Check the flat qualifier from the correct member

[libs/gl.git] / blender / io_mspgl / export_material.py

import itertools

class MaterialExporter:
        def export_technique_resources(self, ctx, material, resources):
                from .export_texture import SamplerExporter, TextureExporter
                texture_export = TextureExporter()
                sampler_export = SamplerExporter()

                from .material import Material
                if type(material)!=Material:
                        material = Material(material)

                textured_props = [p for p in itertools.chain(material.properties, *(s.properties for s in material.sub_materials)) if p.texture]

                ctx.set_slices(len(textured_props)+1)
                for p in textured_props:
                        ctx.next_slice(p.texture.image)

                        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)

                ctx.next_slice(material)
                mat_name = material.name+".mat"
                if mat_name not in resources:
                        if material.type:
                                resources[mat_name] = self.export_material(material, resources)
                        else:
                                resources[mat_name] = None

                for thsm in (False, True):
                        occluder_variant, occluder_spec_values = self.get_occluder_shader_variant(material, thsm)
                        if occluder_spec_values:
                                base_variant = "_thsm" if thsm else ""
                                shader_name = "occluder{}.shader".format(occluder_variant)
                                if shader_name not in resources:
                                        resources[shader_name] = self.export_shader(shader_name, "occluder{}.glsl".format(base_variant), occluder_spec_values, resources)

        def export_technique(self, material, resources):
                from .material import Material
                if type(material)!=Material:
                        material = Material(material)

                from .datafile import Resource, Statement, Token
                tech_res = Resource(material.name+".tech", "technique")

                mat_res = resources[material.name+".mat"]

                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':
                        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))

                        if blend_st:
                                st.sub.append(blend_st)
                        elif material.alpha_cutoff>0.0:
                                ss = Statement("blend")
                                ss.sub.append(Statement("alpha_to_coverage", True))
                                st.sub.append(ss)
                        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.instancing:
                                st.sub.append(Statement("instancing", 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(self.create_shadow_method(tech_res, material, resources, False));
                                tech_res.statements.append(self.create_shadow_method(tech_res, material, resources, True));

                return tech_res

        def create_shadow_method(self, tech_res, material, resources, thsm):
                from .datafile import Statement, Token

                occluder_variant, occluder_spec_values = self.get_occluder_shader_variant(material, thsm)

                shader_stem = "occluder{}.shader" if occluder_spec_values else "occluder{}.glsl.shader"
                shader_name = shader_stem.format(occluder_variant)

                st = Statement("method", "shadow"+("_thsm" if thsm else ""))
                if occluder_spec_values:
                        st.sub.append(tech_res.create_reference_statement("shader", resources[shader_name]))
                else:
                        st.sub.append(Statement("shader", shader_name))

                if occluder_spec_values.get("use_alpha_cutoff"):
                        ss = Statement("texture", "alpha_map")

                        from .export_texture import TextureExporter
                        from .export_texture import SamplerExporter
                        texture_export = TextureExporter()
                        sampler_export = SamplerExporter()

                        color_prop = material.properties[0]
                        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)

                if material.face_cull=='BACK':
                        st.sub.append(Statement("face_cull", Token("CULL_BACK")))

                return st;

        def get_occluder_shader_variant(self, material, thsm):
                variant = ""
                if thsm:
                        variant += "_thsm"

                spec_values = {}

                if material.cast_shadows and material.alpha_cutoff>0.0:
                        spec_values["use_alpha_cutoff"] = True
                        variant += "_masked"
                if material.instancing:
                        spec_values["use_instancing"] = True
                        variant += "_instanced"

                return (variant, spec_values)

        def export_material(self, material, resources):
                from .datafile import Resource, Statement, Token
                mat_res = Resource(material.name+".mat", "material")

                if material.type!="pbr" and material.type!="unlit" and material.type!="splat":
                        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)

                if material.sub_materials:
                        for k, s in material.array_storage.items():
                                mat_res.statements.append(Statement(k.replace("_map", "_storage"), Token(s[0]), s[1], s[2]))
                        for s in material.sub_materials:
                                st = Statement("sub")
                                for p in s.properties:
                                        ss = self.create_property_statement(mat_res, p, resources, raw_texture=True)
                                        if ss:
                                                st.sub.append(ss)
                                mat_res.statements.append(st)

                textures = [p.texture for p in itertools.chain(material.properties, *(s.properties for s in material.sub_materials)) 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, resources, *, raw_texture=False):
                from .datafile import Statement
                if prop.texture:
                        from .export_texture import TextureExporter
                        texture_export = TextureExporter()
                        tex_res = resources[texture_export.get_texture_name(prop.texture, prop.tex_channels)]
                        if raw_texture:
                                for s in tex_res.statements:
                                        if s.keyword.startswith("external_data"):
                                                return mat_res.create_reference_statement(prop.tex_keyword, s.args[0])
                                        elif s.keyword.startswith("external_image"):
                                                return Statement(prop.tex_keyword, s.args[0])
                        return mat_res.create_reference_statement(prop.tex_keyword, tex_res)
                elif not prop.keyword:
                        return
                elif type(prop.value)==tuple:
                        return Statement(prop.keyword, *prop.value)
                else:
                        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