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#include "ubj.h"
#include "ubj_internal.h"
#include <stdlib.h>
#include <string.h>
#if _MSC_VER
#define inline __inline
#endif
typedef struct ubjr_context_t_s
{
size_t (*read_cb )(void* data, size_t size, size_t count, void* userdata);
int (*peek_cb )(void* userdata);
int (*close_cb)(void* userdata);
void (*error_cb)(const char* error_msg);
void* userdata;
// struct _ubjr_container_t container_stack[CONTAINER_STACK_MAX];
// struct _ubjr_container_t* head;
uint8_t ignore_container_flags;
uint16_t last_error_code;
size_t total_read;
} ubjr_context_t;
ubjr_context_t* ubjr_open_callback(void* userdata,
size_t(*read_cb)(void* data, size_t size, size_t count, void* userdata),
int(*peek_cb)(void* userdata),
int(*close_cb)(void* userdata),
void(*error_cb)(const char* error_msg)
)
{
ubjr_context_t* ctx = (ubjr_context_t*)malloc(sizeof(ubjr_context_t));
ctx->userdata = userdata;
ctx->read_cb = read_cb;
ctx->peek_cb = peek_cb;
ctx->close_cb = close_cb;
ctx->error_cb = error_cb;
/* ctx->head = ctx->container_stack;
ctx->head->flags = 0;
ctx->head->type = UBJ_MIXED;
ctx->head->elements_remaining = 0;
ctx->ignore_container_flags = 0;*/
ctx->last_error_code = 0;
ctx->total_read = 0;
return ctx;
}
size_t ubjr_close_context(ubjr_context_t* ctx)
{
size_t n = ctx->total_read;
free(ctx);
return n;
}
static inline uint8_t priv_ubjr_context_getc(ubjr_context_t* ctx)
{
uint8_t a;
ctx->total_read += 1;
ctx->read_cb(&a, 1, 1, ctx->userdata);
return a;
}
static int fpeek(void* fp)
{
int c;
c = fgetc(fp);
ungetc(c, fp);
return c;
}
ubjr_context_t* ubjr_open_file(FILE* fd)
{
return ubjr_open_callback(fd, (void*)fread,(void*)fpeek,(void*)fclose, NULL);
}
struct mem_r_fd
{
const uint8_t *begin, *current, *end;
};
static int memclose(void* mfd)
{
//free(mfd);
return 0;
}
static size_t memread(void* data, size_t size, size_t count, struct mem_r_fd* fp)
{
size_t n = size*count;
size_t lim = fp->end - fp->current;
if (lim < n)
{
n = lim;
}
memcpy(data, fp->current, n);
fp->current += n;
return n;
}
static int mempeek(struct mem_r_fd* mfd)
{
return *mfd->current;
}
ubjr_context_t* ubjr_open_memory(const uint8_t* be, const uint8_t* en)
{
struct mem_r_fd* mfd = (struct mem_r_fd*)malloc(sizeof(struct mem_r_fd));
mfd->current = be;
mfd->begin = be;
mfd->end = en;
return ubjr_open_callback(mfd, (void*)memread, (void*)mempeek,(void*)memclose, NULL);
}
static inline int priv_ubjr_context_peek(ubjr_context_t* ctx)
{
return ctx->peek_cb(ctx->userdata);
}
static inline size_t priv_ubjr_context_read(ubjr_context_t* ctx,uint8_t* dst,size_t n)
{
size_t nr=ctx->read_cb(dst,n,1,ctx->userdata);
ctx->total_read+=nr;
return nr;
}
typedef struct priv_ubjr_sorted_key_t_s
{
ubjr_string_t key;
const uint8_t* value;
} priv_ubjr_sorted_key_t;
static int _obj_key_cmp(const void* av, const void* bv)
{
const priv_ubjr_sorted_key_t *a, *b;
a = (const priv_ubjr_sorted_key_t*)av;
b = (const priv_ubjr_sorted_key_t*)bv;
return strcmp(a->key,b->key);
}
static inline UBJ_TYPE priv_ubjr_type_from_char(uint8_t c)
{
