runtime/vm/parser.h - sdk - Git at Google

 // Copyright (c) 2012, 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_PARSER_H_
 #define RUNTIME_VM_PARSER_H_

 #include "include/dart_api.h"

 #include "lib/invocation_mirror.h"
 #include "platform/assert.h"
 #include "platform/globals.h"
 #include "vm/allocation.h"
 #include "vm/ast.h"
 #include "vm/class_finalizer.h"
 #include "vm/hash_table.h"
 #include "vm/kernel.h"
 #include "vm/object.h"
 #include "vm/raw_object.h"
 #include "vm/scopes.h"
 #include "vm/token.h"

 namespace dart {

 // Forward declarations.

 namespace kernel {

 class ScopeBuildingResult;

 }  // namespace kernel

 class ArgumentsDescriptor;
 class Isolate;
 class LocalScope;
 class LocalVariable;
 struct RegExpCompileData;
 class SourceLabel;
 template <typename T>
 class GrowableArray;
 class Parser;

 struct CatchParamDesc;
 class ClassDesc;
 struct MemberDesc;
 struct ParamList;
 struct QualIdent;
 class TopLevel;
 class RecursionChecker;

 // The class ParsedFunction holds the result of parsing a function.
 class ParsedFunction : public ZoneAllocated {
  public:
   ParsedFunction(Thread* thread, const Function& function);

   const Function& function() const { return function_; }
   const Code& code() const { return code_; }

   SequenceNode* node_sequence() const { return node_sequence_; }
   void SetNodeSequence(SequenceNode* node_sequence);

   RegExpCompileData* regexp_compile_data() const {
     return regexp_compile_data_;
   }
   void SetRegExpCompileData(RegExpCompileData* regexp_compile_data);

   LocalVariable* instantiator() const { return instantiator_; }
   void set_instantiator(LocalVariable* instantiator) {
     ASSERT(instantiator != NULL);
     instantiator_ = instantiator;
   }

   LocalVariable* function_type_arguments() const {
     return function_type_arguments_;
   }
   void set_function_type_arguments(LocalVariable* function_type_arguments) {
     ASSERT(function_type_arguments != NULL);
     function_type_arguments_ = function_type_arguments;
   }
   LocalVariable* parent_type_arguments() const {
     return parent_type_arguments_;
   }
   void set_parent_type_arguments(LocalVariable* parent_type_arguments) {
     ASSERT(parent_type_arguments != NULL);
     parent_type_arguments_ = parent_type_arguments;
   }

   void set_default_parameter_values(ZoneGrowableArray<const Instance*>* list) {
     default_parameter_values_ = list;
 #if defined(DEBUG)
     if (list == NULL) return;
     for (intptr_t i = 0; i < list->length(); i++) {
       ASSERT(list->At(i)->IsZoneHandle() || list->At(i)->InVMHeap());
     }
 #endif
   }

   const Instance& DefaultParameterValueAt(intptr_t i) const {
     ASSERT(default_parameter_values_ != NULL);
     return *default_parameter_values_->At(i);
   }

   ZoneGrowableArray<const Instance*>* default_parameter_values() const {
     return default_parameter_values_;
   }

   LocalVariable* current_context_var() const { return current_context_var_; }

   bool has_arg_desc_var() const { return arg_desc_var_ != NULL; }
   LocalVariable* arg_desc_var() const { return arg_desc_var_; }

   LocalVariable* expression_temp_var() const {
     ASSERT(has_expression_temp_var());
     return expression_temp_var_;
   }
   void set_expression_temp_var(LocalVariable* value) {
     ASSERT(!has_expression_temp_var());
     expression_temp_var_ = value;
   }
   bool has_expression_temp_var() const { return expression_temp_var_ != NULL; }

   LocalVariable* entry_points_temp_var() const {
     ASSERT(has_entry_points_temp_var());
     return entry_points_temp_var_;
   }
   void set_entry_points_temp_var(LocalVariable* value) {
     ASSERT(!has_entry_points_temp_var());
     entry_points_temp_var_ = value;
   }
   bool has_entry_points_temp_var() const {
     return entry_points_temp_var_ != NULL;
   }

   LocalVariable* finally_return_temp_var() const {
     ASSERT(has_finally_return_temp_var());
     return finally_return_temp_var_;
   }
   void set_finally_return_temp_var(LocalVariable* value) {
     ASSERT(!has_finally_return_temp_var());
     finally_return_temp_var_ = value;
   }
   bool has_finally_return_temp_var() const {
     return finally_return_temp_var_ != NULL;
   }
   void EnsureFinallyReturnTemp(bool is_async);

