Mercurial > hg > orthanc
view OrthancFramework/UnitTestsSources/ImageProcessingTests.cpp @ 5836:618d44e0e714 find-refactoring
renamed QueryMetadata into MetadataQuery
author | Alain Mazy <am@orthanc.team> |
---|---|
date | Mon, 14 Oct 2024 16:00:55 +0200 |
parents | f7adfb22e20e |
children |
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/** * Orthanc - A Lightweight, RESTful DICOM Store * Copyright (C) 2012-2016 Sebastien Jodogne, Medical Physics * Department, University Hospital of Liege, Belgium * Copyright (C) 2017-2023 Osimis S.A., Belgium * Copyright (C) 2024-2024 Orthanc Team SRL, Belgium * Copyright (C) 2021-2024 Sebastien Jodogne, ICTEAM UCLouvain, Belgium * * This program is free software: you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public License * as published by the Free Software Foundation, either version 3 of * the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this program. If not, see * <http://www.gnu.org/licenses/>. **/ #if ORTHANC_UNIT_TESTS_LINK_FRAMEWORK == 1 // Must be the first to be sure to use the Orthanc framework shared library # include <OrthancFramework.h> #endif #include <gtest/gtest.h> #include "../Sources/Compatibility.h" #include "../Sources/DicomFormat/DicomImageInformation.h" #include "../Sources/Images/Image.h" #include "../Sources/Images/ImageProcessing.h" #include "../Sources/Images/ImageTraits.h" #include "../Sources/OrthancException.h" #include <memory> using namespace Orthanc; TEST(DicomImageInformation, ExtractPixelFormat1) { // Cardiac/MR* DicomMap m; m.SetValue(DICOM_TAG_ROWS, "24", false); m.SetValue(DICOM_TAG_COLUMNS, "16", false); m.SetValue(DICOM_TAG_BITS_ALLOCATED, "16", false); m.SetValue(DICOM_TAG_SAMPLES_PER_PIXEL, "1", false); m.SetValue(DICOM_TAG_BITS_STORED, "12", false); m.SetValue(DICOM_TAG_HIGH_BIT, "11", false); m.SetValue(DICOM_TAG_PIXEL_REPRESENTATION, "0", false); m.SetValue(DICOM_TAG_PHOTOMETRIC_INTERPRETATION, "MONOCHROME2", false); DicomImageInformation info(m); PixelFormat format; ASSERT_TRUE(info.ExtractPixelFormat(format, false)); ASSERT_EQ(PixelFormat_Grayscale16, format); } TEST(DicomImageInformation, ExtractPixelFormat2) { // Delphine CT DicomMap m; m.SetValue(DICOM_TAG_ROWS, "24", false); m.SetValue(DICOM_TAG_COLUMNS, "16", false); m.SetValue(DICOM_TAG_BITS_ALLOCATED, "16", false); m.SetValue(DICOM_TAG_SAMPLES_PER_PIXEL, "1", false); m.SetValue(DICOM_TAG_BITS_STORED, "16", false); m.SetValue(DICOM_TAG_HIGH_BIT, "15", false); m.SetValue(DICOM_TAG_PIXEL_REPRESENTATION, "1", false); m.SetValue(DICOM_TAG_PHOTOMETRIC_INTERPRETATION, "MONOCHROME2", false); DicomImageInformation info(m); PixelFormat format; ASSERT_TRUE(info.ExtractPixelFormat(format, false)); ASSERT_EQ(PixelFormat_SignedGrayscale16, format); } namespace { template <typename T> class TestImageTraits : public ::testing::Test { private: std::unique_ptr<Image> image_; protected: virtual void SetUp() ORTHANC_OVERRIDE { image_.reset(new Image(ImageTraits::PixelTraits::GetPixelFormat(), 7, 9, false)); } virtual void TearDown() ORTHANC_OVERRIDE { image_.reset(NULL); } public: typedef T ImageTraits; ImageAccessor& GetImage() { return *image_; } }; template <typename T> class TestIntegerImageTraits : public TestImageTraits<T> { }; } typedef ::testing::Types< ImageTraits<PixelFormat_Grayscale8>, ImageTraits<PixelFormat_Grayscale16>, ImageTraits<PixelFormat_SignedGrayscale16> > IntegerFormats; TYPED_TEST_CASE(TestIntegerImageTraits, IntegerFormats); typedef ::testing::Types< ImageTraits<PixelFormat_Grayscale8>, ImageTraits<PixelFormat_Grayscale16>, ImageTraits<PixelFormat_SignedGrayscale16>, ImageTraits<PixelFormat_RGB24>, ImageTraits<PixelFormat_BGRA32> > AllFormats; TYPED_TEST_CASE(TestImageTraits, AllFormats); TYPED_TEST(TestImageTraits, SetZero) { ImageAccessor& image = this->GetImage(); memset(image.GetBuffer(), 128, image.GetHeight() * image.GetWidth()); switch (image.GetFormat()) { case PixelFormat_Grayscale8: case PixelFormat_Grayscale16: case PixelFormat_SignedGrayscale16: ImageProcessing::Set(image, 0); break; case PixelFormat_RGB24: case PixelFormat_BGRA32: ImageProcessing::Set(image, 0, 0, 0, 0); break; default: ASSERT_TRUE(0); } typename TestFixture::ImageTraits::PixelType zero, value; TestFixture::ImageTraits::PixelTraits::SetZero(zero); for (unsigned int y = 0; y < image.GetHeight(); y++) { for (unsigned int x = 0; x < image.GetWidth(); x++) { TestFixture::ImageTraits::GetPixel(value, image, x, y); ASSERT_TRUE(TestFixture::ImageTraits::PixelTraits::IsEqual(zero, value)); } } } TYPED_TEST(TestIntegerImageTraits, SetZeroFloat) { ImageAccessor& image = this->GetImage(); memset(image.GetBuffer(), 128, image.GetHeight() * image.GetWidth()); float c = 0.0f; for (unsigned int y = 0; y < image.GetHeight(); y++) { for (unsigned int x = 0; x < image.GetWidth(); x++, c++) { TestFixture::ImageTraits::SetFloatPixel(image, c, x, y); } } c = 0.0f; for (unsigned int y = 0; y < image.GetHeight(); y++) { for (unsigned int x = 0; x < image.GetWidth(); x++, c++) { ASSERT_FLOAT_EQ(c, TestFixture::ImageTraits::GetFloatPixel(image, x, y)); } } } TYPED_TEST(TestIntegerImageTraits, FillPolygon) { ImageAccessor& image = this->GetImage(); ImageProcessing::Set(image, 128); // draw a triangle std::vector<ImageProcessing::ImagePoint> points; points.push_back(ImageProcessing::ImagePoint(1,1)); points.push_back(ImageProcessing::ImagePoint(1,5)); points.push_back(ImageProcessing::ImagePoint(5,5)); ImageProcessing::FillPolygon(image, points, 255); // outside polygon ASSERT_FLOAT_EQ(128, TestFixture::ImageTraits::GetFloatPixel(image, 0, 0)); ASSERT_FLOAT_EQ(128, TestFixture::ImageTraits::GetFloatPixel(image, 0, 6)); ASSERT_FLOAT_EQ(128, TestFixture::ImageTraits::GetFloatPixel(image, 6, 6)); ASSERT_FLOAT_EQ(128, TestFixture::ImageTraits::GetFloatPixel(image, 6, 0)); ASSERT_FLOAT_EQ(255, TestFixture::ImageTraits::GetFloatPixel(image, 1, 1)); ASSERT_FLOAT_EQ(255, TestFixture::ImageTraits::GetFloatPixel(image, 1, 