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#version 440
layout(location = 0) in vec4 vCoord;
layout(location = 1) in vec2 tCoord;
layout(location = 0) out vec2 sampleCoord;
layout(location = 1) out vec3 sampleFarLeft;
layout(location = 2) out vec3 sampleNearLeft;
layout(location = 3) out vec3 sampleNearRight;
layout(location = 4) out vec3 sampleFarRight;
layout(std140, binding = 0) uniform buf {
#if QSHADER_VIEW_COUNT >= 2
mat4 matrix[QSHADER_VIEW_COUNT];
#else
mat4 matrix;
#endif
vec2 textureScale;
vec4 color;
float alphaMin;
float alphaMax;
// up to this point it must match distancefieldtext
float fontScale;
vec4 vecDelta;
};
void main()
{
sampleCoord = tCoord * textureScale;
#if QSHADER_VIEW_COUNT >= 2
gl_Position = matrix[gl_ViewIndex] * vCoord;
#else
gl_Position = matrix * vCoord;
#endif
// Calculate neighbor pixel position in item space.
vec3 wDelta = gl_Position.w * vecDelta.xyw;
vec3 farLeft = vCoord.xyw - 0.667 * wDelta;
vec3 nearLeft = vCoord.xyw - 0.333 * wDelta;
vec3 nearRight = vCoord.xyw + 0.333 * wDelta;
vec3 farRight = vCoord.xyw + 0.667 * wDelta;
// Calculate neighbor texture coordinate.
vec2 scale = textureScale / fontScale;
vec2 base = sampleCoord - scale * vCoord.xy;
sampleFarLeft = vec3(base * farLeft.z + scale * farLeft.xy, farLeft.z);
sampleNearLeft = vec3(base * nearLeft.z + scale * nearLeft.xy, nearLeft.z);
sampleNearRight = vec3(base * nearRight.z + scale * nearRight.xy, nearRight.z);
sampleFarRight = vec3(base * farRight.z + scale * farRight.xy, farRight.z);
}
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