darknet/examples/darknet.c

507 lines
18 KiB
C
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#include "darknet.h"
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#include <time.h>
#include <stdlib.h>
#include <stdio.h>
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extern void predict_classifier(char *datacfg, char *cfgfile, char *weightfile, char *filename, int top);
extern void test_detector(char *datacfg, char *cfgfile, char *weightfile, char *filename, float thresh, float hier_thresh, char *outfile, int fullscreen);
extern void run_yolo(int argc, char **argv);
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extern void run_detector(int argc, char **argv);
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extern void run_coco(int argc, char **argv);
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extern void run_captcha(int argc, char **argv);
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extern void run_nightmare(int argc, char **argv);
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extern void run_classifier(int argc, char **argv);
extern void run_regressor(int argc, char **argv);
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extern void run_segmenter(int argc, char **argv);
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extern void run_char_rnn(int argc, char **argv);
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extern void run_tag(int argc, char **argv);
extern void run_cifar(int argc, char **argv);
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extern void run_go(int argc, char **argv);
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extern void run_art(int argc, char **argv);
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extern void run_super(int argc, char **argv);
extern void run_lsd(int argc, char **argv);
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void average(int argc, char *argv[])
{
char *cfgfile = argv[2];
char *outfile = argv[3];
gpu_index = -1;
network *net = parse_network_cfg(cfgfile);
network *sum = parse_network_cfg(cfgfile);
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char *weightfile = argv[4];
load_weights(sum, weightfile);
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int i, j;
int n = argc - 5;
for(i = 0; i < n; ++i){
weightfile = argv[i+5];
load_weights(net, weightfile);
for(j = 0; j < net->n; ++j){
layer l = net->layers[j];
layer out = sum->layers[j];
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if(l.type == CONVOLUTIONAL){
int num = l.n*l.c*l.size*l.size;
axpy_cpu(l.n, 1, l.biases, 1, out.biases, 1);
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axpy_cpu(num, 1, l.weights, 1, out.weights, 1);
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if(l.batch_normalize){
axpy_cpu(l.n, 1, l.scales, 1, out.scales, 1);
axpy_cpu(l.n, 1, l.rolling_mean, 1, out.rolling_mean, 1);
axpy_cpu(l.n, 1, l.rolling_variance, 1, out.rolling_variance, 1);
}
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}
if(l.type == CONNECTED){
axpy_cpu(l.outputs, 1, l.biases, 1, out.biases, 1);
axpy_cpu(l.outputs*l.inputs, 1, l.weights, 1, out.weights, 1);
}
}
}
n = n+1;
for(j = 0; j < net->n; ++j){
layer l = sum->layers[j];
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if(l.type == CONVOLUTIONAL){
int num = l.n*l.c*l.size*l.size;
scal_cpu(l.n, 1./n, l.biases, 1);
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scal_cpu(num, 1./n, l.weights, 1);
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if(l.batch_normalize){
scal_cpu(l.n, 1./n, l.scales, 1);
scal_cpu(l.n, 1./n, l.rolling_mean, 1);
scal_cpu(l.n, 1./n, l.rolling_variance, 1);
}
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}
if(l.type == CONNECTED){
scal_cpu(l.outputs, 1./n, l.biases, 1);
scal_cpu(l.outputs*l.inputs, 1./n, l.weights, 1);
}
}
save_weights(sum, outfile);
}
long numops(network *net)
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{
int i;
long ops = 0;
for(i = 0; i < net->n; ++i){
layer l = net->layers[i];
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if(l.type == CONVOLUTIONAL){
ops += 2l * l.n * l.size*l.size*l.c/l.groups * l.out_h*l.out_w;
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} else if(l.type == CONNECTED){
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ops += 2l * l.inputs * l.outputs;
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} else if (l.type == RNN){
