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GamesData/GameUploadDocuments/3.GoalRush/Build/SDK_COCOS/GoalRushPro/library/59/5967a800-25ad-4c00-9872-5c4ba7840d17.json
Sreeraj 67e3d9cdc0 - Goal Rush added
2025-07-03 12:53:49 +04:00

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{
"__type__": "cc.EffectAsset",
"_name": "internal/editor/light-probe-visualization",
"_objFlags": 0,
"_native": "",
"techniques": [
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"priority": 245,
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"glsl4": {
"vert": "\nprecision mediump float;\nlayout(set = 2, binding = 0) uniform CCLocal {\n highp mat4 cc_matWorld;\n highp mat4 cc_matWorldIT;\n highp vec4 cc_lightingMapUVParam;\n highp vec4 cc_localShadowBias;\n highp vec4 cc_reflectionProbeData1;\n highp vec4 cc_reflectionProbeData2;\n};\nlayout(set = 0, binding = 0) uniform CCGlobal {\n highp vec4 cc_time;\n mediump vec4 cc_screenSize;\n mediump vec4 cc_nativeSize;\n mediump vec4 cc_probeInfo;\n mediump vec4 cc_debug_view_mode;\n};\nlayout(set = 0, binding = 1) uniform CCCamera {\n highp mat4 cc_matView;\n highp mat4 cc_matViewInv;\n highp mat4 cc_matProj;\n highp mat4 cc_matProjInv;\n highp mat4 cc_matViewProj;\n highp mat4 cc_matViewProjInv;\n highp vec4 cc_cameraPos;\n mediump vec4 cc_surfaceTransform;\n mediump vec4 cc_screenScale;\n mediump vec4 cc_exposure;\n mediump vec4 cc_mainLitDir;\n mediump vec4 cc_mainLitColor;\n mediump vec4 cc_ambientSky;\n mediump vec4 cc_ambientGround;\n mediump vec4 cc_fogColor;\n mediump vec4 cc_fogBase;\n mediump vec4 cc_fogAdd;\n mediump vec4 cc_nearFar;\n mediump vec4 cc_viewPort;\n};\nlayout(location = 0) in vec3 a_position;\nlayout(location = 1) in vec3 a_normal;\nlayout(location = 0) out vec3 normal_w;\nlayout(location = 1) out vec3 pos_w;\nlayout(location = 2) out vec3 pos_l;\nlayout(location = 3) out vec3 right;\nlayout(location = 4) out vec3 up;\nlayout(location = 5) out vec3 forward;\nvec4 vert () {\n vec4 pos = vec4(a_position, 1);\n vec4 normal = vec4(a_normal, 0);\n pos_l = a_position;\n pos_w = (cc_matWorld * pos).xyz;\n normal_w = (cc_matWorldIT * normal).xyz;\n right = vec3(cc_matView[0][0], cc_matView[1][0], cc_matView[2][0]);\n up = vec3(cc_matView[0][1], cc_matView[1][1], cc_matView[2][1]);\n forward = vec3(cc_matView[0][2], cc_matView[1][2], cc_matView[2][2]);\n return cc_matProj * (cc_matView * cc_matWorld) * pos;\n}\nvoid main() { gl_Position = vert(); }",
"frag": "\nprecision mediump float;\nmat3 transposeMat3 (mat3 v) {\n mat3 tmp;\n tmp[0] = vec3(v[0].x, v[1].x, v[2].x);\n tmp[1] = vec3(v[0].y, v[1].y, v[2].y);\n tmp[2] = vec3(v[0].z, v[1].z, v[2].z);\n return tmp;\n}\nvoid ClipQuadToHorizon (inout vec3 L[5], out int n) {\n int config = 0;\n if (L[0].z > 0.0) config += 1;\n if (L[1].z > 0.0) config += 2;\n if (L[2].z > 0.0) config += 4;\n if (L[3].z > 0.0) config += 8;\n config = 15;\n n = 0;\n if (config == 0)\n {\n }\n else if (config == 1) {\n n = 3;\n L[1] = -L[1].z * L[0] + L[0].z * L[1];\n L[2] = -L[3].z * L[0] + L[0].z * L[3];\n }\n else if (config == 2) {\n n = 3;\n L[0] = -L[0].z * L[1] + L[1].z * L[0];\n L[2] = -L[2].z * L[1] + L[1].z * L[2];\n }\n else if (config == 3) {\n n = 4;\n L[2] = -L[2].z * L[1] + L[1].z * L[2];\n L[3] = -L[3].z * L[0] + L[0].z * L[3];\n }\n else if (config == 4) {\n n = 3;\n L[0] = -L[3].z * L[2] + L[2].z * L[3];\n L[1] = -L[1].z * L[2] + L[2].z * L[1];\n }\n else if (config == 5) {\n n = 0;\n }\n else if (config == 6) {\n n = 4;\n L[0] = -L[0].z * L[1] + L[1].z * L[0];\n L[3] = -L[3].z * L[2] + L[2].z * L[3];\n }\n else if (config == 7) {\n n = 5;\n L[4] = -L[3].z * L[0] + L[0].z * L[3];\n L[3] = -L[3].z * L[2] + L[2].z * L[3];\n }\n else if (config == 8) {\n n = 3;\n L[0] = -L[0].z * L[3] + L[3].z * L[0];\n L[1] = -L[2].z * L[3] + L[3].z * L[2];\n L[2] = L[3];\n }\n else if (config == 9) {\n n = 4;\n L[1] = -L[1].z * L[0] + L[0].z * L[1];\n L[2] = -L[2].z * L[3] + L[3].z * L[2];\n }\n else if (config == 10) {\n n = 0;\n }\n else if (config == 11) {\n n = 5;\n L[4] = L[3];\n L[3] = -L[2].z * L[3] + L[3].z * L[2];\n L[2] = -L[2].z * L[1] + L[1].z * L[2];\n }\n else if (config == 12) {\n n = 4;\n L[1] = -L[1].z * L[2] + L[2].z * L[1];\n L[0] = -L[0].z * L[3] + L[3].z * L[0];\n }\n else if (config == 13) {\n n = 5;\n L[4] = L[3];\n L[3] = L[2];\n L[2] = -L[1].z * L[2] + L[2].z * L[1];\n L[1] = -L[1].z * L[0] + L[0].z * L[1];\n }\n else if (config == 14) {\n n = 5;\n L[4] = -L[0].z * L[3] + L[3].z * L[0];\n L[0] = -L[0].z * L[1] + L[1].z * L[0];\n }\n else if (config == 15) {\n n = 4;\n }\n if (n == 3) L[3] = L[0];\n if (n == 4) L[4] = L[0];\n}\nfloat IntegrateEdge (vec3 v1, vec3 v2) {\n float cosTheta = dot(v1, v2);\n float theta = acos(cosTheta);\n return cross(v1, v2).z * ((theta > 0.001) ? theta/sin(theta) : 4.0);\n}\nvec3 LTC_Evaluate (vec3 N, vec3 V, vec3 P, mat3 Minv, vec3 points[4]) {\n vec3 T1, T2;\n T1 = normalize(V - N*dot(V, N));\n T2 = cross(N, T1);\n Minv = Minv * transposeMat3(mat3(T1, T2, N));\n vec3 L[5];\n L[0] = Minv * (points[0] - P);\n L[1] = Minv * (points[1] - P);\n L[2] = Minv * (points[2] - P);\n L[3] = Minv * (points[3] - P);\n int n;\n ClipQuadToHorizon(L, n);\n if (n == 0) return vec3(0, 0, 0);\n L[0] = normalize(L[0]);\n L[1] = normalize(L[1]);\n L[2] = normalize(L[2]);\n L[3] = normalize(L[3]);\n L[4] = normalize(L[4]);\n float sum = 0.0;\n sum += IntegrateEdge(L[0], L[1]);\n sum += IntegrateEdge(L[1], L[2]);\n sum += IntegrateEdge(L[2], L[3]);\n if (n >= 4) sum += IntegrateEdge(L[3], L[4]);\n if (n == 5) sum += IntegrateEdge(L[4], L[0]);\n sum = max(0.0, sum);\n vec3 Lo_i = vec3(sum, sum, sum);\n return Lo_i;\n}\nlayout(set = 0, binding = 0) uniform CCGlobal {\n highp vec4 cc_time;\n mediump vec4 cc_screenSize;\n mediump vec4 cc_nativeSize;\n mediump vec4 cc_probeInfo;\n mediump vec4 cc_debug_view_mode;\n};\nlayout(set = 0, binding = 1) uniform CCCamera {\n highp mat4 cc_matView;\n highp mat4 cc_matViewInv;\n highp mat4 cc_matProj;\n highp mat4 cc_matProjInv;\n highp mat4 cc_matViewProj;\n highp mat4 cc_matViewProjInv;\n highp vec4 cc_cameraPos;\n mediump vec4 cc_surfaceTransform;\n mediump vec4 cc_screenScale;\n mediump vec4 cc_exposure;\n mediump vec4 cc_mainLitDir;\n mediump vec4 cc_mainLitColor;\n mediump vec4 cc_ambientSky;\n mediump vec4 cc_ambientGround;\n mediump vec4 cc_fogColor;\n mediump vec4 cc_fogBase;\n mediump vec4 cc_fogAdd;\n mediump vec4 cc_nearFar;\n mediump vec4 cc_viewPort;\n};\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_COLOR 1\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_NORMAL CC_SURFACES_DEBUG_VIEW_VERTEX_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_TANGENT CC_SURFACES_DEBUG_VIEW_VERTEX_NORMAL + 1\n#define CC_SURFACES_DEBUG_VIEW_WORLD_POS CC_SURFACES_DEBUG_VIEW_VERTEX_TANGENT + 1\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_MIRROR CC_SURFACES_DEBUG_VIEW_WORLD_POS + 1\n#define CC_SURFACES_DEBUG_VIEW_FACE_SIDE CC_SURFACES_DEBUG_VIEW_VERTEX_MIRROR + 1\n#define CC_SURFACES_DEBUG_VIEW_UV0 CC_SURFACES_DEBUG_VIEW_FACE_SIDE + 1\n#define CC_SURFACES_DEBUG_VIEW_UV1 CC_SURFACES_DEBUG_VIEW_UV0 + 1\n#define CC_SURFACES_DEBUG_VIEW_UVLIGHTMAP CC_SURFACES_DEBUG_VIEW_UV1 + 1\n#define CC_SURFACES_DEBUG_VIEW_PROJ_DEPTH CC_SURFACES_DEBUG_VIEW_UVLIGHTMAP + 1\n#define CC_SURFACES_DEBUG_VIEW_LINEAR_DEPTH CC_SURFACES_DEBUG_VIEW_PROJ_DEPTH + 1\n#define CC_SURFACES_DEBUG_VIEW_FRAGMENT_NORMAL CC_SURFACES_DEBUG_VIEW_LINEAR_DEPTH + 1\n#define CC_SURFACES_DEBUG_VIEW_FRAGMENT_TANGENT CC_SURFACES_DEBUG_VIEW_FRAGMENT_NORMAL + 1\n#define CC_SURFACES_DEBUG_VIEW_FRAGMENT_BINORMAL CC_SURFACES_DEBUG_VIEW_FRAGMENT_TANGENT + 1\n#define CC_SURFACES_DEBUG_VIEW_BASE_COLOR CC_SURFACES_DEBUG_VIEW_FRAGMENT_BINORMAL + 1\n#define CC_SURFACES_DEBUG_VIEW_DIFFUSE_COLOR CC_SURFACES_DEBUG_VIEW_BASE_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_SPECULAR_COLOR CC_SURFACES_DEBUG_VIEW_DIFFUSE_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSPARENCY CC_SURFACES_DEBUG_VIEW_SPECULAR_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_METALLIC CC_SURFACES_DEBUG_VIEW_TRANSPARENCY + 1\n#define CC_SURFACES_DEBUG_VIEW_ROUGHNESS CC_SURFACES_DEBUG_VIEW_METALLIC + 1\n#define CC_SURFACES_DEBUG_VIEW_SPECULAR_INTENSITY CC_SURFACES_DEBUG_VIEW_ROUGHNESS + 1\n#define CC_SURFACES_DEBUG_VIEW_IOR CC_SURFACES_DEBUG_VIEW_SPECULAR_INTENSITY + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_DIFFUSE CC_SURFACES_DEBUG_VIEW_IOR + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_SPECULAR CC_SURFACES_DEBUG_VIEW_DIRECT_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_ALL CC_SURFACES_DEBUG_VIEW_DIRECT_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_ENV_DIFFUSE CC_SURFACES_DEBUG_VIEW_DIRECT_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_ENV_SPECULAR CC_SURFACES_DEBUG_VIEW_ENV_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_ENV_ALL CC_SURFACES_DEBUG_VIEW_ENV_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_EMISSIVE CC_SURFACES_DEBUG_VIEW_ENV_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_LIGHT_MAP CC_SURFACES_DEBUG_VIEW_EMISSIVE + 1\n#define CC_SURFACES_DEBUG_VIEW_SHADOW CC_SURFACES_DEBUG_VIEW_LIGHT_MAP + 1\n#define CC_SURFACES_DEBUG_VIEW_AO CC_SURFACES_DEBUG_VIEW_SHADOW + 1\n#define CC_SURFACES_DEBUG_VIEW_FRESNEL CC_SURFACES_DEBUG_VIEW_AO + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_DIFFUSE CC_SURFACES_DEBUG_VIEW_FRESNEL + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_SPECULAR CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_DIFFUSE CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_SPECULAR CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_ALL CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_2ND_SPECULAR CC_SURFACES_DEBUG_VIEW_TRANSMIT_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_ENVIRONMENT_2ND_SPECULAR CC_SURFACES_DEBUG_VIEW_DIRECT_2ND_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_2ND_SPECULAR_ALL CC_SURFACES_DEBUG_VIEW_ENVIRONMENT_2ND_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_FOG CC_SURFACES_DEBUG_VIEW_2ND_SPECULAR_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_SINGLE 1\n#define CC_SURFACES_DEBUG_VIEW_COMPOSITE_AND_MISC 2\n#define IS_DEBUG_VIEW_ENABLE_WITH_CAMERA (cc_surfaceTransform.y != 3.0)\n#define IS_DEBUG_VIEW_LIGHTING_ENABLE_WITH_ALBEDO (UnpackBitFromFloat(cc_debug_view_mode.w, 6) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_MISC_ENABLE_CSM_LAYER_COLORATION (UnpackBitFromFloat(cc_debug_view_mode.w, 7) && IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_DIRECT_DIFFUSE (UnpackBitFromFloat(cc_debug_view_mode.y, 0) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_DIRECT_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.y, 1) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_ENV_DIFFUSE (UnpackBitFromFloat(cc_debug_view_mode.y, 2) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_ENV_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.y, 3) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_EMISSIVE (UnpackBitFromFloat(cc_debug_view_mode.y, 4) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_LIGHT_MAP (UnpackBitFromFloat(cc_debug_view_mode.y, 5) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_SHADOW (UnpackBitFromFloat(cc_debug_view_mode.y, 6) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_AO (UnpackBitFromFloat(cc_debug_view_mode.y, 7) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_NORMAL_MAP (UnpackBitFromFloat(cc_debug_view_mode.z, 0) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_FOG (UnpackBitFromFloat(cc_debug_view_mode.z, 1) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TONE_MAPPING (UnpackBitFromFloat(cc_debug_view_mode.z, 2) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_GAMMA_CORRECTION (UnpackBitFromFloat(cc_debug_view_mode.z, 3) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_FRESNEL (UnpackBitFromFloat(cc_debug_view_mode.z, 4) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TRANSMIT_DIFFUSE (UnpackBitFromFloat(cc_debug_view_mode.z, 5) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TRANSMIT_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.z, 6) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_2ND_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.z, 7) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TT (UnpackBitFromFloat(cc_debug_view_mode.w, 0) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\nvec3 LinearToSRGB(vec3 linear) {\n#ifdef CC_USE_SURFACE_SHADER\n #if CC_USE_DEBUG_VIEW == CC_SURFACES_DEBUG_VIEW_COMPOSITE_AND_MISC && CC_SURFACES_ENABLE_DEBUG_VIEW\n if (!IS_DEBUG_VIEW_COMPOSITE_ENABLE_GAMMA_CORRECTION) {\n return linear;\n }\n #endif\n#endif\n return sqrt(linear);\n}\n#if CC_USE_LIGHT_PROBE\n vec3 ACESToneMap (vec3 color) {\n color = min(color, vec3(8.0));\n const float A = 2.51;\n const float B = 0.03;\n const float C = 2.43;\n const float D = 0.59;\n const float E = 0.14;\n return (color * (A * color + B)) / (color * (C * color + D) + E);\n }\n vec4 packRGBE (vec3 rgb) {\n highp float maxComp = max(max(rgb.r, rgb.g), rgb.b);\n highp float e = 128.0;\n if (maxComp > 0.0001) {\n e = log(maxComp) / log(1.1);\n e = ceil(e);\n e = clamp(e + 128.0, 0.0, 255.0);\n }\n highp float sc = 1.0 / pow(1.1, e - 128.0);\n vec3 encode = clamp(rgb * sc, vec3(0.0), vec3(1.0)) * 255.0;\n vec3 encode_rounded = floor(encode) + step(encode - floor(encode), vec3(0.5));\n return vec4(encode_rounded, e) / 255.0;\n }\n vec4 CCFragOutput (vec4 color) {\n #if CC_USE_RGBE_OUTPUT\n color = packRGBE(color.rgb);\n #elif !CC_USE_FLOAT_OUTPUT\n #if CC_USE_HDR && CC_TONE_MAPPING_TYPE == HDR_TONE_MAPPING_ACES\n color.rgb = ACESToneMap(color.rgb);\n #endif\n color.rgb = LinearToSRGB(color.rgb);\n #endif\n return color;\n }\n#else\n vec4 CCFragOutput (vec4 color) {\n return color;\n }\n#endif\nlayout(location = 0) in vec3 normal_w;\nlayout(location = 1) in vec3 pos_w;\nlayout(location = 2) in vec3 pos_l;\nlayout(location = 3) in vec3 right;\nlayout(location = 4) in vec3 up;\nlayout(location = 5) in vec3 forward;\nlayout(set = 1, binding = 0) uniform Constant {\n vec4 mainColor;\n vec4 cc_sh_linear_const_r;\n vec4 cc_sh_linear_const_g;\n vec4 cc_sh_linear_const_b;\n vec4 cc_sh_quadratic_r;\n vec4 cc_sh_quadratic_g;\n vec4 cc_sh_quadratic_b;\n vec4 cc_sh_quadratic_a;\n};\n#if CC_USE_LIGHT_PROBE\n #if CC_USE_LIGHT_PROBE\n vec3 SHEvaluate(vec3 normal)\n {\n vec3 result;\n #if USE_INSTANCING\n vec4 normal4 = vec4(normal, 1.0);\n result.r = dot(v_sh_linear_const_r, normal4);\n result.g = dot(v_sh_linear_const_g, normal4);\n result.b = dot(v_sh_linear_const_b, normal4);\n #else\n vec4 normal4 = vec4(normal, 1.0);\n result.r = dot(cc_sh_linear_const_r, normal4);\n result.g = dot(cc_sh_linear_const_g, normal4);\n result.b = dot(cc_sh_linear_const_b, normal4);\n vec4 n14 = normal.xyzz * normal.yzzx;\n float n5 = normal.x * normal.x - normal.y * normal.y;\n result.r += dot(cc_sh_quadratic_r, n14);\n result.g += dot(cc_sh_quadratic_g, n14);\n result.b += dot(cc_sh_quadratic_b, n14);\n result += (cc_sh_quadratic_a.rgb * n5);\n #endif\n #if CC_USE_HDR\n result *= cc_exposure.w * cc_exposure.x;\n #endif\n return result;\n }\n #endif\n#endif\nvec4 gizmo_fs (float alpha) {\n #if CC_USE_LIGHT_PROBE\n vec3 N = normalize(normal_w) * (float(gl_FrontFacing) * 2.0 - 1.0);\n vec3 diffuse = SHEvaluate(N);\n #if USE_FORWARD_PIPELINE\n return CCFragOutput(vec4(diffuse, mainColor.a * alpha));\n #else\n return vec4(diffuse, mainColor.a * alpha);\n #endif\n #else\n vec3 N = normalize(normal_w) * (float(gl_FrontFacing) * 2.0 - 1.0);\n vec3 V = normalize(cc_cameraPos.xyz - pos_w);\n vec3 points [4];\n points[0] = (forward * 3.0 + right + up) * 40.0;\n points[1] = (forward * 3.0 - right + up) * 40.0;\n points[2] = (forward * 3.0 - right - up) * 40.0;\n points[3] = (forward * 3.0 + right - up) * 40.0;\n vec3 diffuse = LinearToSRGB(mainColor.rgb * LTC_Evaluate(N, V, pos_l, mat3(1), points));\n #if USE_FORWARD_PIPELINE\n return CCFragOutput(vec4(diffuse, mainColor.a * alpha));\n #else\n return vec4(diffuse, mainColor.a * alpha);\n #endif\n #endif\n}\nvec4 front () {\n return gizmo_fs(1.0);\n}\nlayout(location = 0) out vec4 cc_FragColor;\nvoid main() { cc_FragColor = front(); }"
},
"glsl3": {
"vert": "\nprecision mediump float;\nlayout(std140) uniform CCLocal {\n highp mat4 cc_matWorld;\n highp mat4 cc_matWorldIT;\n highp vec4 cc_lightingMapUVParam;\n highp vec4 cc_localShadowBias;\n highp vec4 cc_reflectionProbeData1;\n highp vec4 cc_reflectionProbeData2;\n};\nlayout(std140) uniform CCGlobal {\n highp vec4 cc_time;\n mediump vec4 cc_screenSize;\n mediump vec4 cc_nativeSize;\n mediump vec4 cc_probeInfo;\n mediump vec4 cc_debug_view_mode;\n};\nlayout(std140) uniform CCCamera {\n highp mat4 cc_matView;\n highp mat4 cc_matViewInv;\n highp mat4 cc_matProj;\n highp mat4 cc_matProjInv;\n highp mat4 cc_matViewProj;\n highp mat4 cc_matViewProjInv;\n highp vec4 cc_cameraPos;\n mediump vec4 cc_surfaceTransform;\n mediump vec4 cc_screenScale;\n mediump vec4 cc_exposure;\n mediump vec4 cc_mainLitDir;\n mediump vec4 cc_mainLitColor;\n mediump vec4 cc_ambientSky;\n mediump vec4 cc_ambientGround;\n mediump vec4 cc_fogColor;\n mediump vec4 cc_fogBase;\n mediump vec4 cc_fogAdd;\n mediump vec4 cc_nearFar;\n mediump vec4 cc_viewPort;\n};\nin vec3 a_position;\nin vec3 a_normal;\nout vec3 normal_w;\nout vec3 pos_w;\nout vec3 pos_l;\nout vec3 right;\nout vec3 up;\nout vec3 forward;\nvec4 vert () {\n vec4 pos = vec4(a_position, 1);\n vec4 normal = vec4(a_normal, 0);\n pos_l = a_position;\n pos_w = (cc_matWorld * pos).xyz;\n normal_w = (cc_matWorldIT * normal).xyz;\n right = vec3(cc_matView[0][0], cc_matView[1][0], cc_matView[2][0]);\n up = vec3(cc_matView[0][1], cc_matView[1][1], cc_matView[2][1]);\n forward = vec3(cc_matView[0][2], cc_matView[1][2], cc_matView[2][2]);\n return cc_matProj * (cc_matView * cc_matWorld) * pos;\n}\nvoid main() { gl_Position = vert(); }",
"frag": "\nprecision mediump float;\nmat3 transposeMat3 (mat3 v) {\n mat3 tmp;\n tmp[0] = vec3(v[0].x, v[1].x, v[2].x);\n tmp[1] = vec3(v[0].y, v[1].y, v[2].y);\n tmp[2] = vec3(v[0].z, v[1].z, v[2].z);\n return tmp;\n}\nvoid ClipQuadToHorizon (inout vec3 L[5], out int n) {\n int config = 0;\n if (L[0].z > 0.0) config += 1;\n if (L[1].z > 0.0) config += 2;\n if (L[2].z > 0.0) config += 4;\n if (L[3].z > 0.0) config += 8;\n config = 15;\n n = 0;\n if (config == 0)\n {\n }\n else if (config == 1) {\n n = 3;\n L[1] = -L[1].z * L[0] + L[0].z * L[1];\n L[2] = -L[3].z * L[0] + L[0].z * L[3];\n }\n else if (config == 2) {\n n = 3;\n L[0] = -L[0].z * L[1] + L[1].z * L[0];\n L[2] = -L[2].z * L[1] + L[1].z * L[2];\n }\n else if (config == 3) {\n n = 4;\n L[2] = -L[2].z * L[1] + L[1].z * L[2];\n L[3] = -L[3].z * L[0] + L[0].z * L[3];\n }\n else if (config == 4) {\n n = 3;\n L[0] = -L[3].z * L[2] + L[2].z * L[3];\n L[1] = -L[1].z * L[2] + L[2].z * L[1];\n }\n else if (config == 5) {\n n = 0;\n }\n else if (config == 6) {\n n = 4;\n L[0] = -L[0].z * L[1] + L[1].z * L[0];\n L[3] = -L[3].z * L[2] + L[2].z * L[3];\n }\n else if (config == 7) {\n n = 5;\n L[4] = -L[3].z * L[0] + L[0].z * L[3];\n L[3] = -L[3].z * L[2] + L[2].z * L[3];\n }\n else if (config == 8) {\n n = 3;\n L[0] = -L[0].z * L[3] + L[3].z * L[0];\n L[1] = -L[2].z * L[3] + L[3].z * L[2];\n L[2] = L[3];\n }\n else if (config == 9) {\n n = 4;\n L[1] = -L[1].z * L[0] + L[0].z * L[1];\n L[2] = -L[2].z * L[3] + L[3].z * L[2];\n }\n else if (config == 10) {\n n = 0;\n }\n else if (config == 11) {\n n = 5;\n L[4] = L[3];\n L[3] = -L[2].z * L[3] + L[3].z * L[2];\n L[2] = -L[2].z * L[1] + L[1].z * L[2];\n }\n else if (config == 12) {\n n = 4;\n L[1] = -L[1].z * L[2] + L[2].z * L[1];\n L[0] = -L[0].z * L[3] + L[3].z * L[0];\n }\n else if (config == 13) {\n n = 5;\n L[4] = L[3];\n L[3] = L[2];\n L[2] = -L[1].z * L[2] + L[2].z * L[1];\n L[1] = -L[1].z * L[0] + L[0].z * L[1];\n }\n else if (config == 14) {\n n = 5;\n L[4] = -L[0].z * L[3] + L[3].z * L[0];\n L[0] = -L[0].z * L[1] + L[1].z * L[0];\n }\n else if (config == 15) {\n n = 4;\n }\n if (n == 3) L[3] = L[0];\n if (n == 4) L[4] = L[0];\n}\nfloat IntegrateEdge (vec3 v1, vec3 v2) {\n float cosTheta = dot(v1, v2);\n float theta = acos(cosTheta);\n return cross(v1, v2).z * ((theta > 0.001) ? theta/sin(theta) : 4.0);\n}\nvec3 LTC_Evaluate (vec3 N, vec3 V, vec3 P, mat3 Minv, vec3 points[4]) {\n vec3 T1, T2;\n T1 = normalize(V - N*dot(V, N));\n T2 = cross(N, T1);\n Minv = Minv * transposeMat3(mat3(T1, T2, N));\n vec3 L[5];\n L[0] = Minv * (points[0] - P);\n L[1] = Minv * (points[1] - P);\n L[2] = Minv * (points[2] - P);\n L[3] = Minv * (points[3] - P);\n int n;\n ClipQuadToHorizon(L, n);\n if (n == 0) return vec3(0, 0, 0);\n L[0] = normalize(L[0]);\n L[1] = normalize(L[1]);\n L[2] = normalize(L[2]);\n L[3] = normalize(L[3]);\n L[4] = normalize(L[4]);\n float sum = 0.0;\n sum += IntegrateEdge(L[0], L[1]);\n sum += IntegrateEdge(L[1], L[2]);\n sum += IntegrateEdge(L[2], L[3]);\n if (n >= 4) sum += IntegrateEdge(L[3], L[4]);\n if (n == 5) sum += IntegrateEdge(L[4], L[0]);\n sum = max(0.0, sum);\n vec3 Lo_i = vec3(sum, sum, sum);\n return Lo_i;\n}\nlayout(std140) uniform CCGlobal {\n highp vec4 cc_time;\n mediump vec4 cc_screenSize;\n mediump vec4 cc_nativeSize;\n mediump vec4 cc_probeInfo;\n mediump vec4 cc_debug_view_mode;\n};\nlayout(std140) uniform CCCamera {\n highp mat4 cc_matView;\n highp mat4 cc_matViewInv;\n highp mat4 cc_matProj;\n highp mat4 cc_matProjInv;\n highp mat4 cc_matViewProj;\n highp mat4 cc_matViewProjInv;\n highp vec4 cc_cameraPos;\n mediump vec4 cc_surfaceTransform;\n mediump vec4 cc_screenScale;\n mediump vec4 cc_exposure;\n mediump vec4 cc_mainLitDir;\n mediump vec4 cc_mainLitColor;\n mediump vec4 cc_ambientSky;\n mediump vec4 cc_ambientGround;\n mediump vec4 cc_fogColor;\n mediump vec4 cc_fogBase;\n mediump vec4 cc_fogAdd;\n mediump vec4 cc_nearFar;\n mediump vec4 cc_viewPort;\n};\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_COLOR 1\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_NORMAL CC_SURFACES_DEBUG_VIEW_VERTEX_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_TANGENT CC_SURFACES_DEBUG_VIEW_VERTEX_NORMAL + 1\n#define CC_SURFACES_DEBUG_VIEW_WORLD_POS CC_SURFACES_DEBUG_VIEW_VERTEX_TANGENT + 1\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_MIRROR CC_SURFACES_DEBUG_VIEW_WORLD_POS + 1\n#define CC_SURFACES_DEBUG_VIEW_FACE_SIDE CC_SURFACES_DEBUG_VIEW_VERTEX_MIRROR + 1\n#define CC_SURFACES_DEBUG_VIEW_UV0 CC_SURFACES_DEBUG_VIEW_FACE_SIDE + 1\n#define CC_SURFACES_DEBUG_VIEW_UV1 CC_SURFACES_DEBUG_VIEW_UV0 + 1\n#define CC_SURFACES_DEBUG_VIEW_UVLIGHTMAP CC_SURFACES_DEBUG_VIEW_UV1 + 1\n#define CC_SURFACES_DEBUG_VIEW_PROJ_DEPTH CC_SURFACES_DEBUG_VIEW_UVLIGHTMAP + 1\n#define CC_SURFACES_DEBUG_VIEW_LINEAR_DEPTH CC_SURFACES_DEBUG_VIEW_PROJ_DEPTH + 1\n#define CC_SURFACES_DEBUG_VIEW_FRAGMENT_NORMAL CC_SURFACES_DEBUG_VIEW_LINEAR_DEPTH + 1\n#define CC_SURFACES_DEBUG_VIEW_FRAGMENT_TANGENT CC_SURFACES_DEBUG_VIEW_FRAGMENT_NORMAL + 1\n#define CC_SURFACES_DEBUG_VIEW_FRAGMENT_BINORMAL