X-Git-Url: http://nsz.repo.hu/git/?a=blobdiff_plain;f=type.c;h=67aee7687bce477522d62c6593dff5f333b17395;hb=fc4c19932ddbc935a3f601490c38bcfe62ab5a0d;hp=66401451fa4858548a0a5d7ee9ac5cd9ce4a5cf0;hpb=e5a6f04bda120e8d9d1cccb97450ca12559c9c91;p=cparser diff --git a/type.c b/type.c index 6640145..67aee76 100644 --- a/type.c +++ b/type.c @@ -1,6 +1,6 @@ /* * This file is part of cparser. - * Copyright (C) 2007-2008 Matthias Braun + * Copyright (C) 2007-2009 Matthias Braun * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License @@ -23,20 +23,27 @@ #include #include "type_t.h" +#include "types.h" #include "entity_t.h" #include "symbol_t.h" #include "type_hash.h" #include "adt/error.h" +#include "adt/util.h" #include "lang_features.h" +#include "warning.h" +#include "diagnostic.h" +#include "printer.h" +#include "driver/firm_cmdline.h" + +/** The default calling convention. */ +cc_kind_t default_calling_convention = CC_CDECL; static struct obstack _type_obst; -static FILE *out; struct obstack *type_obst = &_type_obst; -static int type_visited = 0; static bool print_implicit_array_size = false; -static void intern_print_type_pre(const type_t *type, bool top); -static void intern_print_type_post(const type_t *type, bool top); +static void intern_print_type_pre(const type_t *type); +static void intern_print_type_post(const type_t *type); typedef struct atomic_type_properties_t atomic_type_properties_t; struct atomic_type_properties_t { @@ -45,6 +52,47 @@ struct atomic_type_properties_t { unsigned flags; /**< type flags from atomic_type_flag_t */ }; +/** + * Returns the size of a type node. + * + * @param kind the type kind + */ +static size_t get_type_struct_size(type_kind_t kind) +{ + static const size_t sizes[] = { + [TYPE_ATOMIC] = sizeof(atomic_type_t), + [TYPE_COMPLEX] = sizeof(complex_type_t), + [TYPE_IMAGINARY] = sizeof(imaginary_type_t), + [TYPE_BITFIELD] = sizeof(bitfield_type_t), + [TYPE_COMPOUND_STRUCT] = sizeof(compound_type_t), + [TYPE_COMPOUND_UNION] = sizeof(compound_type_t), + [TYPE_ENUM] = sizeof(enum_type_t), + [TYPE_FUNCTION] = sizeof(function_type_t), + [TYPE_POINTER] = sizeof(pointer_type_t), + [TYPE_ARRAY] = sizeof(array_type_t), + [TYPE_BUILTIN] = sizeof(builtin_type_t), + [TYPE_TYPEDEF] = sizeof(typedef_type_t), + [TYPE_TYPEOF] = sizeof(typeof_type_t), + }; + assert(lengthof(sizes) == (int)TYPE_TYPEOF + 1); + assert(kind <= TYPE_TYPEOF); + assert(sizes[kind] != 0); + return sizes[kind]; +} + +type_t *allocate_type_zero(type_kind_t kind) +{ + size_t size = get_type_struct_size(kind); + type_t *res = obstack_alloc(type_obst, size); + memset(res, 0, size); + res->base.kind = kind; + + return res; +} + +/** + * Properties of atomic types. + */ static atomic_type_properties_t atomic_type_properties[ATOMIC_TYPE_LAST+1] = { //ATOMIC_TYPE_INVALID = 0, [ATOMIC_TYPE_VOID] = { @@ -52,6 +100,12 @@ static atomic_type_properties_t atomic_type_properties[ATOMIC_TYPE_LAST+1] = { .alignment = 0, .flags = ATOMIC_TYPE_FLAG_NONE }, + [ATOMIC_TYPE_WCHAR_T] = { + .size = (unsigned)-1, + .alignment = (unsigned)-1, + /* signed flag will be set when known */ + .flags = ATOMIC_TYPE_FLAG_INTEGER | ATOMIC_TYPE_FLAG_ARITHMETIC, + }, [ATOMIC_TYPE_CHAR] = { .size = 1, .alignment = 1, @@ -150,7 +204,8 @@ void init_types(void) } unsigned int_size = machine_size < 32 ? 2 : 4; - unsigned long_size = machine_size < 64 ? 4 : 8; + /* long is always 32bit on windows */ + unsigned long_size = c_mode & _MS ? 4 : (machine_size < 64 ? 4 : 8); unsigned llong_size = machine_size < 32 ? 4 : 8; props[ATOMIC_TYPE_INT].size = int_size; @@ -168,15 +223,29 @@ void init_types(void) /* TODO: backend specific, need a way to query the backend for this. * The following are good settings for x86 */ - props[ATOMIC_TYPE_FLOAT].alignment = 4; - props[ATOMIC_TYPE_DOUBLE].alignment = 4; - props[ATOMIC_TYPE_LONG_DOUBLE].alignment = 4; - props[ATOMIC_TYPE_LONGLONG].alignment = 4; - props[ATOMIC_TYPE_ULONGLONG].alignment = 4; + if (machine_size <= 32) { + props[ATOMIC_TYPE_FLOAT].alignment = 4; + props[ATOMIC_TYPE_DOUBLE].alignment = 4; + props[ATOMIC_TYPE_LONG_DOUBLE].alignment = 4; + props[ATOMIC_TYPE_LONGLONG].alignment = 4; + props[ATOMIC_TYPE_ULONGLONG].alignment = 4; + } else { + props[ATOMIC_TYPE_FLOAT].alignment = 4; + props[ATOMIC_TYPE_DOUBLE].alignment = 8; + props[ATOMIC_TYPE_LONG_DOUBLE].alignment = 8; + props[ATOMIC_TYPE_LONGLONG].alignment = 8; + props[ATOMIC_TYPE_ULONGLONG].alignment = 8; + } + if (force_long_double_size > 0) { + props[ATOMIC_TYPE_LONG_DOUBLE].size = force_long_double_size; + props[ATOMIC_TYPE_LONG_DOUBLE].alignment = force_long_double_size; + } /* TODO: make this configurable for platforms which do not use byte sized * bools. */ props[ATOMIC_TYPE_BOOL] = props[ATOMIC_TYPE_UCHAR]; + + props[ATOMIC_TYPE_WCHAR_T] = props[wchar_atomic_kind]; } void exit_types(void) @@ -184,30 +253,16 @@ void exit_types(void) obstack_free(type_obst, NULL); } -void type_set_output(FILE *stream) -{ - out = stream; -} - -void inc_type_visited(void) -{ - type_visited++; -} - void print_type_qualifiers(type_qualifiers_t qualifiers) { - int first = 1; if (qualifiers & TYPE_QUALIFIER_CONST) { - fputs(" const" + first, out); - first = 0; + print_string("const "); } if (qualifiers & TYPE_QUALIFIER_VOLATILE) { - fputs(" volatile" + first, out); - first = 0; + print_string("volatile "); } if (qualifiers & TYPE_QUALIFIER_RESTRICT) { - fputs(" restrict" + first, out); - first = 0; + print_string("restrict "); } } @@ -216,6 +271,7 @@ const char *get_atomic_kind_name(atomic_type_kind_t kind) switch(kind) { case ATOMIC_TYPE_INVALID: break; case ATOMIC_TYPE_VOID: return "void"; + case ATOMIC_TYPE_WCHAR_T: return "wchar_t"; case ATOMIC_TYPE_BOOL: return c_mode & _CXX ? "bool" : "_Bool"; case ATOMIC_TYPE_CHAR: return "char"; case ATOMIC_TYPE_SCHAR: return "signed char"; @@ -243,7 +299,7 @@ const char *get_atomic_kind_name(atomic_type_kind_t kind) static void print_atomic_kinds(atomic_type_kind_t kind) { const char *s = get_atomic_kind_name(kind); - fputs(s, out); + print_string(s); } /** @@ -254,8 +310,6 @@ static void print_atomic_kinds(atomic_type_kind_t kind) static void print_atomic_type(const atomic_type_t *type) { print_type_qualifiers(type->base.qualifiers); - if (type->base.qualifiers != 0) - fputc(' ', out); print_atomic_kinds(type->akind); } @@ -264,12 +318,10 @@ static void print_atomic_type(const atomic_type_t *type) * * @param type The type. */ -static -void print_complex_type(const complex_type_t *type) +static void print_complex_type(const complex_type_t *type) { - int empty = type->base.qualifiers == 0; print_type_qualifiers(type->base.qualifiers); - fputs(" _Complex " + empty, out); + print_string("_Complex"); print_atomic_kinds(type->akind); } @@ -278,12 +330,10 @@ void print_complex_type(const complex_type_t *type) * * @param type The type. */ -static -void print_imaginary_type(const imaginary_type_t *type) +static void print_imaginary_type(const imaginary_type_t *type) { - int empty = type->base.qualifiers == 0; print_type_qualifiers(type->base.qualifiers); - fputs(" _Imaginary " + empty, out); + print_string("_Imaginary "); print_atomic_kinds(type->akind); } @@ -291,9 +341,8 @@ void print_imaginary_type(const imaginary_type_t *type) * Print the first part (the prefix) of a type. * * @param type The type to print. - * @param top true, if this is the top type, false if it's an embedded type. */ -static void print_function_type_pre(const function_type_t *type, bool top) +static void print_function_type_pre(const function_type_t *type) { switch (type->linkage) { case LINKAGE_INVALID: @@ -301,48 +350,45 @@ static void print_function_type_pre(const function_type_t *type, bool top) case LINKAGE_C: if (c_mode & _CXX) - fputs("extern \"C\" ", out); + print_string("extern \"C\" "); break; case LINKAGE_CXX: if (!(c_mode & _CXX)) - fputs("extern \"C++\" ", out); + print_string("extern \"C++\" "); break; } print_type_qualifiers(type->base.qualifiers); - if (type->base.qualifiers != 0) - fputc(' ', out); - - intern_print_type_pre(type->return_type, false); - switch (type->calling_convention) { - case CC_CDECL: fputs("__cdecl ", out); break; - case CC_STDCALL: fputs("__stdcall ", out); break; - case CC_FASTCALL: fputs("__fastcall ", out); break; - case CC_THISCALL: fputs("__thiscall ", out); break; - case CC_DEFAULT: break; + intern_print_type_pre(type->return_type); + + cc_kind_t cc = type->calling_convention; +restart: + switch (cc) { + case CC_CDECL: print_string(" __cdecl"); break; + case CC_STDCALL: print_string(" __stdcall"); break; + case CC_FASTCALL: print_string(" __fastcall"); break; + case CC_THISCALL: print_string(" __thiscall"); break; + case CC_DEFAULT: + if (default_calling_convention != CC_CDECL) { + /* show the default calling convention if its not cdecl */ + cc = default_calling_convention; + goto restart; + } + break; } - - /* don't emit parenthesis if we're the toplevel type... */ - if (!top) - fputc('(', out); } /** * Print the second part (the postfix) of a type. * * @param type The type to print. - * @param top true, if this is the top type, false if it's an embedded type. */ static void print_function_type_post(const function_type_t *type, - const scope_t *parameters, bool top) + const scope_t *parameters) { - /* don't emit parenthesis if we're the toplevel type... */ - if (!top) - fputc(')', out); - - fputc('(', out); + print_string("("); bool first = true; if (parameters == NULL) { function_parameter_t *parameter = type->parameters; @@ -350,37 +396,43 @@ static void print_function_type_post(const function_type_t *type, if (first) { first = false; } else { - fputs(", ", out); + print_string(", "); } print_type(parameter->type); } } else { entity_t *parameter = parameters->entities; - for( ; parameter != NULL; parameter = parameter->base.next) { + for (; parameter != NULL; parameter = parameter->base.next) { + if (parameter->kind != ENTITY_PARAMETER) + continue; + if (first) { first = false; } else { - fputs(", ", out); + print_string(", "); + } + const type_t *const type = parameter->declaration.type; + if (type == NULL) { + print_string(parameter->base.symbol->string); + } else { + print_type_ext(type, parameter->base.symbol, NULL); } - assert(is_declaration(parameter)); - print_type_ext(parameter->declaration.type, parameter->base.symbol, - NULL); } } if (type->variadic) { if (first) { first = false; } else { - fputs(", ", out); + print_string(", "); } - fputs("...", out); + print_string("..."); } if (first && !type->unspecified_parameters) { - fputs("void", out); + print_string("void"); } - fputc(')', out); + print_string(")"); - intern_print_type_post(type->return_type, false); + intern_print_type_post(type->return_type); } /** @@ -390,38 +442,48 @@ static void print_function_type_post(const function_type_t *type, */ static void