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 {
- unsigned size; /**< type size in bytes */
- unsigned alignment; /**< type alignment in bytes */
- unsigned flags; /**< type flags from atomic_type_flag_t */
-};
-
/**
* Returns the size of a type node.
*
[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_REFERENCE] = sizeof(reference_type_t),
[TYPE_ARRAY] = sizeof(array_type_t),
[TYPE_TYPEDEF] = sizeof(typedef_type_t),
[TYPE_TYPEOF] = sizeof(typeof_type_t),
/**
* Properties of atomic types.
*/
-static atomic_type_properties_t atomic_type_properties[ATOMIC_TYPE_LAST+1] = {
- //ATOMIC_TYPE_INVALID = 0,
+atomic_type_properties_t atomic_type_properties[ATOMIC_TYPE_LAST+1] = {
[ATOMIC_TYPE_VOID] = {
- .size = 0,
- .alignment = 0,
- .flags = ATOMIC_TYPE_FLAG_NONE
+ .size = 0,
+ .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,
+ .size = (unsigned)-1,
+ .alignment = (unsigned)-1,
+ .flags = ATOMIC_TYPE_FLAG_INTEGER | ATOMIC_TYPE_FLAG_ARITHMETIC,
},
[ATOMIC_TYPE_CHAR] = {
- .size = 1,
- .alignment = 1,
- /* signed flag will be set when known */
- .flags = ATOMIC_TYPE_FLAG_INTEGER | ATOMIC_TYPE_FLAG_ARITHMETIC,
+ .size = 1,
+ .alignment = 1,
+ .flags = ATOMIC_TYPE_FLAG_INTEGER | ATOMIC_TYPE_FLAG_ARITHMETIC,
},
[ATOMIC_TYPE_SCHAR] = {
- .size = 1,
- .alignment = 1,
- .flags = ATOMIC_TYPE_FLAG_INTEGER | ATOMIC_TYPE_FLAG_ARITHMETIC
- | ATOMIC_TYPE_FLAG_SIGNED,
+ .size = 1,
+ .alignment = 1,
+ .flags = ATOMIC_TYPE_FLAG_INTEGER | ATOMIC_TYPE_FLAG_ARITHMETIC
+ | ATOMIC_TYPE_FLAG_SIGNED,
},
[ATOMIC_TYPE_UCHAR] = {
- .size = 1,
- .alignment = 1,
- .flags = ATOMIC_TYPE_FLAG_INTEGER | ATOMIC_TYPE_FLAG_ARITHMETIC,
+ .size = 1,
+ .alignment = 1,
+ .flags = ATOMIC_TYPE_FLAG_INTEGER | ATOMIC_TYPE_FLAG_ARITHMETIC,
},
[ATOMIC_TYPE_SHORT] = {
.size = 2,
.alignment = (unsigned) -1,
.flags = ATOMIC_TYPE_FLAG_INTEGER | ATOMIC_TYPE_FLAG_ARITHMETIC,
},
- [ATOMIC_TYPE_LONGLONG] = {
- .size = (unsigned) -1,
- .alignment = (unsigned) -1,
- .flags = ATOMIC_TYPE_FLAG_INTEGER | ATOMIC_TYPE_FLAG_ARITHMETIC
- | ATOMIC_TYPE_FLAG_SIGNED,
- },
- [ATOMIC_TYPE_ULONGLONG] = {
- .size = (unsigned) -1,
- .alignment = (unsigned) -1,
- .flags = ATOMIC_TYPE_FLAG_INTEGER | ATOMIC_TYPE_FLAG_ARITHMETIC,
- },
[ATOMIC_TYPE_BOOL] = {
- .size = (unsigned) -1,
- .alignment = (unsigned) -1,
+ .size = 1,
+ .alignment = 1,
.flags = ATOMIC_TYPE_FLAG_INTEGER | ATOMIC_TYPE_FLAG_ARITHMETIC,
},
[ATOMIC_TYPE_FLOAT] = {
.size = 4,
- .alignment = (unsigned) -1,
+ .alignment = 4,
.flags = ATOMIC_TYPE_FLAG_FLOAT | ATOMIC_TYPE_FLAG_ARITHMETIC
| ATOMIC_TYPE_FLAG_SIGNED,
},
[ATOMIC_TYPE_DOUBLE] = {
.size = 8,
- .alignment = (unsigned) -1,
- .flags = ATOMIC_TYPE_FLAG_FLOAT | ATOMIC_TYPE_FLAG_ARITHMETIC
- | ATOMIC_TYPE_FLAG_SIGNED,
- },
- [ATOMIC_TYPE_LONG_DOUBLE] = {
- .size = (unsigned) -1, /* will be filled in later */
- .alignment = (unsigned) -1,
+ .alignment = 8,
