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// 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 VM_PARSER_H_
#define VM_PARSER_H_
#include "include/dart_api.h"
#include "platform/assert.h"
#include "platform/globals.h"
#include "lib/invocation_mirror.h"
#include "vm/allocation.h"
#include "vm/ast.h"
#include "vm/class_finalizer.h"
#include "vm/compiler_stats.h"
#include "vm/object.h"
#include "vm/raw_object.h"
#include "vm/token.h"
namespace dart {
// Forward declarations.
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;
// The class ParsedFunction holds the result of parsing a function.
class ParsedFunction : public ZoneAllocated {
public:
ParsedFunction(Thread* thread, const Function& function)
: thread_(thread),
function_(function),
code_(Code::Handle(zone(), function.unoptimized_code())),
node_sequence_(NULL),
regexp_compile_data_(NULL),
instantiator_(NULL),
current_context_var_(NULL),
expression_temp_var_(NULL),
finally_return_temp_var_(NULL),
deferred_prefixes_(new ZoneGrowableArray<const LibraryPrefix*>()),
guarded_fields_(new ZoneGrowableArray<const Field*>()),
default_parameter_values_(NULL),
first_parameter_index_(0),
first_stack_local_index_(0),
num_copied_params_(0),
num_stack_locals_(0),
have_seen_await_expr_(false) {
ASSERT(function.IsZoneHandle());
// Every function has a local variable for the current context.
LocalVariable* temp = new(zone()) LocalVariable(
function.token_pos(),
Symbols::CurrentContextVar(),
Type::ZoneHandle(zone(), Type::DynamicType()));
ASSERT(temp != NULL);
current_context_var_ = temp;
}
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) {
// May be NULL.
instantiator_ = instantiator;
}
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_;
}
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* 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();
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_;
}
int first_parameter_index() const { return first_parameter_index_; }
int first_stack_local_index() const { return first_stack_local_index_; }
int num_copied_params() const { return num_copied_params_; }
int num_stack_locals() const { return num_stack_locals_; }
int num_non_copied_params() const {
return (num_copied_params_ == 0)
? function().num_fixed_parameters() : 0;
}
void AllocateVariables();
void AllocateIrregexpVariables(intptr_t num_stack_locals);
void record_await() { have_seen_await_expr_ = true; }
bool have_seen_await() const { return have_seen_await_expr_; }
Thread* thread() const { return thread_; }
Isolate* isolate() const { return thread_->isolate(); }
Zone* zone() const { return thread_->zone(); }
private:
Thread* thread_;
const Function& function_;
Code& code_;
SequenceNode* node_sequence_;
RegExpCompileData* regexp_compile_data_;
LocalVariable* instantiator_;
LocalVariable* current_context_var_;
LocalVariable* expression_temp_var_;
LocalVariable* finally_return_temp_var_;
ZoneGrowableArray<const LibraryPrefix*>* deferred_prefixes_;
ZoneGrowableArray<const Field*>* guarded_fields_;
ZoneGrowableArray<const Instance*>* default_parameter_values_;
int first_parameter_index_;
int first_stack_local_index_;
int num_copied_params_;
int num_stack_locals_;
bool have_seen_await_expr_;
friend class Parser;
DISALLOW_COPY_AND_ASSIGN(ParsedFunction);
};
class Parser : public ValueObject {
public:
// Parse the top level of a whole script file and register declared classes
// in the given library.
static void ParseCompilationUnit(const Library& library,
const Script& script);
// Parse top level of a class and register all functions/fields.
static void ParseClass(const Class& cls);
static void ParseFunction(ParsedFunction* parsed_function);
// Parse and evaluate the metadata expressions at token_pos in the
// class namespace of class cls (which can be the implicit toplevel
// class if the metadata is at the top-level).
static RawObject* ParseMetadata(const Class& cls, intptr_t token_pos);
// Build a function containing the initializer expression of the
// given static field.
static ParsedFunction* ParseStaticFieldInitializer(const Field& field);
// Parse a function to retrieve parameter information that is not retained in
// the dart::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,
};
static RawObject* ParseFunctionParameters(const Function& func);
private:
friend class EffectGraphVisitor; // For BuildNoSuchMethodArguments.
struct Block;
class TryStack;
Parser(const Script& script, const Library& library, intptr_t token_pos);
Parser(const Script& script, ParsedFunction* function, intptr_t token_pos);
~Parser();
// The function for which we will generate code.
const Function& current_function() const;
// The innermost function being parsed.
const Function& innermost_function() const;
// Note that a local function may be parsed multiple times. It is first parsed
// when its outermost enclosing function is being parsed. It is then parsed
// again when an enclosing function calls this local function or calls
// another local function enclosing it. Code for the local function will only
// be generated the last time the local function is parsed, i.e. when it is
// invoked. For example, a local function nested in another local function,
// itself nested in a static function, is parsed 3 times (unless it does not
// end up being invoked).
