lygia
/v1.1.6
/filter
/laplacian
)laplacian filter
Dependencies:
Use:
laplacian(<SAMPLER_TYPE> texture, <vec2> st, <vec2> pixels_scale [, <float> pixel_padding])
#ifndef LAPLACIAN_TYPE
#define LAPLACIAN_TYPE vec4
#endif
#ifndef LAPLACIAN_SAMPLER_FNC
#define LAPLACIAN_SAMPLER_FNC(TEX, UV) SAMPLER_FNC(TEX, UV)
#endif
#ifndef LAPLACIAN_FNC
#define LAPLACIAN_FNC laplacian_w4
#endif
// #define LAPLACE_W4 0
// #define LAPLACE_W8 0
// #define LAPLACE_W12 0
// LAPLACE FILTER (highpass)
//
// 0 1 0 1 1 1 1 2 1
// 1 -4 1 1 -8 1 2 -12 2
// 0 1 0 1 1 1 1 2 1
//
#ifndef FNC_LAPLACIAN
#define FNC_LAPLACIAN
LAPLACIAN_TYPE laplacian_w4(SAMPLER_TYPE tex, vec2 st, vec2 pixel) {
LAPLACIAN_TYPE acc = LAPLACIAN_TYPE(0.0);
acc += LAPLACIAN_SAMPLER_FNC(tex, st) * 4.0;
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + vec2(-1.0, 0.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + vec2( 0.0, -1.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + vec2( 0.0, 1.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + vec2( 1.0, 0.0) * pixel);
return acc;
}
LAPLACIAN_TYPE laplacian_w8(SAMPLER_TYPE tex, vec2 st, vec2 pixel) {
LAPLACIAN_TYPE acc = LAPLACIAN_TYPE(0.0);
acc += LAPLACIAN_SAMPLER_FNC(tex, st) * 8.0;
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + vec2(-1.0, 0.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + vec2( 0.0, -1.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + vec2( 0.0, 1.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + vec2( 1.0, 0.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + vec2(-1.0, 1.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + vec2( 1.0, -1.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + vec2( 1.0, 1.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + vec2( 1.0, 1.0) * pixel);
return acc;
}
LAPLACIAN_TYPE laplacian_w12(SAMPLER_TYPE tex, vec2 st, vec2 pixel) {
LAPLACIAN_TYPE acc = LAPLACIAN_TYPE(0.0);
acc += LAPLACIAN_SAMPLER_FNC(tex, st) * 12.0;
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + vec2(-1.0, 0.0) * pixel) * 2.0;
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + vec2( 0.0, -1.0) * pixel) * 2.0;
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + vec2( 0.0, 1.0) * pixel) * 2.0;
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + vec2( 1.0, 0.0) * pixel) * 2.0;
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + vec2(-1.0, 1.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + vec2( 1.0, -1.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + vec2( 1.0, 1.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + vec2( 1.0, 1.0) * pixel);
return acc;
}
LAPLACIAN_TYPE laplacian(SAMPLER_TYPE tex, vec2 st, vec2 pixel) {
return LAPLACIAN_FNC(tex, st, pixel);
}
bool laplacian_isOutside(vec2 pos) {
return (pos.x < 0.0 || pos.y < 0.0 || pos.x > 1.0 || pos.y > 1.0);
}
LAPLACIAN_TYPE laplacian_w4(SAMPLER_TYPE tex, vec2 st, vec2 pixel, float pixel_pad) {
LAPLACIAN_TYPE acc = LAPLACIAN_TYPE(0.0);