2)); ASSERT_FLOAT_EQ(255, TestFixture::ImageTraits::GetFloatPixel(image, 1, 5)); ASSERT_FLOAT_EQ(255, TestFixture::ImageTraits::GetFloatPixel(image, 2, 4)); ASSERT_FLOAT_EQ(255, TestFixture::ImageTraits::GetFloatPixel(image, 5, 5)); } TYPED_TEST(TestIntegerImageTraits, FillPolygonLargerThanImage) { ImageAccessor& image = this->GetImage(); ImageProcessing::Set(image, 0); std::vector<ImageProcessing::ImagePoint> points; points.push_back(ImageProcessing::ImagePoint(0, 0)); points.push_back(ImageProcessing::ImagePoint(image.GetWidth(),0)); points.push_back(ImageProcessing::ImagePoint(image.GetWidth(),image.GetHeight())); points.push_back(ImageProcessing::ImagePoint(0,image.GetHeight())); ImageProcessing::FillPolygon(image, points, 255); for (unsigned int y = 0; y < image.GetHeight(); y++) { for (unsigned int x = 0; x < image.GetWidth(); x++) { ASSERT_FLOAT_EQ(255, TestFixture::ImageTraits::GetFloatPixel(image, x, y)); } } } TYPED_TEST(TestIntegerImageTraits, FillPolygonFullImage) { ImageAccessor& image = this->GetImage(); ImageProcessing::Set(image, 0); std::vector<ImageProcessing::ImagePoint> points; points.push_back(ImageProcessing::ImagePoint(0, 0)); points.push_back(ImageProcessing::ImagePoint(image.GetWidth() - 1,0)); points.push_back(ImageProcessing::ImagePoint(image.GetWidth() - 1,image.GetHeight() - 1)); points.push_back(ImageProcessing::ImagePoint(0,image.GetHeight() - 1)); ImageProcessing::FillPolygon(image, points, 255); ASSERT_FLOAT_EQ(255, TestFixture::ImageTraits::GetFloatPixel(image, 0, 0)); ASSERT_FLOAT_EQ(255, TestFixture::ImageTraits::GetFloatPixel(image, image.GetWidth() - 1, image.GetHeight() - 1)); } static void SetGrayscale8Pixel(ImageAccessor& image, unsigned int x, unsigned int y, uint8_t value) { ImageTraits<PixelFormat_Grayscale8>::SetPixel(image, value, x, y); } static bool TestGrayscale8Pixel(const ImageAccessor& image, unsigned int x, unsigned int y, uint8_t value) { PixelTraits<PixelFormat_Grayscale8>::PixelType p; ImageTraits<PixelFormat_Grayscale8>::GetPixel(p, image, x, y); if (p != value) printf("%d %d\n", p, value); return p == value; } static void SetGrayscale16Pixel(ImageAccessor& image, unsigned int x, unsigned int y, uint16_t value) { ImageTraits<PixelFormat_Grayscale16>::SetPixel(image, value, x, y); } static bool TestGrayscale16Pixel(const ImageAccessor& image, unsigned int x, unsigned int y, uint16_t value) { PixelTraits<PixelFormat_Grayscale16>::PixelType p; ImageTraits<PixelFormat_Grayscale16>::GetPixel(p, image, x, y); if (p != value) printf("%d %d\n", p, value); return p == value; } static void SetSignedGrayscale16Pixel(ImageAccessor& image, unsigned int x, unsigned int y, int16_t value) { ImageTraits<PixelFormat_SignedGrayscale16>::SetPixel(image, value, x, y); } static bool TestSignedGrayscale16Pixel(const ImageAccessor& image, unsigned int x, unsigned int y, int16_t value) { PixelTraits<PixelFormat_SignedGrayscale16>::PixelType p; ImageTraits<PixelFormat_SignedGrayscale16>::GetPixel(p, image, x, y); if (p != value) printf("%d %d\n", p, value); return p == value; } static void SetRGB24Pixel(ImageAccessor& image, unsigned int x, unsigned int y, uint8_t red, uint8_t green, uint8_t blue) { PixelTraits<PixelFormat_RGB24>::PixelType p; p.red_ = red; p.green_ = green; p.blue_ = blue; ImageTraits<PixelFormat_RGB24>::SetPixel(image, p, x, y); } static bool TestRGB24Pixel(const ImageAccessor& image, unsigned int x, unsigned int y, uint8_t red, uint8_t green, uint8_t blue) { PixelTraits<PixelFormat_RGB24>::PixelType p; ImageTraits<PixelFormat_RGB24>::GetPixel(p, image, x, y); bool ok = (p.red_ == red && p.green_ == green && p.blue_ == blue); if (!ok) printf("%d,%d,%d %d,%d,%d\n", p.red_, p.green_, p.blue_, red, green, blue); return ok; } TEST(ImageProcessing, FlipGrayscale8) { { Image image(PixelFormat_Grayscale8, 0, 0, false); ImageProcessing::FlipX(image); ImageProcessing::FlipY(image); } { Image image(PixelFormat_Grayscale8, 1, 1, false); SetGrayscale8Pixel(image, 0, 0, 128); ImageProcessing::FlipX(image); ImageProcessing::FlipY(image); ASSERT_TRUE(TestGrayscale8Pixel(image, 0, 0, 128)); } { Image image(PixelFormat_Grayscale8, 3, 2, false); SetGrayscale8Pixel(image, 0, 0, 10); SetGrayscale8Pixel(image, 1, 0, 20); SetGrayscale8Pixel(image, 2, 0, 30); SetGrayscale8Pixel(image, 0, 1, 40); SetGrayscale8Pixel(image, 1, 1, 50); SetGrayscale8Pixel(image, 2, 1, 60); ImageProcessing::FlipX(image); ASSERT_TRUE(TestGrayscale8Pixel(image, 0, 0, 30)); ASSERT_TRUE(TestGrayscale8Pixel(image, 1, 0, 20)); ASSERT_TRUE(TestGrayscale8Pixel(image, 2, 0, 10)); ASSERT_TRUE(TestGrayscale8Pixel(image, 0, 1, 60)); ASSERT_TRUE(TestGrayscale8Pixel(image, 1, 1, 50)); ASSERT_TRUE(TestGrayscale8Pixel(image, 2, 1, 40)); ImageProcessing::FlipY(image); ASSERT_TRUE(TestGrayscale8Pixel(image, 0, 0, 60)); ASSERT_TRUE(TestGrayscale8Pixel(image, 1, 0, 50)); ASSERT_TRUE(TestGrayscale8Pixel(image, 2, 0, 40)); ASSERT_TRUE(TestGrayscale8Pixel(image, 0, 1, 30)); ASSERT_TRUE(TestGrayscale8Pixel(image, 1, 1, 20)); ASSERT_TRUE(TestGrayscale8Pixel(image, 2, 1, 10)); } } TEST(ImageProcessing, FlipRGB24) { Image image(PixelFormat_RGB24, 2, 2, false); SetRGB24Pixel(image, 0, 0, 10, 100, 110); SetRGB24Pixel(image, 1, 0, 20, 100, 110); SetRGB24Pixel(image, 0, 1, 30, 100, 110); SetRGB24Pixel(image, 1, 1, 40, 100, 110); ImageProcessing::FlipX(image); ASSERT_TRUE(TestRGB24Pixel(image, 0, 0, 20, 100, 110)); ASSERT_TRUE(TestRGB24Pixel(image, 1, 0, 10, 100, 110)); ASSERT_TRUE(TestRGB24Pixel(image, 0, 1, 40, 100, 110)); ASSERT_TRUE(TestRGB24Pixel(image, 1, 1, 30, 100, 110)); ImageProcessing::FlipY(image); ASSERT_TRUE(TestRGB24Pixel(image, 0, 0, 40, 100, 110)); ASSERT_TRUE(TestRGB24Pixel(image, 1, 0, 30, 100, 110)); ASSERT_TRUE(TestRGB24Pixel(image, 0, 1, 20, 100, 110)); ASSERT_TRUE(TestRGB24Pixel(image, 1, 1, 10, 100, 110)); } TEST(ImageProcessing, ResizeBasicGrayscale8) { Image source(PixelFormat_Grayscale8, 2, 2, false); SetGrayscale8Pixel(source, 0, 0, 10); SetGrayscale8Pixel(source, 