#include <stdio.h>
#include <limits.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <unistd.h>
typedef enum _Example_Data_Type Example_Data_Type;
typedef struct _Example_Variant_Type Example_Variant_Type;
typedef struct _Example_Variant Example_Variant;
typedef struct _Example_Union Example_Union;
typedef struct _Example_Struct1 Example_Struct1;
typedef struct _Example_Struct2 Example_Struct2;
typedef struct _Example_Struct3 Example_Struct3;
typedef struct _Example_Lists Example_Lists;
enum _Example_Data_Type
{
EET_UNKNOWN = 0,
EET_STRUCT1,
EET_STRUCT2,
EET_STRUCT3,
EET_BASIC_FLOAT,
EET_BASIC_STRING
};
struct
{
Example_Data_Type u;
const char *name;
} eet_mapping[] = {
{ EET_STRUCT1, "ST1" },
{ EET_STRUCT2, "ST2" },
{ EET_STRUCT3, "ST3" },
{ EET_BASIC_FLOAT, "float" },
{ EET_BASIC_STRING, "string" },
{ EET_UNKNOWN, NULL }
};
struct _Example_Struct1
{
double val1;
int stuff;
const char *s1;
};
struct _Example_Struct2
{
unsigned long long v1;
};
struct _Example_Struct3
{
int body;
};
struct _Example_Union
{
Example_Data_Type type;
union {
Example_Struct1 st1;
Example_Struct2 st2;
Example_Struct3 st3;
float f;
const char* string;
} u;
};
struct _Example_Variant_Type
{
const char *type;
};
struct _Example_Variant
{
Example_Variant_Type t;
void *data;
};
struct _Example_Lists
{
};
static void
_st1_set(Example_Struct1 *st1,
double v1,
int v2,
const char *v3)
{
st1->val1 = v1;
st1->stuff = v2;
st1->s1 = v3;
}
static void
_st2_set(Example_Struct2 *st2,
unsigned long long v2)
{
st2->b1 = v1;
st2->v1 = v2;
}
static void
_st3_set(Example_Struct3 *st3,
int v1)
{
st3->body = v1;
}
static const char *
_union_type_get(const void *data,
{
const Example_Data_Type *u = data;
int i;
if (unknow)
for (i = 0; eet_mapping[i].name != NULL; ++i)
if (*u == eet_mapping[i].u)
return eet_mapping[i].name;
if (unknow)
return NULL;
}
_union_type_set(const char *type,
void *data,
{
Example_Data_Type *u = data;
int i;
if (unknow)
for (i = 0; eet_mapping[i].name != NULL; ++i)
if (strcmp(eet_mapping[i].name, type) == 0)
{
*u = eet_mapping[i].u;
}
}
static const char *
_variant_type_get(const void *data,
{
const Example_Variant_Type *type = data;
int i;
if (unknow)
*unknow = type->unknow;
for (i = 0; eet_mapping[i].name != NULL; ++i)
if (strcmp(type->type, eet_mapping[i].name) == 0)
return eet_mapping[i].name;
if (unknow)
return type->type;
}
_variant_type_set(const char *type,
void *data,
{
Example_Variant_Type *vt = data;
vt->type = type;
vt->unknow = unknow;
}
_st1_dd(void)
{
res, Example_Struct1,
"stuff", stuff,
EET_T_INT);
return res;
}
_st2_dd(void)
{
return res;
}
_st3_dd(void)
{
res, Example_Struct3,
"body", body,
EET_T_INT);
return res;
}
static const char CACHE_FILE_ENTRY[] = "cache";
static void
_data_descriptors_init(void)
{
_struct_1_descriptor = _st1_dd();
_struct_2_descriptor = _st2_dd();
_struct_3_descriptor = _st3_dd();
_union_unified_descriptor, "ST1", _struct_1_descriptor);
_union_unified_descriptor, "ST2", _struct_2_descriptor);
_union_unified_descriptor, "ST3", _struct_3_descriptor);
_union_descriptor, Example_Union, "u", u, type,
_union_unified_descriptor);
_lists_descriptor, Example_Lists, "union_list", union_list,
_union_descriptor);
_variant_unified_descriptor, "ST1", _struct_1_descriptor);
