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957e292c5864cba3cf62c7c59dc644422660034f
blender-archive/source/blender/compositor/operations/COM_OutputFileOperation.cpp
Jeroen Bakker 957e292c58 Fix T64953: Add cryptomatte meta data to file output node. 
This change will try to add meta data when using a multilayered open
exr file output node in the compositor. It adds the current scene meta
data and converts existing cryptomatte keys so it follows the
naming that is configured in the file output node.

This change supports the basic use-case where the compositor is
used to output cryptomatte layers with a different naming scheme to
support external compositors. In this case the Multilayered OpenEXR
files are used and the meta data is read from the render result.

Meta data is found when render layer node is connected with the
file output node without any other nodes in between. Redirects and empty
node groups are allowed.

The patch has been verified to work with external compositors.
See https://devtalk.blender.org/t/making-sense-of-cryptomatte-usage-in-third-party-programs/16576/17

See patch for example files.

Reviewed By: Sergey Sharybin

Differential Revision: https://developer.blender.org/D10016
2021-01-12 16:24:26 +01:00

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/*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* Copyright 2011, Blender Foundation.
*/
#include "COM_OutputFileOperation.h"
#include "COM_MetaData.h"
#include <cstring>
#include "BLI_listbase.h"
#include "BLI_path_util.h"
#include "BLI_string.h"
#include "BKE_cryptomatte.hh"
#include "BKE_global.h"
#include "BKE_image.h"
#include "BKE_main.h"
#include "BKE_scene.h"
#include "DNA_color_types.h"
#include "MEM_guardedalloc.h"
#include "IMB_colormanagement.h"
#include "IMB_imbuf.h"
#include "IMB_imbuf_types.h"
#include "RE_pipeline.h"
void add_exr_channels(void *exrhandle,
const char *layerName,
const DataType datatype,
const char *viewName,
const size_t width,
bool use_half_float,
float *buf)
{
/* create channels */
switch (datatype) {
case COM_DT_VALUE:
IMB_exr_add_channel(
exrhandle, layerName, "V", viewName, 1, width, buf ? buf : nullptr, use_half_float);
break;
case COM_DT_VECTOR:
IMB_exr_add_channel(
exrhandle, layerName, "X", viewName, 3, 3 * width, buf ? buf : nullptr, use_half_float);
IMB_exr_add_channel(exrhandle,
layerName,
"Y",
viewName,
3,
3 * width,
buf ? buf + 1 : nullptr,
use_half_float);
IMB_exr_add_channel(exrhandle,
layerName,
"Z",
viewName,
3,
3 * width,
buf ? buf + 2 : nullptr,
use_half_float);
break;
case COM_DT_COLOR:
IMB_exr_add_channel(
exrhandle, layerName, "R", viewName, 4, 4 * width, buf ? buf : nullptr, use_half_float);
IMB_exr_add_channel(exrhandle,
layerName,
"G",
viewName,
4,
4 * width,
buf ? buf + 1 : nullptr,
use_half_float);
IMB_exr_add_channel(exrhandle,
layerName,
"B",
viewName,
4,
4 * width,
buf ? buf + 2 : nullptr,
use_half_float);
IMB_exr_add_channel(exrhandle,
layerName,
"A",
viewName,
4,
4 * width,
buf ? buf + 3 : nullptr,
use_half_float);
break;
default:
break;
}
}
void free_exr_channels(void *exrhandle,
const RenderData *rd,
const char *layerName,
const DataType datatype)
{
SceneRenderView *srv;
/* check renderdata for amount of views */
for (srv = (SceneRenderView *)rd->views.first; srv; srv = srv->next) {
float *rect = nullptr;
if (BKE_scene_multiview_is_render_view_active(rd, srv) == false) {
continue;
}
/* the pointer is stored in the first channel of each datatype */
switch (datatype) {
case COM_DT_VALUE:
rect = IMB_exr_channel_rect(exrhandle, layerName, "V", srv->name);
break;
case COM_DT_VECTOR:
rect = IMB_exr_channel_rect(exrhandle, layerName, "X", srv->name);
break;
case COM_DT_COLOR:
rect = IMB_exr_channel_rect(exrhandle, layerName, "R", srv->name);
