完善内发光effect

2019-12-23 23:34:57 +08:00 · 2019-12-23 23:34:57 +08:00 · 4d84ee0748
commit 4d84ee0748
parent e3905b9c0a
2 changed files with 45 additions and 36 deletions
--- a/assets/effects/glow-inner.effect
+++ b/assets/effects/glow-inner.effect
@ -14,8 +14,8 @@ CCEffect %{
      properties:
        texture: { value: white }
        alphaThreshold: { value: 0.5 }
-        glowColor: { value: [1.0, 1.0, 0.0, 1.0], editor: { type: color } }
-        glowColorSize: { value: 0.01 }
+        glowColor: { value: [1.0, 1.0, 0.0, 1.0], editor: { type: color , displayName: "发光颜色" } } 
+        glowColorSize: { value: 0.01, editor: {displayName: "发光宽度（百分比）" } }
 }%


@ -80,64 +80,73 @@ CCProgram fs %{
   * 获取指定角度方向，距离为xxx的像素的透明度
   *
   * @param angle 角度 [0.0, 360.0]
-   * @param distance 距离 [0.0, 1.0]
+   * @param dist 距离 [0.0, 1.0]
   *
   * @return alpha [0.0, 1.0]
   */
-  float getColorAlpha(float angle, float distance) {
+  float getColorAlpha(float angle, float dist) {
    // 角度转弧度，公式为：弧度 = 角度 * (pi / 180)
    float radian = angle * 0.01745329252; // 这个浮点数是 pi / 180
-    vec4 color = texture(texture, v_uv0 + vec2(distance * cos(radian), distance * sin(radian))); 
+    vec4 color = texture(texture, v_uv0 + vec2(dist * cos(radian), dist * sin(radian))); 
    return color.a;
  }

  /**
   * 获取指定距离的周边像素的透明度平均值
   *
-   * @param distance 距离 [0.0, 1.0]
+   * @param dist 距离 [0.0, 1.0]
   *
   * @return average alpha [0.0, 1.0]
   */
-  float getDistanceAverageAlpha(float distance) {
+  float getAverageAlpha(float dist) {
    float totalAlpha = 0.0;
-    totalAlpha += getColorAlpha(0.0, distance);
-    totalAlpha += getColorAlpha(30.0, distance);
-    totalAlpha += getColorAlpha(60.0, distance);
-    totalAlpha += getColorAlpha(90.0, distance);
-    totalAlpha += getColorAlpha(120.0, distance);
-    totalAlpha += getColorAlpha(150.0, distance);
-    totalAlpha += getColorAlpha(180.0, distance);
-    totalAlpha += getColorAlpha(210.0, distance);
-    totalAlpha += getColorAlpha(240.0, distance);
-    totalAlpha += getColorAlpha(270.0, distance);
-    totalAlpha += getColorAlpha(300.0, distance);
-    totalAlpha += getColorAlpha(330.0, distance);
-    return totalAlpha * (1.0 / 12.0);
+    // 以30度为一个单位，那么「周边」就由0到360度中共计12个点的组成
+    totalAlpha += getColorAlpha(0.0, dist);
+    totalAlpha += getColorAlpha(30.0, dist);
+    totalAlpha += getColorAlpha(60.0, dist);
+    totalAlpha += getColorAlpha(90.0, dist);
+    totalAlpha += getColorAlpha(120.0, dist);
+    totalAlpha += getColorAlpha(150.0, dist);
+    totalAlpha += getColorAlpha(180.0, dist);
+    totalAlpha += getColorAlpha(210.0, dist);
+    totalAlpha += getColorAlpha(240.0, dist);
+    totalAlpha += getColorAlpha(270.0, dist);
+    totalAlpha += getColorAlpha(300.0, dist);
+    totalAlpha += getColorAlpha(330.0, dist);
+    // 1 / 12 = 0.08333
+    return totalAlpha * 0.0833; 
  }

  /**
   * 获取发光的透明度
   */
  float getGlowAlpha() {
-    // 原来已经透明的点不处理
+    // 如果发光宽度为0
+    if (glowColorSize == 0.0) {
+      return 0.0;
+    }
+
+    // 原来已经接近透明的点不处理
+    // 一般图像边缘会有一些半透明点，这些透明点我们不处理，让它保持原样，否则就是会有内描边效果
    vec4 srcColor = texture(texture, v_uv0);
