ref: 429e6528097850b08b675e1fa8d75eef59a10e32
dir: /test/buffer.h/
/* * Copyright (c) 2016 The WebM project authors. All Rights Reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #ifndef TEST_BUFFER_H_ #define TEST_BUFFER_H_ #include <stdio.h> #include <limits> #include "third_party/googletest/src/include/gtest/gtest.h" #include "test/acm_random.h" #include "vpx/vpx_integer.h" namespace libvpx_test { template <typename T> class Buffer { public: Buffer(int width, int height, int top_padding, int left_padding, int right_padding, int bottom_padding) : width_(width), height_(height), top_padding_(top_padding), left_padding_(left_padding), right_padding_(right_padding), bottom_padding_(bottom_padding) { Init(); } Buffer(int width, int height, int padding) : width_(width), height_(height), top_padding_(padding), left_padding_(padding), right_padding_(padding), bottom_padding_(padding) { Init(); } ~Buffer() { delete[] raw_buffer_; } T *TopLeftPixel() const; int stride() const { return stride_; } // Set the buffer (excluding padding) to 'value'. void Set(const int value); // Set the buffer (excluding padding) to the output of ACMRandom function 'b'. void Set(ACMRandom *rand_class, T (ACMRandom::*rand_func)()); // Copy the contents of Buffer 'a' (excluding padding). void CopyFrom(const Buffer<T> &a); void DumpBuffer() const; // Highlight the differences between two buffers if they are the same size. void PrintDifference(const Buffer<T> &a) const; bool HasPadding() const; // Sets all the values in the buffer to 'padding_value'. void SetPadding(const int padding_value); // Checks if all the values (excluding padding) are equal to 'value' if the // Buffers are the same size. bool CheckValues(const int value) const; // Check that padding matches the expected value or there is no padding. bool CheckPadding() const; // Compare the non-padding portion of two buffers if they are the same size. bool CheckValues(const Buffer<T> &a) const; private: void Init() { ASSERT_GT(width_, 0); ASSERT_GT(height_, 0); ASSERT_GE(top_padding_, 0); ASSERT_GE(left_padding_, 0); ASSERT_GE(right_padding_, 0); ASSERT_GE(bottom_padding_, 0); stride_ = left_padding_ + width_ + right_padding_; raw_size_ = stride_ * (top_padding_ + height_ + bottom_padding_); raw_buffer_ = new (std::nothrow) T[raw_size_]; ASSERT_TRUE(raw_buffer_ != NULL); SetPadding(std::numeric_limits<T>::max()); } bool BufferSizesMatch(const Buffer<T> &a) const; const int width_; const int height_; const int top_padding_; const int left_padding_; const int right_padding_; const int bottom_padding_; int padding_value_; int stride_; int raw_size_; T *raw_buffer_; }; template <typename T> T *Buffer<T>::TopLeftPixel() const { return raw_buffer_ + (top_padding_ * stride()) + left_padding_; } template <typename T> void Buffer<T>::Set(const int value) { T *src = TopLeftPixel(); for (int height = 0; height < height_; ++height) { for (int width = 0; width < width_; ++width) { src[width] = value; } src += stride(); } } template <typename T> void Buffer<T>::Set(ACMRandom *rand_class, T (ACMRandom::*rand_func)()) { T *src = TopLeftPixel(); for (int height = 0; height < height_; ++height) { for (int width = 0; width < width_; ++width) { src[width] = (*rand_class.*rand_func)(); } src += stride(); } } template <typename T> void Buffer<T>::CopyFrom(const Buffer<T> &a) { if (!BufferSizesMatch(a)) { return; } T *a_src = a.TopLeftPixel(); T *b_src = this->TopLeftPixel(); for (int height = 0; height < height_; ++height) { for (int width = 0; width < width_; ++width) { b_src[width] = a_src[width]; } a_src += a.stride(); b_src += this->stride(); } } template <typename T> void Buffer<T>::DumpBuffer() const { for (int height = 0; height < height_ + top_padding_ + bottom_padding_; ++height) { for (int width = 0; width < stride(); ++width) { printf("%4d", raw_buffer_[height + width * stride()]); } printf("\n"); } } template <typename T> bool Buffer<T>::HasPadding() const { return top_padding_ || left_padding_ || right_padding_ || bottom_padding_; } template <typename T> void Buffer<T>::PrintDifference(const Buffer<T> &a) const { if (!BufferSizesMatch(a)) { return; } T *a_src = a.TopLeftPixel(); T *b_src = TopLeftPixel(); printf("This buffer:\n"); for (int height = 0; height < height_; ++height) { for (int width = 0; width < width_; ++width) { if (a_src[width] != b_src[width]) { printf("*%3d", b_src[width]); } else { printf("%4d", b_src[width]); } } printf("\n"); a_src += a.stride(); b_src += this->stride(); } a_src = a.TopLeftPixel(); b_src = TopLeftPixel(); printf("Reference buffer:\n"); for (int height = 0; height < height_; ++height) { for (int width = 0; width < width_; ++width) { if (a_src[width] != b_src[width]) { printf("*%3d", a_src[width]); } else { printf("%4d", a_src[width]); } } printf("\n"); a_src += a.stride(); b_src += this->stride(); } } template <typename T> void Buffer<T>::SetPadding(const int padding_value) { padding_value_ = padding_value; T *src = raw_buffer_; for (int i = 0; i < raw_size_; ++i) { src[i] = padding_value; } } template <typename T> bool Buffer<T>::CheckValues(const int value) const { T *src = TopLeftPixel(); for (int height = 0; height < height_; ++height) { for (int width = 0; width < width_; ++width) { if (value != src[width]) { return false; } } src += stride(); } return true; } template <typename T> bool Buffer<T>::CheckPadding() const { if (!HasPadding()) { return true; } // Top padding. T const *top = raw_buffer_; for (int i = 0; i < stride() * top_padding_; ++i) { if (padding_value_ != top[i]) { return false; } } // Left padding. T const *left = TopLeftPixel() - left_padding_; for (int height = 0; height < height_; ++height) { for (int width = 0; width < left_padding_; ++width) { if (padding_value_ != left[width]) { return false; } } left += stride(); } // Right padding. T const *right = TopLeftPixel() + width_; for (int height = 0; height < height_; ++height) { for (int width = 0; width < right_padding_; ++width) { if (padding_value_ != right[width]) { return false; } } right += stride(); } // Bottom padding T const *bottom = raw_buffer_ + (top_padding_ + height_) * stride(); for (int i = 0; i < stride() * bottom_padding_; ++i) { if (padding_value_ != bottom[i]) { return false; } } return true; } template <typename T> bool Buffer<T>::CheckValues(const Buffer<T> &a) const { if (!BufferSizesMatch(a)) { return false; } T *a_src = a.TopLeftPixel(); T *b_src = this->TopLeftPixel(); for (int height = 0; height < height_; ++height) { for (int width = 0; width < width_; ++width) { if (a_src[width] != b_src[width]) { return false; } } a_src += a.stride(); b_src += this->stride(); } return true; } template <typename T> bool Buffer<T>::BufferSizesMatch(const Buffer<T> &a) const { if (a.width_ != this->width_ || a.height_ != this->height_) { printf( "Reference buffer of size %dx%d does not match this buffer which is " "size %dx%d\n", a.width_, a.height_, this->width_, this->height_); return false; } return true; } } // namespace libvpx_test #endif // TEST_BUFFER_H_