   LocalVariable* EnsureExpressionTemp();
   LocalVariable* EnsureEntryPointsTemp();

   bool HasDeferredPrefixes() const { return deferred_prefixes_->length() != 0; }
   ZoneGrowableArray<const LibraryPrefix*>* deferred_prefixes() const {
     return deferred_prefixes_;
   }
   void AddDeferredPrefix(const LibraryPrefix& prefix);

   ZoneGrowableArray<const Field*>* guarded_fields() const {
     return guarded_fields_;
   }

   VariableIndex first_parameter_index() const { return first_parameter_index_; }
   int num_stack_locals() const { return num_stack_locals_; }

   void AllocateVariables();
   void AllocateIrregexpVariables(intptr_t num_stack_locals);
   void AllocateBytecodeVariables(intptr_t num_stack_locals);

   void record_await() { have_seen_await_expr_ = true; }
   bool have_seen_await() const { return have_seen_await_expr_; }
   bool is_forwarding_stub() const {
     return forwarding_stub_super_target_ != -1;
   }
   kernel::NameIndex forwarding_stub_super_target() const {
     return forwarding_stub_super_target_;
   }
   void MarkForwardingStub(kernel::NameIndex target) {
     forwarding_stub_super_target_ = target;
   }

   Thread* thread() const { return thread_; }
   Isolate* isolate() const { return thread_->isolate(); }
   Zone* zone() const { return thread_->zone(); }

   // Adds only relevant fields: field must be unique and its guarded_cid()
   // relevant.
   void AddToGuardedFields(const Field* field) const;

   void Bailout(const char* origin, const char* reason) const;

   kernel::ScopeBuildingResult* EnsureKernelScopes();

   LocalVariable* RawTypeArgumentsVariable() const {
     return raw_type_arguments_var_;
   }

   void SetRawTypeArgumentsVariable(LocalVariable* raw_type_arguments_var) {
     raw_type_arguments_var_ = raw_type_arguments_var;
   }

   void SetRawParameters(ZoneGrowableArray<LocalVariable*>* raw_parameters) {
     raw_parameters_ = raw_parameters;
   }

   LocalVariable* RawParameterVariable(intptr_t i) const {
     return raw_parameters_->At(i);
   }

  private:
   Thread* thread_;
   const Function& function_;
   Code& code_;
   SequenceNode* node_sequence_;
   RegExpCompileData* regexp_compile_data_;
   LocalVariable* instantiator_;
   LocalVariable* function_type_arguments_;
   LocalVariable* parent_type_arguments_;
   LocalVariable* current_context_var_;
   LocalVariable* arg_desc_var_;
   LocalVariable* expression_temp_var_;
   LocalVariable* entry_points_temp_var_;
   LocalVariable* finally_return_temp_var_;
   ZoneGrowableArray<const LibraryPrefix*>* deferred_prefixes_;
   ZoneGrowableArray<const Field*>* guarded_fields_;
   ZoneGrowableArray<const Instance*>* default_parameter_values_;

   LocalVariable* raw_type_arguments_var_;
   ZoneGrowableArray<LocalVariable*>* raw_parameters_ = nullptr;

   VariableIndex first_parameter_index_;
   int num_stack_locals_;
   bool have_seen_await_expr_;

   kernel::NameIndex forwarding_stub_super_target_;
   kernel::ScopeBuildingResult* kernel_scopes_;

   friend class Parser;
   DISALLOW_COPY_AND_ASSIGN(ParsedFunction);
 };

 class Parser : public ValueObject {
  public:
   // Parse a function to retrieve parameter information that is not retained in
   // the Function object. Returns either an error if the parse fails (which
   // could be the case for local functions), or a flat array of entries for each
   // parameter. Each parameter entry contains: * a Dart bool indicating whether
   // the parameter was declared final * its default value (or null if none was
   // declared) * an array of metadata (or null if no metadata was declared).
   enum {
     kParameterIsFinalOffset,
     kParameterDefaultValueOffset,
     kParameterMetadataOffset,
     kParameterEntrySize,
   };

  private:
   DISALLOW_COPY_AND_ASSIGN(Parser);
 };