_variant_unified_descriptor, "ST2", _struct_2_descriptor);
_variant_unified_descriptor, "ST3", _struct_3_descriptor);
_variant_descriptor, Example_Variant, "data", data, t,
_variant_unified_descriptor);
_lists_descriptor, Example_Lists, "variant_list", variant_list,
_variant_descriptor);
}
static void
_data_descriptors_shutdown(void)
{
}
static void
_string_free(const char *str)
{
if (!str)
return;
return;
}
static Example_Union *
_union_1_new(const char *v1,
const char *v2,
const char *v3)
{
Example_Union *un = calloc(1, sizeof(Example_Union));
if (!un)
{
fprintf(
stderr, "ERROR: could not allocate an Example_Union struct.\n");
return NULL;
}
un->type = EET_STRUCT1;
return un;
}
static Example_Union *
_union_2_new(const char *v1,
const char *v2)
{
Example_Union *un = calloc(1, sizeof(Example_Union));
if (!un)
{
fprintf(
stderr, "ERROR: could not allocate an Example_Union struct.\n");
return NULL;
}
un->type = EET_STRUCT2;
_st2_set(&(un->u.st2), atoi(v1), atoi(v2));
return un;
}
static Example_Union *
_union_3_new(const char *v1)
{
Example_Union *un = calloc(1, sizeof(Example_Union));
if (!un)
{
fprintf(
stderr, "ERROR: could not allocate an Example_Union struct.\n");
return NULL;
}
un->type = EET_STRUCT3;
_st3_set(&(un->u.st3), atoi(v1));
return un;
}
static Example_Union *
_union_float_new(const char *v1)
{
Example_Union *un = calloc(1, sizeof(Example_Union));
if (!un)
{
fprintf(
stderr, "ERROR: could not allocate an Example_Union struct.\n");
return NULL;
}
un->type = EET_BASIC_FLOAT;
un->u.f = atof(v1);
return un;
}
static Example_Union *
_union_string_new(const char *v1)
{
Example_Union *un = calloc(1, sizeof(Example_Union));
if (!un)
{
fprintf(
stderr, "ERROR: could not allocate an Example_Union struct.\n");
return NULL;
}
un->type = EET_BASIC_STRING;
un->u.string = v1;
return un;
}
static Example_Variant *
_variant_1_new(const char *v1,
const char *v2,
const char *v3)
{
Example_Struct1 *st1;
Example_Variant *va = calloc(1, sizeof(Example_Variant));
if (!va)
{
fprintf(
stderr, "ERROR: could not allocate an Example_Variant struct.\n");
return NULL;
}
va->t.type = eet_mapping[0].name;
st1 = calloc(1, sizeof (Example_Struct1));
va->data = st1;
return va;
}
static Example_Variant *
_variant_2_new(const char *v1,
const char *v2)
{
printf("varinant 2 new\n");
Example_Struct2 *st2;
Example_Variant *va = calloc(1, sizeof(Example_Variant));
if (!va)
{
fprintf(
stderr, "ERROR: could not allocate an Example_Variant struct.\n");
return NULL;
}
va->t.type = eet_mapping[1].name;
printf("type gets %s\n", va->t.type);
st2 = calloc(1, sizeof (Example_Struct2));
_st2_set(st2, atoi(v1), atoi(v2));
va->data = st2;
return va;
}
static Example_Variant *
_variant_3_new(const char *v1)
{
Example_Struct3 *st3;
Example_Variant *va = calloc(1, sizeof(Example_Variant));
if (!va)
{
fprintf(
stderr, "ERROR: could not allocate an Example_Variant struct.\n");
return NULL;
}
va->t.type = eet_mapping[2].name;
st3 = calloc(1, sizeof (Example_Struct3));
_st3_set(st3, atoi(v1));
va->data = st3;
return va;
}
static Example_Lists *
_data_new(void)
{
Example_Lists *example_lists = calloc(1, sizeof(Example_Lists));
if (!example_lists)
{
fprintf(stderr, "ERROR: could not allocate a Example_Lists struct.\n");
