diff options
author | Manuel Castilla <manzanillawork@gmail.com> | 2021-10-14 00:01:15 +0300 |
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committer | Manuel Castilla <manzanillawork@gmail.com> | 2021-10-14 00:41:14 +0300 |
commit | 1c42d4930a24d639b3aa561b9a8b4bbce05977e0 (patch) | |
tree | 68c2aae3fd5ae98b78708bea28c0b55d3f4fb5f0 /source/blender/compositor/operations/COM_GaussianXBlurOperation.cc | |
parent | a2ee3c3a9f01f5cb2f05f1e84a1b6c1931d9d4a4 (diff) |
Cleanup: convert camelCase naming to snake_case in Compositor
To convert old code to the current convention and
use a single code style.
Diffstat (limited to 'source/blender/compositor/operations/COM_GaussianXBlurOperation.cc')
-rw-r--r-- | source/blender/compositor/operations/COM_GaussianXBlurOperation.cc | 123 |
1 files changed, 63 insertions, 60 deletions
diff --git a/source/blender/compositor/operations/COM_GaussianXBlurOperation.cc b/source/blender/compositor/operations/COM_GaussianXBlurOperation.cc index 4720b3f69d0..b43db5ba664 100644 --- a/source/blender/compositor/operations/COM_GaussianXBlurOperation.cc +++ b/source/blender/compositor/operations/COM_GaussianXBlurOperation.cc @@ -25,23 +25,23 @@ GaussianXBlurOperation::GaussianXBlurOperation() : GaussianBlurBaseOperation(eDi { } -void *GaussianXBlurOperation::initializeTileData(rcti * /*rect*/) +void *GaussianXBlurOperation::initialize_tile_data(rcti * /*rect*/) { - lockMutex(); + lock_mutex(); if (!sizeavailable_) { - updateGauss(); + update_gauss(); } - void *buffer = getInputOperation(0)->initializeTileData(nullptr); - unlockMutex(); + void *buffer = get_input_operation(0)->initialize_tile_data(nullptr); + unlock_mutex(); return buffer; } /* TODO(manzanilla): to be removed with tiled implementation. */ -void GaussianXBlurOperation::initExecution() +void GaussianXBlurOperation::init_execution() { - GaussianBlurBaseOperation::initExecution(); + GaussianBlurBaseOperation::init_execution(); - initMutex(); + init_mutex(); if (sizeavailable_ && execution_model_ == eExecutionModel::Tiled) { float rad = max_ff(size_ * data_.sizex, 0.0f); @@ -56,10 +56,10 @@ void GaussianXBlurOperation::initExecution() } /* TODO(manzanilla): to be removed with tiled implementation. */ -void GaussianXBlurOperation::updateGauss() +void GaussianXBlurOperation::update_gauss() { if (gausstab_ == nullptr) { - updateSize(); + update_size(); float rad = max_ff(size_ * data_.sizex, 0.0f); rad = min_ff(rad, MAX_GAUSSTAB_RADIUS); filtersize_ = min_ii(ceil(rad), MAX_GAUSSTAB_RADIUS); @@ -71,14 +71,14 @@ void GaussianXBlurOperation::updateGauss() } } -void GaussianXBlurOperation::executePixel(float output[4], int x, int y, void *data) +void GaussianXBlurOperation::execute_pixel(float output[4], int x, int y, void *data) { float ATTR_ALIGN(16) color_accum[4] = {0.0f, 0.0f, 0.0f, 0.0f}; float multiplier_accum = 0.0f; - MemoryBuffer *inputBuffer = (MemoryBuffer *)data; - const rcti &input_rect = inputBuffer->get_rect(); - float *buffer = inputBuffer->getBuffer(); - int bufferwidth = inputBuffer->getWidth(); + MemoryBuffer *input_buffer = (MemoryBuffer *)data; + const rcti &input_rect = input_buffer->get_rect(); + float *buffer = input_buffer->get_buffer(); + int bufferwidth = input_buffer->get_width(); int bufferstartx = input_rect.xmin; int bufferstarty = input_rect.ymin; @@ -86,8 +86,8 @@ void GaussianXBlurOperation::executePixel(float output[4], int x, int y, void *d int xmax = min_ii(x + filtersize_ + 1, input_rect.xmax); int ymin = max_ii(y, input_rect.ymin); - int step = getStep(); - int offsetadd = getOffsetAdd(); + int step = get_step(); + int offsetadd = get_offset_add(); int bufferindex = ((xmin - bufferstartx) * 4) + ((ymin - bufferstarty) * 4 * bufferwidth); #ifdef BLI_HAVE_SSE2 @@ -111,41 +111,45 @@ void GaussianXBlurOperation::executePixel(float output[4], int x, int y, void *d mul_v4_v4fl(output, color_accum, 1.0f / multiplier_accum); } -void GaussianXBlurOperation::executeOpenCL(OpenCLDevice *device, - MemoryBuffer *outputMemoryBuffer, - cl_mem clOutputBuffer, - MemoryBuffer **inputMemoryBuffers, - std::list<cl_mem> *clMemToCleanUp, - std::list<cl_kernel> * /*clKernelsToCleanUp*/) +void GaussianXBlurOperation::execute_opencl(OpenCLDevice *device, + MemoryBuffer *output_memory_buffer, + cl_mem cl_output_buffer, + MemoryBuffer **input_memory_buffers, + std::list<cl_mem> *cl_mem_to_clean_up, + std::list<cl_kernel> * /*cl_kernels_to_clean_up*/) { - cl_kernel gaussianXBlurOperationKernel = device->COM_clCreateKernel( - "gaussianXBlurOperationKernel", nullptr); + cl_kernel gaussian_xblur_operation_kernel = device->COM_cl_create_kernel( + "gaussian_xblur_operation_kernel", nullptr); cl_int filter_size = filtersize_; - cl_mem gausstab = clCreateBuffer(device->getContext(), + cl_mem gausstab = clCreateBuffer(device->get_context(), CL_MEM_READ_ONLY | CL_MEM_USE_HOST_PTR, sizeof(float) * (filtersize_ * 2 + 1), gausstab_, nullptr); - device->COM_clAttachMemoryBufferToKernelParameter( - gaussianXBlurOperationKernel, 0, 1, clMemToCleanUp, inputMemoryBuffers, inputProgram_); - device->COM_clAttachOutputMemoryBufferToKernelParameter( - gaussianXBlurOperationKernel, 2, clOutputBuffer); - device->COM_clAttachMemoryBufferOffsetToKernelParameter( - gaussianXBlurOperationKernel, 3, outputMemoryBuffer); - clSetKernelArg(gaussianXBlurOperationKernel, 4, sizeof(cl_int), &filter_size); - device->COM_clAttachSizeToKernelParameter(gaussianXBlurOperationKernel, 5, this); - clSetKernelArg(gaussianXBlurOperationKernel, 6, sizeof(cl_mem), &gausstab); - - device->COM_clEnqueueRange(gaussianXBlurOperationKernel, outputMemoryBuffer, 7, this); + device->COM_cl_attach_memory_buffer_to_kernel_parameter(gaussian_xblur_operation_kernel, + 0, + 1, + cl_mem_to_clean_up, + input_memory_buffers, + input_program_); + device->COM_cl_attach_output_memory_buffer_to_kernel_parameter( + gaussian_xblur_operation_kernel, 2, cl_output_buffer); + device->COM_cl_attach_memory_buffer_offset_to_kernel_parameter( + gaussian_xblur_operation_kernel, 3, output_memory_buffer); + clSetKernelArg(gaussian_xblur_operation_kernel, 4, sizeof(cl_int), &filter_size); + device->COM_cl_attach_size_to_kernel_parameter(gaussian_xblur_operation_kernel, 5, this); + clSetKernelArg(gaussian_xblur_operation_kernel, 6, sizeof(cl_mem), &gausstab); + + device->COM_cl_enqueue_range(gaussian_xblur_operation_kernel, output_memory_buffer, 7, this); clReleaseMemObject(gausstab); } -void GaussianXBlurOperation::deinitExecution() +void GaussianXBlurOperation::deinit_execution() { - GaussianBlurBaseOperation::deinitExecution(); + GaussianBlurBaseOperation::deinit_execution(); if (gausstab_) { MEM_freeN(gausstab_); @@ -158,40 +162,39 @@ void GaussianXBlurOperation::deinitExecution() } #endif - deinitMutex(); + deinit_mutex(); } -bool GaussianXBlurOperation::determineDependingAreaOfInterest(rcti *input, - ReadBufferOperation *readOperation, - rcti *output) +bool GaussianXBlurOperation::determine_depending_area_of_interest( + rcti *input, ReadBufferOperation *read_operation, rcti *output) { - rcti newInput; + rcti new_input; if (!sizeavailable_) { - rcti sizeInput; - sizeInput.xmin = 0; - sizeInput.ymin = 0; - sizeInput.xmax = 5; - sizeInput.ymax = 5; - NodeOperation *operation = this->getInputOperation(1); - if (operation->determineDependingAreaOfInterest(&sizeInput, readOperation, output)) { + rcti size_input; + size_input.xmin = 0; + size_input.ymin = 0; + size_input.xmax = 5; + size_input.ymax = 5; + NodeOperation *operation = this->get_input_operation(1); + if (operation->determine_depending_area_of_interest(&size_input, read_operation, output)) { return true; } } { if (sizeavailable_ && gausstab_ != nullptr) { - newInput.xmax = input->xmax + filtersize_ + 1; - newInput.xmin = input->xmin - filtersize_ - 1; - newInput.ymax = input->ymax; - newInput.ymin = input->ymin; + new_input.xmax = input->xmax + filtersize_ + 1; + new_input.xmin = input->xmin - filtersize_ - 1; + new_input.ymax = input->ymax; + new_input.ymin = input->ymin; } else { - newInput.xmax = this->getWidth(); - newInput.xmin = 0; - newInput.ymax = this->getHeight(); - newInput.ymin = 0; + new_input.xmax = this->get_width(); + new_input.xmin = 0; + new_input.ymax = this->get_height(); + new_input.ymin = 0; } - return NodeOperation::determineDependingAreaOfInterest(&newInput, readOperation, output); + return NodeOperation::determine_depending_area_of_interest(&new_input, read_operation, output); } } |