// Now, current_function() always points to the outermost function being
// compiled (i.e. the function that is being invoked), and is not updated
// while parsing a nested function of that outermost function.
// Therefore, the statements being parsed may or may not belong to the body
// of the current_function(); they may belong to nested functions.
// innermost_function() is the function that is currently being parsed.
// It is either the same as current_function(), or a lexically nested
// function.
// The function level of the current parsing scope reflects the function
// nesting. The function level is zero while parsing the body of the
// current_function(), but is greater than zero while parsing the body of
// local functions nested in current_function().
// The class being parsed.
const Class& current_class() const;
void set_current_class(const Class& value);
// ParsedFunction accessor.
ParsedFunction* parsed_function() const {
return parsed_function_;
}
const Script& script() const { return script_; }
void SetScript(const Script& script, intptr_t token_pos);
const Library& library() const { return library_; }
void set_library(const Library& value) const { library_ = value.raw(); }
// Parsing a library or a regular source script.
bool is_library_source() const {
return (script_.kind() == RawScript::kScriptTag) ||
(script_.kind() == RawScript::kLibraryTag);
}
bool is_part_source() const {
return script_.kind() == RawScript::kSourceTag;
}
// Parsing library patch script.
bool is_patch_source() const {
return script_.kind() == RawScript::kPatchTag;
}
intptr_t TokenPos() const { return tokens_iterator_.CurrentPosition(); }
Token::Kind CurrentToken() {
if (token_kind_ == Token::kILLEGAL) {
ComputeCurrentToken();
}
return token_kind_;
}
void ComputeCurrentToken();
RawLibraryPrefix* ParsePrefix();
Token::Kind LookaheadToken(int num_tokens);
String* CurrentLiteral() const;
RawDouble* CurrentDoubleLiteral() const;
RawInteger* CurrentIntegerLiteral() const;
// Sets parser to given token position in the stream.
void SetPosition(intptr_t position);
void ConsumeToken() {
// Reset cache and advance the token.
token_kind_ = Token::kILLEGAL;
tokens_iterator_.Advance();
INC_STAT(thread(), num_tokens_consumed, 1);
}
void ConsumeRightAngleBracket();
void CheckToken(Token::Kind token_expected, const char* msg = NULL);
void ExpectToken(Token::Kind token_expected);
void ExpectSemicolon();
void UnexpectedToken();
String* ExpectUserDefinedTypeIdentifier(const char* msg);
String* ExpectIdentifier(const char* msg);
bool IsAwaitKeyword();
bool IsYieldKeyword();
void SkipIf(Token::Kind);
void SkipToMatching();
void SkipToMatchingParenthesis();
void SkipBlock();
intptr_t SkipMetadata();
void SkipTypeArguments();
void SkipType(bool allow_void);
void SkipInitializers();
void SkipExpr();
void SkipNestedExpr();
void SkipConditionalExpr();
void SkipBinaryExpr();
void SkipUnaryExpr();
void SkipPostfixExpr();
void SkipSelectors();
void SkipPrimary();
void SkipCompoundLiteral();
void SkipSymbolLiteral();
void SkipNewOperator();
void SkipActualParameters();
void SkipMapLiteral();
void SkipListLiteral();
void SkipFunctionLiteral();
void SkipStringLiteral();
void SkipQualIdent();
void SkipFunctionPreamble();
AstNode* DartPrint(const char* str);
void CheckConstructorCallTypeArguments(intptr_t pos,
const Function& constructor,
const TypeArguments& type_arguments);
// Report already formatted error.
static void ReportError(const Error& error);
// Concatenate and report an already formatted error and a new error message.