return NULL;
}
return example_lists;
}
static void
_union_free(Example_Union *un)
{
if (un->type == EET_STRUCT1)
{
Example_Struct1 *st1 = &(un->u.st1);
_string_free(st1->s1);
}
free(un);
}
static void
_variant_free(Example_Variant *va)
{
if (!strcmp(va->t.type, eet_mapping[0].name))
{
Example_Struct1 *st1 = va->data;
_string_free(st1->s1);
}
free(va->data);
free(va);
}
static void
_data_free(Example_Lists *cache)
{
Example_Union *un;
Example_Variant *va;
_union_free(un);
_variant_free(va);
free(cache);
}
static Example_Lists *
_data_load(const char *filename)
{
Example_Lists *data;
if (!ef)
{
fprintf(stderr, "ERROR: could not open '%s' for read\n", filename);
return NULL;
}
if (!data)
{
return NULL;
}
if (_cache_file)
_cache_file = ef;
return data;
}
_data_save(const Example_Lists *cache,
const char *filename)
{
char tmp[PATH_MAX];
unsigned int i, len;
struct stat st;
if (len + 12 >= (int)sizeof(tmp))
{
fprintf(stderr, "ERROR: file name is too big: %s\n", filename);
}
i = 0;
do
{
snprintf(tmp + len, 12, ".%u", i);
i++;
}
while (stat(tmp, &st) == 0);
if (!ef)
{
fprintf(stderr, "ERROR: could not open '%s' for write\n", tmp);
}
(ef, _lists_descriptor, CACHE_FILE_ENTRY, cache,
EINA_TRUE);
if (ret)
{
unlink(filename);
rename(tmp, filename);
}
return ret;
}
static void
_print_union(const Example_Union *un)
{
printf("\t | type: %s'\n", eet_mapping[un->type - 1].name);
switch (un->type)
{
case EET_STRUCT1:
printf("\t\t val1: %f\n", un->u.st1.val1);
printf("\t\t stuff: %d\n", un->u.st1.stuff);
printf("\t\t s1: %s\n", un->u.st1.s1);
break;
case EET_STRUCT2:
printf("\t\t val1: %i\n", un->u.st2.b1);
printf("\t\t stuff: %lli\n", un->u.st2.v1);
break;
case EET_STRUCT3:
printf("\t\t val1: %i\n", un->u.st3.body);
break;
case EET_BASIC_FLOAT:
printf("\t\t float: %f\n", un->u.f);
break;
case EET_BASIC_STRING:
printf("\t\t string: %s\n", un->u.string);
break;
default:
return;
}
}
static void
_print_variant(const Example_Variant *va)
{
printf("\t | type: %s'\n", va->t.type);
switch (va->t.type[2])
{
case '1':
{
Example_Struct1 *st1 = va->data;
printf("\t\t val1: %f\n", st1->val1);
printf("\t\t stuff: %d\n", st1->stuff);
printf("\t\t s1: %s\n", st1->s1);
}
break;
case '2':
{
Example_Struct2 *st2 = va->data;
printf("\t\t val1: %i\n", st2->b1);
printf("\t\t stuff: %lli\n", st2->v1);
}
break;
case '3':
{
Example_Struct3 *st3 = va->data;
printf("\t\t val1: %i\n", st3->body);
}
break;
default:
return;
}
}
int
main(int argc,
char *argv[])
{
Example_Lists *data_lists;
int ret = 0;
if (argc < 3)
{
fprintf(stderr,
"Usage:\n\t%s <input> <output> [action action-params]\n\n"
"where actions and their parameters are:\n"
"\tunion <type> [fields]\n"
"\tvariant <type> [fields]\n"
"\n",
argv[0]);
return -1;
}
_data_descriptors_init();
data_lists = _data_load(argv[1]);
if (!data_lists)
{
printf("Creating new data lists.\n");
data_lists = _data_new();
if (!data_lists)
{
ret = -2;
goto end;
}
}
if (argc > 3)
{
if (strcmp(argv[3], "union") == 0)
{
if (argc > 4)
{
int type = atoi(argv[4]);
Example_Union *un;
if (type < EET_STRUCT1 || type > EET_BASIC_STRING)
{
fprintf(stderr,
"ERROR: invalid type parameter (%s).\n",
argv[4]);
goto cont;
}
switch (type)
{
case 1:
if (argc != 8)
{
fprintf(
stderr, "ERROR: wrong number of parameters"
