forked from blender/blender
Export other channels and parameters from texture nodes #16
@ -10,11 +10,13 @@ namespace blender::nodes::materialx {
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NodeItem MathNodeParser::compute()
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{
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/* TODO: finish some math operations */
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auto op = node_->custom1;
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NodeMathOperation op = NodeMathOperation(node_->custom1);
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NodeItem res = empty();
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/* Single operand operations */
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NodeItem x = get_input_value(0, NodeItem::Type::Any);
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NodeItem x = get_input_value(0, NodeItem::Type::Float);
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/* TODO: Seems we have to use average if Vector or Color are added */
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switch (op) {
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case NODE_MATH_SINE:
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res = x.sin();
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@ -82,7 +84,7 @@ NodeItem MathNodeParser::compute()
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default: {
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/* 2-operand operations */
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NodeItem y = get_input_value(1, NodeItem::Type::Any);
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NodeItem y = get_input_value(1, NodeItem::Type::Float);
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switch (op) {
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case NODE_MATH_ADD:
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res = x + y;
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@ -132,7 +134,7 @@ NodeItem MathNodeParser::compute()
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default: {
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/* 3-operand operations */
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NodeItem z = get_input_value(2, NodeItem::Type::Any);
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NodeItem z = get_input_value(2, NodeItem::Type::Float);
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switch (op) {
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case NODE_MATH_WRAP:
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CLOG_WARN(LOG_MATERIALX_SHADER, "Unimplemented math operation %d", op);
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@ -351,15 +351,6 @@ NodeItem NodeItem::exp() const
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return arithmetic("exp", [](float a) { return std::expf(a); });
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}
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NodeItem NodeItem::extract(const int index) const
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{
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NodeItem res = empty();
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res = create_node("extract", Type::Float);
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res.set_input("in", *this);
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res.set_input("index", val(index));
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return res;
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}
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NodeItem NodeItem::convert(Type to_type) const
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{
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Type from_type = type();
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@ -605,6 +596,15 @@ NodeItem NodeItem::if_else(CompareOp op,
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return res;
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}
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NodeItem NodeItem::extract(const int index) const
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{
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NodeItem res = empty();
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res = create_node("extract", Type::Float);
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res.set_input("in", *this);
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res.set_input("index", val(index));
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return res;
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}
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NodeItem NodeItem::empty() const
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{
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return NodeItem(graph_);
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@ -9,6 +9,8 @@
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namespace blender::nodes::materialx {
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static const std::string TEXCOORD_NODE_NAME = "node_texcoord";
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NodeParser::NodeParser(MaterialX::GraphElement *graph,
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const Depsgraph *depsgraph,
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const Material *material,
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@ -79,6 +81,17 @@ NodeItem NodeParser::empty() const
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return NodeItem(graph_);
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}
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NodeItem NodeParser::texcoord_node()
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{
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NodeItem res = empty();
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res.node = graph_->getNode(TEXCOORD_NODE_NAME);
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if (!res.node) {
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res = create_node("texcoord", NodeItem::Type::Vector2);
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res.node->setName(TEXCOORD_NODE_NAME);
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}
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return res;
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}
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NodeItem NodeParser::get_input_default(const bNodeSocket &socket, NodeItem::Type to_type)
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{
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NodeItem res = empty();
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@ -42,6 +42,7 @@ class NodeParser {
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NodeItem get_input_value(int index, NodeItem::Type to_type);
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NodeItem empty() const;
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template<class T> NodeItem val(const T &data) const;
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NodeItem texcoord_node();
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private:
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NodeItem get_input_default(const bNodeSocket &socket, NodeItem::Type to_type);
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@ -9,21 +9,20 @@ namespace blender::nodes::materialx {
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NodeItem TexCheckerNodeParser::compute()
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{
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NodeItem vector = get_input_link("Vector", NodeItem::Type::Vector2);
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NodeItem color1 = get_input_value("Color1", NodeItem::Type::Color3);
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NodeItem color2 = get_input_value("Color2", NodeItem::Type::Color3);
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if (!vector) {
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vector = texcoord_node();
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}
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NodeItem value1 = val(1.0f);
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NodeItem value2 = val(0.0f);
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if (STREQ(socket_out_->name, "Color")) {
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value1 = get_input_value("Color1", NodeItem::Type::Color4);
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value2 = get_input_value("Color2", NodeItem::Type::Color4);
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}
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NodeItem scale = get_input_value("Scale", NodeItem::Type::Float);
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if (!vector) {
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vector = create_node("texcoord", NodeItem::Type::Vector2);
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}
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vector = (vector * scale) % val(2.0f);
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NodeItem mix = (vector.extract(0).floor() + vector.extract(1).floor())
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.if_else(NodeItem::CompareOp::Eq, val(1.0f), val(1.0f), val(0.0f));
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NodeItem res = create_node("mix", NodeItem::Type::Color3);
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res.set_input("fg", color1);
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res.set_input("bg", color2);
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res.set_input("mix", mix);
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return res;
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return (vector.extract(0).floor() + vector.extract(1).floor())
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.if_else(NodeItem::CompareOp::Eq, val(1.0f), value1, value2);
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}
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} // namespace blender::nodes::materialx