-    if (srcColor.a < 0.0000000001) {
+    if (srcColor.a < 0.1) {
      return srcColor.a;
    } 

-    // 处理原来不透明的点，求周边平均透明度
+    // 将传入的指定距离，平均分成10圈，求出每一圈的平均透明度，
+    // 然后求和取平均值，那么就可以得到该点的平均透明度
    float totalAlpha = 0.0;
-    totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.1);
-    totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.2);
-    totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.3);
-    totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.4);
-    totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.5);
-    totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.6);
-    totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.7);
-    totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.8);
-    totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.9);
-    totalAlpha += getDistanceAverageAlpha(glowColorSize * 1.0);
-    return totalAlpha * (1.0 / 10.0);
+    totalAlpha += getAverageAlpha(glowColorSize * 0.1);
+    totalAlpha += getAverageAlpha(glowColorSize * 0.2);
+    totalAlpha += getAverageAlpha(glowColorSize * 0.3);
+    totalAlpha += getAverageAlpha(glowColorSize * 0.4);
+    totalAlpha += getAverageAlpha(glowColorSize * 0.5);
+    totalAlpha += getAverageAlpha(glowColorSize * 0.6);
+    totalAlpha += getAverageAlpha(glowColorSize * 0.7);
+    totalAlpha += getAverageAlpha(glowColorSize * 0.8);
+    totalAlpha += getAverageAlpha(glowColorSize * 0.9);
+    totalAlpha += getAverageAlpha(glowColorSize * 1.0);
+    return totalAlpha * 0.1;
  }

  #endif
--- a/assets/effects/glow-inner.effect.meta
+++ b/assets/effects/glow-inner.effect.meta
@ -5,11 +5,11 @@
    {
      "glsl1": {
        "vert": "\nprecision highp float;\nuniform mat4 cc_matViewProj;\nuniform mat4 cc_matWorld;\n\nattribute vec3 a_position;\nattribute vec4 a_color;\nvarying vec4 v_color;\n\n#if USE_TEXTURE\nattribute vec2 a_uv0;\nvarying vec2 v_uv0;\n#endif\n\nvoid main () {\n  vec4 pos = vec4(a_position, 1);\n\n  #if CC_USE_MODEL\n  pos = cc_matViewProj * cc_matWorld * pos;\n  #else\n  pos = cc_matViewProj * pos;\n  #endif\n\n  #if USE_TEXTURE\n  v_uv0 = a_uv0;\n  #endif\n\n  v_color = a_color;\n\n  gl_Position = pos;\n}\n",
-        "frag": "\nprecision highp float;\n\n#if USE_ALPHA_TEST\n  \n  uniform float alphaThreshold;\n#endif\n\nvoid ALPHA_TEST (in vec4 color) {\n  #if USE_ALPHA_TEST\n      if (color.a < alphaThreshold) discard;\n  #endif\n}\n\nvoid ALPHA_TEST (in float alpha) {\n  #if USE_ALPHA_TEST\n      if (alpha < alphaThreshold) discard;\n  #endif\n}\n\nvarying vec4 v_color;\n\n#if USE_TEXTURE\nvarying vec2 v_uv0;\nuniform sampler2D texture;\n#endif\n\n#if SHOW_INNER_GLOW\n\nuniform vec4 glowColor;\nuniform float glowColorSize;\n\n/**\n * 获取指定角度方向，距离为xxx的像素的透明度\n *\n * @param angle 角度 [0.0, 360.0]\n * @param distance 距离 [0.0, 1.0]\n *\n * @return alpha [0.0, 1.0]\n */\nfloat getColorAlpha(float angle, float distance) {\n\n  float radian = angle * 0.01745329252;\n\n  vec4 color = texture2D(texture, v_uv0 + vec2(distance * cos(radian), distance * sin(radian))); \n  return color.a;\n}\n\n/**\n * 获取指定距离的周边像素的透明度平均值\n *\n * @param distance 距离 [0.0, 1.0]\n *\n * @return average