.flags = ATOMIC_TYPE_FLAG_FLOAT | ATOMIC_TYPE_FLAG_ARITHMETIC
| ATOMIC_TYPE_FLAG_SIGNED,
},
- /* complex and imaginary types are set in init_types */
+};
+atomic_type_properties_t pointer_properties = {
+ .size = 4,
+ .alignment = 4,
+ .flags = ATOMIC_TYPE_FLAG_NONE,
};
static inline bool is_po2(unsigned x)
return (x & (x-1)) == 0;
}
-void init_types(void)
+void init_types(unsigned machine_size)
{
obstack_init(&type_obst);
atomic_type_properties_t *props = atomic_type_properties;
- if (char_is_signed) {
- props[ATOMIC_TYPE_CHAR].flags |= ATOMIC_TYPE_FLAG_SIGNED;
- }
+ /* atempt to set some sane defaults based on machine size */
unsigned int_size = machine_size < 32 ? 2 : 4;
- /* 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;
- props[ATOMIC_TYPE_INT].alignment = int_size;
- props[ATOMIC_TYPE_UINT].size = int_size;
- props[ATOMIC_TYPE_UINT].alignment = int_size;
- props[ATOMIC_TYPE_LONG].size = long_size;
- props[ATOMIC_TYPE_LONG].alignment = long_size;
- props[ATOMIC_TYPE_ULONG].size = long_size;
- props[ATOMIC_TYPE_ULONG].alignment = long_size;
- props[ATOMIC_TYPE_LONGLONG].size = llong_size;
- props[ATOMIC_TYPE_LONGLONG].alignment = llong_size;
- props[ATOMIC_TYPE_ULONGLONG].size = llong_size;
- props[ATOMIC_TYPE_ULONGLONG].alignment = llong_size;
-
- /* TODO: backend specific, need a way to query the backend for this.
- * The following are good settings for x86 */
- 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;
+ unsigned long_size = machine_size < 64 ? 4 : 8;
+
+ props[ATOMIC_TYPE_INT].size = int_size;
+ props[ATOMIC_TYPE_INT].alignment = int_size;
+ props[ATOMIC_TYPE_UINT].size = int_size;
+ props[ATOMIC_TYPE_UINT].alignment = int_size;
+ props[ATOMIC_TYPE_LONG].size = long_size;
+ props[ATOMIC_TYPE_LONG].alignment = long_size;
+ props[ATOMIC_TYPE_ULONG].size = long_size;
+ props[ATOMIC_TYPE_ULONG].alignment = long_size;
+
+ pointer_properties.size = long_size;
+ pointer_properties.alignment = long_size;
+ pointer_properties.struct_alignment = long_size;
+
+ props[ATOMIC_TYPE_LONGLONG] = props[ATOMIC_TYPE_LONG];
+ props[ATOMIC_TYPE_ULONGLONG] = props[ATOMIC_TYPE_ULONG];
+ props[ATOMIC_TYPE_LONG_DOUBLE] = props[ATOMIC_TYPE_DOUBLE];
+ props[ATOMIC_TYPE_WCHAR_T] = props[ATOMIC_TYPE_INT];
+
+ /* set struct alignments to the same value as alignment */
+ for (size_t i = 0;
+ i < sizeof(atomic_type_properties)/sizeof(atomic_type_properties[0]);
+ ++i) {
+ props[i].struct_alignment = props[i].alignment;
}
-
- if (long_double_size > 0) {
- props[ATOMIC_TYPE_LONG_DOUBLE].size = long_double_size;
- if (is_po2(long_double_size)) {
- props[ATOMIC_TYPE_LONG_DOUBLE].alignment = long_double_size;
- }
- } else {
- props[ATOMIC_TYPE_LONG_DOUBLE] = props[ATOMIC_TYPE_DOUBLE];
- }
-
- /* 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)
intern_print_type_post(type->element_type);
}
-/**
- * Prints the postfix part of a bitfield type.
