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SET(OPENCV_VISUALISATION_DEPS opencv_core opencv_highgui opencv_imgproc) |
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ocv_check_dependencies(${OPENCV_VISUALISATION_DEPS}) |
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if(NOT OCV_DEPENDENCIES_FOUND) |
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return() |
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endif() |
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project(visualisation) |
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ocv_include_directories("${CMAKE_CURRENT_SOURCE_DIR}" "${OpenCV_SOURCE_DIR}/include/opencv") |
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ocv_include_modules(${OPENCV_VISUALISATION_DEPS}) |
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set(visualisation_files opencv_visualisation.cpp) |
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set(the_target opencv_visualisation) |
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add_executable(${the_target} ${visualisation_files}) |
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target_link_libraries(${the_target} ${OPENCV_VISUALISATION_DEPS}) |
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set_target_properties(${the_target} PROPERTIES |
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DEBUG_POSTFIX "${OPENCV_DEBUG_POSTFIX}" |
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ARCHIVE_OUTPUT_DIRECTORY ${LIBRARY_OUTPUT_PATH} |
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RUNTIME_OUTPUT_DIRECTORY ${EXECUTABLE_OUTPUT_PATH} |
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OUTPUT_NAME "opencv_visualisation") |
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if(ENABLE_SOLUTION_FOLDERS) |
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set_target_properties(${the_target} PROPERTIES FOLDER "applications") |
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endif() |
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if(INSTALL_CREATE_DISTRIB) |
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if(BUILD_SHARED_LIBS) |
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install(TARGETS ${the_target} RUNTIME DESTINATION ${OPENCV_BIN_INSTALL_PATH} CONFIGURATIONS Release COMPONENT dev) |
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endif() |
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else() |
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install(TARGETS ${the_target} RUNTIME DESTINATION ${OPENCV_BIN_INSTALL_PATH} COMPONENT dev) |
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endif() |
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////////////////////////////////////////////////////////////////////////////////////////
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//
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// IMPORTANT: READ BEFORE DOWNLOADING, COPYING, INSTALLING OR USING.
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//
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// By downloading, copying, installing or using the software you agree to this license.
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// If you do not agree to this license, do not download, install,
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// copy or use the software.
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//
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//
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// License Agreement
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// For Open Source Computer Vision Library
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//
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// Copyright (C) 2000-2008, Intel Corporation, all rights reserved.
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// Copyright (C) 2009, Willow Garage Inc., all rights reserved.
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// Copyright (C) 2013, OpenCV Foundation, all rights reserved.
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// Third party copyrights are property of their respective owners.
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//
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// Redistribution and use in source and binary forms, with or without modification,
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// are permitted provided that the following conditions are met:
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//
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// * Redistribution's of source code must retain the above copyright notice,
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// this list of conditions and the following disclaimer.
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//
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// * Redistribution's in binary form must reproduce the above copyright notice,
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// this list of conditions and the following disclaimer in the documentation
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// and/or other materials provided with the distribution.
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//
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// * The name of the copyright holders may not be used to endorse or promote products
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// derived from this software without specific prior written permission.
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//
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// This software is provided by the copyright holders and contributors "as is" and
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// any express or implied warranties, including, but not limited to, the implied
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// warranties of merchantability and fitness for a particular purpose are disclaimed.
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// In no event shall the Intel Corporation or contributors be liable for any direct,
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// indirect, incidental, special, exemplary, or consequential damages
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// (including, but not limited to, procurement of substitute goods or services;
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// loss of use, data, or profits; or business interruption) however caused
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// and on any theory of liability, whether in contract, strict liability,
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// or tort (including negligence or otherwise) arising in any way out of
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// the use of this software, even if advised of the possibility of such damage.