CC_SURFACES_DEBUG_VIEW_FRAGMENT_TANGENT + 1\n#define CC_SURFACES_DEBUG_VIEW_BASE_COLOR CC_SURFACES_DEBUG_VIEW_FRAGMENT_BINORMAL + 1\n#define CC_SURFACES_DEBUG_VIEW_DIFFUSE_COLOR CC_SURFACES_DEBUG_VIEW_BASE_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_SPECULAR_COLOR CC_SURFACES_DEBUG_VIEW_DIFFUSE_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSPARENCY CC_SURFACES_DEBUG_VIEW_SPECULAR_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_METALLIC CC_SURFACES_DEBUG_VIEW_TRANSPARENCY + 1\n#define CC_SURFACES_DEBUG_VIEW_ROUGHNESS CC_SURFACES_DEBUG_VIEW_METALLIC + 1\n#define CC_SURFACES_DEBUG_VIEW_SPECULAR_INTENSITY CC_SURFACES_DEBUG_VIEW_ROUGHNESS + 1\n#define CC_SURFACES_DEBUG_VIEW_IOR CC_SURFACES_DEBUG_VIEW_SPECULAR_INTENSITY + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_DIFFUSE CC_SURFACES_DEBUG_VIEW_IOR + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_SPECULAR CC_SURFACES_DEBUG_VIEW_DIRECT_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_ALL CC_SURFACES_DEBUG_VIEW_DIRECT_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_ENV_DIFFUSE CC_SURFACES_DEBUG_VIEW_DIRECT_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_ENV_SPECULAR CC_SURFACES_DEBUG_VIEW_ENV_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_ENV_ALL CC_SURFACES_DEBUG_VIEW_ENV_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_EMISSIVE CC_SURFACES_DEBUG_VIEW_ENV_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_LIGHT_MAP CC_SURFACES_DEBUG_VIEW_EMISSIVE + 1\n#define CC_SURFACES_DEBUG_VIEW_SHADOW CC_SURFACES_DEBUG_VIEW_LIGHT_MAP + 1\n#define CC_SURFACES_DEBUG_VIEW_AO CC_SURFACES_DEBUG_VIEW_SHADOW + 1\n#define CC_SURFACES_DEBUG_VIEW_FRESNEL CC_SURFACES_DEBUG_VIEW_AO + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_DIFFUSE CC_SURFACES_DEBUG_VIEW_FRESNEL + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_SPECULAR CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_DIFFUSE CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_SPECULAR CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_ALL CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_2ND_SPECULAR CC_SURFACES_DEBUG_VIEW_TRANSMIT_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_ENVIRONMENT_2ND_SPECULAR CC_SURFACES_DEBUG_VIEW_DIRECT_2ND_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_2ND_SPECULAR_ALL CC_SURFACES_DEBUG_VIEW_ENVIRONMENT_2ND_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_FOG CC_SURFACES_DEBUG_VIEW_2ND_SPECULAR_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_SINGLE 1\n#define CC_SURFACES_DEBUG_VIEW_COMPOSITE_AND_MISC 2\n#define IS_DEBUG_VIEW_ENABLE_WITH_CAMERA (cc_surfaceTransform.y != 3.0)\n#define IS_DEBUG_VIEW_LIGHTING_ENABLE_WITH_ALBEDO (UnpackBitFromFloat(cc_debug_view_mode.w, 6) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_MISC_ENABLE_CSM_LAYER_COLORATION (UnpackBitFromFloat(cc_debug_view_mode.w, 7) && IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_DIRECT_DIFFUSE (UnpackBitFromFloat(cc_debug_view_mode.y, 0) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_DIRECT_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.y, 1) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_ENV_DIFFUSE (UnpackBitFromFloat(cc_debug_view_mode.y, 2) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_ENV_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.y, 3) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_EMISSIVE (UnpackBitFromFloat(cc_debug_view_mode.y, 4) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_LIGHT_MAP (UnpackBitFromFloat(cc_debug_view_mode.y, 5) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_SHADOW (UnpackBitFromFloat(cc_debug_view_mode.y, 6) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_AO (UnpackBitFromFloat(cc_debug_view_mode.y, 7) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_NORMAL_MAP (UnpackBitFromFloat(cc_debug_view_mode.z, 0) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_FOG (UnpackBitFromFloat(cc_debug_view_mode.z, 1) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TONE_MAPPING (UnpackBitFromFloat(cc_debug_view_mode.z, 2) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_GAMMA_CORRECTION (UnpackBitFromFloat(cc_debug_view_mode.z, 3) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_FRESNEL (UnpackBitFromFloat(cc_debug_view_mode.z, 4) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TRANSMIT_DIFFUSE (UnpackBitFromFloat(cc_debug_view_mode.z, 5) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TRANSMIT_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.z, 6) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_2ND_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.z, 7) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TT (UnpackBitFromFloat(cc_debug_view_mode.w, 0) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\nvec3 LinearToSRGB(vec3 linear) {\n#ifdef CC_USE_SURFACE_SHADER\n #if CC_USE_DEBUG_VIEW == CC_SURFACES_DEBUG_VIEW_COMPOSITE_AND_MISC && CC_SURFACES_ENABLE_DEBUG_VIEW\n if (!IS_DEBUG_VIEW_COMPOSITE_ENABLE_GAMMA_CORRECTION) {\n return linear;\n }\n #endif\n#endif\n return sqrt(linear);\n}\n#if CC_USE_LIGHT_PROBE\n vec3 ACESToneMap (vec3 color) {\n color = min(color, vec3(8.0));\n const float A = 2.51;\n const float B = 0.03;\n const float C = 2.43;\n const float D = 0.59;\n const float E = 0.14;\n return (color * (A * color + B)) / (color * (C * color + D) + E);\n }\n vec4 packRGBE (vec3 rgb) {\n highp float maxComp = max(max(rgb.r, rgb.g), rgb.b);\n highp float e = 128.0;\n if (maxComp > 0.0001) {\n e = log(maxComp) / log(1.1);\n e = ceil(e);\n e = clamp(e + 128.0, 0.0, 255.0);\n }\n highp float sc = 1.0 / pow(1.1, e - 128.0);\n vec3 encode = clamp(rgb * sc, vec3(0.0), vec3(1.0)) * 255.0;\n vec3 encode_rounded = floor(encode) + step(encode - floor(encode), vec3(0.5));\n return vec4(encode_rounded, e) / 255.0;\n }\n vec4 CCFragOutput (vec4 color) {\n #if CC_USE_RGBE_OUTPUT\n color = packRGBE(color.rgb);\n #elif !CC_USE_FLOAT_OUTPUT\n #if CC_USE_HDR && CC_TONE_MAPPING_TYPE == HDR_TONE_MAPPING_ACES\n color.rgb = ACESToneMap(color.rgb);\n #endif\n color.rgb = LinearToSRGB(color.rgb);\n #endif\n return color;\n }\n#else\n vec4 CCFragOutput (vec4 color) {\n return color;\n }\n#endif\nin vec3 normal_w;\nin vec3 pos_w;\nin vec3 pos_l;\nin vec3 right;\nin vec3 up;\nin vec3 forward;\nlayout(std140) uniform Constant {\n vec4 mainColor;\n vec4 cc_sh_linear_const_r;\n vec4 cc_sh_linear_const_g;\n vec4 cc_sh_linear_const_b;\n vec4 cc_sh_quadratic_r;\n vec4 cc_sh_quadratic_g;\n vec4 cc_sh_quadratic_b;\n vec4 cc_sh_quadratic_a;\n};\n#if CC_USE_LIGHT_PROBE\n #if CC_USE_LIGHT_PROBE\n vec3 SHEvaluate(vec3 normal)\n {\n vec3 result;\n #if USE_INSTANCING\n vec4 normal4 = vec4(normal, 1.0);\n result.r = dot(v_sh_linear_const_r, normal4);\n result.g = dot(v_sh_linear_const_g, normal4);\n result.b = dot(v_sh_linear_const_b, normal4);\n #else\n vec4 normal4 = vec4(normal, 1.0);\n result.r = dot(cc_sh_linear_const_r, normal4);\n result.g = dot(cc_sh_linear_const_g, normal4);\n result.b = dot(cc_sh_linear_const_b, normal4);\n vec4 n14 = normal.xyzz * normal.yzzx;\n float n5 = normal.x * normal.x - normal.y * normal.y;\n result.r += dot(cc_sh_quadratic_r, n14);\n result.g += dot(cc_sh_quadratic_g, n14);\n result.b += dot(cc_sh_quadratic_b, n14);\n result += (cc_sh_quadratic_a.rgb * n5);\n #endif\n #if CC_USE_HDR\n result *= cc_exposure.w * cc_exposure.x;\n #endif\n return result;\n }\n #endif\n#endif\nvec4 gizmo_fs (float alpha) {\n #if CC_USE_LIGHT_PROBE\n vec3 N = normalize(normal_w) * (float(gl_FrontFacing) * 2.0 - 1.0);\n vec3 diffuse = SHEvaluate(N);\n #if USE_FORWARD_PIPELINE\n return CCFragOutput(vec4(diffuse, mainColor.a * alpha));\n #else\n return vec4(diffuse, mainColor.a * alpha);\n #endif\n #else\n vec3 N = normalize(normal_w) * (float(gl_FrontFacing) * 2.0 - 1.0);\n vec3 V = normalize(cc_cameraPos.xyz - pos_w);\n vec3 points [4];\n points[0] = (forward * 3.0 + right + up) * 40.0;\n points[1] = (forward * 3.0 - right + up) * 40.0;\n points[2] = (forward * 3.0 - right - up) * 40.0;\n points[3] = (forward * 3.0 + right - up) * 40.0;\n vec3 diffuse = LinearToSRGB(mainColor.rgb * LTC_Evaluate(N, V, pos_l, mat3(1), points));\n #if USE_FORWARD_PIPELINE\n return CCFragOutput(vec4(diffuse, mainColor.a * alpha));\n #else\n return vec4(diffuse, mainColor.a * alpha);\n #endif\n #endif\n}\nvec4 front () {\n return gizmo_fs(1.0);\n}\nlayout(location = 0) out vec4 cc_FragColor;\nvoid main() { cc_FragColor = front(); }"
},
"glsl1": {
"vert": "\nprecision mediump float;\nuniform highp mat4 cc_matWorld;\n uniform highp mat4 cc_matWorldIT;\nuniform highp mat4 cc_matView;\n uniform highp mat4 cc_matProj;\nattribute vec3 a_position;\nattribute vec3 a_normal;\nvarying vec3 normal_w;\nvarying vec3 pos_w;\nvarying vec3 pos_l;\nvarying vec3 right;\nvarying vec3 up;\nvarying vec3 forward;\nvec4 vert () {\n vec4 pos = vec4(a_position, 1);\n vec4 normal = vec4(a_normal, 0);\n pos_l = a_position;\n pos_w = (cc_matWorld * pos).xyz;\n normal_w = (cc_matWorldIT * normal).xyz;\n right = vec3(cc_matView[0][0], cc_matView[1][0], cc_matView[2][0]);\n up = vec3(cc_matView[0][1], cc_matView[1][1], cc_matView[2][1]);\n forward = vec3(cc_matView[0][2], cc_matView[1][2], cc_matView[2][2]);\n return cc_matProj * (cc_matView * cc_matWorld) * pos;\n}\nvoid main() { gl_Position = vert(); }",
"frag": "\nprecision mediump float;\nmat3 transposeMat3 (mat3 v) {\n mat3 tmp;\n tmp[0] = vec3(v[0].x, v[1].x, v[2].x);\n tmp[1] = vec3(v[0].y, v[1].y, v[2].y);\n tmp[2] = vec3(v[0].z, v[1].z, v[2].z);\n return tmp;\n}\nvoid ClipQuadToHorizon (inout vec3 L[5], out int n) {\n int config = 0;\n if (L[0].z > 0.0) config += 1;\n if (L[1].z > 0.0) config += 2;\n if (L[2].z > 0.0) config += 4;\n if (L[3].z > 0.0) config += 8;\n config = 15;\n n = 0;\n if (config == 0)\n {\n }\n else if (config == 1) {\n n = 3;\n L[1] = -L[1].z * L[0] + L[0].z * L[1];\n L[2] = -L[3].z * L[0] + L[0].z * L[3];\n }\n else if (config == 2) {\n n = 3;\n L[0] = -L[0].z * L[1] + L[1].z * L[0];\n L[2] = -L[2].z * L[1] + L[1].z * L[2];\n }\n else if (config == 3) {\n n = 4;\n L[2] = -L[2].z * L[1] + L[1].z * L[2];\n L[3] = -L[3].z * L[0] + L[0].z * L[3];\n }\n else if (config == 4) {\n n = 3;\n L[0] = -L[3].z * L[2] + L[2].z * L[3];\n L[1] = -L[1].z * L[2] + L[2].z * L[1];\n }\n else if (config == 5) {\n n = 0;\n }\n else if (config == 6) {\n n = 4;\n L[0] = -L[0].z * L[1] + L[1].z * L[0];\n L[3] = -L[3].z * L[2] + L[2].z * L[3];\n }\n else if (config == 7) {\n n = 5;\n L[4] = -L[3].z * L[0] + L[0].z * L[3];\n L[3] = -L[3].z * L[2] + L[2].z * L[3];\n }\n else if (config == 8) {\n n = 3;\n L[0] = -L[0].z * L[3] + L[3].z * L[0];\n L[1] = -L[2].z * L[3] + L[3].z * L[2];\n L[2] = L[3];\n }\n else if (config == 9) {\n n = 4;\n L[1] = -L[1].z * L[0] + L[0].z * L[1];\n L[2] = -L[2].z * L[3] + L[3].z * L[2];\n }\n else if (config == 10) {\n n = 0;\n }\n else if (config == 11) {\n n = 5;\n L[4] = L[3];\n L[3] = -L[2].z * L[3] + L[3].z * L[2];\n L[2] = -L[2].z * L[1] + L[1].z * L[2];\n }\n else if (config == 12) {\n n = 4;\n L[1] = -L[1].z * L[2] + L[2].z * L[1];\n L[0] = -L[0].z * L[3] + L[3].z * L[0];\n }\n else if (config == 13) {\n n = 5;\n L[4] = L[3];\n L[3] = L[2];\n L[2] = -L[1].z * L[2] + L[2].z * L[1];\n L[1] = -L[1].z * L[0] + L[0].z * L[1];\n }\n else if (config == 14) {\n n = 5;\n L[4] = -L[0].z * L[3] + L[3].z * L[0];\n L[0] = -L[0].z * L[1] + L[1].z * L[0];\n }\n else if (config == 15) {\n n = 4;\n }\n if (n == 3) L[3] = L[0];\n if (n == 