kolibrios-fun/contrib/media/updf/fitz/base_object.c
Serhii Sakhno cd35d38ad2 updf: restore menuetlibc version
git-svn-id: svn://kolibrios.org@8429 a494cfbc-eb01-0410-851d-a64ba20cac60
2020-12-16 18:41:33 +00:00

803 lines
13 KiB
C

#include "fitz.h"
typedef enum fz_objkind_e
{
FZ_NULL,
FZ_BOOL,
FZ_INT,
FZ_REAL,
FZ_STRING,
FZ_NAME,
FZ_ARRAY,
FZ_DICT,
FZ_INDIRECT
} fz_objkind;
struct keyval
{
fz_obj *k;
fz_obj *v;
};
struct fz_obj_s
{
int refs;
fz_objkind kind;
union
{
int b;
int i;
float f;
struct {
unsigned short len;
char buf[1];
} s;
char n[1];
struct {
int len;
int cap;
fz_obj **items;
} a;
struct {
char sorted;
int len;
int cap;
struct keyval *items;
} d;
struct {
int num;
int gen;
struct pdf_xref_s *xref;
} r;
} u;
};
static fz_obj *fz_resolve_indirect_null(fz_obj *ref)
{
return ref;
}
fz_obj* (*fz_resolve_indirect)(fz_obj*) = fz_resolve_indirect_null;
fz_obj *
fz_new_null(void)
{
fz_obj *obj = fz_malloc(sizeof(fz_obj));
obj->refs = 1;
obj->kind = FZ_NULL;
return obj;
}
fz_obj *
fz_new_bool(int b)
{
fz_obj *obj = fz_malloc(sizeof(fz_obj));
obj->refs = 1;
obj->kind = FZ_BOOL;
obj->u.b = b;
return obj;
}
fz_obj *
fz_new_int(int i)
{
fz_obj *obj = fz_malloc(sizeof(fz_obj));
obj->refs = 1;
obj->kind = FZ_INT;
obj->u.i = i;
return obj;
}
fz_obj *
fz_new_real(float f)
{
fz_obj *obj = fz_malloc(sizeof(fz_obj));
obj->refs = 1;
obj->kind = FZ_REAL;
obj->u.f = f;
return obj;
}
fz_obj *
fz_new_string(char *str, int len)
{
fz_obj *obj = fz_malloc(offsetof(fz_obj, u.s.buf) + len + 1);
obj->refs = 1;
obj->kind = FZ_STRING;
obj->u.s.len = len;
memcpy(obj->u.s.buf, str, len);
obj->u.s.buf[len] = '\0';
return obj;
}
fz_obj *
fz_new_name(char *str)
{
fz_obj *obj = fz_malloc(offsetof(fz_obj, u.n) + strlen(str) + 1);
obj->refs = 1;
obj->kind = FZ_NAME;
strcpy(obj->u.n, str);
return obj;
}
fz_obj *
fz_new_indirect(int num, int gen, void *xref)
{
fz_obj *obj = fz_malloc(sizeof(fz_obj));
obj->refs = 1;
obj->kind = FZ_INDIRECT;
obj->u.r.num = num;
obj->u.r.gen = gen;
obj->u.r.xref = xref;
return obj;
}
fz_obj *
fz_keep_obj(fz_obj *obj)
{
assert(obj != NULL);
obj->refs ++;
return obj;
}
int fz_is_indirect(fz_obj *obj)
{
return obj ? obj->kind == FZ_INDIRECT : 0;
}
int fz_is_null(fz_obj *obj)
{
obj = fz_resolve_indirect(obj);
return obj ? obj->kind == FZ_NULL : 0;
}
int fz_is_bool(fz_obj *obj)
{
obj = fz_resolve_indirect(obj);
return obj ? obj->kind == FZ_BOOL : 0;
}
int fz_is_int(fz_obj *obj)
{
obj = fz_resolve_indirect(obj);
return obj ? obj->kind == FZ_INT : 0;
}
int fz_is_real(fz_obj *obj)
{
obj = fz_resolve_indirect(obj);
return obj ? obj->kind == FZ_REAL : 0;
}
int fz_is_string(fz_obj *obj)