alpha [0.0, 1.0]\n */\nfloat getDistanceAverageAlpha(float distance) {\n  float totalAlpha = 0.0;\n  totalAlpha += getColorAlpha(0.0, distance);\n  totalAlpha += getColorAlpha(30.0, distance);\n  totalAlpha += getColorAlpha(60.0, distance);\n  totalAlpha += getColorAlpha(90.0, distance);\n  totalAlpha += getColorAlpha(120.0, distance);\n  totalAlpha += getColorAlpha(150.0, distance);\n  totalAlpha += getColorAlpha(180.0, distance);\n  totalAlpha += getColorAlpha(210.0, distance);\n  totalAlpha += getColorAlpha(240.0, distance);\n  totalAlpha += getColorAlpha(270.0, distance);\n  totalAlpha += getColorAlpha(300.0, distance);\n  totalAlpha += getColorAlpha(330.0, distance);\n  return totalAlpha * (1.0 / 12.0);\n}\n\n/**\n * 获取发光的透明度\n */\nfloat getGlowAlpha() {\n\n  vec4 srcColor = texture2D(texture, v_uv0);\n  if (srcColor.a < 0.0000000001) {\n    return srcColor.a;\n  }\n\n  float totalAlpha = 0.0;\n  totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.1);\n  totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.2);\n  totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.3);\n  totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.4);\n  totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.5);\n  totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.6);\n  totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.7);\n  totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.8);\n  totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.9);\n  totalAlpha += getDistanceAverageAlpha(glowColorSize * 1.0);\n  return totalAlpha * (1.0 / 10.0);\n}\n\n#endif\n\nvoid main () {\n  vec4 o = vec4(1, 1, 1, 1);\n\n  #if USE_TEXTURE\n  o *= texture2D(texture, v_uv0);\n    #if CC_USE_ALPHA_ATLAS_TEXTURE\n    o.a *= texture2D(texture, v_uv0 + vec2(0, 0.5)).r;\n    #endif\n  #endif\n\n  o *= v_color;\n\n  ALPHA_TEST(o);\n\n  gl_FragColor = o;\n\n  #if SHOW_INNER_GLOW\n\n    vec4 color_dest = o;\n\n    float alpha = getGlowAlpha();\n\n    if (alpha > 0.1) {\n      alpha = 1.0 - alpha;\n\n      alpha = -1.0 * (alpha - 1.0) * (alpha - 1.0) * (alpha - 1.0) * (alpha - 1.0) + 1.0;\n    }\n    vec4 color_src = glowColor * alpha;\n\n    gl_FragColor = color_src * color_src.a + color_dest;\n  #endif\n}\n"
+        "frag": "\nprecision highp float;\n\n#if USE_ALPHA_TEST\n  \n  uniform float alphaThreshold;\n#endif\n\nvoid ALPHA_TEST (in vec4 color) {\n  #if USE_ALPHA_TEST\n      if (color.a < alphaThreshold) discard;\n  #endif\n}\n\nvoid ALPHA_TEST (in float alpha) {\n  #if USE_ALPHA_TEST\n      if (alpha < alphaThreshold) discard;\n  #endif\n}\n\nvarying vec4 v_color;\n\n#if USE_TEXTURE\nvarying vec2 v_uv0;\nuniform sampler2D texture;\n#endif\n\n#if SHOW_INNER_GLOW\n\nuniform vec4 glowColor;\nuniform float glowColorSize;\n\n/**\n * 获取指定角度方向，距离为xxx的像素的透明度\n *\n * @param angle 角度 [0.0, 360.0]\n * @param dist 距离 [0.0, 1.0]\n *\n * @return alpha [0.0, 1.0]\n */\nfloat getColorAlpha(float angle, float dist) {\n\n  float radian = angle * 0.01745329252;\n\n  vec4 color = texture2D(texture, v_uv0 + vec2(dist * cos(radian), dist * sin(radian))); \n  return color.a;\n}\n\n/**\n * 获取指定距离的周边像素的透明度平均值\n *\n * @param