4) L[4] = L[0];\n}\nfloat IntegrateEdge (vec3 v1, vec3 v2) {\n float cosTheta = dot(v1, v2);\n float theta = acos(cosTheta);\n return cross(v1, v2).z * ((theta > 0.001) ? theta/sin(theta) : 4.0);\n}\nvec3 LTC_Evaluate (vec3 N, vec3 V, vec3 P, mat3 Minv, vec3 points[4]) {\n vec3 T1, T2;\n T1 = normalize(V - N*dot(V, N));\n T2 = cross(N, T1);\n Minv = Minv * transposeMat3(mat3(T1, T2, N));\n vec3 L[5];\n L[0] = Minv * (points[0] - P);\n L[1] = Minv * (points[1] - P);\n L[2] = Minv * (points[2] - P);\n L[3] = Minv * (points[3] - P);\n int n;\n ClipQuadToHorizon(L, n);\n if (n == 0) return vec3(0, 0, 0);\n L[0] = normalize(L[0]);\n L[1] = normalize(L[1]);\n L[2] = normalize(L[2]);\n L[3] = normalize(L[3]);\n L[4] = normalize(L[4]);\n float sum = 0.0;\n sum += IntegrateEdge(L[0], L[1]);\n sum += IntegrateEdge(L[1], L[2]);\n sum += IntegrateEdge(L[2], L[3]);\n if (n >= 4) sum += IntegrateEdge(L[3], L[4]);\n if (n == 5) sum += IntegrateEdge(L[4], L[0]);\n sum = max(0.0, sum);\n vec3 Lo_i = vec3(sum, sum, sum);\n return Lo_i;\n}\nuniform mediump vec4 cc_debug_view_mode;\nuniform highp vec4 cc_cameraPos;\n uniform mediump vec4 cc_surfaceTransform;\n uniform mediump vec4 cc_exposure;\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_COLOR 1\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_NORMAL CC_SURFACES_DEBUG_VIEW_VERTEX_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_TANGENT CC_SURFACES_DEBUG_VIEW_VERTEX_NORMAL + 1\n#define CC_SURFACES_DEBUG_VIEW_WORLD_POS CC_SURFACES_DEBUG_VIEW_VERTEX_TANGENT + 1\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_MIRROR CC_SURFACES_DEBUG_VIEW_WORLD_POS + 1\n#define CC_SURFACES_DEBUG_VIEW_FACE_SIDE CC_SURFACES_DEBUG_VIEW_VERTEX_MIRROR + 1\n#define CC_SURFACES_DEBUG_VIEW_UV0 CC_SURFACES_DEBUG_VIEW_FACE_SIDE + 1\n#define CC_SURFACES_DEBUG_VIEW_UV1 CC_SURFACES_DEBUG_VIEW_UV0 + 1\n#define CC_SURFACES_DEBUG_VIEW_UVLIGHTMAP CC_SURFACES_DEBUG_VIEW_UV1 + 1\n#define CC_SURFACES_DEBUG_VIEW_PROJ_DEPTH CC_SURFACES_DEBUG_VIEW_UVLIGHTMAP + 1\n#define CC_SURFACES_DEBUG_VIEW_LINEAR_DEPTH CC_SURFACES_DEBUG_VIEW_PROJ_DEPTH + 1\n#define CC_SURFACES_DEBUG_VIEW_FRAGMENT_NORMAL CC_SURFACES_DEBUG_VIEW_LINEAR_DEPTH + 1\n#define CC_SURFACES_DEBUG_VIEW_FRAGMENT_TANGENT CC_SURFACES_DEBUG_VIEW_FRAGMENT_NORMAL + 1\n#define CC_SURFACES_DEBUG_VIEW_FRAGMENT_BINORMAL CC_SURFACES_DEBUG_VIEW_FRAGMENT_TANGENT + 1\n#define CC_SURFACES_DEBUG_VIEW_BASE_COLOR CC_SURFACES_DEBUG_VIEW_FRAGMENT_BINORMAL + 1\n#define CC_SURFACES_DEBUG_VIEW_DIFFUSE_COLOR CC_SURFACES_DEBUG_VIEW_BASE_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_SPECULAR_COLOR CC_SURFACES_DEBUG_VIEW_DIFFUSE_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSPARENCY CC_SURFACES_DEBUG_VIEW_SPECULAR_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_METALLIC CC_SURFACES_DEBUG_VIEW_TRANSPARENCY + 1\n#define CC_SURFACES_DEBUG_VIEW_ROUGHNESS CC_SURFACES_DEBUG_VIEW_METALLIC + 1\n#define CC_SURFACES_DEBUG_VIEW_SPECULAR_INTENSITY CC_SURFACES_DEBUG_VIEW_ROUGHNESS + 1\n#define CC_SURFACES_DEBUG_VIEW_IOR CC_SURFACES_DEBUG_VIEW_SPECULAR_INTENSITY + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_DIFFUSE CC_SURFACES_DEBUG_VIEW_IOR + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_SPECULAR CC_SURFACES_DEBUG_VIEW_DIRECT_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_ALL CC_SURFACES_DEBUG_VIEW_DIRECT_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_ENV_DIFFUSE CC_SURFACES_DEBUG_VIEW_DIRECT_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_ENV_SPECULAR CC_SURFACES_DEBUG_VIEW_ENV_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_ENV_ALL CC_SURFACES_DEBUG_VIEW_ENV_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_EMISSIVE CC_SURFACES_DEBUG_VIEW_ENV_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_LIGHT_MAP CC_SURFACES_DEBUG_VIEW_EMISSIVE + 1\n#define CC_SURFACES_DEBUG_VIEW_SHADOW CC_SURFACES_DEBUG_VIEW_LIGHT_MAP + 1\n#define CC_SURFACES_DEBUG_VIEW_AO CC_SURFACES_DEBUG_VIEW_SHADOW + 1\n#define CC_SURFACES_DEBUG_VIEW_FRESNEL CC_SURFACES_DEBUG_VIEW_AO + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_DIFFUSE CC_SURFACES_DEBUG_VIEW_FRESNEL + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_SPECULAR CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_DIFFUSE CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_SPECULAR CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_ALL CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_2ND_SPECULAR CC_SURFACES_DEBUG_VIEW_TRANSMIT_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_ENVIRONMENT_2ND_SPECULAR CC_SURFACES_DEBUG_VIEW_DIRECT_2ND_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_2ND_SPECULAR_ALL CC_SURFACES_DEBUG_VIEW_ENVIRONMENT_2ND_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_FOG CC_SURFACES_DEBUG_VIEW_2ND_SPECULAR_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_SINGLE 1\n#define CC_SURFACES_DEBUG_VIEW_COMPOSITE_AND_MISC 2\n#define IS_DEBUG_VIEW_ENABLE_WITH_CAMERA (cc_surfaceTransform.y != 3.0)\n#define IS_DEBUG_VIEW_LIGHTING_ENABLE_WITH_ALBEDO (UnpackBitFromFloat(cc_debug_view_mode.w, 6) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_MISC_ENABLE_CSM_LAYER_COLORATION (UnpackBitFromFloat(cc_debug_view_mode.w, 7) && IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_DIRECT_DIFFUSE (UnpackBitFromFloat(cc_debug_view_mode.y, 0) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_DIRECT_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.y, 1) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_ENV_DIFFUSE (UnpackBitFromFloat(cc_debug_view_mode.y, 2) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_ENV_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.y, 3) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_EMISSIVE (UnpackBitFromFloat(cc_debug_view_mode.y, 4) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_LIGHT_MAP (UnpackBitFromFloat(cc_debug_view_mode.y, 5) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_SHADOW (UnpackBitFromFloat(cc_debug_view_mode.y, 6) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_AO (UnpackBitFromFloat(cc_debug_view_mode.y, 7) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_NORMAL_MAP (UnpackBitFromFloat(cc_debug_view_mode.z, 0) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_FOG (UnpackBitFromFloat(cc_debug_view_mode.z, 1) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TONE_MAPPING (UnpackBitFromFloat(cc_debug_view_mode.z, 2) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_GAMMA_CORRECTION (UnpackBitFromFloat(cc_debug_view_mode.z, 3) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_FRESNEL (UnpackBitFromFloat(cc_debug_view_mode.z, 4) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TRANSMIT_DIFFUSE (UnpackBitFromFloat(cc_debug_view_mode.z, 5) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TRANSMIT_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.z, 6) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_2ND_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.z, 7) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TT (UnpackBitFromFloat(cc_debug_view_mode.w, 0) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\nvec3 LinearToSRGB(vec3 linear) {\n#ifdef CC_USE_SURFACE_SHADER\n #if CC_USE_DEBUG_VIEW == CC_SURFACES_DEBUG_VIEW_COMPOSITE_AND_MISC && CC_SURFACES_ENABLE_DEBUG_VIEW\n if (!IS_DEBUG_VIEW_COMPOSITE_ENABLE_GAMMA_CORRECTION) {\n return linear;\n }\n #endif\n#endif\n return sqrt(linear);\n}\n#if CC_USE_LIGHT_PROBE\n vec3 ACESToneMap (vec3 color) {\n color = min(color, vec3(8.0));\n const float A = 2.51;\n const float B = 0.03;\n const float C = 2.43;\n const float D = 0.59;\n const float E = 0.14;\n return (color * (A * color + B)) / (color * (C * color + D) + E);\n }\n vec4 packRGBE (vec3 rgb) {\n highp float maxComp = max(max(rgb.r, rgb.g), rgb.b);\n highp float e = 128.0;\n if (maxComp > 0.0001) {\n e = log(maxComp) / log(1.1);\n e = ceil(e);\n e = clamp(e + 128.0, 0.0, 255.0);\n }\n highp float sc = 1.0 / pow(1.1, e - 128.0);\n vec3 encode = clamp(rgb * sc, vec3(0.0), vec3(1.0)) * 255.0;\n vec3 encode_rounded = floor(encode) + step(encode - floor(encode), vec3(0.5));\n return vec4(encode_rounded, e) / 255.0;\n }\n vec4 CCFragOutput (vec4 color) {\n #if CC_USE_RGBE_OUTPUT\n color = packRGBE(color.rgb);\n #elif !CC_USE_FLOAT_OUTPUT\n #if CC_USE_HDR && CC_TONE_MAPPING_TYPE == HDR_TONE_MAPPING_ACES\n color.rgb = ACESToneMap(color.rgb);\n #endif\n color.rgb = LinearToSRGB(color.rgb);\n #endif\n return color;\n }\n#else\n vec4 CCFragOutput (vec4 color) {\n return color;\n }\n#endif\nvarying vec3 normal_w;\nvarying vec3 pos_w;\nvarying vec3 pos_l;\nvarying vec3 right;\nvarying vec3 up;\nvarying vec3 forward;\n uniform vec4 mainColor;\n uniform vec4 cc_sh_linear_const_r;\n uniform vec4 cc_sh_linear_const_g;\n uniform vec4 cc_sh_linear_const_b;\n uniform vec4 cc_sh_quadratic_r;\n uniform vec4 cc_sh_quadratic_g;\n uniform vec4 cc_sh_quadratic_b;\n uniform vec4 cc_sh_quadratic_a;\n#if CC_USE_LIGHT_PROBE\n #if CC_USE_LIGHT_PROBE\n vec3 SHEvaluate(vec3 normal)\n {\n vec3 result;\n #if USE_INSTANCING\n vec4 normal4 = vec4(normal, 1.0);\n result.r = dot(v_sh_linear_const_r, normal4);\n result.g = dot(v_sh_linear_const_g, normal4);\n result.b = dot(v_sh_linear_const_b, normal4);\n #else\n vec4 normal4 = vec4(normal, 1.0);\n result.r = dot(cc_sh_linear_const_r, normal4);\n result.g = dot(cc_sh_linear_const_g, normal4);\n result.b = dot(cc_sh_linear_const_b, normal4);\n vec4 n14 = normal.xyzz * normal.yzzx;\n float n5 = normal.x * normal.x - normal.y * normal.y;\n result.r += dot(cc_sh_quadratic_r, n14);\n result.g += dot(cc_sh_quadratic_g, n14);\n result.b += dot(cc_sh_quadratic_b, n14);\n result += (cc_sh_quadratic_a.rgb * n5);\n #endif\n #if CC_USE_HDR\n result *= cc_exposure.w * cc_exposure.x;\n #endif\n return result;\n }\n #endif\n#endif\nvec4 gizmo_fs (float alpha) {\n #if CC_USE_LIGHT_PROBE\n vec3 N = normalize(normal_w) * (float(gl_FrontFacing) * 2.0 - 1.0);\n vec3 diffuse = SHEvaluate(N);\n #if USE_FORWARD_PIPELINE\n return CCFragOutput(vec4(diffuse, mainColor.a * alpha));\n #else\n return vec4(diffuse, mainColor.a * alpha);\n #endif\n #else\n vec3 N = normalize(normal_w) * (float(gl_FrontFacing) * 2.0 - 1.0);\n vec3 V = normalize(cc_cameraPos.xyz - pos_w);\n vec3 points [4];\n points[0] = (forward * 3.0 + right + up) * 40.0;\n points[1] = (forward * 3.0 - right + up) * 40.0;\n points[2] = (forward * 3.0 - right - up) * 40.0;\n points[3] = (forward * 3.0 + right - up) * 40.0;\n vec3 diffuse = LinearToSRGB(mainColor.rgb * LTC_Evaluate(N, V, pos_l, mat3(1), points));\n #if USE_FORWARD_PIPELINE\n return CCFragOutput(vec4(diffuse, mainColor.a * alpha));\n #else\n return vec4(diffuse, mainColor.a * alpha);\n #endif\n #endif\n}\nvec4 front () {\n return gizmo_fs(1.0);\n}\nvoid main() { gl_FragColor = front(); }"
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"glsl4": {
