comma::TypeCheck Class Reference

#include <TypeCheck.h>

Inheritance diagram for comma::TypeCheck:

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Collaboration diagram for comma::TypeCheck:

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List of all members.

Classes
struct	NodeCaster
struct	NodeLifter
struct	SVImpl
Public Member Functions
	TypeCheck (Diagnostic &diag, AstResource &resource, CompilationUnit *cunit)
	~TypeCheck ()
ParseClient Requirements.
Declaration of the ParseClient interface. See also: ParseClient.
void	beginCapsule ()
void	endCapsule ()
void	beginGenericFormals ()
void	endGenericFormals ()
void	acceptFormalDomain (IdentifierInfo *name, Location loc, Node sig)
void	beginDomainDecl (IdentifierInfo *name, Location loc)
void	beginSignatureDecl (IdentifierInfo *name, Location loc)
void	beginSignatureProfile ()
void	endSignatureProfile ()
void	acceptSupersignature (Node typeNode)
	Called for each super signature defined in a signature profile.
void	beginAddExpression ()
void	endAddExpression ()
	Completes an add expression.
void	acceptCarrier (IdentifierInfo *name, Location loc, Node typeNode)
	Invoked when the parser consumes a carrier declaration.
void	beginFunctionDeclaration (IdentifierInfo *name, Location loc)
void	beginProcedureDeclaration (IdentifierInfo *name, Location loc)
void	acceptSubroutineParameter (IdentifierInfo *formal, Location loc, Node typeNode, PM::ParameterMode mode)
void	acceptFunctionReturnType (Node typeNode)
Node	endSubroutineDeclaration (bool definitionFollows)
Node	beginSubroutineDefinition (Node declarationNode)
void	endSubroutineBody (Node contextNode)
void	endSubroutineDefinition ()
Node	acceptDirectName (IdentifierInfo *name, Location loc, bool forStatement)
Node	acceptCharacterLiteral (IdentifierInfo *lit, Location loc)
Node	acceptSelectedComponent (Node prefix, IdentifierInfo *name, Location loc, bool forStatement)
Node	acceptParameterAssociation (IdentifierInfo *key, Location loc, Node rhs)
Node	acceptApplication (Node prefix, NodeVector &argNodes)
Node	acceptAttribute (Node prefix, IdentifierInfo *name, Location loc)
Node	finishName (Node name)
void	beginAggregate (Location loc)
void	acceptPositionalAggregateComponent (Node component)
	Provides a Node describing a positional component of the aggregate.
Node	acceptAggregateKey (Node lower, Node upper)
	Called to indicate an aggregate key in the form of a range.
Node	acceptAggregateKey (IdentifierInfo *name, Location loc)
	Called to indicate an aggregate key consisting of a single identifier.
Node	acceptAggregateKey (Node key)
void	acceptKeyedAggregateComponent (NodeVector &keys, Node expr, Location loc)
void	acceptAggregateOthers (Location loc, Node component)
Node	endAggregate ()
Node	beginForStmt (Location loc, IdentifierInfo *iterName, Location iterLoc, Node control, bool isReversed)
Node	endForStmt (Node forNode, NodeVector &bodyNodes)
Node	acceptDSTDefinition (Node name, Node lower, Node upper)
Node	acceptDSTDefinition (Node nameOrAttribute, bool isUnconstrained)
Node	acceptDSTDefinition (Node lower, Node upper)
bool	acceptObjectDeclaration (Location loc, IdentifierInfo *name, Node type, Node initializer)
bool	acceptRenamedObjectDeclaration (Location loc, IdentifierInfo *name, Node type, Node target)
void	acceptDeclarationInitializer (Node declNode, Node initializer)
Node	acceptPercent (Location loc)
bool	acceptImportDeclaration (Node importedType)
	Submits an import from the given type node.
Node	acceptProcedureCall (Node name)
Node	acceptInj (Location loc, Node expr)
Node	acceptPrj (Location loc, Node expr)
Node	acceptIntegerLiteral (llvm::APInt &value, Location loc)
Node	acceptStringLiteral (const char *string, unsigned len, Location loc)
Node	acceptNullExpr (Location loc)
Node	acceptAllocatorExpr (Node operand, Location loc)
Node	acceptQualifiedExpr (Node qualifier, Node operand)
