kimcinoo
/
efl
forked from enlightenment/efl
1
0
Fork 0
Code Issues Pull Requests Projects Releases Wiki Activity
efl/src/bin/edje/edje_cc_out.c

4789 lines
140 KiB
C
Raw Blame History

#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
#ifdef STDC_HEADERS
# include <stdlib.h>
# include <stddef.h>
#else
# ifdef HAVE_STDLIB_H
# include <stdlib.h>
# endif
#endif
#include <string.h>
#include <limits.h>
#include <unistd.h>
#include <sys/stat.h>
#include <libgen.h>
#include <Ecore_Evas.h>
#include "edje_cc.h"
#include "edje_convert.h"
#include "edje_multisense_convert.h"
#include <lua.h>
#include <lauxlib.h>
typedef struct _External_Lookup External_Lookup;
typedef struct _Part_Lookup Part_Lookup;
typedef struct _Part_Lookup_Key Part_Lookup_Key;
typedef struct _Program_Lookup Program_Lookup;
typedef struct _Group_Lookup Group_Lookup;
typedef struct _Image_Lookup Image_Lookup;
typedef struct _Code_Lookup Code_Lookup;
struct _External_Lookup
{
char *name;
};
struct _Part_Lookup_Key
{
Edje_Part_Collection *pc;
union
{
int *dest;
struct
{
unsigned char **base;
int offset;
} reallocated;
} mem;
char **dest2;
Eina_Bool stable : 1;
};
struct _Part_Lookup
{
Part_Lookup_Key key;
char *name;
};
struct _Program_Lookup
{
Edje_Part_Collection *pc;
union
{
char *name;
Edje_Program *ep;
} u;
int *dest;
Eina_Bool anonymous : 1;
};
struct _Group_Lookup
{
char *name;
Edje_Part *part;
};
struct _String_Lookup
{
char *name;
int *dest;
};
struct _Image_Lookup
{
char *name;
int *dest;
Eina_Bool *set;
};
struct _Code_Lookup
{
char *ptr;
int len;
int val;
Eina_Bool set;
};
typedef struct _Script_Lua_Writer Script_Lua_Writer;
struct _Script_Lua_Writer
{
char *buf;
int size;
};
typedef struct _Script_Write Script_Write;
typedef struct _Head_Write Head_Write;
typedef struct _Fonts_Write Fonts_Write;
typedef struct _Image_Write Image_Write;
typedef struct _Sound_Write Sound_Write;
typedef struct _Mo_Write Mo_Write;
typedef struct _Vibration_Write Vibration_Write;
typedef struct _Group_Write Group_Write;
typedef struct _License_Write License_Write;
struct _Script_Write
{
Eet_File *ef;
Code *cd;
int i;
Ecore_Exe *exe;
int tmpn_fd;
Eina_Tmpstr *tmpn;
Eina_Tmpstr *tmpo;
char *errstr;
};
struct _Head_Write
{
Eet_File *ef;
char *errstr;
};
struct _Fonts_Write
{
Eet_File *ef;
Edje_Font *fn;
char *errstr;
};
struct _Image_Write
{
Eet_File *ef;
Edje_Image_Directory_Entry *img;
Evas_Object *im;
Emile_Image_Property prop;
Eina_File *f;
Emile_Image *emi;
int w, h;
int alpha;
unsigned int *data;
char *path;
char *errstr;
};
struct _Sound_Write
{
Eet_File *ef;
Edje_Sound_Sample *sample;
int i;
};
struct _Mo_Write
{
Eet_File *ef;
Edje_Mo *mo_entry;
char *mo_path;
Ecore_Exe *exe;
char *errstr;
};
struct _Vibration_Write
{
Eet_File *ef;
Edje_Vibration_Sample *sample;
int i;
};
struct _Group_Write
{
Eet_File *ef;
Edje_Part_Collection *pc;
char *errstr;
};
struct _License_Write
{
Eet_File *ef;
const char *file;
Eina_Bool master;
};
struct _Image_Unused_Ids
{
int old_id;
int new_id;
};
typedef struct _Image_Unused_Ids Image_Unused_Ids;
static int pending_threads = 0;
static int pending_image_threads = 0;
static void data_process_string(Edje_Part_Collection *pc, const char *prefix, char *s, void (*func)(Edje_Part_Collection *pc, char *name, char *ptr, int len));
extern Eina_List *po_files;
Edje_File *edje_file = NULL;
Eina_List *edje_collections = NULL;
Eina_Hash *edje_collections_lookup = NULL;
Eina_List *externals = NULL;
Eina_List *fonts = NULL;
Eina_List *codes = NULL;
Eina_List *code_lookups = NULL;
Eina_List *aliases = NULL;
Eina_List *color_tree_root = NULL;
static Eet_Data_Descriptor *edd_edje_file = NULL;
static Eet_Data_Descriptor *edd_edje_part_collection = NULL;
static Eina_List *program_lookups = NULL;
static Eina_List *group_lookups = NULL;
static Eina_List *face_group_lookups = NULL;
static Eina_List *image_lookups = NULL;
static Eina_List *model_lookups = NULL;
static Eina_Hash *part_dest_lookup = NULL;
static Eina_Hash *part_pc_dest_lookup = NULL;
static Eina_Hash *groups_sourced = NULL;
static Eet_File *cur_ef;
static int image_num;
static Ecore_Evas *buffer_ee;
static int cur_image_entry;
static void data_write_images(void);
void
error_and_abort(Eet_File *ef EINA_UNUSED, const char *fmt, ...)
{
va_list ap;
va_start(ap, fmt);
eina_log_vprint(_edje_cc_log_dom, EINA_LOG_LEVEL_CRITICAL,
"unknown", "unknown", 0, fmt, ap);
va_end(ap);
unlink(file_out);
if (watchfile) unlink(watchfile);
exit(-1);
}
static void
thread_end(Eina_Bool img)
{
if (img)
pending_image_threads--;
else
pending_threads--;
if (threads)
{
if ((pending_image_threads + pending_threads) < (int)max_open_files - 2)
data_write_images();
}
if (pending_threads + pending_image_threads <= 0) ecore_main_loop_quit();
}
static unsigned int
_part_lookup_key_length(const void *key EINA_UNUSED)
{
return sizeof (Part_Lookup_Key);
}
static int
_part_lookup_key_pc_cmp(const void *key1, int key1_length EINA_UNUSED,
const void *key2, int key2_length EINA_UNUSED)
{
const Part_Lookup_Key *a = key1;
const Part_Lookup_Key *b = key2;
uintptr_t delta;
delta = a->pc - b->pc;
if (delta) return delta;
if (a->stable) return a->mem.dest - b->mem.dest;
delta = a->mem.reallocated.base - b->mem.reallocated.base;
if (delta) return delta;
return a->mem.reallocated.offset - b->mem.reallocated.offset;
}
static int
_part_lookup_key_pc_hash(const void *key, int key_length EINA_UNUSED)
{
const Part_Lookup_Key *a = key;
if (a->stable)
{
#ifdef EFL64
return eina_hash_int64((unsigned long long int *)&a->pc, sizeof (void *)) ^
eina_hash_int64((unsigned long long int *)&a->mem.dest, sizeof (void *));
#else
return eina_hash_int32((uintptr_t *)&a->pc, sizeof (void *)) ^
eina_hash_int32((uintptr_t *)&a->mem.dest, sizeof (void *));
#endif
}
else
{
#ifdef EFL64
return eina_hash_int64((unsigned long long int *)&a->pc, sizeof (void *)) ^
eina_hash_int64((unsigned long long int *)&a->mem.reallocated.base, sizeof (void *)) ^
eina_hash_int32((unsigned int *)&a->mem.reallocated.offset, sizeof (int));
#else
return eina_hash_int32((uintptr_t *)&a->pc, sizeof (void *)) ^
eina_hash_int32((uintptr_t *)&a->mem.reallocated.base, sizeof (void *)) ^
eina_hash_int32((unsigned int *)&a->mem.reallocated.offset, sizeof (int));
#endif
}
}
static int
_part_lookup_key_cmp(const void *key1, int key1_length EINA_UNUSED,
const void *key2, int key2_length EINA_UNUSED)
{
const Part_Lookup_Key *a = key1;
const Part_Lookup_Key *b = key2;
uintptr_t delta;
if (a->stable) return a->mem.dest - b->mem.dest;
delta = a->mem.reallocated.base - b->mem.reallocated.base;
if (delta) return delta;
return a->mem.reallocated.offset - b->mem.reallocated.offset;
}
static int
_part_lookup_key_hash(const void *key, int key_length EINA_UNUSED)
{
const Part_Lookup_Key *a = key;
if (a->stable)
{
#ifdef EFL64
return eina_hash_int64((unsigned long long int *)&a->mem.dest, sizeof (void *));
#else
return eina_hash_int32((uintptr_t *)&a->mem.dest, sizeof (void *));
#endif
}
else
{
#ifdef EFL64
return eina_hash_int64((unsigned long long int *)&a->mem.reallocated.base, sizeof (void *)) ^
eina_hash_int32((unsigned int *)&a->mem.reallocated.offset, sizeof (int));
#else
return eina_hash_int32((uintptr_t *)&a->mem.reallocated.base, sizeof (void *)) ^
eina_hash_int32((unsigned int *)&a->mem.reallocated.offset, sizeof (int));
#endif
}
}
static void
data_part_lookup_free(Part_Lookup *pl)
{
free(pl->name);
free(pl);
}
static void
list_free(void *list)
{
eina_list_free(list);
}
void
data_setup(void)
{
edd_edje_file = _edje_edd_edje_file;
edd_edje_part_collection = _edje_edd_edje_part_collection;
part_dest_lookup = eina_hash_new(EINA_KEY_LENGTH(_part_lookup_key_length),
EINA_KEY_CMP(_part_lookup_key_cmp),
EINA_KEY_HASH(_part_lookup_key_hash),
EINA_FREE_CB(list_free),
8);
part_pc_dest_lookup = eina_hash_new(EINA_KEY_LENGTH(_part_lookup_key_length),
EINA_KEY_CMP(_part_lookup_key_pc_cmp),
EINA_KEY_HASH(_part_lookup_key_pc_hash),
EINA_FREE_CB(data_part_lookup_free),
8);
}
static void
check_image_part_desc(Edje_Part_Collection *pc, Edje_Part *ep,
Edje_Part_Description_Image *epd, Eet_File *ef)
{
unsigned int i;
Edje_Part_Collection_Parser *pcp = (Edje_Part_Collection_Parser *)pc;
if (pcp->inherit_only) return;
if (epd->image.id == -1 && epd->common.visible)
WRN("Collection %s(%i): image attributes missing for "
"part \"%s\", description \"%s\" %f",
pc->part, pc->id, ep->name, epd->common.state.name, epd->common.state.value);
for (i = 0; i < epd->image.tweens_count; ++i)
{
if (epd->image.tweens[i]->id == -1)
error_and_abort(ef, "Collection %i: tween image id missing for "
"part \"%s\", description \"%s\" %f",
pc->id, ep->name, epd->common.state.name, epd->common.state.value);
}
}
static Edje_Part_Collection *
_source_group_find(const char *source)
{
Edje_Part_Collection *pc2;
Eina_List *l;
if (!source) return NULL;
EINA_LIST_FOREACH(edje_collections, l, pc2)
{
if (!strcmp(pc2->part, source))
return pc2;
}
return NULL;
}
static Edje_Part *
_aliased_text_part_find(Edje_Part_Collection *pc,
int id_source, const char *id_source_part)
{
Edje_Part_Collection *group;
unsigned int i;
if (!pc->parts[id_source]->source)
return NULL;
group = _source_group_find(pc->parts[id_source]->source);
if (!group) return NULL;
for (i = 0; i < group->parts_count; i++)
{
if (!strcmp(group->parts[i]->name, id_source_part))
return group->parts[i];
}
return NULL;
}
static void
check_text_part_desc(Edje_Part_Collection *pc, Edje_Part *ep,
Edje_Part_Description_Text *epd, Eet_File *ef)
{
Edje_Part *ep2;
if (epd->text.id_source != -1)
{
if ((pc->parts[epd->text.id_source]->type == EDJE_PART_TYPE_TEXT) ||
(pc->parts[epd->text.id_source]->type == EDJE_PART_TYPE_TEXTBLOCK))
return;
if (epd->text.id_source_part)
{
ep2 = _aliased_text_part_find(pc, epd->text.id_source, epd->text.id_source_part);
if (ep2 && ((ep2->type == EDJE_PART_TYPE_TEXT) ||
(ep2->type == EDJE_PART_TYPE_TEXTBLOCK)))
return;
}
error_and_abort(ef, "Collection \"%s\" Part \"%s\" Description \"%s\" [%.3f]: "
"text.source point to a non TEXT part \"%s\"!",
pc->part, ep->name, epd->common.state.name,
epd->common.state.value, pc->parts[epd->text.id_source]->name);
}
if (epd->text.id_text_source != -1)
{
if ((pc->parts[epd->text.id_text_source]->type == EDJE_PART_TYPE_TEXT) ||
(pc->parts[epd->text.id_text_source]->type == EDJE_PART_TYPE_TEXTBLOCK))
return;
if (epd->text.id_text_source_part)
{
ep2 = _aliased_text_part_find(pc, epd->text.id_text_source, epd->text.id_text_source_part);
if (ep2 && ((ep2->type == EDJE_PART_TYPE_TEXT) ||
(ep2->type == EDJE_PART_TYPE_TEXTBLOCK)))
return;
}
error_and_abort(ef, "Collection \"%s\" Part \"%s\" Description \"%s\" [%.3f]: "
"text.text_source point to a non TEXT part \"%s\"!",
pc->part, ep->name, epd->common.state.name,
epd->common.state.value, pc->parts[epd->text.id_text_source]->name);
}
}
/* This function check loops between groups.
For example:
> part in group A. It's source is B.
> part in group B. It's source is C.
> part in group C. It's source is A <- here is error.
