source/blender/nodes/shader/materialx/nodes/bsdf_principled.cc

@@ -15,12 +15,8 @@ NodeItem BSDFPrincipledNodeParser::compute()
   NodeItem base_color = get_input_value("Base Color");
 
   NodeItem subsurface = get_input_value("Subsurface");
-  NodeItem subsurface_radius = empty();
-  NodeItem subsurface_color = empty();
-  if (subsurface != zero) {
-    subsurface_radius = get_input_value("Subsurface Radius");
-    subsurface_color = get_input_value("Subsurface Color");
-  }
+  NodeItem subsurface_radius = get_input_value("Subsurface Radius");
+  NodeItem subsurface_color = get_input_value("Subsurface Color");
 
   NodeItem metallic = get_input_value("Metallic");
   NodeItem specular = get_input_value("Specular");
@@ -102,13 +98,11 @@ NodeItem BSDFPrincipledNodeParser::compute()
     res.set_input("transmission_extra_roughness", transmission_roughness);
   }
 
-  if (subsurface != zero) {
-    res.set_input("subsurface", subsurface);
-    res.set_input("subsurface_color", subsurface_color);
-    res.set_input("subsurface_radius", subsurface_radius);
-    if (anisotropic) {
-      res.set_input("subsurface_anisotropy", anisotropic);
-    }
+  res.set_input("subsurface", subsurface);
+  res.set_input("subsurface_color", subsurface_color);
+  res.set_input("subsurface_radius", subsurface_radius);
+  if (anisotropic) {
+    res.set_input("subsurface_anisotropy", anisotropic);
   }
 
   if (sheen != zero) {
@@ -131,7 +125,7 @@ NodeItem BSDFPrincipledNodeParser::compute()
 
   if (emission != zero) {
     res.set_input("emission", emission_strength);
-    res.set_input("emission_color", emission);
+    res.set_input("emission_color", emission.to_color3());
   }
 
   return res;

source/blender/nodes/shader/materialx/nodes/node_item.cc

@@ -14,6 +14,12 @@ NodeItem::NodeItem(MaterialX::GraphElement *graph) : graph_(graph) {}
 
 NodeItem::Type NodeItem::type(const std::string &mx_type)
 {
+  if (mx_type == "string") {
+    return Type::String;
+  }
+  if (mx_type == "integer") {
+    return Type::Integer;
+  }
   if (mx_type == "float") {
     return Type::Float;
   }
@@ -38,6 +44,10 @@ NodeItem::Type NodeItem::type(const std::string &mx_type)
 std::string NodeItem::type(Type mx_type)
 {
   switch (mx_type) {
+    case Type::String:
+      return "string";
+    case Type::Integer:
+      return "integer";
     case Type::Float:
       return "float";
     case Type::Vector2:

source/blender/nodes/shader/materialx/nodes/node_item.h

@@ -10,7 +10,7 @@ namespace blender::nodes::materialx {
 
 class NodeItem {
  public:
-  enum class Type { Empty = 0, Other, Float, Vector2, Vector3, Vector4, Color3, Color4 };
+  enum class Type { Empty = 0, Other, String, Integer, Float, Vector2, Vector3, Vector4, Color3, Color4 };
 
  public:
   MaterialX::ValuePtr value;

source/blender/nodes/shader/materialx/nodes/tex_checker.cc

@@ -8,21 +8,18 @@ namespace blender::nodes::materialx {
 
 NodeItem TexCheckerNodeParser::compute()
 {
-  NodeItem scale = get_input_value("Scale");
+  NodeItem vector = get_input_link("Vector");
   NodeItem color1 = get_input_value("Color1");
   NodeItem color2 = get_input_value("Color2");
+  NodeItem scale = get_input_value("Scale");
 
-  if (scale.value && scale.type() == NodeItem::Type::Float) {
-    float v = scale.value->asA<float>();
-    scale = value(MaterialX::Vector2(v, v));
+  if (!vector) {
+    vector = create_node("texcoord", "vector2");
   }
-
-  NodeItem texcoord = create_node("texcoord", "vector2");
-  NodeItem place2d = create_node("place2d", "vector2");
-  place2d.set_input("texcoord", texcoord * scale);
+  vector = vector * scale;
 
   NodeItem separate = create_node("separate2", "multioutput");
-  separate.set_input("in", place2d);
+  separate.set_input("in", vector);
   separate.add_output("outx", "float");
   separate.add_output("outy", "float");