{
obj = fz_resolve_indirect(obj);
return obj ? obj->kind == FZ_STRING : 0;
}
int fz_is_name(fz_obj *obj)
{
obj = fz_resolve_indirect(obj);
return obj ? obj->kind == FZ_NAME : 0;
}
int fz_is_array(fz_obj *obj)
{
obj = fz_resolve_indirect(obj);
return obj ? obj->kind == FZ_ARRAY : 0;
}
int fz_is_dict(fz_obj *obj)
{
obj = fz_resolve_indirect(obj);
return obj ? obj->kind == FZ_DICT : 0;
}
int fz_to_bool(fz_obj *obj)
{
obj = fz_resolve_indirect(obj);
if (fz_is_bool(obj))
return obj->u.b;
return 0;
}
int fz_to_int(fz_obj *obj)
{
obj = fz_resolve_indirect(obj);
if (fz_is_int(obj))
return obj->u.i;
if (fz_is_real(obj))
return obj->u.f;
return 0;
}
float fz_to_real(fz_obj *obj)
{
obj = fz_resolve_indirect(obj);
if (fz_is_real(obj))
return obj->u.f;
if (fz_is_int(obj))
return obj->u.i;
return 0;
}
char *fz_to_name(fz_obj *obj)
{
obj = fz_resolve_indirect(obj);
if (fz_is_name(obj))
return obj->u.n;
return "";
}
char *fz_to_str_buf(fz_obj *obj)
{
obj = fz_resolve_indirect(obj);
if (fz_is_string(obj))
return obj->u.s.buf;
return "";
}
int fz_to_str_len(fz_obj *obj)
{
obj = fz_resolve_indirect(obj);
if (fz_is_string(obj))
return obj->u.s.len;
return 0;
}
/* for use by pdf_crypt_obj_imp to decrypt AES string in place */
void fz_set_str_len(fz_obj *obj, int newlen)
{
obj = fz_resolve_indirect(obj);
if (fz_is_string(obj))
if (newlen < obj->u.s.len)
obj->u.s.len = newlen;
}
int fz_to_num(fz_obj *obj)
{
if (fz_is_indirect(obj))
return obj->u.r.num;
return 0;
}
int fz_to_gen(fz_obj *obj)
{
if (fz_is_indirect(obj))
return obj->u.r.gen;
return 0;
}
void *fz_get_indirect_xref(fz_obj *obj)
{
if (fz_is_indirect(obj))
return obj->u.r.xref;
return NULL;
}
int
fz_objcmp(fz_obj *a, fz_obj *b)
{
int i;
if (a == b)
return 0;
if (!a || !b)
return 1;
if (a->kind != b->kind)
return 1;
switch (a->kind)
{
case FZ_NULL:
return 0;
case FZ_BOOL:
return a->u.b - b->u.b;
case FZ_INT:
return a->u.i - b->u.i;
case FZ_REAL:
if (a->u.f < b->u.f)
return -1;
if (a->u.f > b->u.f)
return 1;
return 0;
case FZ_STRING:
if (a->u.s.len < b->u.s.len)
{
if (memcmp(a->u.s.buf, b->u.s.buf, a->u.s.len) <= 0)
return -1;
return 1;
}
if (a->u.s.len > b->u.s.len)
{
if (memcmp(a->u.s.buf, b->u.s.buf, b->u.s.len) >= 0)
return 1;
return -1;
}
return memcmp(a->u.s.buf, b->u.s.buf, a->u.s.len);
case FZ_NAME:
return strcmp(a->u.n, b->u.n);
case FZ_INDIRECT:
if (a->u.r.num == b->u.r.num)
return a->u.r.gen - b->u.r.gen;
return a->u.r.num - b->u.r.num;
case FZ_ARRAY:
if (a->u.a.len != b->u.a.len)
return a->u.a.len - b->u.a.len;
for (i = 0; i < a->u.a.len; i++)
if (fz_objcmp(a->u.a.items[i], b->u.a.items[i]))
return 1;
return 0;
case FZ_DICT:
if (a->u.d.len != b->u.d.len)
return a->u.d.len - b->u.d.len;
for (i = 0; i < a->u.d.len; i++)
{
if (fz_objcmp(a->u.d.items[i].k, b->u.d.items[i].k))
return 1;
if (fz_objcmp(a->u.d.items[i].v, b->u.d.items[i].v))
return 1;
}
return 0;
}
return 1;
}
static char *
fz_objkindstr(fz_obj *obj)
{
if (obj == NULL)
return "<NULL>";
switch (obj->kind)
{
case FZ_NULL: return "null";
case FZ_BOOL: return "boolean";
case FZ_INT: return "integer";
case FZ_REAL: return "real";
case FZ_STRING: return "string";
case FZ_NAME: return "name";
case FZ_ARRAY: return "array";
case FZ_DICT: return "dictionary";
case FZ_INDIRECT: return "reference";
}
return "<unknown>";
}
fz_obj *
fz_new_array(int initialcap)
{
fz_obj *obj;
int i;
obj = fz_malloc(sizeof(fz_obj));
obj->refs = 1;
obj->kind = FZ_ARRAY;
obj->u.a.len = 0;
obj->u.a.cap = initialcap > 1 ? initialcap : 6;
obj->u.a.items = fz_calloc(obj->u.a.cap, sizeof(fz_obj*));
for (i = 0; i < obj->u.a.cap; i++)
obj->u.a.items[i] = NULL;
return obj;
}
fz_obj *
fz_copy_array(fz_obj *obj)
{
fz_obj *new;
int i;
if (fz_is_indirect(obj) || !fz_is_array(obj))
fz_warn("assert: not an array (%s)", fz_objkindstr(obj));
new = fz_new_array(fz_array_len(obj));
for (i = 0; i < fz_array_len(obj); i++)
fz_array_push(new, fz_array_get(obj, i));
return new;
}
int
fz_array_len(fz_obj *obj)
{
obj = fz_resolve_indirect(obj);
if (!fz_is_array(obj))
return 0;
return obj->u.a.len;
}
fz_obj *
fz_array_get(fz_obj *obj, int i)
{
obj = fz_resolve_indirect(obj);
if (!fz_is_array(obj))
return NULL;
if (i < 0 || i >= obj->u.a.len)
return NULL;
return obj->u.a.items[i];
}
void
fz_array_put(fz_obj *obj, int i, fz_obj *item)
{
obj = fz_resolve_indirect(obj);
if (!fz_is_array(obj))
fz_warn("assert: not an array (%s)", fz_objkindstr(obj));
else if (i < 0)
fz_warn("assert: index %d < 0", i);
else if (i >= obj->u.a.len)
fz_warn("assert: index %d > length %d", i, obj->u.a.len);
else
{
if (obj->u.a.items[i])
fz_drop_obj(obj->u.a.items[i]);
obj->u.a.items[i] = fz_keep_obj(item);
}
}
void
fz_array_push(fz_obj *obj, fz_obj *item)
{
obj = fz_resolve_indirect(obj);
if (!fz_is_array(obj))
fz_warn("assert: not an array (%s)", fz_objkindstr(obj));
else
{
if (obj->u.a.len + 1 > obj->u.a.cap)
{
int i;
obj->u.a.cap = (obj->u.a.cap * 3) / 2;
obj->u.a.items = fz_realloc(obj->u.a.items, obj->u.a.cap, sizeof(fz_obj*));
for (i = obj->u.a.len ; i < obj->u.a.cap; i++)
obj->u.a.items[i] = NULL;
}
obj->u.a.items[obj->u.a.len] = fz_keep_obj(item);
obj->u.a.len++;
}
}
void
fz_array_insert(fz_obj *obj, fz_obj *item)
{
obj = fz_resolve_indirect(obj);
if (!fz_is_array(obj))
fz_warn("assert: not an array (%s)", fz_objkindstr(obj));