vec2 uv = st * vec2(1.0 + pixel_pad * 2.0 * pixel) - pixel_pad * pixel;
vec3 pixelShift = vec3(pixel, 0.0);
if (!laplacian_isOutside(uv)) acc = 4.0 * LAPLACIAN_SAMPLER_FNC(tex, uv);
vec2 e = uv + pixelShift.xz;
if (!laplacian_isOutside(e)) acc -= LAPLACIAN_SAMPLER_FNC(tex, e);
vec2 n = uv + pixelShift.zy;
if (!laplacian_isOutside(n)) acc -= LAPLACIAN_SAMPLER_FNC(tex, n);
vec2 w = uv - pixelShift.xz;
if (!laplacian_isOutside(w)) acc -= LAPLACIAN_SAMPLER_FNC(tex, w);
vec2 s = uv - pixelShift.zy;
if (!laplacian_isOutside(s)) acc -= LAPLACIAN_SAMPLER_FNC(tex, s);
return acc;
}
LAPLACIAN_TYPE laplacian_w8(SAMPLER_TYPE tex, vec2 st, vec2 pixel, float pixel_pad) {
LAPLACIAN_TYPE acc = LAPLACIAN_TYPE(0.0);
vec2 uv = st * vec2(1.0 + pixel_pad * 2.0 * pixel) - pixel_pad * pixel;
vec3 pixelShift = vec3(pixel, 0.0);
if (!laplacian_isOutside(uv)) acc = 8.0 * LAPLACIAN_SAMPLER_FNC(tex, uv);
vec2 e = uv + pixelShift.xz;
if (!laplacian_isOutside(e)) acc -= LAPLACIAN_SAMPLER_FNC(tex, e);
vec2 n = uv + pixelShift.zy;
if (!laplacian_isOutside(n)) acc -= LAPLACIAN_SAMPLER_FNC(tex, n);
vec2 w = uv - pixelShift.xz;
if (!laplacian_isOutside(w)) acc -= LAPLACIAN_SAMPLER_FNC(tex, w);
vec2 s = uv - pixelShift.zy;
if (!laplacian_isOutside(s)) acc -= LAPLACIAN_SAMPLER_FNC(tex, s);
vec2 ne = n + e;
if (!laplacian_isOutside(e)) acc -= LAPLACIAN_SAMPLER_FNC(tex, e);
vec2 nw = n + w;
if (!laplacian_isOutside(n)) acc -= LAPLACIAN_SAMPLER_FNC(tex, n);
vec2 se = s + e;
if (!laplacian_isOutside(w)) acc -= LAPLACIAN_SAMPLER_FNC(tex, w);
vec2 sw = s + w;
if (!laplacian_isOutside(s)) acc -= LAPLACIAN_SAMPLER_FNC(tex, s);
return acc;
}
LAPLACIAN_TYPE laplacian_w12(SAMPLER_TYPE tex, vec2 st, vec2 pixel, float pixel_pad) {
LAPLACIAN_TYPE acc = LAPLACIAN_TYPE(0.0);
vec2 uv = st * vec2(1.0 + pixel_pad * 2.0 * pixel) - pixel_pad * pixel;
vec3 pixelShift = vec3(pixel, 0.0);
if (!laplacian_isOutside(uv)) acc = 12.0 * LAPLACIAN_SAMPLER_FNC(tex, uv);
vec2 e = uv + pixelShift.xz;
if (!laplacian_isOutside(e)) acc -= LAPLACIAN_SAMPLER_FNC(tex, e) * 2.0;
vec2 n = uv + pixelShift.zy;
if (!laplacian_isOutside(n)) acc -= LAPLACIAN_SAMPLER_FNC(tex, n) * 2.0;
vec2 w = uv - pixelShift.xz;
if (!laplacian_isOutside(w)) acc -= LAPLACIAN_SAMPLER_FNC(tex, w) * 2.0;
vec2 s = uv - pixelShift.zy;
if (!laplacian_isOutside(s)) acc -= LAPLACIAN_SAMPLER_FNC(tex, s) * 2.0;
vec2 ne = n + e;
if (!laplacian_isOutside(e)) acc -= LAPLACIAN_SAMPLER_FNC(tex, e);
vec2 nw = n + w;
if (!laplacian_isOutside(n)) acc -= LAPLACIAN_SAMPLER_FNC(tex, n);
vec2 se = s + e;
if (!laplacian_isOutside(w)) acc -= LAPLACIAN_SAMPLER_FNC(tex, w);
vec2 sw = s + w;
if (!laplacian_isOutside(s)) acc -= LAPLACIAN_SAMPLER_FNC(tex, s);
return acc;
}
LAPLACIAN_TYPE laplacian(SAMPLER_TYPE tex, vec2 st, vec2 pixel, float pixel_pad) {
return LAPLACIAN_FNC(tex, st, pixel, pixel_pad);
}
#endif
Dependencies:
Use:
laplacian(<SAMPLER_TYPE> texture, <float2> st, <float2> pixels_scale [, <float> pixel_padding])