int i = 0; //TODO: Benchmark this and see if it should be a switch statement where the compiler implements fastest switch e.g. binary search (17 cases might be binary search fast)
for (i = 0; i < UBJ_NUM_TYPES && UBJI_TYPEC_convert[i] != c; i++);
return (UBJ_TYPE)i;
}
size_t ubjr_local_type_size(UBJ_TYPE typ)
{
return UBJR_TYPE_localsize[typ];
}
static inline priv_ubjr_sorted_key_t* priv_ubjr_object_build_sorted_keys(ubjr_object_t* obj)
{
priv_ubjr_sorted_key_t* sorted_keysmem = malloc(obj->size*sizeof(priv_ubjr_sorted_key_t));
size_t i;
for (i = 0; i < obj->size; i++)
{
sorted_keysmem[i].key = obj->keys[i];
sorted_keysmem[i].value = (const uint8_t*)obj->values + i*UBJR_TYPE_localsize[obj->type];
}
qsort(sorted_keysmem, obj->size, sizeof(priv_ubjr_sorted_key_t), _obj_key_cmp);
return sorted_keysmem;
}
static inline uint8_t priv_ubjr_read_1b(ubjr_context_t* ctx)
{
return priv_ubjr_context_getc(ctx);
}
static inline uint16_t priv_ubjr_read_2b(ubjr_context_t* ctx)
{
return (uint16_t)priv_ubjr_read_1b(ctx) << 8 | (uint16_t)priv_ubjr_read_1b(ctx);
}
static inline uint32_t priv_ubjr_read_4b(ubjr_context_t* ctx)
{
return (uint32_t)priv_ubjr_read_2b(ctx) << 16 | (uint32_t)priv_ubjr_read_2b(ctx);
}
static inline uint64_t priv_ubjr_read_8b(ubjr_context_t* ctx)
{
return (uint64_t)priv_ubjr_read_4b(ctx) << 32 | (uint64_t)priv_ubjr_read_4b(ctx);
}
static inline int64_t priv_ubjw_read_integer(ubjr_context_t* ctx)
{
ubjr_dynamic_t d = ubjr_read_dynamic(ctx);
if (d.type >= UBJ_INT8 && d.type <= UBJ_INT64)
return d.integer;
return 0;//error
}
static inline ubjr_object_t priv_ubjr_read_raw_object(ubjr_context_t* ctx);
static inline ubjr_array_t priv_ubjr_read_raw_array(ubjr_context_t* ctx);
static inline void priv_ubjr_read_to_ptr(ubjr_context_t* ctx, uint8_t* dst, UBJ_TYPE typ)
{
int64_t n = 1;
char *tstr;
switch (typ)
{
case UBJ_MIXED:
{
*(ubjr_dynamic_t*)dst = ubjr_read_dynamic(ctx);
break;
}
case UBJ_STRING:
case UBJ_HIGH_PRECISION:
{
n = priv_ubjw_read_integer(ctx);
}
case UBJ_CHAR:
{
tstr = malloc(n + 1);
priv_ubjr_context_read(ctx, tstr, n);
tstr[n] = 0;
*(ubjr_string_t*)dst = tstr;
break;
}
case UBJ_INT8:
case UBJ_UINT8:
{
*dst = priv_ubjr_read_1b(ctx);
break;
}
case UBJ_INT16:
{
*(uint16_t*)dst = priv_ubjr_read_2b(ctx);
break;
}
case UBJ_INT32:
case UBJ_FLOAT32:
{
*(uint32_t*)dst = priv_ubjr_read_4b(ctx);
break;
}
case UBJ_INT64:
case UBJ_FLOAT64:
{
*(uint64_t*)dst = priv_ubjr_read_8b(ctx);
break;
}
case UBJ_ARRAY:
{
*(ubjr_array_t*)dst = priv_ubjr_read_raw_array(ctx);
break;
}
case UBJ_OBJECT:
{
*(ubjr_object_t*)dst = priv_ubjr_read_raw_object(ctx);
break;
}
};
}
ubjr_dynamic_t ubjr_object_lookup(ubjr_object_t* obj, const char* key)
{
if (obj->metatable == NULL)
{
//memcpy(obj->sorted_keys,obj->keys)
obj->metatable = priv_ubjr_object_build_sorted_keys(obj);
}
void* result=bsearch(key, obj->metatable,obj->size, sizeof(priv_ubjr_sorted_key_t),_obj_key_cmp);
if (result == NULL)
{
ubjr_dynamic_t nulldyn;
nulldyn.type = UBJ_NULLTYPE;
return nulldyn;
}
const priv_ubjr_sorted_key_t* result_key = (const priv_ubjr_sorted_key_t*)result;
