darknet/src/data.c

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C
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#include "data.h"
#include "utils.h"
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#include "image.h"
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#include "cuda.h"
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#include <stdio.h>
#include <stdlib.h>
#include <string.h>
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pthread_mutex_t mutex = PTHREAD_MUTEX_INITIALIZER;
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list *get_paths(char *filename)
{
char *path;
FILE *file = fopen(filename, "r");
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if(!file) file_error(filename);
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list *lines = make_list();
while((path=fgetl(file))){
list_insert(lines, path);
}
fclose(file);
return lines;
}
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/*
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char **get_random_paths_indexes(char **paths, int n, int m, int *indexes)
{
char **random_paths = calloc(n, sizeof(char*));
int i;
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pthread_mutex_lock(&mutex);
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for(i = 0; i < n; ++i){
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int index = rand()%m;
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indexes[i] = index;
random_paths[i] = paths[index];
if(i == 0) printf("%s\n", paths[index]);
}
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pthread_mutex_unlock(&mutex);
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return random_paths;
}
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*/
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char **get_random_paths(char **paths, int n, int m)
{
char **random_paths = calloc(n, sizeof(char*));
int i;
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pthread_mutex_lock(&mutex);
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for(i = 0; i < n; ++i){
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int index = rand()%m;
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random_paths[i] = paths[index];
//if(i == 0) printf("%s\n", paths[index]);
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}
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pthread_mutex_unlock(&mutex);
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return random_paths;
}
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char **find_replace_paths(char **paths, int n, char *find, char *replace)
{
char **replace_paths = calloc(n, sizeof(char*));
int i;
for(i = 0; i < n; ++i){
char replaced[4096];
find_replace(paths[i], find, replace, replaced);
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replace_paths[i] = copy_string(replaced);
}
return replace_paths;
}
matrix load_image_paths_gray(char **paths, int n, int w, int h)
{
int i;
matrix X;
X.rows = n;
X.vals = calloc(X.rows, sizeof(float*));
X.cols = 0;
for(i = 0; i < n; ++i){
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image im = load_image(paths[i], w, h, 3);
image gray = grayscale_image(im);
free_image(im);
im = gray;
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X.vals[i] = im.data;
X.cols = im.h*im.w*im.c;
}
return X;
}
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matrix load_image_paths(char **paths, int n, int w, int h)
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{
int i;
matrix X;
X.rows = n;
X.vals = calloc(X.rows, sizeof(float*));
X.cols = 0;
for(i = 0; i < n; ++i){
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image im = load_image_color(paths[i], w, h);
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X.vals[i] = im.data;
X.cols = im.h*im.w*im.c;
}
return X;
}
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matrix load_image_augment_paths(char **paths, int n, int min, int max, int size, float angle, float aspect, float hue, float saturation, float exposure)
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{
int i;
matrix X;
X.rows = n;
X.vals = calloc(X.rows, sizeof(float*));
X.cols = 0;
for(i = 0; i < n; ++i){
image im = load_image_color(paths[i], 0, 0);
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image crop = random_augment_image(im, angle, aspect, min, max, size);
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int flip = rand()%2;
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if (flip) flip_image(crop);
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random_distort_image(crop, hue, saturation, exposure);
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/*
show_image(im, "orig");
show_image(crop, "crop");
cvWaitKey(0);
*/
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free_image(im);
X.vals[i] = crop.data;
X.cols = crop.h*crop.w*crop.c;
}
return X;
}
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box_label *read_boxes(char *filename, int *n)
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{
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box_label *boxes = calloc(1, sizeof(box_label));
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FILE *file = fopen(filename, "r");
if(!file) file_error(filename);
float x, y, h, w;
int id;
int count = 0;
while(fscanf(file, "%d %f %f %f %f", &id, &x, &y, &w, &h) == 5){
