X-Git-Url: http://git.tdb.fi/?p=libs%2Fgl.git;a=blobdiff_plain;f=blender%2Fio_mspgl%2Fexport_material.py;h=aceb6cc0d833ccfb2ab186ff4f4eb017f09cca5c;hp=2df04ff6e4b5512228697d48c92ea2580e9f9707;hb=74a5bc6159d2c753786a5ef6bf785263cd0538f1;hpb=f33612ba5ad6c65cc5cd1c101a816188e5955969

diff --git a/blender/io_mspgl/export_material.py b/blender/io_mspgl/export_material.py
index 2df04ff6..aceb6cc0 100644
--- a/blender/io_mspgl/export_material.py
+++ b/blender/io_mspgl/export_material.py
@@ -1,107 +1,202 @@
-import os
+def create_shadow_method(tech_res, material, resources, detail):
+	from .datafile import Statement, Token
+
+	color_prop = next((p for p in material.properties if p.keyword and "color" in p.keyword), None)
+
+	st = Statement("method", "shadow"+detail)
+	if material.alpha_cutoff>0.0 and color_prop and 'A' in color_prop.tex_channels:
+		st.sub.append(tech_res.create_reference_statement("shader", resources["occluder{}_masked.shader".format(detail)]))
+		ss = Statement("texture", "alpha_map")
+
+		from .export_texture import TextureExporter
+		from .export_texture import SamplerExporter
+		texture_export = TextureExporter()
+		sampler_export = SamplerExporter()
+
+		tex_res = resources[texture_export.get_texture_name(color_prop.texture, color_prop.tex_channels)]
+		ss.sub.append(tech_res.create_reference_statement("texture", tex_res))
+		ss.sub.append(tech_res.create_reference_statement("sampler", resources[sampler_export.get_sampler_name(color_prop.texture)]))
+		st.sub.append(ss)
+
+		ss = Statement("uniforms")
+		ss.sub.append(Statement("uniform", "alpha_cutoff", material.alpha_cutoff))
+		st.sub.append(ss)
+	else:
+		st.sub.append(Statement("shader", "occluder{}.glsl.shader".format(detail)))
+
+	if material.face_cull=='BACK':
+		st.sub.append(Statement("face_cull", Token("CULL_BACK")))
+
+	return st;
 
 def create_technique_resource(material, resources):
-	from .datafile import Resource, Statement
+	from .datafile import Resource, Statement, Token
 	tech_res = Resource(material.name+".tech", "technique")
 
 	mat_res = resources[material.name+".mat"]
 
-	st = Statement("pass", "")
-	st.sub.append(tech_res.create_embed_statement("material", mat_res))
+	blend_st = None
+	if material.blend_type=='ALPHA':
+		blend_st = Statement("blend", Token("SRC_ALPHA"), Token("ONE_MINUS_SRC_ALPHA"))
+	elif material.blend_type=='ADDITIVE':
+		blend_st = Statement("blend", Token("ONE"), Token("ONE"))
+	elif material.blend_type=='ADDITIVE_ALPHA':
+		blend_st = Statement("blend", Token("SRC_ALPHA"), Token("ONE"))
 
 	if material.render_mode=='CUSTOM':
-		st.sub.append(Statement("shader", material.shader))
+		for m in material.render_methods:
+			st = Statement("method", m.tag)
+			if mat_res and m.use_material:
+				st.sub.append(tech_res.create_reference_statement("material", mat_res))
+
+			if m.tag=="blended" and blend_st:
+				st.sub.append(blend_st)
+
+			shader = m.shader
+			if shader.endswith(".glsl"):
+				shader += ".shader"
+			st.sub.append(Statement("shader", shader))
+
+			if material.uniforms:
+				ss = Statement("uniforms")
+				for u in material.uniforms:
+					ss.sub.append(Statement("uniform", u.name, *u.values[:u.size]))
+				st.sub.append(ss)
+
+			if material.face_cull=='BACK':
+				st.sub.append(Statement("face_cull", Token("CULL_BACK")))
+
+			tech_res.statements.append(st)
+	else:
+		base_method = "blended" if material.blend_type!='NONE' else ""
+		st = Statement("method", base_method)
+		if mat_res:
+			st.sub.append(tech_res.create_embed_statement("material", mat_res))
 