Node	acceptDereference (Node prefix, Location loc)
Node	acceptIfStmt (Location loc, Node condition, NodeVector &consequents)
Node	acceptElseStmt (Location loc, Node ifNode, NodeVector &alternates)
Node	acceptElsifStmt (Location loc, Node ifNode, Node condition, NodeVector &consequents)
Node	acceptEmptyReturnStmt (Location loc)
Node	acceptReturnStmt (Location loc, Node retNode)
Node	acceptAssignmentStmt (Node target, Node value)
Node	beginBlockStmt (Location loc, IdentifierInfo *label=0)
	Called when a block statement is about to be parsed.
void	endBlockStmt (Node block)
Node	beginHandlerStmt (Location loc, NodeVector &choices)
void	endHandlerStmt (Node context, Node handler)
Node	acceptNullStmt (Location loc)
	Called to notify the client of a null statement at the given position.
bool	acceptStmt (Node context, Node stmt)
Node	acceptWhileStmt (Location loc, Node condition, NodeVector &stmtNodes)
	Called to inform the client of a while statement.
Node	acceptLoopStmt (Location loc, NodeVector &stmtNodes)
	Called to inform the client of a loop statement.
Node	acceptRaiseStmt (Location loc, Node exception, Node message)
Node	acceptPragmaStmt (IdentifierInfo *name, Location loc, NodeVector &args)
	Called when a pragma is encountered within a sequence of statements.
void	acceptPragmaImport (Location pragmaLoc, IdentifierInfo *convention, Location conventionLoc, IdentifierInfo *entity, Location entityLoc, Node externalNameNode)
void	beginEnumeration (IdentifierInfo *name, Location loc)
void	acceptEnumerationIdentifier (IdentifierInfo *name, Location loc)
void	acceptEnumerationCharacter (IdentifierInfo *name, Location loc)
void	endEnumeration ()
void	acceptIntegerTypeDecl (IdentifierInfo *name, Location loc, Node low, Node high)
void	acceptRangedSubtypeDecl (IdentifierInfo *name, Location loc, Node subtype, Node low, Node high)
void	acceptSubtypeDecl (IdentifierInfo *name, Location loc, Node subtype)
void	acceptIncompleteTypeDecl (IdentifierInfo *name, Location loc)
void	acceptAccessTypeDecl (IdentifierInfo *name, Location loc, Node subtype)
	Called to notify the client of an access type declaration.
void	acceptArrayDecl (IdentifierInfo *name, Location loc, NodeVector indices, Node component)
	Communicates an array type declaration.
void	beginRecord (IdentifierInfo *name, Location loc)
void	acceptRecordComponent (IdentifierInfo *name, Location loc, Node type)
void	endRecord ()
	Completes the definition of a record type.
void	deleteNode (Node &node)
Generic Accessors and Predicates.
bool	checkSuccessful () const
	Returns true if the type checker has not encountered an error and false otherwise.
CompilationUnit *	getCompilationUnit () const
Diagnostic &	getDiagnostic ()
	Returns the Diagnostic object thru which diagnostics are posted.
AstResource &	getAstResource ()
	Returns the AstResource used by the type checker to construct AST nodes.
General Semantic Analysis.
Type *	getCoveringDereference (Type *source, Type *target)
Type *	getCoveringDereference (Type *source, Type::Classification ID)
Expr *	implicitlyDereference (Expr *expr, Type *target)
Expr *	implicitlyDereference (Expr *expr, Type::Classification ID)
Expr *	checkExprInContext (Expr *expr, Type *context)
	Typechecks the given expression in the given type context.
bool	checkExprInContext (Expr *expr, Type::Classification ID)
Expr *	checkExprAndDereferenceInContext (Expr *expr, Type *context)
bool	ensureStaticIntegerExpr (Expr *expr, llvm::APInt &result)
bool	ensureStaticIntegerExpr (Expr *expr)
Expr *	ensureExpr (Node node)
Expr *	ensureExpr (Ast *node)
Ast *	checkDirectName (IdentifierInfo *name, Location loc, bool forStatement)
static bool	conversionRequired (Type *source, Type *target)
static Expr *	convertIfNeeded (Expr *expr, Type *target)
	Wraps the given expression in a ConversionExpr if needed.
static bool	covers (Type *A, Type *B)
	Basic type equality predicate.