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boxes = realloc(boxes, (count+1)*sizeof(box_label));
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boxes[count].id = id;
boxes[count].x = x;
boxes[count].y = y;
boxes[count].h = h;
boxes[count].w = w;
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boxes[count].left = x - w/2;
boxes[count].right = x + w/2;
boxes[count].top = y - h/2;
boxes[count].bottom = y + h/2;
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++count;
}
fclose(file);
*n = count;
return boxes;
}
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void randomize_boxes(box_label *b, int n)
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{
int i;
for(i = 0; i < n; ++i){
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box_label swap = b[i];
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int index = rand()%n;
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b[i] = b[index];
b[index] = swap;
}
}
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void correct_boxes(box_label *boxes, int n, float dx, float dy, float sx, float sy, int flip)
{
int i;
for(i = 0; i < n; ++i){
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if(boxes[i].x == 0 && boxes[i].y == 0) {
boxes[i].x = 999999;
boxes[i].y = 999999;
boxes[i].w = 999999;
boxes[i].h = 999999;
continue;
}
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boxes[i].left = boxes[i].left * sx - dx;
boxes[i].right = boxes[i].right * sx - dx;
boxes[i].top = boxes[i].top * sy - dy;
boxes[i].bottom = boxes[i].bottom* sy - dy;
if(flip){
float swap = boxes[i].left;
boxes[i].left = 1. - boxes[i].right;
boxes[i].right = 1. - swap;
}
boxes[i].left = constrain(0, 1, boxes[i].left);
boxes[i].right = constrain(0, 1, boxes[i].right);
boxes[i].top = constrain(0, 1, boxes[i].top);
boxes[i].bottom = constrain(0, 1, boxes[i].bottom);
boxes[i].x = (boxes[i].left+boxes[i].right)/2;
boxes[i].y = (boxes[i].top+boxes[i].bottom)/2;
boxes[i].w = (boxes[i].right - boxes[i].left);
boxes[i].h = (boxes[i].bottom - boxes[i].top);
boxes[i].w = constrain(0, 1, boxes[i].w);
boxes[i].h = constrain(0, 1, boxes[i].h);
}
}
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void fill_truth_swag(char *path, float *truth, int classes, int flip, float dx, float dy, float sx, float sy)
{
char labelpath[4096];
find_replace(path, "images", "labels", labelpath);
find_replace(labelpath, "JPEGImages", "labels", labelpath);
find_replace(labelpath, ".jpg", ".txt", labelpath);
find_replace(labelpath, ".JPG", ".txt", labelpath);
find_replace(labelpath, ".JPEG", ".txt", labelpath);
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int count = 0;
box_label *boxes = read_boxes(labelpath, &count);
randomize_boxes(boxes, count);
correct_boxes(boxes, count, dx, dy, sx, sy, flip);
float x,y,w,h;
int id;
int i;
for (i = 0; i < count && i < 30; ++i) {
x = boxes[i].x;
y = boxes[i].y;
w = boxes[i].w;
h = boxes[i].h;
id = boxes[i].id;
if (w < .0 || h < .0) continue;
int index = (4+classes) * i;
truth[index++] = x;
truth[index++] = y;
truth[index++] = w;
truth[index++] = h;
if (id < classes) truth[index+id] = 1;
}
free(boxes);
}
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void fill_truth_region(char *path, float *truth, int classes, int num_boxes, int flip, float dx, float dy, float sx, float sy)
{
char labelpath[4096];
find_replace(path, "images", "labels", labelpath);
find_replace(labelpath, "JPEGImages", "labels", labelpath);
find_replace(labelpath, ".jpg", ".txt", labelpath);
find_replace(labelpath, ".png", ".txt", labelpath);
find_replace(labelpath, ".JPG", ".txt", labelpath);
find_replace(labelpath, ".JPEG", ".txt", labelpath);
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int count = 0;
box_label *boxes = read_boxes(labelpath, &count);
randomize_boxes(boxes, count);
correct_boxes(boxes, count, dx, dy, sx, sy, flip);
float x,y,w,h;
int id;
int i;
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for (i = 0; i < count; ++i) {
x = boxes[i].x;
y = boxes[i].y;
w = boxes[i].w;
h = boxes[i].h;
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id = boxes[i].id;
if (w < .01 || h < .01) continue;
int col = (int)(x*num_boxes);
int row = (int)(y*num_boxes);
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x = x*num_boxes - col;
y = y*num_boxes - row;
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int index = (col+row*num_boxes)*(5+classes);
if (truth[index]) continue;
truth[index++] = 1;
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if (id < classes) truth[index+id] = 1;
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index += classes;
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truth[index++] = x;
truth[index++] = y;
truth[index++] = w;
truth[index++] = h;
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}
free(boxes);
}
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void fill_truth_detection(char *path, int num_boxes, float *truth, int classes, int flip, float dx, float dy, float sx, float sy)
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{
char labelpath[4096];
find_replace(path, "images", "labels", labelpath);
find_replace(labelpath, "JPEGImages", "labels", labelpath);
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find_replace(labelpath, "raw", "labels", labelpath);
find_replace(labelpath, ".jpg", ".txt", labelpath);
find_replace(labelpath, ".png", ".txt", labelpath);
find_replace(labelpath, ".JPG", ".txt", labelpath);
