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185 lines
5.1 KiB
Mathematica
185 lines
5.1 KiB
Mathematica
#! /usr/bin/env octave
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## import the necessary things for OpenCV
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addpath("/home/x/opencv2/interfaces/swig/octave");
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source("/home/x/opencv2/interfaces/swig/octave/PKG_ADD_template");
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debug_on_error(true);
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debug_on_warning(true);
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crash_dumps_octave_core (0)
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cv;
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highgui;
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#############################################################################
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## definition of some constants
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## how many bins we want for the histogram, and their ranges
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hdims = 16;
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hranges = {0, 180};
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## ranges for the limitation of the histogram
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vmin = 10;
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vmax = 256;
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smin = 30;
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## the range we want to monitor
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hsv_min = cv.cvScalar (0, smin, vmin, 0);
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hsv_max = cv.cvScalar (180, 256, vmax, 0);
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#############################################################################
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## some useful functions
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function rgb = hsv2rgb (hue)
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global cv;
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## convert the hue value to the corresponding rgb value
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sector_data = [0, 2, 1; 1, 2, 0; 1, 0, 2; 2, 0, 1; 2, 1, 0; 0, 1, 2]+1;
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hue *= 0.1 / 3;
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sector = cv.cvFloor (hue);
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p = cv.cvRound (255 * (hue - sector));
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if (bitand(sector,1))
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p = bitxor(p,255);
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endif
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rgb = zeros(1,3);
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rgb (sector_data (sector+1, 1)) = 255;
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rgb (sector_data (sector+1, 2)) = 0;
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rgb (sector_data (sector+1, 3)) = p;
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rgb = cv.cvScalar (rgb (3), rgb (2), rgb (1), 0);
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endfunction
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#############################################################################
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## so, here is the main part of the program
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## a small welcome
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printf("OpenCV Octave wrapper test\n");
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printf("OpenCV version: %s (%d, %d, %d)\n",
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cv.CV_VERSION,cv.CV_MAJOR_VERSION,
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cv.CV_MINOR_VERSION,cv.CV_SUBMINOR_VERSION);
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## first, create the necessary windows
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highgui.cvNamedWindow ('Camera', highgui.CV_WINDOW_AUTOSIZE);
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highgui.cvNamedWindow ('Histogram', highgui.CV_WINDOW_AUTOSIZE);
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## move the new window to a better place
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#highgui.cvMoveWindow ('Camera', 10, 40);
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#highgui.cvMoveWindow ('Histogram', 10, 270);
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try
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## try to get the device number from the command line
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device = int32 (argv(){1});
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have_device = true;
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catch
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## no device number on the command line, assume we want the 1st device
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device = -1;
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end_try_catch
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## no argument on the command line, try to use the camera
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capture = highgui.cvCreateCameraCapture (device);
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## set the wanted image size from the camera
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highgui.cvSetCaptureProperty (capture, \
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highgui.CV_CAP_PROP_FRAME_WIDTH, 320);
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highgui.cvSetCaptureProperty (capture, \
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highgui.CV_CAP_PROP_FRAME_HEIGHT, 240);
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## create an image to put in the histogram
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histimg = cv.cvCreateImage (cv.cvSize (320,240), 8, 3);
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## init the image of the histogram to black
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cv.cvSetZero (histimg);
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## capture the 1st frame to get some propertie on it
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frame = highgui.cvQueryFrame (capture);
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## get some properties of the frame
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frame_size = cv.cvGetSize (frame);
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## compute which selection of the frame we want to monitor
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selection = cv.cvRect (0, 0, frame.width, frame.height);
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## create some images usefull later
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hue = cv.cvCreateImage (frame_size, 8, 1);
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mask = cv.cvCreateImage (frame_size, 8, 1);
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hsv = cv.cvCreateImage (frame_size, 8, 3 );
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## create the histogram
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hist = cv.cvCreateHist ({hdims}, cv.CV_HIST_ARRAY, {hranges}, 1);
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while (1) ## do forever
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## 1. capture the current image
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frame = highgui.cvQueryFrame (capture);
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if (swig_this(frame)==0);
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## no image captured... end the processing
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break
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endif
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## mirror the captured image
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cv.cvFlip (frame, [], 1);
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## compute the hsv version of the image
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cv.cvCvtColor (frame, hsv, cv.CV_BGR2HSV);
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## compute which pixels are in the wanted range
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cv.cvInRangeS (hsv, hsv_min, hsv_max, mask);
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## extract the hue from the hsv array
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cv.cvSplit (hsv, hue, [], [], []);
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## select the rectangle of interest in the hue/mask arrays
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hue_roi = cv.cvGetSubRect (hue, selection);
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mask_roi = cv.cvGetSubRect (mask, selection);
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## it's time to compute the histogram
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cv.cvCalcHist (hue_roi, hist, 0, mask_roi);
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## extract the min and max value of the histogram
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[min_val, max_val, min_idx, max_idx] = cv.cvGetMinMaxHistValue (hist);
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## compute the scale factor
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if (max_val > 0)
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scale = 255. / max_val;
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else
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scale = 0.;
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endif
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## scale the histograms
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cv.cvConvertScale (hist.bins, hist.bins, scale, 0);
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## clear the histogram image
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cv.cvSetZero (histimg);
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## compute the width for each bin do display
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bin_w = histimg.width / hdims;
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for (i=0:hdims-1)
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## for all the bins
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## get the value, and scale to the size of the hist image
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val = cv.cvRound (cv.cvGetReal1D (hist.bins, i)
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* histimg.height / 255);
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## compute the color
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color = hsv2rgb (i * 180. / hdims);
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## draw the rectangle in the wanted color
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cv.cvRectangle (histimg,
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cv.cvPoint (i * bin_w, histimg.height),
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cv.cvPoint ((i + 1) * bin_w, histimg.height - val),
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color, -1, 8, 0);
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## we can now display the images
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highgui.cvShowImage ('Camera', frame);
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highgui.cvShowImage ('Histogram', histimg);
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endfor
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## handle events
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k = highgui.cvWaitKey (5);
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if (k == 27)
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## user has press the ESC key, so exit
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break;
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endif
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endwhile
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