void PragmaDeclaration::semantic(Scope *sc)
{ // Should be merged with PragmaStatement
#if IN_LLVM
Pragma llvm_internal = LLVMnone;
std::string arg1str;
#endif
//printf("\tPragmaDeclaration::semantic '%s'\n",toChars());
if (ident == Id::msg)
{
if (args)
{
for (size_t i = 0; i < args->dim; i++)
{
Expression *e = (*args)[i];
e = e->semantic(sc);
if (e->op != TOKerror && e->op != TOKtype)
e = e->ctfeInterpret();
StringExp *se = e->toString();
if (se)
{
fprintf(stdmsg, "%.*s", (int)se->len, (char *)se->string);
}
else
fprintf(stdmsg, "%s", e->toChars());
}
fprintf(stdmsg, "\n");
}
goto Lnodecl;
}
else if (ident == Id::lib)
{
if (!args || args->dim != 1)
error("string expected for library name");
else
{
Expression *e = (*args)[0];
e = e->semantic(sc);
e = e->ctfeInterpret();
(*args)[0] = e;
if (e->op == TOKerror)
goto Lnodecl;
StringExp *se = e->toString();
if (!se)
error("string expected for library name, not '%s'", e->toChars());
else if (global.params.verbose)
{
char *name = (char *)mem.malloc(se->len + 1);
memcpy(name, se->string, se->len);
name[se->len] = 0;
printf("library %s\n", name);
mem.free(name);
}
}
goto Lnodecl;
}
#if IN_GCC
else if (ident == Id::GNU_asm)
{
if (! args || args->dim != 2)
error("identifier and string expected for asm name");
else
{
Expression *e;
Declaration *d = NULL;
StringExp *s = NULL;
e = (*args)[0];
e = e->semantic(sc);
if (e->op == TOKvar)
{
d = ((VarExp *)e)->var;
if (! d->isFuncDeclaration() && ! d->isVarDeclaration())
d = NULL;
}
if (!d)
error("first argument of GNU_asm must be a function or variable declaration");
e = (*args)[1];
e = e->semantic(sc);
e = e->optimize(WANTvalue);
e = e->toString();
if (e && ((StringExp *)e)->sz == 1)
s = ((StringExp *)e);
else
error("second argument of GNU_asm must be a character string");
if (d && s)
d->c_ident = Lexer::idPool((char*) s->string);
}
goto Lnodecl;
}
#endif
#if DMDV2
else if (ident == Id::startaddress)
{
if (!args || args->dim != 1)
error("function name expected for start address");
else
{
Expression *e = (*args)[0];
e = e->semantic(sc);
e = e->ctfeInterpret();
(*args)[0] = e;
Dsymbol *sa = getDsymbol(e);
if (!sa || !sa->isFuncDeclaration())
error("function name expected for start address, not '%s'", e->toChars());
}
goto Lnodecl;
}
#endif
#if TARGET_NET
else if (ident == Lexer::idPool("assembly"))
{
}
#endif // TARGET_NET
#if IN_LLVM
else if ((llvm_internal = DtoGetPragma(sc, this, arg1str)) != LLVMnone)
{
// nothing to do anymore
}
#endif
else if (global.params.ignoreUnsupportedPragmas)
{
if (global.params.verbose)
{
/* Print unrecognized pragmas
*/
printf("pragma %s", ident->toChars());
if (args)
{
for (size_t i = 0; i < args->dim; i++)
{
#if IN_LLVM
// ignore errors in ignored pragmas.
global.gag++;
unsigned errors_save = global.errors;
#endif
Expression *e = (*args)[i];
e = e->semantic(sc);
e = e->ctfeInterpret();
if (i == 0)
printf(" (");
else
printf(",");
printf("%s", e->toChars());
#if IN_LLVM
// restore error state.
global.gag--;
global.errors = errors_save;
#endif
}
if (args->dim)
printf(")");
}
printf("\n");
}
goto Lnodecl;
}
else
error("unrecognized pragma(%s)", ident->toChars());
Ldecl:
if (decl)
{
for (size_t i = 0; i < decl->dim; i++)
{
Dsymbol *s = (*decl)[i];
s->semantic(sc);
#if IN_LLVM
DtoCheckPragma(this, s, llvm_internal, arg1str);
#endif
}
}
return;
Lnodecl:
if (decl)
{
error("pragma is missing closing ';'");
goto Ldecl; // do them anyway, to avoid segfaults.