It's loop that we need to avoid! */
static void
check_source_links(Edje_Part_Collection *pc, Edje_Part *ep, Eet_File *ef, Eina_List *group_path)
{
unsigned int i;
char *data;
Edje_Part_Collection *pc_source;
Eina_List *l;
EINA_LIST_FOREACH(edje_collections, l, pc_source)
{
/* Find sourced group */
if (ep->source && pc_source->part && strcmp(ep->source, pc_source->part) == 0)
{
/* Go through every part to find parts with type GROUP */
for (i = 0; i < pc_source->parts_count; ++i)
{
if ((pc_source->parts[i]->type == EDJE_PART_TYPE_GROUP) &&
(pc_source->parts[i]->source))
{
/* Make sure that this group isn't already in the tree of parents */
EINA_LIST_FOREACH(group_path, l, data)
{
if (data == pc_source->parts[i]->source)
{
error_and_abort(ef, "Recursive loop group '%s' "
"already included inside "
"part '%s' of group '%s'",
data, pc_source->parts[i]->name,
pc->part);
}
}
group_path = eina_list_append(group_path, ep->source);
check_source_links(pc, pc_source->parts[i], ef, group_path);
}
}
}
}
}
static void
check_packed_items(Edje_Part_Collection *pc, Edje_Part *ep, Eet_File *ef)
{
unsigned int i;
for (i = 0; i < ep->items_count; ++i)
{
if (ep->items[i]->type == EDJE_PART_TYPE_GROUP && !ep->items[i]->source)
error_and_abort(ef, "Collection %i: missing source on packed item "
"of type GROUP in part \"%s\"",
pc->id, ep->name);
if (ep->type == EDJE_PART_TYPE_TABLE && (ep->items[i]->col < 0 || ep->items[i]->row < 0))
error_and_abort(ef, "Collection %i: missing col/row on packed item "
"for part \"%s\" of type TABLE",
pc->id, ep->name);
}
}
static void
check_nameless_state(Edje_Part_Collection *pc, Edje_Part *ep, Edje_Part_Description_Common *ed, Eet_File *ef)
{
Edje_Part_Collection_Directory_Entry *de;
if (ed->state.name) return;
de = eina_hash_find(edje_collections_lookup, &pc->id);
error_and_abort(ef, "Group '%s': part \"%s\" has description with missing state",
de->entry, ep->name);
}
static void
check_state(Edje_Part_Collection *pc, Edje_Part *ep, Edje_Part_Description_Common *ed, Eet_File *ef)
{
check_nameless_state(pc, ep, ed, ef);
}
static void
_part_namespace_verify(Edje_Part_Collection *pc, Edje_Part *ep, Eet_File *ef, Eina_Bool ns_required)
{
char buf[1024], *p;
size_t len;
Edje_Part_Collection_Directory_Entry *de;
if (!namespace_verify) return;
/* this is from a group used as a source, either GROUP or TEXTBLOCK
* namespacing not required
*/
if (eina_hash_find(groups_sourced, pc->part)) return;
de = eina_hash_find(edje_collections_lookup, &pc->id);
p = strchr(de->entry, '/');
if (!p) return;
len = p - de->entry;
if (eina_strlcpy(buf, de->entry, len + 1) >= sizeof(buf)) return;
p = strchr(ep->name, '.');
/* ignore part types without required namespacing or without '.' in name */
if ((!ns_required) && (!p)) return;
if (strncmp(ep->name, buf, len))
error_and_abort(ef, "Part '%s' from group %s is not properly namespaced (should begin with '%s.')!", ep->name, de->entry, buf);
}
static void
check_part(Edje_Part_Collection *pc, Edje_Part *ep, Eet_File *ef)
{
Edje_Part_Collection_Parser *pcp = (Edje_Part_Collection_Parser*)pc;
unsigned int i;
Eina_List *group_path = NULL;
/* FIXME: check image set and sort them. */
if (!ep->default_desc)
error_and_abort(ef, "Collection %i: default description missing "
"for part \"%s\"", pc->id, ep->name);
check_state(pc, ep, ep->default_desc, ef);
for (i = 0; i < ep->other.desc_count; ++i)
check_state(pc, ep, ep->other.desc[i], ef);
if (ep->type == EDJE_PART_TYPE_IMAGE)
{
check_image_part_desc(pc, ep, (Edje_Part_Description_Image *)ep->default_desc, ef);
for (i = 0; i < ep->other.desc_count; ++i)
check_image_part_desc(pc, ep, (Edje_Part_Description_Image *)ep->other.desc[i], ef);
}
else if ((ep->type == EDJE_PART_TYPE_BOX) ||
(ep->type == EDJE_PART_TYPE_TABLE))
check_packed_items(pc, ep, ef);
else if (ep->type == EDJE_PART_TYPE_GROUP)
check_source_links(pc, ep, ef, group_path);
else if (ep->type == EDJE_PART_TYPE_TEXT)
{
check_text_part_desc(pc, ep, (Edje_Part_Description_Text *)ep->default_desc, ef);
for (i = 0; i < ep->other.desc_count; ++i)
check_text_part_desc(pc, ep, (Edje_Part_Description_Text *)ep->other.desc[i], ef);
}
if (!pcp->skip_namespace_validation)
{
switch (ep->type)
{
case EDJE_PART_TYPE_BOX:
case EDJE_PART_TYPE_TABLE:
case EDJE_PART_TYPE_SWALLOW:
_part_namespace_verify(pc, ep, ef, 1);
break;
case EDJE_PART_TYPE_TEXT:
case EDJE_PART_TYPE_TEXTBLOCK:
case EDJE_PART_TYPE_SPACER:
_part_namespace_verify(pc, ep, ef, 0);
break;
default: break;
}
}
}
static void
_program_signal_namespace_verify(Edje_Part_Collection *pc, Eet_File *ef, const char *sig, const char *src)
{
char buf[1024], *p;
size_t len;
Edje_Part_Collection_Directory_Entry *de;
if (!namespace_verify) return;
/* this is from a group used as a source, either GROUP or TEXTBLOCK
* namespacing not required
*/
if (eina_hash_find(groups_sourced, pc->part)) return;
/* ignore propagation to GROUP parts */
if (strchr(sig, ':')) return;
de = eina_hash_find(edje_collections_lookup, &pc->id);
p = strchr(de->entry, '/');
if (!p) return;
len = p - de->entry;
if (eina_strlcpy(buf, de->entry, len + 1) >= sizeof(buf)) return;
if (strncmp(sig, buf, len))
error_and_abort(ef, "SIGNAL_EMIT (%s:%s) does not match group namespace (%s)!", sig, src, de->entry);
}
static void
check_program(Edje_Part_Collection *pc, Edje_Program *ep, Eet_File *ef)
{
Edje_Part_Collection_Parser *pcp = (Edje_Part_Collection_Parser*)pc;
switch (ep->action)
{
case EDJE_ACTION_TYPE_STATE_SET:
case EDJE_ACTION_TYPE_ACTION_STOP:
case EDJE_ACTION_TYPE_DRAG_VAL_SET:
case EDJE_ACTION_TYPE_DRAG_VAL_STEP:
case EDJE_ACTION_TYPE_DRAG_VAL_PAGE:
if (!ep->targets)
error_and_abort(ef, "Collection %i: target missing in program "
"\"%s\"", pc->id, ep->name);
break;
default:
break;
}
Edje_Program_Target *et;
Eina_List *l;
unsigned int i = 0;
int camera_id = -1;
for (i = 0; (i < pc->parts_count) && (camera_id < 0); i++)
{
if (pc->parts[i]->type == EDJE_PART_TYPE_CAMERA)
camera_id = i;
}
if ((!ep->targets) && (ep->action == EDJE_ACTION_TYPE_SIGNAL_EMIT))
{
if (!pcp->skip_namespace_validation)
_program_signal_namespace_verify(pc, ef, ep->state, ep->state2);
}
EINA_LIST_FOREACH(ep->targets, l, et)
{
Edje_Part *part;
part = pc->parts[et->id];
/* verify existence of description in part */
if (ep->action == EDJE_ACTION_TYPE_STATE_SET)
{
if ((!eina_streq(ep->state, "custom")) &&
((!eina_streq(ep->state, "default")) || (!EINA_DBL_EQ(ep->value, 0.0))))
{
Edje_Part_Collection_Directory_Entry *de;
Eina_Bool found = EINA_FALSE;
for (i = 0; i < part->other.desc_count; i++)
{
Edje_Part_Description_Common *ed = part->other.desc[i];
if (eina_streq(ed->state.name, ep->state) && EINA_DBL_EQ(ep->value, ed->state.value))
{
found = EINA_TRUE;
break;
}
}
if (!found)
{
de = eina_hash_find(edje_collections_lookup, &pc->id);
error_and_abort(NULL, "GROUP %s - state '%s:%g' does not exist for part '%s'; set in program '%s'",
de->entry, ep->state, ep->value, part->name, ep->name);
}
}
}
if (((ep->action == EDJE_ACTION_TYPE_STATE_SET) ||
(ep->action == EDJE_ACTION_TYPE_SIGNAL_EMIT)) &&
(et->id < (int)pc->parts_count) &&
(part->type == EDJE_PART_TYPE_MESH_NODE) &&
(strstr(ep->signal, "mouse")))
{
for (i = 0; (i < pc->parts_count) && (ep->source_3d_id < 0); i++)
{
if (!strcmp(pc->parts[i]->name, ep->source))
ep->source_3d_id = i;
}
ep->source = mem_strdup(pc->parts[camera_id]->name);
}
}
}
/* reset part counters for alias */
static void
_alias_clean(Edje_Part_Collection_Directory_Entry *ce)
{
if (ce)
{
ce->count.RECTANGLE = 0;
ce->count.TEXT = 0;
ce->count.IMAGE = 0;
ce->count.SWALLOW = 0;
ce->count.TEXTBLOCK = 0;
ce->count.GROUP = 0;
ce->count.BOX = 0;
ce->count.TABLE = 0;
ce->count.EXTERNAL = 0;
ce->count.PROXY = 0;
ce->count.MESH_NODE = 0;
ce->count.LIGHT = 0;
ce->count.CAMERA = 0;
ce->count.SPACER = 0;
ce->count.VECTOR = 0;
ce->count.part = 0;
}
}
static void
data_thread_head(void *data, Ecore_Thread *thread EINA_UNUSED)
{
Head_Write *hw = data;
int bytes = 0;
char buf[EINA_PATH_MAX];
if (edje_file)
{
if (edje_file->collection)
{
Edje_Part_Collection_Directory_Entry *ce;
EINA_LIST_FREE(aliases, ce)
{
Edje_Part_Collection_Directory_Entry *sce;
if (!ce->entry)
{
snprintf(buf, sizeof(buf),
"Collection %i: name missing.", ce->id);
hw->errstr = strdup(buf);
return;
}
sce = eina_hash_find(edje_collections_lookup, &ce->id);
if (sce)
{
memcpy(&ce->count, &sce->count, sizeof (ce->count));
}
else
{
snprintf(buf, sizeof(buf),
"Collection %s (%i) can't find an correct alias.",
ce->entry, ce->id);
hw->errstr = strdup(buf);
return;
}
_alias_clean(ce);
eina_hash_direct_add(edje_file->collection, ce->entry, ce);
}
}
bytes = eet_data_write(hw->ef, edd_edje_file, "edje/file", edje_file,
compress_mode);
if (bytes <= 0)
{
snprintf(buf, sizeof(buf),
"Unable to write \"edje_file\" entry to \"%s\"",
file_out);
hw->errstr = strdup(buf);
return;
}
}
INF("Wrote %9i bytes (%4iKb) for \"edje_file\" header",
bytes, (bytes + 512) / 1024);
}
static void
data_thread_head_end(void *data, Ecore_Thread *thread EINA_UNUSED)
{
Head_Write *hw = data;
if (hw->errstr)
{
error_and_abort(hw->ef, hw->errstr);
free(hw->errstr);
}
free(hw);
thread_end(0);
}
static void
data_write_header(Eet_File *ef)
{
Head_Write *hw;
hw = calloc(1, sizeof(Head_Write));
hw->ef = ef;
pending_threads++;
if (threads)
ecore_thread_run(data_thread_head, data_thread_head_end, NULL, hw);
else
{
data_thread_head(hw, NULL);
data_thread_head_end(hw, NULL);
}
}
static void
data_thread_fonts(void *data, Ecore_Thread *thread EINA_UNUSED)
{
Fonts_Write *fc = data;
Eina_List *ll;
Eina_File *f = NULL;
void *m = NULL;
int bytes = 0;
char buf[EINA_PATH_MAX];
char buf2[EINA_PATH_MAX + EINA_PATH_MAX + 128];
size_t size;
f = eina_file_open(fc->fn->file, 0);
if (f)
{
using_file(fc->fn->file, 'F');
m = eina_file_map_all(f, EINA_FILE_SEQUENTIAL);
}
else
{
char *dat;
EINA_LIST_FOREACH(fnt_dirs, ll, dat)
{
snprintf(buf, sizeof(buf), "%s/%s", dat, fc->fn->file);
f = eina_file_open(buf, 0);
if (f)
{
using_file(buf, 'F');
m = eina_file_map_all(f, EINA_FILE_SEQUENTIAL);
if (m) break;
eina_file_close(f);
f = NULL;
}
}
}
if (!m)
{
if (f) eina_file_close(f);
snprintf(buf, sizeof(buf),
"Unable to load font part \"%s\" entry to %s",
fc->fn->file, file_out);
fc->errstr = strdup(buf);
return;
}
snprintf(buf, sizeof(buf), "edje/fonts/%s", fc->fn->name);
bytes = eet_write(fc->ef, buf, m, eina_file_size_get(f), compress_mode);
if ((bytes <= 0) || eina_file_map_faulted(f, m))
{
eina_file_map_free(f, m);
eina_file_close(f);
snprintf(buf2, sizeof(buf2),
"Unable to write font part \"%s\" as \"%s\" "
"part entry to %s", fc->fn->file, buf, file_out);
fc->errstr = strdup(buf2);
return;
}
size = eina_file_size_get(f);
INF("Wrote %9i bytes (%4iKb) for \"%s\" font entry \"%s\" compress: [real: %2.1f%%]",
bytes, (bytes + 512) / 1024, buf, fc->fn->file,
100 - (100 * (double)bytes) / ((double)((size > 0) ? size : 1))
);
eina_file_map_free(f, m);
eina_file_close(f);
}
static void
data_thread_fonts_end(void *data, Ecore_Thread *thread EINA_UNUSED)
{
Fonts_Write *fc = data;
if (fc->errstr)
{
error_and_abort(fc->ef, fc->errstr);
free(fc->errstr);
}
free(fc);
thread_end(0);
}
static void
data_write_fonts(Eet_File *ef, int *font_num)
{
Eina_Iterator *it;
Edje_Font *fn;
if (!edje_file->fonts) return;
it = eina_hash_iterator_data_new(edje_file->fonts);
EINA_ITERATOR_FOREACH(it, fn)
{
Fonts_Write *fc;
fc = calloc(1, sizeof(Fonts_Write));
if (!fc) continue;
fc->ef = ef;
fc->fn = fn;
pending_threads++;
if (threads)
ecore_thread_run(data_thread_fonts, data_thread_fonts_end, NULL, fc);
else
{
data_thread_fonts(fc, NULL);
data_thread_fonts_end(fc, NULL);
}
*font_num += 1;
}
eina_iterator_free(it);
}
static void
error_and_abort_image_load_error(Eet_File *ef, const char *file, int error)
{
const char *errmsg = evas_load_error_str(error);
char hint[1024] = "";
if (error == EVAS_LOAD_ERROR_DOES_NOT_EXIST)
{
snprintf
(hint, sizeof(hint),
" Check if path to file \"%s\" is correct "
"(both directory and file name).",
file);
}
else if (error == EVAS_LOAD_ERROR_CORRUPT_FILE)
{
snprintf
(hint, sizeof(hint),
" Check if file \"%s\" is consistent.",
file);
}
else if (error == EVAS_LOAD_ERROR_UNKNOWN_FORMAT)
{
const char *ext = strrchr(file, '.');
const char **itr, *known_loaders[] = {
/* list from evas_image_load.c */
"png",
"jpg",
"jpeg",
"jfif",
"eet",
"edj",
"eap",
"edb",
"xpm",
"tiff",
"tif",
"svg",
"svgz",
"gif",
"pbm",
"pgm",
"ppm",
"pnm",
"bmp",
"ico",
"tga",
"tgv",
NULL
};
if (!ext)
{
snprintf
(hint, sizeof(hint),
" File \"%s\" does not have an extension, "
"maybe it should?",
file);
goto show_err;
}
ext++;
for (itr = known_loaders; *itr; itr++)
{
if (strcasecmp(ext, *itr) == 0)
{
snprintf
(hint, sizeof(hint),
" Check if Evas was compiled with %s module enabled and "
"all required dependencies exist.",
ext);
goto show_err;
}
}
snprintf(hint, sizeof(hint),
" Check if Evas supports loading files of type \"%s\" (%s) "
"and this module was compiled and all its dependencies exist.",
ext, file);
}
show_err:
error_and_abort
(ef, "Unable to load image \"%s\" used by file \"%s\": %s.%s",
file, file_out, errmsg, hint);
}
static void
data_thread_image(void *data, Ecore_Thread *thread EINA_UNUSED)
{
Image_Write *iw = data;
char buf[PATH_MAX], buf2[EINA_PATH_MAX];
unsigned int *start, *end;
Eina_Bool opaque = EINA_TRUE;
int bytes = 0;
if ((iw->data) && (iw->w > 0) && (iw->h > 0))
{
Eet_Image_Encoding lossy = EET_IMAGE_LOSSLESS;
int mode, qual, comp = 0;
snprintf(buf, sizeof(buf), "edje/images/%i", iw->img->id);
qual = 80;
if ((iw->img->source_type == EDJE_IMAGE_SOURCE_TYPE_INLINE_PERFECT) &&
(iw->img->source_param == 0))
mode = 0; /* RAW */
else if ((iw->img->source_type == EDJE_IMAGE_SOURCE_TYPE_INLINE_PERFECT) &&
(iw->img->source_param == 1))
mode = 1; /* COMPRESS */
else if (iw->img->source_type == EDJE_IMAGE_SOURCE_TYPE_INLINE_LOSSY_ETC1)
mode = 3; /* LOSSY_ETC1 */
else if (iw->img->source_type == EDJE_IMAGE_SOURCE_TYPE_INLINE_LOSSY_ETC2)
mode = 4; /* LOSSY_ETC2 */
else
mode = 2; /* LOSSY */
if ((mode == 0) && (no_raw))
{
mode = 1; /* promote compression */
iw->img->source_param = 95;
}
if ((mode == 4) && (no_etc2)) mode = 2; /* demote etc2 to jpeg */
if ((mode == 3) && (no_etc1)) mode = 2; /* demote etc1 to jpeg */
if ((mode == 2) && (no_lossy)) mode = 1; /* demote compression */
if ((mode == 1) && (no_comp))
{
if (no_lossy) mode = 0; /* demote compression */
else if (no_raw)
{
iw->img->source_param = 90;
mode = 2; /* no choice. lossy */
}
}
if (mode == 2)
{
qual = iw->img->source_param;
if (qual < min_quality) qual = min_quality;
if (qual > max_quality) qual = max_quality;
lossy = EET_IMAGE_JPEG;
}
if (iw->alpha)
{
start = (unsigned int *)iw->data;
end = start + (iw->w * iw->h);
while (start < end)
{
if ((*start & 0xff000000) != 0xff000000)
{
opaque = EINA_FALSE;
break;
}
start++;
}
if (opaque) iw->alpha = 0;
}
if (mode == 3)
{
qual = iw->img->source_param;
if (qual < min_quality) qual = min_quality;
if (qual > max_quality) qual = max_quality;
// Enable TGV with LZ4. A bit redundant with EET compression.