- *
- * @param type The array type.
- */
-static void print_bitfield_type_post(const bitfield_type_t *type)
-{
- print_string(" : ");
- print_expression(type->size_expression);
- intern_print_type_post(type->base_type);
-}
-
/**
* Prints an enum definition.
*
/* skip the implicit cast */
expression_t *expression = entry->enum_value.value;
- if (expression->kind == EXPR_UNARY_CAST_IMPLICIT) {
- expression = expression->unary.value;
- }
print_expression(expression);
}
print_string(",\n");
case TYPE_ERROR:
print_string("<error>");
return;
- case TYPE_INVALID:
- print_string("<invalid>");
- return;
case TYPE_ENUM:
print_type_enum(&type->enumt);
return;
case TYPE_REFERENCE:
print_reference_type_pre(&type->reference);
return;
- case TYPE_BITFIELD:
- intern_print_type_pre(type->bitfield.base_type);
- return;
case TYPE_ARRAY:
print_array_type_pre(&type->array);
return;
case TYPE_ARRAY:
print_array_type_post(&type->array);
return;
- case TYPE_BITFIELD:
- print_bitfield_type_post(&type->bitfield);
- return;
case TYPE_ERROR:
- case TYPE_INVALID:
case TYPE_ATOMIC:
case TYPE_COMPLEX:
case TYPE_IMAGINARY:
return identify_new_type(copy);
}
-/**
- * Check if a type is valid.
- *
- * @param type The type to check.
- * @return true if type represents a valid type.
- */
-bool type_valid(const type_t *type)
-{
- return type->kind != TYPE_INVALID;
-}
-
static bool test_atomic_type_flag(atomic_type_kind_t kind,
atomic_type_flag_t flag)
{
if (type->kind == TYPE_ENUM)
return true;
- if (type->kind == TYPE_BITFIELD)
- return true;
-
if (type->kind != TYPE_ATOMIC)
return false;
/* enum types are int for now */
if (type->kind == TYPE_ENUM)
return true;
- if (type->kind == TYPE_BITFIELD)
- return is_type_signed(type->bitfield.base_type);
-
if (type->kind != TYPE_ATOMIC)
return false;
assert(!is_typeref(type));
switch(type->kind) {
- case TYPE_BITFIELD:
case TYPE_ENUM:
return true;
case TYPE_ATOMIC:
case TYPE_IMAGINARY:
return type->imaginary.akind == ATOMIC_TYPE_VOID;
- case TYPE_BITFIELD:
case TYPE_FUNCTION:
case TYPE_POINTER:
case TYPE_REFERENCE:
case TYPE_TYPEDEF:
case TYPE_TYPEOF:
panic("is_type_incomplete called without typerefs skipped");
- case TYPE_INVALID:
- break;
}
panic("invalid type found");
case TYPE_COMPOUND_STRUCT:
case TYPE_COMPOUND_UNION: {
-
-
break;
}
case TYPE_ENUM:
/* TODO: not implemented */
break;
- case TYPE_BITFIELD:
- /* not sure if this makes sense or is even needed, implement it if you
- * really need it! */
- panic("type compatibility check for bitfield type");
-
case TYPE_ERROR:
/* Hmm, the error type should be compatible to all other types */
return true;
- case TYPE_INVALID:
- panic("invalid type found in compatible types");
case TYPE_TYPEDEF:
case TYPE_TYPEOF:
panic("typerefs not skipped in compatible types?!?");
}
- /* TODO: incomplete */
return false;
}
unsigned get_type_size(type_t *type)
{
switch (type->kind) {
- case TYPE_INVALID:
- break;
case TYPE_ERROR:
return 0;
case TYPE_ATOMIC:
