// Copyright 2013 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef V8_COMPILER_JS_OPERATOR_H_ #define V8_COMPILER_JS_OPERATOR_H_ #include "src/compiler/linkage.h" #include "src/compiler/opcodes.h" #include "src/compiler/operator.h" #include "src/unique.h" #include "src/zone.h" namespace v8 { namespace internal { namespace compiler { // Defines the location of a context slot relative to a specific scope. This is // used as a parameter by JSLoadContext and JSStoreContext operators and allows // accessing a context-allocated variable without keeping track of the scope. class ContextAccess { public: ContextAccess(int depth, int index, bool immutable) : immutable_(immutable), depth_(depth), index_(index) { DCHECK(0 <= depth && depth <= kMaxUInt16); DCHECK(0 <= index && static_cast(index) <= kMaxUInt32); } int depth() const { return depth_; } int index() const { return index_; } bool immutable() const { return immutable_; } private: // For space reasons, we keep this tightly packed, otherwise we could just use // a simple int/int/bool POD. const bool immutable_; const uint16_t depth_; const uint32_t index_; }; // Defines the property being loaded from an object by a named load. This is // used as a parameter by JSLoadNamed operators. struct LoadNamedParameters { Unique name; ContextualMode contextual_mode; }; // Defines the arity and the call flags for a JavaScript function call. This is // used as a parameter by JSCall operators. struct CallParameters { int arity; CallFunctionFlags flags; }; // Defines the property being stored to an object by a named store. This is // used as a parameter by JSStoreNamed operators. struct StoreNamedParameters { StrictMode strict_mode; Unique name; }; // Interface for building JavaScript-level operators, e.g. directly from the // AST. Most operators have no parameters, thus can be globally shared for all // graphs. class JSOperatorBuilder { public: explicit JSOperatorBuilder(Zone* zone) : zone_(zone) {} #define SIMPLE(name, properties, inputs, outputs) \ return new (zone_) \ SimpleOperator(IrOpcode::k##name, properties, inputs, outputs, #name); #define NOPROPS(name, inputs, outputs) \ SIMPLE(name, Operator::kNoProperties, inputs, outputs) #define OP1(name, ptype, pname, properties, inputs, outputs) \ return new (zone_) Operator1(IrOpcode::k##name, properties, inputs, \ outputs, #name, pname) #define BINOP(name) NOPROPS(name, 2, 1) #define UNOP(name) NOPROPS(name, 1, 1) #define PURE_BINOP(name) SIMPLE(name, Operator::kPure, 2, 1) const Operator* Equal() { BINOP(JSEqual); } const Operator* NotEqual() { BINOP(JSNotEqual); } const Operator* StrictEqual() { PURE_BINOP(JSStrictEqual); } const Operator* StrictNotEqual() { PURE_BINOP(JSStrictNotEqual); } const Operator* LessThan() { BINOP(JSLessThan); } const Operator* GreaterThan() { BINOP(JSGreaterThan); } const Operator* LessThanOrEqual() { BINOP(JSLessThanOrEqual); } const Operator* GreaterThanOrEqual() { BINOP(JSGreaterThanOrEqual); } const Operator* BitwiseOr() { BINOP(JSBitwiseOr); } const Operator* BitwiseXor() { BINOP(JSBitwiseXor); } const Operator* BitwiseAnd() { BINOP(JSBitwiseAnd); } const Operator* ShiftLeft() { BINOP(JSShiftLeft); } const Operator* ShiftRight() { BINOP(JSShiftRight); } const Operator* ShiftRightLogical() { BINOP(JSShiftRightLogical); } const Operator* Add() { BINOP(JSAdd); } const Operator* Subtract() { BINOP(JSSubtract); } const Operator* Multiply() { BINOP(JSMultiply); } const Operator* Divide() { BINOP(JSDivide); } const Operator* Modulus() { BINOP(JSModulus); } const Operator* UnaryNot() { UNOP(JSUnaryNot); } const Operator* ToBoolean() { UNOP(JSToBoolean); } const Operator* ToNumber() { UNOP(JSToNumber); } const Operator* ToString() { UNOP(JSToString); } const Operator* ToName() { UNOP(JSToName); } const Operator* ToObject() { UNOP(JSToObject); } const Operator* Yield() { UNOP(JSYield); } const