find_replace(labelpath, ".JPEG", ".txt", labelpath);
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int count = 0;
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box_label *boxes = read_boxes(labelpath, &count);
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randomize_boxes(boxes, count);
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correct_boxes(boxes, count, dx, dy, sx, sy, flip);
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if(count > num_boxes) count = num_boxes;
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float x,y,w,h;
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int id;
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int i;
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for (i = 0; i < count; ++i) {
x = boxes[i].x;
y = boxes[i].y;
w = boxes[i].w;
h = boxes[i].h;
id = boxes[i].id;
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if ((w < .01 || h < .01)) continue;
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truth[i*5+0] = x;
truth[i*5+1] = y;
truth[i*5+2] = w;
truth[i*5+3] = h;
truth[i*5+4] = id;
}
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free(boxes);
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}
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#define NUMCHARS 37
void print_letters(float *pred, int n)
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{
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int i;
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for(i = 0; i < n; ++i){
int index = max_index(pred+i*NUMCHARS, NUMCHARS);
printf("%c", int_to_alphanum(index));
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}
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printf("\n");
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}
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void fill_truth_captcha(char *path, int n, float *truth)
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{
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char *begin = strrchr(path, '/');
++begin;
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int i;
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for(i = 0; i < strlen(begin) && i < n && begin[i] != '.'; ++i){
int index = alphanum_to_int(begin[i]);
if(index > 35) printf("Bad %c\n", begin[i]);
truth[i*NUMCHARS+index] = 1;
}
for(;i < n; ++i){
truth[i*NUMCHARS + NUMCHARS-1] = 1;
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}
}
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data load_data_captcha(char **paths, int n, int m, int k, int w, int h)
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{
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if(m) paths = get_random_paths(paths, n, m);
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data d = {0};
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d.shallow = 0;
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d.X = load_image_paths(paths, n, w, h);
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d.y = make_matrix(n, k*NUMCHARS);
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int i;
for(i = 0; i < n; ++i){
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fill_truth_captcha(paths[i], k, d.y.vals[i]);
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}
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if(m) free(paths);
return d;
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}
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data load_data_captcha_encode(char **paths, int n, int m, int w, int h)
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{
if(m) paths = get_random_paths(paths, n, m);
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data d = {0};
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d.shallow = 0;
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d.X = load_image_paths(paths, n, w, h);
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d.X.cols = 17100;
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d.y = d.X;
if(m) free(paths);
return d;
}
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void fill_truth(char *path, char **labels, int k, float *truth)
{
int i;
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memset(truth, 0, k*sizeof(float));
int count = 0;
for(i = 0; i < k; ++i){
if(strstr(path, labels[i])){
truth[i] = 1;
++count;
}
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}
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if(count != 1) printf("Too many or too few labels: %d, %s\n", count, path);
}
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void fill_hierarchy(float *truth, int k, tree *hierarchy)
{
int j;
for(j = 0; j < k; ++j){
if(truth[j]){
int parent = hierarchy->parent[j];
while(parent >= 0){
truth[parent] = 1;
parent = hierarchy->parent[parent];
}
}
}
int i;
int count = 0;
for(j = 0; j < hierarchy->groups; ++j){
//printf("%d\n", count);
int mask = 1;
for(i = 0; i < hierarchy->group_size[j]; ++i){
if(truth[count + i]){
mask = 0;
break;
}
}
if (mask) {
for(i = 0; i < hierarchy->group_size[j]; ++i){
truth[count + i] = SECRET_NUM;
}
}
count += hierarchy->group_size[j];
}
}
matrix load_labels_paths(char **paths, int n, char **labels, int k, tree *hierarchy)
{
matrix y = make_matrix(n, k);
int i;
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for(i = 0; i < n && labels; ++i){
fill_truth(paths[i], labels, k, y.vals[i]);