static void ReportErrors(const Error& prev_error,
const Script& script, intptr_t token_pos,
const char* format, ...) PRINTF_ATTRIBUTE(4, 5);
// Report error message at location of current token in current script.
void ReportError(const char* msg, ...) const PRINTF_ATTRIBUTE(2, 3);
// Report error message at given location in current script.
void ReportError(intptr_t token_pos,
const char* msg, ...) const PRINTF_ATTRIBUTE(3, 4);
// Report warning message at location of current token in current script.
void ReportWarning(const char* msg, ...) const PRINTF_ATTRIBUTE(2, 3);
// Report warning message at given location in current script.
void ReportWarning(intptr_t token_pos,
const char* msg, ...) const PRINTF_ATTRIBUTE(3, 4);
void CheckRecursiveInvocation();
const Instance& EvaluateConstExpr(intptr_t expr_pos, AstNode* expr);
StaticGetterNode* RunStaticFieldInitializer(const Field& field,
intptr_t field_ref_pos);
RawObject* EvaluateConstConstructorCall(const Class& type_class,
const TypeArguments& type_arguments,
const Function& constructor,
ArgumentListNode* arguments);
LiteralNode* FoldConstExpr(intptr_t expr_pos, AstNode* expr);
// Support for parsing of scripts.
void ParseTopLevel();
void ParseEnumDeclaration(const GrowableObjectArray& pending_classes,
const Class& toplevel_class,
intptr_t metadata_pos);
void ParseEnumDefinition(const Class& cls);
void ParseClassDeclaration(const GrowableObjectArray& pending_classes,
const Class& toplevel_class,
intptr_t metadata_pos);
void ParseClassDefinition(const Class& cls);
void ParseMixinAppAlias(const GrowableObjectArray& pending_classes,
const Class& toplevel_class,
intptr_t metadata_pos);
void ParseTypedef(const GrowableObjectArray& pending_classes,
const Class& toplevel_class,
intptr_t metadata_pos);
void ParseTopLevelVariable(TopLevel* top_level, intptr_t metadata_pos);
void ParseTopLevelFunction(TopLevel* top_level, intptr_t metadata_pos);
void ParseTopLevelAccessor(TopLevel* top_level, intptr_t metadata_pos);
RawArray* EvaluateMetadata();
RawFunction::AsyncModifier ParseFunctionModifier();
// Support for parsing libraries.
RawObject* CallLibraryTagHandler(Dart_LibraryTag tag,
intptr_t token_pos,
const String& url);
void ParseIdentList(GrowableObjectArray* names);
void ParseLibraryDefinition();
void ParseLibraryName();
void ParseLibraryImportExport(intptr_t metadata_pos);
void ParseLibraryPart();
void ParsePartHeader();
void ParseLibraryNameObsoleteSyntax();
void ParseLibraryImportObsoleteSyntax();
void ParseLibraryIncludeObsoleteSyntax();
void ResolveTypeFromClass(const Class& cls,
ClassFinalizer::FinalizationKind finalization,
AbstractType* type);
RawAbstractType* ParseType(ClassFinalizer::FinalizationKind finalization,
bool allow_deferred_type = false,
bool consume_unresolved_prefix = true);
RawAbstractType* ParseType(
ClassFinalizer::FinalizationKind finalization,
bool allow_deferred_type,
bool consume_unresolved_prefix,
LibraryPrefix* prefix);
void ParseTypeParameters(const Class& cls);
RawTypeArguments* ParseTypeArguments(
ClassFinalizer::FinalizationKind finalization);
void ParseMethodOrConstructor(ClassDesc* members, MemberDesc* method);
void ParseFieldDefinition(ClassDesc* members, MemberDesc* field);
void CheckMemberNameConflict(ClassDesc* members, MemberDesc* member);
void ParseClassMemberDefinition(ClassDesc* members,
intptr_t metadata_pos);
void ParseFormalParameter(bool allow_explicit_default_value,
bool evaluate_metadata,
ParamList* params);
void ParseFormalParameters(bool allow_explicit_default_values,
bool evaluate_metadata,
ParamList* params);
void ParseFormalParameterList(bool allow_explicit_default_values,
bool evaluate_metadata,
ParamList* params);
void CheckFieldsInitialized(const Class& cls);
