diff options
author | Jeroen Bakker <jeroen@blender.org> | 2021-03-08 15:41:52 +0300 |
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committer | Jeroen Bakker <jeroen@blender.org> | 2021-03-08 15:41:52 +0300 |
commit | 1775ea74c152ba7cf27a8bc1f071b40992c89013 (patch) | |
tree | 310fbe4e107734a16b3164adb1a65bd918935855 /source/blender/compositor/intern/COM_NodeOperationBuilder.cc | |
parent | b9cd2f4531ca670c196b0b14b1359d0f375103c2 (diff) |
Cleanup: Change extension .cpp to .cc
Diffstat (limited to 'source/blender/compositor/intern/COM_NodeOperationBuilder.cc')
-rw-r--r-- | source/blender/compositor/intern/COM_NodeOperationBuilder.cc | 722 |
1 files changed, 722 insertions, 0 deletions
diff --git a/source/blender/compositor/intern/COM_NodeOperationBuilder.cc b/source/blender/compositor/intern/COM_NodeOperationBuilder.cc new file mode 100644 index 00000000000..688b693080f --- /dev/null +++ b/source/blender/compositor/intern/COM_NodeOperationBuilder.cc @@ -0,0 +1,722 @@ +/* + * 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 2013, Blender Foundation. + */ + +#include "BLI_utildefines.h" + +#include "COM_Converter.h" +#include "COM_Debug.h" +#include "COM_ExecutionSystem.h" +#include "COM_Node.h" +#include "COM_NodeConverter.h" +#include "COM_SocketProxyNode.h" + +#include "COM_NodeOperation.h" +#include "COM_PreviewOperation.h" +#include "COM_ReadBufferOperation.h" +#include "COM_SetColorOperation.h" +#include "COM_SetValueOperation.h" +#include "COM_SetVectorOperation.h" +#include "COM_SocketProxyOperation.h" +#include "COM_ViewerOperation.h" +#include "COM_WriteBufferOperation.h" + +#include "COM_NodeOperationBuilder.h" /* own include */ + +NodeOperationBuilder::NodeOperationBuilder(const CompositorContext *context, bNodeTree *b_nodetree) + : m_context(context), m_current_node(nullptr), m_active_viewer(nullptr) +{ + m_graph.from_bNodeTree(*context, b_nodetree); +} + +NodeOperationBuilder::~NodeOperationBuilder() +{ +} + +void NodeOperationBuilder::convertToOperations(ExecutionSystem *system) +{ + /* interface handle for nodes */ + NodeConverter converter(this); + + for (int index = 0; index < m_graph.nodes().size(); index++) { + Node *node = (Node *)m_graph.nodes()[index]; + + m_current_node = node; + + DebugInfo::node_to_operations(node); + node->convertToOperations(converter, *m_context); + } + + m_current_node = nullptr; + + /* The input map constructed by nodes maps operation inputs to node inputs. + * Inverting yields a map of node inputs to all connected operation inputs, + * so multiple operations can use the same node input. + */ + OpInputInverseMap inverse_input_map; + for (InputSocketMap::const_iterator it = m_input_map.begin(); it != m_input_map.end(); ++it) { + inverse_input_map[it->second].push_back(it->first); + } + + for (const NodeGraph::Link &link : m_graph.links()) { + NodeOutput *from = link.from; + NodeInput *to = link.to; + + NodeOperationOutput *op_from = find_operation_output(m_output_map, from); + const OpInputs &op_to_list = find_operation_inputs(inverse_input_map, to); + if (!op_from || op_to_list.empty()) { + /* XXX allow this? error/debug message? */ + // BLI_assert(false); + /* XXX note: this can happen with certain nodes (e.g. OutputFile) + * which only generate operations in certain circumstances (rendering) + * just let this pass silently for now ... + */ + continue; + } + + for (OpInputs::const_iterator it = op_to_list.begin(); it != op_to_list.end(); ++it) { + NodeOperationInput *op_to = *it; + addLink(op_from, op_to); + } + } + + add_operation_input_constants(); + + resolve_proxies(); + + add_datatype_conversions(); + + determineResolutions(); + + /* surround complex ops with read/write buffer */ + add_complex_operation_buffers(); + + /* links not available from here on */ + /* XXX make m_links a local variable to avoid confusion! */ + m_links.clear(); + + prune_operations(); + + /* ensure topological (link-based) order of nodes */ + /*sort_operations();*/ /* not needed yet */ + + /* create execution groups */ + group_operations(); + + /* transfer resulting operations to the system */ + system->set_operations(m_operations, m_groups); +} + +void NodeOperationBuilder::addOperation(NodeOperation *operation) +{ + m_operations.append(operation); +} + +void