Export other channels and parameters from texture nodes #16

Merged
Bogdan Nagirniak merged 8 commits from BogdanNagirniak/blender:matx-images-alpha-1 into matx-export-material 2023-09-08 18:28:56 +02:00
21 changed files with 112 additions and 100 deletions
Showing only changes of commit 05dcf7d141 - Show all commits

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@ -32,7 +32,7 @@ MaterialX::DocumentPtr export_to_materialx(Depsgraph *depsgraph, Material *mater
} }
CLOG_INFO(LOG_MATERIALX_SHADER, CLOG_INFO(LOG_MATERIALX_SHADER,
2, 1,
"Material: %s\n%s", "Material: %s\n%s",
material->id.name, material->id.name,
MaterialX::writeToXmlString(doc).c_str()); MaterialX::writeToXmlString(doc).c_str());

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@ -13,7 +13,7 @@ NodeItem BrightContrastNodeParser::compute()
NodeItem contrast = get_input_value("Contrast", NodeItem::Type::Float); NodeItem contrast = get_input_value("Contrast", NodeItem::Type::Float);
/* This formula was given from OSL shader code in Cycles. */ /* This formula was given from OSL shader code in Cycles. */
return (bright + color * (contrast + value(1.0f)) - contrast * value(0.5f)).max(value(0.0f)); return (bright + color * (contrast + val(1.0f)) - contrast * val(0.5f)).max(val(0.0f));
} }
} // namespace blender::nodes::materialx } // namespace blender::nodes::materialx

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@ -16,7 +16,7 @@ NodeItem BSDFDiffuseNodeParser::compute()
NodeItem roughness = get_input_value("Roughness", NodeItem::Type::Float); NodeItem roughness = get_input_value("Roughness", NodeItem::Type::Float);
NodeItem normal = get_input_link("Normal", NodeItem::Type::Vector3); NodeItem normal = get_input_link("Normal", NodeItem::Type::Vector3);
NodeItem res = create_node("oren_nayar_diffuse_bsdf", "BSDF"); NodeItem res = create_node("oren_nayar_diffuse_bsdf", NodeItem::Type::BSDF);
res.set_input("color", color); res.set_input("color", color);
res.set_input("roughness", roughness); res.set_input("roughness", roughness);
if (normal) { if (normal) {

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@ -50,8 +50,8 @@ NodeItem BSDFPrincipledNodeParser::compute()
NodeItem tangent = get_input_link("Tangent", NodeItem::Type::Vector3); NodeItem tangent = get_input_link("Tangent", NodeItem::Type::Vector3);
/* Creating standard_surface */ /* Creating standard_surface */
NodeItem res = create_node("standard_surface", "surfaceshader"); NodeItem res = create_node("standard_surface", NodeItem::Type::SurfaceShader);
res.set_input("base", 1.0, "float"); res.set_input("base", val(1.0f));
res.set_input("base_color", base_color); res.set_input("base_color", base_color);
res.set_input("diffuse_roughness", roughness); res.set_input("diffuse_roughness", roughness);
if (normal) { if (normal) {

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@ -15,7 +15,7 @@ NodeItem EmissionNodeParser::compute()
NodeItem color = get_input_value("Color", NodeItem::Type::Color3); NodeItem color = get_input_value("Color", NodeItem::Type::Color3);
NodeItem strength = get_input_value("Strength", NodeItem::Type::Float); NodeItem strength = get_input_value("Strength", NodeItem::Type::Float);
NodeItem res = create_node("uniform_edf", "EDF"); NodeItem res = create_node("uniform_edf", NodeItem::Type::EDF);
res.set_input("color", color * strength); res.set_input("color", color * strength);
return res; return res;
} }