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if(hierarchy){
fill_hierarchy(y.vals[i], k, hierarchy);
}
}
return y;
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}
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matrix load_tags_paths(char **paths, int n, int k)
{
matrix y = make_matrix(n, k);
int i;
int count = 0;
for(i = 0; i < n; ++i){
char label[4096];
find_replace(paths[i], "imgs", "labels", label);
find_replace(label, "_iconl.jpeg", ".txt", label);
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FILE *file = fopen(label, "r");
if(!file){
find_replace(label, "labels", "labels2", label);
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file = fopen(label, "r");
if(!file) continue;
}
++count;
int tag;
while(fscanf(file, "%d", &tag) == 1){
if(tag < k){
y.vals[i][tag] = 1;
}
}
fclose(file);
}
printf("%d/%d\n", count, n);
return y;
}
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char **get_labels(char *filename)
{
list *plist = get_paths(filename);
char **labels = (char **)list_to_array(plist);
free_list(plist);
return labels;
}
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void free_data(data d)
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{
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if(!d.shallow){
free_matrix(d.X);
free_matrix(d.y);
}else{
free(d.X.vals);
free(d.y.vals);
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}
}
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data load_data_region(int n, char **paths, int m, int w, int h, int size, int classes, float jitter, float hue, float saturation, float exposure)
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{
char **random_paths = get_random_paths(paths, n, m);
int i;
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data d = {0};
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d.shallow = 0;
d.X.rows = n;
d.X.vals = calloc(d.X.rows, sizeof(float*));
d.X.cols = h*w*3;
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int k = size*size*(5+classes);
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d.y = make_matrix(n, k);
for(i = 0; i < n; ++i){
image orig = load_image_color(random_paths[i], 0, 0);
int oh = orig.h;
int ow = orig.w;
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int dw = (ow*jitter);
int dh = (oh*jitter);
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int pleft = rand_uniform(-dw, dw);
int pright = rand_uniform(-dw, dw);
int ptop = rand_uniform(-dh, dh);
int pbot = rand_uniform(-dh, dh);
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int swidth = ow - pleft - pright;
int sheight = oh - ptop - pbot;
float sx = (float)swidth / ow;
float sy = (float)sheight / oh;
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int flip = rand()%2;
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image cropped = crop_image(orig, pleft, ptop, swidth, sheight);
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float dx = ((float)pleft/ow)/sx;
float dy = ((float)ptop /oh)/sy;
image sized = resize_image(cropped, w, h);
if(flip) flip_image(sized);
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random_distort_image(sized, hue, saturation, exposure);
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d.X.vals[i] = sized.data;
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fill_truth_region(random_paths[i], d.y.vals[i], classes, size, flip, dx, dy, 1./sx, 1./sy);
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free_image(orig);
free_image(cropped);
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}
free(random_paths);
return d;
}
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data load_data_compare(int n, char **paths, int m, int classes, int w, int h)
{
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if(m) paths = get_random_paths(paths, 2*n, m);
int i,j;
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data d = {0};
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d.shallow = 0;
d.X.rows = n;
d.X.vals = calloc(d.X.rows, sizeof(float*));
d.X.cols = h*w*6;
int k = 2*(classes);
d.y = make_matrix(n, k);
for(i = 0; i < n; ++i){
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image im1 = load_image_color(paths[i*2], w, h);
image im2 = load_image_color(paths[i*2+1], w, h);
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d.X.vals[i] = calloc(d.X.cols, sizeof(float));
memcpy(d.X.vals[i], im1.data, h*w*3*sizeof(float));
memcpy(d.X.vals[i] + h*w*3, im2.data, h*w*3*sizeof(float));
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int id;
float iou;
char imlabel1[4096];
char imlabel2[4096];
find_replace(paths[i*2], "imgs", "labels", imlabel1);
find_replace(imlabel1, "jpg", "txt", imlabel1);
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FILE *fp1 = fopen(imlabel1, "r");
while(fscanf(fp1, "%d %f", &id, &iou) == 2){
if (d.y.vals[i][2*id] < iou) d.y.vals[i][2*id] = iou;
}
find_replace(paths[i*2+1], "imgs", "labels", imlabel2);
find_replace(imlabel2, "jpg", "txt", imlabel2);
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FILE *fp2 = fopen(imlabel2, "r");
while(fscanf(fp2, "%d %f", &id, &iou) == 2){
if (d.y.vals[i][2*id + 1] < iou) d.y.vals[i][2*id + 1] = iou;
}
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for (j = 0; j < classes; ++j){
if (d.y.vals[i][2*j] > .5 && d.y.vals[i][2*j+1] < .5){
d.y.vals[i][2*j] = 1;
d.y.vals[i][2*j+1] = 0;