return priv_ubjr_pointer_to_dynamic(obj->type,result_key->value);
}
size_t ubjr_ndarray_index(const ubjr_array_t* arr, const size_t* indices)
{
//multi-dimensional array to linear array lookup
size_t cstride = 1;
size_t cdex = 0;
uint8_t i;
uint8_t nd = arr->num_dims;
const size_t* dims = arr->dims;
for (i = 0; i<nd; i++)
{
cdex += cstride*indices[i];
cstride *= dims[i];
}
return cdex;
}
ubjr_dynamic_t ubjr_read_dynamic(ubjr_context_t* ctx)
{
ubjr_dynamic_t scratch; //scratch memory
UBJ_TYPE newtyp = priv_ubjr_type_from_char(priv_ubjr_context_getc(ctx));
priv_ubjr_read_to_ptr(ctx, (uint8_t*)&scratch, newtyp);
return priv_ubjr_pointer_to_dynamic(newtyp, &scratch);
}
static inline void priv_read_container_params(ubjr_context_t* ctx, UBJ_TYPE* typout, size_t* sizeout)
{
int nextchar = priv_ubjr_context_peek(ctx);
if (nextchar == '$')
{
priv_ubjr_context_getc(ctx);
*typout = priv_ubjr_type_from_char(priv_ubjr_context_getc(ctx));
nextchar = priv_ubjr_context_peek(ctx);
}
else
{
*typout = UBJ_MIXED;
}
if (nextchar == '#')
{
priv_ubjr_context_getc(ctx);
*sizeout = priv_ubjw_read_integer(ctx);
}
else
{
*sizeout = 0;
}
}
//TODO: This can be reused for object
static inline ubjr_array_t priv_ubjr_read_raw_array(ubjr_context_t* ctx)
{
ubjr_array_t myarray;
priv_read_container_params(ctx,&myarray.type,&myarray.size);
myarray.num_dims = 1;
myarray.dims = NULL;
if (myarray.type != UBJ_MIXED && myarray.size==0) //params detected this is a typed array but no size was detected..possibly an N-D array?
{
if (priv_ubjr_context_peek(ctx) == '@')
{
uint8_t dselect;
priv_ubjr_context_getc(ctx);//skip over the '@' marker
myarray.num_dims = priv_ubjr_context_getc(ctx);//since max is 8, no type indicator needed...always a int7 type
myarray.dims = malloc(sizeof(size_t)*myarray.num_dims);
myarray.size = 1;
for (dselect = 0; dselect < myarray.num_dims; dselect++)
{
size_t d = priv_ubjw_read_integer(ctx);
myarray.dims[dselect] = d;
myarray.size *= d;
}
}
}
size_t ls = UBJR_TYPE_localsize[myarray.type];
if (myarray.size == 0)
{
myarray.originally_sized = 0;
size_t arrpot = 0;
myarray.values=malloc(1*ls+1); //the +1 is for memory for the 0-size elements
for (myarray.size = 0; priv_ubjr_context_peek(ctx) != ']'; myarray.size++)
{
if (myarray.size >= (1ULL << arrpot))
{
arrpot ++;
myarray.values = realloc(myarray.values, (1ULL << arrpot)*ls+1);
}
priv_ubjr_read_to_ptr(ctx,(uint8_t*)myarray.values + ls*myarray.size,myarray.type);
}
priv_ubjr_context_getc(ctx); // read the closing ']'
}
else
{
myarray.originally_sized = 1;
size_t i;
myarray.values = malloc(ls*myarray.size+1);
size_t sz = UBJI_TYPE_size[myarray.type];
if (sz >= 0 && myarray.type != UBJ_STRING && myarray.type != UBJ_HIGH_PRECISION && myarray.type != UBJ_CHAR && myarray.type != UBJ_MIXED) //constant size,fastread
{
priv_ubjr_context_read(ctx, myarray.values, sz*myarray.size);
buf_endian_swap(myarray.values, sz, myarray.size); //do nothing for 0-sized buffers
}
else
{
for (i = 0; i < myarray.size; i++)
{
priv_ubjr_read_to_ptr(ctx, (uint8_t*)myarray.values + ls*i, myarray.type);
}
}
}
if (myarray.dims == NULL)
{