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//
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////////////////////////////////////////////////////////////////////////////////////////
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/*****************************************************************************************************
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Software for visualising cascade classifier models trained by OpenCV and to get a better |
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understanding of the used features. |
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USAGE: |
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./visualise_models -model <model.xml> -image <ref.png> -data <output folder> |
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LIMITS |
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- Use an absolute path for the output folder to ensure the tool works |
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- Only handles cascade classifier models |
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- Handles stumps only for the moment |
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- Needs a valid training/test sample window with the original model dimensions, passed as `ref.png` |
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- Can handle HAAR and LBP features |
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Created by: Puttemans Steven - April 2016 |
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*****************************************************************************************************/ |
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#include <opencv2/core/core.hpp> |
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#include <opencv2/highgui/highgui.hpp> |
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#include <opencv2/imgproc/imgproc.hpp> |
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#include <fstream> |
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#include <iostream> |
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using namespace std; |
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using namespace cv; |
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struct rect_data{ |
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int x; |
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int y; |
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int w; |
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int h; |
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float weight; |
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}; |
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int main( int argc, const char** argv ) |
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{ |
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// Read in the input arguments
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string model = ""; |
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string output_folder = ""; |
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string image_ref = ""; |
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for(int i = 1; i < argc; ++i ) |
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{ |
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if( !strcmp( argv[i], "-model" ) ) |
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{ |
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model = argv[++i]; |
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}else if( !strcmp( argv[i], "-image" ) ){ |
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image_ref = argv[++i]; |
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}else if( !strcmp( argv[i], "-data" ) ){ |
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output_folder = argv[++i]; |
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} |
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} |
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// Value for timing
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// You can increase this to have a better visualisation during the generation
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int timing = 1; |
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// Value for cols of storing elements
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int cols_prefered = 5; |
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// Open the XML model
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FileStorage fs; |
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fs.open(model, FileStorage::READ); |
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// Get a the required information
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// First decide which feature type we are using
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FileNode cascade = fs["cascade"]; |
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string feature_type = cascade["featureType"]; |
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bool haar = false, lbp = false; |
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if (feature_type.compare("HAAR") == 0){ |
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haar = true; |
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} |
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if (feature_type.compare("LBP") == 0){ |
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lbp = true; |
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} |
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if ( feature_type.compare("HAAR") != 0 && feature_type.compare("LBP")){ |
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cerr << "The model is not an HAAR or LBP feature based model!" << endl; |
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cerr << "Please select a model that can be visualized by the software." << endl; |
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return -1; |
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} |
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// We make a visualisation mask - which increases the window to make it at least a bit more visible
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int resize_factor = 10; |
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int resize_storage_factor = 10; |
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Mat reference_image = imread(image_ref, IMREAD_GRAYSCALE ); |
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Mat visualization; |
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resize(reference_image, visualization, Size(reference_image.cols * resize_factor, reference_image.rows * resize_factor)); |
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// First recover for each stage the number of weak features and their index
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// Important since it is NOT sequential when using LBP features
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vector< vector<int> > stage_features; |
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FileNode stages = cascade["stages"]; |
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FileNodeIterator it_stages = stages.begin(), it_stages_end = stages.end(); |
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int idx = 0; |
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for( ; it_stages != it_stages_end; it_stages++, idx++ ){ |
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vector<int> current_feature_indexes; |
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FileNode weak_classifiers = (*it_stages)["weakClassifiers"]; |
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FileNodeIterator it_weak = weak_classifiers.begin(), it_weak_end = weak_classifiers.end(); |
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vector<int> values; |
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for(int idy = 0; it_weak != it_weak_end; it_weak++, idy++ ){ |
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(*it_weak)["internalNodes"] >> values; |
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current_feature_indexes.push_back( (int)values[2] ); |
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} |
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stage_features.push_back(current_feature_indexes); |
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} |
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// If the output option has been chosen than we will store a combined image plane for
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// each stage, containing all weak classifiers for that stage.