ops += 2l * l.input_layer->inputs * l.input_layer->outputs;
ops += 2l * l.self_layer->inputs * l.self_layer->outputs;
ops += 2l * l.output_layer->inputs * l.output_layer->outputs;
} else if (l.type == GRU){
ops += 2l * l.uz->inputs * l.uz->outputs;
ops += 2l * l.uh->inputs * l.uh->outputs;
ops += 2l * l.ur->inputs * l.ur->outputs;
ops += 2l * l.wz->inputs * l.wz->outputs;
ops += 2l * l.wh->inputs * l.wh->outputs;
ops += 2l * l.wr->inputs * l.wr->outputs;
} else if (l.type == LSTM){
ops += 2l * l.uf->inputs * l.uf->outputs;
ops += 2l * l.ui->inputs * l.ui->outputs;
ops += 2l * l.ug->inputs * l.ug->outputs;
ops += 2l * l.uo->inputs * l.uo->outputs;
ops += 2l * l.wf->inputs * l.wf->outputs;
ops += 2l * l.wi->inputs * l.wi->outputs;
ops += 2l * l.wg->inputs * l.wg->outputs;
ops += 2l * l.wo->inputs * l.wo->outputs;
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}
}
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return ops;
}
void speed(char *cfgfile, int tics)
{
if (tics == 0) tics = 1000;
network *net = parse_network_cfg(cfgfile);
set_batch_network(net, 1);
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int i;
double time=what_time_is_it_now();
image im = make_image(net->w, net->h, net->c*net->batch);
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for(i = 0; i < tics; ++i){
network_predict(net, im.data);
}
double t = what_time_is_it_now() - time;
long ops = numops(net);
printf("\n%d evals, %f Seconds\n", tics, t);
printf("Floating Point Operations: %.2f Bn\n", (float)ops/1000000000.);
printf("FLOPS: %.2f Bn\n", (float)ops/1000000000.*tics/t);
printf("Speed: %f sec/eval\n", t/tics);
printf("Speed: %f Hz\n", tics/t);
}
void operations(char *cfgfile)
{
gpu_index = -1;
network *net = parse_network_cfg(cfgfile);
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long ops = numops(net);
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printf("Floating Point Operations: %ld\n", ops);
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printf("Floating Point Operations: %.2f Bn\n", (float)ops/1000000000.);
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}
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void oneoff(char *cfgfile, char *weightfile, char *outfile)
{
gpu_index = -1;
network *net = parse_network_cfg(cfgfile);
int oldn = net->layers[net->n - 2].n;
int c = net->layers[net->n - 2].c;
scal_cpu(oldn*c, .1, net->layers[net->n - 2].weights, 1);
scal_cpu(oldn, 0, net->layers[net->n - 2].biases, 1);
net->layers[net->n - 2].n = 11921;
net->layers[net->n - 2].biases += 5;
net->layers[net->n - 2].weights += 5*c;
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if(weightfile){
load_weights(net, weightfile);
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}
net->layers[net->n - 2].biases -= 5;
net->layers[net->n - 2].weights -= 5*c;
net->layers[net->n - 2].n = oldn;
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printf("%d\n", oldn);
layer l = net->layers[net->n - 2];
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copy_cpu(l.n/3, l.biases, 1, l.biases + l.n/3, 1);
copy_cpu(l.n/3, l.biases, 1, l.biases + 2*l.n/3, 1);
copy_cpu(l.n/3*l.c, l.weights, 1, l.weights + l.n/3*l.c, 1);
copy_cpu(l.n/3*l.c, l.weights, 1, l.weights + 2*l.n/3*l.c, 1);
*net->seen = 0;
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save_weights(net, outfile);
}
void oneoff2(char *cfgfile, char *weightfile, char *outfile, int l)
{
gpu_index = -1;
network *net = parse_network_cfg(cfgfile);
if(weightfile){
load_weights_upto(net, weightfile, 0, net->n);
load_weights_upto(net, weightfile, l, net->n);
}
*net->seen = 0;
save_weights_upto(net, outfile, net->n);
}
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void partial(char *cfgfile, char *weightfile, char *outfile, int max)
{
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gpu_index = -1;
network *net = load_network(cfgfile, weightfile, 1);
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save_weights_upto(net, outfile, max);
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}
void print_weights(char *cfgfile, char *weightfile, int n)
{
gpu_index = -1;
network *net = load_network(cfgfile, weightfile, 1);
layer l = net->layers[n];
int i, j;
//printf("[");
for(i = 0; i < l.n; ++i){
//printf("[");
for(j = 0; j < l.size*l.size*l.c; ++j){
//if(j > 0) printf(",");
