|
|
Handle<String> name,
|
|
int start_position,
|
|
CompilationInfo* info) {
|
|
// Log the code generation. If source information is available include
|
|
// script name and line number. Check explicitly whether logging is
|
|
// enabled as finding the line number is not free.
|
|
if (Logger::is_logging() ||
|
|
OProfileAgent::is_enabled() ||
|
|
CpuProfiler::is_profiling()) {
|
|
Handle<Script> script = info->script();
|
|
Handle<Code> code = info->code();
|
|
if (script->name()->IsString()) {
|
|
int line_num = GetScriptLineNumber(script, start_position) + 1;
|
|
USE(line_num);
|
|
PROFILE(CodeCreateEvent(Logger::ToNativeByScript(tag, *script),
|
|
*code,
|
|
*name,
|
|
String::cast(script->name()),
|
|
line_num));
|
|
OPROFILE(CreateNativeCodeRegion(*name,
|
|
String::cast(script->name()),
|
|
line_num,
|
|
code->instruction_start(),
|
|
code->instruction_size()));
|
|
} else {
|
|
PROFILE(CodeCreateEvent(Logger::ToNativeByScript(tag, *script),
|
|
*code,
|
|
*name));
|
|
OPROFILE(CreateNativeCodeRegion(*name,
|
|
code->instruction_start(),
|
|
code->instruction_size()));
|
|
}
|
|
}
|
|
}
|
|
|
|
} } // namespace v8::internal
|