}
}
void PragmaDeclaration::semantic(Scope *sc)
{ // Should be merged with PragmaStatement
#if IN_LLVM
int llvm_internal = 0;
std::string arg1str;
#endif
//printf("\tPragmaDeclaration::semantic '%s'\n",toChars());
if (ident == Id::msg)
{
if (args)
{
for (size_t i = 0; i < args->dim; i++)
{
Expression *e = (Expression *)args->data[i];
e = e->semantic(sc);
e = e->optimize(WANTvalue | WANTinterpret);
if (e->op == TOKstring)
{
StringExp *se = (StringExp *)e;
fprintf(stdmsg, "%.*s", (int)se->len, (char *)se->string);
}
else
fprintf(stdmsg, "%s", e->toChars());
}
fprintf(stdmsg, "\n");
}
goto Lnodecl;
}
else if (ident == Id::lib)
{
if (!args || args->dim != 1)
error("string expected for library name");
else
{
Expression *e = (Expression *)args->data[0];
e = e->semantic(sc);
e = e->optimize(WANTvalue | WANTinterpret);
args->data[0] = (void *)e;
if (e->op != TOKstring)
error("string expected for library name, not '%s'", e->toChars());
else if (global.params.verbose)
{
StringExp *se = (StringExp *)e;
char *name = (char *)mem.malloc(se->len + 1);
memcpy(name, se->string, se->len);
name[se->len] = 0;
printf("library %s\n", name);
mem.free(name);
}
}
goto Lnodecl;
}
#if IN_GCC
else if (ident == Id::GNU_asm)
{
if (! args || args->dim != 2)
error("identifier and string expected for asm name");
else
{
Expression *e;
Declaration *d = NULL;
StringExp *s = NULL;
e = (Expression *)args->data[0];
e = e->semantic(sc);
if (e->op == TOKvar)
{
d = ((VarExp *)e)->var;
if (! d->isFuncDeclaration() && ! d->isVarDeclaration())
d = NULL;
}
if (!d)
error("first argument of GNU_asm must be a function or variable declaration");
e = (Expression *)args->data[1];
e = e->semantic(sc);
e = e->optimize(WANTvalue);
if (e->op == TOKstring && ((StringExp *)e)->sz == 1)
s = ((StringExp *)e);
else
error("second argument of GNU_asm must be a char string");
if (d && s)
d->c_ident = Lexer::idPool((char*) s->string);
}
goto Lnodecl;
}
#endif
#if DMDV2
else if (ident == Id::startaddress)
{
if (!args || args->dim != 1)
error("function name expected for start address");
else
{
Expression *e = (Expression *)args->data[0];
e = e->semantic(sc);
e = e->optimize(WANTvalue | WANTinterpret);
args->data[0] = (void *)e;
Dsymbol *sa = getDsymbol(e);
if (!sa || !sa->isFuncDeclaration())
error("function name expected for start address, not '%s'", e->toChars());
}
goto Lnodecl;
}
#endif
#if TARGET_NET
else if (ident == Lexer::idPool("assembly"))
{
}
#endif // TARGET_NET
// LDC
#if IN_LLVM
// pragma(intrinsic, "string") { funcdecl(s) }
else if (ident == Id::intrinsic)
{
Expression* expr = (Expression *)args->data[0];
expr = expr->semantic(sc);
if (!args || args->dim != 1 || !parseStringExp(expr, arg1str))
{
error("requires exactly 1 string literal parameter");
fatal();
}
llvm_internal = LLVMintrinsic;
}
// pragma(notypeinfo) { typedecl(s) }
else if (ident == Id::no_typeinfo)
{
if (args && args->dim > 0)
{
error("takes no parameters");
fatal();
}
llvm_internal = LLVMno_typeinfo;
}
// pragma(nomoduleinfo) ;
else if (ident == Id::no_moduleinfo)
{
if (args && args->dim > 0)
{