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@ -12,19 +12,19 @@ NodeItem HueSatValNodeParser::compute()
* source\blender\nodes\texture\nodes\node_texture_hueSatVal.cc */ * source\blender\nodes\texture\nodes\node_texture_hueSatVal.cc */
NodeItem hue = get_input_value("Hue", NodeItem::Type::Float); NodeItem hue = get_input_value("Hue", NodeItem::Type::Float);
NodeItem saturation = get_input_value("Saturation", NodeItem::Type::Float); NodeItem saturation = get_input_value("Saturation", NodeItem::Type::Float);
NodeItem val = get_input_value("Value", NodeItem::Type::Float); NodeItem value = get_input_value("Value", NodeItem::Type::Float);
NodeItem fac = get_input_value("Fac", NodeItem::Type::Float); NodeItem fac = get_input_value("Fac", NodeItem::Type::Float);
NodeItem color = get_input_value("Color", NodeItem::Type::Color3); NodeItem color = get_input_value("Color", NodeItem::Type::Color3);
/* Modifier to follow Cycles result */ /* Modifier to follow Cycles result */
hue = hue - value(0.5f); hue = hue - val(0.5f);
NodeItem combine = create_node("combine3", "vector3"); NodeItem combine = create_node("combine3", NodeItem::Type::Vector3);
combine.set_input("in1", hue); combine.set_input("in1", hue);
combine.set_input("in2", saturation); combine.set_input("in2", saturation);
combine.set_input("in3", val); combine.set_input("in3", value);
NodeItem res = create_node("hsvadjust", "color3"); NodeItem res = create_node("hsvadjust", NodeItem::Type::Color3);
res.set_input("in", color); res.set_input("in", color);
res.set_input("amount", combine); res.set_input("amount", combine);
return res; return res;

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@ -35,7 +35,7 @@ NodeItem MathNodeParser::compute()
res = x.atan(); res = x.atan();
break; break;
case NODE_MATH_ROUND: case NODE_MATH_ROUND:
res = (x + value(0.5f)).floor(); res = (x + val(0.5f)).floor();
break; break;
case NODE_MATH_ABSOLUTE: case NODE_MATH_ABSOLUTE:
res = x.abs(); res = x.abs();
@ -47,13 +47,13 @@ NodeItem MathNodeParser::compute()
res = x.ceil(); res = x.ceil();
break; break;
case NODE_MATH_FRACTION: case NODE_MATH_FRACTION:
res = x % value(1.0f); res = x % val(1.0f);
break; break;
case NODE_MATH_SQRT: case NODE_MATH_SQRT:
res = x.sqrt(); res = x.sqrt();
break; break;
case NODE_MATH_INV_SQRT: case NODE_MATH_INV_SQRT:
res = value(1.0f) / x.sqrt(); res = val(1.0f) / x.sqrt();
break; break;
case NODE_MATH_SIGN: case NODE_MATH_SIGN:
res = x.sign(); res = x.sign();
@ -62,10 +62,10 @@ NodeItem MathNodeParser::compute()
res = x.exp(); res = x.exp();
break; break;
case NODE_MATH_RADIANS: case NODE_MATH_RADIANS:
res = x * value(float(M_PI) / 180.0f); res = x * val(float(M_PI) / 180.0f);
break; break;
case NODE_MATH_DEGREES: case NODE_MATH_DEGREES:
res = x * value(180.0f * float(M_1_PI)); res = x * val(180.0f * float(M_1_PI));
break; break;
case NODE_MATH_SINH: case NODE_MATH_SINH:
res = x.sinh(); res = x.sinh();
@ -109,10 +109,10 @@ NodeItem MathNodeParser::compute()
res = x.max(y); res = x.max(y);
break; break;
case NODE_MATH_LESS_THAN: case NODE_MATH_LESS_THAN:
res = x.if_else(NodeItem::CompareOp::Less, y, value(1.0f), value(0.0f)); res = x.if_else(NodeItem::CompareOp::Less, y, val(1.0f), val(0.0f));
break; break;
case NODE_MATH_GREATER_THAN: case NODE_MATH_GREATER_THAN:
res = x.if_else(NodeItem::CompareOp::Greater, y, value(1.0f), value(0.0f)); res = x.if_else(NodeItem::CompareOp::Greater, y, val(1.0f), val(0.0f));
break; break;
case NODE_MATH_MODULO: case NODE_MATH_MODULO:
res = x % y; res = x % y;
@ -138,7 +138,7 @@ NodeItem MathNodeParser::compute()
CLOG_WARN(LOG_MATERIALX_SHADER, "Unimplemented math operation %d", op); CLOG_WARN(LOG_MATERIALX_SHADER, "Unimplemented math operation %d", op);
break; break;
case NODE_MATH_COMPARE: case NODE_MATH_COMPARE:
res = z.if_else(NodeItem::CompareOp::Less, (x - y).abs(), value(1.0f), value(0.0f)); res = z.if_else(NodeItem::CompareOp::Less, (x - y).abs(), val(1.0f), val(0.0f));
break; break;
case NODE_MATH_MULTIPLY_ADD: case NODE_MATH_MULTIPLY_ADD:
res = x * y + z; res = x * y + z;

