There is some problem with insertshape function in my matlab program

4 Ansichten (letzte 30 Tage)
% Define area threshold (e.g., 100 pixels)
areaThreshold = 500; % Set your desired threshold value here
% Read the TIFF image
image = imread('quartz1.tif');
% Convert to grayscale if not already
if size(image, 3) == 3
grayImage = rgb2gray(image);
else
grayImage = image;
end
% Apply Gaussian blur
blurredImage = imgaussfilt(grayImage, 2);
% Enhance contrast
enhancedImage = imadjust(blurredImage);
% Apply sharpening
sharpenedImage = imsharpen(enhancedImage);
% Detect edges
edges = edge(sharpenedImage, 'Canny');
% Find contours
contours = bwconncomp(edges);
% Calculate properties for each grain
stats = regionprops(contours, 'Area', 'Perimeter', 'MajorAxisLength', 'MinorAxisLength', 'Orientation', 'BoundingBox', 'PixelIdxList', 'Centroid');
% Process each grain
for i = 1:length(stats)
if stats(i).Area > areaThreshold
% Get the bounding box for each grain
bb = stats(i).BoundingBox;
grainRegion = imcrop(grayImage, bb);
% Create a new image to draw axes
grainImageWithAxes = cat(3, grainRegion, grainRegion, grainRegion);
% Get the ellipse properties
orientation = stats(i).Orientation;
majorAxisLength = stats(i).MajorAxisLength;
minorAxisLength = stats(i).MinorAxisLength;
perimeter = stats(i).Perimeter; % Perimeter value
centerX = stats(i).Centroid(1) - bb(1);
centerY = stats(i).Centroid(2) - bb(2);
% Compute the endpoints of the major and minor axes
majorAxisEnd1 = [centerX + majorAxisLength / 2 * cosd(orientation), centerY - majorAxisLength / 2 * sind(orientation)];
majorAxisEnd2 = [centerX - majorAxisLength / 2 * cosd(orientation), centerY + majorAxisLength / 2 * sind(orientation)];
minorAxisEnd1 = [centerX + minorAxisLength / 2 * cosd(orientation + 90), centerY - minorAxisLength / 2 * sind(orientation + 90)];
minorAxisEnd2 = [centerX - minorAxisLength / 2 * cosd(orientation + 90), centerY + minorAxisLength / 2 * sind(orientation + 90)];
% Ensure endpoints are within bounds of the image
majorAxisEnd1 = max(min(majorAxisEnd1, size(grainRegion, 2) - 1), 1);
majorAxisEnd2 = max(min(majorAxisEnd2, size(grainRegion, 2) - 1), 1);
minorAxisEnd1 = max(min(minorAxisEnd1, size(grainRegion, 2) - 1), 1);
minorAxisEnd2 = max(min(minorAxisEnd2, size(grainRegion, 2) - 1), 1);
% Draw the axes
grainImageWithAxes = insertShape(grainImageWithAxes, 'Line', [majorAxisEnd1, majorAxisEnd2], 'Color', 'red', 'LineWidth', 3);
grainImageWithAxes = insertShape(grainImageWithAxes, 'Line', [minorAxisEnd1, minorAxisEnd2], 'Color', 'blue', 'LineWidth', 3);
% Draw contour (perimeter)
contour = bwboundaries(contours.PixelIdxList{i});
contourVertices = contour{1} - [bb(1), bb(2)];
% Convert contourVertices to a cell array with one matrix
contourVerticesCell = {contourVertices};
% Draw the contour
grainImageWithAxes = insertShape(grainImageWithAxes, 'Polygon', 'Vertices', {contourVertices}, 'Color', 'green', 'LineWidth', 2);
% Add text annotations with larger font size
grainImageWithAxes = insertText(grainImageWithAxes, [10 10], sprintf('Major Axis: %.2f', majorAxisLength), 'FontSize', 12, 'TextColor', 'red', 'BoxColor', 'black');
grainImageWithAxes = insertText(grainImageWithAxes, [10 30], sprintf('Minor Axis: %.2f', minorAxisLength), 'FontSize', 12, 'TextColor', 'blue', 'BoxColor', 'black');
grainImageWithAxes = insertText(grainImageWithAxes, [10 50], sprintf('Perimeter: %.2f', perimeter), 'FontSize', 12, 'TextColor', 'green', 'BoxColor', 'black');
% Save the image with axes using PNG format
filename = sprintf('grain_%d_axes.png', i);
imwrite(grainImageWithAxes, filename, 'PNG');
% Display the image with axes
figure;
imshow(grainImageWithAxes);
title(sprintf('Sand Grain %d', i));
end
end
the error i am getting is
Error using insertShape
Expected POSITION to be one of these types:
cell
Error in insertShape>checkPosition (line 332)
validateattributes(position,{'cell'}, {'nonempty', 'vector'}, ...
Error in insertShape>validateAndParseInputs (line 256)
checkPosition(position, shape1);
Error in insertShape (line 129)
validateAndParseInputs(I, shape, position, varargin{:});
Error in untitled8 (line 74)
grainImageWithAxes = insertShape(grainImageWithAxes, 'Polygon', 'Vertices', {contourVertices}, 'Color', 'green', 'LineWidth', 2);