dist 距离 [0.0, 1.0]\n *\n * @return average alpha [0.0, 1.0]\n */\nfloat getAverageAlpha(float dist) {\n  float totalAlpha = 0.0;\n\n  totalAlpha += getColorAlpha(0.0, dist);\n  totalAlpha += getColorAlpha(30.0, dist);\n  totalAlpha += getColorAlpha(60.0, dist);\n  totalAlpha += getColorAlpha(90.0, dist);\n  totalAlpha += getColorAlpha(120.0, dist);\n  totalAlpha += getColorAlpha(150.0, dist);\n  totalAlpha += getColorAlpha(180.0, dist);\n  totalAlpha += getColorAlpha(210.0, dist);\n  totalAlpha += getColorAlpha(240.0, dist);\n  totalAlpha += getColorAlpha(270.0, dist);\n  totalAlpha += getColorAlpha(300.0, dist);\n  totalAlpha += getColorAlpha(330.0, dist);\n\n  return totalAlpha * 0.0833; \n}\n\n/**\n * 获取发光的透明度\n */\nfloat getGlowAlpha() {\n\n  if (glowColorSize == 0.0) {\n    return 0.0;\n  }\n\n  vec4 srcColor = texture2D(texture, v_uv0);\n  if (srcColor.a < 0.1) {\n    return srcColor.a;\n  }\n\n  float totalAlpha = 0.0;\n  totalAlpha += getAverageAlpha(glowColorSize * 0.1);\n  totalAlpha += getAverageAlpha(glowColorSize * 0.2);\n  totalAlpha += getAverageAlpha(glowColorSize * 0.3);\n  totalAlpha += getAverageAlpha(glowColorSize * 0.4);\n  totalAlpha += getAverageAlpha(glowColorSize * 0.5);\n  totalAlpha += getAverageAlpha(glowColorSize * 0.6);\n  totalAlpha += getAverageAlpha(glowColorSize * 0.7);\n  totalAlpha += getAverageAlpha(glowColorSize * 0.8);\n  totalAlpha += getAverageAlpha(glowColorSize * 0.9);\n  totalAlpha += getAverageAlpha(glowColorSize * 1.0);\n  return totalAlpha * 0.1;\n}\n\n#endif\n\nvoid main () {\n  vec4 o = vec4(1, 1, 1, 1);\n\n  #if USE_TEXTURE\n  o *= texture2D(texture, v_uv0);\n    #if CC_USE_ALPHA_ATLAS_TEXTURE\n    o.a *= texture2D(texture, v_uv0 + vec2(0, 0.5)).r;\n    #endif\n  #endif\n\n  o *= v_color;\n\n  ALPHA_TEST(o);\n\n  gl_FragColor = o;\n\n  #if SHOW_INNER_GLOW\n\n    vec4 color_dest = o;\n\n    float alpha = getGlowAlpha();\n\n    if (alpha > 0.1) {\n      alpha = 1.0 - alpha;\n\n      alpha = -1.0 * (alpha - 1.0) * (alpha - 1.0) * (alpha - 1.0) * (alpha - 1.0) + 1.0;\n    }\n    vec4 color_src = glowColor * alpha;\n\n    gl_FragColor = color_src * color_src.a + color_dest;\n  #endif\n}\n"
      },
      "glsl3": {
        "vert": "\nprecision highp float;\nuniform CCGlobal {\n  vec4 cc_time;\n\n  vec4 cc_screenSize;\n\n  vec4 cc_screenScale;\n\n  vec4 cc_nativeSize;\n\n  mat4 cc_matView;\n  mat4 cc_matViewInv;\n  mat4 cc_matProj;\n  mat4 cc_matProjInv;\n  mat4 cc_matViewProj;\n  mat4 cc_matViewProjInv;\n  vec4 cc_cameraPos;\n\n  vec4 cc_exposure;\n\n  vec4 cc_mainLitDir;\n\n  vec4 cc_mainLitColor;\n\n  vec4 cc_ambientSky;\n  vec4 cc_ambientGround;\n};\nuniform CCLocal {\n  mat4 cc_matWorld;\n  mat4 cc_matWorldIT;\n};\n\nin vec3 a_position;\nin vec4 a_color;\nout vec4 v_color;\n\n#if USE_TEXTURE\nin vec2 a_uv0;\nout vec2 v_uv0;\n#endif\n\nvoid main () {\n  vec4 pos = vec4(a_position, 1);\n\n  #if CC_USE_MODEL\n  pos = cc_matViewProj * cc_matWorld * pos;\n  #else\n  pos = cc_matViewProj * pos;\n  #endif\n\n  #if USE_TEXTURE\n  v_uv0 = a_uv0;\n  #endif\n\n  v_color = a_color;\n\n  gl_Position = pos;\n}\n",
