void c_typecheck_baset::typecheck_type(typet &type) { // we first convert, and then check // do we have alignment? if(type.find(ID_C_alignment).is_not_nil()) { exprt &alignment=static_cast<exprt &>(type.add(ID_C_alignment)); if(alignment.id()!=ID_default) { typecheck_expr(alignment); make_constant(alignment); } } if(type.id()==ID_code) typecheck_code_type(to_code_type(type)); else if(type.id()==ID_array) typecheck_array_type(to_array_type(type)); else if(type.id()==ID_pointer) typecheck_type(type.subtype()); else if(type.id()==ID_struct || type.id()==ID_union) typecheck_compound_type(to_struct_union_type(type)); else if(type.id()==ID_c_enum) { } else if(type.id()==ID_c_bitfield) typecheck_c_bit_field_type(type); else if(type.id()==ID_typeof) typecheck_typeof_type(type); else if(type.id()==ID_symbol) typecheck_symbol_type(type); else if(type.id()==ID_vector) typecheck_vector_type(to_vector_type(type)); else if(type.id()==ID_custom_unsignedbv || type.id()==ID_custom_signedbv || type.id()==ID_custom_floatbv || type.id()==ID_custom_fixedbv) typecheck_custom_type(type); // do a bit of rule checking if(type.get_bool(ID_C_restricted) && type.id()!=ID_pointer && type.id()!=ID_array) { err_location(type); error("only a pointer can be 'restrict'"); throw 0; } }
void c_typecheck_baset::typecheck_type(typet &type) { // we first convert, and then check { ansi_c_convert_typet ansi_c_convert_type(get_message_handler()); ansi_c_convert_type.read(type); ansi_c_convert_type.write(type); } if(type.id()==ID_already_typechecked) { // need to preserve any qualifiers c_qualifierst c_qualifiers(type); c_qualifiers+=c_qualifierst(type.subtype()); bool packed=type.get_bool(ID_C_packed); exprt alignment=static_cast<const exprt &>(type.find(ID_C_alignment)); irept _typedef=type.find(ID_C_typedef); type=type.subtype(); c_qualifiers.write(type); if(packed) type.set(ID_C_packed, true); if(alignment.is_not_nil()) type.add(ID_C_alignment, alignment); if(_typedef.is_not_nil()) type.add(ID_C_typedef, _typedef); return; // done } // do we have alignment? if(type.find(ID_C_alignment).is_not_nil()) { exprt &alignment=static_cast<exprt &>(type.add(ID_C_alignment)); if(alignment.id()!=ID_default) { typecheck_expr(alignment); make_constant(alignment); } } if(type.id()==ID_code) typecheck_code_type(to_code_type(type)); else if(type.id()==ID_array) typecheck_array_type(to_array_type(type)); else if(type.id()==ID_pointer) typecheck_type(type.subtype()); else if(type.id()==ID_struct || type.id()==ID_union) typecheck_compound_type(to_struct_union_type(type)); else if(type.id()==ID_c_enum) typecheck_c_enum_type(type); else if(type.id()==ID_c_enum_tag) typecheck_c_enum_tag_type(to_c_enum_tag_type(type)); else if(type.id()==ID_c_bit_field) typecheck_c_bit_field_type(to_c_bit_field_type(type)); else if(type.id()==ID_typeof) typecheck_typeof_type(type); else if(type.id()==ID_symbol) typecheck_symbol_type(type); else if(type.id()==ID_vector) typecheck_vector_type(to_vector_type(type)); else if(type.id()==ID_custom_unsignedbv || type.id()==ID_custom_signedbv || type.id()==ID_custom_floatbv || type.id()==ID_custom_fixedbv) typecheck_custom_type(type); else if(type.id()==ID_gcc_attribute_mode) { // get that mode irep_idt mode=type.get(ID_size); // A list of all modes ist at // http://www.delorie.com/gnu/docs/gcc/gccint_53.html typecheck_type(type.subtype()); typet underlying_type=type.subtype(); // gcc allows this, but clang doesn't; it's a compiler hint only, // but we'll try to interpret it the GCC way if(underlying_type.id()==ID_c_enum_tag) { underlying_type= follow_tag(to_c_enum_tag_type(underlying_type)).subtype(); assert(underlying_type.id()==ID_signedbv || underlying_type.id()==ID_unsignedbv); } if(underlying_type.id()==ID_signedbv || underlying_type.id()==ID_unsignedbv) { bool is_signed=underlying_type.id()==ID_signedbv; typet result; if(mode=="__QI__") // 8 bits result=is_signed?signed_char_type():unsigned_char_type(); else if(mode=="__byte__") // 8 bits result=is_signed?signed_char_type():unsigned_char_type(); else if(mode=="__HI__") // 16 bits result=is_signed?signed_short_int_type():unsigned_short_int_type(); else if(mode=="__SI__") // 32 bits result=is_signed?signed_int_type():unsigned_int_type(); else if(mode=="__word__") // long int, we think result=is_signed?signed_long_int_type():unsigned_long_int_type(); else if(mode=="__pointer__") // we think this is size_t/ssize_t result=is_signed?signed_size_type():size_type(); else if(mode=="__DI__") // 64 bits { if(config.ansi_c.long_int_width==64) result=is_signed?signed_long_int_type():unsigned_long_int_type(); else { assert(config.ansi_c.long_long_int_width==64); result= is_signed?signed_long_long_int_type():unsigned_long_long_int_type(); } } else if(mode=="__TI__") // 128 bits result=is_signed?gcc_signed_int128_type():gcc_unsigned_int128_type(); else if(mode=="__V2SI__") // vector of 2 ints, deprecated by gcc result= vector_typet( is_signed?signed_int_type():unsigned_int_type(), from_integer(2, size_type())); else if(mode=="__V4SI__") // vector of 4 ints, deprecated by gcc result= vector_typet( is_signed?signed_int_type():unsigned_int_type(), from_integer(4, size_type())); else // give up, just use subtype result=type.subtype(); // save the location result.add_source_location()=type.source_location(); if(type.subtype().id()==ID_c_enum_tag) { const irep_idt &tag_name= to_c_enum_tag_type(type.subtype()).get_identifier(); symbol_tablet::symbolst::iterator entry= symbol_table.symbols.find(tag_name); assert(entry!=symbol_table.symbols.end()); entry->second.type.subtype()=result; } type=result; } else if(underlying_type.id()==ID_floatbv) { typet result; if(mode=="__SF__") // 32 bits result=float_type(); else if(mode=="__DF__") // 64 bits result=double_type(); else if(mode=="__TF__") // 128 bits result=gcc_float128_type(); else if(mode=="__V2SF__") // vector of 2 floats, deprecated by gcc result=vector_typet(float_type(), from_integer(2, size_type())); else if(mode=="__V2DF__") // vector of 2 doubles, deprecated by gcc result=vector_typet(double_type(), from_integer(2, size_type())); else if(mode=="__V4SF__") // vector of 4 floats, deprecated by gcc result=vector_typet(float_type(), from_integer(4, size_type())); else if(mode=="__V4DF__") // vector of 4 doubles, deprecated by gcc result=vector_typet(double_type(), from_integer(4, size_type())); else // give up, just use subtype result=type.subtype(); // save the location result.add_source_location()=type.source_location(); type=result; } else if(underlying_type.id()==ID_complex) { // gcc allows this, but clang doesn't -- see enums above typet result; if(mode=="__SC__") // 32 bits result=float_type(); else if(mode=="__DC__") // 64 bits result=double_type(); else if(mode=="__TC__") // 128 bits result=gcc_float128_type(); else // give up, just use subtype result=type.subtype(); // save the location result.add_source_location()=type.source_location(); type=complex_typet(result); } else { error().source_location=type.source_location(); error() << "attribute mode `" << mode << "' applied to inappropriate type `" << to_string(type) << "'" << eom; throw 0; } } // do a mild bit of rule checking if(type.get_bool(ID_C_restricted) && type.id()!=ID_pointer && type.id()!=ID_array) { error().source_location=type.source_location(); error() << "only a pointer can be 'restrict'" << eom; throw 0; } }