---

Detailed Description

Definition at line 35 of file TypeCheck.h.

---

Constructor & Destructor Documentation

TypeCheck::TypeCheck	(	Diagnostic &	diag,
		AstResource &	resource,
		CompilationUnit *	cunit
	)

Definition at line 37 of file TypeCheck.cpp.

TypeCheck::~TypeCheck

(

)

Definition at line 47 of file TypeCheck.cpp.

---

Member Function Documentation

void TypeCheck::acceptAccessTypeDecl	(	IdentifierInfo *	name,
		Location	loc,
		Node	subtype
	)			[virtual]

Called to notify the client of an access type declaration.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 1040 of file TypeCheck.cpp.

Node TypeCheck::acceptAggregateKey

(

Node

key

)

[virtual]

Called to indicate an aggregate key consisting of an expression or subtype indication.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 1018 of file CheckAgg.cpp.

Node TypeCheck::acceptAggregateKey	(	IdentifierInfo *	name,
		Location	loc
	)			[virtual]

Called to indicate an aggregate key consisting of a single identifier.

This callback is provided to support selectors of a record aggregate. Since Comma aggregates cannot be resolved without a type context it is not reasonable to expect a ParseClient implementation to divine the meaning of aggregate keys. This callback allows a client to defer the processing of aggregate keys which may resolve to a record selector or to a direct name until enough context is established.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 1011 of file CheckAgg.cpp.

Node TypeCheck::acceptAggregateKey	(	Node	lower,
		Node	upper
	)			[virtual]

Called to indicate an aggregate key in the form of a range.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 996 of file CheckAgg.cpp.

void TypeCheck::acceptAggregateOthers	(	Location	loc,
		Node	component
	)			[virtual]

Indicates an "others" component. If this callback is invoked, it is always the last component processed by the parser.

Parameters:

	loc	Location of the "others" reserved word.
	component	An expression denoting the default value for this aggregate, or a null node if others => <> was parsed.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 1079 of file CheckAgg.cpp.

Node TypeCheck::acceptAllocatorExpr	(	Node	operand,
		Location	loc
	)			[virtual]

Incoked whten the parser encounters an allocator expression.

Parameters:

	operand	The argument to the allocator. This is either a name or result of acceptQualifiedExpr.
	loc	Location of the "new" reserved word.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 461 of file CheckExpr.cpp.

Node TypeCheck::acceptApplication	(	Node	prefix,
		NodeVector &	argNodes
	)			[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 349 of file CheckName.cpp.

void TypeCheck::acceptArrayDecl	(	IdentifierInfo *	name,
		Location	loc,
		NodeVector	indices,
		Node	component
	)			[virtual]

Communicates an array type declaration.

Parameters:

	name	The name of this array type declaration.
	loc	the location of name.
	indices	A set of nodes defining the index specification for this array, each being the result of a call to acceptDSTDefinition.
	component	The component type of the array declaration.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 933 of file TypeCheck.cpp.

Node TypeCheck::acceptAssignmentStmt	(	Node	target,
		Node	value
	)			[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 85 of file CheckStmt.cpp.

Node TypeCheck::acceptAttribute	(	Node	prefix,
		IdentifierInfo *	name,
		Location	loc
	)			[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 621 of file CheckName.cpp.

void TypeCheck::acceptCarrier	(	IdentifierInfo *	name,
		Location	loc,
		Node	typeNode
	)			[virtual]

Invoked when the parser consumes a carrier declaration.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 273 of file CheckCapsule.cpp.

Node TypeCheck::acceptCharacterLiteral	(	IdentifierInfo *	lit,
		Location	loc
	)			[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 178 of file CheckName.cpp.

void comma::TypeCheck::acceptDeclarationInitializer	(	Node	declNode,
		Node	initializer
	)

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Node TypeCheck::acceptDereference	(	Node	prefix,
		Location	loc
	)			[virtual]

Notifies the client of an explicit dereference expression.

Parameters:

	prefix	The name to be dereferenced.
	loc	Location of the reserved word all.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 498 of file CheckExpr.cpp.

Node TypeCheck::acceptDirectName	(	IdentifierInfo *	name,
		Location	loc,
		bool	forStatement
	)			[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 72 of file CheckName.cpp.

Node TypeCheck::acceptDSTDefinition	(	Node	lower,
		Node	upper
	)			[virtual]

Indicates a discrete subtype definition that was sepcified using only a range.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 1124 of file TypeCheck.cpp.

Node TypeCheck::acceptDSTDefinition	(	Node	nameOrAttribute,
		bool	isUnconstrained
	)			[virtual]

Indicates a discrete subtype definition which was specified using a name which may include a range attribute. If isUnconstrained is true, then the given node was followed by the "range <>" syntax, and the parser is in the midst of processing an array type definition.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 1095 of file TypeCheck.cpp.

Node TypeCheck::acceptDSTDefinition	(	Node	name,
		Node	lower,
		Node	upper
	)			[virtual]

Indicates a discrete subtype definition which was accompanied by a range constraint.

Parameters:

	name	The subtype mark of this definition.
	lower	The lower bound of the range constraint.
	upper	The upper bound of the range constraint.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 1060 of file TypeCheck.cpp.

Node TypeCheck::acceptElseStmt	(	Location	loc,
		Node	ifNode,
		NodeVector &	alternates
	)			[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 141 of file CheckStmt.cpp.

Node TypeCheck::acceptElsifStmt	(	Location	loc,
		Node	ifNode,
		Node	condition,
		NodeVector &	consequents
	)			[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 159 of file CheckStmt.cpp.

Node TypeCheck::acceptEmptyReturnStmt

(

Location

loc

)

[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 73 of file CheckStmt.cpp.

void TypeCheck::acceptEnumerationCharacter	(	IdentifierInfo *	name,
		Location	loc
	)			[virtual]

Called to introduce an enumeration component which was defined using character syntax.

