#include "uri.h"
#include "ccv.h"
#include <stdlib.h>
#include <stdio.h>
#include <ctype.h>
static void uri_bbf_on_model_string(void* context, char* string);
static void uri_bbf_on_source_blob(void* context, ebb_buf data);
static const param_dispatch_t param_map[] = {
{
.property = "accurate",
.type = PARAM_TYPE_BOOL,
.offset = offsetof(ccv_bbf_param_t, accurate),
},
{
.property = "interval",
.type = PARAM_TYPE_INT,
.offset = offsetof(ccv_bbf_param_t, interval),
},
{
.property = "min_neighbors",
.type = PARAM_TYPE_INT,
.offset = offsetof(ccv_bbf_param_t, min_neighbors),
},
{
.property = "model",
.type = PARAM_TYPE_STRING,
.on_string = uri_bbf_on_model_string,
.offset = 0,
},
{
.property = "size",
.type = PARAM_TYPE_INT,
.offset = offsetof(ccv_bbf_param_t, min_neighbors),
},
{
.property = "source",
.type = PARAM_TYPE_BODY,
.on_blob = uri_bbf_on_source_blob,
.offset = 0,
},
};
typedef struct {
ebb_buf desc;
ccv_bbf_classifier_cascade_t* face;
} bbf_context_t;
typedef struct {
param_parser_t param_parser;
bbf_context_t* context;
ccv_bbf_param_t params;
ccv_bbf_classifier_cascade_t* cascade;
ebb_buf source;
} bbf_param_parser_t;
static void uri_bbf_param_parser_init(bbf_param_parser_t* parser)
{
param_parser_init(&parser->param_parser, param_map, sizeof(param_map) / sizeof(param_dispatch_t), &parser->params, parser);
parser->params = ccv_bbf_default_params;
parser->cascade = 0;
parser->source.data = 0;
}
static void uri_bbf_on_model_string(void* context, char* string)
{
bbf_param_parser_t* parser = (bbf_param_parser_t*)context;
if (strcmp(string, "face") == 0)
parser->cascade = parser->context->face;
}
static void uri_bbf_on_source_blob(void* context, ebb_buf data)
{
bbf_param_parser_t* parser = (bbf_param_parser_t*)context;
parser->source = data;
}
void* uri_bbf_detect_objects_parse(const void* context, void* parsed, int resource_id, const char* buf, size_t len, uri_parse_state_t state, int header_index)
{
bbf_param_parser_t* parser;
if (parsed)
parser = (bbf_param_parser_t*)parsed;
else {
parser = (bbf_param_parser_t*)malloc(sizeof(bbf_param_parser_t));
uri_bbf_param_parser_init(parser);
parser->context = (bbf_context_t*)context;
}
switch (state)
{
case URI_QUERY_STRING:
case URI_CONTENT_BODY:
case URI_PARSE_TERMINATE:
case URI_MULTIPART_HEADER_FIELD:
case URI_MULTIPART_HEADER_VALUE:
case URI_MULTIPART_DATA:
param_parser_execute(&parser->param_parser, resource_id, buf, len, state, header_index);
break;
}
return parser;
}
void* uri_bbf_detect_objects_init(void)
{
bbf_context_t* context = (bbf_context_t*)malloc(sizeof(bbf_context_t));
context->face = ccv_bbf_read_classifier_cascade("../samples/face");
assert(context->face);
assert(param_parser_map_alphabet(param_map, sizeof(param_map) / sizeof(param_dispatch_t)) == 0);
context->desc = param_parser_map_http_body(param_map, sizeof(param_map) / sizeof(param_dispatch_t),
"[{"
"\"x\":\"integer\","
"\"y\":\"integer\","
"\"width\":\"integer\","
"\"height\":\"integer\","
"\"confidence\":\"number\""
"}]");
return context;
}
void uri_bbf_detect_objects_destroy(void* context)
{
bbf_context_t* bbf_context = (bbf_context_t*)context;
ccv_bbf_classifier_cascade_free(bbf_context->face);
free(bbf_context->desc.data);
free(bbf_context);
}
int uri_bbf_detect_objects_intro(const void* context, const void* parsed, ebb_buf* buf)
{
bbf_context_t* bbf_context = (bbf_context_t*)context;
buf->data = bbf_context->desc.data;
buf->len = bbf_context->desc.len;
return 0;
}
int uri_bbf_detect_objects(const void* context, const void* parsed, ebb_buf* buf)
{
if (!parsed)
return -1;
bbf_param_parser_t* parser = (bbf_param_parser_t*)parsed;
param_parser_terminate(&parser->param_parser);
if (parser->source.data == 0)
{
free(parser);
return -1;
}
if (parser->cascade == 0)
{
free(parser->source.data);
free(parser);
return -1;
}
ccv_dense_matrix_t* image = 0;
ccv_read(parser->source.data, &image, CCV_IO_ANY_STREAM | CCV_IO_GRAY, parser->source.written);
free(parser->source.data);
if (image == 0)
{
free(parser);
return -1;
}
ccv_array_t* seq = ccv_bbf_detect_objects(image, &parser->cascade, 1, parser->params);
ccv_matrix_free(image);
if (seq == 0)
{
free(parser);
return -1;
}
if (seq->rnum > 0)
{
int i;
buf->len = 192 + seq->rnum * 21 + 2;
char* data = (char*)malloc(buf->len);
data[0] = '[';
buf->written = 1;
for (i = 0; i < seq->rnum; i++)
{
char cell[128];
ccv_comp_t* comp = (ccv_comp_t*)ccv_array_get(seq, i);
snprintf(cell, 128, "{\"x\":%d,\"y\":%d,\"width\":%d,\"height\":%d,\"confidence\":%f}", comp->rect.x, comp->rect.y, comp->rect.width, comp->rect.height, comp->confidence);
size_t len = strnlen(cell, 128);
while (buf->written + len + 1 >= buf->len)
{
buf->len = (buf->len * 3 + 1) / 2;
data = (char*)realloc(data, buf->len);
}
memcpy(data + buf->written, cell, len);
buf->written += len + 1;
data[buf->written - 1] = (i == seq->rnum - 1) ? ']' : ',';
}
char http_header[192];
snprintf(http_header, 192, ebb_http_header, buf->written);
size_t len = strnlen(http_header, 192);
if (buf->written + len + 1 >= buf->len)
{
buf->len = buf->written + len + 1;
data = (char*)realloc(data, buf->len);
}
memmove(data + len, data, buf->written);
memcpy(data, http_header, len);
buf->written += len + 1;
data[buf->written - 1] = '\n';
buf->data = data;
buf->len = buf->written;
buf->on_release = uri_ebb_buf_free;
} else {
buf->data = (void*)ebb_http_empty_array;
buf->len = sizeof(ebb_http_empty_array);
buf->on_release = 0;
}
ccv_array_free(seq);
free(parser);
return 0;
}