error("takes no parameters");
fatal();
}
llvm_internal = LLVMno_moduleinfo;
}
// pragma(alloca) { funcdecl(s) }
else if (ident == Id::Alloca)
{
if (args && args->dim > 0)
{
error("takes no parameters");
fatal();
}
llvm_internal = LLVMalloca;
}
// pragma(va_start) { templdecl(s) }
else if (ident == Id::vastart)
{
if (args && args->dim > 0)
{
error("takes no parameters");
fatal();
}
llvm_internal = LLVMva_start;
}
// pragma(va_copy) { funcdecl(s) }
else if (ident == Id::vacopy)
{
if (args && args->dim > 0)
{
error("takes no parameters");
fatal();
}
llvm_internal = LLVMva_copy;
}
// pragma(va_end) { funcdecl(s) }
else if (ident == Id::vaend)
{
if (args && args->dim > 0)
{
error("takes no parameters");
fatal();
}
llvm_internal = LLVMva_end;
}
// pragma(va_arg) { templdecl(s) }
else if (ident == Id::vaarg)
{
if (args && args->dim > 0)
{
error("takes no parameters");
fatal();
}
llvm_internal = LLVMva_arg;
}
// pragma(fence) { templdecl(s) }
else if (ident == Id::fence)
{
if (args && args->dim > 0)
{
error("takes no parameters");
fatal();
}
llvm_internal = LLVMfence;
}
// pragma(atomic_load) { templdecl(s) }
else if (ident == Id::atomic_load)
{
if (args && args->dim > 0)
{
error("takes no parameters");
fatal();
}
llvm_internal = LLVMatomic_load;
}
// pragma(atomic_store) { templdecl(s) }
else if (ident == Id::atomic_store)
{
if (args && args->dim > 0)
{
error("takes no parameters");
fatal();
}
llvm_internal = LLVMatomic_store;
}
// pragma(atomic_cmp_xchg) { templdecl(s) }
else if (ident == Id::atomic_cmp_xchg)
{
if (args && args->dim > 0)
{
error("takes no parameters");
fatal();
}
llvm_internal = LLVMatomic_cmp_xchg;
}
// pragma(atomic_rmw, "string") { templdecl(s) }
else if (ident == Id::atomic_rmw)
{
Expression* expr = (Expression *)args->data[0];
expr = expr->semantic(sc);
if (!args || args->dim != 1 || !parseStringExp(expr, arg1str))
{
error("requires exactly 1 string literal parameter");
fatal();
}
llvm_internal = LLVMatomic_rmw;
}
// pragma(ldc, "string") { templdecl(s) }
else if (ident == Id::ldc)
{
Expression* expr = (Expression *)args->data[0];
expr = expr->semantic(sc);
if (!args || args->dim != 1 || !parseStringExp(expr, arg1str))
{
error("requires exactly 1 string literal parameter");
fatal();
}
else if (arg1str == "verbose")
{
sc->module->llvmForceLogging = true;
}
else
{
error("command '%s' invalid", expr->toChars());
fatal();
}
}
// pragma(llvm_inline_asm) { templdecl(s) }
else if (ident == Id::llvm_inline_asm)
{
if (args && args->dim > 0)
{
error("takes no parameters");
fatal();
}
llvm_internal = LLVMinline_asm;
}
#endif // LDC
else if (ignoreUnsupportedPragmas)
{
if (global.params.verbose)
{
/* Print unrecognized pragmas
*/
printf("pragma %s", ident->toChars());
if (args)
{
for (size_t i = 0; i < args->dim; i++)
{
// ignore errors in ignored pragmas.
global.gag++;
unsigned errors_save = global.errors;
Expression *e = (Expression *)args->data[i];
e = e->semantic(sc);
e = e->optimize(WANTvalue | WANTinterpret);
if (i == 0)
printf(" (");
else
printf(",");
printf("%s", e->toChars());
// restore error state.