#ifndef LAPLACIAN_TYPE
#define LAPLACIAN_TYPE float4
#endif
#ifndef LAPLACIAN_SAMPLER_FNC
#define LAPLACIAN_SAMPLER_FNC(TEX, UV) SAMPLER_FNC(TEX, UV)
#endif
#ifndef LAPLACIAN_FNC
#define LAPLACIAN_FNC laplacian_w4
#endif
// #define LAPLACE_W4 0
// #define LAPLACE_W8 0
// #define LAPLACE_W12 0
// LAPLACE FILTER (highpass)
//
// 0 1 0 1 1 1 1 2 1
// 1 -4 1 1 -8 1 2 -12 2
// 0 1 0 1 1 1 1 2 1
//
#ifndef FNC_LAPLACIAN
#define FNC_LAPLACIAN
LAPLACIAN_TYPE laplacian_w4(SAMPLER_TYPE tex, float2 st, float2 pixel) {
LAPLACIAN_TYPE acc = float4(0.0, 0.0, 0.0, 0.0);
acc += LAPLACIAN_SAMPLER_FNC(tex, st) * 4.0;
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + float2(-1.0, 0.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + float2( 0.0, -1.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + float2( 0.0, 1.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + float2( 1.0, 0.0) * pixel);
return acc;
}
LAPLACIAN_TYPE laplacian_w8(SAMPLER_TYPE tex, float2 st, float2 pixel) {
LAPLACIAN_TYPE acc = float4(0.0, 0.0, 0.0, 0.0);
acc += LAPLACIAN_SAMPLER_FNC(tex, st) * 8.0;
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + float2(-1.0, 0.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + float2( 0.0, -1.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + float2( 0.0, 1.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + float2( 1.0, 0.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + float2(-1.0, 1.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + float2( 1.0, -1.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + float2( 1.0, 1.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + float2( 1.0, 1.0) * pixel);
return acc;
}
LAPLACIAN_TYPE laplacian_w12(SAMPLER_TYPE tex, float2 st, float2 pixel) {
LAPLACIAN_TYPE acc = float4(0.0, 0.0, 0.0, 0.0);
acc += LAPLACIAN_SAMPLER_FNC(tex, st) * 12.0;
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + float2(-1.0, 0.0) * pixel) * 2.0;
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + float2( 0.0, -1.0) * pixel) * 2.0;
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + float2( 0.0, 1.0) * pixel) * 2.0;
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + float2( 1.0, 0.0) * pixel) * 2.0;
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + float2(-1.0, 1.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + float2( 1.0, -1.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + float2( 1.0, 1.0) * pixel);
acc -= LAPLACIAN_SAMPLER_FNC(tex, st + float2( 1.0, 1.0) * pixel);
return acc;
}
LAPLACIAN_TYPE laplacian(SAMPLER_TYPE tex, float2 st, float2 pixel) {
return LAPLACIAN_FNC(tex, st, pixel);
}
bool laplacian_isOutside(float2 pos) {
return (pos.x < 0.0 || pos.y < 0.0 || pos.x > 1.0 || pos.y > 1.0);
}
LAPLACIAN_TYPE laplacian_w4(SAMPLER_TYPE tex, float2 st, float2 pixel, float pixel_pad) {
LAPLACIAN_TYPE acc = float4(0.0, 0.0, 0.0, 0.0);
float2 uv = st * float2(1.0 + pixel_pad * 2.0 * pixel) - pixel_pad * pixel;