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@ -17,13 +17,13 @@ NodeItem MixShaderNodeParser::compute()
NodeItem shader2 = get_input_shader(2, shader_type_); NodeItem shader2 = get_input_shader(2, shader_type_);
if (shader1 && !shader2) { if (shader1 && !shader2) {
res = shader1 * (value(1.0f) - fac); res = shader1 * (val(1.0f) - fac);
} }
else if (!shader1 && shader2) { else if (!shader1 && shader2) {
res = shader2 * fac; res = shader2 * fac;
} }
else if (shader1 && shader2) { else if (shader1 && shader2) {
res = create_node("mix", NodeItem::type(shader_type_)); res = create_node("mix", shader_type_);
res.set_input("fg", shader1); res.set_input("fg", shader1);
res.set_input("bg", shader2); res.set_input("bg", shader2);
res.set_input("mix", fac); res.set_input("mix", fac);
@ -31,9 +31,9 @@ NodeItem MixShaderNodeParser::compute()
break; break;
} }
case NodeItem::Type::SurfaceShader: { case NodeItem::Type::SurfaceShader: {
res = get_input_shader(1, shader_type_); res = get_input_shader(1, NodeItem::Type::SurfaceShader);
if (!res) { if (!res) {
res = get_input_shader(2, shader_type_); res = get_input_shader(2, NodeItem::Type::SurfaceShader);
} }
break; break;
} }