-        "frag": "\nprecision highp float;\n\n#if USE_ALPHA_TEST\n  \n  uniform ALPHA_TEST {\n    float alphaThreshold;\n  }\n#endif\n\nvoid ALPHA_TEST (in vec4 color) {\n  #if USE_ALPHA_TEST\n      if (color.a < alphaThreshold) discard;\n  #endif\n}\n\nvoid ALPHA_TEST (in float alpha) {\n  #if USE_ALPHA_TEST\n      if (alpha < alphaThreshold) discard;\n  #endif\n}\n\nin vec4 v_color;\n\n#if USE_TEXTURE\nin vec2 v_uv0;\nuniform sampler2D texture;\n#endif\n\n#if SHOW_INNER_GLOW\n\nuniform glow {\n\n  vec4 glowColor;\n\n  float glowColorSize;\n\n};\n\n/**\n * 获取指定角度方向，距离为xxx的像素的透明度\n *\n * @param angle 角度 [0.0, 360.0]\n * @param distance 距离 [0.0, 1.0]\n *\n * @return alpha [0.0, 1.0]\n */\nfloat getColorAlpha(float angle, float distance) {\n\n  float radian = angle * 0.01745329252;\n\n  vec4 color = texture(texture, v_uv0 + vec2(distance * cos(radian), distance * sin(radian))); \n  return color.a;\n}\n\n/**\n * 获取指定距离的周边像素的透明度平均值\n *\n * @param distance 距离 [0.0, 1.0]\n *\n * @return average alpha [0.0, 1.0]\n */\nfloat getDistanceAverageAlpha(float distance) {\n  float totalAlpha = 0.0;\n  totalAlpha += getColorAlpha(0.0, distance);\n  totalAlpha += getColorAlpha(30.0, distance);\n  totalAlpha += getColorAlpha(60.0, distance);\n  totalAlpha += getColorAlpha(90.0, distance);\n  totalAlpha += getColorAlpha(120.0, distance);\n  totalAlpha += getColorAlpha(150.0, distance);\n  totalAlpha += getColorAlpha(180.0, distance);\n  totalAlpha += getColorAlpha(210.0, distance);\n  totalAlpha += getColorAlpha(240.0, distance);\n  totalAlpha += getColorAlpha(270.0, distance);\n  totalAlpha += getColorAlpha(300.0, distance);\n  totalAlpha += getColorAlpha(330.0, distance);\n  return totalAlpha * (1.0 / 12.0);\n}\n\n/**\n * 获取发光的透明度\n */\nfloat getGlowAlpha() {\n\n  vec4 srcColor = texture(texture, v_uv0);\n  if (srcColor.a < 0.0000000001) {\n    return srcColor.a;\n  }\n\n  float totalAlpha = 0.0;\n  totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.1);\n  totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.2);\n  totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.3);\n  totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.4);\n  totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.5);\n  totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.6);\n  totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.7);\n  totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.8);\n  totalAlpha += getDistanceAverageAlpha(glowColorSize * 0.9);\n  totalAlpha += getDistanceAverageAlpha(glowColorSize * 1.0);\n  return totalAlpha * (1.0 / 10.0);\n}\n\n#endif\n\nvoid main () {\n  vec4 o = vec4(1, 1, 1, 1);\n\n  #if USE_TEXTURE\n  o *= texture(texture, v_uv0);\n    #if CC_USE_ALPHA_ATLAS_TEXTURE\n    o.a *= texture2D(texture, v_uv0 + vec2(0, 0.5)).r;\n    #endif\n  #endif\n\n  o *= v_color;\n\n  ALPHA_TEST(o);\n\n  gl_FragColor = o;\n\n  #if SHOW_INNER_GLOW\n\n    vec4 color_dest = o;\n\n    float alpha = getGlowAlpha();\n\n    if (alpha > 0.1) {\n      alpha = 1.0 - alpha;\n\n      alpha = -1.0 * (alpha - 1.0) * (alpha - 1.0) * (alpha - 1.0) * (alpha - 1.0) + 1.0;\n    }\n    vec4 color_src = glowColor * alpha;\n\n    gl_FragColor = color_src * color_src.a + color_dest;\n  #endif\n}\n"