1, 0, 20); SetGrayscale8Pixel(source, 0, 1, 30); SetGrayscale8Pixel(source, 1, 1, 40); { Image target(PixelFormat_Grayscale8, 2, 4, false); ImageProcessing::Resize(target, source); ASSERT_TRUE(TestGrayscale8Pixel(target, 0, 0, 10)); ASSERT_TRUE(TestGrayscale8Pixel(target, 1, 0, 20)); ASSERT_TRUE(TestGrayscale8Pixel(target, 0, 1, 10)); ASSERT_TRUE(TestGrayscale8Pixel(target, 1, 1, 20)); ASSERT_TRUE(TestGrayscale8Pixel(target, 0, 2, 30)); ASSERT_TRUE(TestGrayscale8Pixel(target, 1, 2, 40)); ASSERT_TRUE(TestGrayscale8Pixel(target, 0, 3, 30)); ASSERT_TRUE(TestGrayscale8Pixel(target, 1, 3, 40)); } { Image target(PixelFormat_Grayscale8, 4, 2, false); ImageProcessing::Resize(target, source); ASSERT_TRUE(TestGrayscale8Pixel(target, 0, 0, 10)); ASSERT_TRUE(TestGrayscale8Pixel(target, 1, 0, 10)); ASSERT_TRUE(TestGrayscale8Pixel(target, 2, 0, 20)); ASSERT_TRUE(TestGrayscale8Pixel(target, 3, 0, 20)); ASSERT_TRUE(TestGrayscale8Pixel(target, 0, 1, 30)); ASSERT_TRUE(TestGrayscale8Pixel(target, 1, 1, 30)); ASSERT_TRUE(TestGrayscale8Pixel(target, 2, 1, 40)); ASSERT_TRUE(TestGrayscale8Pixel(target, 3, 1, 40)); } } TEST(ImageProcessing, ResizeBasicRGB24) { Image source(PixelFormat_RGB24, 2, 2, false); SetRGB24Pixel(source, 0, 0, 10, 100, 110); SetRGB24Pixel(source, 1, 0, 20, 100, 110); SetRGB24Pixel(source, 0, 1, 30, 100, 110); SetRGB24Pixel(source, 1, 1, 40, 100, 110); { Image target(PixelFormat_RGB24, 2, 4, false); ImageProcessing::Resize(target, source); ASSERT_TRUE(TestRGB24Pixel(target, 0, 0, 10, 100, 110)); ASSERT_TRUE(TestRGB24Pixel(target, 1, 0, 20, 100, 110)); ASSERT_TRUE(TestRGB24Pixel(target, 0, 1, 10, 100, 110)); ASSERT_TRUE(TestRGB24Pixel(target, 1, 1, 20, 100, 110)); ASSERT_TRUE(TestRGB24Pixel(target, 0, 2, 30, 100, 110)); ASSERT_TRUE(TestRGB24Pixel(target, 1, 2, 40, 100, 110)); ASSERT_TRUE(TestRGB24Pixel(target, 0, 3, 30, 100, 110)); ASSERT_TRUE(TestRGB24Pixel(target, 1, 3, 40, 100, 110)); } { Image target(PixelFormat_RGB24, 4, 2, false); ImageProcessing::Resize(target, source); ASSERT_TRUE(TestRGB24Pixel(target, 0, 0, 10, 100, 110)); ASSERT_TRUE(TestRGB24Pixel(target, 1, 0, 10, 100, 110)); ASSERT_TRUE(TestRGB24Pixel(target, 2, 0, 20, 100, 110)); ASSERT_TRUE(TestRGB24Pixel(target, 3, 0, 20, 100, 110)); ASSERT_TRUE(TestRGB24Pixel(target, 0, 1, 30, 100, 110)); ASSERT_TRUE(TestRGB24Pixel(target, 1, 1, 30, 100, 110)); ASSERT_TRUE(TestRGB24Pixel(target, 2, 1, 40, 100, 110)); ASSERT_TRUE(TestRGB24Pixel(target, 3, 1, 40, 100, 110)); } } TEST(ImageProcessing, ResizeEmptyGrayscale8) { { Image source(PixelFormat_Grayscale8, 0, 0, false); Image target(PixelFormat_Grayscale8, 2, 2, false); ImageProcessing::Resize(target, source); ASSERT_TRUE(TestGrayscale8Pixel(target, 0, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(target, 1, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(target, 0, 1, 0)); ASSERT_TRUE(TestGrayscale8Pixel(target, 1, 1, 0)); } { Image source(PixelFormat_Grayscale8, 2, 2, false); Image target(PixelFormat_Grayscale8, 0, 0, false); ImageProcessing::Resize(target, source); } } TEST(ImageProcessing, Convolution) { std::vector<float> k1(5, 1); std::vector<float> k2(1, 1); { Image image(PixelFormat_Grayscale8, 1, 1, false); SetGrayscale8Pixel(image, 0, 0, 100); ImageProcessing::SeparableConvolution(image, k1, 2, k2, 0, true /* round */); ASSERT_TRUE(TestGrayscale8Pixel(image, 0, 0, 100)); ImageProcessing::SeparableConvolution(image, k1, 2, k1, 2, true /* round */); ASSERT_TRUE(TestGrayscale8Pixel(image, 0, 0, 100)); ImageProcessing::SeparableConvolution(image, k2, 0, k1, 2, true /* round */); ASSERT_TRUE(TestGrayscale8Pixel(image, 0, 0, 100)); ImageProcessing::SeparableConvolution(image, k2, 0, k2, 0, true /* round */); ASSERT_TRUE(TestGrayscale8Pixel(image, 0, 0, 100)); } { Image image(PixelFormat_RGB24, 1, 1, false); SetRGB24Pixel(image, 0, 0, 10, 20, 30); ImageProcessing::SeparableConvolution(image, k1, 2, k2, 0, true /* round */); ASSERT_TRUE(TestRGB24Pixel(image, 0, 0, 10, 20, 30)); ImageProcessing::SeparableConvolution(image, k1, 2, k1, 2, true /* round */); ASSERT_TRUE(TestRGB24Pixel(image, 0, 0, 10, 20, 30)); ImageProcessing::SeparableConvolution(image, k2, 0, k1, 2, true /* round */); ASSERT_TRUE(TestRGB24Pixel(image, 0, 0, 10, 20, 30)); ImageProcessing::SeparableConvolution(image, k2, 0, k2, 0, true /* round */); ASSERT_TRUE(TestRGB24Pixel(image, 0, 0, 10, 20, 30)); } { Image dirac(PixelFormat_Grayscale8, 9, 1, false); ImageProcessing::Set(dirac, 0); SetGrayscale8Pixel(dirac, 4, 0, 100); { std::unique_ptr<ImageAccessor> image(Image::Clone(dirac)); ImageProcessing::SeparableConvolution(*image, k1, 2, k2, 0, true /* round */); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 1, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 2, 0, 20)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 3, 0, 20)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 4, 0, 20)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 5, 0, 20)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 6, 0, 20)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 7, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 8, 0, 0)); } { std::unique_ptr<ImageAccessor> image(Image::Clone(dirac)); ImageProcessing::SeparableConvolution(*image, k2, 0, k1, 2, true /* round */); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 1, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 2, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 3, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 4, 0, 100)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 5, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 6, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 7, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 8, 0, 0)); } { std::unique_ptr<ImageAccessor> image(Image::Clone(dirac)); ImageProcessing::SeparableConvolution(*image, k2, 0, k2, 0, true /* round */); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 1, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 2, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 3, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 4, 0, 100)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 5, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 6, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 7, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 8, 0, 0)); } } { Image dirac(PixelFormat_Grayscale8, 1, 9, false); ImageProcessing::Set(dirac, 0); SetGrayscale8Pixel(dirac, 0, 4, 100); { std::unique_ptr<ImageAccessor> image(Image::Clone(dirac)); ImageProcessing::SeparableConvolution(*image, k2, 0, k1, 2, true /* round */); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 1, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 2, 20)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 3, 20)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 4, 20)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 5, 20)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 6, 20)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 7, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 8, 0)); } { std::unique_ptr<ImageAccessor> image(Image::Clone(dirac)); ImageProcessing::SeparableConvolution(*image, k1, 2, k2, 0, true /* round */); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 1, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 2, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 3, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 4, 100)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 5, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 6, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 7, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 8, 0)); } { std::unique_ptr<ImageAccessor> image(Image::Clone(dirac)); ImageProcessing::SeparableConvolution(*image, k2, 0, k2, 0, true /* round */); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 1, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 2, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 3, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 4, 100)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 5, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 6, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 7, 0)); ASSERT_TRUE(TestGrayscale8Pixel(*image, 0, 8, 0)); } } { Image dirac(PixelFormat_RGB24, 9, 1, false); ImageProcessing::Set(dirac, 0); SetRGB24Pixel(dirac, 4, 0, 100, 120, 140); { std::unique_ptr<ImageAccessor> image(Image::Clone(dirac)); ImageProcessing::SeparableConvolution(*image, k1, 2, k2, 0, true /* round */); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 0, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 1, 0, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 2, 0, 20, 24, 28)); ASSERT_TRUE(TestRGB24Pixel(*image, 3, 0, 20, 24, 28)); ASSERT_TRUE(TestRGB24Pixel(*image, 4, 0, 20, 24, 28)); ASSERT_TRUE(TestRGB24Pixel(*image, 5, 0, 20, 24, 28)); ASSERT_TRUE(TestRGB24Pixel(*image, 6, 0, 20, 24, 28)); ASSERT_TRUE(TestRGB24Pixel(*image, 7, 0, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 8, 0, 0, 0, 0)); } { std::unique_ptr<ImageAccessor> image(Image::Clone(dirac)); ImageProcessing::SeparableConvolution(*image, k2, 0, k1, 2, true /* round */); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 0, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 1, 0, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 2, 0, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 3, 0, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 4, 0, 100, 120, 140)); ASSERT_TRUE(TestRGB24Pixel(*image, 5, 0, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 6, 0, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 7, 0, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 8, 0, 0, 0, 0)); } { std::unique_ptr<ImageAccessor> image(Image::Clone(dirac)); ImageProcessing::SeparableConvolution(*image, k2, 0, k2, 0, true /* round */); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 0, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 1, 0, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 2, 0, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 3, 0, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 4, 0, 100, 120, 140)); ASSERT_TRUE(TestRGB24Pixel(*image, 5, 0, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 6, 0, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 7, 0, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 8, 0, 0, 0, 0)); } } { Image dirac(PixelFormat_RGB24, 1, 9, false); ImageProcessing::Set(dirac, 0); SetRGB24Pixel(dirac, 0, 4, 100, 120, 140); { std::unique_ptr<ImageAccessor> image(Image::Clone(dirac)); ImageProcessing::SeparableConvolution(*image, k2, 0, k1, 2, true /* round */); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 0, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 1, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 2, 20, 24, 28)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 3, 20, 24, 28)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 4, 20, 24, 28)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 5, 20, 24, 28)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 6, 20, 24, 28)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 7, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 8, 0, 0, 0)); } { std::unique_ptr<ImageAccessor> image(Image::Clone(dirac)); ImageProcessing::SeparableConvolution(*image, k1, 2, k2, 0, true /* round */); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 0, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 1, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 2, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 3, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 4, 100, 120, 140)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 5, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 6, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 7, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 