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215 lines
6.4 KiB
C++
215 lines
6.4 KiB
C++
#include <iostream>
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#include <stdexcept>
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//wrappers
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#include "ivx.hpp"
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//OpenCV includes
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#include "opencv2/core.hpp"
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#include "opencv2/imgproc.hpp"
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#include "opencv2/imgcodecs.hpp"
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#include "opencv2/highgui.hpp"
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enum UserMemoryMode
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{
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COPY, USER_MEM, MAP
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};
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ivx::Graph createProcessingGraph(ivx::Image& inputImage, ivx::Image& outputImage);
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int ovxDemo(std::string inputPath, UserMemoryMode mode);
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ivx::Graph createProcessingGraph(ivx::Image& inputImage, ivx::Image& outputImage)
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{
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using namespace ivx;
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Context context = inputImage.get<Context>();
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Graph graph = Graph::create(context);
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vx_uint32 width = inputImage.width();
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vx_uint32 height = inputImage.height();
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// Intermediate images
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Image
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smoothed = Image::createVirtual(graph),
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cannied = Image::createVirtual(graph),
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halfImg = Image::create(context, width, height, VX_DF_IMAGE_U8),
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halfCanny = Image::create(context, width, height, VX_DF_IMAGE_U8);
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// Constants
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vx_uint32 threshCannyMin = 127;
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vx_uint32 threshCannyMax = 192;
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Threshold threshCanny = Threshold::createRange(context, VX_TYPE_UINT8, threshCannyMin, threshCannyMax);
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ivx::Scalar alpha = ivx::Scalar::create<VX_TYPE_FLOAT32>(context, 0.5);
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// Sequence of some image operations
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// Node can also be added in function-like style
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nodes::gaussian3x3(graph, inputImage, smoothed);
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Node::create(graph, VX_KERNEL_CANNY_EDGE_DETECTOR, smoothed, threshCanny,
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ivx::Scalar::create<VX_TYPE_INT32>(context, 3),
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ivx::Scalar::create<VX_TYPE_ENUM>(context, VX_NORM_L2), cannied);
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Node::create(graph, VX_KERNEL_ACCUMULATE_WEIGHTED, inputImage, alpha, halfImg);
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Node::create(graph, VX_KERNEL_ACCUMULATE_WEIGHTED, cannied, alpha, halfCanny);
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Node::create(graph, VX_KERNEL_ADD, halfImg, halfCanny,
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ivx::Scalar::create<VX_TYPE_ENUM>(context, VX_CONVERT_POLICY_SATURATE), outputImage);
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graph.verify();
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return graph;
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}
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int ovxDemo(std::string inputPath, UserMemoryMode mode)
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{
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using namespace cv;
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using namespace ivx;
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Mat image = imread(inputPath, IMREAD_GRAYSCALE);
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if (image.empty()) return -1;
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//check image format
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if (image.depth() != CV_8U || image.channels() != 1) return -1;
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try
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{
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Context context = Context::create();
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//put user data from cv::Mat to vx_image
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vx_df_image color = Image::matTypeToFormat(image.type());
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vx_uint32 width = image.cols, height = image.rows;
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Image ivxImage;
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if (mode == COPY)
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{
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ivxImage = Image::create(context, width, height, color);
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ivxImage.copyFrom(0, image);
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}
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else
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{
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ivxImage = Image::createFromHandle(context, color, Image::createAddressing(image), image.data);
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}
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Image ivxResult;
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Image::Patch resultPatch;
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Mat output;
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if (mode == COPY || mode == MAP)
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{
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//we will copy or map data from vx_image to cv::Mat
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ivxResult = ivx::Image::create(context, width, height, VX_DF_IMAGE_U8);
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}
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else // if (mode == MAP_TO_VX)
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{
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//create vx_image based on user data, no copying required
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output = cv::Mat(height, width, CV_8U, cv::Scalar(0));
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ivxResult = Image::createFromHandle(context, Image::matTypeToFormat(CV_8U),
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Image::createAddressing(output), output.data);
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}
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Graph graph = createProcessingGraph(ivxImage, ivxResult);
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// Graph execution
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graph.process();
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//getting resulting image in cv::Mat
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if (mode == COPY)
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{
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ivxResult.copyTo(0, output);
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}
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else if (mode == MAP)
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{
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//create cv::Mat based on vx_image mapped data
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resultPatch.map(ivxResult, 0, ivxResult.getValidRegion());
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//generally this is very bad idea!
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//but in our case unmap() won't happen until output is in use
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output = resultPatch.getMat();
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}
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else // if (mode == MAP_TO_VX)
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{
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#ifdef VX_VERSION_1_1
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//we should take user memory back from vx_image before using it (even before reading)
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ivxResult.swapHandle();
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#endif
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}
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//here output goes
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cv::imshow("processing result", output);
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cv::waitKey(0);
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cv::destroyAllWindows();
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#ifdef VX_VERSION_1_1
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if (mode != COPY)
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{
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//we should take user memory back before release
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//(it's not done automatically according to standard)
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ivxImage.swapHandle();
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if (mode == USER_MEM) ivxResult.swapHandle();
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}
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#endif
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//the line is unnecessary since unmapping is done on destruction of patch
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//resultPatch.unmap();
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}
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catch (const ivx::RuntimeError& e)
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{
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std::cerr << "Error: code = " << e.status() << ", message = " << e.what() << std::endl;
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return e.status();
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}
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catch (const ivx::WrapperError& e)
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{
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std::cerr << "Error: message = " << e.what() << std::endl;
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return -1;
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}
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return 0;
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}
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int main(int argc, char *argv[])
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{
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const std::string keys =
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"{help h usage ? | | }"
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"{image | <none> | image to be processed}"
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"{mode | copy | user memory interaction mode: \n"
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"copy: create VX images and copy data to/from them\n"
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"user_mem: use handles to user-allocated memory\n"
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"map: map resulting VX image to user memory}"
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;
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cv::CommandLineParser parser(argc, argv, keys);
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parser.about("OpenVX interoperability sample demonstrating OpenVX wrappers usage."
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"The application loads an image, processes it with OpenVX graph and outputs result in a window");
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if (parser.has("help"))
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{
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parser.printMessage();
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return 0;
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}
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std::string imgPath = parser.get<std::string>("image");
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std::string modeString = parser.get<std::string>("mode");
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UserMemoryMode mode;
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if(modeString == "copy")
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{
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mode = COPY;
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}
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else if(modeString == "user_mem")
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{
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mode = USER_MEM;
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}
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else if(modeString == "map")
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{
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mode = MAP;
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}
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else
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{
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std::cerr << modeString << ": unknown memory mode" << std::endl;
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return -1;
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}
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if (!parser.check())
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{
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parser.printErrors();
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return -1;
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}
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return ovxDemo(imgPath, mode);
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}
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