Parameters:

	name	The name of the character literal defining this component. This is always the full name of the literal. For example, the character literal for X is named using the string "'X'" (note that the quotes are included).
	loc	The location of the defining character literal.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 727 of file TypeCheck.cpp.

void TypeCheck::acceptEnumerationIdentifier	(	IdentifierInfo *	name,
		Location	loc
	)			[virtual]

Called to introduce an enumeration component which was defined using identifier syntax.

Parameters:

	name	The defining identifier for this component.
	loc	The location of the defining identifier.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 722 of file TypeCheck.cpp.

void TypeCheck::acceptFormalDomain	(	IdentifierInfo *	name,
		Location	loc,
		Node	sig
	)			[virtual]

Called to notify the client of a generic formal domain parameter.

Parameters:

	name	The defining identifier of the domain.
	loc	Location of the defining identifier.
	sig	If the formal domain was specified as satisfying a particular signature, sig is a valid node as returned by a call to parseName(). Otherwise sig is a null node.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 69 of file CheckCapsule.cpp.

void TypeCheck::acceptFunctionReturnType

(

Node

typeNode

)

[virtual]

When parsing a function declaration, this callback is invoked to notify the client of the declarations return type.

If the function declaration was missing a return type, or the node returned by the client representing the type is invalid, this callback is passed a null node as argument. Note that the parser posts a diagnostic for the case of a missing return.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 87 of file CheckSubroutine.cpp.

Node TypeCheck::acceptIfStmt	(	Location	loc,
		Node	condition,
		NodeVector &	consequents
	)			[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 121 of file CheckStmt.cpp.

bool TypeCheck::acceptImportDeclaration

(

Node

importedType

)

[virtual]

Submits an import from the given type node.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 687 of file TypeCheck.cpp.

void TypeCheck::acceptIncompleteTypeDecl	(	IdentifierInfo *	name,
		Location	loc
	)			[virtual]

Called to notify the client of an incomplete type declaration.

This callback is invoked when processing type declarations of the form type Foo;<>.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 924 of file TypeCheck.cpp.

Node TypeCheck::acceptInj	(	Location	loc,
		Node	expr
	)			[virtual]

Called for "inj" expressions. loc is the location of the inj token and expr is its argument.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 382 of file CheckExpr.cpp.

Node TypeCheck::acceptIntegerLiteral	(	llvm::APInt &	value,
		Location	loc
	)			[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 434 of file CheckExpr.cpp.

void TypeCheck::acceptIntegerTypeDecl	(	IdentifierInfo *	name,
		Location	loc,
		Node	low,
		Node	high
	)			[virtual]

Called to process integer type declarations.

For example, given a definition of the form type T is range X..Y;, this callback is invoked with name set to the identifier T, loc set to the location of name, low set to the expression X, and high set to the expression Y.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 789 of file TypeCheck.cpp.

void TypeCheck::acceptKeyedAggregateComponent	(	NodeVector &	keys,
		Node	expr,
		Location	loc
	)			[virtual]

Provides a vector of keys and associated expression for a keyed aggregate component.

Parameters:

	keys	A vector of valid nodes as returned by acceptAggregateKey.
	expr	Expression denoting the value associated with the given keys, or a null node if a diamond was parsed.
	loc	Location of the given expression (for use when expr is null).

Note:

The parser will always call this method if it is able to parse the associated expression. This means that keys may be empty if none of the keys parsed correctly or the client returned an invalid node for them all.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 1045 of file CheckAgg.cpp.

Node TypeCheck::acceptLoopStmt	(	Location	loc,
		NodeVector &	stmtNodes
	)			[virtual]

Called to inform the client of a loop statement.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 253 of file CheckStmt.cpp.

Node TypeCheck::acceptNullExpr

(

Location

loc

)

[virtual]

Invoked when the parser encounters the "null" reserved word in an expression context.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 453 of file CheckExpr.cpp.

Node TypeCheck::acceptNullStmt

(

Location

loc

)

[virtual]

Called to notify the client of a null statement at the given position.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 401 of file CheckStmt.cpp.

bool TypeCheck::acceptObjectDeclaration	(	Location	loc,
		IdentifierInfo *	name,
		Node	type,
		Node	initializer
	)			[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 619 of file TypeCheck.cpp.

Node TypeCheck::acceptParameterAssociation	(	IdentifierInfo *	key,
		Location	loc,
		Node	rhs
	)			[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 325 of file CheckName.cpp.