8, 0, 0, 0)); } { std::unique_ptr<ImageAccessor> image(Image::Clone(dirac)); ImageProcessing::SeparableConvolution(*image, k2, 0, k2, 0, true /* round */); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 0, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 1, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 2, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 3, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 4, 100, 120, 140)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 5, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 6, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 7, 0, 0, 0)); ASSERT_TRUE(TestRGB24Pixel(*image, 0, 8, 0, 0, 0)); } } } TEST(ImageProcessing, SmoothGaussian5x5) { /** Test the point spread function, as can be seen in Octave: g1 = [ 1 4 6 4 1 ]; g1 /= sum(g1); g2 = conv2(g1, g1'); floor(conv2(diag([ 0 0 100 0 0 ]), g2, 'same')) % red/green channels floor(conv2(diag([ 0 0 200 0 0 ]), g2, 'same')) % blue channel **/ { Image image(PixelFormat_Grayscale8, 5, 5, false); ImageProcessing::Set(image, 0); SetGrayscale8Pixel(image, 2, 2, 100); ImageProcessing::SmoothGaussian5x5(image, true /* round */); // In Octave: round(conv2([1 4 6 4 1],[1 4 6 4 1]')/256*100) ASSERT_TRUE(TestGrayscale8Pixel(image, 0, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(image, 1, 0, 2)); ASSERT_TRUE(TestGrayscale8Pixel(image, 2, 0, 2)); ASSERT_TRUE(TestGrayscale8Pixel(image, 3, 0, 2)); ASSERT_TRUE(TestGrayscale8Pixel(image, 4, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(image, 0, 1, 2)); ASSERT_TRUE(TestGrayscale8Pixel(image, 1, 1, 6)); ASSERT_TRUE(TestGrayscale8Pixel(image, 2, 1, 9)); ASSERT_TRUE(TestGrayscale8Pixel(image, 3, 1, 6)); ASSERT_TRUE(TestGrayscale8Pixel(image, 4, 1, 2)); ASSERT_TRUE(TestGrayscale8Pixel(image, 0, 2, 2)); ASSERT_TRUE(TestGrayscale8Pixel(image, 1, 2, 9)); ASSERT_TRUE(TestGrayscale8Pixel(image, 2, 2, 14)); ASSERT_TRUE(TestGrayscale8Pixel(image, 3, 2, 9)); ASSERT_TRUE(TestGrayscale8Pixel(image, 4, 2, 2)); ASSERT_TRUE(TestGrayscale8Pixel(image, 0, 3, 2)); ASSERT_TRUE(TestGrayscale8Pixel(image, 1, 3, 6)); ASSERT_TRUE(TestGrayscale8Pixel(image, 2, 3, 9)); ASSERT_TRUE(TestGrayscale8Pixel(image, 3, 3, 6)); ASSERT_TRUE(TestGrayscale8Pixel(image, 4, 3, 2)); ASSERT_TRUE(TestGrayscale8Pixel(image, 0, 4, 0)); ASSERT_TRUE(TestGrayscale8Pixel(image, 1, 4, 2)); ASSERT_TRUE(TestGrayscale8Pixel(image, 2, 4, 2)); ASSERT_TRUE(TestGrayscale8Pixel(image, 3, 4, 2)); ASSERT_TRUE(TestGrayscale8Pixel(image, 4, 4, 0)); } { Image image(PixelFormat_RGB24, 5, 5, false); ImageProcessing::Set(image, 0); SetRGB24Pixel(image, 2, 2, 100, 100, 200); ImageProcessing::SmoothGaussian5x5(image, true /* round */); // In Octave: // R,G = round(conv2([1 4 6 4 1],[1 4 6 4 1]')/256*100) // B = round(conv2([1 4 6 4 1],[1 4 6 4 1]')/256*200) ASSERT_TRUE(TestRGB24Pixel(image, 0, 0, 0, 0, 1)); ASSERT_TRUE(TestRGB24Pixel(image, 1, 0, 2, 2, 3)); ASSERT_TRUE(TestRGB24Pixel(image, 2, 0, 2, 2, 5)); ASSERT_TRUE(TestRGB24Pixel(image, 3, 0, 2, 2, 3)); ASSERT_TRUE(TestRGB24Pixel(image, 4, 0, 0, 0, 1)); ASSERT_TRUE(TestRGB24Pixel(image, 0, 1, 2, 2, 3)); ASSERT_TRUE(TestRGB24Pixel(image, 1, 1, 6, 6, 13)); ASSERT_TRUE(TestRGB24Pixel(image, 2, 1, 9, 9, 19)); ASSERT_TRUE(TestRGB24Pixel(image, 3, 1, 6, 6, 13)); ASSERT_TRUE(TestRGB24Pixel(image, 4, 1, 2, 2, 3)); ASSERT_TRUE(TestRGB24Pixel(image, 0, 2, 2, 2, 5)); ASSERT_TRUE(TestRGB24Pixel(image, 1, 2, 9, 9, 19)); ASSERT_TRUE(TestRGB24Pixel(image, 2, 2, 14, 14, 28)); ASSERT_TRUE(TestRGB24Pixel(image, 3, 2, 9, 9, 19)); ASSERT_TRUE(TestRGB24Pixel(image, 4, 2, 2, 2, 5)); ASSERT_TRUE(TestRGB24Pixel(image, 0, 3, 2, 2, 3)); ASSERT_TRUE(TestRGB24Pixel(image, 1, 3, 6, 6, 13)); ASSERT_TRUE(TestRGB24Pixel(image, 2, 3, 9, 9, 19)); ASSERT_TRUE(TestRGB24Pixel(image, 3, 3, 6, 6, 13)); ASSERT_TRUE(TestRGB24Pixel(image, 4, 3, 2, 2, 3)); ASSERT_TRUE(TestRGB24Pixel(image, 0, 4, 0, 0, 1)); ASSERT_TRUE(TestRGB24Pixel(image, 1, 4, 2, 2, 3)); ASSERT_TRUE(TestRGB24Pixel(image, 2, 4, 2, 2, 5)); ASSERT_TRUE(TestRGB24Pixel(image, 3, 4, 2, 2, 3)); ASSERT_TRUE(TestRGB24Pixel(image, 4, 4, 0, 0, 1)); } } TEST(ImageProcessing, ApplyWindowingFloatToGrayScale8) { { Image image(PixelFormat_Float32, 6, 1, false); ImageTraits<PixelFormat_Float32>::SetFloatPixel(image, -5.0f, 0, 0); ImageTraits<PixelFormat_Float32>::SetFloatPixel(image, 0.0f, 1, 0); ImageTraits<PixelFormat_Float32>::SetFloatPixel(image, 5.0f, 2, 0); ImageTraits<PixelFormat_Float32>::SetFloatPixel(image, 10.0f, 3, 0); ImageTraits<PixelFormat_Float32>::SetFloatPixel(image, 1000.0f, 4, 0); ImageTraits<PixelFormat_Float32>::SetFloatPixel(image, 2.0f, 5, 0); { Image target(PixelFormat_Grayscale8, 6, 1, false); ImageProcessing::ApplyWindowing_Deprecated(target, image, 5.0f, 10.0f, 1.0f, 0.0f, false); ASSERT_TRUE(TestGrayscale8Pixel(target, 0, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(target, 1, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(target, 2, 0, 128)); ASSERT_TRUE(TestGrayscale8Pixel(target, 3, 0, 255)); ASSERT_TRUE(TestGrayscale8Pixel(target, 4, 0, 255)); ASSERT_TRUE(TestGrayscale8Pixel(target, 5, 0, 255*2/10)); } { Image target(PixelFormat_Grayscale8, 6, 1, false); ImageProcessing::ApplyWindowing_Deprecated(target, image, 5.0f, 10.0f, 1.0f, 0.0f, true); ASSERT_TRUE(TestGrayscale8Pixel(target, 0, 0, 255)); ASSERT_TRUE(TestGrayscale8Pixel(target, 1, 0, 255)); ASSERT_TRUE(TestGrayscale8Pixel(target, 2, 0, 127)); ASSERT_TRUE(TestGrayscale8Pixel(target, 3, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(target, 4, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(target, 5, 0, 255 - 255*2/10)); } { Image target(PixelFormat_Grayscale8, 6, 1, false); ImageProcessing::ApplyWindowing_Deprecated(target, image, 5000.0f, 10000.01f, 1000.0f, 0.0f, false); ASSERT_TRUE(TestGrayscale8Pixel(target, 0, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(target, 1, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(target, 2, 0, 