void AddImplicitConstructor(const Class& cls);
void CheckConstructors(ClassDesc* members);
AstNode* ParseExternalInitializedField(const Field& field);
void ParseInitializedInstanceFields(
const Class& cls,
LocalVariable* receiver,
GrowableArray<Field*>* initialized_fields);
AstNode* CheckDuplicateFieldInit(
intptr_t init_pos,
GrowableArray<Field*>* initialized_fields,
AstNode* instance,
Field* field,
AstNode* init_value);
StaticCallNode* GenerateSuperConstructorCall(
const Class& cls,
intptr_t supercall_pos,
LocalVariable* receiver,
AstNode* phase_parameter,
ArgumentListNode* forwarding_args);
StaticCallNode* ParseSuperInitializer(
const Class& cls,
LocalVariable* receiver);
AstNode* ParseInitializer(const Class& cls,
LocalVariable* receiver,
GrowableArray<Field*>* initialized_fields);
void ParseConstructorRedirection(const Class& cls, LocalVariable* receiver);
void ParseInitializers(const Class& cls,
LocalVariable* receiver,
GrowableArray<Field*>* initialized_fields);
String& ParseNativeDeclaration();
void ParseInterfaceList(const Class& cls);
RawAbstractType* ParseMixins(const AbstractType& super_type);
static StaticCallNode* BuildInvocationMirrorAllocation(
intptr_t call_pos,
const String& function_name,
const ArgumentListNode& function_args,
const LocalVariable* temp,
bool is_super_invocation);
// Build arguments for a NoSuchMethodCall. If LocalVariable temp is not NULL,
// the last argument is stored in temp.
static ArgumentListNode* BuildNoSuchMethodArguments(
intptr_t call_pos,
const String& function_name,
const ArgumentListNode& function_args,
const LocalVariable* temp,
bool is_super_invocation);
RawFunction* GetSuperFunction(intptr_t token_pos,
const String& name,
ArgumentListNode* arguments,
bool resolve_getter,
bool* is_no_such_method);
AstNode* ParseSuperCall(const String& function_name);
AstNode* ParseSuperFieldAccess(const String& field_name, intptr_t field_pos);
AstNode* ParseSuperOperator();
AstNode* BuildUnarySuperOperator(Token::Kind op, PrimaryNode* super);
static bool ParseFormalParameters(const Function& func, ParamList* params);
void SetupDefaultsForOptionalParams(const ParamList& params);
ClosureNode* CreateImplicitClosureNode(const Function& func,
intptr_t token_pos,
AstNode* receiver);
static void AddFormalParamsToFunction(const ParamList* params,
const Function& func);
void AddFormalParamsToScope(const ParamList* params, LocalScope* scope);
SequenceNode* ParseConstructor(const Function& func);
SequenceNode* ParseFunc(const Function& func);
void ParseNativeFunctionBlock(const ParamList* params, const Function& func);
SequenceNode* ParseInstanceGetter(const Function& func);
SequenceNode* ParseInstanceSetter(const Function& func);
SequenceNode* ParseStaticFinalGetter(const Function& func);
SequenceNode* ParseStaticInitializer();
SequenceNode* ParseMethodExtractor(const Function& func);
SequenceNode* ParseNoSuchMethodDispatcher(const Function& func);
SequenceNode* ParseInvokeFieldDispatcher(const Function& func);
SequenceNode* ParseImplicitClosure(const Function& func);
SequenceNode* ParseConstructorClosure(const Function& func);
void BuildDispatcherScope(const Function& func,
const ArgumentsDescriptor& desc);
void EnsureHasReturnStatement(SequenceNode* seq, intptr_t return_pos);
void ChainNewBlock(LocalScope* outer_scope);
void OpenBlock();
void OpenLoopBlock();
void OpenFunctionBlock(const Function& func);
void OpenAsyncClosure();
RawFunction* OpenAsyncFunction(intptr_t formal_param_pos);
RawFunction* OpenSyncGeneratorFunction(intptr_t func_pos);
SequenceNode* CloseSyncGenFunction(const Function& closure,
SequenceNode* closure_node);
void AddSyncGenClosureParameters(ParamList* params);
void AddAsyncGenClosureParameters(ParamList* params);
// Support for async* functions.