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bool draw_planes = false; |
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stringstream output_video; |
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output_video << output_folder << "model_visualization.avi"; |
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VideoWriter result_video; |
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if( output_folder.compare("") != 0 ){ |
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draw_planes = true; |
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result_video.open(output_video.str(), CV_FOURCC('X','V','I','D'), 15, Size(reference_image.cols * resize_factor, reference_image.rows * resize_factor), false); |
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} |
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if(haar){ |
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// Grab the corresponding features dimensions and weights
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FileNode features = cascade["features"]; |
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vector< vector< rect_data > > feature_data; |
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FileNodeIterator it_features = features.begin(), it_features_end = features.end(); |
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for(int idf = 0; it_features != it_features_end; it_features++, idf++ ){ |
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vector< rect_data > current_feature_rectangles; |
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FileNode rectangles = (*it_features)["rects"]; |
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int nrects = (int)rectangles.size(); |
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for(int k = 0; k < nrects; k++){ |
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rect_data current_data; |
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FileNode single_rect = rectangles[k]; |
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current_data.x = (int)single_rect[0]; |
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current_data.y = (int)single_rect[1]; |
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current_data.w = (int)single_rect[2]; |
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current_data.h = (int)single_rect[3]; |
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current_data.weight = (float)single_rect[4]; |
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current_feature_rectangles.push_back(current_data); |
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} |
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feature_data.push_back(current_feature_rectangles); |
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} |
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// Loop over each possible feature on its index, visualise on the mask and wait a bit,
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// then continue to the next feature.
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// If visualisations should be stored then do the in between calculations
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Mat image_plane; |
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Mat metadata = Mat::zeros(150, 1000, CV_8UC1); |
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vector< rect_data > current_rects; |
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for(int sid = 0; sid < (int)stage_features.size(); sid ++){ |
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if(draw_planes){ |
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int features_nmbr = (int)stage_features[sid].size(); |
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int cols = cols_prefered; |
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int rows = features_nmbr / cols; |
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if( (features_nmbr % cols) > 0){ |
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rows++; |
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} |
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image_plane = Mat::zeros(reference_image.rows * resize_storage_factor * rows, reference_image.cols * resize_storage_factor * cols, CV_8UC1); |
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} |
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for(int fid = 0; fid < (int)stage_features[sid].size(); fid++){ |
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stringstream meta1, meta2; |
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meta1 << "Stage " << sid << " / Feature " << fid; |
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meta2 << "Rectangles: "; |
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Mat temp_window = visualization.clone(); |
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Mat temp_metadata = metadata.clone(); |
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int current_feature_index = stage_features[sid][fid]; |
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current_rects = feature_data[current_feature_index]; |
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Mat single_feature = reference_image.clone(); |
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resize(single_feature, single_feature, Size(), resize_storage_factor, resize_storage_factor); |
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for(int i = 0; i < (int)current_rects.size(); i++){ |
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rect_data local = current_rects[i]; |
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if(draw_planes){ |
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if(local.weight >= 0){ |
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rectangle(single_feature, Rect(local.x * resize_storage_factor, local.y * resize_storage_factor, local.w * resize_storage_factor, local.h * resize_storage_factor), Scalar(0), CV_FILLED); |
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}else{ |