"vert": "\nprecision mediump float;\nlayout(set = 2, binding = 0) uniform CCLocal {\n highp mat4 cc_matWorld;\n highp mat4 cc_matWorldIT;\n highp vec4 cc_lightingMapUVParam;\n highp vec4 cc_localShadowBias;\n highp vec4 cc_reflectionProbeData1;\n highp vec4 cc_reflectionProbeData2;\n};\nlayout(set = 0, binding = 0) uniform CCGlobal {\n highp vec4 cc_time;\n mediump vec4 cc_screenSize;\n mediump vec4 cc_nativeSize;\n mediump vec4 cc_probeInfo;\n mediump vec4 cc_debug_view_mode;\n};\nlayout(set = 0, binding = 1) uniform CCCamera {\n highp mat4 cc_matView;\n highp mat4 cc_matViewInv;\n highp mat4 cc_matProj;\n highp mat4 cc_matProjInv;\n highp mat4 cc_matViewProj;\n highp mat4 cc_matViewProjInv;\n highp vec4 cc_cameraPos;\n mediump vec4 cc_surfaceTransform;\n mediump vec4 cc_screenScale;\n mediump vec4 cc_exposure;\n mediump vec4 cc_mainLitDir;\n mediump vec4 cc_mainLitColor;\n mediump vec4 cc_ambientSky;\n mediump vec4 cc_ambientGround;\n mediump vec4 cc_fogColor;\n mediump vec4 cc_fogBase;\n mediump vec4 cc_fogAdd;\n mediump vec4 cc_nearFar;\n mediump vec4 cc_viewPort;\n};\nlayout(location = 0) in vec3 a_position;\nlayout(location = 1) in vec3 a_normal;\nlayout(location = 0) out vec3 normal_w;\nlayout(location = 1) out vec3 pos_w;\nlayout(location = 2) out vec3 pos_l;\nlayout(location = 3) out vec3 right;\nlayout(location = 4) out vec3 up;\nlayout(location = 5) out vec3 forward;\nvec4 vert () {\n vec4 pos = vec4(a_position, 1);\n vec4 normal = vec4(a_normal, 0);\n pos_l = a_position;\n pos_w = (cc_matWorld * pos).xyz;\n normal_w = (cc_matWorldIT * normal).xyz;\n right = vec3(cc_matView[0][0], cc_matView[1][0], cc_matView[2][0]);\n up = vec3(cc_matView[0][1], cc_matView[1][1], cc_matView[2][1]);\n forward = vec3(cc_matView[0][2], cc_matView[1][2], cc_matView[2][2]);\n return cc_matProj * (cc_matView * cc_matWorld) * pos;\n}\nvoid main() { gl_Position = vert(); }",
"frag": "\nprecision mediump float;\nmat3 transposeMat3 (mat3 v) {\n mat3 tmp;\n tmp[0] = vec3(v[0].x, v[1].x, v[2].x);\n tmp[1] = vec3(v[0].y, v[1].y, v[2].y);\n tmp[2] = vec3(v[0].z, v[1].z, v[2].z);\n return tmp;\n}\nvoid ClipQuadToHorizon (inout vec3 L[5], out int n) {\n int config = 0;\n if (L[0].z > 0.0) config += 1;\n if (L[1].z > 0.0) config += 2;\n if (L[2].z > 0.0) config += 4;\n if (L[3].z > 0.0) config += 8;\n config = 15;\n n = 0;\n if (config == 0)\n {\n }\n else if (config == 1) {\n n = 3;\n L[1] = -L[1].z * L[0] + L[0].z * L[1];\n L[2] = -L[3].z * L[0] + L[0].z * L[3];\n }\n else if (config == 2) {\n n = 3;\n L[0] = -L[0].z * L[1] + L[1].z * L[0];\n L[2] = -L[2].z * L[1] + L[1].z * L[2];\n }\n else if (config == 3) {\n n = 4;\n L[2] = -L[2].z * L[1] + L[1].z * L[2];\n L[3] = -L[3].z * L[0] + L[0].z * L[3];\n }\n else if (config == 4) {\n n = 3;\n L[0] = -L[3].z * L[2] + L[2].z * L[3];\n L[1] = -L[1].z * L[2] + L[2].z * L[1];\n }\n else if (config == 5) {\n n = 0;\n }\n else if (config == 6) {\n n = 4;\n L[0] = -L[0].z * L[1] + L[1].z * L[0];\n L[3] = -L[3].z * L[2] + L[2].z * L[3];\n }\n else if (config == 7) {\n n = 5;\n L[4] = -L[3].z * L[0] + L[0].z * L[3];\n L[3] = -L[3].z * L[2] + L[2].z * L[3];\n }\n else if (config == 8) {\n n = 3;\n L[0] = -L[0].z * L[3] + L[3].z * L[0];\n L[1] = -L[2].z * L[3] + L[3].z * L[2];\n L[2] = L[3];\n }\n else if (config == 9) {\n n = 4;\n L[1] = -L[1].z * L[0] + L[0].z * L[1];\n L[2] = -L[2].z * L[3] + L[3].z * L[2];\n }\n else if (config == 10) {\n n = 0;\n }\n else if (config == 11) {\n n = 5;\n L[4] = L[3];\n L[3] = -L[2].z * L[3] + L[3].z * L[2];\n L[2] = -L[2].z * L[1] + L[1].z * L[2];\n }\n else if (config == 12) {\n n = 4;\n L[1] = -L[1].z * L[2] + L[2].z * L[1];\n L[0] = -L[0].z * L[3] + L[3].z * L[0];\n }\n else if (config == 13) {\n n = 5;\n L[4] = L[3];\n L[3] = L[2];\n L[2] = -L[1].z * L[2] + L[2].z * L[1];\n L[1] = -L[1].z * L[0] + L[0].z * L[1];\n }\n else if (config == 14) {\n n = 5;\n L[4] = -L[0].z * L[3] + L[3].z * L[0];\n L[0] = -L[0].z * L[1] + L[1].z * L[0];\n }\n else if (config == 15) {\n n = 4;\n }\n if (n == 3) L[3] = L[0];\n if (n == 4) L[4] = L[0];\n}\nfloat IntegrateEdge (vec3 v1, vec3 v2) {\n float cosTheta = dot(v1, v2);\n float theta = acos(cosTheta);\n return cross(v1, v2).z * ((theta > 0.001) ? theta/sin(theta) : 4.0);\n}\nvec3 LTC_Evaluate (vec3 N, vec3 V, vec3 P, mat3 Minv, vec3 points[4]) {\n vec3 T1, T2;\n T1 = normalize(V - N*dot(V, N));\n T2 = cross(N, T1);\n Minv = Minv * transposeMat3(mat3(T1, T2, N));\n vec3 L[5];\n L[0] = Minv * (points[0] - P);\n L[1] = Minv * (points[1] - P);\n L[2] = Minv * (points[2] - P);\n L[3] = Minv * (points[3] - P);\n int n;\n ClipQuadToHorizon(L, n);\n if (n == 0) return vec3(0, 0, 0);\n L[0] = normalize(L[0]);\n L[1] = normalize(L[1]);\n L[2] = normalize(L[2]);\n L[3] = normalize(L[3]);\n L[4] = normalize(L[4]);\n float sum = 0.0;\n sum += IntegrateEdge(L[0], L[1]);\n sum += IntegrateEdge(L[1], L[2]);\n sum += IntegrateEdge(L[2], L[3]);\n if (n >= 4) sum += IntegrateEdge(L[3], L[4]);\n if (n == 5) sum += IntegrateEdge(L[4], L[0]);\n sum = max(0.0, sum);\n vec3 Lo_i = vec3(sum, sum, sum);\n return Lo_i;\n}\nlayout(set = 0, binding = 0) uniform CCGlobal {\n highp vec4 cc_time;\n mediump vec4 cc_screenSize;\n mediump vec4 cc_nativeSize;\n mediump vec4 cc_probeInfo;\n mediump vec4 cc_debug_view_mode;\n};\nlayout(set = 0, binding = 1) uniform CCCamera {\n highp mat4 cc_matView;\n highp mat4 cc_matViewInv;\n highp mat4 cc_matProj;\n highp mat4 cc_matProjInv;\n highp mat4 cc_matViewProj;\n highp mat4 cc_matViewProjInv;\n highp vec4 cc_cameraPos;\n mediump vec4 cc_surfaceTransform;\n mediump vec4 cc_screenScale;\n mediump vec4 cc_exposure;\n mediump vec4 cc_mainLitDir;\n mediump vec4 cc_mainLitColor;\n mediump vec4 cc_ambientSky;\n mediump vec4 cc_ambientGround;\n mediump vec4 cc_fogColor;\n mediump vec4 cc_fogBase;\n mediump vec4 cc_fogAdd;\n mediump vec4 cc_nearFar;\n mediump vec4 cc_viewPort;\n};\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_COLOR 1\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_NORMAL CC_SURFACES_DEBUG_VIEW_VERTEX_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_TANGENT CC_SURFACES_DEBUG_VIEW_VERTEX_NORMAL + 1\n#define CC_SURFACES_DEBUG_VIEW_WORLD_POS CC_SURFACES_DEBUG_VIEW_VERTEX_TANGENT + 1\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_MIRROR CC_SURFACES_DEBUG_VIEW_WORLD_POS + 1\n#define CC_SURFACES_DEBUG_VIEW_FACE_SIDE CC_SURFACES_DEBUG_VIEW_VERTEX_MIRROR + 1\n#define CC_SURFACES_DEBUG_VIEW_UV0 CC_SURFACES_DEBUG_VIEW_FACE_SIDE + 1\n#define CC_SURFACES_DEBUG_VIEW_UV1 CC_SURFACES_DEBUG_VIEW_UV0 + 1\n#define CC_SURFACES_DEBUG_VIEW_UVLIGHTMAP CC_SURFACES_DEBUG_VIEW_UV1 + 1\n#define CC_SURFACES_DEBUG_VIEW_PROJ_DEPTH CC_SURFACES_DEBUG_VIEW_UVLIGHTMAP + 1\n#define CC_SURFACES_DEBUG_VIEW_LINEAR_DEPTH CC_SURFACES_DEBUG_VIEW_PROJ_DEPTH + 1\n#define CC_SURFACES_DEBUG_VIEW_FRAGMENT_NORMAL CC_SURFACES_DEBUG_VIEW_LINEAR_DEPTH + 1\n#define CC_SURFACES_DEBUG_VIEW_FRAGMENT_TANGENT CC_SURFACES_DEBUG_VIEW_FRAGMENT_NORMAL + 1\n#define CC_SURFACES_DEBUG_VIEW_FRAGMENT_BINORMAL CC_SURFACES_DEBUG_VIEW_FRAGMENT_TANGENT + 1\n#define CC_SURFACES_DEBUG_VIEW_BASE_COLOR CC_SURFACES_DEBUG_VIEW_FRAGMENT_BINORMAL + 1\n#define CC_SURFACES_DEBUG_VIEW_DIFFUSE_COLOR CC_SURFACES_DEBUG_VIEW_BASE_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_SPECULAR_COLOR CC_SURFACES_DEBUG_VIEW_DIFFUSE_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSPARENCY CC_SURFACES_DEBUG_VIEW_SPECULAR_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_METALLIC CC_SURFACES_DEBUG_VIEW_TRANSPARENCY + 1\n#define CC_SURFACES_DEBUG_VIEW_ROUGHNESS CC_SURFACES_DEBUG_VIEW_METALLIC + 1\n#define CC_SURFACES_DEBUG_VIEW_SPECULAR_INTENSITY CC_SURFACES_DEBUG_VIEW_ROUGHNESS + 1\n#define CC_SURFACES_DEBUG_VIEW_IOR CC_SURFACES_DEBUG_VIEW_SPECULAR_INTENSITY + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_DIFFUSE CC_SURFACES_DEBUG_VIEW_IOR + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_SPECULAR CC_SURFACES_DEBUG_VIEW_DIRECT_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_ALL CC_SURFACES_DEBUG_VIEW_DIRECT_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_ENV_DIFFUSE CC_SURFACES_DEBUG_VIEW_DIRECT_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_ENV_SPECULAR CC_SURFACES_DEBUG_VIEW_ENV_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_ENV_ALL CC_SURFACES_DEBUG_VIEW_ENV_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_EMISSIVE CC_SURFACES_DEBUG_VIEW_ENV_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_LIGHT_MAP CC_SURFACES_DEBUG_VIEW_EMISSIVE + 1\n#define CC_SURFACES_DEBUG_VIEW_SHADOW CC_SURFACES_DEBUG_VIEW_LIGHT_MAP + 1\n#define CC_SURFACES_DEBUG_VIEW_AO CC_SURFACES_DEBUG_VIEW_SHADOW + 1\n#define CC_SURFACES_DEBUG_VIEW_FRESNEL CC_SURFACES_DEBUG_VIEW_AO + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_DIFFUSE CC_SURFACES_DEBUG_VIEW_FRESNEL + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_SPECULAR CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_DIFFUSE CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_SPECULAR CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_ALL CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_2ND_SPECULAR CC_SURFACES_DEBUG_VIEW_TRANSMIT_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_ENVIRONMENT_2ND_SPECULAR CC_SURFACES_DEBUG_VIEW_DIRECT_2ND_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_2ND_SPECULAR_ALL CC_SURFACES_DEBUG_VIEW_ENVIRONMENT_2ND_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_FOG CC_SURFACES_DEBUG_VIEW_2ND_SPECULAR_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_SINGLE 1\n#define CC_SURFACES_DEBUG_VIEW_COMPOSITE_AND_MISC 2\n#define IS_DEBUG_VIEW_ENABLE_WITH_CAMERA (cc_surfaceTransform.y != 3.0)\n#define IS_DEBUG_VIEW_LIGHTING_ENABLE_WITH_ALBEDO (UnpackBitFromFloat(cc_debug_view_mode.w, 6) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_MISC_ENABLE_CSM_LAYER_COLORATION (UnpackBitFromFloat(cc_debug_view_mode.w, 7) && IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_DIRECT_DIFFUSE (UnpackBitFromFloat(cc_debug_view_mode.y, 0) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_DIRECT_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.y, 1) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_ENV_DIFFUSE (UnpackBitFromFloat(cc_debug_view_mode.y, 2) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_ENV_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.y, 3) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_EMISSIVE (UnpackBitFromFloat(cc_debug_view_mode.y, 4) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_LIGHT_MAP (UnpackBitFromFloat(cc_debug_view_mode.y, 5) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_SHADOW (UnpackBitFromFloat(cc_debug_view_mode.y, 6) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_AO (UnpackBitFromFloat(cc_debug_view_mode.y, 7) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_NORMAL_MAP (UnpackBitFromFloat(cc_debug_view_mode.z, 0) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_FOG (UnpackBitFromFloat(cc_debug_view_mode.z, 1) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TONE_MAPPING (UnpackBitFromFloat(cc_debug_view_mode.z, 2) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_GAMMA_CORRECTION (UnpackBitFromFloat(cc_debug_view_mode.z, 3) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_FRESNEL (UnpackBitFromFloat(cc_debug_view_mode.z, 4) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TRANSMIT_DIFFUSE (UnpackBitFromFloat(cc_debug_view_mode.z, 5) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TRANSMIT_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.z, 6) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_2ND_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.z, 7) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TT (UnpackBitFromFloat(cc_debug_view_mode.w, 0) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\nvec3 LinearToSRGB(vec3 linear) {\n#ifdef CC_USE_SURFACE_SHADER\n #if CC_USE_DEBUG_VIEW == CC_SURFACES_DEBUG_VIEW_COMPOSITE_AND_MISC && CC_SURFACES_ENABLE_DEBUG_VIEW\n if (!IS_DEBUG_VIEW_COMPOSITE_ENABLE_GAMMA_CORRECTION) {\n return linear;\n }\n #endif\n#endif\n return