global.gag--;
global.errors = errors_save;
}
if (args->dim)
printf(")");
}
printf("\n");
}
}
else
error("unrecognized pragma(%s)", ident->toChars());
if (decl)
{
for (unsigned i = 0; i < decl->dim; i++)
{
Dsymbol *s = (Dsymbol *)decl->data[i];
s->semantic(sc);
// LDC
#if IN_LLVM
if (llvm_internal)
{
if (s->llvmInternal)
{
error("multiple LDC specific pragmas not allowed not affect the same declaration ('%s' at '%s')", s->toChars(), s->loc.toChars());
fatal();
}
switch(llvm_internal)
{
case LLVMintrinsic:
if (FuncDeclaration* fd = s->isFuncDeclaration())
{
fd->llvmInternal = llvm_internal;
fd->intrinsicName = arg1str;
fd->linkage = LINKintrinsic;
((TypeFunction*)fd->type)->linkage = LINKintrinsic;
}
else if (TemplateDeclaration* td = s->isTemplateDeclaration())
{
td->llvmInternal = llvm_internal;
td->intrinsicName = arg1str;
}
else
{
error("only allowed on function declarations");
fatal();
}
break;
case LLVMatomic_rmw:
if (TemplateDeclaration* td = s->isTemplateDeclaration())
{
td->llvmInternal = llvm_internal;
td->intrinsicName = arg1str;
}
else
{
error("the '%s' pragma is only allowed on template declarations", ident->toChars());
fatal();
}
break;
case LLVMva_start:
case LLVMva_arg:
case LLVMatomic_load:
case LLVMatomic_store:
case LLVMatomic_cmp_xchg:
if (TemplateDeclaration* td = s->isTemplateDeclaration())
{
if (td->parameters->dim != 1)
{
error("the '%s' pragma template must have exactly one template parameter", ident->toChars());
fatal();
}
else if (!td->onemember)
{
error("the '%s' pragma template must have exactly one member", ident->toChars());
fatal();
}
else if (td->overnext || td->overroot)
{
error("the '%s' pragma template must not be overloaded", ident->toChars());
fatal();
}
td->llvmInternal = llvm_internal;
}
else
{
error("the '%s' pragma is only allowed on template declarations", ident->toChars());
fatal();
}
break;
case LLVMva_copy:
case LLVMva_end:
case LLVMfence:
if (FuncDeclaration* fd = s->isFuncDeclaration())
{
fd->llvmInternal = llvm_internal;
}
else
{
error("the '%s' pragma is only allowed on function declarations", ident->toChars());
fatal();
}
break;
case LLVMno_typeinfo:
s->llvmInternal = llvm_internal;
break;
case LLVMalloca:
if (FuncDeclaration* fd = s->isFuncDeclaration())
{
fd->llvmInternal = llvm_internal;
}
else
{
error("the '%s' pragma must only be used on function declarations of type 'void* function(uint nbytes)'", ident->toChars());
fatal();
}
break;
case LLVMinline_asm:
if (TemplateDeclaration* td = s->isTemplateDeclaration())
{
if (td->parameters->dim > 1)
{
error("the '%s' pragma template must have exactly zero or one template parameters", ident->toChars());
fatal();
}
else if (!td->onemember)
{
error("the '%s' pragma template must have exactly one member", ident->toChars());
fatal();
}
td->llvmInternal = llvm_internal;
}
else
{
error("the '%s' pragma is only allowed on template declarations", ident->toChars());
fatal();
}
break;
default:
warning("the LDC specific pragma '%s' is not yet implemented, ignoring", ident->toChars());
}
}
#endif // LDC
}
}
return;
Lnodecl:
if (decl)
error("pragma is missing closing ';'");
}
void PragmaDeclaration::semantic(Scope *sc)
{ // Should be merged with PragmaStatement
//printf("\tPragmaDeclaration::semantic '%s'\n",toChars());
if (ident == Id::msg)
{
if (args)
{
for (size_t i = 0; i < args->dim; i++)
{
Expression *e = args->tdata()[i];
e = e->semantic(sc);
e = e->optimize(WANTvalue | WANTinterpret);
StringExp *se = e->toString();
if (se)
{
fprintf(stdmsg, "%.*s", (int)se->len, (char *)se->string);
}
else
fprintf(stdmsg, "%s", e->toChars());
}
fprintf(stdmsg, "\n");
}
goto Lnodecl;
}
else if (ident == Id::lib)
{
if (!args || args->dim != 1)
error("string expected for library name");
else
{
Expression *e = args->tdata()[0];
e = e->semantic(sc);
e = e->optimize(WANTvalue | WANTinterpret);
args->tdata()[0] = e;
if (e->op == TOKerror)
goto Lnodecl;
StringExp *se = e->toString();
if (!se)
error("string expected for library name, not '%s'", e->toChars());
else if (global.params.verbose)
{
char *name = (char *)mem.malloc(se->len + 1);
memcpy(name, se->string, se->len);