return 0; /* non-const (but "address-const") */
case TYPE_REFERENCE:
case TYPE_POINTER:
- /* TODO: make configurable by backend */
- return 4;
+ return pointer_properties.size;
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_TYPEDEF:
return get_type_size(type->typedeft.typedefe->type);
case TYPE_TYPEOF:
unsigned get_type_alignment(type_t *type)
{
switch (type->kind) {
- case TYPE_INVALID:
- break;
case TYPE_ERROR:
return 0;
case TYPE_ATOMIC:
case TYPE_ENUM:
return get_atomic_type_alignment(type->enumt.akind);
case TYPE_FUNCTION:
- /* what is correct here? */
- return 4;
+ /* gcc says 1 here... */
+ return 1;
case TYPE_REFERENCE:
case TYPE_POINTER:
- /* TODO: make configurable by backend */
- return 4;
+ return pointer_properties.alignment;
case TYPE_ARRAY:
return get_type_alignment(type->array.element_type);
- case TYPE_BITFIELD:
- return 0;
case TYPE_TYPEDEF: {
il_alignment_t alignment
= get_type_alignment(type->typedeft.typedefe->type);
panic("invalid type in get_type_alignment");
}
+unsigned get_type_alignment_compound(type_t *type)
+{
+ if (type->kind == TYPE_ATOMIC)
+ return atomic_type_properties[type->atomic.akind].struct_alignment;
+ return get_type_alignment(type);
+}
+
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_IMAGINARY:
case TYPE_REFERENCE:
case TYPE_POINTER:
- case TYPE_BITFIELD:
case TYPE_ARRAY:
return 0;
case TYPE_TYPEDEF: {
return atomic_type_properties[kind].flags;
}
-atomic_type_kind_t get_intptr_kind(void)
-{
- if (machine_size <= 32)
- return ATOMIC_TYPE_INT;
- else if (machine_size <= 64)
- return ATOMIC_TYPE_LONG;
- else
- return ATOMIC_TYPE_LONGLONG;
-}
-
-atomic_type_kind_t get_uintptr_kind(void)
-{
- if (machine_size <= 32)
- return ATOMIC_TYPE_UINT;
- else if (machine_size <= 64)
- return ATOMIC_TYPE_ULONG;
- else
- return ATOMIC_TYPE_ULONGLONG;
-}
-
/**
* Find the atomic type kind representing a given size (signed).
*/
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)
+ if (!member->compound_member.bitfield)
break;
- type_t *base_type = skip_typeref(type->bitfield.base_type);
- il_alignment_t base_alignment = get_type_alignment(base_type);
+ type_t *base_type = member->declaration.type;
+ il_alignment_t base_alignment = get_type_alignment_compound(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;
+ size_t bit_size = member->compound_member.bit_size;
if (!packed) {
bit_offset += (offset & alignment_mask) * BITS_PER_BYTE;
offset &= ~alignment_mask;
continue;
}
- if (skipped->kind == TYPE_BITFIELD) {
+ if (entry->compound_member.bitfield) {
entry = pack_bitfield_members(&offset, &alignment,
compound->packed, entry);
continue;
}
- il_alignment_t m_alignment = get_type_alignment(m_type);
+ il_alignment_t m_alignment = get_type_alignment_compound(m_type);
if (m_alignment > alignment)
alignment = m_alignment;
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);
+ il_alignment_t m_alignment = get_type_alignment_compound(m_type);
if (m_alignment > alignment)
alignment = m_alignment;
}