+        "frag": "\nprecision highp float;\n\n#if USE_ALPHA_TEST\n  \n  uniform ALPHA_TEST {\n    float alphaThreshold;\n  }\n#endif\n\nvoid ALPHA_TEST (in vec4 color) {\n  #if USE_ALPHA_TEST\n      if (color.a < alphaThreshold) discard;\n  #endif\n}\n\nvoid ALPHA_TEST (in float alpha) {\n  #if USE_ALPHA_TEST\n      if (alpha < alphaThreshold) discard;\n  #endif\n}\n\nin vec4 v_color;\n\n#if USE_TEXTURE\nin vec2 v_uv0;\nuniform sampler2D texture;\n#endif\n\n#if SHOW_INNER_GLOW\n\nuniform glow {\n\n  vec4 glowColor;\n\n  float glowColorSize;\n\n};\n\n/**\n * 获取指定角度方向，距离为xxx的像素的透明度\n *\n * @param angle 角度 [0.0, 360.0]\n * @param dist 距离 [0.0, 1.0]\n *\n * @return alpha [0.0, 1.0]\n */\nfloat getColorAlpha(float angle, float dist) {\n\n  float radian = angle * 0.01745329252;\n\n  vec4 color = texture(texture, v_uv0 + vec2(dist * cos(radian), dist * sin(radian))); \n  return color.a;\n}\n\n/**\n * 获取指定距离的周边像素的透明度平均值\n *\n * @param dist 距离 [0.0, 1.0]\n *\n * @return average alpha [0.0, 1.0]\n */\nfloat getAverageAlpha(float dist) {\n  float totalAlpha = 0.0;\n\n  totalAlpha += getColorAlpha(0.0, dist);\n  totalAlpha += getColorAlpha(30.0, dist);\n  totalAlpha += getColorAlpha(60.0, dist);\n  totalAlpha += getColorAlpha(90.0, dist);\n  totalAlpha += getColorAlpha(120.0, dist);\n  totalAlpha += getColorAlpha(150.0, dist);\n  totalAlpha += getColorAlpha(180.0, dist);\n  totalAlpha += getColorAlpha(210.0, dist);\n  totalAlpha += getColorAlpha(240.0, dist);\n  totalAlpha += getColorAlpha(270.0, dist);\n  totalAlpha += getColorAlpha(300.0, dist);\n  totalAlpha += getColorAlpha(330.0, dist);\n\n  return totalAlpha * 0.0833; \n}\n\n/**\n * 获取发光的透明度\n */\nfloat getGlowAlpha() {\n\n  if (glowColorSize == 0.0) {\n    return 0.0;\n  }\n\n  vec4 srcColor = texture(texture, v_uv0);\n  if (srcColor.a < 0.1) {\n    return srcColor.a;\n  }\n\n  float totalAlpha = 0.0;\n  totalAlpha += getAverageAlpha(glowColorSize * 0.1);\n  totalAlpha += getAverageAlpha(glowColorSize * 0.2);\n  totalAlpha += getAverageAlpha(glowColorSize * 0.3);\n  totalAlpha += getAverageAlpha(glowColorSize * 0.4);\n  totalAlpha += getAverageAlpha(glowColorSize * 0.5);\n  totalAlpha += getAverageAlpha(glowColorSize * 0.6);\n  totalAlpha += getAverageAlpha(glowColorSize * 0.7);\n  totalAlpha += getAverageAlpha(glowColorSize * 0.8);\n  totalAlpha += getAverageAlpha(glowColorSize * 0.9);\n  totalAlpha += getAverageAlpha(glowColorSize * 1.0);\n  return totalAlpha * 0.1;\n}\n\n#endif\n\nvoid main () {\n  vec4 o = vec4(1, 1, 1, 1);\n\n  #if USE_TEXTURE\n  o *= texture(texture, v_uv0);\n    #if CC_USE_ALPHA_ATLAS_TEXTURE\n    o.a *= texture2D(texture, v_uv0 + vec2(0, 0.5)).r;\n    #endif\n  #endif\n\n  o *= v_color;\n\n  ALPHA_TEST(o);\n\n  gl_FragColor = o;\n\n  #if SHOW_INNER_GLOW\n\n    vec4 color_dest = o;\n\n    float alpha = getGlowAlpha();\n\n    if (alpha > 0.1) {\n      alpha = 1.0 - alpha;\n\n      alpha = -1.0 * (alpha - 1.0) * (alpha - 1.0) * (alpha - 1.0) * (alpha - 1.0) + 1.0;\n    }\n    vec4 color_src = glowColor * alpha;\n\n    gl_FragColor = color_src * color_src.a + color_dest;\n  #endif\n}\n"
      }
    }
  ],