} else if (d.y.vals[i][2*j] < .5 && d.y.vals[i][2*j+1] > .5){
d.y.vals[i][2*j] = 0;
d.y.vals[i][2*j+1] = 1;
} else {
d.y.vals[i][2*j] = SECRET_NUM;
d.y.vals[i][2*j+1] = SECRET_NUM;
}
}
fclose(fp1);
fclose(fp2);
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free_image(im1);
free_image(im2);
}
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if(m) free(paths);
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return d;
}
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data load_data_swag(char **paths, int n, int classes, float jitter)
{
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int index = rand()%n;
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char *random_path = paths[index];
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image orig = load_image_color(random_path, 0, 0);
int h = orig.h;
int w = orig.w;
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data d = {0};
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d.shallow = 0;
d.w = w;
d.h = h;
d.X.rows = 1;
d.X.vals = calloc(d.X.rows, sizeof(float*));
d.X.cols = h*w*3;
int k = (4+classes)*30;
d.y = make_matrix(1, k);
int dw = w*jitter;
int dh = h*jitter;
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int pleft = rand_uniform(-dw, dw);
int pright = rand_uniform(-dw, dw);
int ptop = rand_uniform(-dh, dh);
int pbot = rand_uniform(-dh, dh);
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int swidth = w - pleft - pright;
int sheight = h - ptop - pbot;
float sx = (float)swidth / w;
float sy = (float)sheight / h;
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int flip = rand()%2;
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image cropped = crop_image(orig, pleft, ptop, swidth, sheight);
float dx = ((float)pleft/w)/sx;
float dy = ((float)ptop /h)/sy;
image sized = resize_image(cropped, w, h);
if(flip) flip_image(sized);
d.X.vals[0] = sized.data;
fill_truth_swag(random_path, d.y.vals[0], classes, flip, dx, dy, 1./sx, 1./sy);
free_image(orig);
free_image(cropped);
return d;
}
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data load_data_detection(int n, char **paths, int m, int w, int h, int boxes, int classes, float jitter, float hue, float saturation, float exposure)
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{
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char **random_paths = get_random_paths(paths, n, m);
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int i;
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data d = {0};
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d.shallow = 0;
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d.X.rows = n;
d.X.vals = calloc(d.X.rows, sizeof(float*));
d.X.cols = h*w*3;
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d.y = make_matrix(n, 5*boxes);
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for(i = 0; i < n; ++i){
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image orig = load_image_color(random_paths[i], 0, 0);
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int oh = orig.h;
int ow = orig.w;
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int dw = (ow*jitter);
int dh = (oh*jitter);
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int pleft = rand_uniform(-dw, dw);
int pright = rand_uniform(-dw, dw);
int ptop = rand_uniform(-dh, dh);
int pbot = rand_uniform(-dh, dh);
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int swidth = ow - pleft - pright;
int sheight = oh - ptop - pbot;
float sx = (float)swidth / ow;
float sy = (float)sheight / oh;
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int flip = rand()%2;
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image cropped = crop_image(orig, pleft, ptop, swidth, sheight);
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float dx = ((float)pleft/ow)/sx;
float dy = ((float)ptop /oh)/sy;
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image sized = resize_image(cropped, w, h);
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if(flip) flip_image(sized);
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random_distort_image(sized, hue, saturation, exposure);
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d.X.vals[i] = sized.data;
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fill_truth_detection(random_paths[i], boxes, d.y.vals[i], classes, flip, dx, dy, 1./sx, 1./sy);
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free_image(orig);
free_image(cropped);
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}
free(random_paths);
return d;
}
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void *load_thread(void *ptr)
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{
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//printf("Loading data: %d\n", rand());
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load_args a = *(struct load_args*)ptr;
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if(a.exposure == 0) a.exposure = 1;
if(a.saturation == 0) a.saturation = 1;
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if(a.aspect == 0) a.aspect = 1;
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if (a.type == OLD_CLASSIFICATION_DATA){
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*a.d = load_data_old(a.paths, a.n, a.m, a.labels, a.classes, a.w, a.h);
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} else if (a.type == CLASSIFICATION_DATA){