RawFunction* OpenAsyncGeneratorFunction(intptr_t func_pos);
SequenceNode* CloseAsyncGeneratorFunction(const Function& closure,
SequenceNode* closure_node);
void OpenAsyncGeneratorClosure();
SequenceNode* CloseAsyncGeneratorClosure(SequenceNode* body);
void OpenAsyncTryBlock();
SequenceNode* CloseBlock();
SequenceNode* CloseAsyncFunction(const Function& closure,
SequenceNode* closure_node);
SequenceNode* CloseAsyncClosure(SequenceNode* body);
SequenceNode* CloseAsyncTryBlock(SequenceNode* try_block);
SequenceNode* CloseAsyncGeneratorTryBlock(SequenceNode *body);
void AddAsyncClosureParameters(ParamList* params);
void AddContinuationVariables();
void AddAsyncClosureVariables();
void AddAsyncGeneratorVariables();
LocalVariable* LookupPhaseParameter();
LocalVariable* LookupReceiver(LocalScope* from_scope, bool test_only);
LocalVariable* LookupTypeArgumentsParameter(LocalScope* from_scope,
bool test_only);
void CaptureInstantiator();
AstNode* LoadReceiver(intptr_t token_pos);
AstNode* LoadFieldIfUnresolved(AstNode* node);
AstNode* LoadClosure(PrimaryNode* primary);
InstanceGetterNode* CallGetter(intptr_t token_pos,
AstNode* object,
const String& name);
AstNode* ParseAssertStatement();
AstNode* ParseJump(String* label_name);
AstNode* ParseIfStatement(String* label_name);
AstNode* ParseWhileStatement(String* label_name);
AstNode* ParseDoWhileStatement(String* label_name);
AstNode* ParseForStatement(String* label_name);
AstNode* ParseAwaitForStatement(String* label_name);
AstNode* ParseForInStatement(intptr_t forin_pos, SourceLabel* label);
RawClass* CheckCaseExpressions(const GrowableArray<LiteralNode*>& values);
CaseNode* ParseCaseClause(LocalVariable* switch_expr_value,
GrowableArray<LiteralNode*>* case_expr_values,
SourceLabel* case_label);
AstNode* ParseSwitchStatement(String* label_name);
// try/catch/finally parsing.
void AddCatchParamsToScope(CatchParamDesc* exception_param,
CatchParamDesc* stack_trace_param,
LocalScope* scope);
void SetupExceptionVariables(LocalScope* try_scope,
bool is_async,
LocalVariable** context_var,
LocalVariable** exception_var,
LocalVariable** stack_trace_var,
LocalVariable** saved_exception_var,
LocalVariable** saved_stack_trace_var);
void SaveExceptionAndStacktrace(SequenceNode* statements,
LocalVariable* exception_var,
LocalVariable* stack_trace_var,
LocalVariable* saved_exception_var,
LocalVariable* saved_stack_trace_var);
// Parse all the catch clause of a try.
SequenceNode* ParseCatchClauses(intptr_t handler_pos,
bool is_async,
LocalVariable* exception_var,
LocalVariable* stack_trace_var,
LocalVariable* rethrow_exception_var,
LocalVariable* rethrow_stack_trace_var,
const GrowableObjectArray& handler_types,
bool* needs_stack_trace);
// Parse or generate a finally clause.
SequenceNode* EnsureFinallyClause(bool parse,
bool is_async,
LocalVariable* exception_var,
LocalVariable* stack_trace_var,
LocalVariable* rethrow_exception_var,
LocalVariable* rethrow_stack_trace_var);
// Push try block onto the stack of try blocks in scope.
void PushTry(Block* try_block);
// Pop the inner most try block from the stack.
TryStack* PopTry();
// Collect saved try context variables if await or yield is in try block.
void CheckAsyncOpInTryBlock(
LocalVariable** saved_try_ctx,
LocalVariable** async_saved_try_ctx,
LocalVariable** outer_saved_try_ctx,
LocalVariable** outer_async_saved_try_ctx) const;
// Add specified node to try block list so that it can be patched with
// inlined finally code if needed.
void AddNodeForFinallyInlining(AstNode* node);
// Add the inlined finally clause to the specified node.