sqrt(linear);\n}\n#if CC_USE_LIGHT_PROBE\n vec3 ACESToneMap (vec3 color) {\n color = min(color, vec3(8.0));\n const float A = 2.51;\n const float B = 0.03;\n const float C = 2.43;\n const float D = 0.59;\n const float E = 0.14;\n return (color * (A * color + B)) / (color * (C * color + D) + E);\n }\n vec4 packRGBE (vec3 rgb) {\n highp float maxComp = max(max(rgb.r, rgb.g), rgb.b);\n highp float e = 128.0;\n if (maxComp > 0.0001) {\n e = log(maxComp) / log(1.1);\n e = ceil(e);\n e = clamp(e + 128.0, 0.0, 255.0);\n }\n highp float sc = 1.0 / pow(1.1, e - 128.0);\n vec3 encode = clamp(rgb * sc, vec3(0.0), vec3(1.0)) * 255.0;\n vec3 encode_rounded = floor(encode) + step(encode - floor(encode), vec3(0.5));\n return vec4(encode_rounded, e) / 255.0;\n }\n vec4 CCFragOutput (vec4 color) {\n #if CC_USE_RGBE_OUTPUT\n color = packRGBE(color.rgb);\n #elif !CC_USE_FLOAT_OUTPUT\n #if CC_USE_HDR && CC_TONE_MAPPING_TYPE == HDR_TONE_MAPPING_ACES\n color.rgb = ACESToneMap(color.rgb);\n #endif\n color.rgb = LinearToSRGB(color.rgb);\n #endif\n return color;\n }\n#else\n vec4 CCFragOutput (vec4 color) {\n return color;\n }\n#endif\nlayout(location = 0) in vec3 normal_w;\nlayout(location = 1) in vec3 pos_w;\nlayout(location = 2) in vec3 pos_l;\nlayout(location = 3) in vec3 right;\nlayout(location = 4) in vec3 up;\nlayout(location = 5) in vec3 forward;\nlayout(set = 1, binding = 0) uniform Constant {\n vec4 mainColor;\n vec4 cc_sh_linear_const_r;\n vec4 cc_sh_linear_const_g;\n vec4 cc_sh_linear_const_b;\n vec4 cc_sh_quadratic_r;\n vec4 cc_sh_quadratic_g;\n vec4 cc_sh_quadratic_b;\n vec4 cc_sh_quadratic_a;\n};\n#if CC_USE_LIGHT_PROBE\n #if CC_USE_LIGHT_PROBE\n vec3 SHEvaluate(vec3 normal)\n {\n vec3 result;\n #if USE_INSTANCING\n vec4 normal4 = vec4(normal, 1.0);\n result.r = dot(v_sh_linear_const_r, normal4);\n result.g = dot(v_sh_linear_const_g, normal4);\n result.b = dot(v_sh_linear_const_b, normal4);\n #else\n vec4 normal4 = vec4(normal, 1.0);\n result.r = dot(cc_sh_linear_const_r, normal4);\n result.g = dot(cc_sh_linear_const_g, normal4);\n result.b = dot(cc_sh_linear_const_b, normal4);\n vec4 n14 = normal.xyzz * normal.yzzx;\n float n5 = normal.x * normal.x - normal.y * normal.y;\n result.r += dot(cc_sh_quadratic_r, n14);\n result.g += dot(cc_sh_quadratic_g, n14);\n result.b += dot(cc_sh_quadratic_b, n14);\n result += (cc_sh_quadratic_a.rgb * n5);\n #endif\n #if CC_USE_HDR\n result *= cc_exposure.w * cc_exposure.x;\n #endif\n return result;\n }\n #endif\n#endif\nvec4 gizmo_fs (float alpha) {\n #if CC_USE_LIGHT_PROBE\n vec3 N = normalize(normal_w) * (float(gl_FrontFacing) * 2.0 - 1.0);\n vec3 diffuse = SHEvaluate(N);\n #if USE_FORWARD_PIPELINE\n return CCFragOutput(vec4(diffuse, mainColor.a * alpha));\n #else\n return vec4(diffuse, mainColor.a * alpha);\n #endif\n #else\n vec3 N = normalize(normal_w) * (float(gl_FrontFacing) * 2.0 - 1.0);\n vec3 V = normalize(cc_cameraPos.xyz - pos_w);\n vec3 points [4];\n points[0] = (forward * 3.0 + right + up) * 40.0;\n points[1] = (forward * 3.0 - right + up) * 40.0;\n points[2] = (forward * 3.0 - right - up) * 40.0;\n points[3] = (forward * 3.0 + right - up) * 40.0;\n vec3 diffuse = LinearToSRGB(mainColor.rgb * LTC_Evaluate(N, V, pos_l, mat3(1), points));\n #if USE_FORWARD_PIPELINE\n return CCFragOutput(vec4(diffuse, mainColor.a * alpha));\n #else\n return vec4(diffuse, mainColor.a * alpha);\n #endif\n #endif\n}\nvec4 back () {\n return gizmo_fs(0.2);\n}\nlayout(location = 0) out vec4 cc_FragColor;\nvoid main() { cc_FragColor = back(); }"
},
"glsl3": {
"vert": "\nprecision mediump float;\nlayout(std140) uniform CCLocal {\n highp mat4 cc_matWorld;\n highp mat4 cc_matWorldIT;\n highp vec4 cc_lightingMapUVParam;\n highp vec4 cc_localShadowBias;\n highp vec4 cc_reflectionProbeData1;\n highp vec4 cc_reflectionProbeData2;\n};\nlayout(std140) uniform CCGlobal {\n highp vec4 cc_time;\n mediump vec4 cc_screenSize;\n mediump vec4 cc_nativeSize;\n mediump vec4 cc_probeInfo;\n mediump vec4 cc_debug_view_mode;\n};\nlayout(std140) uniform CCCamera {\n highp mat4 cc_matView;\n highp mat4 cc_matViewInv;\n highp mat4 cc_matProj;\n highp mat4 cc_matProjInv;\n highp mat4 cc_matViewProj;\n highp mat4 cc_matViewProjInv;\n highp vec4 cc_cameraPos;\n mediump vec4 cc_surfaceTransform;\n mediump vec4 cc_screenScale;\n mediump vec4 cc_exposure;\n mediump vec4 cc_mainLitDir;\n mediump vec4 cc_mainLitColor;\n mediump vec4 cc_ambientSky;\n mediump vec4 cc_ambientGround;\n mediump vec4 cc_fogColor;\n mediump vec4 cc_fogBase;\n mediump vec4 cc_fogAdd;\n mediump vec4 cc_nearFar;\n mediump vec4 cc_viewPort;\n};\nin vec3 a_position;\nin vec3 a_normal;\nout vec3 normal_w;\nout vec3 pos_w;\nout vec3 pos_l;\nout vec3 right;\nout vec3 up;\nout vec3 forward;\nvec4 vert () {\n vec4 pos = vec4(a_position, 1);\n vec4 normal = vec4(a_normal, 0);\n pos_l = a_position;\n pos_w = (cc_matWorld * pos).xyz;\n normal_w = (cc_matWorldIT * normal).xyz;\n right = vec3(cc_matView[0][0], cc_matView[1][0], cc_matView[2][0]);\n up = vec3(cc_matView[0][1], cc_matView[1][1], cc_matView[2][1]);\n forward = vec3(cc_matView[0][2], cc_matView[1][2], cc_matView[2][2]);\n return cc_matProj * (cc_matView * cc_matWorld) * pos;\n}\nvoid main() { gl_Position = vert(); }",
"frag": "\nprecision mediump float;\nmat3 transposeMat3 (mat3 v) {\n mat3 tmp;\n tmp[0] = vec3(v[0].x, v[1].x, v[2].x);\n tmp[1] = vec3(v[0].y, v[1].y, v[2].y);\n tmp[2] = vec3(v[0].z, v[1].z, v[2].z);\n return tmp;\n}\nvoid ClipQuadToHorizon (inout vec3 L[5], out int n) {\n int config = 0;\n if (L[0].z > 0.0) config += 1;\n if (L[1].z > 0.0) config += 2;\n if (L[2].z > 0.0) config += 4;\n if (L[3].z > 0.0) config += 8;\n config = 15;\n n = 0;\n if (config == 0)\n {\n }\n else if (config == 1) {\n n = 3;\n L[1] = -L[1].z * L[0] + L[0].z * L[1];\n L[2] = -L[3].z * L[0] + L[0].z * L[3];\n }\n else if (config == 2) {\n n = 3;\n L[0] = -L[0].z * L[1] + L[1].z * L[0];\n L[2] = -L[2].z * L[1] + L[1].z * L[2];\n }\n else if (config == 3) {\n n = 4;\n L[2] = -L[2].z * L[1] + L[1].z * L[2];\n L[3] = -L[3].z * L[0] + L[0].z * L[3];\n }\n else if (config == 4) {\n n = 3;\n L[0] = -L[3].z * L[2] + L[2].z * L[3];\n L[1] = -L[1].z * L[2] + L[2].z * L[1];\n }\n else if (config == 5) {\n n = 0;\n }\n else if (config == 6) {\n n = 4;\n L[0] = -L[0].z * L[1] + L[1].z * L[0];\n L[3] = -L[3].z * L[2] + L[2].z * L[3];\n }\n else if (config == 7) {\n n = 5;\n L[4] = -L[3].z * L[0] + L[0].z * L[3];\n L[3] = -L[3].z * L[2] + L[2].z * L[3];\n }\n else if (config == 8) {\n n = 3;\n L[0] = -L[0].z * L[3] + L[3].z * L[0];\n L[1] = -L[2].z * L[3] + L[3].z * L[2];\n L[2] = L[3];\n }\n else if (config == 9) {\n n = 4;\n L[1] = -L[1].z * L[0] + L[0].z * L[1];\n L[2] = -L[2].z * L[3] + L[3].z * L[2];\n }\n else if (config == 10) {\n n = 0;\n }\n else if (config == 11) {\n n = 5;\n L[4] = L[3];\n L[3] = -L[2].z * L[3] + L[3].z * L[2];\n L[2] = -L[2].z * L[1] + L[1].z * L[2];\n }\n else if (config == 12) {\n n = 4;\n L[1] = -L[1].z * L[2] + L[2].z * L[1];\n L[0] = -L[0].z * L[3] + L[3].z * L[0];\n }\n else if (config == 13) {\n n = 5;\n L[4] = L[3];\n L[3] = L[2];\n L[2] = -L[1].z * L[2] + L[2].z * L[1];\n L[1] = -L[1].z * L[0] + L[0].z * L[1];\n }\n else if (config == 14) {\n n = 5;\n L[4] = -L[0].z * L[3] + L[3].z * L[0];\n L[0] = -L[0].z * L[1] + L[1].z * L[0];\n }\n else if (config == 15) {\n n = 4;\n }\n if (n == 3) L[3] = L[0];\n if (n == 4) L[4] = L[0];\n}\nfloat IntegrateEdge (vec3 v1, vec3 v2) {\n float cosTheta = dot(v1, v2);\n float theta = acos(cosTheta);\n return cross(v1, v2).z * ((theta > 0.001) ? theta/sin(theta) : 4.0);\n}\nvec3 LTC_Evaluate (vec3 N, vec3 V, vec3 P, mat3 Minv, vec3 points[4]) {\n vec3 T1, T2;\n T1 = normalize(V - N*dot(V, N));\n T2 = cross(N, T1);\n Minv = Minv * transposeMat3(mat3(T1, T2, N));\n vec3 L[5];\n L[0] = Minv * (points[0] - P);\n L[1] = Minv * (points[1] - P);\n L[2] = Minv * (points[2] - P);\n L[3] = Minv * (points[3] - P);\n int n;\n ClipQuadToHorizon(L, n);\n if (n == 0) return vec3(0, 0, 0);\n L[0] = normalize(L[0]);\n L[1] = normalize(L[1]);\n L[2] = normalize(L[2]);\n L[3] = normalize(L[3]);\n L[4] = normalize(L[4]);\n float sum = 0.0;\n sum += IntegrateEdge(L[0], L[1]);\n sum += IntegrateEdge(L[1], L[2]);\n sum += IntegrateEdge(L[2], L[3]);\n if (n >= 4) sum += IntegrateEdge(L[3], L[4]);\n if (n == 5) sum += IntegrateEdge(L[4], L[0]);\n sum = max(0.0, sum);\n vec3 Lo_i = vec3(sum, sum, sum);\n return Lo_i;\n}\nlayout(std140) uniform CCGlobal {\n highp vec4 cc_time;\n mediump vec4 cc_screenSize;\n mediump vec4 cc_nativeSize;\n mediump vec4 cc_probeInfo;\n mediump vec4 cc_debug_view_mode;\n};\nlayout(std140) uniform CCCamera {\n highp mat4 cc_matView;\n highp mat4 cc_matViewInv;\n highp mat4 cc_matProj;\n highp mat4 cc_matProjInv;\n highp mat4 cc_matViewProj;\n highp mat4 cc_matViewProjInv;\n highp vec4 cc_cameraPos;\n mediump vec4 cc_surfaceTransform;\n mediump vec4 cc_screenScale;\n mediump vec4 cc_exposure;\n mediump vec4 cc_mainLitDir;\n mediump vec4 cc_mainLitColor;\n mediump vec4 cc_ambientSky;\n mediump vec4 cc_ambientGround;\n mediump vec4 cc_fogColor;\n mediump vec4 cc_fogBase;\n mediump vec4 cc_fogAdd;\n mediump vec4 cc_nearFar;\n mediump vec4 cc_viewPort;\n};\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_COLOR 1\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_NORMAL CC_SURFACES_DEBUG_VIEW_VERTEX_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_TANGENT CC_SURFACES_DEBUG_VIEW_VERTEX_NORMAL + 1\n#define CC_SURFACES_DEBUG_VIEW_WORLD_POS CC_SURFACES_DEBUG_VIEW_VERTEX_TANGENT + 1\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_MIRROR CC_SURFACES_DEBUG_VIEW_WORLD_POS + 1\n#define CC_SURFACES_DEBUG_VIEW_FACE_SIDE CC_SURFACES_DEBUG_VIEW_VERTEX_MIRROR + 1\n#define CC_SURFACES_DEBUG_VIEW_UV0 CC_SURFACES_DEBUG_VIEW_FACE_SIDE + 1\n#define CC_SURFACES_DEBUG_VIEW_UV1 CC_SURFACES_DEBUG_VIEW_UV0 + 1\n#define CC_SURFACES_DEBUG_VIEW_UVLIGHTMAP CC_SURFACES_DEBUG_VIEW_UV1 + 1\n#define CC_SURFACES_DEBUG_VIEW_PROJ_DEPTH CC_SURFACES_DEBUG_VIEW_UVLIGHTMAP + 1\n#define CC_SURFACES_DEBUG_VIEW_LINEAR_DEPTH CC_SURFACES_DEBUG_VIEW_PROJ_DEPTH + 1\n#define CC_SURFACES_DEBUG_VIEW_FRAGMENT_NORMAL CC_SURFACES_DEBUG_VIEW_LINEAR_DEPTH + 1\n#define CC_SURFACES_DEBUG_VIEW_FRAGMENT_TANGENT CC_SURFACES_DEBUG_VIEW_FRAGMENT_NORMAL + 1\n#define CC_SURFACES_DEBUG_VIEW_FRAGMENT_BINORMAL CC_SURFACES_DEBUG_VIEW_FRAGMENT_TANGENT + 1\n#define CC_SURFACES_DEBUG_VIEW_BASE_COLOR CC_SURFACES_DEBUG_VIEW_FRAGMENT_BINORMAL + 1\n#define CC_SURFACES_DEBUG_VIEW_DIFFUSE_COLOR CC_SURFACES_DEBUG_VIEW_BASE_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_SPECULAR_COLOR CC_SURFACES_DEBUG_VIEW_DIFFUSE_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSPARENCY CC_SURFACES_DEBUG_VIEW_SPECULAR_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_METALLIC CC_SURFACES_DEBUG_VIEW_TRANSPARENCY + 1\n#define CC_SURFACES_DEBUG_VIEW_ROUGHNESS CC_SURFACES_DEBUG_VIEW_METALLIC + 1\n#define CC_SURFACES_DEBUG_VIEW_SPECULAR_INTENSITY CC_SURFACES_DEBUG_VIEW_ROUGHNESS + 1\n#define CC_SURFACES_DEBUG_VIEW_IOR CC_SURFACES_DEBUG_VIEW_SPECULAR_INTENSITY + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_DIFFUSE CC_SURFACES_DEBUG_VIEW_IOR + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_SPECULAR CC_SURFACES_DEBUG_VIEW_DIRECT_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_ALL CC_SURFACES_DEBUG_VIEW_DIRECT_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_ENV_DIFFUSE CC_SURFACES_DEBUG_VIEW_DIRECT_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_ENV_SPECULAR