NodeOperationBuilder::mapInputSocket(NodeInput *node_socket, + NodeOperationInput *operation_socket) +{ + BLI_assert(m_current_node); + BLI_assert(node_socket->getNode() == m_current_node); + + /* note: this maps operation sockets to node sockets. + * for resolving links the map will be inverted first in convertToOperations, + * to get a list of links for each node input socket. + */ + m_input_map[operation_socket] = node_socket; +} + +void NodeOperationBuilder::mapOutputSocket(NodeOutput *node_socket, + NodeOperationOutput *operation_socket) +{ + BLI_assert(m_current_node); + BLI_assert(node_socket->getNode() == m_current_node); + + m_output_map[node_socket] = operation_socket; +} + +void NodeOperationBuilder::addLink(NodeOperationOutput *from, NodeOperationInput *to) +{ + if (to->isConnected()) { + return; + } + + m_links.push_back(Link(from, to)); + + /* register with the input */ + to->setLink(from); +} + +void NodeOperationBuilder::removeInputLink(NodeOperationInput *to) +{ + for (Links::iterator it = m_links.begin(); it != m_links.end(); ++it) { + Link &link = *it; + if (link.to() == to) { + /* unregister with the input */ + to->setLink(nullptr); + + m_links.erase(it); + return; + } + } +} + +NodeInput *NodeOperationBuilder::find_node_input(const InputSocketMap &map, + NodeOperationInput *op_input) +{ + InputSocketMap::const_iterator it = map.find(op_input); + return (it != map.end() ? it->second : NULL); +} + +const NodeOperationBuilder::OpInputs &NodeOperationBuilder::find_operation_inputs( + const OpInputInverseMap &map, NodeInput *node_input) +{ + static const OpInputs empty_list; + OpInputInverseMap::const_iterator it = map.find(node_input); + return (it != map.end() ? it->second : empty_list); +} + +NodeOperationOutput *NodeOperationBuilder::find_operation_output(const OutputSocketMap &map, + NodeOutput *node_output) +{ + OutputSocketMap::const_iterator it = map.find(node_output); + return (it != map.end() ? it->second : NULL); +} + +PreviewOperation *NodeOperationBuilder::make_preview_operation() const +{ + BLI_assert(m_current_node); + + if (!(m_current_node->getbNode()->flag & NODE_PREVIEW)) { + return nullptr; + } + /* previews only in the active group */ + if (!m_current_node->isInActiveGroup()) { + return nullptr; + } + /* do not calculate previews of hidden nodes */ + if (m_current_node->getbNode()->flag & NODE_HIDDEN) { + return nullptr; + } + + bNodeInstanceHash *previews = m_context->getPreviewHash(); + if (previews) { + PreviewOperation *operation = new PreviewOperation(m_context->getViewSettings(), + m_context->getDisplaySettings()); + operation->setbNodeTree(m_context->getbNodeTree()); + operation->verifyPreview(previews, m_current_node->getInstanceKey()); + return operation; + } + + return nullptr; +} + +void NodeOperationBuilder::addPreview(NodeOperationOutput *output) +{ + PreviewOperation *operation = make_preview_operation(); + if (operation) { + addOperation(operation); + + addLink(output, operation->getInputSocket(0)); + } +} + +void NodeOperationBuilder::addNodeInputPreview(NodeInput *input) +{ + PreviewOperation *operation = make_preview_operation(); + if (operation) { + addOperation(operation); + + mapInputSocket(input, operation->getInputSocket(0)); + } +} + +void NodeOperationBuilder::registerViewer(ViewerOperation *viewer) +{ + if (m_active_viewer) { + if (m_current_node->isInActiveGroup()) { + /* deactivate previous viewer */ + m_active_viewer->setActive(false); + + m_active_viewer = viewer; + viewer->setActive(true); + } + } + else { + if (m_current_node->getbNodeTree() == m_context->getbNodeTree()) { + m_active_viewer = viewer; + viewer->setActive(true); + } + } +} + +/**************************** + **** Optimization Steps **** + ****************************/ + +void NodeOperationBuilder::add_datatype_conversions() +{ + Links convert_links; + for (Links::const_iterator it = m_links.begin(); it != m_links.end(); ++it) { + const Link &link = *it; + + /* proxy operations can skip data type conversion */ + NodeOperation *from_op = &link.from()->getOperation(); + NodeOperation *to_op = &link.to()->getOperation(); + if (!