name[se->len] = 0;
printf("library %s\n", name);
mem.free(name);
}
}
goto Lnodecl;
}
#if IN_GCC
else if (ident == Id::GNU_asm)
{
if (! args || args->dim != 2)
error("identifier and string expected for asm name");
else
{
Expression *e;
Declaration *d = NULL;
StringExp *s = NULL;
e = args->tdata()[0];
e = e->semantic(sc);
if (e->op == TOKvar)
{
d = ((VarExp *)e)->var;
if (! d->isFuncDeclaration() && ! d->isVarDeclaration())
d = NULL;
}
if (!d)
error("first argument of GNU_asm must be a function or variable declaration");
e = args->tdata()[1];
e = e->semantic(sc);
e = e->optimize(WANTvalue | WANTinterpret);
e = e->toString();
if (e && ((StringExp *)e)->sz == 1)
s = ((StringExp *)e);
else
error("second argument of GNU_asm must be a char string");
if (d && s)
d->c_ident = Lexer::idPool((char*) s->string);
}
goto Lnodecl;
}
#endif
#if DMDV2
else if (ident == Id::startaddress)
{
if (!args || args->dim != 1)
error("function name expected for start address");
else
{
Expression *e = args->tdata()[0];
e = e->semantic(sc);
e = e->optimize(WANTvalue | WANTinterpret);
args->tdata()[0] = e;
Dsymbol *sa = getDsymbol(e);
if (!sa || !sa->isFuncDeclaration())
error("function name expected for start address, not '%s'", e->toChars());
}
goto Lnodecl;
}
#endif
#if TARGET_NET
else if (ident == Lexer::idPool("assembly"))
{
}
#endif // TARGET_NET
else if (global.params.ignoreUnsupportedPragmas)
{
if (global.params.verbose)
{
/* Print unrecognized pragmas
*/
printf("pragma %s", ident->toChars());
if (args)
{
for (size_t i = 0; i < args->dim; i++)
{
Expression *e = args->tdata()[i];
e = e->semantic(sc);
e = e->optimize(WANTvalue | WANTinterpret);
if (i == 0)
printf(" (");
else
printf(",");
printf("%s", e->toChars());
}
if (args->dim)
printf(")");
}
printf("\n");
}
goto Lnodecl;
}
else
error("unrecognized pragma(%s)", ident->toChars());
if (decl)
{
for (unsigned i = 0; i < decl->dim; i++)
{
Dsymbol *s = decl->tdata()[i];
s->semantic(sc);
}
}
return;
Lnodecl:
if (decl)
error("pragma is missing closing ';'");
}
void PragmaDeclaration::semantic(Scope *sc)
{ // Should be merged with PragmaStatement
Scope sc_save;
//printf("\tPragmaDeclaration::semantic '%s'\n",toChars());
if (ident == Id::msg)
{
if (args)
{
for (size_t i = 0; i < args->dim; i++)
{
Expression *e = args->tdata()[i];
e = e->semantic(sc);
e = e->optimize(WANTvalue | WANTinterpret);
StringExp *se = e->toString();
if (se)
{
fprintf(stdmsg, "%.*s", (int)se->len, (char *)se->string);
}
else
fprintf(stdmsg, "%s", e->toChars());
}
fprintf(stdmsg, "\n");
}
goto Lnodecl;
}
else if (ident == Id::lib)
{
if (!args || args->dim != 1)
error("string expected for library name");
else
{
Expression *e = args->tdata()[0];
e = e->semantic(sc);
e = e->optimize(WANTvalue | WANTinterpret);
args->tdata()[0] = e;
if (e->op == TOKerror)
goto Lnodecl;
StringExp *se = e->toString();
if (!se)
error("string expected for library name, not '%s'", e->toChars());
else if (global.params.verbose)
{
char *name = (char *)mem.malloc(se->len + 1);
memcpy(name, se->string, se->len);
name[se->len] = 0;
printf("library %s\n", name);
mem.free(name);
}
}
goto Lnodecl;
}
#if IN_GCC
else if (ident == Id::GNU_asm)
{
if (! args || args->dim != 2)
error("identifier and string expected for asm name");
else
{
Expression *e;
Declaration *d = NULL;
StringExp *s = NULL;
e = (Expression *)args->data[0];
e = e->semantic(sc);
if (e->op == TOKvar)
{
d = ((VarExp *)e)->var;
if (! d->isFuncDeclaration() && ! d->isVarDeclaration())
d = NULL;
}
if (!d)
error("first argument of GNU_asm must be a function or variable declaration");
e = args->tdata()[1];
e = e->semantic(sc);
e = e->optimize(WANTvalue);
e = e->toString();
if (e && ((StringExp *)e)->sz == 1)
s = ((StringExp *)e);
else
error("second argument of GNU_asm must be a character string");
if (d && s)
d->c_ident = Lexer::idPool((char*) s->string);
}
goto Lnodecl;
}
else if (ident == Id::GNU_attribute || ident == Id::_GNU_attribute)
{
if (!global.params.useDeprecated && ident == Id::_GNU_attribute)
error("pragma(GNU_attribute) is deprecated, use pragma(attribute) instead");
sc_save = *sc;
// An empty list is allowed.
