~speedprog/mtg/mtg_card_detector.git

			@@ -11,7 +11,7 @@

			#define DOABS 1

			region_layer make_region_layer(int batch, int w, int h, int n, int classes, int coords)
			region_layer make_region_layer(int batch, int w, int h, int n, int classes, int coords, int max_boxes)
			{
			region_layer l = {0};
			l.type = REGION;
			@@ -27,7 +27,8 @@
			l.bias_updates = calloc(n*2, sizeof(float));
			l.outputs = hwn*(classes + coords + 1);
			l.inputs = l.outputs;
			l.truths = 30*(5);
			l.max_boxes = max_boxes;
			l.truths = max_boxes*(5);
			l.delta = calloc(batch*l.outputs, sizeof(float));
			l.output = calloc(batch*l.outputs, sizeof(float));
			int i;
			@@ -52,6 +53,8 @@

			void resize_region_layer(layer *l, int w, int h)
			{
			int old_w = l->w;
			int old_h = l->h;
			l->w = w;
			l->h = h;

			@@ -62,11 +65,13 @@
			l->delta = realloc(l->delta, l->batchl->outputssizeof(float));

			#ifdef GPU
			cuda_free(l->delta_gpu);
			cuda_free(l->output_gpu);
			if (old_w < w \|\| old_h < h) {
			cuda_free(l->delta_gpu);
			cuda_free(l->output_gpu);

			l->delta_gpu = cuda_make_array(l->delta, l->batch*l->outputs);
			l->output_gpu = cuda_make_array(l->output, l->batch*l->outputs);
			l->delta_gpu = cuda_make_array(l->delta, l->batch*l->outputs);
			l->output_gpu = cuda_make_array(l->output, l->batch*l->outputs);
			}
			#endif
			}

			@@ -105,27 +110,50 @@
			return iou;
			}

			void delta_region_class(float output, float delta, int index, int class, int classes, tree hier, float scale, float avg_cat)
			void delta_region_class(float output, float delta, int index, int class_id, int classes, tree hier, float scale, float avg_cat, int focal_loss)
			{
			int i, n;
			if(hier){
			float pred = 1;
			while(class >= 0){
			pred *= output[index + class];
			int g = hier->group[class];
			while(class_id >= 0){
			pred *= output[index + class_id];
			int g = hier->group[class_id];
			int offset = hier->group_offset[g];
			for(i = 0; i < hier->group_size[g]; ++i){
			delta[index + offset + i] = scale * (0 - output[index + offset + i]);
			}
			delta[index + class] = scale * (1 - output[index + class]);
			delta[index + class_id] = scale * (1 - output[index + class_id]);

			class = hier->parent[class];
			class_id = hier->parent[class_id];
			}
			*avg_cat += pred;
			} else {
			for(n = 0; n < classes; ++n){
			delta[index + n] = scale * (((n == class)?1 : 0) - output[index + n]);
			if(n == class) *avg_cat += output[index + n];
			// Focal loss
			if (focal_loss) {
			// Focal Loss
			float alpha = 0.5; // 0.25 or 0.5
			//float gamma = 2; // hardcoded in many places of the grad-formula

			int ti = index + class_id;
			float pt = output[ti] + 0.000000000000001F;
			// http://fooplot.com/#W3sidHlwZSI6MCwiZXEiOiItKDEteCkqKDIqeCpsb2coeCkreC0xKSIsImNvbG9yIjoiIzAwMDAwMCJ9LHsidHlwZSI6MTAwMH1d
			float grad = -(1 - pt) * (2 * pt*logf(pt) + pt - 1); // http://blog.csdn.net/linmingan/article/details/77885832
			//float grad = (1 - pt) * (2 * pt*logf(pt) + pt - 1); // https://github.com/unsky/focal-loss

			for (n = 0; n < classes; ++n) {
			delta[index + n] = scale * (((n == class_id) ? 1 : 0) - output[index + n]);

			delta[index + n] = alphagrad;

			if (n == class_id) *avg_cat += output[index + n];
			}
			}
			else {
			// default
			for (n = 0; n < classes; ++n) {
			delta[index + n] = scale * (((n == class_id) ? 1 : 0) - output[index + n]);
			if (n == class_id) *avg_cat += output[index + n];
			}
			}
			}
			}
			@@ -140,6 +168,13 @@
			return (x != x);
			}

			static int entry_index(layer l, int batch, int location, int entry)
			{
			int n = location / (l.w*l.h);
			int loc = location % (l.w*l.h);
			return batchl.outputs + nl.wl.h(l.coords + l.classes + 1) + entryl.wl.h + loc;
			}