-	tech_res.statements.append(st)
+		if blend_st:
+			st.sub.append(blend_st)
+		if material.receive_shadows:
+			st.sub.append(Statement("receive_shadows", True))
+		if material.image_based_lighting:
+			st.sub.append(Statement("image_based_lighting", True))
+		if material.face_cull=='BACK':
+			st.sub.append(Statement("face_cull", Token("CULL_BACK")))
+
+		tech_res.statements.append(st)
+
+		if material.cast_shadows:
+			tech_res.statements.append(create_shadow_method(tech_res, material, resources, ""));
+			tech_res.statements.append(create_shadow_method(tech_res, material, resources, "_thsm"));
 
 	return tech_res
 
 class MaterialExporter:
-	def __init__(self):
-		self.use_textures = True
-		self.inline_texture_data = False
-
-	def create_texture_exporter(self):
-		from .export_texture import TextureExporter
+	def export_technique_resources(self, ctx, material, resources):
+		from .export_texture import SamplerExporter, TextureExporter
 		texture_export = TextureExporter()
-		texture_export.inline_data = self.inline_texture_data
-		return texture_export
-
-	def export_technique_resources(self, material, resources):
-		from .export_texture import SamplerExporter
-		texture_export = self.create_texture_exporter()
 		sampler_export = SamplerExporter()
 
 		from .material import Material
-		material = Material(material)
+		if type(material)!=Material:
+			material = Material(material)
+
+		textured_props = [p for p in material.properties if p.texture]
+
+		ctx.set_slices(len(textured_props)+1)
+		for p in textured_props:
+			ctx.next_slice(p.texture.image)
 
-		if self.use_textures:
-			for p in material.properties.values():
-				if p.texture:
-					tex_name = p.texture.image.name+".tex2d"
-					if tex_name not in resources:
-						resources[tex_name] = texture_export.export_texture(p.texture, p.tex_usage)
+			tex_name = texture_export.get_texture_name(p.texture, p.tex_channels)
+			if tex_name not in resources:
+				resources[tex_name] = texture_export.export_texture(p.texture, p.tex_channels)
 
-					samp_name = sampler_export.get_sampler_name(p.texture)
-					if samp_name not in resources:
-						resources[samp_name] = sampler_export.export_sampler(p.texture)
+			samp_name = sampler_export.get_sampler_name(p.texture)
+			if samp_name not in resources:
+				resources[samp_name] = sampler_export.export_sampler(p.texture)
 
+		ctx.next_slice(material)
 		mat_name = material.name+".mat"
 		if mat_name not in resources:
-			resources[mat_name] = self.export_material(material, resources=resources)
+			if material.type:
+				resources[mat_name] = self.export_material(material, resources)
+			else:
+				resources[mat_name] = None
+
+		if material.cast_shadows and material.alpha_cutoff>0.0:
+			for detail in ("", "_thsm"):
+				shader_name = "occluder{}_masked.shader".format(detail)
+				if shader_name not in resources:
+					resources[shader_name] = self.export_shader(shader_name, "occluder{}.glsl".format(detail), {"use_alpha_cutoff":True}, resources)
+
+	def export_technique(self, material, resources):
+		from .material import Material
+		if type(material)!=Material:
+			material = Material(material)
 
-	def export_technique(self, material, *, resources):
 		return create_technique_resource(material, resources)
 
-	def export_material(self, material, *, resources):
-		from .datafile import Resource, Statement
+	def export_material(self, material, resources):
+		from .datafile import Resource, Statement, Token
 		mat_res = Resource(material.name+".mat", "material")
 
-		st = Statement("pbr")
-		for kw, p in material.properties.items():
-			ss = self.create_property_statement(mat_res, p, kw, resources)
-			if ss:
-				st.sub.append(ss)
-		if self.use_textures:
-			first_tex = (p.texture for p in material.properties.values() if p.texture).__next__()
-			if first_tex and not first_tex.default_filter:
-				from .export_texture import SamplerExporter
-				sampler_export = SamplerExporter()
-				st.sub.append(mat_res.create_reference_statement("sampler", resources[sampler_export.get_sampler_name(first_tex)]))
-		mat_res.statements.append(st)
+		if material.type!="pbr" and material.type!="unlit":
+			raise Exception("Can't export material {} of unknown type {}".format(material.name, material.type))
+
+		mat_res.statements.append(Statement("type", Token(material.type)));
+		for p in material.properties:
+			st = self.create_property_statement(mat_res, p, resources)
+			if st:
+				mat_res.statements.append(st)
+		textures = [p.texture for p in material.properties if p.texture]
+		if textures:
+			from .export_texture import SamplerExporter
+			sampler_export = SamplerExporter()
+			mat_res.statements.append(mat_res.create_reference_statement("sampler", resources[sampler_export.get_sampler_name(textures[0])]))
+		if material.alpha_cutoff>0.0:
+			mat_res.statements.append(Statement("alpha_cutoff", material.alpha_cutoff))
 