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rectangle(single_feature, Rect(local.x * resize_storage_factor, local.y * resize_storage_factor, local.w * resize_storage_factor, local.h * resize_storage_factor), Scalar(255), CV_FILLED); |
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} |
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} |
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Rect part(local.x * resize_factor, local.y * resize_factor, local.w * resize_factor, local.h * resize_factor); |
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meta2 << part << " (w " << local.weight << ") "; |
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if(local.weight >= 0){ |
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rectangle(temp_window, part, Scalar(0), CV_FILLED); |
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}else{ |
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rectangle(temp_window, part, Scalar(255), CV_FILLED); |
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} |
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} |
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imshow("features", temp_window); |
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putText(temp_window, meta1.str(), Point(15,15), FONT_HERSHEY_SIMPLEX, 0.5, Scalar(255)); |
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result_video.write(temp_window); |
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// Copy the feature image if needed
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if(draw_planes){ |
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single_feature.copyTo(image_plane(Rect(0 + (fid%cols_prefered)*single_feature.cols, 0 + (fid/cols_prefered) * single_feature.rows, single_feature.cols, single_feature.rows))); |
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} |
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putText(temp_metadata, meta1.str(), Point(15,15), FONT_HERSHEY_SIMPLEX, 0.5, Scalar(255)); |
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putText(temp_metadata, meta2.str(), Point(15,40), FONT_HERSHEY_SIMPLEX, 0.5, Scalar(255)); |
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imshow("metadata", temp_metadata); |
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waitKey(timing); |
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} |
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//Store the stage image if needed
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if(draw_planes){ |
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stringstream save_location; |
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save_location << output_folder << "stage_" << sid << ".png"; |
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imwrite(save_location.str(), image_plane); |
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} |
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} |
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} |
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if(lbp){ |
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// Grab the corresponding features dimensions and weights
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FileNode features = cascade["features"]; |
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vector<Rect> feature_data; |
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FileNodeIterator it_features = features.begin(), it_features_end = features.end(); |
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for(int idf = 0; it_features != it_features_end; it_features++, idf++ ){ |
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FileNode rectangle = (*it_features)["rect"]; |
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Rect current_feature ((int)rectangle[0], (int)rectangle[1], (int)rectangle[2], (int)rectangle[3]); |
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feature_data.push_back(current_feature); |
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} |
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// Loop over each possible feature on its index, visualise on the mask and wait a bit,
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// then continue to the next feature.
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Mat image_plane; |
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Mat metadata = Mat::zeros(150, 1000, CV_8UC1); |
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for(int sid = 0; sid < (int)stage_features.size(); sid ++){ |
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if(draw_planes){ |
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int features_nmbr = (int)stage_features[sid].size(); |
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int cols = cols_prefered; |
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int rows = features_nmbr / cols; |
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if( (features_nmbr % cols) > 0){ |
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rows++; |
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} |
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image_plane = Mat::zeros(reference_image.rows * resize_storage_factor * rows, reference_image.cols * resize_storage_factor * cols, CV_8UC1); |
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} |
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for(int fid = 0; fid < (int)stage_features[sid].size(); fid++){ |
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stringstream meta1, meta2; |
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meta1 << "Stage " << sid << " / Feature " << fid; |
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meta2 << "Rectangle: "; |
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Mat temp_window = visualization.clone(); |
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Mat temp_metadata = metadata.clone(); |
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int current_feature_index = stage_features[sid][fid]; |
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Rect current_rect = feature_data[current_feature_index]; |
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Mat single_feature = reference_image.clone(); |