else
{
if (obj->u.a.len + 1 > obj->u.a.cap)
{
int i;
obj->u.a.cap = (obj->u.a.cap * 3) / 2;
obj->u.a.items = fz_realloc(obj->u.a.items, obj->u.a.cap, sizeof(fz_obj*));
for (i = obj->u.a.len ; i < obj->u.a.cap; i++)
obj->u.a.items[i] = NULL;
}
memmove(obj->u.a.items + 1, obj->u.a.items, obj->u.a.len * sizeof(fz_obj*));
obj->u.a.items[0] = fz_keep_obj(item);
obj->u.a.len++;
}
}
/* dicts may only have names as keys! */
static int keyvalcmp(const void *ap, const void *bp)
{
const struct keyval *a = ap;
const struct keyval *b = bp;
return strcmp(fz_to_name(a->k), fz_to_name(b->k));
}
fz_obj *
fz_new_dict(int initialcap)
{
fz_obj *obj;
int i;
obj = fz_malloc(sizeof(fz_obj));
obj->refs = 1;
obj->kind = FZ_DICT;
obj->u.d.sorted = 1;
obj->u.d.len = 0;
obj->u.d.cap = initialcap > 1 ? initialcap : 10;
obj->u.d.items = fz_calloc(obj->u.d.cap, sizeof(struct keyval));
for (i = 0; i < obj->u.d.cap; i++)
{
obj->u.d.items[i].k = NULL;
obj->u.d.items[i].v = NULL;
}
return obj;
}
fz_obj *
fz_copy_dict(fz_obj *obj)
{
fz_obj *new;
int i;
if (fz_is_indirect(obj) || !fz_is_dict(obj))
fz_throw("assert: not a dict (%s)", fz_objkindstr(obj));
new = fz_new_dict(fz_dict_len(obj));
for (i = 0; i < fz_dict_len(obj); i++)
fz_dict_put(new, fz_dict_get_key(obj, i), fz_dict_get_val(obj, i));
return new;
}
int
fz_dict_len(fz_obj *obj)
{
obj = fz_resolve_indirect(obj);
if (!fz_is_dict(obj))
return 0;
return obj->u.d.len;
}
fz_obj *
fz_dict_get_key(fz_obj *obj, int i)
{
obj = fz_resolve_indirect(obj);
if (!fz_is_dict(obj))
return NULL;
if (i < 0 || i >= obj->u.d.len)
return NULL;
return obj->u.d.items[i].k;
}
fz_obj *
fz_dict_get_val(fz_obj *obj, int i)
{
obj = fz_resolve_indirect(obj);
if (!fz_is_dict(obj))
return NULL;
if (i < 0 || i >= obj->u.d.len)
return NULL;
return obj->u.d.items[i].v;
}
static int
fz_dict_finds(fz_obj *obj, char *key)
{
if (obj->u.d.sorted)
{
int l = 0;
int r = obj->u.d.len - 1;
while (l <= r)
{
int m = (l + r) >> 1;
int c = -strcmp(fz_to_name(obj->u.d.items[m].k), key);
if (c < 0)
r = m - 1;
else if (c > 0)
l = m + 1;
else
return m;
}
}
else
{
int i;
for (i = 0; i < obj->u.d.len; i++)
if (strcmp(fz_to_name(obj->u.d.items[i].k), key) == 0)
return i;
}
return -1;
}
fz_obj *
fz_dict_gets(fz_obj *obj, char *key)
{
int i;
obj = fz_resolve_indirect(obj);
if (!fz_is_dict(obj))
return NULL;
i = fz_dict_finds(obj, key);
if (i >= 0)
return obj->u.d.items[i].v;
return NULL;
}
fz_obj *
fz_dict_get(fz_obj *obj, fz_obj *key)
{
if (fz_is_name(key))
return fz_dict_gets(obj, fz_to_name(key));
return NULL;
}
fz_obj *
fz_dict_getsa(fz_obj *obj, char *key, char *abbrev)
{
fz_obj *v;
