blob: e0c9e56e7d2bec1b340c37fc200d1c1d629a940a [file] [log] [blame] [edit]
// Copyright (c) 2011, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
#ifndef RUNTIME_VM_RUNTIME_ENTRY_H_
#define RUNTIME_VM_RUNTIME_ENTRY_H_
#include "vm/allocation.h"
#include "vm/flags.h"
#include "vm/heap/safepoint.h"
#include "vm/native_arguments.h"
#include "vm/runtime_entry_list.h"
namespace dart {
class Assembler;
typedef void (*RuntimeFunction)(NativeArguments arguments);
// Class RuntimeEntry is used to encapsulate runtime functions, it includes
// the entry point for the runtime function and the number of arguments expected
// by the function.
class RuntimeEntry : public ValueObject {
public:
RuntimeEntry(const char* name,
RuntimeFunction function,
intptr_t argument_count,
bool is_leaf,
bool is_float)
: name_(name),
function_(function),
argument_count_(argument_count),
is_leaf_(is_leaf),
is_float_(is_float) {}
const char* name() const { return name_; }
RuntimeFunction function() const { return function_; }
intptr_t argument_count() const { return argument_count_; }
bool is_leaf() const { return is_leaf_; }
bool is_float() const { return is_float_; }
uword GetEntryPoint() const;
// Generate code to call the runtime entry.
NOT_IN_PRECOMPILED(void Call(Assembler* assembler, intptr_t argument_count)
const);
static uword InterpretCallEntry();
static RawObject* InterpretCall(RawFunction* function,
RawArray* argdesc,
intptr_t argc,
RawObject** argv,
Thread* thread);
private:
const char* const name_;
const RuntimeFunction function_;
const intptr_t argument_count_;
const bool is_leaf_;
const bool is_float_;
DISALLOW_COPY_AND_ASSIGN(RuntimeEntry);
};
#ifdef DEBUG
#define TRACE_RUNTIME_CALL(format, name) \
if (FLAG_trace_runtime_calls) { \
THR_Print("Runtime call: " format "\n", name); \
}
#else
#define TRACE_RUNTIME_CALL(format, name) \
do { \
} while (0)
#endif
// Helper macros for declaring and defining runtime entries.
#define DEFINE_RUNTIME_ENTRY(name, argument_count) \
extern void DRT_##name(NativeArguments arguments); \
extern const RuntimeEntry k##name##RuntimeEntry( \
"DRT_" #name, &DRT_##name, argument_count, false, false); \
static void DRT_Helper##name(Isolate* isolate, Thread* thread, Zone* zone, \
NativeArguments arguments); \
void DRT_##name(NativeArguments arguments) { \
CHECK_STACK_ALIGNMENT; \
VERIFY_ON_TRANSITION; \
ASSERT(arguments.ArgCount() == argument_count); \
TRACE_RUNTIME_CALL("%s", "" #name); \
{ \
Thread* thread = arguments.thread(); \
ASSERT(thread == Thread::Current()); \
Isolate* isolate = thread->isolate(); \
TransitionGeneratedToVM transition(thread); \
StackZone zone(thread); \
HANDLESCOPE(thread); \
DRT_Helper##name(isolate, thread, zone.GetZone(), arguments); \
} \
VERIFY_ON_TRANSITION; \
} \
static void DRT_Helper##name(Isolate* isolate, Thread* thread, Zone* zone, \
NativeArguments arguments)
#define DECLARE_RUNTIME_ENTRY(name) \
extern const RuntimeEntry k##name##RuntimeEntry; \
extern void DRT_##name(NativeArguments arguments);
#define DEFINE_LEAF_RUNTIME_ENTRY(type, name, argument_count, ...) \
extern "C" type DLRT_##name(__VA_ARGS__); \
extern const RuntimeEntry k##name##RuntimeEntry( \
"DLRT_" #name, reinterpret_cast<RuntimeFunction>(&DLRT_##name), \
argument_count, true, false); \
type DLRT_##name(__VA_ARGS__) { \
CHECK_STACK_ALIGNMENT; \
NoSafepointScope no_safepoint_scope;
#define END_LEAF_RUNTIME_ENTRY }
// TODO(rmacnak): Fix alignment issue on simarm and use
// DEFINE_LEAF_RUNTIME_ENTRY instead.
#define DEFINE_RAW_LEAF_RUNTIME_ENTRY(name, argument_count, is_float, func) \
extern const RuntimeEntry k##name##RuntimeEntry( \
"DFLRT_" #name, func, argument_count, true, is_float)
#define DECLARE_LEAF_RUNTIME_ENTRY(type, name, ...) \
extern const RuntimeEntry k##name##RuntimeEntry; \
extern "C" type DLRT_##name(__VA_ARGS__);
// Declare all runtime functions here.
RUNTIME_ENTRY_LIST(DECLARE_RUNTIME_ENTRY)
LEAF_RUNTIME_ENTRY_LIST(DECLARE_LEAF_RUNTIME_ENTRY)
const char* DeoptReasonToCString(ICData::DeoptReasonId deopt_reason);
void DeoptimizeAt(const Code& optimized_code, StackFrame* frame);
void DeoptimizeFunctionsOnStack();
double DartModulo(double a, double b);
} // namespace dart
#endif // RUNTIME_VM_RUNTIME_ENTRY_H_