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ncnn/examples/peleenetssd_seg.cpp

peleenetssd_seg.cpp 6.3 kB
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A new model example , pelee + ssd + segmentation (#929) * Add peleenet+ssd+segmentation example * Change normalize and mean * Add segmentation demo * Add add_executable * Some errors * Update flow
7 years ago
option api changes
7 years ago
A new model example , pelee + ssd + segmentation (#929) * Add peleenet+ssd+segmentation example * Change normalize and mean * Add segmentation demo * Add add_executable * Some errors * Update flow
7 years ago
option api changes
7 years ago
A new model example , pelee + ssd + segmentation (#929) * Add peleenet+ssd+segmentation example * Change normalize and mean * Add segmentation demo * Add add_executable * Some errors * Update flow
7 years ago
option api changes
7 years ago
A new model example , pelee + ssd + segmentation (#929) * Add peleenet+ssd+segmentation example * Change normalize and mean * Add segmentation demo * Add add_executable * Some errors * Update flow
7 years ago
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  1. // Tencent is pleased to support the open source community by making ncnn available.

  2. //

  3. // Copyright (C) 2017 THL A29 Limited, a Tencent company. All rights reserved.

  4. //

  5. // Licensed under the BSD 3-Clause License (the "License"); you may not use this file except

  6. // in compliance with the License. You may obtain a copy of the License at

  7. //

  8. // https://opensource.org/licenses/BSD-3-Clause

  9. //

  10. // Unless required by applicable law or agreed to in writing, software distributed

  11. // under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR

  12. // CONDITIONS OF ANY KIND, either express or implied. See the License for the

  13. // specific language governing permissions and limitations under the License.

  14. 

  15. #include <stdio.h>

  16. #include <vector>

  17. #include <opencv2/core/core.hpp>

  18. #include <opencv2/highgui/highgui.hpp>

  19. #include <opencv2/imgproc/imgproc.hpp>

  20. 

  21. #include "platform.h"

  22. #include "net.h"

  23. #if NCNN_VULKAN

  24. #include "gpu.h"

  25. #endif // NCNN_VULKAN

  26. 

  27. struct Object

  28. {

  29.     cv::Rect_<float> rect;

  30.     int label;

  31.     float prob;

  32. };

  33. 

  34. static int detect_peleenet(const cv::Mat& bgr, std::vector<Object>& objects,ncnn::Mat &resized)

  35. {

  36.     ncnn::Net peleenet;

  37. 

  38. #if NCNN_VULKAN

  39.     peleenet.opt.use_vulkan_compute = true;

  40. #endif // NCNN_VULKAN

  41. 

  42.     // model is converted from https://github.com/eric612/MobileNet-YOLO

  43.     // and can be downloaded from https://drive.google.com/open?id=1Wt6jKv13sBRMHgrGAJYlOlRF-o80pC0g

  44.     peleenet.load_param("pelee.param");

  45.     peleenet.load_model("pelee.bin");

  46. 

  47.     const int target_size = 304;

  48. 

  49.     int img_w = bgr.cols;

  50.     int img_h = bgr.rows;

  51. 

  52.     ncnn::Mat in = ncnn::Mat::from_pixels_resize(bgr.data, ncnn::Mat::PIXEL_BGR, bgr.cols, bgr.rows, target_size, target_size);

  53. 

  54.     const float mean_vals[3] = {103.9f, 116.7f, 123.6f};

  55.     const float norm_vals[3] = {0.017f,0.017f,0.017f};

  56.     in.substract_mean_normalize(mean_vals, norm_vals);

  57. 

  58.     ncnn::Extractor ex = peleenet.create_extractor();

  59. //     ex.set_num_threads(4);

  60. 

  61.     ex.input("data", in);

  62. 

  63.     ncnn::Mat out;

  64.     ex.extract("detection_out",out);

  65. 

  66. //     printf("%d %d %d\n", out.w, out.h, out.c);

  67.     objects.clear();

  68.     for (int i=0; i<out.h; i++)

  69.     {

  70.         const float* values = out.row(i);

  71. 

  72.         Object object;

  73.         object.label = values[0];

  74.         object.prob = values[1];

  75.         object.rect.x = values[2] * img_w;

  76.         object.rect.y = values[3] * img_h;

  77.         object.rect.width = values[4] * img_w - object.rect.x;

  78.         object.rect.height = values[5] * img_h - object.rect.y;

  79. 

  80.         objects.push_back(object);

  81.     }

  82.     ncnn::Mat seg_out;

  83.     ex.extract("sigmoid",seg_out);

  84.     resize_bilinear(seg_out,resized,img_w,img_h);

  85.     //resize_bicubic(seg_out,resized,img_w,img_h); // sharpness

  86.     return 0;

  87. }

  88. 

