def export_texture(self, tex_node, usage='RGB'):
image = tex_node.image
from .datafile import Resource, Statement, Token
- tex_res = Resource(image.name+".tex2d")
+ tex_res = Resource(image.name+".tex2d", "texture2d")
- use_interpolation = tex_node.interpolation!='Closest'
- if use_interpolation:
- if tex_node.use_mipmap:
- tex_res.statements.append(Statement("filter", Token('LINEAR_MIPMAP_LINEAR')))
- tex_res.statements.append(Statement("generate_mipmap", True))
- else:
- tex_res.statements.append(Statement("filter", Token('LINEAR')))
- tex_res.statements.append(Statement("max_anisotropy", tex_node.max_anisotropy))
- else:
- if tex_node.use_mipmap:
- tex_res.statements.append(Statement("filter", Token('NEAREST_MIPMAP_NEAREST')))
- tex_res.statements.append(Statement("generate_mipmap", True))
- else:
- tex_res.statements.append(Statement("filter", Token('NEAREST')))
+ if tex_node.use_mipmap:
+ tex_res.statements.append(Statement("generate_mipmap", True))
colorspace = image.colorspace_settings.name
- if usage=='RGBA':
- fmt = 'SRGB_ALPHA' if colorspace=='sRGB' else 'RGBA'
- elif usage=='GRAY':
- if colorspace=='sRGB':
+ if usage=='GRAY' and colorspace=='sRGB':
raise Exception("Grayscale textures with sRGB colorspace are not supported")
- fmt = 'LUMINANCE'
- else:
- fmt = 'SRGB' if colorspace=='sRGB' else 'RGB'
- tex_res.statements.append(Statement("storage", Token(fmt), image.size[0], image.size[1]))
-
- fn = os.path.basename(image.filepath)
+ from .util import basename
+ fn = basename(image.filepath)
if not self.inline_data and fn:
- tex_res.statements.append(Statement("external_image", fn))
+ srgb = "_srgb" if colorspace=='sRGB' else ""
+ tex_res.statements.append(Statement("external_image"+srgb, fn))
else:
+ if usage=='RGBA':
+ fmt = 'SRGB8_ALPHA8' if colorspace=='sRGB' else 'RGBA8'
+ elif usage=='GRAY':
+ fmt = 'LUMINANCE8'
+ else:
+ fmt = 'SRGB8' if colorspace=='sRGB' else 'RGB8'
+
+ tex_res.statements.append(Statement("storage", Token(fmt), image.size[0], image.size[1]))
+
texdata = ""
if usage=='RGBA':
for p in image.pixels:
tex_res.statements.append(Statement("raw_data", texdata))
return tex_res
+
+class SamplerExporter:
+ def export_sampler(self, tex_node):
+ from .datafile import Resource, Statement, Token
+ samp_res = Resource(self.get_sampler_name(tex_node), "sampler")
+
+ use_interpolation = tex_node.interpolation!='Closest'
+ if use_interpolation:
+ if tex_node.use_mipmap:
+ samp_res.statements.append(Statement("filter", Token('LINEAR_MIPMAP_LINEAR')))
+ else:
+ samp_res.statements.append(Statement("filter", Token('LINEAR')))
+ samp_res.statements.append(Statement("max_anisotropy", tex_node.max_anisotropy))
+ else:
+ if tex_node.use_mipmap:
+ samp_res.statements.append(Statement("filter", Token('NEAREST_MIPMAP_NEAREST')))
+ else:
+ samp_res.statements.append(Statement("filter", Token('NEAREST')))
+
+ return samp_res
+
+ def get_sampler_name(self, tex_node):
+ name_parts = []
+
+ use_interpolation = tex_node.interpolation!='Closest'
+ name_parts.append("linear" if use_interpolation else "nearest")
+ if tex_node.use_mipmap:
+ name_parts.append("mip")
+ if use_interpolation and tex_node.max_anisotropy>1:
+ name_parts.append("aniso{:g}x".format(tex_node.max_anisotropy))
+
+ return "_".join(name_parts)+".samp"