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// For Windows CE, Windows headers need to be included first as they define ASSERT
#ifdef _WIN32_WCE
# include "win32-headers.h"
#endif

#include "optimizing-compiler-thread.h"

#include "v8.h"

#include "hydrogen.h"
#include "isolate.h"
#include "v8threads.h"

namespace v8 {
namespace internal {


void OptimizingCompilerThread::Run() {
#ifdef DEBUG
  thread_id_ = ThreadId::Current().ToInteger();
#endif
  Isolate::SetIsolateThreadLocals(isolate_, NULL);

  int64_t epoch = 0;
  if (FLAG_trace_parallel_recompilation) epoch = OS::Ticks();

  while (true) {
    input_queue_semaphore_->Wait();
    if (Acquire_Load(&stop_thread_)) {
      stop_semaphore_->Signal();
      if (FLAG_trace_parallel_recompilation) {
        time_spent_total_ = OS::Ticks() - epoch;
      }
      return;
    }

    int64_t compiling_start = 0;
    if (FLAG_trace_parallel_recompilation) compiling_start = OS::Ticks();

    Heap::RelocationLock relocation_lock(isolate_->heap());
    OptimizingCompiler* optimizing_compiler = NULL;
    input_queue_.Dequeue(&optimizing_compiler);
    Barrier_AtomicIncrement(&queue_length_, static_cast<Atomic32>(-1));

    ASSERT(!optimizing_compiler->info()->closure()->IsOptimized());

    OptimizingCompiler::Status status = optimizing_compiler->OptimizeGraph();
    ASSERT(status != OptimizingCompiler::FAILED);
    // Prevent an unused-variable error in release mode.
    USE(status);

    output_queue_.Enqueue(optimizing_compiler);
    isolate_->stack_guard()->RequestCodeReadyEvent();

    if (FLAG_trace_parallel_recompilation) {
      time_spent_compiling_ += OS::Ticks() - compiling_start;
    }
  }
}


void OptimizingCompilerThread::Stop() {
  Release_Store(&stop_thread_, static_cast<AtomicWord>(true));
  input_queue_semaphore_->Signal();
  stop_semaphore_->Wait();

  if (FLAG_trace_parallel_recompilation) {
    double compile_time = static_cast<double>(time_spent_compiling_);
    double total_time = static_cast<double>(time_spent_total_);
    double percentage = (compile_time * 100) / total_time;
    PrintF("  ** Compiler thread did %.2f%% useful work\n", percentage);
  }
}


void OptimizingCompilerThread::InstallOptimizedFunctions() {
  HandleScope handle_scope(isolate_);
  int functions_installed = 0;
  while (!output_queue_.IsEmpty()) {
    OptimizingCompiler* compiler = NULL;
    output_queue_.Dequeue(&compiler);
    Compiler::InstallOptimizedCode(compiler);
    functions_installed++;
  }
  if (FLAG_trace_parallel_recompilation && functions_installed != 0) {
    PrintF("  ** Installed %d function(s).\n", functions_installed);
  }
}


void OptimizingCompilerThread::QueueForOptimization(
    OptimizingCompiler* optimizing_compiler) {
  input_queue_.Enqueue(optimizing_compiler);
  input_queue_semaphore_->Signal();
}

#ifdef DEBUG
bool OptimizingCompilerThread::IsOptimizerThread() {
  if (!FLAG_parallel_recompilation) return false;
  return ThreadId::Current().ToInteger() == thread_id_;
}
#endif


} }  // namespace v8::internal