~speedprog/mtg/mtg_card_detector.git

			@@ -1,6 +1,5 @@
			#include "mini_blas.h"
			#include "im2col.h"
			#include <stdio.h>

			inline float im2col_get_pixel(float *im, int height, int width, int channels,
			int row, int col, int channel, int pad)
			{
			@@ -9,16 +8,16 @@

			if (row < 0 \|\| col < 0 \|\|
			row >= height \|\| col >= width) return 0;
			return im[col + width(row + channelheight)];
			return im[col + width(row + heightchannel)];
			}

			//From Berkeley Vision's Caffe!
			//https://github.com/BVLC/caffe/blob/master/LICENSE
			void im2col_cpu_batch(float* data_im,
			const int batch, const int channels, const int height, const int width,
			const int ksize, const int stride, int pad, float* data_col)
			void im2col_cpu(float* data_im,
			int channels, int height, int width,
			int ksize, int stride, int pad, float* data_col)
			{
			int c,h,w,b;
			int c,h,w;
			int height_col = (height - ksize) / stride + 1;
			int width_col = (width - ksize) / stride + 1;
			if (pad){
			@@ -27,151 +26,19 @@
			pad = ksize/2;
			}
			int channels_col = channels * ksize * ksize;
			int im_size = heightwidthchannels;
			//int col_size = height_colwidth_colchannels_col;
			for (b = 0; b < batch; ++b) {
			for (c = 0; c < channels_col; ++c) {
			int w_offset = c % ksize;
			int h_offset = (c / ksize) % ksize;
			int c_im = c / ksize / ksize;
			for (h = 0; h < height_col; ++h) {
			for (w = 0; w < width_col; ++w) {
			int im_row = h_offset + h * stride;
			int im_col = w_offset + w * stride;
			int col_index = (c * height_col + h) * width_col + w + (batch-1) * c * height_col*width_col;
			data_col[col_index] = im2col_get_pixel(data_im, height, width, channels,
			im_row, im_col, c_im, pad);
			}
			for (c = 0; c < channels_col; ++c) {
			int w_offset = c % ksize;
			int h_offset = (c / ksize) % ksize;
			int c_im = c / ksize / ksize;
			for (h = 0; h < height_col; ++h) {
			for (w = 0; w < width_col; ++w) {
			int im_row = h_offset + h * stride;
			int im_col = w_offset + w * stride;
			int col_index = (c * height_col + h) * width_col + w;
			data_col[col_index] = im2col_get_pixel(data_im, height, width, channels,
			im_row, im_col, c_im, pad);
			}
			}
			data_im += im_size;
			data_col+= channels_col;
			}
			}

			//From Berkeley Vision's Caffe!
			//https://github.com/BVLC/caffe/blob/master/LICENSE
			void im2col_cpu(float* data_im, const int batch,
			const int channels, const int height, const int width,
			const int ksize, const int stride, int pad, float* data_col)
			{
			int c,h,w,b;
			int height_col = (height - ksize) / stride + 1;
			int width_col = (width - ksize) / stride + 1;
			if (pad){
			height_col = 1 + (height-1) / stride;
			width_col = 1 + (width-1) / stride;
			pad = ksize/2;
			}
			int channels_col = channels * ksize * ksize;
			int im_size = heightwidthchannels;
			int col_size = height_colwidth_colchannels_col;
			for (b = 0; b < batch; ++b) {
			for (c = 0; c < channels_col; ++c) {
			int w_offset = c % ksize;
			int h_offset = (c / ksize) % ksize;
			int c_im = c / ksize / ksize;
			for (h = 0; h < height_col; ++h) {
			for (w = 0; w < width_col; ++w) {
			int im_row = h_offset + h * stride;
			int im_col = w_offset + w * stride;
			int col_index = (c * height_col + h) * width_col + w;
			data_col[col_index] = im2col_get_pixel(data_im, height, width, channels,
			im_row, im_col, c_im, pad);
			}
			}
			}
			data_im += im_size;
			data_col += col_size;
			}
			}


			#ifdef GPU

			#include "opencl.h"
			#include <math.h>

			cl_kernel get_im2col_kernel()
			{
			static int init = 0;
			static cl_kernel im2col_kernel;
			if(!init){
			im2col_kernel = get_kernel("src/im2col.cl", "im2col", 0);
			init = 1;
			}
			return im2col_kernel;
			}


			void im2col_ongpu(cl_mem data_im, const int batch,
			const int channels, const int height, const int width,
			const int ksize, const int stride, cl_mem data_col)
			{
			cl_setup();
			cl_kernel im2col_kernel = get_im2col_kernel();
			cl_command_queue queue = cl.queue;

			cl_uint i = 0;
			cl.error = clSetKernelArg(im2col_kernel, i++, sizeof(data_im), (void*) &data_im);
			cl.error = clSetKernelArg(im2col_kernel, i++, sizeof(batch), (void*) &batch);
			cl.error = clSetKernelArg(im2col_kernel, i++, sizeof(channels), (void*) &channels);
			cl.error = clSetKernelArg(im2col_kernel, i++, sizeof(height), (void*) &height);
			cl.error = clSetKernelArg(im2col_kernel, i++, sizeof(width), (void*) &width);
			cl.error = clSetKernelArg(im2col_kernel, i++, sizeof(ksize), (void*) &ksize);
			cl.error = clSetKernelArg(im2col_kernel, i++, sizeof(stride), (void*) &stride);
			cl.error = clSetKernelArg(im2col_kernel, i++, sizeof(data_col), (void*) &data_col);
			check_error(cl);

			int height_col = (height - ksize) / stride + 1;
			int width_col = (width - ksize) / stride + 1;
			int channels_col = channels * ksize * ksize;

			size_t global_size[2];
			size_t local_size[2];
			global_size[0] = batch;
			global_size[1] = channels_col;
			local_size[0] = height_col;
			local_size[1] = width_col;

			clEnqueueNDRangeKernel(queue, im2col_kernel, 2, 0,
			global_size, local_size, 0, 0, 0);
			check_error(cl);
			}

			void im2col_gpu(float *data_im,
			const int batch, const int channels, const int height, const int width,
			const int ksize, const int stride,
			float *data_col)
			{
			cl_setup();
			cl_context context = cl.context;
			cl_command_queue queue = cl.queue;

			size_t size = sizeof(float)(channelsheightwidthbatch);
			cl_mem im_gpu = clCreateBuffer(context,
			CL_MEM_READ_ONLY\|CL_MEM_COPY_HOST_PTR,
			size, data_im, &cl.error);
			check_error(cl);

			int height_col = (height - ksize) / stride + 1;
			int width_col = (width - ksize) / stride + 1;
			int channels_col = channels * ksize * ksize;

			size = sizeof(float)(height_colwidth_colchannels_colbatch);
			cl_mem col_gpu = clCreateBuffer(context,
			CL_MEM_WRITE_ONLY\|CL_MEM_COPY_HOST_PTR,
			size, data_col, &cl.error);
			check_error(cl);

			im2col_ongpu(im_gpu, batch, channels, height, width,
			ksize, stride, col_gpu);

			clEnqueueReadBuffer(queue, col_gpu, CL_TRUE, 0, size, data_col, 0, 0, 0);
			check_error(cl);

			clReleaseMemObject(col_gpu);
			clReleaseMemObject(im_gpu);
			}

			#endif