 }  // namespace dart

 #endif  // RUNTIME_VM_PARSER_H_
	// Copyright (c) 2012, 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_PARSER_H_
	#define RUNTIME_VM_PARSER_H_

	#include "include/dart_api.h"

	#include "lib/invocation_mirror.h"
	#include "platform/assert.h"
	#include "platform/globals.h"
	#include "vm/allocation.h"
	#include "vm/ast.h"
	#include "vm/class_finalizer.h"
	#include "vm/hash_table.h"
	#include "vm/kernel.h"
	#include "vm/object.h"
	#include "vm/raw_object.h"
	#include "vm/scopes.h"
	#include "vm/token.h"

	namespace dart {

	// Forward declarations.

	namespace kernel {

	class ScopeBuildingResult;

	} // namespace kernel

	class ArgumentsDescriptor;
	class Isolate;
	class LocalScope;
	class LocalVariable;
	struct RegExpCompileData;
	class SourceLabel;
	template <typename T>
	class GrowableArray;
	class Parser;

	struct CatchParamDesc;
	class ClassDesc;
	struct MemberDesc;
	struct ParamList;
	struct QualIdent;
	class TopLevel;
	class RecursionChecker;

	// The class ParsedFunction holds the result of parsing a function.
	class ParsedFunction : public ZoneAllocated {
	public:
	ParsedFunction(Thread* thread, const Function& function);

	const Function& function() const { return function_; }
	const Code& code() const { return code_; }

	SequenceNode* node_sequence() const { return node_sequence_; }
	void SetNodeSequence(SequenceNode* node_sequence);

	RegExpCompileData* regexp_compile_data() const {
	return regexp_compile_data_;
	}
	void SetRegExpCompileData(RegExpCompileData* regexp_compile_data);

	LocalVariable* instantiator() const { return instantiator_; }
	void set_instantiator(LocalVariable* instantiator) {
	ASSERT(instantiator != NULL);
	instantiator_ = instantiator;
	}

	LocalVariable* function_type_arguments() const {
	return function_type_arguments_;
	}
	void set_function_type_arguments(LocalVariable* function_type_arguments) {
	ASSERT(function_type_arguments != NULL);
	function_type_arguments_ = function_type_arguments;
	}
	LocalVariable* parent_type_arguments() const {
	return parent_type_arguments_;
	}
	void set_parent_type_arguments(LocalVariable* parent_type_arguments) {
	ASSERT(parent_type_arguments != NULL);
	parent_type_arguments_ = parent_type_arguments;
	}

	void set_default_parameter_values(ZoneGrowableArray<const Instance> list) {
	default_parameter_values_ = list;
	#if defined(DEBUG)
	if (list == NULL) return;
	for (intptr_t i = 0; i < list->length(); i++) {
	ASSERT(list->At(i)->IsZoneHandle() \|\| list->At(i)->InVMHeap());
	}
	#endif
	}

	const Instance& DefaultParameterValueAt(intptr_t i) const {
	ASSERT(default_parameter_values_ != NULL);
	return *default_parameter_values_->At(i);
	}

	ZoneGrowableArray<const Instance> default_parameter_values() const {
	return default_parameter_values_;
	}

	LocalVariable* current_context_var() const { return current_context_var_; }

	bool has_arg_desc_var() const { return arg_desc_var_ != NULL; }
	LocalVariable* arg_desc_var() const { return arg_desc_var_; }

	LocalVariable* expression_temp_var() const {
	ASSERT(has_expression_temp_var());
	return expression_temp_var_;
	}
	void set_expression_temp_var(LocalVariable* value) {
	ASSERT(!has_expression_temp_var());
	expression_temp_var_ = value;
	}
	bool has_expression_temp_var() const { return expression_temp_var_ != NULL; }

	LocalVariable* entry_points_temp_var() const {
	ASSERT(has_entry_points_temp_var());
	return entry_points_temp_var_;
	}
	void set_entry_points_temp_var(LocalVariable* value) {
	ASSERT(!has_entry_points_temp_var());
	entry_points_temp_var_ = value;
	}
	bool has_entry_points_temp_var() const {
	return entry_points_temp_var_ != NULL;
	}

	LocalVariable* finally_return_temp_var() const {
	ASSERT(has_finally_return_temp_var());
	return finally_return_temp_var_;
	}
	void set_finally_return_temp_var(LocalVariable* value) {
	ASSERT(!has_finally_return_temp_var());
	finally_return_temp_var_ = value;
	}
	bool has_finally_return_temp_var() const {
	return finally_return_temp_var_ != NULL;
	}
	void EnsureFinallyReturnTemp(bool is_async);