  89. static void draw_objects(const cv::Mat& bgr, const std::vector<Object>& objects,ncnn::Mat map)

  90. {

  91.     static const char* class_names[] = {"background",

  92.         "person","rider", "car","bus",

  93.         "truck","bike","motor",

  94.         "traffic light","traffic sign","train"};

  95. 

  96.     cv::Mat image = bgr.clone();

  97.     const int color[] = {128,255,128,244,35,232};

  98.     const int color_count = sizeof(color) / sizeof(int);

  99.     

  100.     for (size_t i = 0; i < objects.size(); i++)

  101.     {

  102.         const Object& obj = objects[i];

  103. 

  104.         fprintf(stderr, "%d = %.5f at %.2f %.2f %.2f x %.2f\n", obj.label, obj.prob,

  105.                 obj.rect.x, obj.rect.y, obj.rect.width, obj.rect.height);

  106. 

  107.         cv::rectangle(image, obj.rect, cv::Scalar(255, 0, 0));

  108. 

  109.         char text[256];

  110.         sprintf(text, "%s %.1f%%", class_names[obj.label], obj.prob * 100);

  111. 

  112.         int baseLine = 0;

  113.         cv::Size label_size = cv::getTextSize(text, cv::FONT_HERSHEY_SIMPLEX, 0.5, 1, &baseLine);

  114. 

  115.         int x = obj.rect.x;

  116.         int y = obj.rect.y - label_size.height - baseLine;

  117.         if (y < 0)

  118.             y = 0;

  119.         if (x + label_size.width > image.cols)

  120.             x = image.cols - label_size.width;

  121. 

  122.         cv::rectangle(image, cv::Rect(cv::Point(x, y),

  123.                                       cv::Size(label_size.width, label_size.height + baseLine)),

  124.                       cv::Scalar(255, 255, 255), -1);

  125. 

  126.         cv::putText(image, text, cv::Point(x, y + label_size.height),

  127.                     cv::FONT_HERSHEY_SIMPLEX, 0.5, cv::Scalar(0, 0, 0));

  128.     }

  129.     int width = map.w;

  130.     int height = map.h;

  131.     int size = map.c;

  132.     int img_index2 = 0;

  133.     float threshold = 0.45;

  134.     const float* ptr2 = map;

  135.     for (int i = 0; i < height; i++) {

  136.         unsigned char* ptr1 = image.ptr<unsigned char>(i);        

  137.         int img_index1 = 0;        

  138.         for (int j = 0; j < width; j++) {

  139.             float maxima = threshold; 

  140.             int index = -1;

  141.             for (int c = 0; c < size; c++) {

  142.                 //const float* ptr3 = map.channel(c);  

  143.                 const float* ptr3 = ptr2 + c*width*height;

  144.                 if(ptr3[img_index2]>maxima) {

  145.                     maxima = ptr3[img_index2];

  146.                     index = c;

  147.                 }

  148.             }

  149.             if(index > -1) {

  150.                 int color_index = (index)*3;

  151.                 if(color_index<color_count) {

  152.                     int b = color[color_index];

  153.                     int g = color[color_index+1];

  154.                     int r = color[color_index+2];

  155.                     ptr1[img_index1] = b/2 + ptr1[img_index1]/2;

  156.                     ptr1[img_index1+1] = g/2 + ptr1[img_index1+1]/2;

  157.                     ptr1[img_index1+2] = r/2 + ptr1[img_index1+2]/2;

  158.                 }

  159. 

  160.             }

  161.             img_index1+=3;

  162.             img_index2++;

  163.         }

  164.     }

  165.     cv::imshow("image", image);

  166.     cv::waitKey(0);

  167. }

  168. 

  169. int main(int argc, char** argv)

  170. {

  171.     if (argc != 2)

  172.     {

  173.         fprintf(stderr, "Usage: %s [imagepath]\n", argv[0]);

  174.         return -1;

  175.     }

  176. 

  177.     const char* imagepath = argv[1];

  178. 

  179.     cv::Mat m = cv::imread(imagepath, 1);

  180.     if (m.empty())

  181.     {

  182.         fprintf(stderr, "cv::imread %s failed\n", imagepath);

  183.         return -1;

  184.     }

  185. 

  186. #if NCNN_VULKAN

  187.     ncnn::create_gpu_instance();

  188. #endif // NCNN_VULKAN

  189. 

  190.     std::vector<Object> objects;

  191.     ncnn::Mat seg_out;

  192.     detect_peleenet(m, objects, seg_out);

  193. 

  194. #if NCNN_VULKAN

  195.     ncnn::destroy_gpu_instance();

  196. #endif // NCNN_VULKAN

  197. 

  198.     draw_objects(m, objects, seg_out);

  199. 

  200.     return 0;

  201. }

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