Operator* Create() { SIMPLE(JSCreate, Operator::kEliminatable, 0, 1); } const Operator* Call(int arguments, CallFunctionFlags flags) { CallParameters parameters = {arguments, flags}; OP1(JSCallFunction, CallParameters, parameters, Operator::kNoProperties, arguments, 1); } const Operator* CallNew(int arguments) { return new (zone_) Operator1(IrOpcode::kJSCallConstruct, Operator::kNoProperties, arguments, 1, "JSCallConstruct", arguments); } const Operator* LoadProperty() { BINOP(JSLoadProperty); } const Operator* LoadNamed(Unique name, ContextualMode contextual_mode = NOT_CONTEXTUAL) { LoadNamedParameters parameters = {name, contextual_mode}; OP1(JSLoadNamed, LoadNamedParameters, parameters, Operator::kNoProperties, 1, 1); } const Operator* StoreProperty(StrictMode strict_mode) { OP1(JSStoreProperty, StrictMode, strict_mode, Operator::kNoProperties, 3, 0); } const Operator* StoreNamed(StrictMode strict_mode, Unique name) { StoreNamedParameters parameters = {strict_mode, name}; OP1(JSStoreNamed, StoreNamedParameters, parameters, Operator::kNoProperties, 2, 0); } const Operator* DeleteProperty(StrictMode strict_mode) { OP1(JSDeleteProperty, StrictMode, strict_mode, Operator::kNoProperties, 2, 1); } const Operator* HasProperty() { NOPROPS(JSHasProperty, 2, 1); } const Operator* LoadContext(uint16_t depth, uint32_t index, bool immutable) { ContextAccess access(depth, index, immutable); OP1(JSLoadContext, ContextAccess, access, Operator::kEliminatable | Operator::kNoWrite, 1, 1); } const Operator* StoreContext(uint16_t depth, uint32_t index) { ContextAccess access(depth, index, false); OP1(JSStoreContext, ContextAccess, access, Operator::kNoProperties, 2, 0); } const Operator* TypeOf() { SIMPLE(JSTypeOf, Operator::kPure, 1, 1); } const Operator* InstanceOf() { NOPROPS(JSInstanceOf, 2, 1); } const Operator* Debugger() { NOPROPS(JSDebugger, 0, 0); } // TODO(titzer): nail down the static parts of each of these context flavors. const Operator* CreateFunctionContext() { NOPROPS(JSCreateFunctionContext, 1, 1); } const Operator* CreateCatchContext(Unique name) { OP1(JSCreateCatchContext, Unique, name, Operator::kNoProperties, 1, 1); } const Operator* CreateWithContext() { NOPROPS(JSCreateWithContext, 2, 1); } const Operator* CreateBlockContext() { NOPROPS(JSCreateBlockContext, 2, 1); } const Operator* CreateModuleContext() { NOPROPS(JSCreateModuleContext, 2, 1); } const Operator* CreateGlobalContext() { NOPROPS(JSCreateGlobalContext, 2, 1); } const Operator* Runtime(Runtime::FunctionId function, int arguments) { const Runtime::Function* f = Runtime::FunctionForId(function); DCHECK(f->nargs == -1 || f->nargs == arguments); OP1(JSCallRuntime, Runtime::FunctionId, function, Operator::kNoProperties, arguments, f->result_size); } #undef SIMPLE #undef NOPROPS #undef OP1 #undef BINOP #undef UNOP private: Zone* zone_; }; // Specialization for static parameters of type {ContextAccess}. template <> struct StaticParameterTraits { static OStream& PrintTo(OStream& os, ContextAccess val) { // NOLINT return os << val.depth() << "," << val.index() << (val.immutable() ? ",imm" : ""); } static int HashCode(ContextAccess val) { return (val.depth() << 16) | (val.index() & 0xffff); } static bool Equals(ContextAccess a, ContextAccess b) { return a.immutable() == b.immutable() && a.depth() == b.depth() && a.index() == b.index(); } }; // Specialization for static parameters of type {Runtime::FunctionId}. template <> struct StaticParameterTraits { static OStream& PrintTo(OStream& os, Runtime::FunctionId val) { // NOLINT const Runtime::Function* f = Runtime::FunctionForId(val); return os << (f->name ? f->name : "?Runtime?"); } static int HashCode(Runtime::FunctionId val) { return static_cast(val); } static bool Equals(Runtime::FunctionId a, Runtime::FunctionId b) { return a == b; } }; } // namespace compiler } // namespace internal } // namespace v8 #endif // V8_COMPILER_JS_OPERATOR_H_