			void softmax_tree(float input, int batch, int inputs, float temp, tree hierarchy, float *output);
			void forward_region_layer(const region_layer l, network_state state)
			{
			@@ -169,7 +204,7 @@
			for (b = 0; b < l.batch; ++b){
			for(i = 0; i < l.hl.wl.n; ++i){
			int index = sizei + bl.outputs;
			softmax(l.output + index + 5, l.classes, 1, l.output + index + 5);
			softmax(l.output + index + 5, l.classes, 1, l.output + index + 5, 1);
			}
			}
			}
			@@ -186,31 +221,31 @@
			*(l.cost) = 0;
			for (b = 0; b < l.batch; ++b) {
			if(l.softmax_tree){
			int onlyclass = 0;
			for(t = 0; t < 30; ++t){
			int onlyclass_id = 0;
			for(t = 0; t < l.max_boxes; ++t){
			box truth = float_to_box(state.truth + t5 + bl.truths);
			if(!truth.x) break;
			int class = state.truth[t5 + bl.truths + 4];
			if(!truth.x) break; // continue;
			int class_id = state.truth[t5 + bl.truths + 4];
			float maxp = 0;
			int maxi = 0;
			if(truth.x > 100000 && truth.y > 100000){
			for(n = 0; n < l.nl.wl.h; ++n){
			int index = sizen + bl.outputs + 5;
			float scale = l.output[index-1];
			float p = scale*get_hierarchy_probability(l.output + index, l.softmax_tree, class);
			float p = scale*get_hierarchy_probability(l.output + index, l.softmax_tree, class_id);
			if(p > maxp){
			maxp = p;
			maxi = n;
			}
			}
			int index = sizemaxi + bl.outputs + 5;
			delta_region_class(l.output, l.delta, index, class, l.classes, l.softmax_tree, l.class_scale, &avg_cat);
			delta_region_class(l.output, l.delta, index, class_id, l.classes, l.softmax_tree, l.class_scale, &avg_cat, l.focal_loss);
			++class_count;
			onlyclass = 1;
			onlyclass_id = 1;
			break;
			}
			}
			if(onlyclass) continue;
			if(onlyclass_id) continue;
			}
			for (j = 0; j < l.h; ++j) {
			for (i = 0; i < l.w; ++i) {
			@@ -218,13 +253,15 @@
			int index = size(jl.wl.n + il.n + n) + b*l.outputs;
			box pred = get_region_box(l.output, l.biases, n, index, i, j, l.w, l.h);
			float best_iou = 0;
			int best_class = -1;
			for(t = 0; t < 30; ++t){
			int best_class_id = -1;
			for(t = 0; t < l.max_boxes; ++t){
			box truth = float_to_box(state.truth + t5 + bl.truths);
			if(!truth.x) break;
			int class_id = state.truth[t * 5 + b*l.truths + 4];
			if (class_id >= l.classes) continue; // if label contains class_id more than number of classes in the cfg-file
			if(!truth.x) break; // continue;
			float iou = box_iou(pred, truth);
			if (iou > best_iou) {
			best_class = state.truth[t5 + bl.truths + 4];
			best_class_id = state.truth[t5 + bl.truths + 4];
			best_iou = iou;
			}
			}
			@@ -235,7 +272,7 @@
			if (best_iou > l.thresh) {
			l.delta[index + 4] = 0;
			if(l.classfix > 0){
			delta_region_class(l.output, l.delta, index + 5, best_class, l.classes, l.softmax_tree, l.class_scale*(l.classfix == 2 ? l.output[index + 4] : 1), &avg_cat);
			delta_region_class(l.output, l.delta, index + 5, best_class_id, l.classes, l.softmax_tree, l.class_scale*(l.classfix == 2 ? l.output[index + 4] : 1), &avg_cat, l.focal_loss);
			++class_count;
			}
			}
			@@ -256,10 +293,16 @@
			}
			}
			}
			for(t = 0; t < 30; ++t){
			for(t = 0; t < l.max_boxes; ++t){
			box truth = float_to_box(state.truth + t5 + bl.truths);
			int class_id = state.truth[t * 5 + b*l.truths + 4];
			if (class_id >= l.classes) {
			printf(" Warning: in txt-labels class_id=%d >= classes=%d in cfg-file. In txt-labels class_id should be [from 0 to %d] \n", class_id, l.classes, l.classes-1);
			getchar();
			continue; // if label contains class_id more than number of classes in the cfg-file
			}

			if(!truth.x) break;
			if(!truth.x) break; // continue;
			float best_iou = 0;
			int best_index = 0;
			int best_n = 0;
			@@ -304,10 +347,8 @@
			l.delta[best_index + 4] = l.object_scale * (iou - l.output[best_index + 4]) * logistic_gradient(l.output[best_index + 4]);
			}


			int class = state.truth[t5 + bl.truths + 4];
			if (l.map) class = l.map[class];
			delta_region_class(l.output, l.delta, best_index + 5, class, l.classes, l.softmax_tree, l.class_scale, &avg_cat);
			if (l.map) class_id = l.map[class_id];
			delta_region_class(l.output, l.delta, best_index + 5, class_id, l.classes, l.softmax_tree, l.class_scale, &avg_cat, l.focal_loss);
			++count;
			++class_count;
			}
			@@ -409,6 +450,7 @@
			cuda_pull_array(state.truth, truth_cpu, num_truth);
			}
			cuda_pull_array(l.output_gpu, in_cpu, l.batch*l.inputs);
			//cudaStreamSynchronize(get_cuda_stream());
			network_state cpu_state = state;
			cpu_state.train = state.train;
			cpu_state.truth = truth_cpu;
			@@ -418,6 +460,7 @@
			free(cpu_state.input);
			if(!state.train) return;
			cuda_push_array(l.delta_gpu, l.delta, l.batch*l.outputs);
			//cudaStreamSynchronize(get_cuda_stream());
			if(cpu_state.truth) free(cpu_state.truth);
			}