print_pointer_type_pre(const pointer_type_t *type) { - intern_print_type_pre(type->points_to, false); + type_t const *const points_to = type->points_to; + intern_print_type_pre(points_to); + if (points_to->kind == TYPE_ARRAY || points_to->kind == TYPE_FUNCTION) + print_string(" ("); variable_t *const variable = type->base_variable; if (variable != NULL) { - fputs(" __based(", out); - fputs(variable->base.base.symbol->string, out); - fputs(") ", out); + print_string(" __based("); + print_string(variable->base.base.symbol->string); + print_string(") "); } - fputs("*", out); - print_type_qualifiers(type->base.qualifiers); - if (type->base.qualifiers != 0) - fputc(' ', out); + print_string("*"); + type_qualifiers_t const qual = type->base.qualifiers; + if (qual != 0) + print_string(" "); + print_type_qualifiers(qual); } /** - * Prints the prefix part of a reference type. + * Prints the postfix part of a pointer type. * - * @param type The reference type. + * @param type The pointer type. */ -static void print_reference_type_pre(const reference_type_t *type) +static void print_pointer_type_post(const pointer_type_t *type) { - intern_print_type_pre(type->refers_to, false); - fputc('&', out); + type_t const *const points_to = type->points_to; + if (points_to->kind == TYPE_ARRAY || points_to->kind == TYPE_FUNCTION) + print_string(")"); + intern_print_type_post(points_to); } /** - * Prints the postfix part of a pointer type. + * Prints the prefix part of a reference type. * - * @param type The pointer type. + * @param type The reference type. */ -static void print_pointer_type_post(const pointer_type_t *type) +static void print_reference_type_pre(const reference_type_t *type) { - intern_print_type_post(type->points_to, false); + type_t const *const refers_to = type->refers_to; + intern_print_type_pre(refers_to); + if (refers_to->kind == TYPE_ARRAY || refers_to->kind == TYPE_FUNCTION) + print_string(" ("); + print_string("&"); } /** @@ -431,7 +493,10 @@ static void print_pointer_type_post(const pointer_type_t *type) */ static void print_reference_type_post(const reference_type_t *type) { - intern_print_type_post(type->refers_to, false); + type_t const *const refers_to = type->refers_to; + if (refers_to->kind == TYPE_ARRAY || refers_to->kind == TYPE_FUNCTION) + print_string(")"); + intern_print_type_post(refers_to); } /** @@ -441,7 +506,7 @@ static void print_reference_type_post(const reference_type_t *type) */ static void print_array_type_pre(const array_type_t *type) { - intern_print_type_pre(type->element_type, false); + intern_print_type_pre(type->element_type); } /** @@ -451,19 +516,17 @@ static void print_array_type_pre(const array_type_t *type) */ static void print_array_type_post(const array_type_t *type) { - fputc('[', out); + print_string("["); if (type->is_static) { - fputs("static ", out); + print_string("static "); } print_type_qualifiers(type->base.qualifiers); - if (type->base.qualifiers != 0) - fputc(' ', out); if (type->size_expression != NULL && (print_implicit_array_size || !type->has_implicit_size)) { print_expression(type->size_expression); } - fputc(']', out); - intern_print_type_post(type->element_type, false); + print_string("]"); + intern_print_type_post(type->element_type); } /** @@ -473,9 +536,9 @@ static void print_array_type_post(const array_type_t *type) */ static void print_bitfield_type_post(const bitfield_type_t *type) { - fputs(" : ", out); + print_string(" : "); print_expression(type->size_expression); - intern_print_type_post(type->base_type, false); + intern_print_type_post(type->base_type); } /** @@ -485,7 +548,7 @@ static void print_bitfield_type_post(const bitfield_type_t *type) */ void print_enum_definition(const enum_t *enume) { - fputs("{\n", out); + print_string("{\n"); change_indent(1); @@ -494,9 +557,9 @@ void print_enum_definition(const enum_t *enume) entry = entry->base.next) { print_indent(); - fprintf(out, "%s", entry->base.symbol->string); + print_string(entry->base.symbol->string); if (entry->enum_value.value != NULL) { - fprintf(out, " = "); + print_string(" = "); /* skip the implicit cast */ expression_t *expression = entry->enum_value.value; @@ -505,12 +568,12 @@ void print_enum_definition(const enum_t *enume) } print_expression(expression); } - fprintf(out, ",\n"); + print_string(",\n"); } change_indent(-1); print_indent(); - fputs("}", out); + print_string("}"); } /** @@ -520,14 +583,13 @@ void print_enum_definition(const enum_t *enume) */ static void print_type_enum(const enum_type_t *type) { - int empty = type->base.qualifiers == 0; print_type_qualifiers(type->base.qualifiers); - fputs(" enum " + empty, out); + print_string("enum "); enum_t *enume = type->enume; symbol_t *symbol = enume->base.symbol; if (symbol != NULL) { - fputs(symbol->string, out); + print_string(symbol->string); } else { print_enum_definition(enume); } @@ -538,7 +600,7 @@ static void print_type_enum(const enum_type_t *type) */ void print_compound_definition(const compound_t *compound) { - fputs("{\n", out); + print_string("{\n"); change_indent(1); entity_t *entity = compound->members.entities; @@ -548,14 +610,14 @@ void print_compound_definition(const compound_t *compound) print_indent(); print_entity(entity); - fputc('\n', out); + print_string("\n"); } change_indent(-1); print_indent(); - fputs("}", out); + print_string("}"); if (compound->modifiers & DM_TRANSPARENT_UNION) { - fputs("__attribute__((__transparent_union__))", out); + print_string("__attribute__((__transparent_union__))"); } } @@ -566,20 +628,19 @@ void print_compound_definition(const compound_t *compound) */ static void print_compound_type(const compound_type_t *type) { - int empty = type->base.qualifiers == 0; print_type_qualifiers(type->base.qualifiers); if (type->base.kind == TYPE_COMPOUND_STRUCT) { - fputs(" struct " + empty, out); + print_string("struct "); } else { assert(type->base.kind == TYPE_COMPOUND_UNION); - fputs(" union " + empty, out); + print_string("union "); } compound_t *compound = type->compound; symbol_t *symbol = compound->base.symbol; if (symbol != NULL) { - fputs(symbol->string, out); + print_string(symbol->string); } else { print_compound_definition(compound); } @@ -593,9 +654,7 @@ static void print_compound_type(const compound_type_t *type) static void print_typedef_type_pre(const typedef_type_t *const type) { print_type_qualifiers(type->base.qualifiers); - if (type->base.qualifiers != 0) - fputc(' ', out); - fputs(type->typedefe->base.symbol->string, out); + print_string(type->typedefe->base.symbol->string); } /** @@ -605,30 +664,28 @@ static void print_typedef_type_pre(const typedef_type_t *const type) */ static void print_typeof_type_pre(const typeof_type_t *const type) { - fputs("typeof(", out); + print_string("typeof("); if (type->expression != NULL) { - assert(type->typeof_type == NULL); print_expression(type->expression); } else { print_type(type->typeof_type); } - fputc(')', out); + print_string(")"); } /** * Prints the prefix part of a type. * * @param type The type. - * @param top true if we print the toplevel type, false else. */ -static void intern_print_type_pre(const type_t *const type, const bool top) +static void intern_print_type_pre(const type_t *const type) { switch(type->kind) { case TYPE_ERROR: - fputs("", out); + print_string(""); return; case TYPE_INVALID: - fputs("", out); + print_string(""); return; case TYPE_ENUM: print_type_enum(&type->enumt); @@ -647,10 +704,10 @@ static void intern_print_type_pre(const type_t *const type, const bool top) print_compound_type(&type->compound); return; case TYPE_BUILTIN: - fputs(type->builtin.symbol->string, out); + print_string(type->builtin.symbol->string); return; case TYPE_FUNCTION: - print_function_type_pre(&type->function, top); + print_function_type_pre(&type->function); return; case TYPE_POINTER: print_pointer_type_pre(&type->pointer); @@ -659,7 +716,7 @@ static void intern_print_type_pre(const type_t *const type, const bool top) print_reference_type_pre(&type->reference); return; case TYPE_BITFIELD: - intern_print_type_pre(type->bitfield.base_type, top); + intern_print_type_pre(type->bitfield.base_type); return; case TYPE_ARRAY: print_array_type_pre(&type->array); @@ -671,20 +728,19 @@ static void intern_print_type_pre(const type_t *const type, const bool top) print_typeof_type_pre(&type->typeoft); return; } - fputs("unknown", out); + print_string("unknown"); } /** * Prints the postfix part of a type. * * @param type The type. - * @param top true if we print the toplevel type, false else. */ -static void intern_print_type_post(const type_t *const type, const bool top) +static void intern_print_type_post(const type_t *const type) { switch(type->kind) { case TYPE_FUNCTION: - print_function_type_post(&type->function, NULL, top); + print_function_type_post(&type->function, NULL); return; case TYPE_POINTER: print_pointer_type_post(&type->pointer); @@ -711,10 +767,6 @@ static void intern_print_type_post(const type_t *const type, const bool top) case TYPE_TYPEDEF: break; } - - if (type->base.modifiers & DM_TRANSPARENT_UNION) { - fputs("__attribute__((__transparent_union__))", out); - } } /** @@ -731,48 +783,20 @@ void print_type_ext(const type_t *const type, const symbol_t *symbol, const scope_t *parameters) { if (type == NULL) { - fputs("nil type", out); + print_string("nil type"); return; } - intern_print_type_pre(type, true); + intern_print_type_pre(type); if (symbol != NULL) { - fputc(' ', out); - fputs(symbol->string, out); + print_string(" "); + print_string(symbol->string); } if (type->kind == TYPE_FUNCTION) { - print_function_type_post(&type->function, parameters, true); + print_function_type_post(&type->function, parameters); } else { - intern_print_type_post(type, true); - } -} - -/** - * Return the size of a type AST node. - * - * @param type The type. - */ -static size_t get_type_size(const type_t *type) -{ - switch(type->kind) { - case TYPE_ATOMIC: return sizeof(atomic_type_t); - case TYPE_COMPLEX: return sizeof(complex_type_t); - case TYPE_IMAGINARY: return sizeof(imaginary_type_t); - case TYPE_COMPOUND_STRUCT: - case TYPE_COMPOUND_UNION: return sizeof(compound_type_t); - case TYPE_ENUM: return sizeof(enum_type_t); - case TYPE_FUNCTION: return sizeof(function_type_t); - case TYPE_POINTER: return sizeof(pointer_type_t); - case TYPE_REFERENCE: return sizeof(reference_type_t); - case TYPE_ARRAY: return sizeof(array_type_t); - case TYPE_BUILTIN: return sizeof(builtin_type_t); - case TYPE_TYPEDEF: return sizeof(typedef_type_t); - case TYPE_TYPEOF: return sizeof(typeof_type_t); - case TYPE_BITFIELD: return sizeof(bitfield_type_t); - case TYPE_ERROR: panic("error type found"); - case TYPE_INVALID: panic("invalid type found"); + intern_print_type_post(type); } - panic("unknown type found"); } /** @@ -785,10 +809,11 @@ static