Antworten (1)

Karan Singh
Karan Singh am 25 Jul. 2024
It looks like there's an issue with the way the vertices are being passed to the insertShape function. The Vertices parameter expects a cell array. The conversion to a cell array is not being done correctly.
Here Is the corrected code.
% Define area threshold (e.g., 100 pixels)
areaThreshold = 500; % Set your desired threshold value here
% Read the TIFF image
unzip tiffbucket.zip
image = imread('indexedblobs.tiff');
% Convert to grayscale if not already
if size(image, 3) == 3
grayImage = rgb2gray(image);
else
grayImage = image;
end
% Apply Gaussian blur
blurredImage = imgaussfilt(grayImage, 2);
% Enhance contrast
enhancedImage = imadjust(blurredImage);
% Apply sharpening
sharpenedImage = imsharpen(enhancedImage);
% Detect edges
edges = edge(sharpenedImage, 'Canny');
% Find contours
contours = bwconncomp(edges);
% Calculate properties for each grain
stats = regionprops(contours, 'Area', 'Perimeter', 'MajorAxisLength', 'MinorAxisLength', 'Orientation', 'BoundingBox', 'PixelIdxList', 'Centroid');
% Process each grain
for i = 1:length(stats)
if stats(i).Area > areaThreshold
% Get the bounding box for each grain
bb = stats(i).BoundingBox;
grainRegion = imcrop(grayImage, bb);
% Create a new image to draw axes
grainImageWithAxes = cat(3, grainRegion, grainRegion, grainRegion);
% Get the ellipse properties
orientation = stats(i).Orientation;
majorAxisLength = stats(i).MajorAxisLength;
minorAxisLength = stats(i).MinorAxisLength;
perimeter = stats(i).Perimeter; % Perimeter value
centerX = stats(i).Centroid(1) - bb(1);
centerY = stats(i).Centroid(2) - bb(2);
% Compute the endpoints of the major and minor axes
majorAxisEnd1 = [centerX + majorAxisLength / 2 * cosd(orientation), centerY - majorAxisLength / 2 * sind(orientation)];
majorAxisEnd2 = [centerX - majorAxisLength / 2 * cosd(orientation), centerY + majorAxisLength / 2 * sind(orientation)];
minorAxisEnd1 = [centerX + minorAxisLength / 2 * cosd(orientation + 90), centerY - minorAxisLength / 2 * sind(orientation + 90)];
minorAxisEnd2 = [centerX - minorAxisLength / 2 * cosd(orientation + 90), centerY + minorAxisLength / 2 * sind(orientation + 90)];
% Ensure endpoints are within bounds of the image
majorAxisEnd1 = max(min(majorAxisEnd1, size(grainRegion, 2) - 1), 1);
majorAxisEnd2 = max(min(majorAxisEnd2, size(grainRegion, 2) - 1), 1);
minorAxisEnd1 = max(min(minorAxisEnd1, size(grainRegion, 2) - 1), 1);
minorAxisEnd2 = max(min(minorAxisEnd2, size(grainRegion, 2) - 1), 1);
% Draw the axes
grainImageWithAxes = insertShape(grainImageWithAxes, 'Line', [majorAxisEnd1, majorAxisEnd2], 'Color', 'red', 'LineWidth', 3);
grainImageWithAxes = insertShape(grainImageWithAxes, 'Line', [minorAxisEnd1, minorAxisEnd2], 'Color', 'blue', 'LineWidth', 3);
% Draw contour (perimeter)
contour = bwboundaries(contours.PixelIdxList{i});
contourVertices = contour{1} - [bb(1), bb(2)];
% Convert contourVertices to a cell array with one matrix
contourVerticesCell = {contourVertices};
% Draw the contour
grainImageWithAxes = insertShape(grainImageWithAxes, 'Polygon', contourVerticesCell, 'Color', 'green', 'LineWidth', 2);
% Add text annotations with larger font size
grainImageWithAxes = insertText(grainImageWithAxes, [10 10], sprintf('Major Axis: %.2f', majorAxisLength), 'FontSize', 12, 'TextColor', 'red', 'BoxColor', 'black');
grainImageWithAxes = insertText(grainImageWithAxes, [10 30], sprintf('Minor Axis: %.2f', minorAxisLength), 'FontSize', 12, 'TextColor', 'blue', 'BoxColor', 'black');
grainImageWithAxes = insertText(grainImageWithAxes, [10 50], sprintf('Perimeter: %.2f', perimeter), 'FontSize', 12, 'TextColor', 'green', 'BoxColor', 'black');
% Save the image with axes using PNG format
filename = sprintf('grain_%d_axes.png', i);
imwrite(grainImageWithAxes, filename, 'PNG');
% Display the image with axes
figure;
imshow(grainImageWithAxes);
title(sprintf('Sand Grain %d', i));
end
end

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