comp = !no_comp;
lossy = opaque ? EET_IMAGE_ETC1 : EET_IMAGE_ETC1_ALPHA;
}
if (mode == 4)
{
qual = iw->img->source_param;
if (qual < min_quality) qual = min_quality;
if (qual > max_quality) qual = max_quality;
lossy = opaque ? EET_IMAGE_ETC2_RGB : EET_IMAGE_ETC2_RGBA;
}
if (mode == 0)
bytes = eet_data_image_write(iw->ef, buf,
iw->data, iw->w, iw->h,
iw->alpha,
0, 0, 0);
else if (mode == 1)
bytes = eet_data_image_write(iw->ef, buf,
iw->data, iw->w, iw->h,
iw->alpha,
compress_mode,
0, 0);
else if (mode >= 2)
bytes = eet_data_image_write(iw->ef, buf,
iw->data, iw->w, iw->h,
iw->alpha,
comp, qual, lossy);
if (bytes <= 0)
{
snprintf(buf2, sizeof(buf2),
"Unable to write image part "
"\"%s\" as \"%s\" part entry to "
"%s", iw->img->entry, buf, file_out);
iw->errstr = strdup(buf2);
return;
}
}
else
{
snprintf(buf, sizeof(buf), "edje/images/%i", iw->img->id);
snprintf(buf2, sizeof(buf2),
"Unable to load image part "
"\"%s\" as \"%s\" part entry to "
"%s", iw->img->entry, buf, file_out);
iw->errstr = strdup(buf2);
return;
}
if (eina_log_domain_level_check(_edje_cc_log_dom, EINA_LOG_LEVEL_INFO))
{
struct stat st;
if (!iw->path || (stat(iw->path, &st))) st.st_size = 0;
if (st.st_size > 0)
{
INF("Wrote %9i bytes (%4iKb) for \"%s\" image entry \"%s\" compress: [raw: %2.1f%%] [real: %2.1f%%]",
bytes, (bytes + 512) / 1024, buf, iw->img->entry,
100 - (100 * (double)bytes) / ((double)(iw->w * iw->h * 4)),
100 - (100 * (double)bytes) / ((double)(st.st_size))
);
}
}
}
static void
data_thread_image_end(void *data, Ecore_Thread *thread EINA_UNUSED)
{
Image_Write *iw = data;
if (iw->errstr)
{
error_and_abort(iw->ef, iw->errstr);
free(iw->errstr);
}
free(iw->path);
evas_object_del(iw->im);
free(iw);
thread_end(1);
}
static void
data_image_preload_done(void *data, Evas *e EINA_UNUSED, Evas_Object *o, void *event_info EINA_UNUSED)
{
Image_Write *iw = data;
evas_object_image_size_get(o, &iw->w, &iw->h);
iw->alpha = evas_object_image_alpha_get(o);
iw->data = evas_object_image_data_get(o, 0);
if (threads)
ecore_thread_run(data_thread_image, data_thread_image_end, NULL, iw);
else
{
data_thread_image(iw, NULL);
data_thread_image_end(iw, NULL);
}
}
static void
tgv_file_thread(void *data, Ecore_Thread *thread EINA_UNUSED)
{
Image_Write *iw = data;
char buf[256];
size_t len;
snprintf(buf, sizeof(buf), "edje/images/%i", iw->img->id);
len = eina_file_size_get(iw->f);
eet_write_cipher(iw->ef, buf, iw->data, len, EINA_FALSE /*!no_comp*/, NULL);
}
static void
tgv_file_thread_end(void *data, Ecore_Thread *thread EINA_UNUSED)
{
Image_Write *iw = data;
if (iw->errstr)
{
error_and_abort(iw->ef, iw->errstr);
free(iw->errstr);
}
free(iw->path);
emile_image_close(iw->emi);
eina_file_map_free(iw->f, iw->data);
eina_file_close(iw->f);
free(iw);
thread_end(1);
}
static Eina_Bool
tgv_file_check_and_add(Eet_File *ef, Edje_Image_Directory_Entry *img)
{
Emile_Image_Load_Error err;
Emile_Image *emi = NULL;
Image_Write *iw = NULL;
Eina_List *li;
const char *s;
Eina_File *f = NULL;
void *data;
EINA_LIST_FOREACH(img_dirs, li, s)
{
char buf[PATH_MAX];
snprintf(buf, sizeof(buf), "%s/%s", s, img->entry);
f = eina_file_open(buf, EINA_FALSE);
if (f) break;
}
if (!f) return EINA_FALSE;
data = eina_file_map_all(f, EINA_FILE_SEQUENTIAL);
if (!data) goto on_error;
using_file(img->entry, 'I');
emi = emile_image_tgv_file_open(f, NULL, NULL, &err);
if (!emi || (err != EMILE_IMAGE_LOAD_ERROR_NONE)) goto on_error;
iw = calloc(1, sizeof(*iw));
if (!emile_image_head(emi, &iw->prop, sizeof(iw->prop), &err) ||
(err != EMILE_IMAGE_LOAD_ERROR_NONE))
goto on_error;
if (!iw->prop.cspaces || !iw->prop.w || !iw->prop.h)
goto on_error;
iw->f = f;
iw->ef = ef;
iw->img = img;
iw->emi = emi;
iw->data = (unsigned int *)data;
iw->w = iw->prop.w;
iw->h = iw->prop.h;
iw->prop.cspace = iw->prop.cspaces[0];
if (img->source_type == EDJE_IMAGE_SOURCE_TYPE_INLINE_LOSSY_ETC1)
{
if (no_etc1) goto on_error;
if (iw->prop.cspace == EMILE_COLORSPACE_ETC1)
iw->alpha = 0;
else if (iw->prop.cspace == EMILE_COLORSPACE_ETC1_ALPHA)
iw->alpha = 1;
else
goto on_error;
}
else if (img->source_type == EDJE_IMAGE_SOURCE_TYPE_INLINE_LOSSY_ETC2)
{
if (no_etc2) goto on_error;
if (iw->prop.cspace == EMILE_COLORSPACE_RGB8_ETC2)
iw->alpha = 0;
else if (iw->prop.cspace == EMILE_COLORSPACE_RGBA8_ETC2_EAC)
iw->alpha = 1;
else
goto on_error;
}
image_num += 1;
iw->path = strdup(img->entry);
pending_image_threads++;
if (threads)
ecore_thread_run(tgv_file_thread, tgv_file_thread_end, NULL, iw);
else
{
tgv_file_thread(iw, NULL);
tgv_file_thread_end(iw, NULL);
}
return EINA_TRUE;
on_error:
free(iw);
emile_image_close(emi);
if (data) eina_file_map_free(f, data);
eina_file_close(f);
return EINA_FALSE;
}
static void
data_write_vectors(Eet_File *ef, int *vector_num)
{
unsigned int i;
Eina_List *ll;
char *s;
Eina_File *f = NULL;
Edje_Vector_Directory_Entry *vector;
Eina_Strbuf *buf;
Eina_Bool found = EINA_FALSE;
Evas *evas;
Evas_Object *vg;
if (!((edje_file) && (edje_file->image_dir))) return;
if (!buffer_ee)
buffer_ee = ecore_evas_buffer_new(1, 1);
if (!buffer_ee)
error_and_abort(ef, "Cannot create buffer engine canvas for image load.");
evas = ecore_evas_get(buffer_ee);
vg = evas_object_vg_add(evas);
buf = eina_strbuf_new();
for (i = 0; i < edje_file->image_dir->vectors_count; i++)
{
if (!beta)
error_and_abort(ef, "Vector part are currently a beta feature, please enable them by running edje_cc with -beta.");
vector = &edje_file->image_dir->vectors[i];
EINA_LIST_FOREACH(img_dirs, ll, s)
{
eina_strbuf_reset(buf);
eina_strbuf_append_printf(buf, "%s" EINA_PATH_SEP_S "%s", s, vector->entry);
f = eina_file_open(eina_strbuf_string_get(buf), EINA_FALSE);
if (!f) continue;
eina_file_close(f);
if (efl_file_set(vg, eina_strbuf_string_get(buf)))
error_and_abort(ef, "Failed to parse svg : %s", vector->entry);
if (efl_file_load(vg))
error_and_abort(ef, "Failed to parse svg : %s", vector->entry);
eina_strbuf_reset(buf);
eina_strbuf_append_printf(buf, "edje/vectors/%i", vector->id);
if (!efl_file_save(vg, eet_file_get(ef), eina_strbuf_string_get(buf), NULL))
error_and_abort(ef, "Failed to write data in Eet for svg :%s", vector->entry);
*vector_num += 1;
found = EINA_TRUE;
break;
}
if (!found)
error_and_abort(ef, "Unable to find the svg :%s", vector->entry);
found = EINA_FALSE;
}
eina_strbuf_free(buf);
}
static void
data_image_sets_init(void)
{
int i;
if (!((edje_file) && (edje_file->image_dir))) return;
for (i = 0; i < (int)edje_file->image_dir->sets_count; i++)
{
Edje_Image_Directory_Set *set;
Edje_Image_Directory_Set_Entry *set_entry;
Edje_Image_Directory_Entry *img;
Eina_List *ll = NULL;
set = edje_file->image_dir->sets + i;
if (!set->entries) continue;
EINA_LIST_FOREACH(set->entries, ll, set_entry)
{
img = &edje_file->image_dir->entries[set_entry->id];
set_entry->name = img->entry;
}
}
}
static void
data_write_images(void)
{
Evas *evas;
const char *ext = NULL;
if (!((edje_file) && (edje_file->image_dir))) return;
if (!buffer_ee)
buffer_ee = ecore_evas_buffer_new(1, 1);
if (!buffer_ee)
error_and_abort(cur_ef, "Cannot create buffer engine canvas for image load.");
evas = ecore_evas_get(buffer_ee);
for (; cur_image_entry < (int)edje_file->image_dir->entries_count; cur_image_entry++)
{
Edje_Image_Directory_Entry *img;
Evas_Object *im;
Eina_List *ll;
char *s;
int load_err = EVAS_LOAD_ERROR_NONE;
Image_Write *iw;
img = &edje_file->image_dir->entries[cur_image_entry];
if ((img->source_type >= EDJE_IMAGE_SOURCE_TYPE_USER) || !img->entry)
continue;
if (img->source_type == EDJE_IMAGE_SOURCE_TYPE_INLINE_LOSSY_ETC1 ||
img->source_type == EDJE_IMAGE_SOURCE_TYPE_INLINE_LOSSY_ETC2)
{
ext = strrchr(img->entry, '.');
if (ext && !strcasecmp(ext, ".tgv"))
{
if (tgv_file_check_and_add(cur_ef, img))
{
DBG("Directly copying data from TGV file into EDJ");
continue;
}
else
ERR("Source '%s' has incompatible ETC format.", img->entry);
}
}
iw = calloc(1, sizeof(Image_Write));
iw->ef = cur_ef;
iw->img = img;
iw->im = im = evas_object_image_add(evas);
if (threads)
evas_object_event_callback_add(im,
EVAS_CALLBACK_IMAGE_PRELOADED,
data_image_preload_done,
iw);
EINA_LIST_FOREACH(img_dirs, ll, s)
{
char buf[PATH_MAX];
snprintf(buf, sizeof(buf), "%s/%s", s, img->entry);
evas_object_image_file_set(im, buf, NULL);
load_err = evas_object_image_load_error_get(im);
if (load_err == EVAS_LOAD_ERROR_NONE)
{
image_num += 1;
iw->path = strdup(buf);
pending_image_threads++;
if (threads)
evas_object_image_preload(im, 0);
using_file(buf, 'I');
if (!threads)
data_image_preload_done(iw, evas, im, NULL);
break;
}
}
if (!img_dirs || (load_err != EVAS_LOAD_ERROR_NONE))
{
evas_object_image_file_set(im, img->entry, NULL);
load_err = evas_object_image_load_error_get(im);
if (load_err == EVAS_LOAD_ERROR_NONE)
{
image_num += 1;
iw->path = strdup(img->entry);
pending_image_threads++;
if (threads)
evas_object_image_preload(im, 0);
using_file(img->entry, 'I');
if (!threads)
data_image_preload_done(iw, evas, im, NULL);
}
else
{
free(iw);
error_and_abort_image_load_error(cur_ef, img->entry, load_err);
exit(1); // ensure static analysis tools know we exit
}
}
if (img->source_type < EDJE_IMAGE_SOURCE_TYPE_USER)
{
ext = strrchr(img->entry, '.');
if (ext && (!strcasecmp(ext, ".svg") || !strcasecmp(ext, ".svgz")))
{
int size = strlen(img->entry) + strlen(".png") + 1;
char *tmp = malloc(size);
snprintf(tmp, size, "%s.png", img->entry);
INF("Vector '%s' used as image, convert to bitmap '%s'", img->entry, tmp);
free((void *)img->entry);
img->entry = tmp;
}
}
if (threads)
{
if (pending_threads + pending_image_threads > (int)max_open_files - 2) break;
}
}
}
static void
data_check_models(Eet_File *ef EINA_UNUSED, int *model_num EINA_UNUSED)
{
int i;
if (!((edje_file) && (edje_file->model_dir))) return;
for (i = 0; i < (int)edje_file->model_dir->entries_count; i++)
{
Edje_Model_Directory_Entry *model;
Eina_List *ll;
char *s;
Eina_Bool file_exist = EINA_FALSE;
model = &edje_file->model_dir->entries[i];
EINA_LIST_FOREACH(model_dirs, ll, s)
{
char buf[PATH_MAX];
snprintf(buf, sizeof(buf), "%s/%s", s, model->entry);
file_exist = file_exist || ecore_file_exists(buf);
}
if (!file_exist)
{
ERR("Unable to load model \"%s\". Check if path to file is correct (both directory and file name).",
model->entry);
exit(-1);
}
}
}
static void
data_thread_sounds(void *data, Ecore_Thread *thread EINA_UNUSED)
{
Sound_Write *sw = data;
Eina_List *ll;
#ifdef HAVE_LIBSNDFILE
Edje_Sound_Encode *enc_info;
#endif
char *dir_path = NULL;
char snd_path[PATH_MAX];
char sndid_str[15];
Eina_File *f = NULL;
void *m = NULL;
int bytes = 0;
// Search the Sound file in all the -sd ( sound directory )
EINA_LIST_FOREACH(snd_dirs, ll, dir_path)
{
snprintf((char *)snd_path, sizeof(snd_path), "%s/%s", dir_path,
sw->sample->snd_src);
f = eina_file_open(snd_path, 0);
if (f) break;
}
if (!f)
{
snprintf((char *)snd_path, sizeof(snd_path), "%s",
sw->sample->snd_src);
f = eina_file_open(snd_path, 0);
}
#ifdef HAVE_LIBSNDFILE
if (f) eina_file_close(f);
enc_info = _edje_multisense_encode(snd_path, sw->sample,
sw->sample->quality);
f = eina_file_open(enc_info->file, 0);
if (f) using_file(enc_info->file, 'S');
#else
if (f) using_file(snd_path, 'S');
#endif
if (!f)
{
ERR("Unable to load sound data of: %s", sw->sample->name);
exit(-1);
}
snprintf(sndid_str, sizeof(sndid_str), "edje/sounds/%i", sw->sample->id);
m = eina_file_map_all(f, EINA_FILE_WILLNEED);
if (m)
{
bytes = eet_write(sw->ef, sndid_str, m, eina_file_size_get(f),
EET_COMPRESSION_NONE);
if (eina_file_map_faulted(f, m))
{
ERR("File access error when reading '%s'",
eina_file_filename_get(f));
exit(-1);
}
eina_file_map_free(f, m);
}
eina_file_close(f);
#ifdef HAVE_LIBSNDFILE
//If encoded temporary file, delete it.