Node TypeCheck::acceptPercent

(

Location

loc

)

[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 161 of file TypeCheck.cpp.

void TypeCheck::acceptPositionalAggregateComponent

(

Node

component

)

[virtual]

Provides a Node describing a positional component of the aggregate.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 989 of file CheckAgg.cpp.

void TypeCheck::acceptPragmaImport	(	Location	pragmaLoc,
		IdentifierInfo *	convention,
		Location	conventionLoc,
		IdentifierInfo *	enity,
		Location	entityLoc,
		Node	externalNameNode
	)			[virtual]

Called when a pragma Import is encountered. These pragmas can occur when processing a list of declarative items.

Parameters:

	pragmaLoc	The location of the Import identifier.
	convention	An identifier naming the convention to be used. Note that the parser does not know what identifiers name valid conventions.
	conventionLoc	The location of the convention identifier.
	entity	The identifier naming the entity to import.
	entityLoc	The location of the entity identifier.
	externalNameNode	An arbitrary expression node.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 1324 of file TypeCheck.cpp.

Node TypeCheck::acceptPragmaStmt	(	IdentifierInfo *	name,
		Location	loc,
		NodeVector &	pragmaArgs
	)			[virtual]

Called when a pragma is encountered within a sequence of statements.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 311 of file CheckStmt.cpp.

Node TypeCheck::acceptPrj	(	Location	loc,
		Node	expr
	)			[virtual]

Called for "prj" expressions. loc is the location of the prj token and expr is its argument.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 408 of file CheckExpr.cpp.

Node TypeCheck::acceptProcedureCall

(

Node

name

)

[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 30 of file CheckStmt.cpp.

Node TypeCheck::acceptQualifiedExpr	(	Node	qualifier,
		Node	operand
	)			[virtual]

Invoked when the parser encounters a qualified expression.

Parameters:

	qualifier	A node corresponding to the qualified name.
	operand	The expression to qualify.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 477 of file CheckExpr.cpp.

Node TypeCheck::acceptRaiseStmt	(	Location	loc,
		Node	exception,
		Node	message
	)			[virtual]

Called to inform the client of a raise statement.

Parameters:

	loc	Location of the `raise' reserved word.
	exception	Node representing the exception to be thrown (as obtained thru the name callbacks).
	message	Contains the expression node to be associated with the `raise', or a null-node if there was no expression.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 332 of file CheckStmt.cpp.

void TypeCheck::acceptRangedSubtypeDecl	(	IdentifierInfo *	name,
		Location	loc,
		Node	subtype,
		Node	low,
		Node	high
	)			[virtual]

Called to process a range constrained discrete subtype declaration.

For example, given a declaration of the form subtype S is T range X..Y;, this callback is invoked with name set to the identifier S, loc set to the location of name, and subtype set to the subtype indication T, and the last two arguments (low and high) represent the lower and upper bounds of the range constraint.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 814 of file TypeCheck.cpp.

void TypeCheck::acceptRecordComponent	(	IdentifierInfo *	name,
		Location	loc,
		Node	type
	)			[virtual]

Called to notify the client of a record component.

Parameters:

	name	The defining identifier for this record component.
	loc	The location of the components defining identifier.
	type	A node representing the type of this identifier.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 1006 of file TypeCheck.cpp.

bool TypeCheck::acceptRenamedObjectDeclaration	(	Location	loc,
		IdentifierInfo *	name,
		Node	type,
		Node	target
	)			[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 658 of file TypeCheck.cpp.

Node TypeCheck::acceptReturnStmt	(	Location	loc,
		Node	retNode
	)			[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 49 of file CheckStmt.cpp.

Node TypeCheck::acceptSelectedComponent	(	Node	prefix,
		IdentifierInfo *	name,
		Location	loc,
		bool	forStatement
	)			[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 302 of file CheckName.cpp.

bool TypeCheck::acceptStmt	(	Node	context,
		Node	stmt
	)			[virtual]

Called to notify the client that a statement has been completely parsed.

Parameters:

	context	The result of a call to beginBlockStmt or beginSubroutineDefinition, indicating in which context stmt appeared in.
	stmt	The actual Node representing the statement (as returned from accpetIfStmt, acceptAssignmentStmt, etc).

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 202 of file CheckStmt.cpp.

Node TypeCheck::acceptStringLiteral	(	const char *	string,
		unsigned	len,
		Location	loc
	)			[virtual]

Invoked when the parser encounters a string literal.

Parameters:

	string	A pointer to the first quotation character of the string literal. The string is not necessarily null terminated, and is owned by the parser. Clients should copy the contents of the string if needed.
	len	The number of characters in the string.
	loc	The location of the first quotation character.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 1111 of file CheckAgg.cpp.

void TypeCheck::acceptSubroutineParameter	(	IdentifierInfo *	formal,
		Location	loc,
		Node	typeNode,
		PM::ParameterMode	mode
	)			[virtual]

For each subroutine parameter, acceptSubroutineParameter is called providing:

Parameters:

	formal	The name of the formal parameter.
	loc	The location of the formal parameter name.
	typeNode	A node describing the type of the parameter (the result of a call to acceptTypeName or acceptTypeApplication, for example).
	mode	The parameter mode, wher PM::MODE_DEFAULT is supplied if an explicit mode was not parsed.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 41 of file CheckSubroutine.cpp.

void TypeCheck::acceptSubtypeDecl	(	IdentifierInfo *	name,
		Location	loc,
		Node	subtype
	)			[virtual]

Called to process an unconstrained subtype declaration.

