{
  "name": "Grid Expand",
  "curve": "Linear None",
  "type": "fixed-outro",
  "duration": 2.0,
  "passes": [
    {
      "name": "grid expand",
      "inputs": [
        "default"
      ],
      "glsl": "precision highp float;

varying vec2 textureCoordinate;
varying vec2 sourceTextureCoordinate;

// default uniforms for all filters
uniform float time;
uniform float strength;
uniform vec2 outputSize; // size of the output fbo
uniform vec2 inputSize; // size of the original default input texture
uniform vec2 tex0Size; // size of tex0 for this pass

// default uniforms for transitions and video effects
uniform float progress; // normalized 0-1

// default uniforms for video effects
uniform float duration; // in seconds
uniform float clipDuration; // in seconds

// effect uniforms
void main() {

vec2 uv = sourceTextureCoordinate;

float s1 = step(1.0/4.0, progress);
float s2 = step(2.0/4.0, progress);
float s3 = step(3.0/4.0, progress);

vec2 subD = vec2(1.0 + s2 + s3, 1.0 + s1 + s3);

vec2 localUV = fract(uv * subD);

float vertGrid = s1 - s2;
localUV.y = mix(localUV.y, localUV.y * 0.5 + 0.25, vertGrid);


  vec4 color = sampleInput(localUV);
  gl_FragColor = toOutputFormat(color);
}
",
"metal": "
using namespace metal;
struct fragmentIn { float2 sourceTextureCoordinate [[user(locn1)]]; };
struct fragmentOut { float4 _gl_FragColor [[color(0)]]; };
typedef struct {
  float4x4 content_transform;
  float4x4 texture_transform;
  float strength;
  float progress;
  float time_sec;
  float duration_sec;
  float clip_duration_sec;
  float2 input_size;
  float2 output_size;
  float2 tex0Size;
 } Uniforms;
fragment fragmentOut fragmentShader(fragmentIn in [[stage_in]],
 constant Uniforms & uniforms [[buffer(1)]],
 DefaultInputs defaultInputs) {

float2 uv = in.sourceTextureCoordinate;

float s1 = step(1.0/4.0, uniforms.progress);
float s2 = step(2.0/4.0, uniforms.progress);
float s3 = step(3.0/4.0, uniforms.progress);

float2 subD = float2(1.0 + s2 + s3, 1.0 + s1 + s3);

float2 localUV = fract(uv * subD);

float vertGrid = s1 - s2;
localUV.y = mix(localUV.y, localUV.y * 0.5 + 0.25, vertGrid);


  float4 color = sampleInput(defaultInputs, localUV);
  return {toOutputFormat(color)};
}
  ",
    "uniforms": {}
    }
  ]
}