if (enc_info->encoded) unlink(enc_info->file);
#endif
#ifdef HAVE_LIBSNDFILE
INF("Wrote %9i bytes (%4iKb) for \"%s\" %s sound entry \"%s\"",
bytes, (bytes + 512) / 1024,
sndid_str, enc_info->comp_type, sw->sample->name);
#else
INF("Wrote %9i bytes (%4iKb) for \"%s\" %s sound entry \"%s\"",
bytes, (bytes + 512) / 1024,
sndid_str, "RAW PCM", sw->sample->name);
#endif
#ifdef HAVE_LIBSNDFILE
if ((enc_info->file) && (!enc_info->encoded))
eina_stringshare_del(enc_info->file);
free(enc_info);
enc_info = NULL;
#endif
}
static void
data_thread_sounds_end(void *data, Ecore_Thread *thread EINA_UNUSED)
{
Sound_Write *sw = data;
free(sw);
thread_end(0);
}
static void
data_write_sounds(Eet_File *ef, int *sound_num)
{
if ((edje_file) && (edje_file->sound_dir))
{
int i;
for (i = 0; i < (int)edje_file->sound_dir->samples_count; i++)
{
Sound_Write *sw;
sw = calloc(1, sizeof(Sound_Write));
if (!sw) continue;
sw->ef = ef;
sw->sample = &edje_file->sound_dir->samples[i];
sw->i = i;
*sound_num += 1;
pending_threads++;
if (threads)
ecore_thread_run(data_thread_sounds, data_thread_sounds_end, NULL, sw);
else
{
data_thread_sounds(sw, NULL);
data_thread_sounds_end(sw, NULL);
}
}
}
}
static void
data_thread_mo(void *data, Ecore_Thread *thread EINA_UNUSED)
{
Mo_Write *mw = data;
char buf[EINA_PATH_MAX];
Eina_List *ll;
char *dir_path = NULL;
char mo_path[PATH_MAX];
char moid_str[50];
Eina_File *f = NULL;
void *m = NULL;
int bytes = 0;
if (mw->mo_path)
f = eina_file_open(mw->mo_path, 0);
if (!f)
{
// Search the mo file in all the -md ( mo directory )
EINA_LIST_FOREACH(mo_dirs, ll, dir_path)
{
snprintf((char *)mo_path, sizeof(mo_path), "%s/%s/%s", dir_path, mw->mo_entry->locale, mw->mo_entry->mo_src);
f = eina_file_open(mo_path, 0);
if (f) break;
}
}
if (!f)
{
snprintf((char *)mo_path, sizeof(mo_path), "%s", mw->mo_entry->mo_src);
f = eina_file_open(mo_path, 0);
}
if (f) using_file(mo_path, 'S');
if (!f)
{
snprintf(buf, sizeof(buf), "Unable to load mo data of: %s", mo_path);
ERR("%s", buf);
mw->errstr = strdup(buf);
exit(-1);
}
snprintf(moid_str, sizeof(moid_str), "edje/mo/%i/%s/LC_MESSAGES", mw->mo_entry->id, mw->mo_entry->locale);
m = eina_file_map_all(f, EINA_FILE_WILLNEED);
if (m)
{
bytes = eet_write(mw->ef, moid_str, m, eina_file_size_get(f), EET_COMPRESSION_NONE);
if (eina_file_map_faulted(f, m))
{
snprintf(buf, sizeof(buf), "File access error when reading '%s'",
eina_file_filename_get(f));
ERR("%s", buf);
mw->errstr = strdup(buf);
eina_file_close(f);
exit(-1);
}
eina_file_map_free(f, m);
}
eina_file_close(f);
if (mw->mo_path)
ecore_file_remove(mo_path);
INF("Wrote %9i bytes (%4iKb) for \"%s\" %s mo entry \"%s\"",
bytes, (bytes + 512) / 1024, moid_str, "RAW PCM", mw->mo_entry->locale);
}
static void
data_thread_mo_end(void *data, Ecore_Thread *thread EINA_UNUSED)
{
Mo_Write *mw = data;
if (mw->errstr)
{
error_and_abort(mw->ef, mw->errstr);
free(mw->errstr);
}
if (mw->mo_path)
free(mw->mo_path);
free(mw);
thread_end(0);
}
Eina_Bool
_exe_del_cb(void *data EINA_UNUSED, int evtype EINA_UNUSED, void *evinfo)
{
Mo_Write *mw = data;
Ecore_Exe_Event_Del *ev = evinfo;
if (!ev->exe) return ECORE_CALLBACK_RENEW;
if (ecore_exe_data_get(ev->exe) != mw) return ECORE_CALLBACK_RENEW;
if (ev->exit_code != 0)
{
error_and_abort(mw->ef, "Creation of .mo from .po failed.");
return ECORE_CALLBACK_CANCEL;
}
if (ecore_file_exists(mw->mo_path))
{
if (threads)
ecore_thread_run(data_thread_mo, data_thread_mo_end, NULL, mw);
else
{
data_thread_mo(mw, NULL);
data_thread_mo_end(mw, NULL);
}
}
else
return ECORE_CALLBACK_RENEW;
if (pending_threads + pending_image_threads <= 0) ecore_main_loop_quit();
return ECORE_CALLBACK_CANCEL;
}
static void
data_write_mo(Eet_File *ef, int *mo_num)
{
if ((edje_file) && (edje_file->mo_dir))
{
int i;
char *po_entry;
char *sub_str;
char buf[EINA_PATH_MAX + PATH_MAX + PATH_MAX + 128];
Eina_List *ll;
char *dir_path = NULL;
char mo_path[PATH_MAX];
char po_path[PATH_MAX];
for (i = 0; i < (int)edje_file->mo_dir->mo_entries_count; i++)
{
Mo_Write *mw, *mw2;
mw = calloc(1, sizeof(Mo_Write));
if (!mw) continue;
mw->ef = ef;
mw->mo_entry = &edje_file->mo_dir->mo_entries[i];
*mo_num += 1;
pending_threads++;
po_entry = strdup(mw->mo_entry->mo_src);
sub_str = strstr(mw->mo_entry->mo_src, ".po");
if (sub_str)
{
sub_str[1] = 'm';
EINA_LIST_FOREACH(mo_dirs, ll, dir_path)
{
snprintf((char *)po_path, sizeof(po_path), "%s/%s/%s", dir_path, mw->mo_entry->locale, po_entry);
if (ecore_file_exists(po_path))
{
char *mo_dir = ecore_file_dir_get(eet_file_get(ef));
snprintf((char *)mo_path, sizeof(mo_path), "%s/%s", mo_dir, mw->mo_entry->locale);
ecore_file_mkpath(mo_path);
snprintf((char *)mo_path, sizeof(mo_path), "%s/%s/%s", mo_dir, mw->mo_entry->locale, mw->mo_entry->mo_src);
snprintf(buf, sizeof(buf), "msgfmt -o %s %s", mo_path, po_path);
mw2 = malloc(sizeof(Mo_Write));
if (mw2)
{
memcpy(mw2, mw, sizeof(Mo_Write));
mw2->mo_path = strdup(mo_path);
mw2->exe = ecore_exe_run(buf, mw2);
ecore_event_handler_add(ECORE_EXE_EVENT_DEL,
_exe_del_cb, mw2);
}
free(mo_dir);
}
else
error_and_abort(mw->ef, "Non-existent .po file specified: \"%s\".", po_path);
}
free(mw);
}
else
{
if (threads)
ecore_thread_run(data_thread_mo, data_thread_mo_end, NULL, mw);
else
{
data_thread_mo(mw, NULL);
data_thread_mo_end(mw, NULL);
}
}
free(po_entry);
}
}
}
static void
data_thread_vibrations(void *data, Ecore_Thread *thread EINA_UNUSED)
{
Vibration_Write *vw = data;
Eina_List *ll;
char *dir_path = NULL;
char path[PATH_MAX];
char id_str[30];
Eina_File *f = NULL;
void *m = NULL;
int bytes = 0;
EINA_LIST_FOREACH(vibration_dirs, ll, dir_path)
{
snprintf((char *)path, sizeof(path), "%s/%s", dir_path,
vw->sample->src);
f = eina_file_open(path, 0);
if (f) break;
}
if (!f)
{
snprintf((char *)path, sizeof(path), "%s",
vw->sample->src);
f = eina_file_open(path, 0);
}
if (f) using_file(path, 'S');
if (!f)
{
ERR("Unable to load vibration data of: %s", vw->sample->src);
exit(-1);
}
snprintf(id_str, sizeof(id_str), "edje/vibrations/%i", vw->sample->id);
m = eina_file_map_all(f, EINA_FILE_WILLNEED);
if (m)
{
bytes = eet_write(vw->ef, id_str, m, eina_file_size_get(f),
EET_COMPRESSION_NONE);
if (eina_file_map_faulted(f, m))
{
ERR("File access error when reading '%s'",
eina_file_filename_get(f));
exit(-1);
}
eina_file_map_free(f, m);
}
eina_file_close(f);
INF("Wrote %9i bytes (%4iKb) for \"%s\" %s vibration entry \"%s\"",
bytes, (bytes + 512) / 1024,
id_str, "RAW", vw->sample->name);
}
static void
data_thread_vibrations_end(void *data, Ecore_Thread *thread EINA_UNUSED)
{
Vibration_Write *sw = data;
free(sw);
thread_end(0);
}
static void
data_write_vibrations(Eet_File *ef, int *num)
{
if ((edje_file) && (edje_file->vibration_dir))
{
int i;
for (i = 0; i < (int)edje_file->vibration_dir->samples_count; i++)
{
Vibration_Write *vw;
vw = calloc(1, sizeof(Vibration_Write));
if (!vw) continue;
vw->ef = ef;
vw->sample = &edje_file->vibration_dir->samples[i];
vw->i = i;
*num += 1;
pending_threads++;
if (threads)
ecore_thread_run(data_thread_vibrations, data_thread_vibrations_end, NULL, vw);
else
{
data_thread_vibrations(vw, NULL);
data_thread_vibrations_end(vw, NULL);
}
}
}
}
static void
check_groups(Eet_File *ef)
{
Edje_Part_Collection *pc;
Eina_List *l;
/* sanity checks for parts and programs */
EINA_LIST_FOREACH(edje_collections, l, pc)
{
unsigned int i;
for (i = 0; i < pc->parts_count; ++i)
check_part(pc, pc->parts[i], ef);
#define CHECK_PROGRAM(Type, Pc, It) \
for (It = 0; It < Pc->programs.Type ## _count; ++It) \
check_program(Pc, Pc->programs.Type[i], ef); \
CHECK_PROGRAM(fnmatch, pc, i);
CHECK_PROGRAM(strcmp, pc, i);
CHECK_PROGRAM(strncmp, pc, i);
CHECK_PROGRAM(strrncmp, pc, i);
CHECK_PROGRAM(nocmp, pc, i);
}
}
static void
data_thread_group(void *data, Ecore_Thread *thread EINA_UNUSED)
{
Group_Write *gw = data;
char buf[PATH_MAX];
snprintf(buf, sizeof(buf), "edje/collections/%i", gw->pc->id);
eet_data_write(gw->ef, edd_edje_part_collection, buf, gw->pc,
compress_mode);
return;
}
static void
data_thread_group_end(void *data, Ecore_Thread *thread EINA_UNUSED)
{
Group_Write *gw = data;
if (gw->errstr)
{
error_and_abort(gw->ef, gw->errstr);
free(gw->errstr);
}
free(gw);
thread_end(0);
}
static void
data_write_groups(Eet_File *ef, int *collection_num)
{
Eina_List *l;
Edje_Part_Collection *pc;
EINA_LIST_FOREACH(edje_collections, l, pc)
{
Group_Write *gw;
gw = calloc(1, sizeof(Group_Write));
if (!gw)
{
error_and_abort(ef, "Cannot allocate memory for group writer");
return;
}
gw->ef = ef;
gw->pc = pc;
pending_threads++;
if (threads)
ecore_thread_run(data_thread_group, data_thread_group_end, NULL, gw);
else
{
data_thread_group(gw, NULL);
data_thread_group_end(gw, NULL);
}
*collection_num += 1;
}
}
static void
create_script_file(Eet_File *ef, const char *filename, const Code *cd, int fd)
{
FILE *f = fdopen(fd, "wb");
if (!f)
error_and_abort(ef, "Unable to open temp file \"%s\" for script "
"compilation.", filename);
Eina_List *ll;
Code_Program *cp;
fprintf(f, "#include <edje>\n");
int ln = 2;
if (cd->shared)
{
while (ln < (cd->l1 - 1))
{
fprintf(f, " \n");
ln++;
}
{
char *sp;
int hash = 0;
int newlined = 0;
for (sp = cd->shared; *sp; sp++)
{
if ((sp[0] == '#') && (newlined))
{
hash = 1;
}
newlined = 0;
if (sp[0] == '\n') newlined = 1;
if (!hash) fputc(sp[0], f);
else if (sp[0] == '\n')
hash = 0;
}
fputc('\n', f);
}
ln += cd->l2 - cd->l1 + 1;
}
EINA_LIST_FOREACH(cd->programs, ll, cp)
{
if (cp->script)
{
while (ln < (cp->l1 - 1))
{
fprintf(f, " \n");
ln++;
}
/* FIXME: this prototype needs to be */
/* formalised and set in stone */
fprintf(f, "public _p%i(sig[], src[]) {", cp->id);
{
char *sp;
int hash = 0;
int newlined = 0;
for (sp = cp->script; *sp; sp++)
{
if ((sp[0] == '#') && (newlined))
{
hash = 1;
}
newlined = 0;
if (sp[0] == '\n') newlined = 1;
if (!hash) fputc(sp[0], f);
else if (sp[0] == '\n')
hash = 0;
}
}
fprintf(f, "}\n");
ln += cp->l2 - cp->l1 + 1;
}
}
fclose(f);
}
static void
data_thread_script(void *data, Ecore_Thread *thread EINA_UNUSED)
{
Script_Write *sc = data;
FILE *f;
int size;
char buf[PATH_MAX];
f = fopen(sc->tmpo, "rb");
if (!f)
{
snprintf(buf, sizeof(buf),
"Unable to open script object \"%s\" for reading.",
sc->tmpo);
sc->errstr = strdup(buf);
return;
}
if (fseek(f, 0, SEEK_END) < 0)
ERR("Error seeking");
size = ftell(f);
rewind(f);
if (size > 0)
{
void *dat = malloc(size);
if (dat)
{
if (fread(dat, size, 1, f) != 1)
{
snprintf(buf, sizeof(buf),
"Unable to read all of script object \"%s\"",
sc->tmpo);
sc->errstr = strdup(buf);
free(dat);
fclose(f);
return;
}
snprintf(buf, sizeof(buf), "edje/scripts/embryo/compiled/%i",
sc->i);
eet_write(sc->ef, buf, dat, size, compress_mode);
free(dat);
}
else
{
snprintf(buf, sizeof(buf),
"Alloc failed for %lu bytes", (unsigned long)size);
sc->errstr = strdup(buf);
fclose(f);
return;
}
}
if (no_save)
WRN("You are removing the source from this Edje file. This may break some use cases.\nBe aware of your choice and the poor kitten you are harming with it!");
else
{
Eina_List *ll;
Code_Program *cp;
if (sc->cd->original)
{
snprintf(buf, PATH_MAX, "edje/scripts/embryo/source/%i", sc->i);
eet_write(sc->ef, buf, sc->cd->original,
strlen(sc->cd->original) + 1, compress_mode);
}
EINA_LIST_FOREACH(sc->cd->programs, ll, cp)
{
if (!cp->original) continue;
snprintf(buf, PATH_MAX, "edje/scripts/embryo/source/%i/%i",
sc->i, cp->id);
eet_write(sc->ef, buf, cp->original,
strlen(cp->original) + 1, compress_mode);
}
}
fclose(f);
unlink(sc->tmpn);
unlink(sc->tmpo);
eina_tmpstr_del(sc->tmpn);
eina_tmpstr_del(sc->tmpo);
// closed by fclose(f) in create_script_file()
// close(sc->tmpn_fd);
}
typedef struct
{
char *exe;
Script_Write *sc;
} Pending_Script_Write;
#define PENDING_COMMANDS_MAX 8
static int pending_write_commands = 0;
static Eina_List *pending_script_writes = NULL;
static void data_write_script_queue(Script_Write *sc, const char *exeline);
static void
data_thread_script_end(void *data, Ecore_Thread *thread EINA_UNUSED)
{
Script_Write *sc = data;
if (sc->errstr)
{
error_and_abort(sc->ef, sc->errstr);
free(sc->errstr);
}
free(sc);
thread_end(0);
}
static Eina_Bool
data_scripts_exe_del_cb(void *data EINA_UNUSED, int evtype EINA_UNUSED, void *evinfo)
{
Script_Write *sc = data;
Ecore_Exe_Event_Del *ev = evinfo;
if (!ev->exe) return ECORE_CALLBACK_RENEW;
if (ecore_exe_data_get(ev->exe) != sc) return ECORE_CALLBACK_RENEW;
pending_write_commands--;
if (pending_write_commands < PENDING_COMMANDS_MAX)
{
if (pending_script_writes)
{
Pending_Script_Write *pend = pending_script_writes->data;
pending_script_writes = eina_list_remove_list
(pending_script_writes, pending_script_writes);
data_write_script_queue(pend->sc, pend->exe);
free(pend->exe);
free(pend);
}
}
if (ev->exit_code != 0)
{
error_and_abort(sc->ef, "Compiling script code not clean.");
return ECORE_CALLBACK_CANCEL;
}
if (threads)
{
ecore_thread_run(data_thread_script, data_thread_script_end, NULL, sc);
}
else
{
data_thread_script(sc, NULL);
data_thread_script_end(sc, NULL);
}
if (pending_threads + pending_image_threads <= 0) ecore_main_loop_quit();
return ECORE_CALLBACK_CANCEL;
}
static void
data_write_script_queue(Script_Write *sc, const char *exeline)
{