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@ -104,7 +104,7 @@ NodeItem NodeItem::operator+(const NodeItem &other) const
/* Special case: add BSDF/EDF shaders */ /* Special case: add BSDF/EDF shaders */
NodeItem res = empty(); NodeItem res = empty();
if (other.type() == type) { if (other.type() == type) {
res.node = graph_->addNode("add", MaterialX::EMPTY_STRING, this->type(type)); res = create_node("add", type);
res.set_input("in1", *this); res.set_input("in1", *this);
res.set_input("in2", other); res.set_input("in2", other);
} }
@ -135,7 +135,7 @@ NodeItem NodeItem::operator*(const NodeItem &other) const
NodeItem res = empty(); NodeItem res = empty();
Type other_type = other.type(); Type other_type = other.type();
if (ELEM(other_type, Type::Float, Type::Color3)) { if (ELEM(other_type, Type::Float, Type::Color3)) {
res.node = graph_->addNode("multiply", MaterialX::EMPTY_STRING, this->type(type)); res = create_node("multiply", type);
res.set_input("in1", *this); res.set_input("in1", *this);
res.set_input("in2", other); res.set_input("in2", other);
} }
@ -222,9 +222,8 @@ NodeItem NodeItem::dotproduct(const NodeItem &other) const
{ {
NodeItem d = arithmetic(other, "dotproduct", [](float a, float b) { return a * b; }); NodeItem d = arithmetic(other, "dotproduct", [](float a, float b) { return a * b; });
if (d.value) { if (d.value) {
Type mx_type = d.type();
float f = 0.0f; float f = 0.0f;
switch (mx_type) { switch (d.type()) {
case Type::Float: { case Type::Float: {
f = value->asA<float>(); f = value->asA<float>();
break; break;
@ -350,7 +349,7 @@ NodeItem NodeItem::exp() const
NodeItem NodeItem::extract(const int index) const NodeItem NodeItem::extract(const int index) const
{ {
NodeItem res = empty(); NodeItem res = empty();
res.node = graph_->addNode("extract", MaterialX::EMPTY_STRING, "float"); res = create_node("extract", Type::Float);
res.set_input("in", *this); res.set_input("in", *this);
res.set_input("index", val(index)); res.set_input("index", val(index));
return res; return res;
@ -534,7 +533,7 @@ NodeItem NodeItem::convert(Type to_type) const
} }
} }
else { else {
res.node = graph_->addNode("convert", MaterialX::EMPTY_STRING, type(to_type)); res = create_node("convert", to_type);
res.set_input("in", *this); res.set_input("in", *this);
} }
return res; return res;
@ -569,18 +568,18 @@ NodeItem NodeItem::if_else(CompareOp op,
} }
std::function<bool(float, float)> func = nullptr; std::function<bool(float, float)> func = nullptr;
std::string mx_category; std::string category;
switch (op) { switch (op) {
case CompareOp::Greater: case CompareOp::Greater:
mx_category = "ifgreater"; category = "ifgreater";
func = [](float a, float b) { return a > b; }; func = [](float a, float b) { return a > b; };
break; break;
case CompareOp::GreaterEq: case CompareOp::GreaterEq:
mx_category = "ifgreatereq"; category = "ifgreatereq";
func = [](float a, float b) { return a >= b; }; func = [](float a, float b) { return a >= b; };
break; break;
case CompareOp::Eq: case CompareOp::Eq:
mx_category = "ifequal"; category = "ifequal";
func = [](float a, float b) { return a == b; }; func = [](float a, float b) { return a == b; };
break; break;
default: default:
@ -591,7 +590,7 @@ NodeItem NodeItem::if_else(CompareOp op,
res = func(value->asA<float>(), other.value->asA<float>()) ? item1 : item2; res = func(value->asA<float>(), other.value->asA<float>()) ? item1 : item2;
} }
else { else {
res.node = graph_->addNode(mx_category, MaterialX::EMPTY_STRING, type(to_type)); res = create_node(category, to_type);
res.set_input("value1", *this); res.set_input("value1", *this);
res.set_input("value2", other); res.set_input("value2", other);
res.set_input("in1", item1); res.set_input("in1", item1);
@ -617,53 +616,67 @@ NodeItem::Type NodeItem::type() const
return Type::Empty; return Type::Empty;
} }
void NodeItem::set_input(const std::string &name, NodeItem NodeItem::create_node(const std::string &category, NodeItem::Type type) const
const NodeItem &item, {
const std::string &output_name) std::string type_str = this->type(type);
CLOG_INFO(LOG_MATERIALX_SHADER, 2, "<%s type=%s>", category.c_str(), type_str.c_str());
NodeItem res = empty();
res.node = graph_->addNode(category, MaterialX::EMPTY_STRING, type_str);
return res;
}
void NodeItem::set_input(const std::string &in_name, const NodeItem &item)
{ {
if (item.value) { if (item.value) {
Type item_type = item.type(); Type item_type = item.type();
std::string mx_type = type(item_type);
switch (item_type) { switch (item_type) {
case Type::String: case Type::String:
set_input(name, item.value->asA<std::string>(), mx_type); set_input(in_name, item.value->asA<std::string>(), item_type);
break; break;
case Type::Integer: case Type::Integer:
set_input(name, item.value->asA<int>(), mx_type); set_input(in_name, item.value->asA<int>(), item_type);
break; break;
case Type::Float: case Type::Float:
set_input(name, item.value->asA<float>(), mx_type); set_input(in_name, item.value->asA<float>(), item_type);
break; break;
case Type::Vector2: case Type::Vector2:
set_input(name, item.value->asA<MaterialX::Vector2>(), mx_type); set_input(in_name, item.value->asA<MaterialX::Vector2>(), item_type);
break; break;
case Type::Vector3: case Type::Vector3:
set_input(name, item.value->asA<MaterialX::Vector3>(), mx_type); set_input(in_name, item.value->asA<MaterialX::Vector3>(), item_type);
break; break;
case Type::Vector4: case Type::Vector4:
set_input(name, item.value->asA<MaterialX::Vector4>(), mx_type); set_input(in_name, item.value->asA<MaterialX::Vector4>(), item_type);
break; break;
case Type::Color3: case Type::Color3:
set_input(name, item.value->asA<MaterialX::Color3>(), mx_type); set_input(in_name, item.value->asA<MaterialX::Color3>(), item_type);
break; break;
case Type::Color4: case Type::Color4:
set_input(name, item.value->asA<MaterialX::Color4>(), mx_type); set_input(in_name, item.value->asA<MaterialX::Color4>(), item_type);
break; break;
default: default:
BLI_assert_unreachable(); BLI_assert_unreachable();
} }
} }
else if (item.node) { else if (item.node) {
node->setConnectedNode(name, item.node); node->setConnectedNode(in_name, item.node);
if (output_name != "") {
node->setConnectedOutput(name, item.node->getOutput(output_name));
}
} }
else { else {
CLOG_WARN(LOG_MATERIALX_SHADER, "Empty item to input: %s", name.c_str()); CLOG_WARN(LOG_MATERIALX_SHADER, "Empty item to input: %s", in_name.c_str());
} }
} }
void NodeItem::set_input_output(const std::string &in_name,
const NodeItem &item,
const std::string &out_name)
{
if (!item.node) {
BLI_assert_unreachable();
}
node->setConnectedNode(in_name, item.node);
node->setConnectedOutput(in_name, item.node->getOutput(out_name));
}
void NodeItem::add_output(const std::string &name, Type out_type) void NodeItem::add_output(const std::string &name, Type out_type)
{ {
node->addOutput(name, type(out_type)); node->addOutput(name, type(out_type));
@ -751,7 +764,7 @@ NodeItem NodeItem::arithmetic(const std::string &category, std::function<float(f
else { else {
/* TODO: Some of math functions (sin, cos, ...) doesn't work with Color types, /* TODO: Some of math functions (sin, cos, ...) doesn't work with Color types,
* we have to convert to Vector */ * we have to convert to Vector */
res.node = graph_->addNode(category, MaterialX::EMPTY_STRING, this->type(type)); res = create_node(category, type);
res.set_input("in", *this); res.set_input("in", *this);
} }
return res; return res;
@ -817,7 +830,7 @@ NodeItem NodeItem::arithmetic(const NodeItem &other,
} }
} }
else { else {
res.node = graph_->addNode(category, MaterialX::EMPTY_STRING, type(to_type)); res = create_node(category, to_type);
res.set_input("in1", item1); res.set_input("in1", item1);
res.set_input("in2", item2); res.set_input("in2", item2);
} }