(from_op->useDatatypeConversion() || to_op->useDatatypeConversion())) { + continue; + } + + if (link.from()->getDataType() != link.to()->getDataType()) { + convert_links.push_back(link); + } + } + for (Links::const_iterator it = convert_links.begin(); it != convert_links.end(); ++it) { + const Link &link = *it; + NodeOperation *converter = COM_convert_data_type(*link.from(), *link.to()); + if (converter) { + addOperation(converter); + + removeInputLink(link.to()); + addLink(link.from(), converter->getInputSocket(0)); + addLink(converter->getOutputSocket(0), link.to()); + } + } +} + +void NodeOperationBuilder::add_operation_input_constants() +{ + /* Note: unconnected inputs cached first to avoid modifying + * m_operations while iterating over it + */ + using Inputs = std::vector<NodeOperationInput *>; + Inputs pending_inputs; + for (NodeOperation *op : m_operations) { + for (int k = 0; k < op->getNumberOfInputSockets(); ++k) { + NodeOperationInput *input = op->getInputSocket(k); + if (!input->isConnected()) { + pending_inputs.push_back(input); + } + } + } + for (Inputs::const_iterator it = pending_inputs.begin(); it != pending_inputs.end(); ++it) { + NodeOperationInput *input = *it; + add_input_constant_value(input, find_node_input(m_input_map, input)); + } +} + +void NodeOperationBuilder::add_input_constant_value(NodeOperationInput *input, + NodeInput *node_input) +{ + switch (input->getDataType()) { + case COM_DT_VALUE: { + float value; + if (node_input && node_input->getbNodeSocket()) { + value = node_input->getEditorValueFloat(); + } + else { + value = 0.0f; + } + + SetValueOperation *op = new SetValueOperation(); + op->setValue(value); + addOperation(op); + addLink(op->getOutputSocket(), input); + break; + } + case COM_DT_COLOR: { + float value[4]; + if (node_input && node_input->getbNodeSocket()) { + node_input->getEditorValueColor(value); + } + else { + zero_v4(value); + } + + SetColorOperation *op = new SetColorOperation(); + op->setChannels(value); + addOperation(op); + addLink(op->getOutputSocket(), input); + break; + } + case COM_DT_VECTOR: { + float value[3]; + if (node_input && node_input->getbNodeSocket()) { + node_input->getEditorValueVector(value); + } + else { + zero_v3(value); + } + + SetVectorOperation *op = new SetVectorOperation(); + op->setVector(value); + addOperation(op); + addLink(op->getOutputSocket(), input); + break; + } + } +} + +void NodeOperationBuilder::resolve_proxies() +{ + Links proxy_links; + for (Links::const_iterator it = m_links.begin(); it != m_links.end(); ++it) { + const Link &link = *it; + /* don't replace links from proxy to proxy, since we may need them for replacing others! */ + if (link.from()->getOperation().isProxyOperation() && + !link.to()->getOperation().isProxyOperation()) { + proxy_links.push_back(link); + } + } + + for (Links::const_iterator it = proxy_links.begin(); it != proxy_links.end(); ++it) { + const Link &link = *it; + + NodeOperationInput *to = link.to(); + NodeOperationOutput *from = link.from(); + do { + /* walk upstream bypassing the proxy operation */ + from = from->getOperation().getInputSocket(0)->getLink(); + } while (from && from->getOperation().isProxyOperation()); + + removeInputLink(to); + /* we may not have a final proxy input link, + * in that case it just gets dropped + */ + if (from) { + addLink(from, to); + } + } +} + +void NodeOperationBuilder::determineResolutions() +{ + /* determine all resolutions of the operations (Width/Height) */ + for (NodeOperation *op : m_operations) { + if (op->isOutputOperation(m_context->isRendering()) && !op->isPreviewOperation()) { + unsigned int resolution[2] = {0, 0}; + unsigned int preferredResolution[2] = {0, 0}; + op->determineResolution(resolution, preferredResolution); + op->setResolution(resolution); + } + } + + for (NodeOperation *op : m_operations) { + if (op->isOutputOperation(m_context->isRendering()) && op->isPreviewOperation()) { + unsigned int resolution[2] = {0, 0}; + unsigned int preferredResolution[2] = {0, 0}; + op->determineResolution(resolution, preferredResolution); + op->setResolution(resolution); + } + } + + /* add convert resolution operations when needed */ + { + Links convert_links; + for (Links::const_iterator it = m_links.begin(); it != m_links.end(); ++it) { + const Link &link = *it; + + if (link.to()->getResizeMode() != COM_SC_NO_RESIZE) { + NodeOperation &from_op = link.from()->getOperation(); + NodeOperation &to_op = link.to()->getOperation(); + if (from_op.getWidth() != to_op.getWidth() || from_op.getHeight() != to_op.getHeight()) { + convert_links.push_back(link); + } + } + } + for (Links::const_iterator it = convert_links.begin(); it != convert_links.end(); ++it) { + const Link &link = *it; + COM_convert_resolution(*this, link.from(), link.to()); + } + } +} + +NodeOperationBuilder::OpInputs NodeOperationBuilder::cache_output_links( + NodeOperationOutput *output) const +{ + OpInputs inputs; + for (Links::const_iterator it = m_links.begin(); it != m_links.end(); ++it) { + const Link &link = *it; + if (link.from() == output) { + inputs.push_back(link.to()); + } + } + return inputs; +} + +WriteBufferOperation *NodeOperationBuilder::find_attached_write_buffer_operation( + NodeOperationOutput *output) const +{ + for (Links::const_iterator it = m_links.begin(); it != m_links.end(); ++it) { + const Link &link = *it; + if (link.from() == output) { + NodeOperation &op = link.to()->getOperation(); + if (op.isWriteBufferOperation()) { + return (WriteBufferOperation *)(&op); + } + } + } + return nullptr; +} + +void NodeOperationBuilder::add_input_buffers(NodeOperation * /*operation*/, + NodeOperationInput *input) +{ + if (!input->isConnected()) { + return; + } + + NodeOperationOutput *output = input->getLink(); + if (output->getOperation().isReadBufferOperation()) { + /* input is already buffered, no need to add another */ + return; + } + + /* this link will be replaced below */ + removeInputLink(input); + + /* check of other end already has write operation, otherwise add a new one */ + WriteBufferOperation *writeoperation = find_attached_write_buffer_operation(output); + if (!writeoperation) { + writeoperation = new WriteBufferOperation(output->getDataType()); + writeoperation->setbNodeTree(m_context->getbNodeTree()); + addOperation(writeoperation); + + addLink(output, writeoperation->getInputSocket(0)); + + writeoperation->readResolutionFromInputSocket(); + } + + /* add readbuffer op for the input */ + ReadBufferOperation *readoperation = new ReadBufferOperation(output->getDataType()); + readoperation->setMemoryProxy(writeoperation->getMemoryProxy()); + this->addOperation(readoperation); + + addLink(readoperation->getOutputSocket(), input); + + readoperation->readResolutionFromWriteBuffer(); +} + +void NodeOperationBuilder::add_output_buffers(NodeOperation *operation, + NodeOperationOutput *output) +{ + /* cache connected sockets, so we can safely remove links first before replacing them */ + OpInputs targets = cache_output_links(output); + if (targets.empty()) { + return; + } + + WriteBufferOperation *writeOperation = nullptr; + for (OpInputs::const_iterator it = targets.begin(); it != targets.end(); ++it) { + NodeOperationInput *target = *it; + + /* try to find existing write buffer operation */ + if (target->getOperation().isWriteBufferOperation()) { + BLI_assert(writeOperation == nullptr); /* there should only be one write op connected */ + writeOperation = (WriteBufferOperation *)(&target->getOperation()); + } + else { + /* remove all links to other nodes */ + removeInputLink(target); + } + } + + /* if no write buffer operation exists yet, create a new one */ + if (!writeOperation) { + writeOperation = new WriteBufferOperation(operation->getOutputSocket()->getDataType()); + writeOperation->setbNodeTree(m_context->getbNodeTree()); + addOperation(writeOperation); + + addLink(output, writeOperation->getInputSocket(0)); + } + + writeOperation->readResolutionFromInputSocket(); + + /* add readbuffer op for every former connected input */ + for (OpInputs::const_iterator it = targets.begin(); it != targets.end(); ++it) { + NodeOperationInput *target = *it; + if (&target->getOperation() == writeOperation) { + continue; /* skip existing write op links */ + } + + ReadBufferOperation *readoperation = new ReadBufferOperation( + operation->getOutputSocket()->getDataType()); + readoperation->setMemoryProxy(writeOperation->getMemoryProxy()); + addOperation(readoperation); + + addLink(readoperation->getOutputSocket(), target); + + readoperation->readResolutionFromWriteBuffer(); + } +} + +void NodeOperationBuilder::add_complex_operation_buffers() +{ + /* note: complex ops and get cached here first, since adding operations + * will invalidate iterators over the main m_operations + */ + blender::Vector<NodeOperation *> complex_ops; + for (NodeOperation *operation : m_operations) { + if (operation->isComplex()) { + complex_ops.append(operation); + } + } + + for (NodeOperation *op : complex_ops) { + DebugInfo::operation_read_write_buffer(op); + + for (int index = 0; index < op->getNumberOfInputSockets(); index++) { + add_input_buffers(op, op->getInputSocket(index)); + } + + for (int index = 0; index < op->getNumberOfOutputSockets(); index++) { + add_output_buffers(op, op->getOutputSocket(index)); + } + } +} + +using Tags = std::set<NodeOperation *>; + +static void find_reachable_operations_recursive(Tags &reachable, NodeOperation *op) +{ + if (reachable.find(op) != reachable.end()) { + return; + } + reachable.insert(op); + + for (int i = 0; i < op->getNumberOfInputSockets(); i++) { + NodeOperationInput *input = op->getInputSocket(i); + if (input->isConnected()) { + find_reachable_operations_recursive(reachable, &input->getLink()->getOperation()); + } + } + + /* associated write-buffer operations are executed as well */ + if (op->isReadBufferOperation()) { + ReadBufferOperation *read_op = (ReadBufferOperation *)op; + MemoryProxy *memproxy = read_op->getMemoryProxy(); + find_reachable_operations_recursive(reachable, memproxy->getWriteBufferOperation()); + } +} + +void NodeOperationBuilder::prune_operations() +{ + Tags reachable; + for (NodeOperation *op : m_operations) { + /* output operations are primary executed operations */ + if (op->isOutputOperation(m_context->isRendering())) { + find_reachable_operations_recursive(reachable, op); + } + } + + /* delete unreachable operations */ + blender::Vector<NodeOperation *> reachable_ops; + for (NodeOperation *op : m_operations) { + if (reachable.find(op) != reachable.end()) { + reachable_ops.append(op); + } + else { + delete op; + } + } + /* finally replace the operations list with the pruned list */ + m_operations = reachable_ops; +} + +/* topological (depth-first) sorting of operations */ +static void sort_operations_recursive(blender::Vector<NodeOperation *> &sorted, + Tags &visited, + NodeOperation *op) +{ + if (visited.find(op) != visited.end()) { + return; + } + visited.insert(op); + + for (int i = 0; i < op->getNumberOfInputSockets(); i++) { + NodeOperationInput *input = op->getInputSocket(i); + if (input->isConnected()) { + sort_operations_recursive(sorted, visited, &input->getLink()->getOperation()); + } + } + + sorted.append(op); +} + +void NodeOperationBuilder::sort_operations() +{ + blender::Vector<NodeOperation *> sorted; + sorted.reserve(m_operations.size()); + Tags visited; + + for (NodeOperation *operation : m_operations) { + sort_operations_recursive(sorted, visited, operation); + } + + m_operations = sorted; +} + +static void add_group_operations_recursive(Tags &visited, NodeOperation *op, ExecutionGroup *group) +{ + if (visited.find(op) != visited.end()) { + return; + } + visited.insert(op); + + if (!group->addOperation(op)) { + return; + } + + /* add all eligible input ops to the group */ + for (int i = 0; i < op->getNumberOfInputSockets(); i++) { + NodeOperationInput *input = op->getInputSocket(i); + if (input->isConnected()) { + add_group_operations_recursive(visited, &input->getLink()->getOperation(), group); + } + } +} + +ExecutionGroup *NodeOperationBuilder::make_group(NodeOperation *op) +{ + ExecutionGroup *group = new ExecutionGroup(); + m_groups.append(group); + + Tags visited; + add_group_operations_recursive(visited, op, group); + + return group; +} + +void NodeOperationBuilder::group_operations() +{ + for (NodeOperation *op : m_operations) { + if (op->isOutputOperation(m_context->isRendering())) { + ExecutionGroup *group = make_group(op); + group->setOutputExecutionGroup(true); + } + + /* add new groups for associated memory proxies where needed */ + if (op->isReadBufferOperation()) { + ReadBufferOperation *read_op = (ReadBufferOperation *)op; + MemoryProxy *memproxy = read_op->getMemoryProxy(); + + if (memproxy->getExecutor() == nullptr) { + ExecutionGroup *group = make_group(memproxy->getWriteBufferOperation()); + memproxy->setExecutor(group); + } + } + } +} |