if (pending_write_commands >= PENDING_COMMANDS_MAX)
{
Pending_Script_Write *pend = malloc(sizeof(Pending_Script_Write));
if (pend)
{
pend->sc = sc;
pend->exe = strdup(exeline);
if (!pend->exe)
{
error_and_abort(sc->ef,
"Unable to allocate mem pending string.");
free(pend);
return;
}
pending_script_writes = eina_list_append(pending_script_writes,
pend);
}
else
error_and_abort(sc->ef,
"Unable to allocate mem for pending script.");
}
else
{
pending_threads++;
sc->exe = ecore_exe_run(exeline, sc);
if (!sc->exe) error_and_abort(sc->ef, "Unable to fork off embryo_cc.");
ecore_event_handler_add(ECORE_EXE_EVENT_DEL,
data_scripts_exe_del_cb, sc);
pending_write_commands++;
}
}
static void
data_write_scripts(Eet_File *ef)
{
Eina_List *l;
char embryo_cc_path[PATH_MAX] = "";
char inc_path[PATH_MAX] = "";
int i;
#ifdef _WIN32
# define BIN_EXT ".exe"
#else
# define BIN_EXT
#endif
#ifdef NEED_RUN_IN_TREE
if (getenv("EFL_RUN_IN_TREE"))
{
snprintf(embryo_cc_path, sizeof(embryo_cc_path),
"%s/src/bin/embryo/embryo_cc" BIN_EXT,
PACKAGE_BUILD_DIR);
snprintf(inc_path, sizeof(inc_path),
"%s/data/edje/include", PACKAGE_SRC_DIR);
if (!ecore_file_exists(embryo_cc_path))
embryo_cc_path[0] = '\0';
}
#endif
if (embryo_cc_path[0] == '\0')
{
snprintf(embryo_cc_path, sizeof(embryo_cc_path),
"%s/embryo_cc" BIN_EXT,
eina_prefix_bin_get(pfx));
snprintf(inc_path, sizeof(inc_path),
"%s/include",
eina_prefix_data_get(pfx));
}
#undef BIN_EXT
for (i = 0, l = codes; l; l = eina_list_next(l), i++)
{
Code *cd = eina_list_data_get(l);
Script_Write *sc;
int fd;
char buf[EINA_PATH_MAX + PATH_MAX + PATH_MAX + 128];
if (cd->is_lua)
continue;
if ((!cd->shared) && (!cd->programs))
continue;
sc = calloc(1, sizeof(Script_Write));
sc->ef = ef;
sc->cd = cd;
sc->i = i;
sc->tmpn_fd = eina_file_mkstemp("edje_cc.sma-tmp-XXXXXX", &sc->tmpn);
if (sc->tmpn_fd < 0)
error_and_abort(ef, "Unable to open temp file \"%s\" for script "
"compilation.", sc->tmpn);
fd = eina_file_mkstemp("edje_cc.amx-tmp-XXXXXX", &sc->tmpo);
if (fd < 0)
{
unlink(sc->tmpn);
eina_tmpstr_del(sc->tmpn);
error_and_abort(ef, "Unable to open temp file \"%s\" for script "
"compilation.", sc->tmpo);
}
//do not carry the fd over the time
//we should not unnesseserrily carry filedescriptors over time as this could excede system limits
//which have been fetched earlier
close(fd);
create_script_file(ef, sc->tmpn, cd, sc->tmpn_fd);
snprintf(buf, sizeof(buf),
"%s -i %s -o %s %s", embryo_cc_path, inc_path,
sc->tmpo, sc->tmpn);
data_write_script_queue(sc, buf);
}
}
#ifdef LUA_BINARY
static int
_edje_lua_script_writer(lua_State *L EINA_UNUSED, const void *chunk_buf, size_t chunk_size, void *_data)
{
Script_Lua_Writer *data;
void *old;
data = (Script_Lua_Writer *)_data;
old = data->buf;
data->buf = realloc(data->buf, data->size + chunk_size);
if (data->buf)
{
memcpy(&((data->buf)[data->size]), chunk_buf, chunk_size);
data->size += chunk_size;
}
else
{
ERR("Failed to copy chunk buffer.\n");
data->buf = old;
}
return 0;
}
#endif
void
_edje_lua_error_and_abort(lua_State *L, int err_code, Script_Write *sc)
{
char buf[PATH_MAX];
char *err_type;
switch (err_code)
{
case LUA_ERRRUN:
err_type = "runtime";
break;
case LUA_ERRSYNTAX:
err_type = "syntax";
break;
case LUA_ERRMEM:
err_type = "memory allocation";
break;
case LUA_ERRERR:
err_type = "error handler";
break;
default:
err_type = "unknown";
break;
}
snprintf(buf, sizeof(buf),
"Lua %s error: %s", err_type, lua_tostring(L, -1));
sc->errstr = strdup(buf);
}
static void
data_thread_lua_script(void *data, Ecore_Thread *thread EINA_UNUSED)
{
Script_Write *sc = data;
char buf[PATH_MAX];
lua_State *L;
int ln = 1;
luaL_Buffer b;
Script_Lua_Writer dat;
Eina_List *ll;
Code_Program *cp;
#ifdef LUA_BINARY
int err_code;
#endif
L = luaL_newstate();
if (!L)
{
snprintf(buf, sizeof(buf),
"Lua error: Lua state could not be initialized");
sc->errstr = strdup(buf);
return;
}
luaL_buffinit(L, &b);
dat.buf = NULL;
dat.size = 0;
if (sc->cd->shared)
{
while (ln < (sc->cd->l1 - 1))
{
luaL_addchar(&b, '\n');
ln++;
}
luaL_addstring(&b, sc->cd->shared);
ln += sc->cd->l2 - sc->cd->l1;
}
EINA_LIST_FOREACH(sc->cd->programs, ll, cp)
{
if (cp->script)
{
while (ln < (cp->l1 - 1))
{
luaL_addchar(&b, '\n');
ln++;
}
luaL_addstring(&b, "_G[");
lua_pushnumber(L, cp->id);
luaL_addvalue(&b);
luaL_addstring(&b, "] = function (ed, signal, source)");
luaL_addstring(&b, cp->script);
luaL_addstring(&b, "end\n");
ln += cp->l2 - cp->l1 + 1;
}
}
luaL_pushresult(&b);
#ifdef LUA_BINARY
if (err_code = luaL_loadstring(L, lua_tostring(L, -1)))
{
_edje_lua_error_and_abort(L, err_code, sc);
return;
}
lua_dump(L, _edje_lua_script_writer, &dat);
#else // LUA_PLAIN_TEXT
dat.buf = (char *)lua_tostring(L, -1);
dat.size = strlen(dat.buf);
#endif
//printf("lua chunk size: %d\n", dat.size);
/*
* TODO load and test Lua chunk
*/
/*
if (luaL_loadbuffer(L, globbuf, globbufsize, "edje_lua_script"))
printf("lua load error: %s\n", lua_tostring (L, -1));
if (lua_pcall(L, 0, 0, 0))
printf("lua call error: %s\n", lua_tostring (L, -1));
*/
snprintf(buf, sizeof(buf), "edje/scripts/lua/%i", sc->i);
if (eet_write(sc->ef, buf, dat.buf, dat.size, compress_mode) <= 0)
{
snprintf(buf, sizeof(buf),
"Unable to write script %i", sc->i);
sc->errstr = strdup(buf);
return;
}
#ifdef LUA_BINARY
free(dat.buf);
#endif
lua_close(L);
}
static void
data_thread_lua_script_end(void *data, Ecore_Thread *thread EINA_UNUSED)
{
Script_Write *sc = data;
if (sc->errstr)
{
error_and_abort(sc->ef, sc->errstr);
free(sc->errstr);
}
free(sc);
thread_end(0);
}
static void
data_write_lua_scripts(Eet_File *ef)
{
Eina_List *l;
int i;
for (i = 0, l = codes; l; l = eina_list_next(l), i++)
{
Code *cd;
Script_Write *sc;
cd = (Code *)eina_list_data_get(l);
if (!cd->is_lua)
continue;
if ((!cd->shared) && (!cd->programs))
continue;
sc = calloc(1, sizeof(Script_Write));
sc->ef = ef;
sc->cd = cd;
sc->i = i;
pending_threads++;
if (threads)
ecore_thread_run(data_thread_lua_script, data_thread_lua_script_end, NULL, sc);
else
{
data_thread_lua_script(sc, NULL);
data_thread_lua_script_end(sc, NULL);
}
}
}
static void
data_thread_source(void *data, Ecore_Thread *thread EINA_UNUSED)
{
Eet_File *ef = data;
source_append(ef);
}
static void
data_thread_source_end(void *data EINA_UNUSED, Ecore_Thread *thread EINA_UNUSED)
{
thread_end(0);
}
static void
data_thread_license(void *data, Ecore_Thread *thread EINA_UNUSED)
{
License_Write *lw = data;
Eet_File *ef = lw->ef;
Eina_File *f;
void *m;
int bytes;
f = eina_file_open(lw->file, 0);
if (!f) return;
m = eina_file_map_all(f, EINA_FILE_WILLNEED);
if (!m) goto on_error;
if (lw->master)
{
bytes = eet_write(ef, "edje/license", m, eina_file_size_get(f), compress_mode);
}
else
{
char *s = alloca(strlen(lw->file) + 1 + 13);
strcpy(s, lw->file);
sprintf(s, "edje/license/%s", basename(s));
bytes = eet_write(ef, s, m, eina_file_size_get(f), compress_mode);
}
if ((bytes <= 0) || eina_file_map_faulted(f, m))
{
ERR("Unable to write license part \"%s\".", lw->file);
}
else
{
double fsize = eina_file_size_get(f);
if (fsize <= 0.0) fsize = 1.0;
INF("Wrote %9i bytes (%4iKb) for \"%s\" license entry compress: [real: %2.1f%%]",
bytes, (bytes + 512) / 1024, license,
100.0 - ((100.0 * (double)bytes) / fsize));
}
eina_file_map_free(f, m);
on_error:
eina_file_close(f);
}
static void
data_thread_license_end(void *data, Ecore_Thread *thread EINA_UNUSED)
{
free(data);
thread_end(0);
}
static void
data_write_license(Eet_File *ef)
{
License_Write *lw;
Eina_List *l;
const char *file;
if (!license) return;
lw = calloc(1, sizeof (License_Write));
if (!lw) return;
lw->ef = ef;
lw->file = license;
lw->master = EINA_TRUE;
pending_threads++;
if (threads)
ecore_thread_run(data_thread_license, data_thread_license_end, NULL, lw);
else
{
data_thread_license(lw, NULL);
data_thread_license_end(lw, NULL);
}
EINA_LIST_FOREACH(licenses, l, file)
{
lw = calloc(1, sizeof (License_Write));
if (!lw) return;
lw->ef = ef;
lw->file = file;
lw->master = EINA_FALSE;
pending_threads++;
if (threads)
ecore_thread_run(data_thread_license, data_thread_license_end, NULL, lw);
else
{
data_thread_license(lw, NULL);
data_thread_license_end(lw, NULL);
}
}
}
static void
data_thread_authors(void *data, Ecore_Thread *thread EINA_UNUSED)
{
Eet_File *ef = data;
Eina_File *f;
void *m;
int bytes;
f = eina_file_open(authors, 0);
if (!f) return;
m = eina_file_map_all(f, EINA_FILE_WILLNEED);
if (!m) goto on_error;
bytes = eet_write(ef, "edje/authors", m, eina_file_size_get(f), compress_mode);
if ((bytes <= 0) || eina_file_map_faulted(f, m))
{
ERR("Unable to write authors part \"%s\".", authors);
}
else
{
double fsize = eina_file_size_get(f);
if (fsize <= 0.0) fsize = 1.0;
INF("Wrote %9i bytes (%4iKb) for \"%s\" authors entry compress: [real: %2.1f%%]",
bytes, (bytes + 512) / 1024, license,
100.0 - ((100.0 * (double)bytes) / fsize));
}
eina_file_map_free(f, m);
on_error:
eina_file_close(f);
}
static void
data_thread_authors_end(void *data EINA_UNUSED, Ecore_Thread *thread EINA_UNUSED)
{
thread_end(0);
}
static void
data_thread_fontmap(void *data, Ecore_Thread *thread EINA_UNUSED)
{
Eet_File *ef = data;
source_fontmap_save(ef, fonts);
}
static void
data_thread_fontmap_end(void *data EINA_UNUSED, Ecore_Thread *thread EINA_UNUSED)
{
thread_end(0);
}
void
data_write(void)
{
Eet_File *ef;
Eet_Error err;
int model_num = 0;
int sound_num = 0;
int mo_num = 0;
int vibration_num = 0;
int font_num = 0;
int collection_num = 0;
int vector_num = 0;
double t;
if (!edje_file)
{
ERR("No data to put in \"%s\"", file_out);
exit(-1);
}
cur_ef = ef = eet_open(file_out, EET_FILE_MODE_WRITE);
if (!ef)
{
ERR("Unable to open \"%s\" for writing output", file_out);
exit(-1);
}
if ((edje_file->efl_version.major <= 1) && (edje_file->efl_version.minor <= 18)
&& edje_file->has_textblock_min_max)
{
WRN("This EDC file was designed for EFL 1.18. Until 1.19, EFL used an "
"invalid calculation mechanism for textblock parts, where the value "
"of text min/max was not properly taken into account. You might "
"want to consider adding \"efl_version: %d %d;\" in your EDC "
"file (before the \"collections\" block), and then check the sizing "
"for all textblock parts that specify text min/max values (the bool "
"defined as description.text.{min,max}).",
EFL_VERSION_MAJOR, EFL_VERSION_MINOR);
}
if (eina_array_count(requires))
{
int i = 0;
edje_file->requires_count = eina_array_count(requires);
edje_file->requires = mem_alloc(edje_file->requires_count * sizeof(void*));
do
{
edje_file->requires[i] = eina_array_pop(requires);
i++;
} while (eina_array_count(requires));
eina_array_free(requires);
}
check_groups(ef);
ecore_thread_max_set(ecore_thread_max_get() * 2);
pending_threads++;
t = ecore_time_get();
INF("header: %3.5f", ecore_time_get() - t); t = ecore_time_get();
data_write_groups(ef, &collection_num);
INF("groups: %3.5f", ecore_time_get() - t); t = ecore_time_get();
data_write_scripts(ef);
INF("scripts: %3.5f", ecore_time_get() - t); t = ecore_time_get();
data_write_lua_scripts(ef);
INF("lua scripts: %3.5f", ecore_time_get() - t); t = ecore_time_get();
if (!no_save)
{
pending_threads++;
if (threads)
ecore_thread_run(data_thread_source, data_thread_source_end, NULL, ef);
else
{
data_thread_source(ef, NULL);
data_thread_source_end(ef, NULL);
}
}
INF("source: %3.5f", ecore_time_get() - t); t = ecore_time_get();
pending_threads++;
if (threads)
ecore_thread_run(data_thread_fontmap, data_thread_fontmap_end, NULL, ef);
else
{
data_thread_fontmap(ef, NULL);
data_thread_fontmap_end(ef, NULL);
}
INF("fontmap: %3.5f", ecore_time_get() - t); t = ecore_time_get();
data_write_vectors(ef, &vector_num);
INF("vectors: %3.5f", ecore_time_get() - t); t = ecore_time_get();
data_check_models(ef, &model_num);
INF("models: %3.5f", ecore_time_get() - t); t = ecore_time_get();
data_write_fonts(ef, &font_num);
INF("fonts: %3.5f", ecore_time_get() - t); t = ecore_time_get();
data_write_sounds(ef, &sound_num);
INF("sounds: %3.5f", ecore_time_get() - t); t = ecore_time_get();
data_write_mo(ef, &mo_num);
INF("mo: %3.5f", ecore_time_get() - t); t = ecore_time_get();
data_write_vibrations(ef, &vibration_num);
INF("vibrations: %3.5f", ecore_time_get() - t); t = ecore_time_get();
data_write_license(ef);
INF("license: %3.5f", ecore_time_get() - t); t = ecore_time_get();
if (authors)
{
pending_threads++;
if (threads)
ecore_thread_run(data_thread_authors, data_thread_authors_end, NULL, ef);
else
{
data_thread_authors(ef, NULL);
data_thread_authors_end(ef, NULL);
}
}
data_write_images();
data_image_sets_init();
INF("images: %3.5f", ecore_time_get() - t); t = ecore_time_get();
pending_threads--;
if (pending_threads + pending_image_threads > 0) ecore_main_loop_begin();
INF("THREADS: %3.5f", ecore_time_get() - t);
data_write_header(ef);
if (pending_threads + pending_image_threads > 0) ecore_main_loop_begin();
INF("THREADS: %3.5f", ecore_time_get() - t);
if (threads)
{
/* probably caught signal, exit immediately to avoid crash */
if (pending_threads + pending_image_threads > 0) exit(-1);
}
err = eet_close(ef);
if (err)
{
ERR("Couldn't write file: \"%s\"", file_out);
exit(-1);
}
if (eina_log_domain_level_check(_edje_cc_log_dom, EINA_LOG_LEVEL_INFO))
{