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@ -97,13 +97,14 @@ class NodeItem {
NodeItem empty() const; NodeItem empty() const;
template<class T> NodeItem val(const T &data) const; template<class T> NodeItem val(const T &data) const;
Type type() const; Type type() const;
NodeItem create_node(const std::string &category, NodeItem::Type type) const;
/* Functions to set input and output */ /* Functions to set input and output */
template<class T> template<class T> void set_input(const std::string &in_name, const T &value, Type in_type);
void set_input(const std::string &in_name, const T &value, const std::string &in_type); void set_input(const std::string &in_name, const NodeItem &item);
void set_input(const std::string &in_name, void set_input_output(const std::string &in_name,
const NodeItem &item, const NodeItem &item,
const std::string &out_name = ""); const std::string &out_name);
void add_output(const std::string &in_name, Type out_type); void add_output(const std::string &in_name, Type out_type);
private: private:
@ -125,9 +126,9 @@ template<class T> NodeItem NodeItem::val(const T &data) const
} }
template<class T> template<class T>
void NodeItem::set_input(const std::string &in_name, const T &value, const std::string &in_type) void NodeItem::set_input(const std::string &in_name, const T &value, Type in_type)
{ {
node->setInputValue(in_name, value, in_type); node->setInputValue(in_name, value, type(in_type));
} }
} // namespace blender::nodes::materialx } // namespace blender::nodes::materialx

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@ -41,11 +41,9 @@ std::string NodeParser::node_name()
std::string(node_->name) + "_" + socket_out_->name); std::string(node_->name) + "_" + socket_out_->name);
} }
NodeItem NodeParser::create_node(const std::string &mx_category, const std::string &mx_type) NodeItem NodeParser::create_node(const std::string &category, NodeItem::Type type)
{ {
NodeItem res = empty(); return empty().create_node(category, type);
res.node = graph_->addNode(mx_category, MaterialX::EMPTY_STRING, mx_type);
return res;
} }
NodeItem NodeParser::get_input_default(const std::string &name, NodeItem::Type to_type) NodeItem NodeParser::get_input_default(const std::string &name, NodeItem::Type to_type)