myarray.dims = malloc(sizeof(size_t));
myarray.dims[0] = myarray.size;
}
return myarray;
}
static inline ubjr_object_t priv_ubjr_read_raw_object(ubjr_context_t* ctx)
{
ubjr_object_t myobject;
myobject.metatable = NULL;
priv_read_container_params(ctx, &myobject.type, &myobject.size);
size_t ls = UBJR_TYPE_localsize[myobject.type];
if (myobject.size == 0)
{
myobject.originally_sized = 0;
size_t arrpot = 0;
myobject.values = malloc(1 * ls + 1); //the +1 is for memory for the 0-size elements
myobject.keys = malloc(1 * sizeof(ubjr_string_t));
for (myobject.size = 0; priv_ubjr_context_peek(ctx) != '}'; myobject.size++)
{
if (myobject.size >= (1ULL << arrpot))
{
arrpot++;
myobject.values = realloc(myobject.values, (1ULL << arrpot)*ls + 1);
myobject.keys = realloc((uint8_t*)myobject.keys, (1ULL << arrpot)*sizeof(ubjr_string_t));
}
priv_ubjr_read_to_ptr(ctx, (uint8_t*)(myobject.keys + myobject.size), UBJ_STRING);
priv_ubjr_read_to_ptr(ctx, (uint8_t*)myobject.values + ls*myobject.size, myobject.type);
}
priv_ubjr_context_getc(ctx); // read the closing '}'
}
else
{
size_t i;
myobject.originally_sized = 1;
myobject.values = malloc(ls*myobject.size + 1);
myobject.keys = malloc(myobject.size * sizeof(ubjr_string_t));
for (i = 0; i < myobject.size; i++)
{
priv_ubjr_read_to_ptr(ctx, (uint8_t*)(myobject.keys + i), UBJ_STRING);
priv_ubjr_read_to_ptr(ctx, (uint8_t*)myobject.values + ls*i, myobject.type);
}
}
return myobject;
}
static inline void priv_ubjr_cleanup_pointer(UBJ_TYPE typ,void* value);
static inline priv_ubjr_cleanup_container(UBJ_TYPE type,size_t size,void* values)
{
if(type == UBJ_MIXED || type == UBJ_ARRAY || type == UBJ_OBJECT || type == UBJ_STRING)
{
size_t ls=UBJR_TYPE_localsize[type];
uint8_t *viter,*vend;
viter=values;
vend=viter+ls*size;
for(;viter != vend;viter+=ls)
{
priv_ubjr_cleanup_pointer(type,(void*)viter);
}
}
free(values);
}
static inline void priv_ubjr_cleanup_pointer(UBJ_TYPE typ,void* value)
{
switch(typ)
{
case UBJ_MIXED:
{
ubjr_dynamic_t* dyn=(ubjr_dynamic_t*)value;
switch(dyn->type)
{
case UBJ_STRING:
priv_ubjr_cleanup_pointer(UBJ_STRING,&dyn->string);
break;
case UBJ_ARRAY:
priv_ubjr_cleanup_pointer(UBJ_ARRAY,&dyn->container_array);
break;
case UBJ_OBJECT:
priv_ubjr_cleanup_pointer(UBJ_OBJECT,&dyn->container_object);
break;
};
break;
}
case UBJ_STRING:
{
ubjr_string_t* st=(ubjr_string_t*)value;
free((void*)*st);
break;
}
case UBJ_ARRAY:
{
ubjr_array_t* arr=(ubjr_array_t*)value;
priv_ubjr_cleanup_container(arr->type,arr->size,arr->values);
free(arr->dims);
break;
}
case UBJ_OBJECT:
{
ubjr_object_t* obj=(ubjr_object_t*)value;
priv_ubjr_cleanup_container(obj->type,obj->size,obj->values);
priv_ubjr_cleanup_container(UBJ_STRING,obj->size,obj->keys);
if(obj->metatable)
{
free(obj->metatable);
}
break;
}
};
}
void ubjr_cleanup_dynamic(ubjr_dynamic_t* dyn)
{
priv_ubjr_cleanup_pointer(UBJ_MIXED,dyn);
}
void ubjr_cleanup_array(ubjr_array_t* arr)
{
priv_ubjr_cleanup_pointer(UBJ_ARRAY,arr);
}
void ubjr_cleanup_object(ubjr_object_t* obj)
{
priv_ubjr_cleanup_pointer(UBJ_OBJECT,obj);
}
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