void AddFinallyClauseToNode(bool is_async,
AstNode* node,
InlinedFinallyNode* finally_clause);
AstNode* ParseTryStatement(String* label_name);
RawAbstractType* ParseConstFinalVarOrType(
ClassFinalizer::FinalizationKind finalization);
AstNode* ParseVariableDeclaration(const AbstractType& type,
bool is_final,
bool is_const,
SequenceNode** await_preamble);
AstNode* ParseVariableDeclarationList();
AstNode* ParseFunctionStatement(bool is_literal);
AstNode* ParseYieldStatement();
AstNode* ParseStatement();
SequenceNode* ParseNestedStatement(bool parsing_loop_body,
SourceLabel* label);
void ParseStatementSequence();
bool IsIdentifier();
bool IsSymbol(const String& symbol);
bool IsSimpleLiteral(const AbstractType& type, Instance* value);
bool IsFunctionTypeAliasName();
bool IsMixinAppAlias();
bool TryParseQualIdent();
bool TryParseTypeParameters();
bool TryParseOptionalType();
bool TryParseReturnType();
bool IsVariableDeclaration();
bool IsFunctionDeclaration();
bool IsFunctionLiteral();
bool IsForInStatement();
bool IsTopLevelAccessor();
AstNode* ParseBinaryExpr(int min_preced);
LiteralNode* ParseConstExpr();
static const bool kRequireConst = true;
static const bool kAllowConst = false;
static const bool kConsumeCascades = true;
static const bool kNoCascades = false;
AstNode* ParseAwaitableExpr(bool require_compiletime_const,
bool consume_cascades,
SequenceNode** await_preamble);
AstNode* ParseExpr(bool require_compiletime_const, bool consume_cascades);
AstNode* ParseAwaitableExprList();
AstNode* ParseConditionalExpr();
AstNode* ParseUnaryExpr();
AstNode* ParsePostfixExpr();
AstNode* ParseSelectors(AstNode* primary, bool is_cascade);
AstNode* ParseClosurization(AstNode* primary);
AstNode* ParseCascades(AstNode* expr);
AstNode* ParsePrimary();
AstNode* ParseStringLiteral(bool allow_interpolation);
String* ParseImportStringLiteral();
AstNode* ParseCompoundLiteral();
AstNode* ParseSymbolLiteral();
AstNode* ParseListLiteral(intptr_t type_pos,
bool is_const,
const TypeArguments& type_arguments);
AstNode* ParseMapLiteral(intptr_t type_pos,
bool is_const,
const TypeArguments& type_arguments);
RawFunction* BuildConstructorClosureFunction(const Function& ctr,
intptr_t token_pos);
AstNode* ParseNewOperator(Token::Kind op_kind);
void ParseConstructorClosurization(Function* constructor,
TypeArguments* type_arguments);
// An implicit argument, if non-null, is prepended to the returned list.
ArgumentListNode* ParseActualParameters(ArgumentListNode* implicit_arguments,
bool require_const);
AstNode* ParseStaticCall(const Class& cls,
const String& method_name,
intptr_t ident_pos);
AstNode* ParseInstanceCall(AstNode* receiver,
const String& method_name,
intptr_t ident_pos,
bool is_conditional);
AstNode* ParseClosureCall(AstNode* closure);
AstNode* GenerateStaticFieldLookup(const Field& field,
intptr_t ident_pos);
AstNode* GenerateStaticFieldAccess(const Class& cls,
const String& field_name,
intptr_t ident_pos);
LocalVariable* LookupLocalScope(const String& ident);
void CheckInstanceFieldAccess(intptr_t field_pos, const String& field_name);
bool ParsingStaticMember() const;
const AbstractType* ReceiverType(const Class& cls);
bool IsInstantiatorRequired() const;
bool ResolveIdentInLocalScope(intptr_t ident_pos,
const String &ident,
AstNode** node);
static const bool kResolveLocally = true;
static const bool kResolveIncludingImports = false;
// Resolve a primary identifier in the library or prefix scope and
// generate the corresponding AstNode.