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*a.d = load_data_augment(a.paths, a.n, a.m, a.labels, a.classes, a.hierarchy, a.min, a.max, a.size, a.angle, a.aspect, a.hue, a.saturation, a.exposure);
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} else if (a.type == SUPER_DATA){
*a.d = load_data_super(a.paths, a.n, a.m, a.w, a.h, a.scale);
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} else if (a.type == WRITING_DATA){
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*a.d = load_data_writing(a.paths, a.n, a.m, a.w, a.h, a.out_w, a.out_h);
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} else if (a.type == REGION_DATA){
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*a.d = load_data_region(a.n, a.paths, a.m, a.w, a.h, a.num_boxes, a.classes, a.jitter, a.hue, a.saturation, a.exposure);
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} else if (a.type == DETECTION_DATA){
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*a.d = load_data_detection(a.n, a.paths, a.m, a.w, a.h, a.num_boxes, a.classes, a.jitter, a.hue, a.saturation, a.exposure);
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} else if (a.type == SWAG_DATA){
*a.d = load_data_swag(a.paths, a.n, a.classes, a.jitter);
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} else if (a.type == COMPARE_DATA){
*a.d = load_data_compare(a.n, a.paths, a.m, a.classes, a.w, a.h);
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} else if (a.type == IMAGE_DATA){
*(a.im) = load_image_color(a.path, 0, 0);
*(a.resized) = resize_image(*(a.im), a.w, a.h);
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} else if (a.type == TAG_DATA){
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*a.d = load_data_tag(a.paths, a.n, a.m, a.classes, a.min, a.max, a.size, a.angle, a.aspect, a.hue, a.saturation, a.exposure);
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}
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free(ptr);
return 0;
}
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pthread_t load_data_in_thread(load_args args)
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{
pthread_t thread;
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struct load_args *ptr = calloc(1, sizeof(struct load_args));
*ptr = args;
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if(pthread_create(&thread, 0, load_thread, ptr)) error("Thread creation failed");
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return thread;
}
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void *load_threads(void *ptr)
{
int i;
load_args args = *(load_args *)ptr;
if (args.threads == 0) args.threads = 1;
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data *out = args.d;
int total = args.n;
free(ptr);
data *buffers = calloc(args.threads, sizeof(data));
pthread_t *threads = calloc(args.threads, sizeof(pthread_t));
for(i = 0; i < args.threads; ++i){
args.d = buffers + i;
args.n = (i+1) * total/args.threads - i * total/args.threads;
threads[i] = load_data_in_thread(args);
}
for(i = 0; i < args.threads; ++i){
pthread_join(threads[i], 0);
}
*out = concat_datas(buffers, args.threads);
out->shallow = 0;
for(i = 0; i < args.threads; ++i){
buffers[i].shallow = 1;
free_data(buffers[i]);
}
free(buffers);
free(threads);
return 0;
}
pthread_t load_data(load_args args)
{
pthread_t thread;
struct load_args *ptr = calloc(1, sizeof(struct load_args));
*ptr = args;
if(pthread_create(&thread, 0, load_threads, ptr)) error("Thread creation failed");
return thread;
}
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data load_data_writing(char **paths, int n, int m, int w, int h, int out_w, int out_h)
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{
if(m) paths = get_random_paths(paths, n, m);
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char **replace_paths = find_replace_paths(paths, n, ".png", "-label.png");
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data d = {0};
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d.shallow = 0;
d.X = load_image_paths(paths, n, w, h);
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d.y = load_image_paths_gray(replace_paths, n, out_w, out_h);
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if(m) free(paths);
int i;
for(i = 0; i < n; ++i) free(replace_paths[i]);
free(replace_paths);
return d;
}
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data load_data_old(char **paths, int n, int m, char **labels, int k, int w, int h)
2014-12-13 23:01:21 +03:00
{
if(m) paths = get_random_paths(paths, n, m);
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data d = {0};
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d.shallow = 0;
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d.X = load_image_paths(paths, n, w, h);
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d.y = load_labels_paths(paths, n, labels, k, 0);
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if(m) free(paths);
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return d;
}
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/*
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data load_data_study(char **paths, int n, int m, char **labels, int k, int min, int max, int size, float angle, float aspect, float hue, float saturation, float exposure)
{
data d = {0};
d.indexes = calloc(n, sizeof(int));
if(m) paths = get_random_paths_indexes(paths, n, m, d.indexes);
d.shallow = 0;