printf("Summary:\n"
" Wrote %i collections\n"
" Wrote %i images\n"
" Wrote %i sounds\n"
" Wrote %i fonts\n"
,
collection_num,
image_num,
sound_num,
font_num);
}
}
void
reorder_parts(void)
{
Edje_Part_Collection *pc;
Edje_Part **parts;
Edje_Part_Parser *ep, *ep2;
Eina_List *l;
/* sanity checks for parts and programs */
EINA_LIST_FOREACH(edje_collections, l, pc)
{
unsigned int i, j, k;
Eina_Bool found = EINA_FALSE;
for (i = 0; i < pc->parts_count; i++)
{
ep = (Edje_Part_Parser *)pc->parts[i];
if (ep->reorder.insert_before && ep->reorder.insert_after)
error_and_abort(NULL, "In group \"%s\": Unable to use together insert_before and insert_after in part \"%s\".",
pc->part, pc->parts[i]->name);
if (ep->reorder.done)
{
continue;
}
if (ep->reorder.insert_before || ep->reorder.insert_after)
{
found = EINA_FALSE;
for (j = 0; j < pc->parts_count; j++)
{
if (ep->reorder.insert_before &&
!strcmp(ep->reorder.insert_before, pc->parts[j]->name))
{
ep2 = (Edje_Part_Parser *)pc->parts[j];
if (ep2->reorder.after)
error_and_abort(NULL, "In group \"%s\": The part \"%s\" is ambiguous ordered part.",
pc->part, pc->parts[i]->name);
if (ep2->reorder.linked_prev)
error_and_abort(NULL, "In group \"%s\": Unable to insert two or more parts in same part \"%s\".",
pc->part, pc->parts[j]->name);
/* Need it to be able to insert an element before the first */
if (j == 0) k = 0;
else k = j - 1;
found = EINA_TRUE;
ep2->reorder.linked_prev += ep->reorder.linked_prev + 1;
ep->reorder.before = (Edje_Part_Parser *)pc->parts[j];
while (ep2->reorder.before)
{
ep2->reorder.before->reorder.linked_prev = ep2->reorder.linked_prev + 1;
ep2 = ep2->reorder.before;
}
break;
}
else if (ep->reorder.insert_after &&
!strcmp(ep->reorder.insert_after, pc->parts[j]->name))
{
ep2 = (Edje_Part_Parser *)pc->parts[j];
if (ep2->reorder.before)
error_and_abort(NULL, "In group \"%s\": The part \"%s\" is ambiguous ordered part.",
pc->part, pc->parts[i]->name);
if (ep2->reorder.linked_next)
error_and_abort(NULL, "In group \"%s\": Unable to insert two or more parts in same part \"%s\".",
pc->part, pc->parts[j]->name);
k = j;
found = EINA_TRUE;
ep2->reorder.linked_next += ep->reorder.linked_next + 1;
ep->reorder.after = (Edje_Part_Parser *)pc->parts[j];
while (ep2->reorder.after)
{
ep2->reorder.after->reorder.linked_next = ep2->reorder.linked_next + 1;
ep2 = ep2->reorder.after;
}
break;
}
}
if (found)
{
unsigned int amount, linked;
if (((i > k) && ((i - ep->reorder.linked_prev) <= k))
|| ((i < k) && ((i + ep->reorder.linked_next) >= k)))
error_and_abort(NULL, "In group \"%s\": The part order is wrong. It has circular dependency.", pc->part);
amount = ep->reorder.linked_prev + ep->reorder.linked_next + 1;
linked = i - ep->reorder.linked_prev;
parts = malloc(amount * sizeof(Edje_Part *));
for (j = 0; j < amount; j++)
{
parts[j] = pc->parts[linked];
linked++;
}
if (i > k)
{
for (j = i - ep->reorder.linked_prev; j > k; j--)
{
pc->parts[j + amount - 1] = pc->parts[j - 1];
pc->parts[j + amount - 1]->id = j + amount - 1;
}
for (j = 0; j < amount; j++)
{
pc->parts[j + k] = parts[j];
pc->parts[j + k]->id = j + k;
}
}
else if (i < k)
{
for (j = i + ep->reorder.linked_next + 1; j <= k; j++)
{
pc->parts[j - amount] = pc->parts[j];
pc->parts[j - amount]->id = j - amount;
}
for (j = 0; j < amount; j++)
{
pc->parts[j + k - amount + 1] = parts[j];
pc->parts[j + k - amount + 1]->id = j + k - amount + 1;
}
i -= amount;
}
ep->reorder.done = EINA_TRUE;
free(parts);
}
else
{
if (ep->reorder.insert_before)
error_and_abort(NULL, "In group \"%s\": Unable to find part \"%s\" for insert_before in part \"%s\".",
pc->part, ep->reorder.insert_before, pc->parts[i]->name);
else
error_and_abort(NULL, "In group \"%s\": Unable to find part \"%s\" for insert_after in part \"%s\".",
pc->part, ep->reorder.insert_after, pc->parts[i]->name);
}
}
}
}
}
void
data_queue_group_lookup(const char *name, Edje_Part *part)
{
Group_Lookup *gl;
if (!name || !name[0]) return;
gl = mem_alloc(SZ(Group_Lookup));
group_lookups = eina_list_append(group_lookups, gl);
gl->name = mem_strdup(name);
gl->part = part;
}
void
data_queue_face_group_lookup(const char *name)
{
char *group_name;
if (!name || !name[0]) return;
group_name = mem_strdup(name);
face_group_lookups = eina_list_append(face_group_lookups, group_name);
}
void
data_queue_part_lookup(Edje_Part_Collection *pc, const char *name, int *dest)
{
data_queue_part_nest_lookup(pc, name, dest, NULL);
}
void
data_queue_part_nest_lookup(Edje_Part_Collection *pc, const char *name, int *dest, char **dest2)
{
Part_Lookup_Key key;
Part_Lookup *pl = NULL;
Eina_List *list;
key.pc = pc;
key.mem.dest = dest;
key.stable = EINA_TRUE;
pl = eina_hash_find(part_pc_dest_lookup, &key);
if (pl)
{
if (name[0])
{
free(pl->name);
pl->name = mem_strdup(name);
}
else
{
list = eina_hash_find(part_dest_lookup, &pl->key);
list = eina_list_remove(list, pl);
eina_hash_set(part_dest_lookup, &pl->key, list);
eina_hash_del(part_pc_dest_lookup, &key, pl);
}
return;
}
if (!name[0]) return;
pl = mem_alloc(SZ(Part_Lookup));
pl->name = mem_strdup(name);
pl->key.pc = pc;
pl->key.mem.dest = dest;
pl->key.dest2 = dest2;
pl->key.stable = EINA_TRUE;
eina_hash_add(part_pc_dest_lookup, &key, pl);
list = eina_hash_find(part_dest_lookup, &pl->key);
list = eina_list_prepend(list, pl);
eina_hash_set(part_dest_lookup, &pl->key, list);
}
void
data_queue_part_reallocated_lookup(Edje_Part_Collection *pc, const char *name,
unsigned char **base, int offset)
{
Part_Lookup_Key key;
Part_Lookup *pl = NULL;
Eina_List *list;
key.pc = pc;
key.mem.reallocated.base = base;
key.mem.reallocated.offset = offset;
key.stable = EINA_FALSE;
pl = eina_hash_find(part_pc_dest_lookup, &key);
if (pl)
{
if (name[0])
{
free(pl->name);
pl->name = mem_strdup(name);
}
else
{
list = eina_hash_find(part_dest_lookup, &pl->key);
list = eina_list_remove(list, pl);
eina_hash_set(part_dest_lookup, &pl->key, list);
eina_hash_del(part_pc_dest_lookup, &key, pl);
}
return;
}
if (!name[0]) return;
pl = mem_alloc(SZ(Part_Lookup));
pl->name = mem_strdup(name);
pl->key.pc = pc;
pl->key.mem.reallocated.base = base;
pl->key.mem.reallocated.offset = offset;
pl->key.stable = EINA_FALSE;
eina_hash_add(part_pc_dest_lookup, &key, pl);
list = eina_hash_find(part_dest_lookup, &pl->key);
list = eina_list_prepend(list, pl);
eina_hash_set(part_dest_lookup, &pl->key, list);
}
void
part_lookup_del(Edje_Part_Collection *pc, int *dest)
{
Part_Lookup_Key key;
Part_Lookup *pl = NULL;
Eina_List *list;
key.pc = pc;
key.mem.dest = dest;
key.stable = EINA_TRUE;
pl = eina_hash_find(part_pc_dest_lookup, &key);
if (!pl) return;
list = eina_hash_find(part_dest_lookup, &pl->key);
if (list)
eina_hash_del(part_dest_lookup, &pl->key, list);
eina_hash_del(part_pc_dest_lookup, &key, pl);
}
void
part_lookup_delete(Edje_Part_Collection *pc, const char *name, int *dest, char **dest2)
{
Part_Lookup_Key key;
Part_Lookup *pl = NULL;
Part_Lookup *lpl;
Eina_List *list, *l, *ll;
key.pc = pc;
key.mem.dest = dest;
key.stable = EINA_TRUE;
pl = eina_hash_find(part_pc_dest_lookup, &key);
if (!pl) return;
list = eina_hash_find(part_dest_lookup, &pl->key);
EINA_LIST_FOREACH_SAFE(list, l, ll, lpl)
{
if (strcmp(lpl->name, name) || (lpl->key.dest2 != dest2)) continue;
free(lpl->name);
list = eina_list_remove_list(list, l);
free(lpl);
}
eina_hash_set(part_dest_lookup, &pl->key, list);
}
void
data_queue_copied_part_lookup(Edje_Part_Collection *pc, int *src, int *dest)
{
data_queue_copied_part_nest_lookup(pc, src, dest, NULL);
}
void
data_queue_copied_part_nest_lookup(Edje_Part_Collection *pc, int *src, int *dest, char **dest2)
{
Eina_List *list;
Eina_List *l;
Part_Lookup *pl;
Part_Lookup_Key key;
key.pc = NULL;
key.mem.dest = src;
key.stable = EINA_TRUE;
list = eina_hash_find(part_dest_lookup, &key);
EINA_LIST_FOREACH(list, l, pl)
if (pl->key.stable)
data_queue_part_nest_lookup(pc, pl->name, dest, dest2);
}
void
data_queue_anonymous_lookup(Edje_Part_Collection *pc, Edje_Program *ep, int *dest)
{
Eina_List *l, *l1, *l2, *l3;
Program_Lookup *pl;
if (!ep) return; /* FIXME: should we stop compiling ? */
EINA_LIST_FOREACH_SAFE(program_lookups, l, l1, pl)
{
if (pl->u.ep == ep)
{
Code *cd;
Code_Program *cp;
cd = eina_list_data_get(eina_list_last(codes));
EINA_LIST_FOREACH_SAFE(cd->programs, l2, l3, cp)
{
if (&(cp->id) == pl->dest)
{
cd->programs = eina_list_remove_list(cd->programs, l2);
free(cp);
cp = NULL;
}
}
program_lookups = eina_list_remove_list(program_lookups, l);
free(pl);
}
}
if (dest)
{
pl = mem_alloc(SZ(Program_Lookup));
program_lookups = eina_list_append(program_lookups, pl);
pl->pc = pc;
pl->u.ep = ep;
pl->dest = dest;
pl->anonymous = EINA_TRUE;
}
}
void
copied_program_anonymous_lookup_delete(Edje_Part_Collection *pc, int *dest)
{
Program_Lookup *pl;
Eina_List *l, *ll;
EINA_LIST_FOREACH_SAFE(program_lookups, l, ll, pl)
{
if ((!pl->anonymous) || (pl->pc != pc) || (dest != &pl->u.ep->id)) continue;
program_lookups = eina_list_remove_list(program_lookups, l);
Code *cd;
Code_Program *cp;
Edje_Part_Collection_Directory_Entry *de;
Eina_List *l2, *ll2;
de = eina_hash_find(edje_file->collection, pl->pc->part);
cd = eina_list_nth(codes, de->id);
EINA_LIST_FOREACH_SAFE(cd->programs, l2, ll2, cp)
{
if (pl->dest == &cp->id)
{
cd->programs = eina_list_remove_list(cd->programs, l2);
free(cp);
break;
}
}
free(pl);
}
}
void
data_queue_copied_anonymous_lookup(Edje_Part_Collection *pc, int *src, int *dest)
{
Eina_List *l;
Program_Lookup *pl;
unsigned int i;
EINA_LIST_FOREACH(program_lookups, l, pl)
{
if (pl->dest == src && pl->u.ep->name)
{
for (i = 0; i < pc->programs.fnmatch_count; i++)
{
if (pc->programs.fnmatch[i]->name &&
!strcmp(pl->u.ep->name, pc->programs.fnmatch[i]->name))
data_queue_anonymous_lookup(pc, pc->programs.fnmatch[i], dest);
}
for (i = 0; i < pc->programs.strcmp_count; i++)
{
if (pc->programs.strcmp[i]->name &&
!strcmp(pl->u.ep->name, pc->programs.strcmp[i]->name))
data_queue_anonymous_lookup(pc, pc->programs.strcmp[i], dest);
}
for (i = 0; i < pc->programs.strncmp_count; i++)
{
if (pc->programs.strncmp[i]->name &&
!strcmp(pl->u.ep->name, pc->programs.strncmp[i]->name))
data_queue_anonymous_lookup(pc, pc->programs.strncmp[i], dest);
}
for (i = 0; i < pc->programs.strrncmp_count; i++)
{
if (pc->programs.strrncmp[i]->name &&
!strcmp(pl->u.ep->name, pc->programs.strrncmp[i]->name))
data_queue_anonymous_lookup(pc, pc->programs.strrncmp[i], dest);
}
for (i = 0; i < pc->programs.nocmp_count; i++)
{
if (pc->programs.nocmp[i]->name &&
!strcmp(pl->u.ep->name, pc->programs.nocmp[i]->name))
data_queue_anonymous_lookup(pc, pc->programs.nocmp[i], dest);
}
}
}
}
void *
data_queue_program_lookup(Edje_Part_Collection *pc, const char *name, int *dest)
{
Program_Lookup *pl;
Edje_Part_Collection_Parser *pcp = (Edje_Part_Collection_Parser *)pc;
if (pcp->inherit_only && (!current_group_inherit)) return NULL;
if (!name) return NULL; /* FIXME: should we stop compiling ? */
pl = mem_alloc(SZ(Program_Lookup));
program_lookups = eina_list_append(program_lookups, pl);
pl->pc = pc;
pl->u.name = mem_strdup(name);
pl->dest = dest;
pl->anonymous = EINA_FALSE;
return pl;
}
void
program_lookup_rename(void *p, const char *name)
{
Program_Lookup *pl = p;
free(pl->u.name);
pl->u.name = strdup(name);
}
void
copied_program_lookup_delete(Edje_Part_Collection *pc, const char *name)
{
Program_Lookup *pl;
Eina_List *l, *ll;
EINA_LIST_FOREACH_SAFE(program_lookups, l, ll, pl)
{
if (pl->anonymous || (pl->pc != pc) || strcmp(pl->u.name, name)) continue;
free(pl->u.name);
program_lookups = eina_list_remove_list(program_lookups, l);
free(pl);
}
}
Eina_Bool
data_queue_copied_program_lookup(Edje_Part_Collection *pc, int *src, int *dest)
{
Eina_List *l;
Program_Lookup *pl;
EINA_LIST_FOREACH(program_lookups, l, pl)
{
if (pl->dest == src)
{
data_queue_program_lookup(pc, pl->u.name, dest);
return EINA_TRUE;
}
}
return EINA_FALSE;
}
void
data_queue_image_lookup(char *name, int *dest, Eina_Bool *set)
{
Image_Lookup *il;
il = mem_alloc(SZ(Image_Lookup));
image_lookups = eina_list_append(image_lookups, il);
il->name = mem_strdup(name);
il->dest = dest;
il->set = set;
}
void
data_queue_image_remove(int *dest, Eina_Bool *set)
{
Eina_List *l;
Image_Lookup *il;
EINA_LIST_FOREACH(image_lookups, l, il)
{
if (il->dest == dest && il->set == set)
{
image_lookups = eina_list_remove_list(image_lookups, l);
free(il->name);
free(il);
return;
}
}
}
void
data_queue_model_lookup(char *name, int *dest, Eina_Bool *set)
{
Image_Lookup *il;
il = mem_alloc(SZ(Image_Lookup));
model_lookups = eina_list_append(model_lookups, il);
il->name = mem_strdup(name);
il->dest = dest;
il->set = set;
}
void
data_queue_model_remove(int *dest, Eina_Bool *set)
{
Eina_List *l;
Image_Lookup *il;
EINA_LIST_FOREACH(model_lookups, l, il)
{
if (il->dest == dest && il->set == set)
{
model_lookups = eina_list_remove_list(model_lookups, l);
free(il->name);
free(il);
return;
}
}
}
void
data_queue_copied_model_lookup(int *src, int *dest, Eina_Bool *set)
{
Eina_List *l;
Image_Lookup *il;
EINA_LIST_FOREACH(model_lookups, l, il)
{
if (il->dest == src)
data_queue_model_lookup(il->name, dest, set);
}
}
void
data_queue_copied_image_lookup(int *src, int *dest, Eina_Bool *set)