break;
default:
break;
}
if (rect) {
MEM_freeN(rect);
}
}
}
int get_datatype_size(DataType datatype)
{
switch (datatype) {
case COM_DT_VALUE:
return 1;
case COM_DT_VECTOR:
return 3;
case COM_DT_COLOR:
return 4;
default:
return 0;
}
}
static float *init_buffer(unsigned int width, unsigned int height, DataType datatype)
{
// When initializing the tree during initial load the width and height can be zero.
if (width != 0 && height != 0) {
int size = get_datatype_size(datatype);
return (float *)MEM_callocN(width * height * size * sizeof(float), "OutputFile buffer");
}
return nullptr;
}
static void write_buffer_rect(rcti *rect,
const bNodeTree *tree,
SocketReader *reader,
float *buffer,
unsigned int width,
DataType datatype)
{
float color[4];
int i, size = get_datatype_size(datatype);
if (!buffer) {
return;
}
int x1 = rect->xmin;
int y1 = rect->ymin;
int x2 = rect->xmax;
int y2 = rect->ymax;
int offset = (y1 * width + x1) * size;
int x;
int y;
bool breaked = false;
for (y = y1; y < y2 && (!breaked); y++) {
for (x = x1; x < x2 && (!breaked); x++) {
reader->readSampled(color, x, y, COM_PS_NEAREST);
for (i = 0; i < size; i++) {
buffer[offset + i] = color[i];
}
offset += size;
if (tree->test_break && tree->test_break(tree->tbh)) {
breaked = true;
}
}
offset += (width - (x2 - x1)) * size;
}
}
OutputSingleLayerOperation::OutputSingleLayerOperation(
const RenderData *rd,
const bNodeTree *tree,
DataType datatype,
ImageFormatData *format,
const char *path,
const ColorManagedViewSettings *viewSettings,
const ColorManagedDisplaySettings *displaySettings,
const char *viewName)
{
this->m_rd = rd;
this->m_tree = tree;
this->addInputSocket(datatype);
this->m_outputBuffer = nullptr;
this->m_datatype = datatype;
this->m_imageInput = nullptr;
this->m_format = format;
BLI_strncpy(this->m_path, path, sizeof(this->m_path));
this->m_viewSettings = viewSettings;
this->m_displaySettings = displaySettings;
this->m_viewName = viewName;
}
void OutputSingleLayerOperation::initExecution()
{
this->m_imageInput = getInputSocketReader(0);
this->m_outputBuffer = init_buffer(this->getWidth(), this->getHeight(), this->m_datatype);
}
void OutputSingleLayerOperation::executeRegion(rcti *rect, unsigned int /*tileNumber*/)
{
write_buffer_rect(rect,
this->m_tree,
this->m_imageInput,
this->m_outputBuffer,
this->getWidth(),
this->m_datatype);
}
void OutputSingleLayerOperation::deinitExecution()
{
if (this->getWidth() * this->getHeight() != 0) {
int size = get_datatype_size(this->m_datatype);
ImBuf *ibuf = IMB_allocImBuf(this->getWidth(), this->getHeight(), this->m_format->planes, 0);
char filename[FILE_MAX];
const char *suffix;
ibuf->channels = size;
ibuf->rect_float = this->m_outputBuffer;
ibuf->mall |= IB_rectfloat;
ibuf->dither = this->m_rd->dither_intensity;
IMB_colormanagement_imbuf_for_write(
ibuf, true, false, m_viewSettings, m_displaySettings, this->m_format);
suffix = BKE_scene_multiview_view_suffix_get(this->m_rd, this->m_viewName);
BKE_image_path_from_imformat(filename,
this->m_path,
BKE_main_blendfile_path_from_global(),
this->m_rd->cfra,
this->m_format,
(this->m_rd->scemode & R_EXTENSION) != 0,
true,
suffix);
if (0 == BKE_imbuf_write(ibuf, filename, this->m_format)) {
printf("Cannot save Node File Output to %s\n", filename);
}
else {
printf("Saved: %s\n", filename);
}
IMB_freeImBuf(ibuf);
}
this->m_outputBuffer = nullptr;
this->m_imageInput = nullptr;
}
/******************************* MultiLayer *******************************/
OutputOpenExrLayer::OutputOpenExrLayer(const char *name_, DataType datatype_, bool use_layer_)
{
BLI_strncpy(this->name, name_, sizeof(this->name));
this->datatype = datatype_;
this->use_layer = use_layer_;
/* these are created in initExecution */
this->outputBuffer = nullptr;