v = fz_dict_gets(obj, key);
if (v)
return v;
return fz_dict_gets(obj, abbrev);
}
void
fz_dict_put(fz_obj *obj, fz_obj *key, fz_obj *val)
{
char *s;
int i;
obj = fz_resolve_indirect(obj);
if (!fz_is_dict(obj))
{
fz_warn("assert: not a dict (%s)", fz_objkindstr(obj));
return;
}
if (fz_is_name(key))
s = fz_to_name(key);
else
{
fz_warn("assert: key is not a name (%s)", fz_objkindstr(obj));
return;
}
if (!val)
{
fz_warn("assert: val does not exist for key (%s)", s);
return;
}
i = fz_dict_finds(obj, s);
if (i >= 0)
{
fz_drop_obj(obj->u.d.items[i].v);
obj->u.d.items[i].v = fz_keep_obj(val);
return;
}
if (obj->u.d.len + 1 > obj->u.d.cap)
{
obj->u.d.cap = (obj->u.d.cap * 3) / 2;
obj->u.d.items = fz_realloc(obj->u.d.items, obj->u.d.cap, sizeof(struct keyval));
for (i = obj->u.d.len; i < obj->u.d.cap; i++)
{
obj->u.d.items[i].k = NULL;
obj->u.d.items[i].v = NULL;
}
}
/* borked! */
if (obj->u.d.len)
if (strcmp(fz_to_name(obj->u.d.items[obj->u.d.len - 1].k), s) > 0)
obj->u.d.sorted = 0;
obj->u.d.items[obj->u.d.len].k = fz_keep_obj(key);
obj->u.d.items[obj->u.d.len].v = fz_keep_obj(val);
obj->u.d.len ++;
}
void
fz_dict_puts(fz_obj *obj, char *key, fz_obj *val)
{
fz_obj *keyobj = fz_new_name(key);
fz_dict_put(obj, keyobj, val);
fz_drop_obj(keyobj);
}
void
fz_dict_dels(fz_obj *obj, char *key)
{
obj = fz_resolve_indirect(obj);
if (!fz_is_dict(obj))
fz_warn("assert: not a dict (%s)", fz_objkindstr(obj));
else
{
int i = fz_dict_finds(obj, key);
if (i >= 0)
{
fz_drop_obj(obj->u.d.items[i].k);
fz_drop_obj(obj->u.d.items[i].v);
obj->u.d.sorted = 0;
obj->u.d.items[i] = obj->u.d.items[obj->u.d.len-1];
obj->u.d.len --;
}
}
}
void
fz_dict_del(fz_obj *obj, fz_obj *key)
{
if (fz_is_name(key))
fz_dict_dels(obj, fz_to_name(key));
else
fz_warn("assert: key is not a name (%s)", fz_objkindstr(obj));
}
void
fz_sort_dict(fz_obj *obj)
{
obj = fz_resolve_indirect(obj);
if (!fz_is_dict(obj))
return;
if (!obj->u.d.sorted)
{
qsort(obj->u.d.items, obj->u.d.len, sizeof(struct keyval), keyvalcmp);
obj->u.d.sorted = 1;
}
}
static void
fz_free_array(fz_obj *obj)
{
int i;
for (i = 0; i < obj->u.a.len; i++)
if (obj->u.a.items[i])
fz_drop_obj(obj->u.a.items[i]);
fz_free(obj->u.a.items);
fz_free(obj);
}
static void
fz_free_dict(fz_obj *obj)
{
int i;
for (i = 0; i < obj->u.d.len; i++) {
if (obj->u.d.items[i].k)
fz_drop_obj(obj->u.d.items[i].k);
if (obj->u.d.items[i].v)
fz_drop_obj(obj->u.d.items[i].v);
}
fz_free(obj->u.d.items);
fz_free(obj);
}
void
fz_drop_obj(fz_obj *obj)
{
assert(obj != NULL);
if (--obj->refs == 0)
{
if (obj->kind == FZ_ARRAY)
fz_free_array(obj);
else if (obj->kind == FZ_DICT)
fz_free_dict(obj);
else
fz_free(obj);
}
}