darling-libobjc2/encoding2.c

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#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <ctype.h>
#include "objc/runtime.h"
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#include "objc/encoding.h"
#include "method_list.h"
#include "visibility.h"
size_t objc_alignof_type (const char *type);
// It would be so nice if this works, but in fact it returns nonsense:
//#define alignof(x) __alignof__(x)
//
#define alignof(type) __builtin_offsetof(struct { const char c; type member; }, member)
const char *objc_skip_type_qualifiers (const char *type)
{
static const char *type_qualifiers = "rnNoORV";
while('\0' != *type && strchr(type_qualifiers, *type))
{
type++;
}
return type;
}
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static const char *sizeof_type(const char *type, size_t *size);
const char *objc_skip_typespec(const char *type)
{
size_t ignored = 0;
return sizeof_type(type, &ignored);
}
const char *objc_skip_argspec(const char *type)
{
type = objc_skip_typespec(type);
while(isdigit(*type)) { type++; }
return type;
}
PRIVATE size_t lengthOfTypeEncoding(const char *types)
{
if ((NULL == types) || ('\0' == types[0])) { return 0; }
const char *end = objc_skip_typespec(types);
size_t length = end - types;
return length;
}
static char* copyTypeEncoding(const char *types)
{
size_t length = lengthOfTypeEncoding(types);
char *copy = malloc(length + 1);
memcpy(copy, types, length);
copy[length] = '\0';
return copy;
}
static const char * findParameterStart(const char *types, unsigned int index)
{
// the upper bound of the loop is inclusive because the return type
// is the first element in the method signature
for (unsigned int i=0 ; i <= index ; i++)
{
types = objc_skip_argspec(types);
if ('\0' == *types)
{
return NULL;
}
}
return types;
}
typedef const char *(*type_parser)(const char*, void*);
static int parse_array(const char **type, type_parser callback, void *context)
{
// skip [
(*type)++;
int element_count = (int)strtol(*type, (char**)type, 10);
*type = callback(*type, context);
// skip ]
(*type)++;
return element_count;
}
static void parse_struct_or_union(const char **type, type_parser callback, void *context, char endchar)
{
// Skip the ( and structure name
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do
{
(*type)++;
// Opaque type has no =definition
if (endchar == **type) { (*type)++; return; }
} while('=' != **type);
// Skip =
(*type)++;
while (**type != endchar)
{
// Structure elements sometimes have their names in front of each
// element, as in {NSPoint="x"f"y"f} - We need to skip the type name
// here.
//
// TODO: In a future version we should provide a callback that lets
// users of this code get the field name
if ('"'== **type)
{
do
{
(*type)++;
} while ('"' != **type);
// Skip the closing "
(*type)++;
}
*type = callback(*type, context);
}
// skip }
(*type)++;
}
static void parse_union(const char **type, type_parser callback, void *context)
{
parse_struct_or_union(type, callback, context, ')');
}
static void parse_struct(const char **type, type_parser callback, void *context)
{
parse_struct_or_union(type, callback, context, '}');
}
inline static void round_up(size_t *v, size_t b)
{
if (0 == b)
{
return;
}
if (*v % b)
{
*v += b - (*v % b);
}
}
inline static size_t max(size_t v, size_t v2)
{
return v>v2 ? v : v2;
}
static const char *sizeof_union_field(const char *type, size_t *size);
static const char *sizeof_type(const char *type, size_t *size)
{
type = objc_skip_type_qualifiers(type);
switch (*type)
{
// For all primitive types, we round up the current size to the
// required alignment of the type, then add the size
#define APPLY_TYPE(typeName, name, capitalizedName, encodingChar) \
case encodingChar:\
{\
round_up(size, (alignof(typeName) * 8));\
*size += (sizeof(typeName) * 8);\
return type + 1;\
}
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#define SKIP_ID 1
#define NON_INTEGER_TYPES 1
#include "type_encoding_cases.h"
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case '@':
{
round_up(size, (alignof(id) * 8));
*size += (sizeof(id) * 8);
if (*(type+1) == '?')