For example, given a declaration of the form subtype S is T;, this callback is invoked with name set to the identifier S, loc set to the location of name, and subtype set to the subtype indication T.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 876 of file TypeCheck.cpp.

void TypeCheck::acceptSupersignature

(

Node

typeNode

)

[virtual]

Called for each super signature defined in a signature profile.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 150 of file CheckCapsule.cpp.

Node TypeCheck::acceptWhileStmt	(	Location	loc,
		Node	condition,
		NodeVector &	stmtNodes
	)			[virtual]

Called to inform the client of a while statement.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 233 of file CheckStmt.cpp.

void TypeCheck::beginAddExpression

(

)

[virtual]

Called at the begining of an add expression. The client accepts components of an add expression after this call until endAddExpression is called.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 255 of file CheckCapsule.cpp.

void TypeCheck::beginAggregate

(

Location

loc

)

[virtual]

The start of an aggregate expression is communicated to the client with a call to beginAggregate(). For each component of the aggregate acceptAggregateComponent() is called. The end of the aggregate expression is voiced with a call to endAggregate(). Signals that an aggregate expression is about to be processed.

Parameters:

loc

Location of opening paren starting the aggregate.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 984 of file CheckAgg.cpp.

Node TypeCheck::beginBlockStmt	(	Location	loc,
		IdentifierInfo *	label = 0
	)			[virtual]

Called when a block statement is about to be parsed.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 182 of file CheckStmt.cpp.

void TypeCheck::beginCapsule

(

)

[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 29 of file CheckCapsule.cpp.

void TypeCheck::beginDomainDecl	(	IdentifierInfo *	name,
		Location	loc
	)			[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 101 of file CheckCapsule.cpp.

void TypeCheck::beginEnumeration	(	IdentifierInfo *	name,
		Location	loc
	)			[virtual]

Establishes a context beginning an enumeration type declaration.

Parameters:

	name	The name of this enumeration type declaration.
	loc	The location of the enumerations name.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 717 of file TypeCheck.cpp.

Node TypeCheck::beginForStmt	(	Location	loc,
		IdentifierInfo *	iterName,
		Location	iterLoc,
		Node	control,
		bool	isReversed
	)			[virtual]

Begins a for statement.

Parameters:

	loc	Location of the for reserved word.
	iterName	Defining identifier for the loop parameter.
	iterLoc	Location of iterName.
	control	A node representing the subtype definition, range, or range attribute controlling this loop. This node is obtained by a call to acceptDSTDefinition.
	isReversed	Set to true when the reverse reserved word was present in the loop specification.

Returns:

A node representing the for loop being processed. The returned value is supplied to the corresponding endForStmt() call.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 266 of file CheckStmt.cpp.

void TypeCheck::beginFunctionDeclaration	(	IdentifierInfo *	name,
		Location	loc
	)			[virtual]

When parsing a function declaration, this callback is invoked to notify the client of the declarations return type.

If the function declaration was missing a return type, or the node returned by the client representing the type is invalid, this callback is passed a null node as argument. Note that the parser posts a diagnostic for the case of a missing return.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 31 of file CheckSubroutine.cpp.

void TypeCheck::beginGenericFormals

(

)

[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 62 of file CheckCapsule.cpp.

Node TypeCheck::beginHandlerStmt	(	Location	loc,
		NodeVector &	choices
	)			[virtual]

Begins an exception handler.

Parameters:

	loc	Location of the when reserved word.
	choices	Set of valid nodes as procudueced by the name callbacks representing the set of exceptions this handler covers.

Returns:

A node representing the handler. This node, if valid, is used as the context in a call to acceptStmt for each statement constituting the body of this handler.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 357 of file CheckStmt.cpp.

void TypeCheck::beginProcedureDeclaration	(	IdentifierInfo *	name,
		Location	loc
	)			[virtual]

When parsing a function declaration, this callback is invoked to notify the client of the declarations return type.

If the function declaration was missing a return type, or the node returned by the client representing the type is invalid, this callback is passed a null node as argument. Note that the parser posts a diagnostic for the case of a missing return.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 36 of file CheckSubroutine.cpp.

void TypeCheck::beginRecord	(	IdentifierInfo *	name,
		Location	loc
	)			[virtual]

Begins the definition of a record type.