CC_SURFACES_DEBUG_VIEW_ENV_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_ENV_ALL CC_SURFACES_DEBUG_VIEW_ENV_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_EMISSIVE CC_SURFACES_DEBUG_VIEW_ENV_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_LIGHT_MAP CC_SURFACES_DEBUG_VIEW_EMISSIVE + 1\n#define CC_SURFACES_DEBUG_VIEW_SHADOW CC_SURFACES_DEBUG_VIEW_LIGHT_MAP + 1\n#define CC_SURFACES_DEBUG_VIEW_AO CC_SURFACES_DEBUG_VIEW_SHADOW + 1\n#define CC_SURFACES_DEBUG_VIEW_FRESNEL CC_SURFACES_DEBUG_VIEW_AO + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_DIFFUSE CC_SURFACES_DEBUG_VIEW_FRESNEL + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_SPECULAR CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_DIFFUSE CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_SPECULAR CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_ALL CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_2ND_SPECULAR CC_SURFACES_DEBUG_VIEW_TRANSMIT_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_ENVIRONMENT_2ND_SPECULAR CC_SURFACES_DEBUG_VIEW_DIRECT_2ND_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_2ND_SPECULAR_ALL CC_SURFACES_DEBUG_VIEW_ENVIRONMENT_2ND_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_FOG CC_SURFACES_DEBUG_VIEW_2ND_SPECULAR_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_SINGLE 1\n#define CC_SURFACES_DEBUG_VIEW_COMPOSITE_AND_MISC 2\n#define IS_DEBUG_VIEW_ENABLE_WITH_CAMERA (cc_surfaceTransform.y != 3.0)\n#define IS_DEBUG_VIEW_LIGHTING_ENABLE_WITH_ALBEDO (UnpackBitFromFloat(cc_debug_view_mode.w, 6) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_MISC_ENABLE_CSM_LAYER_COLORATION (UnpackBitFromFloat(cc_debug_view_mode.w, 7) && IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_DIRECT_DIFFUSE (UnpackBitFromFloat(cc_debug_view_mode.y, 0) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_DIRECT_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.y, 1) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_ENV_DIFFUSE (UnpackBitFromFloat(cc_debug_view_mode.y, 2) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_ENV_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.y, 3) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_EMISSIVE (UnpackBitFromFloat(cc_debug_view_mode.y, 4) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_LIGHT_MAP (UnpackBitFromFloat(cc_debug_view_mode.y, 5) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_SHADOW (UnpackBitFromFloat(cc_debug_view_mode.y, 6) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_AO (UnpackBitFromFloat(cc_debug_view_mode.y, 7) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_NORMAL_MAP (UnpackBitFromFloat(cc_debug_view_mode.z, 0) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_FOG (UnpackBitFromFloat(cc_debug_view_mode.z, 1) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TONE_MAPPING (UnpackBitFromFloat(cc_debug_view_mode.z, 2) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_GAMMA_CORRECTION (UnpackBitFromFloat(cc_debug_view_mode.z, 3) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_FRESNEL (UnpackBitFromFloat(cc_debug_view_mode.z, 4) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TRANSMIT_DIFFUSE (UnpackBitFromFloat(cc_debug_view_mode.z, 5) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TRANSMIT_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.z, 6) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_2ND_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.z, 7) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TT (UnpackBitFromFloat(cc_debug_view_mode.w, 0) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\nvec3 LinearToSRGB(vec3 linear) {\n#ifdef CC_USE_SURFACE_SHADER\n #if CC_USE_DEBUG_VIEW == CC_SURFACES_DEBUG_VIEW_COMPOSITE_AND_MISC && CC_SURFACES_ENABLE_DEBUG_VIEW\n if (!IS_DEBUG_VIEW_COMPOSITE_ENABLE_GAMMA_CORRECTION) {\n return linear;\n }\n #endif\n#endif\n return sqrt(linear);\n}\n#if CC_USE_LIGHT_PROBE\n vec3 ACESToneMap (vec3 color) {\n color = min(color, vec3(8.0));\n const float A = 2.51;\n const float B = 0.03;\n const float C = 2.43;\n const float D = 0.59;\n const float E = 0.14;\n return (color * (A * color + B)) / (color * (C * color + D) + E);\n }\n vec4 packRGBE (vec3 rgb) {\n highp float maxComp = max(max(rgb.r, rgb.g), rgb.b);\n highp float e = 128.0;\n if (maxComp > 0.0001) {\n e = log(maxComp) / log(1.1);\n e = ceil(e);\n e = clamp(e + 128.0, 0.0, 255.0);\n }\n highp float sc = 1.0 / pow(1.1, e - 128.0);\n vec3 encode = clamp(rgb * sc, vec3(0.0), vec3(1.0)) * 255.0;\n vec3 encode_rounded = floor(encode) + step(encode - floor(encode), vec3(0.5));\n return vec4(encode_rounded, e) / 255.0;\n }\n vec4 CCFragOutput (vec4 color) {\n #if CC_USE_RGBE_OUTPUT\n color = packRGBE(color.rgb);\n #elif !CC_USE_FLOAT_OUTPUT\n #if CC_USE_HDR && CC_TONE_MAPPING_TYPE == HDR_TONE_MAPPING_ACES\n color.rgb = ACESToneMap(color.rgb);\n #endif\n color.rgb = LinearToSRGB(color.rgb);\n #endif\n return color;\n }\n#else\n vec4 CCFragOutput (vec4 color) {\n return color;\n }\n#endif\nin vec3 normal_w;\nin vec3 pos_w;\nin vec3 pos_l;\nin vec3 right;\nin vec3 up;\nin vec3 forward;\nlayout(std140) uniform Constant {\n vec4 mainColor;\n vec4 cc_sh_linear_const_r;\n vec4 cc_sh_linear_const_g;\n vec4 cc_sh_linear_const_b;\n vec4 cc_sh_quadratic_r;\n vec4 cc_sh_quadratic_g;\n vec4 cc_sh_quadratic_b;\n vec4 cc_sh_quadratic_a;\n};\n#if CC_USE_LIGHT_PROBE\n #if CC_USE_LIGHT_PROBE\n vec3 SHEvaluate(vec3 normal)\n {\n vec3 result;\n #if USE_INSTANCING\n vec4 normal4 = vec4(normal, 1.0);\n result.r = dot(v_sh_linear_const_r, normal4);\n result.g = dot(v_sh_linear_const_g, normal4);\n result.b = dot(v_sh_linear_const_b, normal4);\n #else\n vec4 normal4 = vec4(normal, 1.0);\n result.r = dot(cc_sh_linear_const_r, normal4);\n result.g = dot(cc_sh_linear_const_g, normal4);\n result.b = dot(cc_sh_linear_const_b, normal4);\n vec4 n14 = normal.xyzz * normal.yzzx;\n float n5 = normal.x * normal.x - normal.y * normal.y;\n result.r += dot(cc_sh_quadratic_r, n14);\n result.g += dot(cc_sh_quadratic_g, n14);\n result.b += dot(cc_sh_quadratic_b, n14);\n result += (cc_sh_quadratic_a.rgb * n5);\n #endif\n #if CC_USE_HDR\n result *= cc_exposure.w * cc_exposure.x;\n #endif\n return result;\n }\n #endif\n#endif\nvec4 gizmo_fs (float alpha) {\n #if CC_USE_LIGHT_PROBE\n vec3 N = normalize(normal_w) * (float(gl_FrontFacing) * 2.0 - 1.0);\n vec3 diffuse = SHEvaluate(N);\n #if USE_FORWARD_PIPELINE\n return CCFragOutput(vec4(diffuse, mainColor.a * alpha));\n #else\n return vec4(diffuse, mainColor.a * alpha);\n #endif\n #else\n vec3 N = normalize(normal_w) * (float(gl_FrontFacing) * 2.0 - 1.0);\n vec3 V = normalize(cc_cameraPos.xyz - pos_w);\n vec3 points [4];\n points[0] = (forward * 3.0 + right + up) * 40.0;\n points[1] = (forward * 3.0 - right + up) * 40.0;\n points[2] = (forward * 3.0 - right - up) * 40.0;\n points[3] = (forward * 3.0 + right - up) * 40.0;\n vec3 diffuse = LinearToSRGB(mainColor.rgb * LTC_Evaluate(N, V, pos_l, mat3(1), points));\n #if USE_FORWARD_PIPELINE\n return CCFragOutput(vec4(diffuse, mainColor.a * alpha));\n #else\n return vec4(diffuse, mainColor.a * alpha);\n #endif\n #endif\n}\nvec4 back () {\n return gizmo_fs(0.2);\n}\nlayout(location = 0) out vec4 cc_FragColor;\nvoid main() { cc_FragColor = back(); }"
},
"glsl1": {
"vert": "\nprecision mediump float;\nuniform highp mat4 cc_matWorld;\n uniform highp mat4 cc_matWorldIT;\nuniform highp mat4 cc_matView;\n uniform highp mat4 cc_matProj;\nattribute vec3 a_position;\nattribute vec3 a_normal;\nvarying vec3 normal_w;\nvarying vec3 pos_w;\nvarying vec3 pos_l;\nvarying vec3 right;\nvarying vec3 up;\nvarying vec3 forward;\nvec4 vert () {\n vec4 pos = vec4(a_position, 1);\n vec4 normal = vec4(a_normal, 0);\n pos_l = a_position;\n pos_w = (cc_matWorld * pos).xyz;\n normal_w = (cc_matWorldIT * normal).xyz;\n right = vec3(cc_matView[0][0], cc_matView[1][0], cc_matView[2][0]);\n up = vec3(cc_matView[0][1], cc_matView[1][1], cc_matView[2][1]);\n forward = vec3(cc_matView[0][2], cc_matView[1][2], cc_matView[2][2]);\n return cc_matProj * (cc_matView * cc_matWorld) * pos;\n}\nvoid main() { gl_Position = vert(); }",
"frag": "\nprecision mediump float;\nmat3 transposeMat3 (mat3 v) {\n mat3 tmp;\n tmp[0] = vec3(v[0].x, v[1].x, v[2].x);\n tmp[1] = vec3(v[0].y, v[1].y, v[2].y);\n tmp[2] = vec3(v[0].z, v[1].z, v[2].z);\n return tmp;\n}\nvoid ClipQuadToHorizon (inout vec3 L[5], out int n) {\n int config = 0;\n if (L[0].z > 0.0) config += 1;\n if (L[1].z > 0.0) config += 2;\n if (L[2].z > 0.0) config += 4;\n if (L[3].z > 0.0) config += 8;\n config = 15;\n n = 0;\n if (config == 0)\n {\n }\n else if (config == 1) {\n n = 3;\n L[1] = -L[1].z * L[0] + L[0].z * L[1];\n L[2] = -L[3].z * L[0] + L[0].z * L[3];\n }\n else if (config == 2) {\n n = 3;\n L[0] = -L[0].z * L[1] + L[1].z * L[0];\n L[2] = -L[2].z * L[1] + L[1].z * L[2];\n }\n else if (config == 3) {\n n = 4;\n L[2] = -L[2].z * L[1] + L[1].z * L[2];\n L[3] = -L[3].z * L[0] + L[0].z * L[3];\n }\n else if (config == 4) {\n n = 3;\n L[0] = -L[3].z * L[2] + L[2].z * L[3];\n L[1] = -L[1].z * L[2] + L[2].z * L[1];\n }\n else if (config == 5) {\n n = 0;\n }\n else if (config == 6) {\n n = 4;\n L[0] = -L[0].z * L[1] + L[1].z * L[0];\n L[3] = -L[3].z * L[2] + L[2].z * L[3];\n }\n else if (config == 7) {\n n = 5;\n L[4] = -L[3].z * L[0] + L[0].z * L[3];\n L[3] = -L[3].z * L[2] + L[2].z * L[3];\n }\n else if (config == 8) {\n n = 3;\n L[0] = -L[0].z * L[3] + L[3].z * L[0];\n L[1] = -L[2].z * L[3] + L[3].z * L[2];\n L[2] = L[3];\n }\n else if (config == 9) {\n n = 4;\n L[1] = -L[1].z * L[0] + L[0].z * L[1];\n L[2] = -L[2].z * L[3] + L[3].z * L[2];\n }\n else if (config == 10) {\n n = 0;\n }\n else if (config == 11) {\n n = 5;\n L[4] = L[3];\n L[3] = -L[2].z * L[3] + L[3].z * L[2];\n L[2] = -L[2].z * L[1] + L[1].z * L[2];\n }\n else if (config == 12) {\n n = 4;\n L[1] = -L[1].z * L[2] + L[2].z * L[1];\n L[0] = -L[0].z * L[3] + L[3].z * L[0];\n }\n else if (config == 13) {\n n = 5;\n L[4] = L[3];\n L[3] = L[2];\n L[2] = -L[1].z * L[2] + L[2].z * L[1];\n L[1] = -L[1].z * L[0] + L[0].z * L[1];\n }\n else if (config == 14) {\n n = 5;\n L[4] = -L[0].z * L[3] + L[3].z * L[0];\n L[0] = -L[0].z * L[1] + L[1].z * L[0];\n }\n else if (config == 15) {\n n = 4;\n }\n if (n == 3) L[3] = L[0];\n if (n == 4) L[4] = L[0];\n}\nfloat IntegrateEdge (vec3 v1, vec3 v2) {\n float cosTheta = dot(v1, v2);\n float theta = acos(cosTheta);\n return cross(v1, v2).z * ((theta > 0.001) ? theta/sin(theta) : 4.0);\n}\nvec3 LTC_Evaluate (vec3 N, vec3 V, vec3 P, mat3 Minv, vec3 points[4]) {\n vec3 T1, T2;\n T1 = normalize(V - N*dot(V, N));\n T2 = cross(N, T1);\n Minv = Minv * transposeMat3(mat3(T1, T2, N));\n vec3 L[5];\n L[0] = Minv * (points[0] - P);\n L[1] = Minv * (points[1] - P);\n L[2] = Minv * (points[2] - P);\n L[3] = Minv * (points[3] - P);\n int n;\n ClipQuadToHorizon(L, n);\n if (n == 0) return vec3(0, 0, 0);\n L[0] = normalize(L[0]);\n L[1] = normalize(L[1]);\n L[2] = normalize(L[2]);\n L[3] = normalize(L[3]);\n L[4] = normalize(L[4]);\n float sum = 0.0;\n sum += IntegrateEdge(L[0], L[1]);\n sum += IntegrateEdge(L[1], L[2]);\n sum += IntegrateEdge(L[2], L[3]);\n if (n >= 4) sum += IntegrateEdge(L[3], L[4]);\n if (n == 5) sum += IntegrateEdge(L[4], L[0]);\n sum = max(0.0, sum);\n vec3 Lo_i = vec3(sum, sum, sum);\n return Lo_i;\n}\nuniform mediump vec4 cc_debug_view_mode;\nuniform highp vec4 cc_cameraPos;\n uniform mediump vec4 cc_surfaceTransform;\n uniform mediump vec4 