size_t get_type_size(const type_t *type) */ type_t *duplicate_type(const type_t *type) { - size_t size = get_type_size(type); + size_t size = get_type_struct_size(type->kind); type_t *copy = obstack_alloc(type_obst, size); memcpy(copy, type, size); + copy->base.firm_type = NULL; return copy; } @@ -809,12 +834,7 @@ type_t *get_unqualified_type(type_t *type) type_t *unqualified_type = duplicate_type(type); unqualified_type->base.qualifiers = TYPE_QUALIFIER_NONE; - type_t *result = typehash_insert(unqualified_type); - if (result != unqualified_type) { - obstack_free(type_obst, unqualified_type); - } - - return result; + return identify_new_type(unqualified_type); } type_t *get_qualified_type(type_t *orig_type, type_qualifiers_t const qual) @@ -842,11 +862,7 @@ type_t *get_qualified_type(type_t *orig_type, type_qualifiers_t const qual) return type; } - type = typehash_insert(copy); - if (type != copy) - obstack_free(type_obst, copy); - - return type; + return identify_new_type(copy); } /** @@ -1002,9 +1018,9 @@ bool is_type_scalar(const type_t *type) assert(!is_typeref(type)); switch (type->kind) { - case TYPE_POINTER: return true; - case TYPE_BUILTIN: return is_type_scalar(type->builtin.real_type); - default: break; + case TYPE_POINTER: return true; + case TYPE_BUILTIN: return is_type_scalar(type->builtin.real_type); + default: break; } return is_type_arithmetic(type); @@ -1065,6 +1081,14 @@ bool is_type_object(const type_t *type) return !is_type_function(type) && !is_type_incomplete(type); } +bool is_builtin_va_list(type_t *type) +{ + type_t *tp = skip_typeref(type); + + return tp->kind == type_valist->kind && + tp->builtin.symbol == type_valist->builtin.symbol; +} + /** * Check if two function types are compatible. */ @@ -1079,16 +1103,24 @@ static bool function_types_compatible(const function_type_t *func1, if (func1->linkage != func2->linkage) return false; - if (func1->calling_convention != func2->calling_convention) - return false; + cc_kind_t cc1 = func1->calling_convention; + if (cc1 == CC_DEFAULT) + cc1 = default_calling_convention; + cc_kind_t cc2 = func2->calling_convention; + if (cc2 == CC_DEFAULT) + cc2 = default_calling_convention; - /* can parameters be compared? */ - if (func1->unspecified_parameters || func2->unspecified_parameters) - return true; + if (cc1 != cc2) + return false; if (func1->variadic != func2->variadic) return false; + /* can parameters be compared? */ + if ((func1->unspecified_parameters && !func1->kr_style_parameters) + || (func2->unspecified_parameters && !func2->kr_style_parameters)) + return true; + /* TODO: handling of unspecified parameters not correct yet */ /* all argument types must be compatible */ @@ -1174,7 +1206,11 @@ bool types_compatible(const type_t *type1, const type_t *type2) } case TYPE_COMPOUND_STRUCT: - case TYPE_COMPOUND_UNION: + case TYPE_COMPOUND_UNION: { + + + break; + } case TYPE_ENUM: case TYPE_BUILTIN: /* TODO: not implemented */ @@ -1205,7 +1241,6 @@ bool types_compatible(const type_t *type1, const type_t *type2) type_t *skip_typeref(type_t *type) { type_qualifiers_t qualifiers = TYPE_QUALIFIER_NONE; - type_modifiers_t modifiers = TYPE_MODIFIER_NONE; while (true) { switch (type->kind) { @@ -1213,7 +1248,7 @@ type_t *skip_typeref(type_t *type) return type; case TYPE_TYPEDEF: { qualifiers |= type->base.qualifiers; - modifiers |= type->base.modifiers; + const typedef_type_t *typedef_type = &type->typedeft; if (typedef_type->resolved_type != NULL) { type = typedef_type->resolved_type; @@ -1222,22 +1257,17 @@ type_t *skip_typeref(type_t *type) type = typedef_type->typedefe->type; continue; } - case TYPE_TYPEOF: { - const typeof_type_t *typeof_type = &type->typeoft; - if (typeof_type->typeof_type != NULL) { - type = typeof_type->typeof_type; - } else { - type = typeof_type->expression->base.type; - } + case TYPE_TYPEOF: + qualifiers |= type->base.qualifiers; + type = type->typeoft.typeof_type; continue; - } default: break; } break; } - if (qualifiers != TYPE_QUALIFIER_NONE || modifiers != TYPE_MODIFIER_NONE) { + if (qualifiers != TYPE_QUALIFIER_NONE) { type_t *const copy = duplicate_type(type); /* for const with typedefed array type the element type has to be @@ -1246,23 +1276,156 @@ type_t *skip_typeref(type_t *type) type_t *element_type = copy->array.element_type; element_type = duplicate_type(element_type); element_type->base.qualifiers |= qualifiers; - element_type->base.modifiers |= modifiers; copy->array.element_type = element_type; } else { copy->base.qualifiers |= qualifiers; - copy->base.modifiers |= modifiers; } - type = typehash_insert(copy); - if (type != copy) { - obstack_free(type_obst, copy); - } + type = identify_new_type(copy); } return type; } -type_qualifiers_t get_type_qualifier(const type_t *type, bool skip_array_type) { +unsigned get_type_size(type_t *type) +{ + switch (type->kind) { + case TYPE_INVALID: + break; + case TYPE_ERROR: + return 0; + case TYPE_ATOMIC: + return get_atomic_type_size(type->atomic.akind); + case TYPE_COMPLEX: + return get_atomic_type_size(type->complex.akind) * 2; + case TYPE_IMAGINARY: + return get_atomic_type_size(type->imaginary.akind); + case TYPE_COMPOUND_UNION: + layout_union_type(&type->compound); + return type->compound.compound->size; + case TYPE_COMPOUND_STRUCT: + layout_struct_type(&type->compound); + return type->compound.compound->size; + case TYPE_ENUM: + return get_atomic_type_size(type->enumt.akind); + case