if (args && args->dim)
{
Expressions * a;
if (sc->attributes)
a = (Expressions *) sc->attributes->copy();
else
a = new Expressions;
sc->attributes = a;
for (unsigned i = 0; i < args->dim; i++)
{
Expression * e = args->tdata()[i];
//e = e->semantic(sc);
if (e->op == TOKidentifier)
; // ok
else if (e->op == TOKcall)
{
CallExp * c = (CallExp *) e;
if (c->e1->op != TOKidentifier)
error("identifier or call expression expected for attribute");
if (c->arguments)
for (int unsigned ai = 0; ai < c->arguments->dim; ai++)
{
Expression * ea = c->arguments->tdata()[ai];
ea = ea->semantic(sc);
ea = ea->optimize(WANTvalue | WANTinterpret);
c->arguments->tdata()[ai] = ea;
}
}
else
{
error("identifier or call expression expected for attribute");
continue;
}
a->push(e);
}
}
}
else if (ident == Id::GNU_set_attribute || ident == Id::_GNU_set_attribute)
{
if (!global.params.useDeprecated && ident == Id::_GNU_set_attribute)
error("pragma(GNU_set_attribute) is deprecated, use pragma(set_attribute) instead");
if (!args || args->dim < 1)
error("declaration expected for setting attributes");
else
{
Expressions ** p_attributes = NULL; // list of existing attributes
{
Expression * e = args->tdata()[0];
e = e->semantic(sc);
if (e->op == TOKvar)
{
Declaration * d = ((VarExp *)e)->var;
if (d->isFuncDeclaration() || d->isVarDeclaration())
p_attributes = & d->attributes;
}
else if (e->op == TOKtype)
{
Type * t = ((TypeExp *)e)->type;
if (t->ty == Ttypedef)
p_attributes = & ((TypeTypedef *) t)->sym->attributes;
else if (t->ty == Tenum)
p_attributes = & ((TypeEnum *) t)->sym->attributes;
else if (t->ty == Tstruct)
p_attributes = & ((TypeStruct *) t)->sym->attributes;
else if (t->ty == Tclass)
p_attributes = & ((TypeClass *) t)->sym->attributes;
}
if (p_attributes == NULL)
error("first argument must be a function, variable, or type declaration");
}
Expressions * new_attrs = new Expressions;
for (unsigned i = 1; i < args->dim; i++)
{
Expression * e = args->tdata()[i];
//e = e->semantic(sc);
if (e->op == TOKidentifier)
; // ok
else if (e->op == TOKcall)
{
CallExp * c = (CallExp *) e;
if (c->e1->op != TOKidentifier)
error("identifier or call expression expected for attribute");
if (c->arguments)
for (int unsigned ai = 0; ai < c->arguments->dim; ai++)
{
Expression * ea = c->arguments->tdata()[ai];
ea = ea->semantic(sc);
ea = ea->optimize(WANTvalue | WANTinterpret);
c->arguments->tdata()[ai] = ea;
}
}
else
{
error("identifier or call expression expected for attribute");
continue;
}
new_attrs->push(e);
}
if (p_attributes)
{
if (*p_attributes)
{
*p_attributes = (Expressions *) (*p_attributes)->copy();
(*p_attributes)->append(new_attrs);
}
else
*p_attributes = new_attrs;
}
}
goto Lnodecl;
}
#endif
#if DMDV2
else if (ident == Id::startaddress)
{
if (!args || args->dim != 1)
error("function name expected for start address");
else
{
Expression *e = (Expression *)args->data[0];
e = e->semantic(sc);