cc_exposure;\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_COLOR 1\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_NORMAL CC_SURFACES_DEBUG_VIEW_VERTEX_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_TANGENT CC_SURFACES_DEBUG_VIEW_VERTEX_NORMAL + 1\n#define CC_SURFACES_DEBUG_VIEW_WORLD_POS CC_SURFACES_DEBUG_VIEW_VERTEX_TANGENT + 1\n#define CC_SURFACES_DEBUG_VIEW_VERTEX_MIRROR CC_SURFACES_DEBUG_VIEW_WORLD_POS + 1\n#define CC_SURFACES_DEBUG_VIEW_FACE_SIDE CC_SURFACES_DEBUG_VIEW_VERTEX_MIRROR + 1\n#define CC_SURFACES_DEBUG_VIEW_UV0 CC_SURFACES_DEBUG_VIEW_FACE_SIDE + 1\n#define CC_SURFACES_DEBUG_VIEW_UV1 CC_SURFACES_DEBUG_VIEW_UV0 + 1\n#define CC_SURFACES_DEBUG_VIEW_UVLIGHTMAP CC_SURFACES_DEBUG_VIEW_UV1 + 1\n#define CC_SURFACES_DEBUG_VIEW_PROJ_DEPTH CC_SURFACES_DEBUG_VIEW_UVLIGHTMAP + 1\n#define CC_SURFACES_DEBUG_VIEW_LINEAR_DEPTH CC_SURFACES_DEBUG_VIEW_PROJ_DEPTH + 1\n#define CC_SURFACES_DEBUG_VIEW_FRAGMENT_NORMAL CC_SURFACES_DEBUG_VIEW_LINEAR_DEPTH + 1\n#define CC_SURFACES_DEBUG_VIEW_FRAGMENT_TANGENT CC_SURFACES_DEBUG_VIEW_FRAGMENT_NORMAL + 1\n#define CC_SURFACES_DEBUG_VIEW_FRAGMENT_BINORMAL CC_SURFACES_DEBUG_VIEW_FRAGMENT_TANGENT + 1\n#define CC_SURFACES_DEBUG_VIEW_BASE_COLOR CC_SURFACES_DEBUG_VIEW_FRAGMENT_BINORMAL + 1\n#define CC_SURFACES_DEBUG_VIEW_DIFFUSE_COLOR CC_SURFACES_DEBUG_VIEW_BASE_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_SPECULAR_COLOR CC_SURFACES_DEBUG_VIEW_DIFFUSE_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSPARENCY CC_SURFACES_DEBUG_VIEW_SPECULAR_COLOR + 1\n#define CC_SURFACES_DEBUG_VIEW_METALLIC CC_SURFACES_DEBUG_VIEW_TRANSPARENCY + 1\n#define CC_SURFACES_DEBUG_VIEW_ROUGHNESS CC_SURFACES_DEBUG_VIEW_METALLIC + 1\n#define CC_SURFACES_DEBUG_VIEW_SPECULAR_INTENSITY CC_SURFACES_DEBUG_VIEW_ROUGHNESS + 1\n#define CC_SURFACES_DEBUG_VIEW_IOR CC_SURFACES_DEBUG_VIEW_SPECULAR_INTENSITY + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_DIFFUSE CC_SURFACES_DEBUG_VIEW_IOR + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_SPECULAR CC_SURFACES_DEBUG_VIEW_DIRECT_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_ALL CC_SURFACES_DEBUG_VIEW_DIRECT_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_ENV_DIFFUSE CC_SURFACES_DEBUG_VIEW_DIRECT_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_ENV_SPECULAR CC_SURFACES_DEBUG_VIEW_ENV_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_ENV_ALL CC_SURFACES_DEBUG_VIEW_ENV_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_EMISSIVE CC_SURFACES_DEBUG_VIEW_ENV_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_LIGHT_MAP CC_SURFACES_DEBUG_VIEW_EMISSIVE + 1\n#define CC_SURFACES_DEBUG_VIEW_SHADOW CC_SURFACES_DEBUG_VIEW_LIGHT_MAP + 1\n#define CC_SURFACES_DEBUG_VIEW_AO CC_SURFACES_DEBUG_VIEW_SHADOW + 1\n#define CC_SURFACES_DEBUG_VIEW_FRESNEL CC_SURFACES_DEBUG_VIEW_AO + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_DIFFUSE CC_SURFACES_DEBUG_VIEW_FRESNEL + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_SPECULAR CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_DIFFUSE CC_SURFACES_DEBUG_VIEW_TRANSMIT_DIRECT_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_SPECULAR CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_DIFFUSE + 1\n#define CC_SURFACES_DEBUG_VIEW_TRANSMIT_ALL CC_SURFACES_DEBUG_VIEW_TRANSMIT_ENV_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_DIRECT_2ND_SPECULAR CC_SURFACES_DEBUG_VIEW_TRANSMIT_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_ENVIRONMENT_2ND_SPECULAR CC_SURFACES_DEBUG_VIEW_DIRECT_2ND_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_2ND_SPECULAR_ALL CC_SURFACES_DEBUG_VIEW_ENVIRONMENT_2ND_SPECULAR + 1\n#define CC_SURFACES_DEBUG_VIEW_FOG CC_SURFACES_DEBUG_VIEW_2ND_SPECULAR_ALL + 1\n#define CC_SURFACES_DEBUG_VIEW_SINGLE 1\n#define CC_SURFACES_DEBUG_VIEW_COMPOSITE_AND_MISC 2\n#define IS_DEBUG_VIEW_ENABLE_WITH_CAMERA (cc_surfaceTransform.y != 3.0)\n#define IS_DEBUG_VIEW_LIGHTING_ENABLE_WITH_ALBEDO (UnpackBitFromFloat(cc_debug_view_mode.w, 6) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_MISC_ENABLE_CSM_LAYER_COLORATION (UnpackBitFromFloat(cc_debug_view_mode.w, 7) && IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_DIRECT_DIFFUSE (UnpackBitFromFloat(cc_debug_view_mode.y, 0) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_DIRECT_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.y, 1) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_ENV_DIFFUSE (UnpackBitFromFloat(cc_debug_view_mode.y, 2) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_ENV_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.y, 3) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_EMISSIVE (UnpackBitFromFloat(cc_debug_view_mode.y, 4) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_LIGHT_MAP (UnpackBitFromFloat(cc_debug_view_mode.y, 5) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_SHADOW (UnpackBitFromFloat(cc_debug_view_mode.y, 6) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_AO (UnpackBitFromFloat(cc_debug_view_mode.y, 7) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_NORMAL_MAP (UnpackBitFromFloat(cc_debug_view_mode.z, 0) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_FOG (UnpackBitFromFloat(cc_debug_view_mode.z, 1) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TONE_MAPPING (UnpackBitFromFloat(cc_debug_view_mode.z, 2) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_GAMMA_CORRECTION (UnpackBitFromFloat(cc_debug_view_mode.z, 3) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_FRESNEL (UnpackBitFromFloat(cc_debug_view_mode.z, 4) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TRANSMIT_DIFFUSE (UnpackBitFromFloat(cc_debug_view_mode.z, 5) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TRANSMIT_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.z, 6) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_2ND_SPECULAR (UnpackBitFromFloat(cc_debug_view_mode.z, 7) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\n#define IS_DEBUG_VIEW_COMPOSITE_ENABLE_TT (UnpackBitFromFloat(cc_debug_view_mode.w, 0) || !IS_DEBUG_VIEW_ENABLE_WITH_CAMERA)\nvec3 LinearToSRGB(vec3 linear) {\n#ifdef CC_USE_SURFACE_SHADER\n #if CC_USE_DEBUG_VIEW == CC_SURFACES_DEBUG_VIEW_COMPOSITE_AND_MISC && CC_SURFACES_ENABLE_DEBUG_VIEW\n if (!IS_DEBUG_VIEW_COMPOSITE_ENABLE_GAMMA_CORRECTION) {\n return linear;\n }\n #endif\n#endif\n return sqrt(linear);\n}\n#if CC_USE_LIGHT_PROBE\n vec3 ACESToneMap (vec3 color) {\n color = min(color, vec3(8.0));\n const float A = 2.51;\n const float B = 0.03;\n const float C = 2.43;\n const float D = 0.59;\n const float E = 0.14;\n return (color * (A * color + B)) / (color * (C * color + D) + E);\n }\n vec4 packRGBE (vec3 rgb) {\n highp float maxComp = max(max(rgb.r, rgb.g), rgb.b);\n highp float e = 128.0;\n if (maxComp > 0.0001) {\n e = log(maxComp) / log(1.1);\n e = ceil(e);\n e = clamp(e + 128.0, 0.0, 255.0);\n }\n highp float sc = 1.0 / pow(1.1, e - 128.0);\n vec3 encode = clamp(rgb * sc, vec3(0.0), vec3(1.0)) * 255.0;\n vec3 encode_rounded = floor(encode) + step(encode - floor(encode), vec3(0.5));\n return vec4(encode_rounded, e) / 255.0;\n }\n vec4 CCFragOutput (vec4 color) {\n #if CC_USE_RGBE_OUTPUT\n color = packRGBE(color.rgb);\n #elif !CC_USE_FLOAT_OUTPUT\n #if CC_USE_HDR && CC_TONE_MAPPING_TYPE == HDR_TONE_MAPPING_ACES\n color.rgb = ACESToneMap(color.rgb);\n #endif\n color.rgb = LinearToSRGB(color.rgb);\n #endif\n return color;\n }\n#else\n vec4 CCFragOutput (vec4 color) {\n return color;\n }\n#endif\nvarying vec3 normal_w;\nvarying vec3 pos_w;\nvarying vec3 pos_l;\nvarying vec3 right;\nvarying vec3 up;\nvarying vec3 forward;\n uniform vec4 mainColor;\n uniform vec4 cc_sh_linear_const_r;\n uniform vec4 cc_sh_linear_const_g;\n uniform vec4 cc_sh_linear_const_b;\n uniform vec4 cc_sh_quadratic_r;\n uniform vec4 cc_sh_quadratic_g;\n uniform vec4 cc_sh_quadratic_b;\n uniform vec4 cc_sh_quadratic_a;\n#if CC_USE_LIGHT_PROBE\n #if CC_USE_LIGHT_PROBE\n vec3 SHEvaluate(vec3 normal)\n {\n vec3 result;\n #if USE_INSTANCING\n vec4 normal4 = vec4(normal, 1.0);\n result.r = dot(v_sh_linear_const_r, normal4);\n result.g = dot(v_sh_linear_const_g, normal4);\n result.b = dot(v_sh_linear_const_b, normal4);\n #else\n vec4 normal4 = vec4(normal, 1.0);\n result.r = dot(cc_sh_linear_const_r, normal4);\n result.g = dot(cc_sh_linear_const_g, normal4);\n result.b = dot(cc_sh_linear_const_b, normal4);\n vec4 n14 = normal.xyzz * normal.yzzx;\n float n5 = normal.x * normal.x - normal.y * normal.y;\n result.r += dot(cc_sh_quadratic_r, n14);\n result.g += dot(cc_sh_quadratic_g, n14);\n result.b += dot(cc_sh_quadratic_b, n14);\n result += (cc_sh_quadratic_a.rgb * n5);\n #endif\n #if CC_USE_HDR\n result *= cc_exposure.w * cc_exposure.x;\n #endif\n return result;\n }\n #endif\n#endif\nvec4 gizmo_fs (float alpha) {\n #if CC_USE_LIGHT_PROBE\n vec3 N = normalize(normal_w) * (float(gl_FrontFacing) * 2.0 - 1.0);\n vec3 diffuse = SHEvaluate(N);\n #if USE_FORWARD_PIPELINE\n return CCFragOutput(vec4(diffuse, mainColor.a * alpha));\n #else\n return vec4(diffuse, mainColor.a * alpha);\n #endif\n #else\n vec3 N = normalize(normal_w) * (float(gl_FrontFacing) * 2.0 - 1.0);\n vec3 V = normalize(cc_cameraPos.xyz - pos_w);\n vec3 points [4];\n points[0] = (forward * 3.0 + right + up) * 40.0;\n points[1] = (forward * 3.0 - right + up) * 40.0;\n points[2] = (forward * 3.0 - right - up) * 40.0;\n points[3] = (forward * 3.0 + right - up) * 40.0;\n vec3 diffuse = LinearToSRGB(mainColor.rgb * LTC_Evaluate(N, V, pos_l, mat3(1), points));\n #if USE_FORWARD_PIPELINE\n return CCFragOutput(vec4(diffuse, mainColor.a * alpha));\n #else\n return vec4(diffuse, mainColor.a * alpha);\n #endif\n #endif\n}\nvec4 back () {\n return gizmo_fs(0.2);\n}\nvoid main() { gl_FragColor = back(); }"
},
"builtins": {
"globals": {
"blocks": [
{
"name": "CCGlobal",
"defines": []
},
{
"name": "CCCamera",
"defines": []
}
],
"samplerTextures": [],
"buffers": [],
"images": []
},
"locals": {
"blocks": [
{
"name": "CCLocal",
"defines": []
}
],
"samplerTextures": [],
"buffers": [],
"images": []
},
"statistics": {
"CC_EFFECT_USED_VERTEX_UNIFORM_VECTORS": 54,
"CC_EFFECT_USED_FRAGMENT_UNIFORM_VECTORS": 50
}
},
"defines": [
{
"name": "CC_USE_DEBUG_VIEW",
"type": "number",
"defines": [],
"range": [
0,
3
]
},
{
"name": "CC_SURFACES_ENABLE_DEBUG_VIEW",
"type": "boolean",
"defines": [
"CC_USE_DEBUG_VIEW",
"CC_SURFACES_DEBUG_VIEW_COMPOSITE_AND_MISC"
]
},
{
"name": "CC_USE_LIGHT_PROBE",
"type": "boolean",
"defines": [],
"default": 0
},
{
"name": "CC_USE_RGBE_OUTPUT",
"type": "boolean",
"defines": [
"CC_USE_LIGHT_PROBE"
]
},
{
"name": "CC_USE_FLOAT_OUTPUT",
"type": "boolean",
"defines": [
"CC_USE_LIGHT_PROBE",
"!CC_USE_RGBE_OUTPUT"
]
},
{
"name": "CC_USE_HDR",
"type": "boolean",
"defines": [
"CC_USE_LIGHT_PROBE",
"CC_USE_LIGHT_PROBE"
]
},
{
"name": "CC_TONE_MAPPING_TYPE",
"type": "number",
"defines": [
"CC_USE_HDR",
"CC_USE_LIGHT_PROBE",
"!CC_USE_RGBE_OUTPUT",
"!CC_USE_FLOAT_OUTPUT"
],
"range": [
0,
3
]
},
{
"name": "HDR_TONE_MAPPING_ACES",
"type": "boolean",
"defines": [
"CC_USE_HDR",
"CC_TONE_MAPPING_TYPE",
"CC_USE_LIGHT_PROBE",
"!CC_USE_RGBE_OUTPUT",
"!CC_USE_FLOAT_OUTPUT"
]
},
{
"name": "USE_INSTANCING",
"type": "boolean",
"defines": [
"CC_USE_LIGHT_PROBE",
"CC_USE_LIGHT_PROBE"
]
},
{
"name": "USE_FORWARD_PIPELINE",
"type": "boolean",
"defines": [
"CC_USE_LIGHT_PROBE"
]
}
],
"name": "internal/editor/light-probe-visualization|gizmo-vs:vert|gizmo-fs:back"
}
],
"combinations": [],
"hideInEditor": true
}
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