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@ -12,21 +12,49 @@ namespace blender::nodes::materialx {
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NodeItem TexEnvironmentNodeParser::compute()
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{
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NodeItem res = val(MaterialX::Color4(1.0f, 0.0f, 1.0f, 1.0f));
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Image *image = (Image *)node_->id;
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NodeTexEnvironment *tex = static_cast<NodeTexEnvironment *>(node_->storage);
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if (!image) {
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return res;
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}
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NodeTexEnvironment *tex_env = static_cast<NodeTexEnvironment *>(node_->storage);
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Scene *scene = DEG_get_input_scene(depsgraph_);
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Main *bmain = DEG_get_bmain(depsgraph_);
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std::string image_path;
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/* TODO: What if Blender built without Hydra? Also io::hydra::cache_or_get_image_file contains
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* pretty general code, so could be moved from bf_usd project. */
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#ifdef WITH_HYDRA
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image_path = io::hydra::cache_or_get_image_file(bmain, scene, image, &tex->iuser);
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#endif
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std::string image_path = io::hydra::cache_or_get_image_file(
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bmain, scene, image, &tex_env->iuser);
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NodeItem texcoord = create_node("texcoord", NodeItem::Type::Vector2);
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NodeItem res = create_node("image", NodeItem::Type::Color3);
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NodeItem vector = get_input_link("Vector", NodeItem::Type::Vector2);
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if (!vector) {
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vector = texcoord_node();
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}
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/* TODO: texcoords should be translated to spherical coordinates */
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std::string filtertype;
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switch (tex_env->interpolation) {
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case SHD_INTERP_LINEAR:
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filtertype = "linear";
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break;
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case SHD_INTERP_CLOSEST:
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filtertype = "closest";
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break;
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case SHD_INTERP_CUBIC:
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case SHD_INTERP_SMART:
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filtertype = "cubic";
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break;
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default:
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BLI_assert_unreachable();
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}
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res = create_node("image", NodeItem::Type::Color4);
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res.set_input("file", image_path, NodeItem::Type::Filename);
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res.set_input("texcoord", texcoord);
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res.set_input("texcoord", vector);
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res.set_input("filtertype", val(filtertype));
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return res;
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}
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@ -12,21 +12,69 @@ namespace blender::nodes::materialx {
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NodeItem TexImageNodeParser::compute()
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{
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NodeItem res = val(MaterialX::Color4(1.0f, 0.0f, 1.0f, 1.0f));
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Image *image = (Image *)node_->id;
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NodeTexImage *tex = static_cast<NodeTexImage *>(node_->storage);
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if (image) {
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NodeTexImage *tex_image = static_cast<NodeTexImage *>(node_->storage);
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Scene *scene = DEG_get_input_scene(depsgraph_);
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Main *bmain = DEG_get_bmain(depsgraph_);
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std::string image_path;
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/* TODO: What if Blender built without Hydra? Also io::hydra::cache_or_get_image_file contains
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* pretty general code, so could be moved from bf_usd project. */
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#ifdef WITH_HYDRA
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image_path = io::hydra::cache_or_get_image_file(bmain, scene, image, &tex->iuser);
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#endif
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std::string image_path = io::hydra::cache_or_get_image_file(
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bmain, scene, image, &tex_image->iuser);
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NodeItem texcoord = create_node("texcoord", NodeItem::Type::Vector2);
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NodeItem res = create_node("image", NodeItem::Type::Color3);
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NodeItem vector = get_input_link("Vector", NodeItem::Type::Vector2);
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if (!vector) {
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vector = texcoord_node();
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}
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/* TODO: add math to vector depending of tex_image->projection */
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std::string filtertype;
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switch (tex_image->interpolation) {
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case SHD_INTERP_LINEAR:
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filtertype = "linear";
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break;
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case SHD_INTERP_CLOSEST:
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filtertype = "closest";
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break;
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case SHD_INTERP_CUBIC:
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case SHD_INTERP_SMART:
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filtertype = "cubic";
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break;
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default:
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BLI_assert_unreachable();
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}
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std::string addressmode;
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switch (tex_image->extension) {
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case SHD_IMAGE_EXTENSION_REPEAT:
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addressmode = "periodic";
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break;
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case SHD_IMAGE_EXTENSION_EXTEND:
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addressmode = "clamp";
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break;
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case SHD_IMAGE_EXTENSION_CLIP:
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addressmode = "constant";
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break;
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case SHD_IMAGE_EXTENSION_MIRROR:
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addressmode = "mirror";
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break;
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default:
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BLI_assert_unreachable();
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}
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res = create_node("image", NodeItem::Type::Color4);
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res.set_input("file", image_path, NodeItem::Type::Filename);
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res.set_input("texcoord", texcoord);
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res.set_input("texcoord", vector);
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res.set_input("filtertype", val(filtertype));
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res.set_input("uaddressmode", val(addressmode));
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res.set_input("vaddressmode", val(addressmode));
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}
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if (STREQ(socket_out_->name, "Alpha")) {
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res = res.extract(3);
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}
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return res;
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}
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Block a user