float3 pixelShift = float3(pixel, 0.0);
if (!laplacian_isOutside(uv)) acc = 4.0 * LAPLACIAN_SAMPLER_FNC(tex, uv);
float2 e = uv + pixelShift.xz;
if (!laplacian_isOutside(e)) acc -= LAPLACIAN_SAMPLER_FNC(tex, e);
float2 n = uv + pixelShift.zy;
if (!laplacian_isOutside(n)) acc -= LAPLACIAN_SAMPLER_FNC(tex, n);
float2 w = uv - pixelShift.xz;
if (!laplacian_isOutside(w)) acc -= LAPLACIAN_SAMPLER_FNC(tex, w);
float2 s = uv - pixelShift.zy;
if (!laplacian_isOutside(s)) acc -= LAPLACIAN_SAMPLER_FNC(tex, s);
return acc;
}
LAPLACIAN_TYPE laplacian_w8(SAMPLER_TYPE tex, float2 st, float2 pixel, float pixel_pad) {
LAPLACIAN_TYPE acc = float4(0.0, 0.0, 0.0, 0.0);
float2 uv = st * float2(1.0 + pixel_pad * 2.0 * pixel) - pixel_pad * pixel;
float3 pixelShift = float3(pixel, 0.0);
if (!laplacian_isOutside(uv)) acc = 8.0 * LAPLACIAN_SAMPLER_FNC(tex, uv);
float2 e = uv + pixelShift.xz;
if (!laplacian_isOutside(e)) acc -= LAPLACIAN_SAMPLER_FNC(tex, e);
float2 n = uv + pixelShift.zy;
if (!laplacian_isOutside(n)) acc -= LAPLACIAN_SAMPLER_FNC(tex, n);
float2 w = uv - pixelShift.xz;
if (!laplacian_isOutside(w)) acc -= LAPLACIAN_SAMPLER_FNC(tex, w);
float2 s = uv - pixelShift.zy;
if (!laplacian_isOutside(s)) acc -= LAPLACIAN_SAMPLER_FNC(tex, s);
float2 ne = n + e;
if (!laplacian_isOutside(e)) acc -= LAPLACIAN_SAMPLER_FNC(tex, e);
float2 nw = n + w;
if (!laplacian_isOutside(n)) acc -= LAPLACIAN_SAMPLER_FNC(tex, n);
float2 se = s + e;
if (!laplacian_isOutside(w)) acc -= LAPLACIAN_SAMPLER_FNC(tex, w);
float2 sw = s + w;
if (!laplacian_isOutside(s)) acc -= LAPLACIAN_SAMPLER_FNC(tex, s);
return acc;
}
LAPLACIAN_TYPE laplacian_w12(SAMPLER_TYPE tex, float2 st, float2 pixel, float pixel_pad) {
LAPLACIAN_TYPE acc = float4(0.0, 0.0, 0.0, 0.0);
float2 uv = st * float2(1.0 + pixel_pad * 2.0 * pixel) - pixel_pad * pixel;
float3 pixelShift = float3(pixel, 0.0);
if (!laplacian_isOutside(uv)) acc = 12.0 * LAPLACIAN_SAMPLER_FNC(tex, uv);
float2 e = uv + pixelShift.xz;
if (!laplacian_isOutside(e)) acc -= LAPLACIAN_SAMPLER_FNC(tex, e) * 2.0;
float2 n = uv + pixelShift.zy;
if (!laplacian_isOutside(n)) acc -= LAPLACIAN_SAMPLER_FNC(tex, n) * 2.0;
float2 w = uv - pixelShift.xz;
if (!laplacian_isOutside(w)) acc -= LAPLACIAN_SAMPLER_FNC(tex, w) * 2.0;
float2 s = uv - pixelShift.zy;
if (!laplacian_isOutside(s)) acc -= LAPLACIAN_SAMPLER_FNC(tex, s) * 2.0;
float2 ne = n + e;
if (!laplacian_isOutside(e)) acc -= LAPLACIAN_SAMPLER_FNC(tex, e);
float2 nw = n + w;
if (!laplacian_isOutside(n)) acc -= LAPLACIAN_SAMPLER_FNC(tex, n);
float2 se = s + e;
if (!laplacian_isOutside(w)) acc -= LAPLACIAN_SAMPLER_FNC(tex, w);
float2 sw = s + w;
if (!laplacian_isOutside(s)) acc -= LAPLACIAN_SAMPLER_FNC(tex, s);
return acc;
}
LAPLACIAN_TYPE laplacian(SAMPLER_TYPE tex, float2 st, float2 pixel, float pixel_pad) {
return LAPLACIAN_FNC(tex, st, pixel, pixel_pad);
}
#endif
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