Parameters:

	name	The defining identifier for this record.
	loc	The location of the defining identifier.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 997 of file TypeCheck.cpp.

void TypeCheck::beginSignatureDecl	(	IdentifierInfo *	name,
		Location	loc
	)			[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 115 of file CheckCapsule.cpp.

void TypeCheck::beginSignatureProfile

(

)

[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 169 of file CheckCapsule.cpp.

Node TypeCheck::beginSubroutineDefinition

(

Node

declarationNode

)

[virtual]

Once a declaration has been parsed, a context for a definition is introduced with a call to beginSubroutineDefinition (assuming the declaration has a definition), passing in the node returned from endSubroutineDeclaration. The returned Node will be used as the first parameter to acceptStmt and endHandlerStmt for each statement and exception handler constituting the definition.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 202 of file CheckSubroutine.cpp.

Ast * TypeCheck::checkDirectName	(	IdentifierInfo *	name,
		Location	loc,
		bool	forStatement
	)

Checks that the given identifier is a valid direct name. Returns an Ast node representing the name if the checks succeed and null otherwise.

Parameters:

	name	The identifier to check.
	loc	The location of name.
	forStatement	If true, check that name denotes a procedure.

Definition at line 81 of file CheckName.cpp.

Expr * TypeCheck::checkExprAndDereferenceInContext	(	Expr *	expr,
		Type *	context
	)

Typechecks the given resolved expression in the given type context introducing any implicit dereferences required to conform to the context type.

Returns the (possibly updated) expression on success or null on error.

Definition at line 171 of file CheckExpr.cpp.

bool TypeCheck::checkExprInContext	(	Expr *	expr,
		Type::Classification	ID
	)

Typechecks the given expression using the given type classification as context. This method returns true if the expression was successfully checked. Otherwise, false is returned an diagnostics are emitted.

Definition at line 143 of file CheckExpr.cpp.

Expr * TypeCheck::checkExprInContext	(	Expr *	expr,
		Type *	context
	)

Typechecks the given expression in the given type context.

This is a main entry point into the top-down phase of the type checker. This method returns a potentially different expression from its argument on success and null on failure.

Definition at line 105 of file CheckExpr.cpp.

bool comma::TypeCheck::checkSuccessful

(

)

const [inline, virtual]

Returns true if the type checker has not encountered an error and false otherwise.

Implements comma::Checker.

Definition at line 221 of file TypeCheck.h.

bool TypeCheck::conversionRequired	(	Type *	source,
		Type *	target
	)			[static]

Returns true if the type source requires a conversion to be compatible with the type target.

Definition at line 1232 of file TypeCheck.cpp.

Expr * TypeCheck::convertIfNeeded	(	Expr *	expr,
		Type *	target
	)			[static]

Wraps the given expression in a ConversionExpr if needed.

Definition at line 1271 of file TypeCheck.cpp.

bool TypeCheck::covers	(	Type *	A,
		Type *	B
	)			[static]

Basic type equality predicate.

Definition at line 1211 of file TypeCheck.cpp.

void TypeCheck::deleteNode

(

Node &

node

)

[virtual]

Nodes do not know the representation of the data they carry. This method is called by Nodes once their reference counts drop to zero. The implementation need not delete the node as a result of this call -- it might choose to cache it, for instance.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 86 of file TypeCheck.cpp.

void TypeCheck::endAddExpression

(

)

[virtual]

Completes an add expression.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 265 of file CheckCapsule.cpp.

Node TypeCheck::endAggregate

(

)

[virtual]

Signals that an aggregate expression has completed.

Returns:

A Node representing the accumulated aggregate expression.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 1093 of file CheckAgg.cpp.

void TypeCheck::endBlockStmt

(

Node

block

)

[virtual]

Once the last statement of a block has been parsed, this method is called to inform the client that we are leaving the block context established by the last call to beginBlockStmt.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 196 of file CheckStmt.cpp.

void TypeCheck::endCapsule

(

)

[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 40 of file CheckCapsule.cpp.

void TypeCheck::endEnumeration

(

)

[virtual]

Called when all of the enumeration literals have been processed, thus completing the definition of the enumeration.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 760 of file TypeCheck.cpp.

Node TypeCheck::endForStmt	(	Node	forNode,
		NodeVector &	bodyNodes
	)			[virtual]

Terminates a for statement.

Parameters:

	forNode	The Node returned by the previous call to beginForStmt().
	bodyNodes	A vector of nodes corresponding to each statement in the loop body.

Returns:

A node representing the completed for stmt.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 285 of file CheckStmt.cpp.

void TypeCheck::endGenericFormals

(

)

[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 67 of file CheckCapsule.cpp.

void TypeCheck::endHandlerStmt	(	Node	context,
		Node	handler
	)			[virtual]

Completes an exception handler.