" (%d).\n", argc);
goto cont;
}
un = _union_1_new(
argv[5], argv[6], argv[7]);
if (!un)
{
fprintf(
stderr, "ERROR: could not create the "
"requested union.\n");
goto cont;
}
data_lists->union_list =
break;
case 2:
if (argc != 7)
{
fprintf(
stderr, "ERROR: wrong number of parameters"
" (%d).\n", argc);
goto cont;
}
un = _union_2_new(argv[5], argv[6]);
if (!un)
{
fprintf(
stderr, "ERROR: could not create the "
"requested union.\n");
goto cont;
}
data_lists->union_list =
break;
case 3:
if (argc != 6)
{
fprintf(
stderr, "ERROR: wrong number of parameters"
" (%d).\n", argc);
goto cont;
}
un = _union_3_new(argv[5]);
if (!un)
{
fprintf(
stderr, "ERROR: could not create the "
"requested union.\n");
goto cont;
}
data_lists->union_list =
break;
case EET_BASIC_FLOAT:
if (argc != 6)
{
fprintf(
stderr, "ERROR: wrong number of parameters"
" (%d).\n", argc);
goto cont;
}
un = _union_float_new(argv[5]);
if (!un)
{
fprintf(
stderr, "ERROR: could not create the "
"requested union.\n");
goto cont;
}
data_lists->union_list =
break;
case EET_BASIC_STRING:
if (argc != 6)
{
fprintf(
stderr, "ERROR: wrong number of parameters"
" (%d).\n", argc);
goto cont;
}
un = _union_string_new(argv[5]);
if (!un)
{
fprintf(
stderr, "ERROR: could not create the "
"requested union.\n");
goto cont;
}
data_lists->union_list =
break;
default:
fprintf(
stderr, "ERROR: bad type of of struct passed\n");
goto cont;
}
}
else
fprintf(stderr,
"ERROR: wrong number of parameters (%d).\n",
argc);
}
else if (strcmp(argv[3], "variant") == 0)
{
if (argc > 4)
{
int type = atoi(argv[4]);
Example_Variant *va;
if (type < EET_STRUCT1 || type > EET_STRUCT3)
{
fprintf(stderr,
"ERROR: invalid type parameter (%s).\n",
argv[4]);
goto cont;
}
switch (type)
{
case 1:
if (argc != 8)
{
fprintf(
stderr, "ERROR: wrong number of parameters"
" (%d).\n", argc);
goto cont;
}
va = _variant_1_new(
argv[5], argv[6], argv[7]);
if (!va)
{
fprintf(
stderr, "ERROR: could not create the "
"requested variant.\n");
goto cont;
}
data_lists->variant_list =
break;
case 2:
if (argc != 7)
{
fprintf(
stderr, "ERROR: wrong number of parameters"
" (%d).\n", argc);
goto cont;
}
va = _variant_2_new(argv[5], argv[6]);
if (!va)
{
fprintf(
stderr, "ERROR: could not create the "
"requested variant.\n");
goto cont;
}
data_lists->variant_list =
break;
case 3:
if (argc != 6)
{
fprintf(
stderr, "ERROR: wrong number of parameters"
" (%d).\n", argc);
goto cont;
}
va = _variant_3_new(argv[5]);
if (!va)
{
fprintf(
stderr, "ERROR: could not create the "
"requested variant.\n");
goto cont;
}
data_lists->variant_list =
break;
default:
fprintf(
stderr, "ERROR: bad type of of struct passed\n");
goto cont;
}
}
else
fprintf(stderr,
"ERROR: wrong number of parameters (%d).\n",
argc);
}
else
fprintf(stderr, "ERROR: unknown action '%s'\n", argv[3]);
}
cont:
printf("Cached data:\n");
printf("\tstats: unions=%u, variants=%u\n",
{
const Example_Union *un;
printf("\t * union list:\n");
{
_print_union(un);
}
}
{
const Example_Variant *un;
printf("\t * variant list:\n");
{
_print_variant(un);
}
}
printf("\n");
if (!_data_save(data_lists, argv[2]))
ret = -3;
_data_free(data_lists);
end:
if (_cache_file)
_data_descriptors_shutdown();
return ret;
}
The file that provides the eet functions.