128)); ASSERT_TRUE(TestGrayscale8Pixel(target, 3, 0, 255)); ASSERT_TRUE(TestGrayscale8Pixel(target, 4, 0, 255)); ASSERT_TRUE(TestGrayscale8Pixel(target, 5, 0, 255*2/10)); } { Image target(PixelFormat_Grayscale8, 6, 1, false); ImageProcessing::ApplyWindowing_Deprecated(target, image, 5000.0f, 10000.01f, 1000.0f, 0.0f, true); ASSERT_TRUE(TestGrayscale8Pixel(target, 0, 0, 255)); ASSERT_TRUE(TestGrayscale8Pixel(target, 1, 0, 255)); ASSERT_TRUE(TestGrayscale8Pixel(target, 2, 0, 127)); ASSERT_TRUE(TestGrayscale8Pixel(target, 3, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(target, 4, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(target, 5, 0, 255 - 256*2/10)); } { Image target(PixelFormat_Grayscale8, 6, 1, false); ImageProcessing::ApplyWindowing_Deprecated(target, image, 50.0f, 100.1f, 10.0f, 30.0f, false); ASSERT_TRUE(TestGrayscale8Pixel(target, 0, 0, 0)); // (-5 * 10) + 30 => pixel value = -20 => 0 ASSERT_TRUE(TestGrayscale8Pixel(target, 1, 0, 256*30/100)); // ((0 * 10) + 30 => pixel value = 30 => 30% ASSERT_TRUE(TestGrayscale8Pixel(target, 2, 0, 256*80/100)); // ((5 * 10) + 30 => pixel value = 80 => 80% ASSERT_TRUE(TestGrayscale8Pixel(target, 3, 0, 255)); // ((10 * 10) + 30 => pixel value = 130 => 100% ASSERT_TRUE(TestGrayscale8Pixel(target, 4, 0, 255)); // ((1000 * 10) + 30 => pixel value = 10030 => 100% ASSERT_TRUE(TestGrayscale8Pixel(target, 5, 0, 128)); // ((2 * 10) + 30 => pixel value = 50 => 50% } } } TEST(ImageProcessing, ApplyWindowingFloatToGrayScale16) { { Image image(PixelFormat_Float32, 6, 1, false); ImageTraits<PixelFormat_Float32>::SetFloatPixel(image, -5.0f, 0, 0); ImageTraits<PixelFormat_Float32>::SetFloatPixel(image, 0.0f, 1, 0); ImageTraits<PixelFormat_Float32>::SetFloatPixel(image, 5.0f, 2, 0); ImageTraits<PixelFormat_Float32>::SetFloatPixel(image, 10.0f, 3, 0); ImageTraits<PixelFormat_Float32>::SetFloatPixel(image, 1000.0f, 4, 0); ImageTraits<PixelFormat_Float32>::SetFloatPixel(image, 2.0f, 5, 0); { Image target(PixelFormat_Grayscale16, 6, 1, false); ImageProcessing::ApplyWindowing_Deprecated(target, image, 5.0f, 10.0f, 1.0f, 0.0f, false); ASSERT_TRUE(TestGrayscale16Pixel(target, 0, 0, 0)); ASSERT_TRUE(TestGrayscale16Pixel(target, 1, 0, 0)); ASSERT_TRUE(TestGrayscale16Pixel(target, 2, 0, 32768)); ASSERT_TRUE(TestGrayscale16Pixel(target, 3, 0, 65535)); ASSERT_TRUE(TestGrayscale16Pixel(target, 4, 0, 65535)); ASSERT_TRUE(TestGrayscale16Pixel(target, 5, 0, 65536*2/10)); } } } TEST(ImageProcessing, ApplyWindowingGrayScale8ToGrayScale16) { { Image image(PixelFormat_Grayscale8, 5, 1, false); SetGrayscale8Pixel(image, 0, 0, 0); SetGrayscale8Pixel(image, 1, 0, 2); SetGrayscale8Pixel(image, 2, 0, 5); SetGrayscale8Pixel(image, 3, 0, 10); SetGrayscale8Pixel(image, 4, 0, 255); { Image target(PixelFormat_Grayscale16, 5, 1, false); ImageProcessing::ApplyWindowing_Deprecated(target, image, 5.0f, 10.0f, 1.0f, 0.0f, false); ASSERT_TRUE(TestGrayscale16Pixel(target, 0, 0, 0)); ASSERT_TRUE(TestGrayscale16Pixel(target, 1, 0, 65536*2/10)); ASSERT_TRUE(TestGrayscale16Pixel(target, 2, 0, 65536*5/10)); ASSERT_TRUE(TestGrayscale16Pixel(target, 3, 0, 65535)); ASSERT_TRUE(TestGrayscale16Pixel(target, 4, 0, 65535)); } } } TEST(ImageProcessing, ApplyWindowingGrayScale16ToGrayScale16) { { Image image(PixelFormat_Grayscale16, 5, 1, false); SetGrayscale16Pixel(image, 0, 0, 0); SetGrayscale16Pixel(image, 1, 0, 2); SetGrayscale16Pixel(image, 2, 0, 5); SetGrayscale16Pixel(image, 3, 0, 10); SetGrayscale16Pixel(image, 4, 0, 255); { Image target(PixelFormat_Grayscale16, 5, 1, false); ImageProcessing::ApplyWindowing_Deprecated(target, image, 5.0f, 10.0f, 1.0f, 0.0f, false); ASSERT_TRUE(TestGrayscale16Pixel(target, 0, 0, 0)); ASSERT_TRUE(TestGrayscale16Pixel(target, 1, 0, 65536*2/10)); ASSERT_TRUE(TestGrayscale16Pixel(target, 2, 0, 65536*5/10)); ASSERT_TRUE(TestGrayscale16Pixel(target, 3, 0, 65535)); ASSERT_TRUE(TestGrayscale16Pixel(target, 4, 0, 65535)); } } } TEST(ImageProcessing, ShiftScaleGrayscale8) { Image image(PixelFormat_Grayscale8, 5, 1, false); SetGrayscale8Pixel(image, 0, 0, 0); SetGrayscale8Pixel(image, 1, 0, 2); SetGrayscale8Pixel(image, 2, 0, 5); SetGrayscale8Pixel(image, 3, 0, 10); SetGrayscale8Pixel(image, 4, 0, 255); ImageProcessing::ShiftScale(image, -1.1f, 1.5f, true); ASSERT_TRUE(TestGrayscale8Pixel(image, 0, 0, 0)); // (0 - 1.1) * 1.5 = -1.65 ==> 0 ASSERT_TRUE(TestGrayscale8Pixel(image, 1, 0, 1)); // (2 - 1.1) * 1.5 = 1.35 => 1 ASSERT_TRUE(TestGrayscale8Pixel(image, 2, 0, 6)); // (5 - 1.1) * 1.5 = 5.85 => 6 ASSERT_TRUE(TestGrayscale8Pixel(image, 3, 0, 13)); // (10 - 1.1) * 1.5 = 13.35 => 13 ASSERT_TRUE(TestGrayscale8Pixel(image, 4, 0, 255)); } TEST(ImageProcessing, Grayscale8_Identity) { Image image(PixelFormat_Float32, 5, 1, false); ImageTraits<PixelFormat_Float32>::SetPixel(image, 0, 0, 0); ImageTraits<PixelFormat_Float32>::SetPixel(image, 2.5, 1, 0); ImageTraits<PixelFormat_Float32>::SetPixel(image, 5.5, 2, 0); ImageTraits<PixelFormat_Float32>::SetPixel(image, 10.5, 3, 0); ImageTraits<PixelFormat_Float32>::SetPixel(image, 255.5, 4, 0); Image image2(PixelFormat_Grayscale8, 5, 1, false); ImageProcessing::ShiftScale(image2, image, 0, 1, false); ASSERT_TRUE(TestGrayscale8Pixel(image2, 0, 0, 0)); ASSERT_TRUE(TestGrayscale8Pixel(image2, 1, 0, 2)); ASSERT_TRUE(TestGrayscale8Pixel(image2, 2, 0, 5)); ASSERT_TRUE(TestGrayscale8Pixel(image2, 3, 0, 10)); ASSERT_TRUE(TestGrayscale8Pixel(image2, 4, 0, 255)); } TEST(ImageProcessing, ShiftScaleGrayscale16) { Image image(PixelFormat_Grayscale16, 5, 1, false); SetGrayscale16Pixel(image, 0, 0, 0); SetGrayscale16Pixel(image, 1, 0, 2); SetGrayscale16Pixel(image, 2, 0, 5); SetGrayscale16Pixel(image, 3, 0, 10); SetGrayscale16Pixel(image, 4, 0, 255); ImageProcessing::ShiftScale(image, -1.1f, 1.5f, true); ASSERT_TRUE(TestGrayscale16Pixel(image, 0, 0, 0)); ASSERT_TRUE(TestGrayscale16Pixel(image, 1, 0, 1)); ASSERT_TRUE(TestGrayscale16Pixel(image, 2, 0, 6)); ASSERT_TRUE(TestGrayscale16Pixel(image, 3, 0, 