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resize(single_feature, single_feature, Size(), resize_storage_factor, resize_storage_factor); |
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// VISUALISATION
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// The rectangle is the top left one of a 3x3 block LBP constructor
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Rect resized(current_rect.x * resize_factor, current_rect.y * resize_factor, current_rect.width * resize_factor, current_rect.height * resize_factor); |
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meta2 << resized; |
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// Top left
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rectangle(temp_window, resized, Scalar(255), 1); |
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// Top middle
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rectangle(temp_window, Rect(resized.x + resized.width, resized.y, resized.width, resized.height), Scalar(255), 1); |
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// Top right
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rectangle(temp_window, Rect(resized.x + 2*resized.width, resized.y, resized.width, resized.height), Scalar(255), 1); |
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// Middle left
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rectangle(temp_window, Rect(resized.x, resized.y + resized.height, resized.width, resized.height), Scalar(255), 1); |
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// Middle middle
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rectangle(temp_window, Rect(resized.x + resized.width, resized.y + resized.height, resized.width, resized.height), Scalar(255), CV_FILLED); |
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// Middle right
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rectangle(temp_window, Rect(resized.x + 2*resized.width, resized.y + resized.height, resized.width, resized.height), Scalar(255), 1); |
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// Bottom left
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rectangle(temp_window, Rect(resized.x, resized.y + 2*resized.height, resized.width, resized.height), Scalar(255), 1); |
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// Bottom middle
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rectangle(temp_window, Rect(resized.x + resized.width, resized.y + 2*resized.height, resized.width, resized.height), Scalar(255), 1); |
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// Bottom right
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rectangle(temp_window, Rect(resized.x + 2*resized.width, resized.y + 2*resized.height, resized.width, resized.height), Scalar(255), 1); |
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if(draw_planes){ |
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Rect resized_inner(current_rect.x * resize_storage_factor, current_rect.y * resize_storage_factor, current_rect.width * resize_storage_factor, current_rect.height * resize_storage_factor); |
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// Top left
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rectangle(single_feature, resized_inner, Scalar(255), 1); |
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// Top middle
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rectangle(single_feature, Rect(resized_inner.x + resized_inner.width, resized_inner.y, resized_inner.width, resized_inner.height), Scalar(255), 1); |
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// Top right
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rectangle(single_feature, Rect(resized_inner.x + 2*resized_inner.width, resized_inner.y, resized_inner.width, resized_inner.height), Scalar(255), 1); |
||||||
|
// Middle left
|
||||||
|
rectangle(single_feature, Rect(resized_inner.x, resized_inner.y + resized_inner.height, resized_inner.width, resized_inner.height), Scalar(255), 1); |
||||||
|
// Middle middle
|
||||||
|
rectangle(single_feature, Rect(resized_inner.x + resized_inner.width, resized_inner.y + resized_inner.height, resized_inner.width, resized_inner.height), Scalar(255), CV_FILLED); |
||||||
|
// Middle right
|
||||||
|
rectangle(single_feature, Rect(resized_inner.x + 2*resized_inner.width, resized_inner.y + resized_inner.height, resized_inner.width, resized_inner.height), Scalar(255), 1); |
||||||
|
// Bottom left
|
||||||
|
rectangle(single_feature, Rect(resized_inner.x, resized_inner.y + 2*resized_inner.height, resized_inner.width, resized_inner.height), Scalar(255), 1); |
||||||
|
// Bottom middle
|
||||||
|
rectangle(single_feature, Rect(resized_inner.x + resized_inner.width, resized_inner.y + 2*resized_inner.height, resized_inner.width, resized_inner.height), Scalar(255), 1); |
||||||
|
// Bottom right
|
||||||
|
rectangle(single_feature, Rect(resized_inner.x + 2*resized_inner.width, resized_inner.y + 2*resized_inner.height, resized_inner.width, resized_inner.height), Scalar(255), 1); |
||||||
|
|
||||||
|
single_feature.copyTo(image_plane(Rect(0 + (fid%cols_prefered)*single_feature.cols, 0 + (fid/cols_prefered) * single_feature.rows, single_feature.cols, single_feature.rows))); |
||||||
|
} |
||||||
|
|
||||||
|
putText(temp_metadata, meta1.str(), Point(15,15), FONT_HERSHEY_SIMPLEX, 0.5, Scalar(255)); |
||||||
|
putText(temp_metadata, meta2.str(), Point(15,40), FONT_HERSHEY_SIMPLEX, 0.5, Scalar(255)); |
||||||
|
imshow("metadata", temp_metadata); |
||||||
|
imshow("features", temp_window); |
||||||
|
putText(temp_window, meta1.str(), Point(15,15), FONT_HERSHEY_SIMPLEX, 0.5, Scalar(255)); |
||||||
|
result_video.write(temp_window); |
||||||
|
|
||||||
|
waitKey(timing); |
||||||
|
} |
||||||
|
|
||||||
|
//Store the stage image if needed
|
||||||
|
if(draw_planes){ |
||||||
|
stringstream save_location; |
||||||
|
save_location << output_folder << "stage_" << sid << ".png"; |
||||||
|
imwrite(save_location.str(), image_plane); |
||||||
|
} |
||||||
|
} |
||||||
|
} |
||||||
|
return 0; |
||||||
|
} |
Loading…
Reference in new issue