{
Eina_List *l;
Image_Lookup *il;
EINA_LIST_FOREACH(image_lookups, l, il)
{
if (il->dest == src)
data_queue_image_lookup(il->name, dest, set);
}
}
static Eina_Bool
data_process_part_set(Part_Lookup *target, int value)
{
if (target->key.stable)
{
*(target->key.mem.dest) = value;
if (target->key.dest2) return EINA_TRUE;
}
else
{
*((int *)(*target->key.mem.reallocated.base +
target->key.mem.reallocated.offset)) = value;
}
return EINA_FALSE;
}
static int
_data_image_w_size_compare_cb(const void *data1, const void *data2)
{
const Edje_Image_Directory_Set_Entry *img1 = data1;
const Edje_Image_Directory_Set_Entry *img2 = data2;
if (img1->size.w < img2->size.w) return -1;
if (img1->size.w > img2->size.w) return 1;
return 0;
}
static int
_data_image_h_size_compare_cb(const void *data1, const void *data2)
{
const Edje_Image_Directory_Set_Entry *img1 = data1;
const Edje_Image_Directory_Set_Entry *img2 = data2;
if (img1->size.h < img2->size.h) return -1;
if (img1->size.h > img2->size.h) return 1;
return 0;
}
static void
_data_image_sets_size_set()
{
Evas *evas;
Edje_Image_Directory_Set *set;
Edje_Image_Directory_Set_Entry *simg, *preimg;
Eina_List *l, *entries;
unsigned int i;
if (!buffer_ee)
buffer_ee = ecore_evas_buffer_new(1, 1);
if (!buffer_ee)
{
ERR("Cannot create buffer engine canvas for image load.");
exit(-1);
}
evas = ecore_evas_get(buffer_ee);
for (i = 0; i < edje_file->image_dir->sets_count; i++)
{
set = edje_file->image_dir->sets + i;
if (!set->entries) continue;
EINA_LIST_FOREACH(set->entries, l, simg)
{
Evas_Object *im;
Eina_List *ll;
char *s;
im = evas_object_image_add(evas);
EINA_LIST_FOREACH(img_dirs, ll, s)
{
char buf[PATH_MAX];
int load_err = EVAS_LOAD_ERROR_NONE;
snprintf(buf, sizeof(buf), "%s/%s", s, simg->name);
evas_object_image_file_set(im, buf, NULL);
load_err = evas_object_image_load_error_get(im);
if (load_err == EVAS_LOAD_ERROR_NONE)
{
evas_object_image_size_get(im, &simg->size.w, &simg->size.h);
break;
}
}
evas_object_del(im);
}
entries = eina_list_clone(set->entries);
entries = eina_list_sort(entries, 0, _data_image_w_size_compare_cb);
preimg = eina_list_data_get(entries);
EINA_LIST_FOREACH(entries, l, simg)
{
if (simg == preimg) continue;
if (!(preimg->size.max.w) && !(simg->size.min.w))
{
preimg->size.max.w = (preimg->size.w + simg->size.w) / 2;
simg->size.min.w = preimg->size.max.w + 1;
if (simg->size.min.w <= (simg->border.l + simg->border.r))
{
preimg->size.max.w = simg->border.l + simg->border.r;
simg->size.min.w = preimg->size.max.w + 1;
}
}
else if (preimg->size.max.w && !(simg->size.min.w))
simg->size.min.w = preimg->size.max.w + 1;
else if (!(preimg->size.max.w) && simg->size.min.w)
preimg->size.max.w = simg->size.min.w - 1;
preimg = simg;
}
simg = eina_list_data_get(eina_list_last(entries));
if (!(simg->size.max.w)) simg->size.max.w = 99999;
entries = eina_list_sort(entries, 0, _data_image_h_size_compare_cb);
preimg = eina_list_data_get(entries);
EINA_LIST_FOREACH(entries, l, simg)
{
if (simg == preimg) continue;
if (!(preimg->size.max.h) && !(simg->size.min.h))
{
preimg->size.max.h = (preimg->size.h + simg->size.h) / 2;
simg->size.min.h = preimg->size.max.h + 1;
if (simg->size.min.h <= (simg->border.t + simg->border.b))
{
preimg->size.max.h = simg->border.t + simg->border.b;
simg->size.min.h = preimg->size.max.h + 1;
}
}
else if (preimg->size.max.h && !(simg->size.min.h))
simg->size.min.h = preimg->size.max.h + 1;
else if (!(preimg->size.max.h) && simg->size.min.h)
preimg->size.max.h = simg->size.min.h - 1;
preimg = simg;
}
simg = eina_list_data_get(eina_list_last(entries));
if (!(simg->size.max.h)) simg->size.max.h = 99999;
eina_list_free(entries);
}
}
static void
_data_image_id_update(Eina_List *images_unused_list)
{
Image_Unused_Ids *iui;
Edje_Part_Collection *pc;
Edje_Part *part;
Edje_Part_Description_Image *part_desc_image;
Edje_Part_Description_Mesh_Node *part_desc_mesh_node;
Edje_Part_Image_Id *tween_id;
unsigned int i, j, desc_it;
Eina_List *l, *l2, *l3;
#define PART_DESC_IMAGE_ID_UPDATE \
EINA_LIST_FOREACH(images_unused_list, l3, iui) \
{ \
if ((iui) && (part_desc_image->image.id == iui->old_id)) \
{ \
part_desc_image->image.id = iui->new_id; \
break; \
} \
} \
for (desc_it = 0; desc_it < part_desc_image->image.tweens_count; desc_it++) \
{ \
tween_id = part_desc_image->image.tweens[desc_it]; \
EINA_LIST_FOREACH(images_unused_list, l3, iui) \
{ \
if ((iui) && (tween_id->id == iui->old_id)) \
{ \
tween_id->id = iui->new_id; \
break; \
} \
} \
}
#define PART_DESC_PROXY_ID_UPDATE \
EINA_LIST_FOREACH(images_unused_list, l3, iui) \
{ \
if ((iui) && (part_desc_mesh_node->mesh_node.texture.id == iui->old_id)) \
{ \
part_desc_mesh_node->mesh_node.texture.id = iui->new_id; \
break; \
} \
}
EINA_LIST_FOREACH_SAFE(edje_collections, l, l2, pc)
{
for (i = 0; i < pc->parts_count; i++)
{
part = pc->parts[i];
if (part->type == EDJE_PART_TYPE_IMAGE)
{
part_desc_image = (Edje_Part_Description_Image *)part->default_desc;
if (!part_desc_image) continue;
PART_DESC_IMAGE_ID_UPDATE
for (j = 0; j < part->other.desc_count; j++)
{
part_desc_image = (Edje_Part_Description_Image *)part->other.desc[j];
PART_DESC_IMAGE_ID_UPDATE
}
}
else if (part->type == EDJE_PART_TYPE_MESH_NODE)
{
part_desc_mesh_node = (Edje_Part_Description_Mesh_Node *)part->default_desc;
if (!part_desc_mesh_node) continue;
PART_DESC_PROXY_ID_UPDATE
for (j = 0; j < part->other.desc_count; j++)
{
part_desc_mesh_node = (Edje_Part_Description_Mesh_Node *)part->other.desc[j];
PART_DESC_PROXY_ID_UPDATE
}
}
}
}
for (i = 0; i < edje_file->image_dir->sets_count; i++)
{
Eina_List *entries, *list;
Edje_Image_Directory_Set_Entry *entry;
entries = edje_file->image_dir->sets[i].entries;
EINA_LIST_FOREACH(entries, list, entry)
{
EINA_LIST_FOREACH(images_unused_list, l3, iui)
{
if ((iui) && (entry->id == iui->old_id))
{
entry->id = iui->new_id;
break;
}
}
}
}
}
static void
_data_model_id_update(Eina_List *models_unused_list)
{
Image_Unused_Ids *iui;
Edje_Part_Collection *pc;
Edje_Part *part;
Edje_Part_Description_Mesh_Node *part_desc_mesh_node;
unsigned int i, j;
Eina_List *l, *l2, *l3;
#define PART_DESC_MODEL_ID_UPDATE \
EINA_LIST_FOREACH(models_unused_list, l3, iui) \
{ \
if ((iui) && (part_desc_mesh_node->mesh_node.mesh.id == iui->old_id)) \
{ \
part_desc_mesh_node->mesh_node.mesh.id = iui->new_id; \
break; \
} \
} \
EINA_LIST_FOREACH_SAFE(edje_collections, l, l2, pc)
{
for (i = 0; i < pc->parts_count; i++)
{
part = pc->parts[i];
if (part->type == EDJE_PART_TYPE_MESH_NODE)
{
part_desc_mesh_node = (Edje_Part_Description_Mesh_Node *)part->default_desc;
if (!part_desc_mesh_node) continue;
PART_DESC_MODEL_ID_UPDATE
for (j = 0; j < part->other.desc_count; j++)
{
part_desc_mesh_node = (Edje_Part_Description_Mesh_Node *)part->other.desc[j];
PART_DESC_MODEL_ID_UPDATE
}
}
}
}
}
void
data_process_lookups(void)
{
Edje_Part_Collection *pc;
Eina_Iterator *it;
Part_Lookup *part;
Program_Lookup *program;
Group_Lookup *group;
Image_Lookup *image;
Image_Lookup *model;
Eina_List *l2;
Eina_List *l;
Eina_Hash *images_in_use;
Eina_Hash *models_in_use;
char *group_name;
Eina_Bool is_lua = EINA_FALSE;
Image_Unused_Ids *iui;
/* remove all unreferenced Edje_Part_Collection */
EINA_LIST_FOREACH_SAFE(edje_collections, l, l2, pc)
{
Edje_Part_Collection_Directory_Entry *alias;
Edje_Part_Collection_Directory_Entry *find;
Eina_List *l3;
unsigned int id = 0;
unsigned int i;
if (!pc->part)
{
ERR("A collection without a name was detected, that's not allowed.");
exit(-1);
}
find = eina_hash_find(edje_file->collection, pc->part);
if (find && find->id == pc->id)
{
if (((Edje_Part_Collection_Parser *)pc)->inherit_only)
eina_hash_del_by_data(edje_file->collection, find);
else
continue;
}
EINA_LIST_FOREACH(aliases, l3, alias)
if (alias->id == pc->id)
continue;
/* This Edje_Part_Collection is not used at all */
edje_collections = eina_list_remove_list(edje_collections, l);
l3 = eina_list_nth_list(codes, pc->id);
codes = eina_list_remove_list(codes, l3);
/* Unref all image used by that group */
for (i = 0; i < pc->parts_count; ++i)
part_description_image_cleanup(pc->parts[i]);
/* Correct all id */
EINA_LIST_FOREACH(edje_collections, l3, pc)
{
Eina_List *l4;
Edje_Part_Collection_Directory_Entry *de;
/* Some group could be removed from the collection, but still be referenced by alias */
/* Update all matching alias */
EINA_LIST_FOREACH(aliases, l4, alias)
if (pc->id == alias->id)
alias->id = id;
find = eina_hash_find(edje_file->collection, pc->part);
if (pc->id != find->id) find = NULL;
de = eina_hash_find(edje_collections_lookup, &pc->id);
eina_hash_set(edje_collections_lookup, &pc->id, NULL);
de->id = pc->id = id++;
eina_hash_set(edje_collections_lookup, &pc->id, de);
if (find) find->id = pc->id;
}
}
EINA_LIST_FOREACH(edje_collections, l, pc)
{
unsigned int count = 0;
unsigned int i;
if (pc->lua_script_only)
is_lua = EINA_TRUE;
#define PROGRAM_ID_SET(Type, Pc, It, Count) \
for (It = 0; It < Pc->programs.Type ## _count; ++It) \
{ \
Pc->programs.Type[It]->id = Count++; \
}
PROGRAM_ID_SET(fnmatch, pc, i, count);
PROGRAM_ID_SET(strcmp, pc, i, count);
PROGRAM_ID_SET(strncmp, pc, i, count);
PROGRAM_ID_SET(strrncmp, pc, i, count);
PROGRAM_ID_SET(nocmp, pc, i, count);
#undef PROGRAM_ID_SET
}
it = eina_hash_iterator_data_new(part_pc_dest_lookup);
EINA_ITERATOR_FOREACH(it, part)
{
Edje_Part *ep;
unsigned int i;
if (!strcmp(part->name, "-"))
{
data_process_part_set(part, -1);
}
else
{
char *alias, *ap;
alias = eina_hash_find(part->key.pc->alias, part->name);
if (!alias)
alias = part->name;
ap = strchr(alias, EDJE_PART_PATH_SEPARATOR);
if (ap)
{
char *tmp;
tmp = alloca(strlen(alias) + 1);
memcpy(tmp, alias, ap - alias);
tmp[ap - alias] = 0;
ap += 1;
alias = tmp;
}
for (i = 0; i < part->key.pc->parts_count; ++i)
{
ep = part->key.pc->parts[i];
if ((ep->name) && (!strcmp(ep->name, alias)))
{
if (data_process_part_set(part, ep->id))
*part->key.dest2 = ap;
break;
}
}
if ((i == part->key.pc->parts_count) && (!((Edje_Part_Collection_Parser *)part->key.pc)->inherit_only))
{
ERR("Unable to find part name \"%s\" needed in group '%s'.",
alias, part->key.pc->part);
exit(-1);
}
}
}
eina_iterator_free(it);
eina_hash_free(part_dest_lookup);
eina_hash_free(part_pc_dest_lookup);
EINA_LIST_FREE(program_lookups, program)
{
unsigned int i;
Eina_Bool find = EINA_FALSE;
#define PROGRAM_MATCH(Type, Pl, It) \
for (It = 0; It < Pl->pc->programs.Type ## _count; ++It) \
{ \
Edje_Program *ep; \
\
ep = Pl->pc->programs.Type[It]; \
\
if ((Pl->anonymous && ep == Pl->u.ep) || \
((!Pl->anonymous) && (ep->name) && (!strcmp(ep->name, Pl->u.name)))) \
{ \
*(Pl->dest) = ep->id; \
find = EINA_TRUE; \
break; \
} \
}
PROGRAM_MATCH(fnmatch, program, i);
PROGRAM_MATCH(strcmp, program, i);
PROGRAM_MATCH(strncmp, program, i);
PROGRAM_MATCH(strrncmp, program, i);
PROGRAM_MATCH(nocmp, program, i);
#undef PROGRAM_MATCH
if (!find)
{
if (!program->anonymous)
ERR("Unable to find program name \"%s\".",
program->u.name);
else
ERR("Unable to find anonymous program.");
exit(-1);
}
if (!program->anonymous)
free(program->u.name);
free(program);
}
groups_sourced = eina_hash_string_superfast_new(NULL);
EINA_LIST_FREE(group_lookups, group)
{
Edje_Part_Collection_Directory_Entry *de;
if (group->part)
{
if (group->part->type != EDJE_PART_TYPE_GROUP
&& group->part->type != EDJE_PART_TYPE_TEXTBLOCK
&& group->part->type != EDJE_PART_TYPE_BOX
&& group->part->type != EDJE_PART_TYPE_TABLE)
goto free_group;
}
de = eina_hash_find(edje_file->collection, group->name);
if (!de)
{
Eina_Bool found = EINA_FALSE;
EINA_LIST_FOREACH(aliases, l, de)
if (strcmp(de->entry, group->name) == 0)
{
found = EINA_TRUE;
break;
}
if (!found) de = NULL;
}
if (!de)
{
ERR("Unable to find group name \"%s\".", group->name);
exit(-1);
}
eina_hash_add(groups_sourced, group->name, (void*)1);
free_group:
free(group->name);
free(group);
}
EINA_LIST_FREE(face_group_lookups, group_name)
{
Edje_Part_Collection_Directory_Entry *de;
de = eina_hash_find(edje_file->collection, group_name);
if (!de)
{
Eina_Bool found = EINA_FALSE;
EINA_LIST_FOREACH(aliases, l, de)
if (strcmp(de->entry, group_name) == 0)
{
found = EINA_TRUE;
break;
}
if (!found) de = NULL;
}
if (!de)
{
ERR("Unable to find group name \"%s\".", group_name);
exit(-1);
}
free(group_name);
}
images_in_use = eina_hash_string_superfast_new(NULL);
EINA_LIST_FREE(image_lookups, image)
{
Eina_Bool find = EINA_FALSE;
if (edje_file->image_dir)
{
Edje_Image_Directory_Entry *de;
unsigned int i;
for (i = 0; i < edje_file->image_dir->entries_count; ++i)
{
de = edje_file->image_dir->entries + i;
if ((de->entry) && (!strcmp(de->entry, image->name)))
{
if (de->source_type >= EDJE_IMAGE_SOURCE_TYPE_USER)
*(image->dest) = -de->id - 1;
else
*(image->dest) = de->id;
*(image->set) = EINA_FALSE;
find = EINA_TRUE;
if (!eina_hash_find(images_in_use, image->name))
eina_hash_direct_add(images_in_use, de->entry, de);
break;
}
}
if (!find)
{
Edje_Image_Directory_Set *set;
for (i = 0; i < edje_file->image_dir->sets_count; ++i)
{
set = edje_file->image_dir->sets + i;
if ((set->name) && (!strcmp(set->name, image->name)))
{
Edje_Image_Directory_Set_Entry *child;
Eina_List *lc;
*(image->dest) = set->id;