 		return mat_res
 
-	def create_property_statement(self, mat_res, prop, keyword, resources):
+	def create_property_statement(self, mat_res, prop, resources):
 		from .datafile import Statement
-		if self.use_textures and prop.texture:
-			tex_res = resources[prop.texture.image.name+".tex2d"]
-			fn = os.path.basename(prop.texture.image.filepath)
-			if prop.texture.default_filter and fn:
-				return Statement(keyword+"_map", fn)
-			else:
-				return mat_res.create_reference_statement(keyword+"_map", tex_res)
-		elif prop.value is None:
+		if prop.texture:
+			from .export_texture import TextureExporter
+			texture_export = TextureExporter()
+			tex_res = resources[texture_export.get_texture_name(prop.texture, prop.tex_channels)]
+			return mat_res.create_reference_statement(prop.tex_keyword, tex_res)
+		elif not prop.keyword:
 			return
 		elif type(prop.value)==tuple:
-			return Statement(keyword, *prop.value)
+			return Statement(prop.keyword, *prop.value)
 		else:
-			return Statement(keyword, prop.value)
+			return Statement(prop.keyword, prop.value)
+
+	def export_shader(self, name, module, spec_values, resources):
+		from .datafile import Resource, Statement
+		shader_res = Resource(name, "shader")
+
+		st = Statement("module", module)
+		for k, v in spec_values.items():
+			st.sub.append(Statement("specialize", k, v))
+		shader_res.statements.append(st)
+
+		return shader_res
 
 
-class MaterialMapExporter:
+class MaterialAtlasExporter:
 	def __init__(self):
 		pass
 
-	def export_technique_resources(self, material_map, resources):
+	def export_technique_resources(self, material_atlas, resources):
 		from .datafile import Resource, Statement, Token
-		base_color_name = material_map.name+"_base_color.tex2d"
+		base_color_name = material_atlas.name+"_base_color.tex"
 		base_color_res = resources.get(base_color_name)
 		if not base_color_res:
-			base_color_res = Resource(base_color_name, "texture2d")
+			base_color_res = Resource(base_color_name, "texture")
 
-			base_color_res.statements.append(Statement("storage", Token('SRGB_ALPHA'), *material_map.size))
-			base_color_res.statements.append(Statement("raw_data", material_map.base_color_data))
+			base_color_res.statements.append(Statement("type", Token("\\2d")))
+			base_color_res.statements.append(Statement("storage", Token('SRGB_ALPHA'), *material_atlas.size))
+			base_color_res.statements.append(Statement("raw_data", material_atlas.base_color_data))
 
 			resources[base_color_name] = base_color_res
 
@@ -114,15 +209,14 @@ class MaterialMapExporter:
 
 			resources[sampler_name] = sampler_res
 
-		mat_name = material_map.name+".mat"
+		mat_name = material_atlas.name+".mat"
 		if mat_name not in resources:
 			mat_res = Resource(mat_name, "material")
-			st = Statement("pbr")
-			st.sub.append(mat_res.create_reference_statement("base_color_map", base_color_res))
-			st.sub.append(mat_res.create_reference_statement("sampler", sampler_res))
-			mat_res.statements.append(st)
+			mat_res.statements.append(Statement("type", Token('pbr')))
+			mat_res.statements.append(mat_res.create_reference_statement("base_color_map", base_color_res))
+			mat_res.statements.append(mat_res.create_reference_statement("sampler", sampler_res))
 
 			resources[mat_name] = mat_res
 
-	def export_technique(self, material_map, *, resources):
-		return create_technique_resource(material_map, resources)
+	def export_technique(self, material_atlas, resources):
+		return create_technique_resource(material_atlas, resources)