struct a2v { float4 pos: POSITION; float4 tc: TEXCOORD0; float3 normal: NORMAL; }; struct v2f { float4 pos: SV_POSITION; float2 tc: TEXCOORD0; float3 light: TEXCOORD1; }; #include #ifdef VERTEX_SHADER //attribute vec2 v_texcoord; //uniform vec3 e_light_dir; //uniform vec3 e_light_mul; //uniform vec3 e_light_ambient; v2f main (a2v inp) { v2f outp; outp.pos = mul(m_model, inp.pos); outp.pos = mul(m_view, outp.pos); outp.pos = mul(m_projection, outp.pos); outp.light = e_light_ambient + (dot(inp.normal,e_light_dir)*e_light_mul); outp.tc = inp.tc.xy; return outp; } #endif #ifdef FRAGMENT_SHADER Texture2D t_diffuse : register(t0); #ifdef UPPER Texture2D t_upper : register(t1); Texture2D t_lower : register(t2); Texture2D t_fullbright : register(t3); #else Texture2D t_fullbright : register(t1); #endif SamplerState SampleType; //uniform vec4 e_colourident; float4 main (v2f inp) : SV_TARGET { float4 col; col = t_diffuse.Sample(SampleType, inp.tc); #ifdef MASK #ifndef MASKOP #define MASKOP >= //drawn if (alpha OP ref) is true. #endif //support for alpha masking if (!(col.a MASKOP MASK)) discard; #endif #ifdef UPPER float4 uc = t_upper.Sample(SampleType, inp.tc); col.rgb = lerp(col.rgb, uc.rgb*e_uppercolour, uc.a); #endif #ifdef LOWER float4 lc = t_lower.Sample(SampleType, inp.tc); col.rgb = lerp(col.rgb, lc.rgb*e_lowercolour, lc.a); #endif col.rgb *= inp.light; //#ifdef FULLBRIGHT float4 fb = t_fullbright.Sample(SampleType, inp.tc); col.rgb = lerp(col.rgb, fb.rgb, fb.a); //#endif return col; // return fog4(col * e_colourident); } #endif