AstNode* ResolveIdentInCurrentLibraryScope(intptr_t ident_pos,
const String& ident);
AstNode* ResolveIdentInPrefixScope(intptr_t ident_pos,
const LibraryPrefix& prefix,
const String& ident);
AstNode* ResolveIdent(intptr_t ident_pos,
const String& ident,
bool allow_closure_names);
RawString* ResolveImportVar(intptr_t ident_pos, const String& ident);
AstNode* OptimizeBinaryOpNode(intptr_t op_pos,
Token::Kind binary_op,
AstNode* lhs,
AstNode* rhs);
AstNode* ExpandAssignableOp(intptr_t op_pos,
Token::Kind assignment_op,
AstNode* lhs,
AstNode* rhs);
LetNode* PrepareCompoundAssignmentNodes(AstNode** expr);
LocalVariable* CreateTempConstVariable(intptr_t token_pos, const char* s);
static SequenceNode* NodeAsSequenceNode(intptr_t sequence_pos,
AstNode* node,
LocalScope* scope);
SequenceNode* MakeImplicitConstructor(const Function& func);
AstNode* MakeStaticCall(const String& cls_name,
const String& func_name,
ArgumentListNode* arguments);
String& Interpolate(const GrowableArray<AstNode*>& values);
AstNode* MakeAssertCall(intptr_t begin, intptr_t end);
AstNode* ThrowTypeError(intptr_t type_pos, const AbstractType& type,
LibraryPrefix* prefix = NULL);
AstNode* ThrowNoSuchMethodError(intptr_t call_pos,
const Class& cls,
const String& function_name,
ArgumentListNode* function_arguments,
InvocationMirror::Call call,
InvocationMirror::Type type,
const Function* func,
const LibraryPrefix* prefix = NULL);
void SetupSavedTryContext(LocalVariable* saved_try_context);
void CheckOperatorArity(const MemberDesc& member);
void EnsureExpressionTemp();
bool IsLegalAssignableSyntax(AstNode* expr, intptr_t end_pos);
AstNode* CreateAssignmentNode(AstNode* original,
AstNode* rhs,
const String* left_ident,
intptr_t left_pos,
bool is_compound = false);
AstNode* InsertClosureCallNodes(AstNode* condition);
ConstructorCallNode* CreateConstructorCallNode(
intptr_t token_pos,
const TypeArguments& type_arguments,
const Function& constructor,
ArgumentListNode* arguments);
void AddEqualityNullCheck();
AstNode* BuildClosureCall(intptr_t token_pos,
AstNode* closure,
ArgumentListNode* arguments);
RawInstance* TryCanonicalize(const Instance& instance, intptr_t token_pos);
void CacheConstantValue(intptr_t token_pos, const Instance& value);
bool GetCachedConstant(intptr_t token_pos, Instance* value);
Thread* thread() const { return thread_; }
Isolate* isolate() const { return isolate_; }
Zone* zone() const { return thread_->zone(); }
Isolate* isolate_; // Cached current isolate.
Thread* thread_;
Script& script_;
TokenStream::Iterator tokens_iterator_;
Token::Kind token_kind_; // Cached token kind for current token.
Block* current_block_;
// is_top_level_ is true if parsing the "top level" of a compilation unit,
// that is class definitions, function type aliases, global functions,
// global variables.
bool is_top_level_;
// await_is_keyword_ is true if we are parsing an async or generator
// function. In this context the identifiers await, async and yield
// are treated as keywords.
bool await_is_keyword_;
// The member currently being parsed during "top level" parsing.
MemberDesc* current_member_;
// Parser mode to allow/disallow function literals. This is used in
// constructor initializer expressions to handle ambiguous grammar.
bool SetAllowFunctionLiterals(bool value);
bool allow_function_literals_;
// The function currently being compiled.
ParsedFunction* parsed_function_;
// The function currently being parsed.
Function& innermost_function_;
// Current literal token.
LiteralToken& literal_token_;
// The class currently being parsed, or the owner class of the
// function currently being parsed. It is used for primary identifier lookups.
Class& current_class_;
// The current library (and thus class dictionary) used to resolve names.
// When parsing a function, this is the library in which the function
// is defined. This can be the library in which the current_class_ is
// defined, or the library of a mixin class where the function originates.
Library& library_;
// Stack of try blocks in scope, this is used to generate inlined finally
// code at all points in the try block where an exit from the block is
// done using 'return', 'break' or 'continue' statements.
TryStack* try_stack_;
// Each try in this function gets its own try index.
int16_t AllocateTryIndex();
int16_t last_used_try_index_;
bool unregister_pending_function_;
LocalScope* async_temp_scope_;
// Indentation of parser trace.
intptr_t trace_indent_;
DISALLOW_COPY_AND_ASSIGN(Parser);
};
} // namespace dart
#endif // VM_PARSER_H_