printf("%g ", l.weights[i*l.size*l.size*l.c + j]);
}
printf("\n");
//printf("]%s\n", (i == l.n-1)?"":",");
}
//printf("]");
}
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void rescale_net(char *cfgfile, char *weightfile, char *outfile)
{
gpu_index = -1;
network *net = load_network(cfgfile, weightfile, 0);
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int i;
for(i = 0; i < net->n; ++i){
layer l = net->layers[i];
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if(l.type == CONVOLUTIONAL){
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rescale_weights(l, 2, -.5);
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break;
}
}
save_weights(net, outfile);
}
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void rgbgr_net(char *cfgfile, char *weightfile, char *outfile)
{
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gpu_index = -1;
network *net = load_network(cfgfile, weightfile, 0);
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int i;
for(i = 0; i < net->n; ++i){
layer l = net->layers[i];
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if(l.type == CONVOLUTIONAL){
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rgbgr_weights(l);
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break;
}
}
save_weights(net, outfile);
}
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void reset_normalize_net(char *cfgfile, char *weightfile, char *outfile)
{
gpu_index = -1;
network *net = load_network(cfgfile, weightfile, 0);
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int i;
for (i = 0; i < net->n; ++i) {
layer l = net->layers[i];
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if (l.type == CONVOLUTIONAL && l.batch_normalize) {
denormalize_convolutional_layer(l);
}
if (l.type == CONNECTED && l.batch_normalize) {
denormalize_connected_layer(l);
}
if (l.type == GRU && l.batch_normalize) {
denormalize_connected_layer(*l.input_z_layer);
denormalize_connected_layer(*l.input_r_layer);
denormalize_connected_layer(*l.input_h_layer);
denormalize_connected_layer(*l.state_z_layer);
denormalize_connected_layer(*l.state_r_layer);
denormalize_connected_layer(*l.state_h_layer);
}
}
save_weights(net, outfile);
}
layer normalize_layer(layer l, int n)
{
int j;
l.batch_normalize=1;
l.scales = calloc(n, sizeof(float));
for(j = 0; j < n; ++j){
l.scales[j] = 1;
}
l.rolling_mean = calloc(n, sizeof(float));
l.rolling_variance = calloc(n, sizeof(float));
return l;
}
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void normalize_net(char *cfgfile, char *weightfile, char *outfile)
{
gpu_index = -1;
network *net = load_network(cfgfile, weightfile, 0);
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int i;
for(i = 0; i < net->n; ++i){
layer l = net->layers[i];
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if(l.type == CONVOLUTIONAL && !l.batch_normalize){
net->layers[i] = normalize_layer(l, l.n);
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}
if (l.type == CONNECTED && !l.batch_normalize) {
net->layers[i] = normalize_layer(l, l.outputs);
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}
if (l.type == GRU && l.batch_normalize) {
*l.input_z_layer = normalize_layer(*l.input_z_layer, l.input_z_layer->outputs);
*l.input_r_layer = normalize_layer(*l.input_r_layer, l.input_r_layer->outputs);
*l.input_h_layer = normalize_layer(*l.input_h_layer, l.input_h_layer->outputs);
*l.state_z_layer = normalize_layer(*l.state_z_layer, l.state_z_layer->outputs);
*l.state_r_layer = normalize_layer(*l.state_r_layer, l.state_r_layer->outputs);
*l.state_h_layer = normalize_layer(*l.state_h_layer, l.state_h_layer->outputs);
net->layers[i].batch_normalize=1;
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}
}
save_weights(net, outfile);
}
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void statistics_net(char *cfgfile, char *weightfile)
{
gpu_index = -1;
network *net = load_network(cfgfile, weightfile, 0);
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int i;
for (i = 0; i < net->n; ++i) {
layer l = net->layers[i];
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if (l.type == CONNECTED && l.batch_normalize) {
printf("Connected Layer %d\n", i);
statistics_connected_layer(l);
}
if (l.type == GRU && l.batch_normalize) {
printf("GRU Layer %d\n", i);
printf("Input Z\n");
statistics_connected_layer(*l.input_z_layer);
printf("Input R\n");
