X-Git-Url: http://git.tdb.fi/?a=blobdiff_plain;f=blender%2Fio_mspgl%2Fexport_texture.py;h=6ec13eadc583ff680495451609b25651bc173f1c;hb=1082d0a7fd7bf7efa269fde035b58c02785781ec;hp=3f11b06be7e5cb0cbbef65a86e8c51baffb7589d;hpb=42ae18b7a9dc13a72bf421e564f02829d4bdd5be;p=libs%2Fgl.git diff --git a/blender/io_mspgl/export_texture.py b/blender/io_mspgl/export_texture.py index 3f11b06b..6ec13ead 100644 --- a/blender/io_mspgl/export_texture.py +++ b/blender/io_mspgl/export_texture.py @@ -1,4 +1,23 @@ import os +import base64 +import codecs + +def encode_pixels(pixels): + from .datafile import Token + return Token(codecs.decode(b"="+base64.b64encode(bytes(pixels))+b"=", "ascii")) + +def pixels_to_rgba(pixels): + return (int(p*255) for p in pixels) + +def pixels_to_rgb(pixels): + for i in range(0, len(pixels), 4): + yield int(pixels[i]*255) + yield int(pixels[i+1]*255) + yield int(pixels[i+2]*255) + +def pixels_to_gray(pixels): + for i in range(0, len(pixels), 4): + yield int((pixels[i]+pixels[i+1]+pixels[i+2])*255/3) class TextureExporter: def __init__(self): @@ -9,48 +28,78 @@ class TextureExporter: from .datafile import Resource, Statement, Token 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])) + + pixels = tuple(image.pixels) texdata = "" if usage=='RGBA': - for p in image.pixels: - texdata += "\\x{:02X}".format(int(p*255)) + texdata = encode_pixels(pixels_to_rgba(pixels)) elif usage=='GRAY': - for i in range(0, len(image.pixels), 4): - texdata += "\\x{:02X}".format(image.pixels[i]) + texdata = encode_pixels(pixels_to_gray(pixels)) else: - for i in range(0, len(image.pixels), 4): - for j in range(3): - texdata += "\\x{:02X}".format(int(image.pixels[i+j]*255)) + texdata = encode_pixels(pixels_to_rgb(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'))) + + if tex_node.extension=="REPEAT": + samp_res.statements.append(Statement("wrap", Token('REPEAT'))) + elif tex_node.extension=="EXTEND": + samp_res.statements.append(Statement("wrap", Token('CLAMP_TO_EDGE'))) + elif tex_node.extension=="CLIP": + samp_res.statements.append(Statement("wrap", Token('CLAMP_TO_BORDER'))) + samp_res.statements.append(Statement("border_color", 0.0, 0.0, 0.0, 0.0)) + + 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)) + if tex_node.extension!="REPEAT": + name_parts.append("clip" if tex_node.extension=="CLIP" else "clamp") + + return "_".join(name_parts)+".samp"