			@@ -427,3 +470,110 @@
			}
			#endif


			void correct_region_boxes(detection *dets, int n, int w, int h, int netw, int neth, int relative)
			{
			int i;
			int new_w = 0;
			int new_h = 0;
			if (((float)netw / w) < ((float)neth / h)) {
			new_w = netw;
			new_h = (h * netw) / w;
			}
			else {
			new_h = neth;
			new_w = (w * neth) / h;
			}
			for (i = 0; i < n; ++i) {
			box b = dets[i].bbox;
			b.x = (b.x - (netw - new_w) / 2. / netw) / ((float)new_w / netw);
			b.y = (b.y - (neth - new_h) / 2. / neth) / ((float)new_h / neth);
			b.w *= (float)netw / new_w;
			b.h *= (float)neth / new_h;
			if (!relative) {
			b.x *= w;
			b.w *= w;
			b.y *= h;
			b.h *= h;
			}
			dets[i].bbox = b;
			}
			}


			void get_region_detections(layer l, int w, int h, int netw, int neth, float thresh, int map, float tree_thresh, int relative, detection dets)
			{
			int i, j, n, z;
			float *predictions = l.output;
			if (l.batch == 2) {
			float *flip = l.output + l.outputs;
			for (j = 0; j < l.h; ++j) {
			for (i = 0; i < l.w / 2; ++i) {
			for (n = 0; n < l.n; ++n) {
			for (z = 0; z < l.classes + l.coords + 1; ++z) {
			int i1 = zl.wl.hl.n + nl.wl.h + jl.w + i;
			int i2 = zl.wl.hl.n + nl.wl.h + jl.w + (l.w - i - 1);
			float swap = flip[i1];
			flip[i1] = flip[i2];
			flip[i2] = swap;
			if (z == 0) {
			flip[i1] = -flip[i1];
			flip[i2] = -flip[i2];
			}
			}
			}
			}
			}
			for (i = 0; i < l.outputs; ++i) {
			l.output[i] = (l.output[i] + flip[i]) / 2.;
			}
			}
			for (i = 0; i < l.w*l.h; ++i) {
			int row = i / l.w;
			int col = i % l.w;
			for (n = 0; n < l.n; ++n) {
			int index = nl.wl.h + i;
			for (j = 0; j < l.classes; ++j) {
			dets[index].prob[j] = 0;
			}
			int obj_index = entry_index(l, 0, nl.wl.h + i, l.coords);
			int box_index = entry_index(l, 0, nl.wl.h + i, 0);
			int mask_index = entry_index(l, 0, nl.wl.h + i, 4);
			float scale = l.background ? 1 : predictions[obj_index];
			dets[index].bbox = get_region_box(predictions, l.biases, n, box_index, col, row, l.w, l.h);// , l.w*l.h);
			dets[index].objectness = scale > thresh ? scale : 0;
			if (dets[index].mask) {
			for (j = 0; j < l.coords - 4; ++j) {
			dets[index].mask[j] = l.output[mask_index + jl.wl.h];
			}
			}

			int class_index = entry_index(l, 0, nl.wl.h + i, l.coords + !l.background);
			if (l.softmax_tree) {

			hierarchy_predictions(predictions + class_index, l.classes, l.softmax_tree, 0);// , l.w*l.h);
			if (map) {
			for (j = 0; j < 200; ++j) {
			int class_index = entry_index(l, 0, nl.wl.h + i, l.coords + 1 + map[j]);
			float prob = scale*predictions[class_index];
			dets[index].prob[j] = (prob > thresh) ? prob : 0;
			}
			}
			else {
			int j = hierarchy_top_prediction(predictions + class_index, l.softmax_tree, tree_thresh, l.w*l.h);
			dets[index].prob[j] = (scale > thresh) ? scale : 0;
			}
			}
			else {
			if (dets[index].objectness) {
			for (j = 0; j < l.classes; ++j) {
			int class_index = entry_index(l, 0, nl.wl.h + i, l.coords + 1 + j);
			float prob = scale*predictions[class_index];
			dets[index].prob[j] = (prob > thresh) ? prob : 0;
			}
			}
			}
			}
			}
			correct_region_boxes(dets, l.wl.hl.n, w, h, netw, neth, relative);
			}