13)); ASSERT_TRUE(TestGrayscale16Pixel(image, 4, 0, 381)); } TEST(ImageProcessing, ShiftScaleSignedGrayscale16) { Image image(PixelFormat_SignedGrayscale16, 5, 1, false); SetSignedGrayscale16Pixel(image, 0, 0, 0); SetSignedGrayscale16Pixel(image, 1, 0, 2); SetSignedGrayscale16Pixel(image, 2, 0, 5); SetSignedGrayscale16Pixel(image, 3, 0, 10); SetSignedGrayscale16Pixel(image, 4, 0, 255); ImageProcessing::ShiftScale(image, -17.1f, 11.5f, true); ASSERT_TRUE(TestSignedGrayscale16Pixel(image, 0, 0, -197)); ASSERT_TRUE(TestSignedGrayscale16Pixel(image, 1, 0, -174)); ASSERT_TRUE(TestSignedGrayscale16Pixel(image, 2, 0, -139)); ASSERT_TRUE(TestSignedGrayscale16Pixel(image, 3, 0, -82)); ASSERT_TRUE(TestSignedGrayscale16Pixel(image, 4, 0, 2736)); } TEST(ImageProcessing, ShiftScaleSignedGrayscale16_Identity) { Image image(PixelFormat_SignedGrayscale16, 5, 1, false); SetSignedGrayscale16Pixel(image, 0, 0, 0); SetSignedGrayscale16Pixel(image, 1, 0, 2); SetSignedGrayscale16Pixel(image, 2, 0, 5); SetSignedGrayscale16Pixel(image, 3, 0, 10); SetSignedGrayscale16Pixel(image, 4, 0, 255); ImageProcessing::ShiftScale(image, 0, 1, true); ASSERT_TRUE(TestSignedGrayscale16Pixel(image, 0, 0, 0)); ASSERT_TRUE(TestSignedGrayscale16Pixel(image, 1, 0, 2)); ASSERT_TRUE(TestSignedGrayscale16Pixel(image, 2, 0, 5)); ASSERT_TRUE(TestSignedGrayscale16Pixel(image, 3, 0, 10)); ASSERT_TRUE(TestSignedGrayscale16Pixel(image, 4, 0, 255)); } TEST(ImageProcessing, ShiftFloatBuggy) { // This test failed in Orthanc 1.10.1 Image image(PixelFormat_Float32, 3, 1, false); ImageTraits<PixelFormat_Float32>::SetFloatPixel(image, -1.0f, 0, 0); ImageTraits<PixelFormat_Float32>::SetFloatPixel(image, 0.0f, 1, 0); ImageTraits<PixelFormat_Float32>::SetFloatPixel(image, 1.0f, 2, 0); std::unique_ptr<Image> cloned(Image::Clone(image)); ImageProcessing::ShiftScale2(image, 0, 0.000539, true); ASSERT_FLOAT_EQ(-0.000539f, ImageTraits<PixelFormat_Float32>::GetFloatPixel(image, 0, 0)); ASSERT_FLOAT_EQ(0.0f, ImageTraits<PixelFormat_Float32>::GetFloatPixel(image, 1, 0)); ASSERT_FLOAT_EQ(0.000539f, ImageTraits<PixelFormat_Float32>::GetFloatPixel(image, 2, 0)); ImageProcessing::ShiftScale2(*cloned, 0, 0.000539, false); ASSERT_FLOAT_EQ(-0.000539f, ImageTraits<PixelFormat_Float32>::GetFloatPixel(*cloned, 0, 0)); ASSERT_FLOAT_EQ(0.0f, ImageTraits<PixelFormat_Float32>::GetFloatPixel(*cloned, 1, 0)); ASSERT_FLOAT_EQ(0.000539f, ImageTraits<PixelFormat_Float32>::GetFloatPixel(*cloned, 2, 0)); } TEST(ImageProcessing, ShiftScale2) { std::vector<float> va; va.push_back(0); va.push_back(-10); va.push_back(5); std::vector<float> vb; vb.push_back(0); vb.push_back(-42); vb.push_back(42); Image source(PixelFormat_Float32, 1, 1, false); ImageTraits<PixelFormat_Float32>::SetFloatPixel(source, 10, 0, 0); for (std::vector<float>::const_iterator a = va.begin(); a != va.end(); ++a) { for (std::vector<float>::const_iterator b = vb.begin(); b != vb.end(); ++b) { Image target(PixelFormat_Float32, 1, 1, false); ImageProcessing::Copy(target, source); ImageProcessing::ShiftScale2(target, *b, *a, false); ASSERT_FLOAT_EQ((*a) * 10.0f + (*b), ImageTraits<PixelFormat_Float32>::GetFloatPixel(target, 0, 0)); ImageProcessing::Copy(target, source); ImageProcessing::ShiftScale(target, *b, *a, false); ASSERT_FLOAT_EQ((*a) * (10.0f + (*b)), ImageTraits<PixelFormat_Float32>::GetFloatPixel(target, 0, 0)); } } } namespace { class PolygonSegments : public ImageProcessing::IPolygonFiller { private: std::vector<int> y_, x1_, x2_; public: virtual void Fill(int y, int x1, int x2) ORTHANC_OVERRIDE { assert(x1 <= x2); y_.push_back(y); x1_.push_back(x1); x2_.push_back(x2); } size_t GetSize() const { return y_.size(); } int GetY(size_t i) const { return y_[i]; } int GetX1(size_t i) const { return x1_[i]; } int GetX2(size_t i) const { return x2_[i]; } }; } static bool LookupSegment(unsigned int& x1, unsigned int& x2, const Orthanc::ImageAccessor& image, unsigned int y) { const uint8_t* p = reinterpret_cast<const uint8_t*>(image.GetConstRow(y)); bool allZeros = true; for (unsigned int i = 0; i < image.GetWidth(); i++) { if (p[i] == 255) { allZeros = false; break; } else if (p[i] > 0) { return false; // error } } if (allZeros) { return false; } x1 = 0; while (p[x1] == 0) { x1++; } x2 = image.GetWidth() - 1; while (p[x2] == 0) { x2--; } for (unsigned int i = x1; i <= x2; i++) { if (p[i] != 255) { return false; } } return true; } TEST(ImageProcessing, FillPolygon) { { // Empty std::vector<ImageProcessing::ImagePoint> polygon; PolygonSegments segments; ImageProcessing::FillPolygon(segments, polygon); ASSERT_EQ(0u, segments.GetSize()); } { // One point std::vector<ImageProcessing::ImagePoint> polygon; polygon.push_back(ImageProcessing::ImagePoint(288, 208)); PolygonSegments segments; ImageProcessing::FillPolygon(segments, polygon); ASSERT_EQ(0u, segments.GetSize()); } { // One horizontal segment std::vector<ImageProcessing::ImagePoint> polygon; polygon.push_back(ImageProcessing::ImagePoint(10, 100)); polygon.push_back(ImageProcessing::ImagePoint(50, 100)); PolygonSegments segments; ImageProcessing::FillPolygon(segments, polygon); ASSERT_EQ(1u, segments.GetSize()); ASSERT_EQ(100, segments.GetY(0)); ASSERT_EQ(10, segments.GetX1(0)); ASSERT_EQ(50, segments.GetX2(0)); } { // Set of horizontal segments std::vector<ImageProcessing::ImagePoint> polygon; polygon.push_back(ImageProcessing::ImagePoint(10, 100)); polygon.push_back(ImageProcessing::ImagePoint(20, 100)); polygon.push_back(ImageProcessing::ImagePoint(30, 100)); polygon.push_back(ImageProcessing::ImagePoint(50, 100)); PolygonSegments segments; ImageProcessing::FillPolygon(segments, polygon); ASSERT_EQ(1u, segments.GetSize()); ASSERT_EQ(100, segments.GetY(0)); ASSERT_EQ(10, segments.GetX1(0)); ASSERT_EQ(50, segments.GetX2(0)); } { // Set of vertical segments std::vector<ImageProcessing::ImagePoint> polygon; polygon.push_back(ImageProcessing::ImagePoint(10, 100)); polygon.push_back(ImageProcessing::ImagePoint(10, 