{
type++;
}
return type + 1;
}
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case '?':
case 'v': return type+1;
case 'j':
{
type++;
switch (*type)
{
#define APPLY_TYPE(typeName, name, capitalizedName, encodingChar) \
case encodingChar:\
{\
round_up(size, (alignof(_Complex typeName) * 8));\
*size += (sizeof(_Complex typeName) * 8);\
return type + 1;\
}
#include "type_encoding_cases.h"
}
}
case '{':
{
const char *t = type;
parse_struct(&t, (type_parser)sizeof_type, size);
size_t align = objc_alignof_type(type);
round_up(size, align * 8);
return t;
}
case '[':
{
const char *t = type;
size_t element_size = 0;
// FIXME: aligned size
int element_count = parse_array(&t, (type_parser)sizeof_type, &element_size);
(*size) += element_size * element_count;
return t;
}
case '(':
{
const char *t = type;
size_t union_size = 0;
parse_union(&t, (type_parser)sizeof_union_field, &union_size);
*size += union_size;
return t;
}
case 'b':
{
// Consume the b
type++;
// Ignore the offset
strtol(type, (char**)&type, 10);
// Consume the element type
type++;
// Read the number of bits
*size += strtol(type, (char**)&type, 10);
return type;
}
case '^':
{
// All pointers look the same to me.
*size += sizeof(void*) * 8;
size_t ignored;
// Skip the definition of the pointeee type.
return sizeof_type(type+1, &ignored);
}
}
abort();
return NULL;
}
static const char *sizeof_union_field(const char *type, size_t *size)
{
size_t field_size = 0;
const char *end = sizeof_type(type, &field_size);
*size = max(*size, field_size);
return end;
}
static const char *alignof_type(const char *type, size_t *align)
{
type = objc_skip_type_qualifiers(type);
switch (*type)
{
// For all primitive types, we return the maximum of the new alignment
// and the old one
#define APPLY_TYPE(typeName, name, capitalizedName, encodingChar) \
case encodingChar:\
{\
*align = max((alignof(typeName) * 8), *align);\
return type + 1;\
}
#define NON_INTEGER_TYPES 1
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#define SKIP_ID 1
#include "type_encoding_cases.h"
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case '@':
{
*align = max((alignof(id) * 8), *align);\
if (*(type+1) == '?')
{
type++;
}
return type + 1;
}
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case '?':
case 'v': return type+1;
case 'j':
{
type++;
switch (*type)
{
#define APPLY_TYPE(typeName, name, capitalizedName, encodingChar) \
case encodingChar:\
{\
*align = max((alignof(_Complex typeName) * 8), *align);\
return type + 1;\
}
#include "type_encoding_cases.h"
}
}
case '{':
{
const char *t = type;
parse_struct(&t, (type_parser)alignof_type, align);
return t;
}
case '(':
{
const char *t = type;
parse_union(&t, (type_parser)alignof_type, align);
return t;
}
case '[':
{
const char *t = type;
parse_array(&t, (type_parser)alignof_type, &align);
return t;
}
case 'b':
{
// Consume the b
type++;
// Ignore the offset
strtol(type, (char**)&type, 10);
// Alignment of a bitfield is the alignment of the type that
// contains it
type = alignof_type(type, align);
// Ignore the number of bits
strtol(type, (char**)&type, 10);
return type;
}
case '^':
{
*align = max((alignof(void*) * 8), *align);
// All pointers look the same to me.
size_t ignored;
// Skip the definition of the pointeee type.
return alignof_type(type+1, &ignored);
}
}
abort();
return NULL;
}
size_t objc_sizeof_type(const char *type)
{
size_t size = 0;
sizeof_type(type, &size);
return size / 8;
}
size_t objc_alignof_type (const char *type)
{
size_t align = 0;
alignof_type(type, &align);
return align / 8;
}
size_t objc_aligned_size(const char *type)
{
size_t size = objc_sizeof_type(type);
size_t align = objc_alignof_type(type);
return size + (size % align);
}
size_t objc_promoted_size(const char *type)
{
size_t size = objc_sizeof_type(type);
return size + (size % sizeof(void*));
}
void method_getReturnType(Method method, char *dst, size_t dst_len)
{
if (NULL == method) { return; }
//TODO: Coped and pasted code. Factor it out.