TYPE_FUNCTION: + return 0; /* non-const (but "address-const") */ + case TYPE_REFERENCE: + case TYPE_POINTER: + /* TODO: make configurable by backend */ + return 4; + case TYPE_ARRAY: { + /* TODO: correct if element_type is aligned? */ + il_size_t element_size = get_type_size(type->array.element_type); + return type->array.size * element_size; + } + case TYPE_BITFIELD: + return 0; + case TYPE_BUILTIN: + return get_type_size(type->builtin.real_type); + case TYPE_TYPEDEF: + return get_type_size(type->typedeft.typedefe->type); + case TYPE_TYPEOF: + if (type->typeoft.typeof_type) { + return get_type_size(type->typeoft.typeof_type); + } else { + return get_type_size(type->typeoft.expression->base.type); + } + } + panic("invalid type in get_type_size"); +} + +unsigned get_type_alignment(type_t *type) +{ + switch (type->kind) { + case TYPE_INVALID: + break; + case TYPE_ERROR: + return 0; + case TYPE_ATOMIC: + return get_atomic_type_alignment(type->atomic.akind); + case TYPE_COMPLEX: + return get_atomic_type_alignment(type->complex.akind); + case TYPE_IMAGINARY: + return get_atomic_type_alignment(type->imaginary.akind); + case TYPE_COMPOUND_UNION: + layout_union_type(&type->compound); + return type->compound.compound->alignment; + case TYPE_COMPOUND_STRUCT: + layout_struct_type(&type->compound); + return type->compound.compound->alignment; + case TYPE_ENUM: + return get_atomic_type_alignment(type->enumt.akind); + case TYPE_FUNCTION: + /* what is correct here? */ + return 4; + case TYPE_REFERENCE: + case TYPE_POINTER: + /* TODO: make configurable by backend */ + return 4; + case TYPE_ARRAY: + return get_type_alignment(type->array.element_type); + case TYPE_BITFIELD: + return 0; + case TYPE_BUILTIN: + return get_type_alignment(type->builtin.real_type); + case TYPE_TYPEDEF: { + il_alignment_t alignment + = get_type_alignment(type->typedeft.typedefe->type); + if (type->typedeft.typedefe->alignment > alignment) + alignment = type->typedeft.typedefe->alignment; + + return alignment; + } + case TYPE_TYPEOF: + if (type->typeoft.typeof_type) { + return get_type_alignment(type->typeoft.typeof_type); + } else { + return get_type_alignment(type->typeoft.expression->base.type); + } + } + panic("invalid type in get_type_alignment"); +} + +decl_modifiers_t get_type_modifiers(const type_t *type) +{ + switch(type->kind) { + case TYPE_INVALID: + case TYPE_ERROR: + break; + case TYPE_COMPOUND_STRUCT: + case TYPE_COMPOUND_UNION: + return type->compound.compound->modifiers; + case TYPE_FUNCTION: + return type->function.modifiers; + case TYPE_ENUM: + case TYPE_ATOMIC: + case TYPE_COMPLEX: + case TYPE_IMAGINARY: + case TYPE_REFERENCE: + case TYPE_POINTER: + case TYPE_BITFIELD: + case TYPE_ARRAY: + return 0; + case TYPE_BUILTIN: + return get_type_modifiers(type->builtin.real_type); + case TYPE_TYPEDEF: { + decl_modifiers_t modifiers = type->typedeft.typedefe->modifiers; + modifiers |= get_type_modifiers(type->typedeft.typedefe->type); + return modifiers; + } + case TYPE_TYPEOF: + if (type->typeoft.typeof_type) { + return get_type_modifiers(type->typeoft.typeof_type); + } else { + return get_type_modifiers(type->typeoft.expression->base.type); + } + } + panic("invalid type found in get_type_modifiers"); +} + +type_qualifiers_t get_type_qualifier(const type_t *type, bool skip_array_type) +{ type_qualifiers_t qualifiers = TYPE_QUALIFIER_NONE; while (true) { @@ -1277,15 +1440,9 @@ type_qualifiers_t get_type_qualifier(const type_t *type, bool skip_array_type) { else type = typedef_type->typedefe->type; continue; - case TYPE_TYPEOF: { - const typeof_type_t *typeof_type = &type->typeoft; - if (typeof_type->typeof_type != NULL) { - type = typeof_type->typeof_type; - } else { - type = typeof_type->expression->base.type; - } + case TYPE_TYPEOF: + type = type->typeoft.typeof_type; continue; - } case TYPE_ARRAY: if (skip_array_type) { type = type->array.element_type; @@ -1341,7 +1498,8 @@ atomic_type_kind_t get_uintptr_kind(void) /** * Find the atomic type kind representing a given size (signed). */ -atomic_type_kind_t find_signed_int_atomic_type_kind_for_size(unsigned size) { +atomic_type_kind_t find_signed_int_atomic_type_kind_for_size(unsigned size) +{ static atomic_type_kind_t kinds[32]; assert(size < 32); @@ -1354,7 +1512,7 @@ atomic_type_kind_t find_signed_int_atomic_type_kind_for_size(unsigned size) { ATOMIC_TYPE_LONG, ATOMIC_TYPE_LONGLONG }; - for(unsigned i = 0; i < sizeof(possible_kinds)/sizeof(possible_kinds[0]); ++i) { + for (size_t i = 0; i < lengthof(possible_kinds); ++i) { if (get_atomic_type_size(possible_kinds[i]) == size) { kind = possible_kinds[i]; break; @@ -1368,7 +1526,8 @@ atomic_type_kind_t find_signed_int_atomic_type_kind_for_size(unsigned size) { /** * Find the atomic type kind representing a given size (signed). */ -atomic_type_kind_t find_unsigned_int_atomic_type_kind_for_size(unsigned size) { +atomic_type_kind_t find_unsigned_int_atomic_type_kind_for_size(unsigned size) +{ static atomic_type_kind_t kinds[32]; assert(size < 32); @@ -1381,7 +1540,7 @@ atomic_type_kind_t find_unsigned_int_atomic_type_kind_for_size(unsigned size) { ATOMIC_TYPE_ULONG, ATOMIC_TYPE_ULONGLONG }; - for(unsigned i = 0; i < sizeof(possible_kinds)/sizeof(possible_kinds[0]); ++i) { + for (size_t i = 0; i < lengthof(possible_kinds); ++i) { if (get_atomic_type_size(possible_kinds[i]) == size) { kind = possible_kinds[i]; break; @@ -1396,7 +1555,7 @@ atomic_type_kind_t find_unsigned_int_atomic_type_kind_for_size(unsigned size) { * Hash the given type and return the "singleton" version * of it. */ -static type_t *identify_new_type(type_t *type) +type_t *identify_new_type(type_t *type) { type_t *result = typehash_insert(type); if (result != type) { @@ -1417,8 +1576,6 @@ type_t *make_atomic_type(atomic_type_kind_t akind, type_qualifiers_t qualifiers) memset(type, 0, sizeof(atomic_type_t)); type->kind = TYPE_ATOMIC; - type->base.size = get_atomic_type_size(akind); - type->base.alignment = get_atomic_type_alignment(akind); type->base.qualifiers = qualifiers; type->atomic.akind = akind; @@ -1438,7 +1595,6 @@ type_t *make_complex_type(atomic_type_kind_t akind, type_qualifiers_t qualifiers type->kind = TYPE_COMPLEX; type->base.qualifiers = qualifiers; - type->base.alignment = get_atomic_type_alignment(akind); type->complex.akind = akind; return identify_new_type(type); @@ -1457,7 +1613,6 @@ type_t *make_imaginary_type(atomic_type_kind_t akind, type_qualifiers_t qualifie type->kind = TYPE_IMAGINARY; type->base.qualifiers = qualifiers; - type->base.alignment = get_atomic_type_alignment(akind); type->imaginary.akind = akind; return identify_new_type(type); @@ -1476,7 +1631,6 @@ type_t *make_pointer_type(type_t *points_to, type_qualifiers_t qualifiers) type->kind = TYPE_POINTER; type->base.qualifiers = qualifiers; - type->base.alignment = 0; type->pointer.points_to = points_to; type->pointer.base_variable = NULL; @@ -1495,7 +1649,6 @@ type_t *make_reference_type(type_t *refers_to) type->kind = TYPE_REFERENCE; type->base.qualifiers = 0; - type->base.alignment = 0; type->reference.refers_to = refers_to; return identify_new_type(type); @@ -1516,7 +1669,6 @@ type_t *make_based_pointer_type(type_t *points_to, type->kind = TYPE_POINTER; type->base.qualifiers = qualifiers; - type->base.alignment = 0; type->pointer.points_to = points_to; type->pointer.base_variable = variable; @@ -1532,7 +1684,6 @@ type_t *make_array_type(type_t *element_type, size_t size, type->kind = TYPE_ARRAY; type->base.qualifiers = qualifiers; - type->base.alignment = 0; type->array.element_type = element_type; type->array.size = size; type->array.size_constant = true; @@ -1540,16 +1691,316 @@ type_t *make_array_type(type_t *element_type, size_t size, return identify_new_type(type); } +static entity_t *pack_bitfield_members_big_endian(il_size_t *struct_offset, + il_alignment_t *struct_alignment, bool packed, entity_t *first) +{ + type_t *current_base_type = NULL; + il_size_t offset = *struct_offset; + il_alignment_t alignment = *struct_alignment; + size_t bit_offset = 0; + + if (packed) + panic("packed bitfields on big-endian arch not supported yet"); + + entity_t *member; + for (member = first; member != NULL; member = member->base.next) { + if (member->kind != ENTITY_COMPOUND_MEMBER) + continue; + + type_t *type = member->declaration.type; + if (type->kind != TYPE_BITFIELD) + break; + + size_t bit_size = type->bitfield.bit_size; + type_t *base_type = skip_typeref(type->bitfield.base_type); + + /* see if we need to start a new "bucket" */ + if (base_type != current_base_type || bit_size > bit_offset) { + if (current_base_type != NULL) + offset += get_type_size(current_base_type); + + current_base_type = base_type; + il_alignment_t base_alignment = get_type_alignment(base_type); + il_alignment_t alignment_mask = base_alignment-1; + if (base_alignment > alignment) + alignment = base_alignment; + offset = (offset + base_alignment-1) & ~alignment_mask; + bit_offset = get_type_size(base_type) * BITS_PER_BYTE; + assert(bit_offset >= bit_size); + } + + bit_offset -= bit_size; + member->compound_member.offset = offset; + member->compound_member.bit_offset = bit_offset; + } + + if (current_base_type != NULL) + offset += get_type_size(current_base_type); + + *struct_offset = offset; + *struct_alignment = alignment; + return member; +} + +static entity_t *pack_bitfield_members(il_size_t *struct_offset, + il_alignment_t *struct_alignment, + bool packed, entity_t *first) +{ + il_size_t offset = *struct_offset; + il_alignment_t alignment = *struct_alignment; + size_t bit_offset = 0; + + entity_t *member; + for (member = first; member != NULL; member = member->base.next) { + if (member->kind != ENTITY_COMPOUND_MEMBER) + continue; + + type_t *type = member->declaration.type; + if (type->kind != TYPE_BITFIELD) + break; + + type_t *base_type = skip_typeref(type->bitfield.base_type); + il_alignment_t base_alignment = get_type_alignment(base_type); + il_alignment_t alignment_mask = base_alignment-1; + if (base_alignment > alignment) + alignment = base_alignment; + + size_t bit_size = type->bitfield.bit_size; + if (!packed) { + bit_offset += (offset & alignment_mask) * BITS_PER_BYTE; + offset &= ~alignment_mask; + size_t base_size = get_type_size(base_type) * BITS_PER_BYTE; + + if (bit_offset + bit_size > base_size || bit_size == 0) { + offset += (bit_offset+BITS_PER_BYTE-1) / BITS_PER_BYTE; + offset = (offset + base_alignment-1) & ~alignment_mask; + bit_offset = 0; + } + } + + member->compound_member.offset = offset; + member->compound_member.bit_offset = bit_offset; + + bit_offset += bit_size; + offset += bit_offset / BITS_PER_BYTE; + bit_offset %= BITS_PER_BYTE; + } + + if (bit_offset > 0) + offset += 1; + + *struct_offset = offset; + *struct_alignment = alignment; + return member; +} + +void