d.X = load_image_augment_paths(paths, n, min, max, size, angle, aspect, hue, saturation, exposure);
d.y = load_labels_paths(paths, n, labels, k);
if(m) free(paths);
return d;
}
*/
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data load_data_super(char **paths, int n, int m, int w, int h, int scale)
{
if(m) paths = get_random_paths(paths, n, m);
data d = {0};
d.shallow = 0;
int i;
d.X.rows = n;
d.X.vals = calloc(n, sizeof(float*));
d.X.cols = w*h*3;
d.y.rows = n;
d.y.vals = calloc(n, sizeof(float*));
d.y.cols = w*scale * h*scale * 3;
for(i = 0; i < n; ++i){
image im = load_image_color(paths[i], 0, 0);
image crop = random_crop_image(im, w*scale, h*scale);
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int flip = rand()%2;
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if (flip) flip_image(crop);
image resize = resize_image(crop, w, h);
d.X.vals[i] = resize.data;
d.y.vals[i] = crop.data;
free_image(im);
}
if(m) free(paths);
return d;
}
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data load_data_augment(char **paths, int n, int m, char **labels, int k, tree *hierarchy, int min, int max, int size, float angle, float aspect, float hue, float saturation, float exposure)
2016-03-01 00:54:12 +03:00
{
if(m) paths = get_random_paths(paths, n, m);
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data d = {0};
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d.shallow = 0;
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d.X = load_image_augment_paths(paths, n, min, max, size, angle, aspect, hue, saturation, exposure);
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d.y = load_labels_paths(paths, n, labels, k, hierarchy);
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if(m) free(paths);
return d;
}
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data load_data_tag(char **paths, int n, int m, int k, int min, int max, int size, float angle, float aspect, float hue, float saturation, float exposure)
2016-03-01 00:54:12 +03:00
{
if(m) paths = get_random_paths(paths, n, m);
data d = {0};
d.w = size;
d.h = size;
d.shallow = 0;
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d.X = load_image_augment_paths(paths, n, min, max, size, angle, aspect, hue, saturation, exposure);
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d.y = load_tags_paths(paths, n, k);
if(m) free(paths);
return d;
}
matrix concat_matrix(matrix m1, matrix m2)
{
int i, count = 0;
matrix m;
m.cols = m1.cols;
m.rows = m1.rows+m2.rows;
m.vals = calloc(m1.rows + m2.rows, sizeof(float*));
for(i = 0; i < m1.rows; ++i){
m.vals[count++] = m1.vals[i];
}
for(i = 0; i < m2.rows; ++i){
m.vals[count++] = m2.vals[i];
}
return m;
}
data concat_data(data d1, data d2)
{
2016-05-07 02:25:16 +03:00
data d = {0};
d.shallow = 1;
d.X = concat_matrix(d1.X, d2.X);
d.y = concat_matrix(d1.y, d2.y);
return d;
}
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data concat_datas(data *d, int n)
{
int i;
data out = {0};
for(i = 0; i < n; ++i){
data new = concat_data(d[i], out);
free_data(out);
out = new;
}
return out;
}
2013-12-07 01:26:09 +04:00
data load_categorical_data_csv(char *filename, int target, int k)
{
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data d = {0};
2013-12-07 01:26:09 +04:00
d.shallow = 0;
matrix X = csv_to_matrix(filename);
float *truth_1d = pop_column(&X, target);
float **truth = one_hot_encode(truth_1d, X.rows, k);
2013-12-07 01:26:09 +04:00
matrix y;
y.rows = X.rows;
y.cols = k;
y.vals = truth;
d.X = X;
d.y = y;
free(truth_1d);
return d;
2013-11-13 22:50:38 +04:00
}
2013-12-07 01:26:09 +04:00
2014-03-13 08:57:34 +04:00
data load_cifar10_data(char *filename)
{
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data d = {0};
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d.shallow = 0;
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long i,j;
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matrix X = make_matrix(10000, 3072);
matrix y = make_matrix(10000, 10);
d.X = X;
d.y = y;
FILE *fp = fopen(filename, "rb");
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if(!fp) file_error(filename);
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for(i = 0; i < 10000; ++i){
unsigned char bytes[3073];
fread(bytes, 1, 3073, fp);
int class = bytes[0];
y.vals[i][class] = 1;
for(j = 0; j < X.cols; ++j){
X.vals[i][j] = (double)bytes[j+1];
}
}
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//translate_data_rows(d, -128);
scale_data_rows(d, 1./255);
2015-02-11 06:41:03 +03:00
//normalize_data_rows(d);
2014-03-13 08:57:34 +04:00
fclose(fp);
return d;
}
void get_random_batch(data d, int n, float *X, float *y)
2014-08-28 06:11:46 +04:00
{
int j;
for(j = 0; j < n; ++j){
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int index = rand()%d.X.rows;
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memcpy(X+j*d.X.cols, d.X.vals[index], d.X.cols*sizeof(float));
memcpy(y+j*d.y.cols, d.y.vals[index], d.y.cols*sizeof(float));
}
}
void get_next_batch(data d, int n, int offset, float *X, float *y)
{
int j;
for(j = 0; j < n; ++j){
int index = offset + j;
memcpy(X+j*d.X.cols, d.X.vals[index], d.X.cols*sizeof(float));
memcpy(y+j*d.y.cols, d.y.vals[index], d.y.cols*sizeof(float));
}
}
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void smooth_data(data d)
{
int i, j;
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float scale = 1. / d.y.cols;
float eps = .1;