Parameters:

	context	A Node which this handler should be associated with. This is the result of a call to beginSubroutineDefinition or beginBlockStmt.
	handler	The Node returned by a call to beginHandlerStmt.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 385 of file CheckStmt.cpp.

void TypeCheck::endRecord

(

)

[virtual]

Completes the definition of a record type.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 1030 of file TypeCheck.cpp.

void TypeCheck::endSignatureProfile

(

)

[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 176 of file CheckCapsule.cpp.

void TypeCheck::endSubroutineBody

(

Node

context

)

[virtual]

Once the sequence of statements constituting the body of the subroutine has been parsed (not counting any exception handlers), this method is invoked to inform the client of the completion of the body.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 229 of file CheckSubroutine.cpp.

Node TypeCheck::endSubroutineDeclaration

(

bool

definitionFollows

)

[virtual]

Called to terminate the context of a subroutine declaration.

Parameters:

definitionFollows

Set to true if the parser sees a is token following the declaration and thus expects a definition to follow.

Returns:

A node associated with the declaration. Exclusively used by the parser as an argument to beginSubroutineDefinition.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 106 of file CheckSubroutine.cpp.

void TypeCheck::endSubroutineDefinition

(

)

[virtual]

Once endSubroutineBody has been called and any exception handlers have been processed this callback is invoked to signal the completion of the definition.

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 270 of file CheckSubroutine.cpp.

Expr * TypeCheck::ensureExpr

(

Ast *

node

)

Checks if node resolves to an expression and returns that expression on success. Else null is returned and diagnostics are posted.

Definition at line 29 of file CheckExpr.cpp.

Expr * TypeCheck::ensureExpr

(

Node

node

)

Checks if node resolves to an expression and returns that expression on success. Else null is returned and diagnostics are posted.

Definition at line 24 of file CheckExpr.cpp.

bool TypeCheck::ensureStaticIntegerExpr

(

Expr *

expr

)

Returns true if expr is a static integer expression. Otherwise false is returned and diagnostics are posted.

Definition at line 511 of file TypeCheck.cpp.

bool TypeCheck::ensureStaticIntegerExpr	(	Expr *	expr,
		llvm::APInt &	result
	)

Returns true if expr is a static integer expression. If so, initializes result to a signed value which can accommodate the given static expression.

Definition at line 501 of file TypeCheck.cpp.

Node TypeCheck::finishName

(

Node

name

)

[virtual]

FIXME: The only kind of unconstrained subtype declarations we currently support are discrete subtypes.

Implements comma::ParseClient.

Definition at line 637 of file CheckName.cpp.

AstResource& comma::TypeCheck::getAstResource

(

)

[inline]

Returns the AstResource used by the type checker to construct AST nodes.

Definition at line 231 of file TypeCheck.h.

CompilationUnit* comma::TypeCheck::getCompilationUnit

(

)

const [inline, virtual]

Returns the compilation which this type checker populates with well formed top-level nodes.

Implements comma::Checker.

Definition at line 225 of file TypeCheck.h.

Type * TypeCheck::getCoveringDereference	(	Type *	source,
		Type::Classification	ID
	)

Returns a dereferenced type of source which satisfies the given target classification or null if no such type exists.

Definition at line 1288 of file TypeCheck.cpp.

Type * TypeCheck::getCoveringDereference	(	Type *	source,
		Type *	target
	)

Returns a dereferenced type of source which covers the type target or null if no such type exists.

Definition at line 1278 of file TypeCheck.cpp.

Diagnostic& comma::TypeCheck::getDiagnostic

(

)

[inline]

Returns the Diagnostic object thru which diagnostics are posted.

Definition at line 228 of file TypeCheck.h.

Expr * TypeCheck::implicitlyDereference	(	Expr *	expr,
		Type::Classification	ID
	)

Implicitly wraps the given expression in DereferenceExpr nodes utill its type satisfies the given type classification.

The given expression must have an access type which can be dereferenced to yield a type beloging to the given classification.

Definition at line 1311 of file TypeCheck.cpp.

Expr * TypeCheck::implicitlyDereference	(	Expr *	expr,
		Type *	target
	)

Implicitly wraps the given expression in DereferenceExpr nodes utill its type covers target.

The given expression must have an access type which can be dereferenced to the given target type.

Definition at line 1298 of file TypeCheck.cpp.

---

The documentation for this class was generated from the following files:

• lib/typecheck/TypeCheck.h
• lib/typecheck/CheckAgg.cpp
• lib/typecheck/CheckAttrib.cpp
• lib/typecheck/CheckCall.cpp
• lib/typecheck/CheckCapsule.cpp
• lib/typecheck/CheckExpr.cpp
• lib/typecheck/CheckName.cpp
• lib/typecheck/CheckStmt.cpp
• lib/typecheck/CheckSubroutine.cpp
• lib/typecheck/Has.cpp
• lib/typecheck/TypeCheck.cpp