102)); polygon.push_back(ImageProcessing::ImagePoint(10, 105)); PolygonSegments segments; ImageProcessing::FillPolygon(segments, polygon); ASSERT_EQ(6u, segments.GetSize()); for (size_t i = 0; i < segments.GetSize(); i++) { ASSERT_EQ(100 + static_cast<int>(i), segments.GetY(i)); ASSERT_EQ(10, segments.GetX1(i)); ASSERT_EQ(10, segments.GetX2(i)); } } { // One diagonal segment std::vector<ImageProcessing::ImagePoint> polygon; polygon.push_back(ImageProcessing::ImagePoint(10, 100)); polygon.push_back(ImageProcessing::ImagePoint(11, 101)); polygon.push_back(ImageProcessing::ImagePoint(13, 103)); PolygonSegments segments; ImageProcessing::FillPolygon(segments, polygon); ASSERT_EQ(4u, segments.GetSize()); ASSERT_EQ(100, segments.GetY(0)); ASSERT_EQ(10, segments.GetX1(0)); ASSERT_EQ(10, segments.GetX2(0)); ASSERT_EQ(101, segments.GetY(1)); ASSERT_EQ(11, segments.GetX1(1)); ASSERT_EQ(11, segments.GetX2(1)); ASSERT_EQ(102, segments.GetY(2)); ASSERT_EQ(12, segments.GetX1(2)); ASSERT_EQ(12, segments.GetX2(2)); ASSERT_EQ(103, segments.GetY(3)); ASSERT_EQ(13, segments.GetX1(3)); ASSERT_EQ(13, segments.GetX2(3)); } { // "M" shape std::vector<ImageProcessing::ImagePoint> polygon; polygon.push_back(ImageProcessing::ImagePoint(5, 5)); polygon.push_back(ImageProcessing::ImagePoint(7, 7)); polygon.push_back(ImageProcessing::ImagePoint(9, 5)); polygon.push_back(ImageProcessing::ImagePoint(9, 8)); polygon.push_back(ImageProcessing::ImagePoint(5, 8)); PolygonSegments segments; ImageProcessing::FillPolygon(segments, polygon); ASSERT_EQ(6u, segments.GetSize()); ASSERT_EQ(5, segments.GetY(0)); ASSERT_EQ(5, segments.GetX1(0)); ASSERT_EQ(5, segments.GetX2(0)); ASSERT_EQ(5, segments.GetY(1)); ASSERT_EQ(9, segments.GetX1(1)); ASSERT_EQ(9, segments.GetX2(1)); ASSERT_EQ(6, segments.GetY(2)); ASSERT_EQ(5, segments.GetX1(2)); ASSERT_EQ(6, segments.GetX2(2)); ASSERT_EQ(6, segments.GetY(3)); ASSERT_EQ(8, segments.GetX1(3)); ASSERT_EQ(9, segments.GetX2(3)); ASSERT_EQ(7, segments.GetY(4)); ASSERT_EQ(5, segments.GetX1(4)); ASSERT_EQ(9, segments.GetX2(4)); ASSERT_EQ(8, segments.GetY(5)); ASSERT_EQ(5, segments.GetX1(5)); ASSERT_EQ(9, segments.GetX2(5)); } { // Rectangle std::vector<ImageProcessing::ImagePoint> polygon; polygon.push_back(ImageProcessing::ImagePoint(10, 50)); polygon.push_back(ImageProcessing::ImagePoint(200, 50)); polygon.push_back(ImageProcessing::ImagePoint(200, 100)); polygon.push_back(ImageProcessing::ImagePoint(10, 100)); PolygonSegments segments; ImageProcessing::FillPolygon(segments, polygon); ASSERT_EQ(51u, segments.GetSize()); for (size_t i = 0; i < segments.GetSize(); i++) { ASSERT_EQ(50 + static_cast<int>(i), segments.GetY(i)); ASSERT_EQ(10, segments.GetX1(i)); ASSERT_EQ(200, segments.GetX2(i)); } } { // Shape that goes outside of the image on the 4 borders std::vector<ImageProcessing::ImagePoint> polygon; polygon.push_back(ImageProcessing::ImagePoint(5, -5)); polygon.push_back(ImageProcessing::ImagePoint(40, 15)); polygon.push_back(ImageProcessing::ImagePoint(20, 32)); polygon.push_back(ImageProcessing::ImagePoint(-5, 27)); Image image(PixelFormat_Grayscale8, 30, 30, false); ImageProcessing::Set(image, 0); ImageProcessing::FillPolygon(image, polygon, 255); unsigned int x1, x2; ASSERT_TRUE(LookupSegment(x1, x2, image, 0)); ASSERT_EQ(3u, x1); ASSERT_EQ(14u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 1)); ASSERT_EQ(3u, x1); ASSERT_EQ(16u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 2)); ASSERT_EQ(2u, x1); ASSERT_EQ(18u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 3)); ASSERT_EQ(2u, x1); ASSERT_EQ(19u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 4)); ASSERT_EQ(2u, x1); ASSERT_EQ(21u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 5)); ASSERT_EQ(1u, x1); ASSERT_EQ(23u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 6)); ASSERT_EQ(1u, x1); ASSERT_EQ(25u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 7)); ASSERT_EQ(1u, x1); ASSERT_EQ(26u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 8)); ASSERT_EQ(0u, x1); ASSERT_EQ(28u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 9)); ASSERT_EQ(0u, x1); ASSERT_EQ(29u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 10)); ASSERT_EQ(0u, x1); ASSERT_EQ(29u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 11)); ASSERT_EQ(0u, x1); ASSERT_EQ(29u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 12)); ASSERT_EQ(0u, x1); ASSERT_EQ(29u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 13)); ASSERT_EQ(0u, x1); ASSERT_EQ(29u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 14)); ASSERT_EQ(0u, x1); ASSERT_EQ(29u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 15)); ASSERT_EQ(0u, x1); ASSERT_EQ(29u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 16)); ASSERT_EQ(0u, x1); ASSERT_EQ(29u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 17)); ASSERT_EQ(0u, x1); ASSERT_EQ(29u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 18)); ASSERT_EQ(0u, x1); ASSERT_EQ(29u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 19)); ASSERT_EQ(0u, x1); ASSERT_EQ(29u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 20)); ASSERT_EQ(0u, x1); ASSERT_EQ(29u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 21)); ASSERT_EQ(0u, x1); ASSERT_EQ(29u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 22)); ASSERT_EQ(0u, x1); ASSERT_EQ(29u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 23)); ASSERT_EQ(0u, x1); ASSERT_EQ(29u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 24)); ASSERT_EQ(0u, x1); ASSERT_EQ(29u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 25)); ASSERT_EQ(0u, x1); ASSERT_EQ(29u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 26)); ASSERT_EQ(0u, x1); ASSERT_EQ(28u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 27)); ASSERT_EQ(0u, x1); ASSERT_EQ(26u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 28)); ASSERT_EQ(0u, x1); ASSERT_EQ(25u, x2); ASSERT_TRUE(LookupSegment(x1, x2, image, 29)); ASSERT_EQ(5u, x1); ASSERT_EQ(24u, x2); } }