#define EET_DATA_DESCRIPTOR_ADD_UNION(edd, struct_type, name, member, type_member, unified_type)
Adds an union type to a data descriptor.
Definition: Eet.h:3817
#define EET_T_UCHAR
Data type: unsigned char.
Definition: Eet.h:2585
#define EET_EINA_FILE_DATA_DESCRIPTOR_CLASS_SET(clas, type)
This macro is an helper that set all the parameter of an Eet_Data_Descriptor_Class correctly when you...
Definition: Eet.h:3075
#define EET_T_STRING
Data type: char *.
Definition: Eet.h:2589
EAPI void eet_data_descriptor_free(Eet_Data_Descriptor *edd)
This function frees a data descriptor when it is not needed anymore.
Definition: eet_data.c:2104
#define EET_T_FLOAT
Data type: float.
Definition: Eet.h:2583
struct _Eet_Data_Descriptor Eet_Data_Descriptor
Opaque handle that have information on a type members.
Definition: Eet.h:2631
EAPI void * eet_data_read(Eet_File *ef, Eet_Data_Descriptor *edd, const char *name)
Reads a data structure from an eet file and decodes it.
Definition: eet_data.c:2379
#define EET_T_INT
Data type: int.
Definition: Eet.h:2581
EAPI Eet_Data_Descriptor * eet_data_descriptor_stream_new(const Eet_Data_Descriptor_Class *eddc)
This function creates a new data descriptor and returns a handle to the new data descriptor.
Definition: eet_data.c:2084
#define EET_DATA_DESCRIPTOR_CLASS_VERSION
The version of Eet_Data_Descriptor_Class at the time of the distribution of the sources.
Definition: Eet.h:2640
#define EET_DATA_DESCRIPTOR_ADD_VARIANT(edd, struct_type, name, member, type_member, unified_type)
Adds a automatically selectable type to a data descriptor.
Definition: Eet.h:3849
EAPI Eet_Data_Descriptor * eet_data_descriptor_file_new(const Eet_Data_Descriptor_Class *eddc)
This function creates a new data descriptor and returns a handle to the new data descriptor.
Definition: eet_data.c:2090
#define EET_DATA_DESCRIPTOR_ADD_MAPPING_BASIC(unified_type, name, basic_type)
Adds a mapping of a basic type to a data descriptor that will be used by a union type.
Definition: Eet.h:3890
#define EET_DATA_DESCRIPTOR_ADD_LIST(edd, struct_type, name, member, subtype)
Adds a linked list type to a data descriptor.
Definition: Eet.h:3511
#define EET_T_DOUBLE
Data type: double.
Definition: Eet.h:2584
#define EET_DATA_DESCRIPTOR_ADD_BASIC(edd, struct_type, name, member, type)
Adds a basic data element to a data descriptor.