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@ -33,7 +33,7 @@ class NodeParser {
protected: protected:
virtual NodeItem compute_full(); virtual NodeItem compute_full();
virtual std::string node_name(); virtual std::string node_name();
NodeItem create_node(const std::string &mx_category, const std::string &mx_type); NodeItem create_node(const std::string &category, NodeItem::Type type);
NodeItem get_input_default(const std::string &name, NodeItem::Type to_type); NodeItem get_input_default(const std::string &name, NodeItem::Type to_type);
NodeItem get_input_default(int index, NodeItem::Type to_type); NodeItem get_input_default(int index, NodeItem::Type to_type);
NodeItem get_input_link(const std::string &name, NodeItem::Type to_type); NodeItem get_input_link(const std::string &name, NodeItem::Type to_type);
@ -41,7 +41,7 @@ class NodeParser {
NodeItem get_input_value(const std::string &name, NodeItem::Type to_type); NodeItem get_input_value(const std::string &name, NodeItem::Type to_type);
NodeItem get_input_value(int index, NodeItem::Type to_type); NodeItem get_input_value(int index, NodeItem::Type to_type);
NodeItem empty() const; NodeItem empty() const;
template<class T> NodeItem value(const T &data) const; template<class T> NodeItem val(const T &data) const;
NodeItem texcoord_node(); NodeItem texcoord_node();
private: private:
@ -72,7 +72,7 @@ class ShaderNodeParser : public NodeParser {
NodeItem get_input_shader(const bNodeSocket &socket, NodeItem::Type shader_type); NodeItem get_input_shader(const bNodeSocket &socket, NodeItem::Type shader_type);
}; };
template<class T> NodeItem NodeParser::value(const T &data) const template<class T> NodeItem NodeParser::val(const T &data) const
{ {
return empty().val(data); return empty().val(data);
} }

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@ -14,19 +14,19 @@ NodeItem NormalMapNodeParser::compute()
NodeItem color = get_input_value("Color", NodeItem::Type::Color3); NodeItem color = get_input_value("Color", NodeItem::Type::Color3);
NodeItem strength = get_input_value("Strength", NodeItem::Type::Float); NodeItem strength = get_input_value("Strength", NodeItem::Type::Float);
NodeItem res = create_node("normalmap", "vector3"); NodeItem res = create_node("normalmap", NodeItem::Type::Vector3);
res.set_input("in", color); res.set_input("in", color);
res.set_input("scale", strength); res.set_input("scale", strength);
switch (normal_map_node->space) { switch (normal_map_node->space) {
case SHD_SPACE_TANGENT: case SHD_SPACE_TANGENT:
res.set_input("space", value(std::string("tangent"))); res.set_input("space", val(std::string("tangent")));
break; break;
case SHD_SPACE_OBJECT: case SHD_SPACE_OBJECT:
res.set_input("space", value(std::string("tangent"))); res.set_input("space", val(std::string("tangent")));
break; break;
default: default:
res.set_input("space", value(default_space)); res.set_input("space", val(default_space));
CLOG_WARN(LOG_MATERIALX_SHADER, CLOG_WARN(LOG_MATERIALX_SHADER,
"Ignoring unsupported Space: %d %s (%d), %s will be used", "Ignoring unsupported Space: %d %s (%d), %s will be used",
normal_map_node->space, normal_map_node->space,

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@ -20,7 +20,7 @@ NodeItem OutputMaterialNodeParser::compute()
NodeItem bsdf = get_input_shader("Surface", NodeItem::Type::BSDF); NodeItem bsdf = get_input_shader("Surface", NodeItem::Type::BSDF);
NodeItem edf = get_input_shader("Surface", NodeItem::Type::EDF); NodeItem edf = get_input_shader("Surface", NodeItem::Type::EDF);
if (bsdf || edf) { if (bsdf || edf) {
surface = create_node("surface", "surfaceshader"); surface = create_node("surface", NodeItem::Type::SurfaceShader);
if (bsdf) { if (bsdf) {
surface.set_input("bsdf", bsdf); surface.set_input("bsdf", bsdf);
} }
@ -33,30 +33,30 @@ NodeItem OutputMaterialNodeParser::compute()
} }
} }
else { else {
surface = create_node("standard_surface", "surfaceshader"); surface = create_node("standard_surface", NodeItem::Type::SurfaceShader);
surface.set_input("base_color", value(MaterialX::Color3(1.0f, 0.0f, 1.0f))); surface.set_input("base_color", val(MaterialX::Color3(1.0f, 0.0f, 1.0f)));
} }
NodeItem res = create_node("surfacematerial", "material"); NodeItem res = create_node("surfacematerial", NodeItem::Type::Material);
res.set_input("surfaceshader", surface); res.set_input("surfaceshader", surface);
return res; return res;
} }
NodeItem OutputMaterialNodeParser::compute_default() NodeItem OutputMaterialNodeParser::compute_default()
{ {
NodeItem surface = create_node("standard_surface", "surfaceshader"); NodeItem surface = create_node("standard_surface", NodeItem::Type::SurfaceShader);
surface.set_input("base_color", surface.set_input("base_color",
value(MaterialX::Color3(material_->r, material_->g, material_->b))); val(MaterialX::Color3(material_->r, material_->g, material_->b)));
surface.set_input("diffuse_roughness", value(material_->roughness)); surface.set_input("diffuse_roughness", val(material_->roughness));
if (material_->metallic > 0.0f) { if (material_->metallic > 0.0f) {
surface.set_input("metalness", value(material_->metallic)); surface.set_input("metalness", val(material_->metallic));
} }
if (material_->spec) { if (material_->spec) {
surface.set_input("specular", value(material_->spec)); surface.set_input("specular", val(material_->spec));
surface.set_input("specular_color", value(material_->spec)); surface.set_input("specular_color", val(material_->spec));
surface.set_input("specular_roughness", value(material_->roughness)); surface.set_input("specular_roughness", val(material_->roughness));
} }
NodeItem res = create_node("surfacematerial", "material"); NodeItem res = create_node("surfacematerial", NodeItem::Type::Material);
res.node->setName("Material_Default"); res.node->setName("Material_Default");
res.set_input("surfaceshader", surface); res.set_input("surfaceshader", surface);
return res; return res;