	LocalVariable* EnsureExpressionTemp();
	LocalVariable* EnsureEntryPointsTemp();

	bool HasDeferredPrefixes() const { return deferred_prefixes_->length() != 0; }
	ZoneGrowableArray<const LibraryPrefix> deferred_prefixes() const {
	return deferred_prefixes_;
	}
	void AddDeferredPrefix(const LibraryPrefix& prefix);

	ZoneGrowableArray<const Field> guarded_fields() const {
	return guarded_fields_;
	}

	VariableIndex first_parameter_index() const { return first_parameter_index_; }
	int num_stack_locals() const { return num_stack_locals_; }

	void AllocateVariables();
	void AllocateIrregexpVariables(intptr_t num_stack_locals);
	void AllocateBytecodeVariables(intptr_t num_stack_locals);

	void record_await() { have_seen_await_expr_ = true; }
	bool have_seen_await() const { return have_seen_await_expr_; }
	bool is_forwarding_stub() const {
	return forwarding_stub_super_target_ != -1;
	}
	kernel::NameIndex forwarding_stub_super_target() const {
	return forwarding_stub_super_target_;
	}
	void MarkForwardingStub(kernel::NameIndex target) {
	forwarding_stub_super_target_ = target;
	}

	Thread* thread() const { return thread_; }
	Isolate* isolate() const { return thread_->isolate(); }
	Zone* zone() const { return thread_->zone(); }

	// Adds only relevant fields: field must be unique and its guarded_cid()
	// relevant.
	void AddToGuardedFields(const Field* field) const;

	void Bailout(const char* origin, const char* reason) const;

	kernel::ScopeBuildingResult* EnsureKernelScopes();

	LocalVariable* RawTypeArgumentsVariable() const {
	return raw_type_arguments_var_;
	}

	void SetRawTypeArgumentsVariable(LocalVariable* raw_type_arguments_var) {
	raw_type_arguments_var_ = raw_type_arguments_var;
	}

	void SetRawParameters(ZoneGrowableArray<LocalVariable> raw_parameters) {
	raw_parameters_ = raw_parameters;
	}

	LocalVariable* RawParameterVariable(intptr_t i) const {
	return raw_parameters_->At(i);
	}

	private:
	Thread* thread_;
	const Function& function_;
	Code& code_;
	SequenceNode* node_sequence_;
	RegExpCompileData* regexp_compile_data_;
	LocalVariable* instantiator_;
	LocalVariable* function_type_arguments_;
	LocalVariable* parent_type_arguments_;
	LocalVariable* current_context_var_;
	LocalVariable* arg_desc_var_;
	LocalVariable* expression_temp_var_;
	LocalVariable* entry_points_temp_var_;
	LocalVariable* finally_return_temp_var_;
	ZoneGrowableArray<const LibraryPrefix> deferred_prefixes_;
	ZoneGrowableArray<const Field> guarded_fields_;
	ZoneGrowableArray<const Instance> default_parameter_values_;

	LocalVariable* raw_type_arguments_var_;
	ZoneGrowableArray<LocalVariable> raw_parameters_ = nullptr;

	VariableIndex first_parameter_index_;
	int num_stack_locals_;
	bool have_seen_await_expr_;

	kernel::NameIndex forwarding_stub_super_target_;
	kernel::ScopeBuildingResult* kernel_scopes_;

	friend class Parser;
	DISALLOW_COPY_AND_ASSIGN(ParsedFunction);
	};

	class Parser : public ValueObject {
	public:
	// Parse a function to retrieve parameter information that is not retained in
	// the Function object. Returns either an error if the parse fails (which
	// could be the case for local functions), or a flat array of entries for each
	// parameter. Each parameter entry contains: * a Dart bool indicating whether
	// the parameter was declared final * its default value (or null if none was
	// declared) * an array of metadata (or null if no metadata was declared).
	enum {
	kParameterIsFinalOffset,
	kParameterDefaultValueOffset,
	kParameterMetadataOffset,
	kParameterEntrySize,
	};

	private:
	DISALLOW_COPY_AND_ASSIGN(Parser);
	};

	} // namespace dart

	#endif // RUNTIME_VM_PARSER_H_