// // Copyright © 2017 Arm Ltd. All rights reserved. // See LICENSE file in the project root for full license information. // #pragma once #include #include #include #include #include class InferenceTestImageException : public armnn::Exception { public: using Exception::Exception; }; class InferenceTestImageLoadFailed : public InferenceTestImageException { public: using InferenceTestImageException::InferenceTestImageException; }; class InferenceTestImageOutOfBoundsAccess : public InferenceTestImageException { public: using InferenceTestImageException::InferenceTestImageException; }; class InferenceTestImageResizeFailed : public InferenceTestImageException { public: using InferenceTestImageException::InferenceTestImageException; }; class InferenceTestImageWriteFailed : public InferenceTestImageException { public: using InferenceTestImageException::InferenceTestImageException; }; class UnknownImageChannelLayout : public InferenceTestImageException { public: using InferenceTestImageException::InferenceTestImageException; }; class InferenceTestImage { public: enum class WriteFormat { Png, Bmp, Tga }; explicit InferenceTestImage(const char* filePath); InferenceTestImage(InferenceTestImage&&) = delete; InferenceTestImage(const InferenceTestImage&) = delete; InferenceTestImage& operator=(const InferenceTestImage&) = delete; InferenceTestImage& operator=(InferenceTestImage&&) = delete; unsigned int GetWidth() const { return m_Width; } unsigned int GetHeight() const { return m_Height; } unsigned int GetNumChannels() const { return m_NumChannels; } unsigned int GetNumElements() const { return GetWidth() * GetHeight() * GetNumChannels(); } unsigned int GetSizeInBytes() const { return GetNumElements() * GetSingleElementSizeInBytes(); } // Returns the pixel identified by the given coordinates as a 3-channel value. // Channels beyond the third are dropped. If the image provides less than 3 channels, the non-existent // channels of the pixel will be filled with 0. Channels are returned in RGB order (that is, the first element // of the tuple corresponds to the Red channel, whereas the last element is the Blue channel). std::tuple GetPixelAs3Channels(unsigned int x, unsigned int y) const; void Resize(unsigned int newWidth, unsigned int newHeight); void Write(WriteFormat format, const char* filePath) const; private: static unsigned int GetSingleElementSizeInBytes() { return sizeof(decltype(std::declval().m_Data[0])); } std::vector m_Data; unsigned int m_Width; unsigned int m_Height; unsigned int m_NumChannels; }; // Common names used to identify a channel in a pixel enum class ImageChannel { R, G, B }; // Channel layouts handled by the test framework enum class ImageChannelLayout { Rgb, Bgr }; // Reads the contents of an inference test image as 3-channel pixels whose channel values have been normalized (scaled) // and now lie in the range [0,1]. Channel data is stored according to the ArmNN layout (CHW). The order in which // channels appear in the resulting vector is defined by the provided layout. std::vector GetImageDataInArmNnLayoutAsNormalizedFloats(ImageChannelLayout layout, const InferenceTestImage& image); // Reads the contents of an inference test image as 3-channel pixels whose value is the result of subtracting the mean // from the values in the original image. Channel data is stored according to the ArmNN layout (CHW). The order in // which channels appear in the resulting vector is defined by the provided layout. The order of the channels of the // provided mean should also match the given layout. std::vector GetImageDataInArmNnLayoutAsFloatsSubtractingMean(ImageChannelLayout layout, const InferenceTestImage& image, const std::array& mean);