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@ -18,12 +18,12 @@ NodeItem SeparateColorNodeParser::compute()
case NODE_COMBSEP_COLOR_RGB: case NODE_COMBSEP_COLOR_RGB:
break; break;
case NODE_COMBSEP_COLOR_HSV: case NODE_COMBSEP_COLOR_HSV:
convert = create_node("rgbtohsv", "color3"); convert = create_node("rgbtohsv", NodeItem::Type::Color3);
convert.set_input("in", color); convert.set_input("in", color);
break; break;
case NODE_COMBSEP_COLOR_HSL: case NODE_COMBSEP_COLOR_HSL:
CLOG_WARN(LOG_MATERIALX_SHADER, "Unsupported color model, using HSV instead: %d", mode); CLOG_WARN(LOG_MATERIALX_SHADER, "Unsupported color model, using HSV instead: %d", mode);
convert = create_node("rgbtohsv", "color3"); convert = create_node("rgbtohsv", NodeItem::Type::Color3);
convert.set_input("in", color); convert.set_input("in", color);
break; break;
default: default:
@ -44,7 +44,7 @@ NodeItem CombineColorNodeParser::compute()
NodeItem blue = get_input_value("Blue", NodeItem::Type::Float); NodeItem blue = get_input_value("Blue", NodeItem::Type::Float);
NodeItem convert = empty(); NodeItem convert = empty();
NodeItem combine = create_node("combine3", "color3"); NodeItem combine = create_node("combine3", NodeItem::Type::Color3);
combine.set_input("in1", red); combine.set_input("in1", red);
combine.set_input("in2", green); combine.set_input("in2", green);
combine.set_input("in3", blue); combine.set_input("in3", blue);
@ -53,12 +53,12 @@ NodeItem CombineColorNodeParser::compute()
case NODE_COMBSEP_COLOR_RGB: case NODE_COMBSEP_COLOR_RGB:
break; break;
case NODE_COMBSEP_COLOR_HSV: case NODE_COMBSEP_COLOR_HSV:
convert = create_node("hsvtorgb", "color3"); convert = create_node("hsvtorgb", NodeItem::Type::Color3);
convert.set_input("in", combine); convert.set_input("in", combine);
break; break;
case NODE_COMBSEP_COLOR_HSL: case NODE_COMBSEP_COLOR_HSL:
CLOG_WARN(LOG_MATERIALX_SHADER, "Unsupported color model, using HSV instead: %d", mode); CLOG_WARN(LOG_MATERIALX_SHADER, "Unsupported color model, using HSV instead: %d", mode);
convert = create_node("hsvtorgb", "color3"); convert = create_node("hsvtorgb", NodeItem::Type::Color3);
convert.set_input("in", combine); convert.set_input("in", combine);
break; break;
default: default:

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@ -18,7 +18,7 @@ NodeItem CombineXYZNodeParser::compute()
NodeItem x = get_input_value("X", NodeItem::Type::Float); NodeItem x = get_input_value("X", NodeItem::Type::Float);
NodeItem y = get_input_value("Y", NodeItem::Type::Float); NodeItem y = get_input_value("Y", NodeItem::Type::Float);
NodeItem z = get_input_value("Z", NodeItem::Type::Float); NodeItem z = get_input_value("Z", NodeItem::Type::Float);
NodeItem res = create_node("combine3", "vector3"); NodeItem res = create_node("combine3", NodeItem::Type::Vector3);
res.set_input("in1", x); res.set_input("in1", x);
res.set_input("in2", y); res.set_input("in2", y);
res.set_input("in3", z); res.set_input("in3", z);

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@ -16,10 +16,10 @@ NodeItem TexCheckerNodeParser::compute()
if (!vector) { if (!vector) {
vector = texcoord_node(); vector = texcoord_node();
} }
vector = (vector * scale) % value(2.0f); vector = (vector * scale) % val(2.0f);
NodeItem mix = (vector.extract(0).floor() + vector.extract(1).floor()) NodeItem mix = (vector.extract(0).floor() + vector.extract(1).floor())
.if_else(NodeItem::CompareOp::Eq, value(1.0f), value(1.0f), value(0.0f)); .if_else(NodeItem::CompareOp::Eq, val(1.0f), val(1.0f), val(0.0f));
NodeItem res = create_node("mix", "color3"); NodeItem res = create_node("mix", NodeItem::Type::Color3);
res.set_input("fg", color1); res.set_input("fg", color1);
res.set_input("bg", color2); res.set_input("bg", color2);
res.set_input("mix", mix); res.set_input("mix", mix);

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@ -27,8 +27,8 @@ NodeItem TexEnvironmentNodeParser::compute()
#endif #endif
NodeItem texcoord = texcoord_node(); NodeItem texcoord = texcoord_node();
NodeItem res = create_node("image", "color4"); NodeItem res = create_node("image", NodeItem::Type::Color3);
res.set_input("file", image_path, "filename"); res.set_input("file", image_path, NodeItem::Type::Filename);
res.set_input("texcoord", texcoord); res.set_input("texcoord", texcoord);
return res; return res;
} }

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@ -27,8 +27,8 @@ NodeItem TexImageNodeParser::compute()
#endif #endif
NodeItem texcoord = texcoord_node(); NodeItem texcoord = texcoord_node();
NodeItem res = create_node("image", "color4"); NodeItem res = create_node("image", NodeItem::Type::Color3);
res.set_input("file", image_path, "filename"); res.set_input("file", image_path, NodeItem::Type::Filename);
res.set_input("texcoord", texcoord); res.set_input("texcoord", texcoord);
return res; return res;
} }

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@ -13,13 +13,13 @@ NodeItem TexNoiseNodeParser::compute()
NodeItem lacunarity = get_input_value("Lacunarity", NodeItem::Type::Float); NodeItem lacunarity = get_input_value("Lacunarity", NodeItem::Type::Float);
if (detail.value && detail.type() == NodeItem::Type::Float) { if (detail.value && detail.type() == NodeItem::Type::Float) {
detail = value(int(detail.value->asA<float>())); detail = val(int(detail.value->asA<float>()));
} }
NodeItem position = create_node("position", "vector3"); NodeItem position = create_node("position", NodeItem::Type::Vector3);
position = position * scale; position = position * scale;
NodeItem res = create_node("fractal3d", "color3"); NodeItem res = create_node("fractal3d", NodeItem::Type::Color3);
res.set_input("position", position); res.set_input("position", position);
res.set_input("octaves", detail); res.set_input("octaves", detail);
res.set_input("lacunarity", lacunarity); res.set_input("lacunarity", lacunarity);

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@ -35,7 +35,7 @@ NodeItem VectorMathNodeParser::compute()
res = x.ceil(); res = x.ceil();
break; break;
case NODE_VECTOR_MATH_FRACTION: case NODE_VECTOR_MATH_FRACTION:
res = x % value(1.0f); res = x % val(1.0f);
break; break;
case NODE_VECTOR_MATH_LENGTH: case NODE_VECTOR_MATH_LENGTH:
CLOG_WARN(LOG_MATERIALX_SHADER, "Unimplemented math operation %d", op); CLOG_WARN(LOG_MATERIALX_SHADER, "Unimplemented math operation %d", op);