e = e->optimize(WANTvalue | WANTinterpret);
args->data[0] = (void *)e;
Dsymbol *sa = getDsymbol(e);
if (!sa || !sa->isFuncDeclaration())
error("function name expected for start address, not '%s'", e->toChars());
}
goto Lnodecl;
}
#endif
#if TARGET_NET
else if (ident == Lexer::idPool("assembly"))
{
}
#endif // TARGET_NET
else if (global.params.ignoreUnsupportedPragmas)
{
if (global.params.verbose)
{
/* Print unrecognized pragmas
*/
printf("pragma %s", ident->toChars());
if (args)
{
for (size_t i = 0; i < args->dim; i++)
{
Expression *e = (Expression *)args->data[i];
e = e->semantic(sc);
e = e->optimize(WANTvalue | WANTinterpret);
if (i == 0)
printf(" (");
else
printf(",");
printf("%s", e->toChars());
}
if (args->dim)
printf(")");
}
printf("\n");
}
goto Lnodecl;
}
else
error("unrecognized pragma(%s)", ident->toChars());
if (decl)
{
for (unsigned i = 0; i < decl->dim; i++)
{
Dsymbol *s = decl->tdata()[i];
s->semantic(sc);
}
}
#if IN_GCC
if (decl)
if (ident == Id::GNU_attribute || ident == Id::_GNU_attribute)
*sc = sc_save;
#endif
return;
Lnodecl:
if (decl)
error("pragma is missing closing ';'");
}
void PragmaDeclaration::semantic(Scope *sc)
{ // Should be merged with PragmaStatement
//printf("\tPragmaDeclaration::semantic '%s'\n",toChars());
if (ident == Id::msg)
{
if (args)
{
for (size_t i = 0; i < args->dim; i++)
{
Expression *e = (Expression *)args->data[i];
e = e->semantic(sc);
if (e->op == TOKstring)
{
StringExp *se = (StringExp *)e;
fprintf(stdmsg, "%.*s", se->len, se->string);
}
else
error("string expected for message, not '%s'", e->toChars());
}
fprintf(stdmsg, "\n");
}
goto Lnodecl;
}
else if (ident == Id::lib)
{
if (!args || args->dim != 1)
error("string expected for library name");
else
{
Expression *e = (Expression *)args->data[0];
e = e->semantic(sc);
args->data[0] = (void *)e;
if (e->op != TOKstring)
error("string expected for library name, not '%s'", e->toChars());
}
goto Lnodecl;
}
#if IN_GCC
else if (ident == Id::GNU_asm)
{
if (! args || args->dim != 2)
error("identifier and string expected for asm name");
else
{
Expression *e;
Declaration *d = NULL;
StringExp *s = NULL;
e = (Expression *)args->data[0];
e = e->semantic(sc);
if (e->op == TOKvar)
{
d = ((VarExp *)e)->var;
if (! d->isFuncDeclaration() && ! d->isVarDeclaration())
d = NULL;
}
if (!d)
error("first argument of GNU_asm must be a function or variable declaration");
e = (Expression *)args->data[1];
e = e->semantic(sc);
e = e->optimize(WANTvalue);
if (e->op == TOKstring && ((StringExp *)e)->sz == 1)
s = ((StringExp *)e);
else
error("second argument of GNU_asm must be a char string");
if (d && s)
d->c_ident = Lexer::idPool((char*) s->string);
}
goto Lnodecl;
}
#endif
else
error("unrecognized pragma(%s)", ident->toChars());
if (decl)
{
for (unsigned i = 0; i < decl->dim; i++)
{
Dsymbol *s = (Dsymbol *)decl->data[i];
s->semantic(sc);
}
}
return;
Lnodecl:
if (decl)
error("pragma is missing closing ';'");
}