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for(i = 0; i < d.y.rows; ++i){
for(j = 0; j < d.y.cols; ++j){
d.y.vals[i][j] = eps * scale + (1-eps) * d.y.vals[i][j];
}
}
}
2014-08-08 23:04:15 +04:00
data load_all_cifar10()
{
2016-05-07 02:25:16 +03:00
data d = {0};
2014-08-08 23:04:15 +04:00
d.shallow = 0;
int i,j,b;
matrix X = make_matrix(50000, 3072);
matrix y = make_matrix(50000, 10);
d.X = X;
d.y = y;
2014-08-28 06:11:46 +04:00
2014-08-08 23:04:15 +04:00
for(b = 0; b < 5; ++b){
char buff[256];
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sprintf(buff, "data/cifar/cifar-10-batches-bin/data_batch_%d.bin", b+1);
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FILE *fp = fopen(buff, "rb");
if(!fp) file_error(buff);
for(i = 0; i < 10000; ++i){
unsigned char bytes[3073];
fread(bytes, 1, 3073, fp);
int class = bytes[0];
y.vals[i+b*10000][class] = 1;
for(j = 0; j < X.cols; ++j){
X.vals[i+b*10000][j] = (double)bytes[j+1];
}
}
fclose(fp);
}
//normalize_data_rows(d);
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//translate_data_rows(d, -128);
scale_data_rows(d, 1./255);
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smooth_data(d);
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return d;
}
data load_go(char *filename)
{
FILE *fp = fopen(filename, "rb");
2016-03-15 01:08:56 +03:00
matrix X = make_matrix(3363059, 361);
matrix y = make_matrix(3363059, 361);
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int row, col;
if(!fp) file_error(filename);
char *label;
int count = 0;
while((label = fgetl(fp))){
int i;
if(count == X.rows){
X = resize_matrix(X, count*2);
y = resize_matrix(y, count*2);
}
sscanf(label, "%d %d", &row, &col);
char *board = fgetl(fp);
int index = row*19 + col;
y.vals[count][index] = 1;
for(i = 0; i < 19*19; ++i){
float val = 0;
if(board[i] == '1') val = 1;
else if(board[i] == '2') val = -1;
X.vals[count][i] = val;
}
++count;
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free(label);
free(board);
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}
X = resize_matrix(X, count);
y = resize_matrix(y, count);
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data d = {0};
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d.shallow = 0;
d.X = X;
d.y = y;
fclose(fp);
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return d;
}
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void randomize_data(data d)
{
int i;
for(i = d.X.rows-1; i > 0; --i){
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int index = rand()%i;
float *swap = d.X.vals[index];
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d.X.vals[index] = d.X.vals[i];
d.X.vals[i] = swap;
swap = d.y.vals[index];
d.y.vals[index] = d.y.vals[i];
d.y.vals[i] = swap;
}
}
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void scale_data_rows(data d, float s)
{
int i;
for(i = 0; i < d.X.rows; ++i){
scale_array(d.X.vals[i], d.X.cols, s);
}
}
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void translate_data_rows(data d, float s)
{
int i;
for(i = 0; i < d.X.rows; ++i){
translate_array(d.X.vals[i], d.X.cols, s);
}
}
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void normalize_data_rows(data d)
{
int i;
for(i = 0; i < d.X.rows; ++i){
normalize_array(d.X.vals[i], d.X.cols);
}
}
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data get_data_part(data d, int part, int total)
{
data p = {0};
p.shallow = 1;
p.X.rows = d.X.rows * (part + 1) / total - d.X.rows * part / total;
p.y.rows = d.y.rows * (part + 1) / total - d.y.rows * part / total;
p.X.cols = d.X.cols;
p.y.cols = d.y.cols;
p.X.vals = d.X.vals + d.X.rows * part / total;
p.y.vals = d.y.vals + d.y.rows * part / total;
return p;
}
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data get_random_data(data d, int num)
{
data r = {0};
r.shallow = 1;
r.X.rows = num;
r.y.rows = num;
r.X.cols = d.X.cols;
r.y.cols = d.y.cols;
r.X.vals = calloc(num, sizeof(float *));
r.y.vals = calloc(num, sizeof(float *));
int i;
for(i = 0; i < num; ++i){
int index = rand()%d.X.rows;
r.X.vals[i] = d.X.vals[index];
r.y.vals[i] = d.y.vals[index];
}
return r;
}
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data *split_data(data d, int part, int total)
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{
data *split = calloc(2, sizeof(data));
int i;
int start = part*d.X.rows/total;
int end = (part+1)*d.X.rows/total;
data train;
data test;
train.shallow = test.shallow = 1;
test.X.rows = test.y.rows = end-start;
train.X.rows = train.y.rows = d.X.rows - (end-start);
train.X.cols = test.X.cols = d.X.cols;
train.y.cols = test.y.cols = d.y.cols;
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train.X.vals = calloc(train.X.rows, sizeof(float*));
test.X.vals = calloc(test.X.rows, sizeof(float*));
train.y.vals = calloc(train.y.rows, sizeof(float*));
test.y.vals = calloc(test.y.rows, sizeof(float*));
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for(i = 0; i < start; ++i){
train.X.vals[i] = d.X.vals[i];
train.y.vals[i] = d.y.vals[i];
}
for(i = start; i < end; ++i){
test.X.vals[i-start] = d.X.vals[i];
test.y.vals[i-start] = d.y.vals[i];
}
for(i = end; i < d.X.rows; ++i){
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train.X.vals[i-(end-start)] = d.X.vals[i];
train.y.vals[i-(end-start)] = d.y.vals[i];
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}
split[0] = train;
split[1] = test;
return split;
}