diff options
author | Manuel Castilla <manzanillawork@gmail.com> | 2021-10-07 22:36:35 +0300 |
---|---|---|
committer | Manuel Castilla <manzanillawork@gmail.com> | 2021-10-08 02:29:02 +0300 |
commit | 12a5a605572d742335a4978966444d393792cd28 (patch) | |
tree | f06fa16602c175982ca2e5d6ec5b55f387a98cbc /source/blender/compositor/operations/COM_GaussianYBlurOperation.cc | |
parent | a808c5ae65e8a9fd2271274cbba3038846e5ffee (diff) |
Cleanup: Use `_` suffix for non-public members in Compositor
To follow the style guide.
Diffstat (limited to 'source/blender/compositor/operations/COM_GaussianYBlurOperation.cc')
-rw-r--r-- | source/blender/compositor/operations/COM_GaussianYBlurOperation.cc | 64 |
1 files changed, 32 insertions, 32 deletions
diff --git a/source/blender/compositor/operations/COM_GaussianYBlurOperation.cc b/source/blender/compositor/operations/COM_GaussianYBlurOperation.cc index 8a95721992c..50edc0bea29 100644 --- a/source/blender/compositor/operations/COM_GaussianYBlurOperation.cc +++ b/source/blender/compositor/operations/COM_GaussianYBlurOperation.cc @@ -28,7 +28,7 @@ GaussianYBlurOperation::GaussianYBlurOperation() : GaussianBlurBaseOperation(eDi void *GaussianYBlurOperation::initializeTileData(rcti * /*rect*/) { lockMutex(); - if (!m_sizeavailable) { + if (!sizeavailable_) { updateGauss(); } void *buffer = getInputOperation(0)->initializeTileData(nullptr); @@ -42,28 +42,28 @@ void GaussianYBlurOperation::initExecution() initMutex(); - if (m_sizeavailable && execution_model_ == eExecutionModel::Tiled) { - float rad = max_ff(m_size * m_data.sizey, 0.0f); - m_filtersize = min_ii(ceil(rad), MAX_GAUSSTAB_RADIUS); + if (sizeavailable_ && execution_model_ == eExecutionModel::Tiled) { + float rad = max_ff(size_ * data_.sizey, 0.0f); + filtersize_ = min_ii(ceil(rad), MAX_GAUSSTAB_RADIUS); - m_gausstab = BlurBaseOperation::make_gausstab(rad, m_filtersize); + gausstab_ = BlurBaseOperation::make_gausstab(rad, filtersize_); #ifdef BLI_HAVE_SSE2 - m_gausstab_sse = BlurBaseOperation::convert_gausstab_sse(m_gausstab, m_filtersize); + gausstab_sse_ = BlurBaseOperation::convert_gausstab_sse(gausstab_, filtersize_); #endif } } void GaussianYBlurOperation::updateGauss() { - if (m_gausstab == nullptr) { + if (gausstab_ == nullptr) { updateSize(); - float rad = max_ff(m_size * m_data.sizey, 0.0f); + float rad = max_ff(size_ * data_.sizey, 0.0f); rad = min_ff(rad, MAX_GAUSSTAB_RADIUS); - m_filtersize = min_ii(ceil(rad), MAX_GAUSSTAB_RADIUS); + filtersize_ = min_ii(ceil(rad), MAX_GAUSSTAB_RADIUS); - m_gausstab = BlurBaseOperation::make_gausstab(rad, m_filtersize); + gausstab_ = BlurBaseOperation::make_gausstab(rad, filtersize_); #ifdef BLI_HAVE_SSE2 - m_gausstab_sse = BlurBaseOperation::convert_gausstab_sse(m_gausstab, m_filtersize); + gausstab_sse_ = BlurBaseOperation::convert_gausstab_sse(gausstab_, filtersize_); #endif } } @@ -80,8 +80,8 @@ void GaussianYBlurOperation::executePixel(float output[4], int x, int y, void *d int bufferstarty = input_rect.ymin; int xmin = max_ii(x, input_rect.xmin); - int ymin = max_ii(y - m_filtersize, input_rect.ymin); - int ymax = min_ii(y + m_filtersize + 1, input_rect.ymax); + int ymin = max_ii(y - filtersize_, input_rect.ymin); + int