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test/source/blender/compositor/operations/COM_CalculateMeanOperation.cc
Campbell Barton e955c94ed3 License Headers: Set copyright to "Blender Authors", add AUTHORS 
Listing the "Blender Foundation" as copyright holder implied the Blender
Foundation holds copyright to files which may include work from many
developers.

While keeping copyright on headers makes sense for isolated libraries,
Blender's own code may be refactored or moved between files in a way
that makes the per file copyright holders less meaningful.

Copyright references to the "Blender Foundation" have been replaced with
"Blender Authors", with the exception of `./extern/` since these this
contains libraries which are more isolated, any changed to license
headers there can be handled on a case-by-case basis.

Some directories in `./intern/` have also been excluded:

- `./intern/cycles/` it's own `AUTHORS` file is planned.
- `./intern/opensubdiv/`.

An "AUTHORS" file has been added, using the chromium projects authors
file as a template.

Design task: #110784

Ref !110783.
2023-08-16 00:20:26 +10:00

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/* SPDX-FileCopyrightText: 2011 Blender Authors
*
* SPDX-License-Identifier: GPL-2.0-or-later */
#include "COM_CalculateMeanOperation.h"
#include "COM_ExecutionSystem.h"
#include "IMB_colormanagement.h"
namespace blender::compositor {
CalculateMeanOperation::CalculateMeanOperation()
{
this->add_input_socket(DataType::Color, ResizeMode::Align);
this->add_output_socket(DataType::Value);
image_reader_ = nullptr;
iscalculated_ = false;
setting_ = 1;
flags_.complex = true;
}
void CalculateMeanOperation::init_execution()
{
image_reader_ = this->get_input_socket_reader(0);
iscalculated_ = false;
NodeOperation::init_mutex();
}
void CalculateMeanOperation::execute_pixel(float output[4], int /*x*/, int /*y*/, void * /*data*/)
{
output[0] = result_;
}
void CalculateMeanOperation::deinit_execution()
{
image_reader_ = nullptr;
NodeOperation::deinit_mutex();
}
bool CalculateMeanOperation::determine_depending_area_of_interest(
rcti * /*input*/, ReadBufferOperation *read_operation, rcti *output)
{
rcti image_input;
if (iscalculated_) {
return false;
}
NodeOperation *operation = get_input_operation(0);
image_input.xmax = operation->get_width();
image_input.xmin = 0;
image_input.ymax = operation->get_height();
image_input.ymin = 0;
if (operation->determine_depending_area_of_interest(&image_input, read_operation, output)) {
return true;
}
return false;
}
void *CalculateMeanOperation::initialize_tile_data(rcti *rect)
{
lock_mutex();
if (!iscalculated_) {
MemoryBuffer *tile = (MemoryBuffer *)image_reader_->initialize_tile_data(rect);
calculate_mean(tile);
iscalculated_ = true;
}
unlock_mutex();
return nullptr;
}
void CalculateMeanOperation::calculate_mean(MemoryBuffer *tile)
{
result_ = 0.0f;
float *buffer = tile->get_buffer();
int size = tile->get_width() * tile->get_height();
int pixels = 0;
float sum = 0.0f;
for (int i = 0, offset = 0; i < size; i++, offset += 4) {
if (buffer[offset + 3] > 0) {
pixels++;
switch (setting_) {
case 1: {
sum += IMB_colormanagement_get_luminance(&buffer[offset]);
break;
}
case 2: {
sum += buffer[offset];
break;
}
case 3: {
sum += buffer[offset + 1];
break;
}
case 4: {
sum += buffer[offset + 2];
break;
}
case 5: {
float yuv[3];
rgb_to_yuv(buffer[offset],
buffer[offset + 1],
buffer[offset + 2],
&yuv[0],
&yuv[1],
&yuv[2],
BLI_YUV_ITU_BT709);
sum += yuv[0];
break;
}
}
}
}
result_ = sum / pixels;
}
void CalculateMeanOperation::set_setting(int setting)
{
setting_ = setting;
switch (setting) {
case 1: {
setting_func_ = IMB_colormanagement_get_luminance;
break;
}
case 2: {
setting_func_ = [](const float *elem) { return elem[0]; };
break;
}
case 3: {
setting_func_ = [](const float *elem) { return elem[1]; };
break;
}
case 4: {
setting_func_ = [](const float *elem) { return elem[2]; };
break;
}
case 5: {
setting_func_ = [](const float *elem) {
float yuv[3];
rgb_to_yuv(elem[0], elem[1], elem[2], &yuv[0], &yuv[1], &yuv[2], BLI_YUV_ITU_BT709);
return yuv[0];
};
break;
}
}
}
void CalculateMeanOperation::get_area_of_interest(int input_idx,
const rcti & /*output_area*/,
rcti &r_input_area)
{
BLI_assert(input_idx == 0);
r_input_area = get_input_operation(input_idx)->get_canvas();
}
void CalculateMeanOperation::update_memory_buffer_started(MemoryBuffer * /*output*/,
const rcti & /*area*/,
Span<MemoryBuffer *> inputs)
{
if (!iscalculated_) {
MemoryBuffer *input = inputs[0];
result_ = calc_mean(input);
iscalculated_ = true;
}
}
void CalculateMeanOperation::update_memory_buffer_partial(MemoryBuffer *output,
const rcti &area,
Span<MemoryBuffer *> /*inputs*/)
{
output->fill(area, &result_);
}
float CalculateMeanOperation::calc_mean(const MemoryBuffer *input)
{
PixelsSum total = {0};
exec_system_->execute_work<PixelsSum>(
input->get_rect(),
[=](const rcti &split) { return calc_area_sum(input, split); },
total,
[](PixelsSum &join, const PixelsSum &chunk) {
join.sum += chunk.sum;
join.num_pixels += chunk.num_pixels;
});
return total.num_pixels == 0 ? 0.0f : total.sum / total.num_pixels;
}
using PixelsSum = CalculateMeanOperation::PixelsSum;
PixelsSum CalculateMeanOperation::calc_area_sum(const MemoryBuffer *input, const rcti &area)
{
PixelsSum result = {0};
for (const float *elem : input->get_buffer_area(area)) {
if (elem[3] <= 0.0f) {
continue;
}
result.sum += setting_func_(elem);
result.num_pixels++;
}
return result;
}
} // namespace blender::compositor
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