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state.hpp
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state.hpp
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#ifndef RBX_STATE_HPP
#define RBX_STATE_HPP
#include <string.h>
namespace rubinius {
class VM;
class VMJIT;
class ManagedThread;
class VMThreadState;
class SharedState;
class State {
VM* vm_;
VMJIT* vm_jit_;
SharedState& shared_;
public:
State(VM* vm)
: vm_(vm)
, vm_jit_(&vm->vm_jit_)
, shared_(vm->shared)
{}
VM* vm() {
return vm_;
}
ManagedThread* thread() {
return static_cast<ManagedThread*>(vm_);
}
Object* raise_exception(Exception* exc) {
vm_->thread_state()->raise_exception(exc);
return 0;
}
void set_vm(VM* vm) {
vm_ = vm;
}
void set_call_frame(CallFrame* cf) {
vm_->set_call_frame(cf);
}
void set_call_site_information(CallSiteInformation* info) {
vm_->set_call_site_information(info);
}
Globals& globals() {
return shared_.globals;
}
Symbol* symbol(const char* str) {
return shared_.symbols.lookup(this, str, strlen(str));
}
Symbol* symbol(const char* str, size_t len) {
return shared_.symbols.lookup(this, str, len);
}
Symbol* symbol(std::string str) {
return shared_.symbols.lookup(this, str);
}
Symbol* symbol(String* str) {
return shared_.symbols.lookup(this, str);
}
uint32_t hash_seed() const {
return shared_.hash_seed;
}
template <class T>
T* new_object(Class *cls) {
return static_cast<T*>(vm_->new_object_typed(cls, sizeof(T), T::type));
}
template <class T>
T* new_object_dirty(Class *cls) {
return static_cast<T*>(vm_->new_object_typed_dirty(cls, sizeof(T), T::type));
}
VMThreadState* thread_state() {
return vm_->thread_state();
}
ObjectMemory* memory() {
return shared_.memory();
}
SharedState& shared() {
return shared_;
}
bool detect_stack_condition(void* end) const {
return vm_->detect_stack_condition(end);
}
bool check_local_interrupts() const {
return vm_jit_->check_local_interrupts_;
}
bool check_async(CallFrame* call_frame) {
set_call_frame(call_frame);
if(vm_->check_local_interrupts()) {
return process_async(call_frame);
}
return true;
}
void raise_stack_error(CallFrame* call_frame);
bool check_stack(CallFrame* call_frame, void* end) {
// @TODO assumes stack growth direction
if(unlikely(vm_->detect_stack_condition(end))) {
raise_stack_error(call_frame);
return false;
}
return true;
}
bool process_async(CallFrame* call_frame);
bool check_interrupts(GCToken gct, CallFrame* call_frame, void* end);
gc::Slab& local_slab() {
return vm_->local_slab();
}
bool stop_the_world() WARN_UNUSED {
return shared_.stop_the_world(vm_);
};
void restart_world() {
shared_.restart_world(vm_);
}
void gc_independent(GCToken gct, CallFrame* call_frame) {
shared_.gc_independent(this, call_frame);
}
void gc_dependent(GCToken gct, CallFrame* call_frame) {
shared_.gc_dependent(this, call_frame);
}
void checkpoint(GCToken gct, CallFrame* call_frame) {
set_call_frame(call_frame);
gc_checkpoint(gct, call_frame);
shared_.checkpoint(vm_);
}
void gc_checkpoint(GCToken gct, CallFrame* frame) {
if(unlikely(shared_.check_gc_p())) {
vm_->collect_maybe(gct, frame);
}
}
void lock(GCToken gct, CallFrame* call_frame) {
gc_independent(gct, call_frame);
vm_->lock(vm_);
gc_dependent(gct, call_frame);
}
void unlock() {
vm_->unlock(vm_);
}
Object* park(GCToken gct, CallFrame* call_frame);
Object* park_timed(GCToken gct, CallFrame* call_frame, struct timespec* ts);
};
}
#endif