ymax = min_ii(y + filtersize_ + 1, input_rect.ymax); int index; int step = getStep(); @@ -90,20 +90,20 @@ void GaussianYBlurOperation::executePixel(float output[4], int x, int y, void *d #ifdef BLI_HAVE_SSE2 __m128 accum_r = _mm_load_ps(color_accum); for (int ny = ymin; ny < ymax; ny += step) { - index = (ny - y) + m_filtersize; + index = (ny - y) + filtersize_; int bufferindex = bufferIndexx + ((ny - bufferstarty) * 4 * bufferwidth); - const float multiplier = m_gausstab[index]; + const float multiplier = gausstab_[index]; __m128 reg_a = _mm_load_ps(&buffer[bufferindex]); - reg_a = _mm_mul_ps(reg_a, m_gausstab_sse[index]); + reg_a = _mm_mul_ps(reg_a, gausstab_sse_[index]); accum_r = _mm_add_ps(accum_r, reg_a); multiplier_accum += multiplier; } _mm_store_ps(color_accum, accum_r); #else for (int ny = ymin; ny < ymax; ny += step) { - index = (ny - y) + m_filtersize; + index = (ny - y) + filtersize_; int bufferindex = bufferIndexx + ((ny - bufferstarty) * 4 * bufferwidth); - const float multiplier = m_gausstab[index]; + const float multiplier = gausstab_[index]; madd_v4_v4fl(color_accum, &buffer[bufferindex], multiplier); multiplier_accum += multiplier; } @@ -120,16 +120,16 @@ void GaussianYBlurOperation::executeOpenCL(OpenCLDevice *device, { cl_kernel gaussianYBlurOperationKernel = device->COM_clCreateKernel( "gaussianYBlurOperationKernel", nullptr); - cl_int filter_size = m_filtersize; + cl_int filter_size = filtersize_; cl_mem gausstab = clCreateBuffer(device->getContext(), CL_MEM_READ_ONLY | CL_MEM_USE_HOST_PTR, - sizeof(float) * (m_filtersize * 2 + 1), - m_gausstab, + sizeof(float) * (filtersize_ * 2 + 1), + gausstab_, nullptr); device->COM_clAttachMemoryBufferToKernelParameter( - gaussianYBlurOperationKernel, 0, 1, clMemToCleanUp, inputMemoryBuffers, m_inputProgram); + gaussianYBlurOperationKernel, 0, 1, clMemToCleanUp, inputMemoryBuffers, inputProgram_); device->COM_clAttachOutputMemoryBufferToKernelParameter( gaussianYBlurOperationKernel, 2, clOutputBuffer); device->COM_clAttachMemoryBufferOffsetToKernelParameter( @@ -147,14 +147,14 @@ void GaussianYBlurOperation::deinitExecution() { GaussianBlurBaseOperation::deinitExecution(); - if (m_gausstab) { - MEM_freeN(m_gausstab); - m_gausstab = nullptr; + if (gausstab_) { + MEM_freeN(gausstab_); + gausstab_ = nullptr; } #ifdef BLI_HAVE_SSE2 - if (m_gausstab_sse) { - MEM_freeN(m_gausstab_sse); - m_gausstab_sse = nullptr; + if (gausstab_sse_) { + MEM_freeN(gausstab_sse_); + gausstab_sse_ = nullptr; } #endif @@ -167,7 +167,7 @@ bool GaussianYBlurOperation::determineDependingAreaOfInterest(rcti *input, { rcti newInput; - if (!m_sizeavailable) { + if (!sizeavailable_) { rcti sizeInput; sizeInput.xmin = 0; sizeInput.ymin = 0; @@ -179,11 +179,11 @@ bool GaussianYBlurOperation::determineDependingAreaOfInterest(rcti *input, } } { - if (m_sizeavailable && m_gausstab != nullptr) { + if (sizeavailable_ && gausstab_ != nullptr) { newInput.xmax = input->xmax; newInput.xmin = input->xmin; - newInput.ymax = input->ymax + m_filtersize + 1; - newInput.ymin = input->ymin - m_filtersize - 1; + newInput.ymax = input->ymax + filtersize_ + 1; + newInput.ymin = input->ymin - filtersize_ - 1; } else { newInput.xmax = this->getWidth(); |