const char *types = method->types;
size_t length = lengthOfTypeEncoding(types);
if (length < dst_len)
{
memcpy(dst, types, length);
dst[length] = '\0';
}
else
{
memcpy(dst, types, dst_len);
}
}
const char *method_getTypeEncoding(Method method)
{
if (NULL == method) { return NULL; }
return method->types;
}
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void method_getArgumentType(Method method,
unsigned int index,
char *dst,
size_t dst_len)
{
if (NULL == method) { return; }
const char *types = findParameterStart(method->types, index);
if (NULL == types)
{
strncpy(dst, "", dst_len);
return;
}
size_t length = lengthOfTypeEncoding(types);
if (length < dst_len)
{
memcpy(dst, types, length);
dst[length] = '\0';
}
else
{
memcpy(dst, types, dst_len);
}
}
unsigned method_getNumberOfArguments(Method method)
{
if (NULL == method) { return 0; }
const char *types = method->types;
unsigned int count = 0;
while('\0' != *types)
{
types = objc_skip_argspec(types);
count++;
}
return count - 1;
}
unsigned method_get_number_of_arguments(struct objc_method *method)
{
return method_getNumberOfArguments(method);
}
char* method_copyArgumentType(Method method, unsigned int index)
{
if (NULL == method) { return NULL; }
const char *types = findParameterStart(method->types, index);
if (NULL == types)
{
return NULL;
}
return copyTypeEncoding(types);
}
char* method_copyReturnType(Method method)
{
if (NULL == method) { return NULL; }
return copyTypeEncoding(method->types);
}
unsigned objc_get_type_qualifiers (const char *type)
{
unsigned flags = 0;
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#define MAP(chr, bit) case chr: flags |= bit; break;
do
{
switch (*(type++))
{
default: return flags;
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MAP('r', _F_CONST)
MAP('n', _F_IN)
MAP('o', _F_OUT)
MAP('N', _F_INOUT)
MAP('O', _F_BYCOPY)
MAP('V', _F_ONEWAY)
MAP('R', _F_BYREF)
}
} while (1);
}
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// Note: The implementations of these functions is horrible.
void objc_layout_structure (const char *type,
struct objc_struct_layout *layout)
{
layout->original_type = type;
layout->type = 0;
}
static const char *layout_structure_callback(const char *type, struct objc_struct_layout *layout)
{
size_t align = 0;
size_t size = 0;
const char *end = sizeof_type(type, &size);
alignof_type(type, &align);
//printf("Callback called with %s\n", type);
if (layout->prev_type < type)
{
if (layout->record_align == 0)
{
layout->record_align = align;
layout->type = type;
}
}
else
{
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size_t rsize = (size_t)layout->record_size;
round_up(&rsize, align);
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layout->record_size = rsize + size;
}
return end;
}
BOOL objc_layout_structure_next_member(struct objc_struct_layout *layout)
{
const char *end = layout->type;
layout->record_size = 0;
layout->record_align = 0;
layout->prev_type = layout->type;
const char *type = layout->original_type;
parse_struct(&type, (type_parser)layout_structure_callback, layout);
//printf("Calculated: (%s) %s %d %d\n", layout->original_type, layout->type, layout->record_size, layout->record_align);
//printf("old start %s, new start %s\n", end, layout->type);
return layout->type != end;
}
void objc_layout_structure_get_info (struct objc_struct_layout *layout,
unsigned int *offset,
unsigned int *align,
const char **type)
{
//printf("%p\n", layout);
*type = layout->type;
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size_t off = layout->record_size / 8;
*align= layout->record_align / 8;
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round_up(&off, (size_t)*align);
*offset = (unsigned int)off;
}
#ifdef ENCODING_TESTS
#define TEST(type) do {\
if (alignof(type) != objc_alignof_type(@encode(type)))\
printf("Incorrect alignment for %s: %d != %d\n", @encode(type), objc_alignof_type(@encode(type)), alignof(type));\
if (sizeof(type) != objc_sizeof_type(@encode(type)))\
printf("Incorrect size for %s: %d != %d\n", @encode(type), objc_sizeof_type(@encode(type)), sizeof(type));\
} while(0)
struct foo
{
int a[2];
int b:5;
struct
{
double d;
const char *str;
float e;
}c;
long long **g;
union { const char c; long long b; } h;
long long f;
_Complex int z;
_Complex double y;
char v;
};
typedef struct
{
float x,y;
} Point;
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typedef struct
{
Point a, b;
} Rect;
int main(void)
{
TEST(int);
TEST(const char);
TEST(unsigned long long);
TEST(_Complex int);
TEST(struct foo);
struct objc_struct_layout layout;
objc_layout_structure(@encode(Rect), &layout);
while (objc_layout_structure_next_member (&layout))
{
unsigned offset;
unsigned align;
const char *ftype;
struct objc_struct_layout layout2;
objc_layout_structure_get_info (&layout, &offset, &align, &ftype);
printf("%s: offset: %d, alignment: %d\n", ftype, offset, align);
objc_layout_structure(ftype, &layout2);
while (objc_layout_structure_next_member (&layout2))
{
objc_layout_structure_get_info (&layout2, &offset, &align, &ftype);
printf("%s: offset: %d, alignment: %d\n", ftype, offset, align);
}
}
printf("%d\n", offsetof(Rect, a.x));
printf("%d\n", offsetof(Rect, a.y));
printf("%d\n", offsetof(Rect, b.x));
printf("%d\n", offsetof(Rect, b.y));
}
#endif