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Fun with parameter attributes: For several of the "synthetic" parameters added to D functions, we can apply noalias and nocapture. They are sret parameters, 'nest' pointers passed to nested functions, and _argptr: Nocapture: - Sret and nest are nocapture because they don't represent D-level variables, and thus the callee can't (validly) obtain a pointer to them, let alone keep it around after it returns. - _argptr is nocapture because although the callee has access to it as a pointer, that pointer is invalidated when it returns. All three are noalias because they're function-local variables - Sret and _argptr are noalias because they're freshly alloca'd memory only used for a single function call that's not allowed to keep an aliasing pointer to it around (since the parameter is nocapture). - 'Nest' is noalias because the callee only ever has access to one such pointer per parent function, and every parent function has a different one. This commit also ensures attributes set on sret, _arguments and _argptr are propagated to calls to such functions. It also adds one exception to the general rule that attributes on function types should propagate to calls: the type of a delegate's function pointer has a 'nest' parameter, but this can either be a true 'nest' (for delegates to nested functions) or a 'this' (for delegates to member functions). Since 'this' is neither noalias nor nocapture, and there's generally no way to tell which one it is, we remove these attributes at the call site if the callee is a delegate.
author Frits van Bommel <fvbommel wxs.nl>
date Sat, 14 Mar 2009 22:15:31 +0100
parents aaade6ded589
children e961851fb8be
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// Compiler implementation of the D programming language
// Copyright (c) 1999-2008 by Digital Mars
// All Rights Reserved
// written by Walter Bright
// http://www.digitalmars.com
// License for redistribution is by either the Artistic License
// in artistic.txt, or the GNU General Public License in gnu.txt.
// See the included readme.txt for details.

#ifndef DMD_PARSE_H
#define DMD_PARSE_H

#ifdef __DMC__
#pragma once
#endif /* __DMC__ */

#include "arraytypes.h"
#include "lexer.h"
#include "enum.h"

struct Type;
struct TypeQualified;
struct Expression;
struct Declaration;
struct Statement;
struct Import;
struct Initializer;
struct FuncDeclaration;
struct CtorDeclaration;
struct PostBlitDeclaration;
struct DtorDeclaration;
struct StaticCtorDeclaration;
struct StaticDtorDeclaration;
struct ConditionalDeclaration;
struct InvariantDeclaration;
struct UnitTestDeclaration;
struct NewDeclaration;
struct DeleteDeclaration;
struct Condition;
struct Module;
struct ModuleDeclaration;
struct TemplateDeclaration;
struct TemplateInstance;
struct StaticAssert;

/************************************
 * These control how parseStatement() works.
 */

enum ParseStatementFlags
{
    PSsemi = 1,		// empty ';' statements are allowed
    PSscope = 2,	// start a new scope
    PScurly = 4,	// { } statement is required
    PScurlyscope = 8,	// { } starts a new scope
};


struct Parser : Lexer
{
    ModuleDeclaration *md;
    enum LINK linkage;
    Loc endloc;			// set to location of last right curly
    int inBrackets;		// inside [] of array index or slice

    Parser(Module *module, unsigned char *base, unsigned length, int doDocComment);

    Array *parseModule();
    Array *parseDeclDefs(int once);
    Array *parseBlock();
    TemplateDeclaration *parseTemplateDeclaration();
    TemplateParameters *parseTemplateParameterList();
    Dsymbol *parseMixin();
    Objects *parseTemplateArgumentList();
    StaticAssert *parseStaticAssert();
    enum LINK parseLinkage();
    Condition *parseDebugCondition();
    Condition *parseVersionCondition();
    Condition *parseStaticIfCondition();
    CtorDeclaration *parseCtor();
    DtorDeclaration *parseDtor();
    StaticCtorDeclaration *parseStaticCtor();
    StaticDtorDeclaration *parseStaticDtor();
    InvariantDeclaration *parseInvariant();
    UnitTestDeclaration *parseUnitTest();
    NewDeclaration *parseNew();
    DeleteDeclaration *parseDelete();
    Arguments *parseParameters(int *pvarargs);
    EnumDeclaration *parseEnum();
    Dsymbol *parseAggregate();
    BaseClasses *parseBaseClasses();
    Import *parseImport(Array *decldefs, int isstatic);
    Type *parseBasicType();
    Type *parseBasicType2(Type *t);
    Type *parseDeclarator(Type *t, Identifier **pident, TemplateParameters **tpl = NULL);
    Array *parseDeclarations();
    void parseContracts(FuncDeclaration *f);
    Statement *parseStatement(int flags);
    Initializer *parseInitializer();
    void check(Loc loc, enum TOK value);
    void check(enum TOK value);
    void check(enum TOK value, char *string);
    int isDeclaration(Token *t, int needId, enum TOK endtok, Token **pt);
    int isBasicType(Token **pt);
    int isDeclarator(Token **pt, int *haveId, enum TOK endtok);
    int isParameters(Token **pt);
    int isExpression(Token **pt);
    int isTemplateInstance(Token *t, Token **pt);
    int skipParens(Token *t, Token **pt);

    Expression *parseExpression();
    Expression *parsePrimaryExp();
    Expression *parseUnaryExp();
    Expression *parsePostExp(Expression *e);
    Expression *parseMulExp();
    Expression *parseAddExp();
    Expression *parseShiftExp();
    Expression *parseRelExp();
    Expression *parseEqualExp();
    Expression *parseCmpExp();
    Expression *parseAndExp();
    Expression *parseXorExp();
    Expression *parseOrExp();
    Expression *parseAndAndExp();
    Expression *parseOrOrExp();
    Expression *parseCondExp();
    Expression *parseAssignExp();

    Expressions *parseArguments();

    Expression *parseNewExp(Expression *thisexp);

    void addComment(Dsymbol *s, unsigned char *blockComment);
};

#endif /* DMD_PARSE_H */