this->imageInput = nullptr;
}
OutputOpenExrMultiLayerOperation::OutputOpenExrMultiLayerOperation(const Scene *scene,
const RenderData *rd,
const bNodeTree *tree,
const char *path,
char exr_codec,
bool exr_half_float,
const char *viewName)
{
this->m_scene = scene;
this->m_rd = rd;
this->m_tree = tree;
BLI_strncpy(this->m_path, path, sizeof(this->m_path));
this->m_exr_codec = exr_codec;
this->m_exr_half_float = exr_half_float;
this->m_viewName = viewName;
}
void OutputOpenExrMultiLayerOperation::add_layer(const char *name,
DataType datatype,
bool use_layer)
{
this->addInputSocket(datatype);
this->m_layers.push_back(OutputOpenExrLayer(name, datatype, use_layer));
}
StampData *OutputOpenExrMultiLayerOperation::createStampData() const
{
/* StampData API doesn't provide functions to modify an instance without having a RenderResult.
*/
RenderResult render_result;
StampData *stamp_data = BKE_stamp_info_from_scene_static(m_scene);
render_result.stamp_data = stamp_data;
for (int i = 0; i < this->m_layers.size(); i++) {
const OutputOpenExrLayer *layer = &this->m_layers[i];
std::unique_ptr<MetaData> meta_data = layer->imageInput->getMetaData();
if (meta_data) {
blender::StringRef layer_name = blender::BKE_cryptomatte_extract_layer_name(
blender::StringRef(layer->name, BLI_strnlen(layer->name, sizeof(layer->name))));
meta_data->replaceHashNeutralCryptomatteKeys(layer_name);
meta_data->addToRenderResult(&render_result);
}
}
return stamp_data;
}
void OutputOpenExrMultiLayerOperation::initExecution()
{
for (unsigned int i = 0; i < this->m_layers.size(); i++) {
if (this->m_layers[i].use_layer) {
SocketReader *reader = getInputSocketReader(i);
this->m_layers[i].imageInput = reader;
this->m_layers[i].outputBuffer = init_buffer(
this->getWidth(), this->getHeight(), this->m_layers[i].datatype);
}
}
}
void OutputOpenExrMultiLayerOperation::executeRegion(rcti *rect, unsigned int /*tileNumber*/)
{
for (unsigned int i = 0; i < this->m_layers.size(); i++) {
OutputOpenExrLayer &layer = this->m_layers[i];
if (layer.imageInput) {
write_buffer_rect(rect,
this->m_tree,
layer.imageInput,
layer.outputBuffer,
this->getWidth(),
layer.datatype);
}
}
}
void OutputOpenExrMultiLayerOperation::deinitExecution()
{
unsigned int width = this->getWidth();
unsigned int height = this->getHeight();
if (width != 0 && height != 0) {
char filename[FILE_MAX];
const char *suffix;
void *exrhandle = IMB_exr_get_handle();
suffix = BKE_scene_multiview_view_suffix_get(this->m_rd, this->m_viewName);
BKE_image_path_from_imtype(filename,
this->m_path,
BKE_main_blendfile_path_from_global(),
this->m_rd->cfra,
R_IMF_IMTYPE_MULTILAYER,
(this->m_rd->scemode & R_EXTENSION) != 0,
true,
suffix);
BLI_make_existing_file(filename);
for (unsigned int i = 0; i < this->m_layers.size(); i++) {
OutputOpenExrLayer &layer = this->m_layers[i];
if (!layer.imageInput) {
continue; /* skip unconnected sockets */
}
add_exr_channels(exrhandle,
this->m_layers[i].name,
this->m_layers[i].datatype,
"",
width,
this->m_exr_half_float,
this->m_layers[i].outputBuffer);
}
/* when the filename has no permissions, this can fail */
StampData *stamp_data = createStampData();
if (IMB_exr_begin_write(exrhandle, filename, width, height, this->m_exr_codec, stamp_data)) {
IMB_exr_write_channels(exrhandle);
}
else {
/* TODO, get the error from openexr's exception */
/* XXX nice way to do report? */
printf("Error Writing Render Result, see console\n");
}
IMB_exr_close(exrhandle);
for (unsigned int i = 0; i < this->m_layers.size(); i++) {
if (this->m_layers[i].outputBuffer) {
MEM_freeN(this->m_layers[i].outputBuffer);
this->m_layers[i].outputBuffer = nullptr;
}
this->m_layers[i].imageInput = nullptr;
}
BKE_stamp_data_free(stamp_data);
}
}
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