layout_struct_type(compound_type_t *type) +{ + assert(type->compound != NULL); + + compound_t *compound = type->compound; + if (!compound->complete) + return; + if (type->compound->layouted) + return; + + il_size_t offset = 0; + il_alignment_t alignment = compound->alignment; + bool need_pad = false; + + entity_t *entry = compound->members.entities; + while (entry != NULL) { + if (entry->kind != ENTITY_COMPOUND_MEMBER) { + entry = entry->base.next; + continue; + } + + type_t *m_type = entry->declaration.type; + type_t *skipped = skip_typeref(m_type); + if (! is_type_valid(skipped)) { + entry = entry->base.next; + continue; + } + + if (skipped->kind == TYPE_BITFIELD) { + if (byte_order_big_endian) { + entry = pack_bitfield_members_big_endian(&offset, &alignment, + compound->packed, + entry); + } else { + entry = pack_bitfield_members(&offset, &alignment, + compound->packed, entry); + } + continue; + } + + il_alignment_t m_alignment = get_type_alignment(m_type); + if (m_alignment > alignment) + alignment = m_alignment; + + if (!compound->packed) { + il_size_t new_offset = (offset + m_alignment-1) & -m_alignment; + + if (new_offset > offset) { + need_pad = true; + offset = new_offset; + } + } + + entry->compound_member.offset = offset; + offset += get_type_size(m_type); + + entry = entry->base.next; + } + + if (!compound->packed) { + il_size_t new_offset = (offset + alignment-1) & -alignment; + if (new_offset > offset) { + need_pad = true; + offset = new_offset; + } + } + + if (need_pad) { + if (warning.padded) { + warningf(&compound->base.source_position, "'%T' needs padding", + type); + } + } else if (compound->packed && warning.packed) { + warningf(&compound->base.source_position, + "superfluous packed attribute on '%T'", type); + } + + compound->size = offset; + compound->alignment = alignment; + compound->layouted = true; +} + +void layout_union_type(compound_type_t *type) +{ + assert(type->compound != NULL); + + compound_t *compound = type->compound; + if (! compound->complete) + return; + + il_size_t size = 0; + il_alignment_t alignment = compound->alignment; + + entity_t *entry = compound->members.entities; + for (; entry != NULL; entry = entry->base.next) { + if (entry->kind != ENTITY_COMPOUND_MEMBER) + continue; + + type_t *m_type = entry->declaration.type; + if (! is_type_valid(skip_typeref(m_type))) + continue; + + entry->compound_member.offset = 0; + il_size_t m_size = get_type_size(m_type); + if (m_size > size) + size = m_size; + il_alignment_t m_alignment = get_type_alignment(m_type); + if (m_alignment > alignment) + alignment = m_alignment; + } + size = (size + alignment - 1) & -alignment; + + compound->size = size; + compound->alignment = alignment; +} + +static function_parameter_t *allocate_parameter(type_t *const type) +{ + function_parameter_t *const param + = obstack_alloc(type_obst, sizeof(*param)); + memset(param, 0, sizeof(*param)); + param->type = type; + return param; +} + +type_t *make_function_2_type(type_t *return_type, type_t *argument_type1, + type_t *argument_type2) +{ + function_parameter_t *const parameter2 = allocate_parameter(argument_type2); + function_parameter_t *const parameter1 = allocate_parameter(argument_type1); + parameter1->next = parameter2; + + type_t *type = allocate_type_zero(TYPE_FUNCTION); + type->function.return_type = return_type; + type->function.parameters = parameter1; + type->function.linkage = LINKAGE_C; + + return identify_new_type(type); +} + +type_t *make_function_1_type(type_t *return_type, type_t *argument_type) +{ + function_parameter_t *const parameter = allocate_parameter(argument_type); + + type_t *type = allocate_type_zero(TYPE_FUNCTION); + type->function.return_type = return_type; + type->function.parameters = parameter; + type->function.linkage = LINKAGE_C; + + return identify_new_type(type); +} + +type_t *make_function_1_type_variadic(type_t *return_type, + type_t *argument_type) +{ + function_parameter_t *const parameter = allocate_parameter(argument_type); + + type_t *type = allocate_type_zero(TYPE_FUNCTION); + type->function.return_type = return_type; + type->function.parameters = parameter; + type->function.variadic = true; + type->function.linkage = LINKAGE_C; + + return identify_new_type(type); +} + +type_t *make_function_0_type(type_t *return_type) +{ + type_t *type = allocate_type_zero(TYPE_FUNCTION); + type->function.return_type = return_type; + type->function.parameters = NULL; + type->function.linkage = LINKAGE_C; + + return identify_new_type(type); +} + +type_t *make_function_type(type_t *return_type, int n_types, + type_t *const *argument_types, + decl_modifiers_t modifiers) +{ + type_t *type = allocate_type_zero(TYPE_FUNCTION); + type->function.return_type = return_type; + type->function.modifiers |= modifiers; + type->function.linkage = LINKAGE_C; + + function_parameter_t *last = NULL; + for (int i = 0; i < n_types; ++i) { + function_parameter_t *parameter = allocate_parameter(argument_types[i]); + if (last == NULL) { + type->function.parameters = parameter; + } else { + last->next = parameter; + } + last = parameter; + } + + return identify_new_type(type); +} + /** * Debug helper. Prints the given type to stdout. */ static __attribute__((unused)) void dbg_type(const type_t *type) { - FILE *old_out = out; - out = stderr; + print_to_file(stderr); print_type(type); - puts("\n"); + print_string("\n"); fflush(stderr); - out = old_out; }