Definition: Eet.h:3432
EAPI int eet_data_write(Eet_File *ef, Eet_Data_Descriptor *edd, const char *name, const void *data, int compress)
Writes a data structure from memory and store in an eet file.
Definition: eet_data.c:2416
#define EET_T_ULONG_LONG
Data type: unsigned long long.
Definition: Eet.h:2588
#define EET_DATA_DESCRIPTOR_ADD_MAPPING(unified_type, name, subtype)
Adds a mapping to a data descriptor that will be used by union, variant or inherited type.
Definition: Eet.h:3870
EAPI Eet_Error eet_close(Eet_File *ef)
Closes an eet file handle and flush pending writes.
Definition: eet_lib.c:1899
EAPI int eet_dictionary_string_check(Eet_Dictionary *ed, const char *string)
Checks if a given string comes from a given dictionary.
Definition: eet_dictionary.c:598
EAPI Eet_File * eet_open(const char *file, Eet_File_Mode mode)
Opens an eet file on disk, and returns a handle to it.
Definition: eet_lib.c:1499
struct _Eet_File Eet_File
Opaque handle that defines an Eet file (or memory).
Definition: Eet.h:527
EAPI Eet_Dictionary * eet_dictionary_get(Eet_File *ef)
Returns a handle to the shared string dictionary of the Eet file.
Definition: eet_lib.c:2564
struct _Eet_Dictionary Eet_Dictionary
Opaque handle that defines a file-backed (mmaped) dictionary of strings.
Definition: Eet.h:533
@ EET_FILE_MODE_READ
File is read-only.
Definition: Eet.h:479
@ EET_FILE_MODE_WRITE
File is write-only.
Definition: Eet.h:480
EAPI int eet_init(void)
Initializes the EET library.
Definition: eet_lib.c:540
EAPI int eet_shutdown(void)
Shuts down the EET library.
Definition: eet_lib.c:594
static unsigned int eina_list_count(const Eina_List *list)
Gets the count of the number of items in a list.
EINA_API Eina_List * eina_list_append(Eina_List *list, const void *data)
Appends the given data to the given linked list.
Definition: eina_list.c:584
#define EINA_LIST_FOREACH(list, l, _data)
Definition for the macro to iterate over a list.
Definition: eina_list.h:1415
#define EINA_LIST_FREE(list, data)
Definition for the macro to remove each list node while having access to each node's data.
Definition: eina_list.h:1629
EINA_API int eina_shutdown(void)
Shuts down the Eina library.
Definition: eina_main.c:379
EINA_API int eina_init(void)
Initializes the Eina library.
Definition: eina_main.c:291
EINA_API size_t eina_strlcpy(char *dst, const char *src, size_t siz)
Copies a c-string to another.
Definition: eina_str.c:317
EINA_API Eina_Stringshare * eina_stringshare_add(const char *str)
Retrieves an instance of a string for use in a program.
Definition: eina_stringshare.c:606
EINA_API void eina_stringshare_del(Eina_Stringshare *str)
Notes that the given string has lost an instance.
Definition: eina_stringshare.c:533
#define EINA_TRUE
boolean value TRUE (numerical value 1)
Definition: eina_types.h:539
#define EINA_FALSE
boolean value FALSE (numerical value 0)
Definition: eina_types.h:533
unsigned char Eina_Bool
Type to mimic a boolean.
Definition: eina_types.h:527
Instructs Eet about memory management for different needs under serialization and parse process.
Definition: Eet.h:2828
Eet_Descriptor_Type_Set_Callback type_set
called when loading a mapped type with the given type used to describe the type in the descriptor
Definition: Eet.h:2848
int version
ABI version.
Definition: Eet.h:2829
Eet_Descriptor_Type_Get_Callback type_get
get the type, as used in the union or variant mapping, that should be used to store the given data in...
Definition: Eet.h:2847
Type for a generic double linked list.
Definition: eina_list.h:318