statistics_connected_layer(*l.input_r_layer);
printf("Input H\n");
statistics_connected_layer(*l.input_h_layer);
printf("State Z\n");
statistics_connected_layer(*l.state_z_layer);
printf("State R\n");
statistics_connected_layer(*l.state_r_layer);
printf("State H\n");
statistics_connected_layer(*l.state_h_layer);
}
printf("\n");
}
}
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void denormalize_net(char *cfgfile, char *weightfile, char *outfile)
{
gpu_index = -1;
network *net = load_network(cfgfile, weightfile, 0);
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int i;
for (i = 0; i < net->n; ++i) {
layer l = net->layers[i];
if ((l.type == DECONVOLUTIONAL || l.type == CONVOLUTIONAL) && l.batch_normalize) {
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denormalize_convolutional_layer(l);
net->layers[i].batch_normalize=0;
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}
if (l.type == CONNECTED && l.batch_normalize) {
denormalize_connected_layer(l);
net->layers[i].batch_normalize=0;
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}
if (l.type == GRU && l.batch_normalize) {
denormalize_connected_layer(*l.input_z_layer);
denormalize_connected_layer(*l.input_r_layer);
denormalize_connected_layer(*l.input_h_layer);
denormalize_connected_layer(*l.state_z_layer);
denormalize_connected_layer(*l.state_r_layer);
denormalize_connected_layer(*l.state_h_layer);
l.input_z_layer->batch_normalize = 0;
l.input_r_layer->batch_normalize = 0;
l.input_h_layer->batch_normalize = 0;
l.state_z_layer->batch_normalize = 0;
l.state_r_layer->batch_normalize = 0;
l.state_h_layer->batch_normalize = 0;
net->layers[i].batch_normalize=0;
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}
}
save_weights(net, outfile);
}
void mkimg(char *cfgfile, char *weightfile, int h, int w, int num, char *prefix)
{
network *net = load_network(cfgfile, weightfile, 0);
image *ims = get_weights(net->layers[0]);
int n = net->layers[0].n;
int z;
for(z = 0; z < num; ++z){
image im = make_image(h, w, 3);
fill_image(im, .5);
int i;
for(i = 0; i < 100; ++i){
image r = copy_image(ims[rand()%n]);
rotate_image_cw(r, rand()%4);
random_distort_image(r, 1, 1.5, 1.5);
int dx = rand()%(w-r.w);
int dy = rand()%(h-r.h);
ghost_image(r, im, dx, dy);
free_image(r);
}
char buff[256];
sprintf(buff, "%s/gen_%d", prefix, z);
save_image(im, buff);
free_image(im);
}
}
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void visualize(char *cfgfile, char *weightfile)
{
network *net = load_network(cfgfile, weightfile, 0);
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visualize_network(net);
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#ifdef OPENCV
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cvWaitKey(0);
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#endif
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}
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int main(int argc, char **argv)
{
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//test_resize("data/bad.jpg");
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//test_box();
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//test_convolutional_layer();
if(argc < 2){
fprintf(stderr, "usage: %s <function>\n", argv[0]);
return 0;
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}
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gpu_index = find_int_arg(argc, argv, "-i", 0);
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if(find_arg(argc, argv, "-nogpu")) {
gpu_index = -1;
}
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#ifndef GPU
gpu_index = -1;
#else
if(gpu_index >= 0){
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cuda_set_device(gpu_index);
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}
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#endif
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if (0 == strcmp(argv[1], "average")){
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average(argc, argv);
} else if (0 == strcmp(argv[1], "yolo")){
run_yolo(argc, argv);
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} else if (0 == strcmp(argv[1], "super")){
run_super(argc, argv);
} else if (0 == strcmp(argv[1], "lsd")){
run_lsd(argc, argv);
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} else if (0 == strcmp(argv[1], "detector")){
run_detector(argc, argv);