*(image->set) = EINA_TRUE;
find = EINA_TRUE;
EINA_LIST_FOREACH(set->entries, lc, child)
if (!eina_hash_find(images_in_use, child->name))
eina_hash_direct_add(images_in_use, child->name, child);
if (!eina_hash_find(images_in_use, image->name))
eina_hash_direct_add(images_in_use, set->name, set);
break;
}
else
*(image->set) = EINA_FALSE;
}
}
}
if (!find)
{
ERR("Unable to find image name \"%s\".", image->name);
exit(-1);
}
free(image->name);
free(image);
}
if (edje_file->image_dir && !is_lua)
{
Edje_Image_Directory_Entry *de, *de_last, *img;
Edje_Image_Directory_Set *set, *set_last, *set_realloc;
Edje_Image_Directory_Set_Entry *set_e;
Eina_List *images_unused_list = NULL;
unsigned int i;
for (i = 0; i < edje_file->image_dir->entries_count; ++i)
{
de = edje_file->image_dir->entries + i;
if (de->entry && eina_hash_find(images_in_use, de->entry))
continue;
INF("Image '%s' in resource 'edje/image/%i' will not be included as it is unused.",
de->entry, de->id);
/* so as not to write the unused images, moved last image in the
list to unused image position and check it */
free((void *)de->entry);
de->entry = NULL;
de_last = edje_file->image_dir->entries + edje_file->image_dir->entries_count - 1;
iui = mem_alloc(SZ(Image_Unused_Ids));
iui->old_id = de_last->id;
images_unused_list = eina_list_append(images_unused_list, iui);
iui->new_id = i;
de_last->id = i;
memcpy(de, de_last, sizeof (Edje_Image_Directory_Entry));
--i; /* need to check a moved image on this index */
edje_file->image_dir->entries_count--;
img = realloc(edje_file->image_dir->entries,
sizeof (Edje_Image_Directory_Entry) * edje_file->image_dir->entries_count);
edje_file->image_dir->entries = img;
}
for (i = 0; i < edje_file->image_dir->sets_count; ++i)
{
set = edje_file->image_dir->sets + i;
if (set->name && eina_hash_find(images_in_use, set->name))
continue;
INF("Set '%s' will not be included as it is unused.", set->name);
free((void *)set->name);
EINA_LIST_FREE(set->entries, set_e)
{
free((void *)set_e->name);
free(set_e);
}
set->entries = NULL;
set_last = edje_file->image_dir->sets + edje_file->image_dir->sets_count - 1;
iui = mem_alloc(SZ(Image_Unused_Ids));
iui->old_id = set_last->id;
images_unused_list = eina_list_append(images_unused_list, iui);
iui->new_id = i;
set_last->id = i;
memcpy(set, set_last, sizeof(Edje_Image_Directory_Set));
--i;
edje_file->image_dir->sets_count--;
set_realloc = realloc(edje_file->image_dir->sets,
sizeof(Edje_Image_Directory_Set) * edje_file->image_dir->sets_count);
edje_file->image_dir->sets = set_realloc;
}
/* update image id in parts */
if (images_unused_list) _data_image_id_update(images_unused_list);
EINA_LIST_FREE(images_unused_list, iui)
free(iui);
_data_image_sets_size_set();
}
eina_hash_free(images_in_use);
models_in_use = eina_hash_string_superfast_new(NULL);
EINA_LIST_FREE(model_lookups, model)
{
Eina_Bool find = EINA_FALSE;
if (edje_file->model_dir)
{
Edje_Model_Directory_Entry *de;
unsigned int i;
for (i = 0; i < edje_file->model_dir->entries_count; ++i)
{
de = edje_file->model_dir->entries + i;
if ((de->entry) && (!strcmp(de->entry, model->name)))
{
*(model->dest) = de->id;
*(model->set) = EINA_FALSE;
find = EINA_TRUE;
if (!eina_hash_find(models_in_use, model->name))
eina_hash_direct_add(models_in_use, de->entry, de);
break;
}
}
}
if (!find)
{
ERR("Unable to find model name \"%s\".", model->name);
exit(-1);
}
free(model->name);
free(model);
}
if (edje_file->model_dir && !is_lua)
{
Edje_Model_Directory_Entry *de, *de_last, *mdl;
Eina_List *models_unused_list = NULL;
unsigned int i;
for (i = 0; i < edje_file->model_dir->entries_count; ++i)
{
de = edje_file->model_dir->entries + i;
if (de->entry && eina_hash_find(models_in_use, de->entry))
continue;
INF("Model '%s' in resource 'edje/model/%i' will not be included as it is unused.",
de->entry, de->id);
/* so as not to write the unused models, moved last model in the
list to unused model position and check it */
free((void *)de->entry);
de->entry = NULL;
de_last = edje_file->model_dir->entries + edje_file->model_dir->entries_count - 1;
iui = mem_alloc(SZ(Image_Unused_Ids));
iui->old_id = de_last->id;
models_unused_list = eina_list_append(models_unused_list, iui);
iui->new_id = i;
de_last->id = i;
memcpy(de, de_last, sizeof (Edje_Model_Directory_Entry));
--i; /* need to check a moved model on this index */
edje_file->model_dir->entries_count--;
mdl = realloc(edje_file->model_dir->entries,
sizeof (Edje_Model_Directory_Entry) * edje_file->model_dir->entries_count);
edje_file->model_dir->entries = mdl;
}
/* update model id in parts */
if (models_unused_list) _data_model_id_update(models_unused_list);
EINA_LIST_FREE(models_unused_list, iui)
free(iui);
}
eina_hash_free(models_in_use);
}
static void
data_process_string(Edje_Part_Collection *pc, const char *prefix, char *s, void (*func)(Edje_Part_Collection *pc, char *name, char *ptr, int len))
{
char *p;
char *key;
int keyl;
int quote, escape;
keyl = strlen(prefix) + 2;
key = alloca(keyl + 1);
if (!key) return;
strcpy(key, prefix);
strcat(key, ":\"");
quote = 0;
escape = 0;
for (p = s; (p) && (*p); p++)
{
if (!quote)
{
if (*p == '\"')
{
quote = 1;
p++;
}
}
if (!quote)
{
if (!strncmp(p, key, keyl))
{
char *ptr;
int len;
int inesc = 0;
char *name;
ptr = p;
p += keyl;
while ((*p))
{
if (!inesc)
{
if (*p == '\\') inesc = 1;
else if (*p == '\"')
{
/* string concatenation, see below */
if (*(p + 1) != '\"')
break;
else
p++;
}
}
else
inesc = 0;
p++;
}
len = p - ptr + 1;
name = alloca(len);
if (name)
{
char *pp;
int i;
name[0] = 0;
pp = ptr + keyl;
inesc = 0;
i = 0;
while (*pp)
{
if (!inesc)
{
if (*pp == '\\') inesc = 1;
else if (*pp == '\"')
{
/* concat strings like "foo""bar" to "foobar" */
if (*(pp + 1) == '\"')
pp++;
else
{
name[i] = 0;
break;
}
}
else
{
name[i] = *pp;
name[i + 1] = 0;
i++;
}
}
else
inesc = 0;
pp++;
}
func(pc, name, ptr, len);
}
}
}
else
{
if (!escape)
{
if (*p == '\"') quote = 0;
else if (*p == '\\')
escape = 1;
}
else if (escape)
{
escape = 0;
}
}
}
}
static void
_data_queue_part_lookup(Edje_Part_Collection *pc, char *name, char *ptr, int len)
{
Code_Lookup *cl;
cl = mem_alloc(SZ(Code_Lookup));
cl->ptr = ptr;
cl->len = len;
data_queue_part_lookup(pc, name, &(cl->val));
code_lookups = eina_list_append(code_lookups, cl);
}
static void
_data_queue_program_lookup(Edje_Part_Collection *pc, char *name, char *ptr, int len)
{
Code_Lookup *cl;
cl = mem_alloc(SZ(Code_Lookup));
cl->ptr = ptr;
cl->len = len;
data_queue_program_lookup(pc, name, &(cl->val));
code_lookups = eina_list_append(code_lookups, cl);
}
static void
_data_queue_group_lookup(Edje_Part_Collection *pc EINA_UNUSED, char *name, char *ptr EINA_UNUSED, int len EINA_UNUSED)
{
data_queue_group_lookup(name, NULL);
}
static void
_data_queue_image_pc_lookup(Edje_Part_Collection *pc EINA_UNUSED, char *name, char *ptr, int len)
{
Code_Lookup *cl;
cl = mem_alloc(SZ(Code_Lookup));
cl->ptr = ptr;
cl->len = len;
data_queue_image_lookup(name, &(cl->val), &(cl->set));
code_lookups = eina_list_append(code_lookups, cl);
}
void
data_process_scripts(void)
{
Eina_List *l, *l2;
for (l = codes, l2 = edje_collections; (l) && (l2); l = eina_list_next(l), l2 = eina_list_next(l2))
{
Edje_Part_Collection *pc;
Code *cd;
cd = eina_list_data_get(l);
pc = eina_list_data_get(l2);
if ((cd->shared) && (!cd->is_lua))
{
data_process_string(pc, "PART", cd->shared, _data_queue_part_lookup);
data_process_string(pc, "PROGRAM", cd->shared, _data_queue_program_lookup);
data_process_string(pc, "IMAGE", cd->shared, _data_queue_image_pc_lookup);
data_process_string(pc, "GROUP", cd->shared, _data_queue_group_lookup);
}
if (cd->programs)
{
Code_Program *cp;
Eina_List *ll;
EINA_LIST_FOREACH(cd->programs, ll, cp)
{
if (cp->script)
{
data_process_string(pc, "PART", cp->script, _data_queue_part_lookup);
data_process_string(pc, "PROGRAM", cp->script, _data_queue_program_lookup);
data_process_string(pc, "IMAGE", cp->script, _data_queue_image_pc_lookup);
data_process_string(pc, "GROUP", cp->script, _data_queue_group_lookup);
}
}
}
}
}
void
data_process_script_lookups(void)
{
Eina_List *l;
Code_Lookup *cl;
EINA_LIST_FOREACH(code_lookups, l, cl)
{
char buf[12];
int n;
/* FIXME !! Handle set in program */
n = eina_convert_itoa(cl->val, buf);
if (n > cl->len)
{
ERR("The unexpected happened. A numeric replacement string was larger than the original!");
exit(-1);
}
memset(cl->ptr, ' ', cl->len);
strncpy(cl->ptr, buf, n);
}
}
void
using_file(const char *filename, const char type)
{
FILE *f;
if (depfile)
{
f = fopen(depfile, "ab");
if (!f) return;
if (type != 'O')
{
fprintf(f, " \\\n %s", filename);
}
fclose(f);
}
else if (watchfile)
{
f = fopen(watchfile, "ab");
if (!f) return;
if (annotate)
{
fprintf(f, "%c: %s\n", type, filename);
}
else
{
fputs(filename, f);
fputc('\n', f);
}
fclose(f);
}
}
void
color_tree_root_free(void)
{
char *name;
EINA_LIST_FREE(color_tree_root, name)
free(name);
}
char *
color_tree_token_next(char *dst, char *src, int *ln)
{
Eina_Bool begin = EINA_FALSE, next = EINA_FALSE;
while (!next)
{
if (*src == '\0') break;
if (*src == '"')
{
if (!begin) begin = EINA_TRUE;
else next = EINA_TRUE;
}
else if ((!begin) && ((*src == '{') || (*src == '}') || (*src == ';')))
{
*dst++ = *src;
next = EINA_TRUE;
}
else if ((!begin) && (*src == '\n'))
{
(*ln)++;
}
else if (begin)
{
*dst++ = *src;
}
src++;
}
*dst = '\0';
return src;
}
Edje_Color_Tree_Node *
color_tree_parent_node_get(const char *color_class)
{
Edje_Color_Tree_Node *ctn;
Eina_List *l, *ll;
char *name;
EINA_LIST_FOREACH(edje_file->color_tree, l, ctn)
if (ctn->color_classes)
EINA_LIST_FOREACH(ctn->color_classes, ll, name)
if (!strcmp(name, color_class))
return ctn;
return NULL;
}
void
process_color_tree(char *s, const char *f_in, int ln)
{
char token[2][1024];
int id = 0;
Eina_Array *array;
Edje_Color_Tree_Node *ctn;
Eina_List *l;
char *name;
if (!s) return;
array = eina_array_new(4);
do
{
s = color_tree_token_next(token[id], s, &ln);
if (!strcmp(token[id], "{"))
{
if (!token[!id][0])
error_and_abort(NULL, "parse error %s:%i. color class is not set to newly opened node block.",
f_in, ln - 1);
ctn = mem_alloc(SZ(Edje_Color_Tree_Node));
ctn->name = strdup(token[!id]);
ctn->color_classes = NULL;
edje_file->color_tree = eina_list_append(edje_file->color_tree, ctn);
eina_array_push(array, ctn);
token[id][0] = '\0';
}
else if (!strcmp(token[id], "}"))
{
eina_array_pop(array);
token[id][0] = '\0';
}
else if (!strcmp(token[id], ";"))
{
token[id][0] = '\0';
}
else if (*s != '\0')
{
if (eina_array_count(array))
{
if (color_tree_root)
EINA_LIST_FOREACH(color_tree_root, l, name)
if (!strcmp(name, token[id]))
{
error_and_abort(NULL, "parse error %s:%i. The color class \"%s\" already belongs to the root node.",
f_in, ln - 1, token[id]);
}
if ((ctn = color_tree_parent_node_get(token[id])))
error_and_abort(NULL, "parse error %s:%i. The color class \"%s\" already belongs to the \"%s\" node.",
f_in, ln - 1, token[id], ctn->name);
ctn = eina_array_data_get(array, eina_array_count(array) - 1);
ctn->color_classes = eina_list_append(ctn->color_classes, strdup(token[id]));
}
else
{
if ((ctn = color_tree_parent_node_get(token[id])))
error_and_abort(NULL, "parse error %s:%i. The color class \"%s\" already belongs to the \"%s\" node.",
f_in, ln - 1, token[id], ctn->name);
color_tree_root = eina_list_append(color_tree_root, strdup(token[id]));
}
}
id = !id;
} while (*s);
if (eina_array_count(array))
error_and_abort(NULL, "parse error %s:%i. check pair of parens.", f_in, ln - 1);
eina_array_clean(array);
eina_array_free(array);
}
char
validate_hex_digit(char c)
{
if ((c >= '0' && c <= '9') || (c >= 'A' && c <= 'F') || (c >= 'a' && c <= 'f'))
return c;
ERR("%s:%i. invalid character '%c' is used in color code.",
file_in, line - 1, c);
exit(-1);
}
void
convert_color_code(char *str, int *r, int *g, int *b, int *a)
{
char buf[3];
int len;
len = strlen(str);
if ((str[0] != '#') || (len != 4 && len != 5 && len != 7 && len != 9))
{
ERR("%s:%i color code should start with '#' and have 4 or 8 digit hex number. (3 or 6 digits are allowed to omit alpha value of 255)",
file_in, line - 1);
exit(-1);
}
buf[2] = '\0';
if (r)
{
if ((len == 4) || (len == 5))
{
buf[0] = validate_hex_digit(str[1]);
buf[1] = validate_hex_digit(str[1]);
}
else
{
buf[0] = validate_hex_digit(str[1]);
buf[1] = validate_hex_digit(str[2]);
}
*r = (int)strtol(buf, NULL, 16);
}
if (g)
{
if ((len == 4) || (len == 5))
{
buf[0] = validate_hex_digit(str[2]);
buf[1] = validate_hex_digit(str[2]);
}
else
{
buf[0] = validate_hex_digit(str[3]);
buf[1] = validate_hex_digit(str[4]);
}
*g = (int)strtol(buf, NULL, 16);
}
if (b)
{
if ((len == 4) || (len == 5))
{
buf[0] = validate_hex_digit(str[3]);
buf[1] = validate_hex_digit(str[3]);
}
else
{
buf[0] = validate_hex_digit(str[5]);
buf[1] = validate_hex_digit(str[6]);
}
*b = (int)strtol(buf, NULL, 16);
}
if (a)
{
if ((len == 5) || (len == 9))
{
if (len == 5)
{
buf[0] = validate_hex_digit(str[4]);
buf[1] = validate_hex_digit(str[4]);
}
else
{
buf[0] = validate_hex_digit(str[7]);
buf[1] = validate_hex_digit(str[8]);
}
*a = (int)strtol(buf, NULL, 16);
}
else
{
*a = 255;
}
}
free(str);
}
Reference in New Issue View Git Blame Copy Permalink