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} else if (0 == strcmp(argv[1], "detect")){
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float thresh = find_float_arg(argc, argv, "-thresh", .24);
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char *filename = (argc > 4) ? argv[4]: 0;
char *outfile = find_char_arg(argc, argv, "-out", 0);
int fullscreen = find_arg(argc, argv, "-fullscreen");
test_detector("cfg/coco.data", argv[2], argv[3], filename, thresh, .5, outfile, fullscreen);
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} else if (0 == strcmp(argv[1], "cifar")){
run_cifar(argc, argv);
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} else if (0 == strcmp(argv[1], "go")){
run_go(argc, argv);
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} else if (0 == strcmp(argv[1], "rnn")){
run_char_rnn(argc, argv);
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} else if (0 == strcmp(argv[1], "coco")){
run_coco(argc, argv);
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} else if (0 == strcmp(argv[1], "classify")){
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predict_classifier("cfg/imagenet1k.data", argv[2], argv[3], argv[4], 5);
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} else if (0 == strcmp(argv[1], "classifier")){
run_classifier(argc, argv);
} else if (0 == strcmp(argv[1], "regressor")){
run_regressor(argc, argv);
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} else if (0 == strcmp(argv[1], "segmenter")){
run_segmenter(argc, argv);
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} else if (0 == strcmp(argv[1], "art")){
run_art(argc, argv);
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} else if (0 == strcmp(argv[1], "tag")){
run_tag(argc, argv);
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} else if (0 == strcmp(argv[1], "3d")){
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composite_3d(argv[2], argv[3], argv[4], (argc > 5) ? atof(argv[5]) : 0);
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} else if (0 == strcmp(argv[1], "test")){
test_resize(argv[2]);
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} else if (0 == strcmp(argv[1], "captcha")){
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run_captcha(argc, argv);
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} else if (0 == strcmp(argv[1], "nightmare")){
run_nightmare(argc, argv);
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} else if (0 == strcmp(argv[1], "rgbgr")){
rgbgr_net(argv[2], argv[3], argv[4]);
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} else if (0 == strcmp(argv[1], "reset")){
reset_normalize_net(argv[2], argv[3], argv[4]);
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} else if (0 == strcmp(argv[1], "denormalize")){
denormalize_net(argv[2], argv[3], argv[4]);
2016-09-08 08:27:56 +03:00
} else if (0 == strcmp(argv[1], "statistics")){
statistics_net(argv[2], argv[3]);
2015-11-04 06:23:17 +03:00
} else if (0 == strcmp(argv[1], "normalize")){
normalize_net(argv[2], argv[3], argv[4]);
2015-07-31 02:19:14 +03:00
} else if (0 == strcmp(argv[1], "rescale")){
rescale_net(argv[2], argv[3], argv[4]);
2016-06-20 00:28:15 +03:00
} else if (0 == strcmp(argv[1], "ops")){
operations(argv[2]);
2016-08-06 01:27:07 +03:00
} else if (0 == strcmp(argv[1], "speed")){
2016-11-11 19:48:40 +03:00
speed(argv[2], (argc > 3 && argv[3]) ? atoi(argv[3]) : 0);
} else if (0 == strcmp(argv[1], "oneoff")){
oneoff(argv[2], argv[3], argv[4]);
} else if (0 == strcmp(argv[1], "oneoff2")){
oneoff2(argv[2], argv[3], argv[4], atoi(argv[5]));
} else if (0 == strcmp(argv[1], "print")){
print_weights(argv[2], argv[3], atoi(argv[4]));
2015-03-08 21:25:28 +03:00
} else if (0 == strcmp(argv[1], "partial")){
partial(argv[2], argv[3], argv[4], atoi(argv[5]));
2016-06-20 00:28:15 +03:00
} else if (0 == strcmp(argv[1], "average")){
average(argc, argv);
2015-03-08 21:25:28 +03:00
} else if (0 == strcmp(argv[1], "visualize")){
visualize(argv[2], (argc > 3) ? argv[3] : 0);
} else if (0 == strcmp(argv[1], "mkimg")){
mkimg(argv[2], argv[3], atoi(argv[4]), atoi(argv[5]), atoi(argv[6]), argv[7]);
2015-06-11 00:44:10 +03:00
} else if (0 == strcmp(argv[1], "imtest")){
test_resize(argv[2]);
2015-03-08 21:25:28 +03:00
} else {
fprintf(stderr, "Not an option: %s\n", argv[1]);
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}
return 0;
}