lygia
/v1.1.6
/math
/mix
)expands mix to linearly mix more than two values
Use:
mix(<float|float2|float3|float4> a, <float|float2|float3|float4> b, <float|float2|float3|float4> c [, <float|float2|float3|float4> d], <float> pct)
#ifndef FNC_MIX
#define FNC_MIX
// Overloads for mixing two values
float mix(float a, float b, float pct) {
return lerp(a, b, pct);
}
float2 mix(float2 a, float2 b, float pct) {
return lerp(a, b, pct);
}
float3 mix(float3 a, float3 b, float pct) {
return lerp(a, b, pct);
}
float4 mix(float4 a, float4 b, float pct) {
return lerp(a, b, pct);
}
// Overloads for mixing three values
float mix(float a, float b, float c, float pct) {
return lerp(lerp(a, b, 2. * pct), lerp(b, c, 2. * (max(pct, .5) - .5)), step(.5, pct));
}
float2 mix(float2 a, float2 b, float2 c, float pct) {
return lerp(lerp(a, b, 2. * pct), lerp(b, c, 2. * (max(pct, .5) - .5)), step(.5, pct));
}
float3 mix(float3 a, float3 b, float3 c, float pct) {
return lerp(lerp(a, b, 2. * pct), lerp(b, c, 2. * (max(pct, .5) - .5)), step(.5, pct));
}
float4 mix(float4 a, float4 b, float4 c, float pct) {
return lerp(lerp(a, b, 2. * pct), lerp(b, c, 2. * (max(pct, .5) - .5)), step(.5, pct));
}
// Overloads for mixing four values
float mix(float a, float b, float c, float d, float pct) {
return lerp(lerp(a, b, 3. * pct), lerp(b, lerp(c, d, 3. * (max(pct, .66) - .66)), 3. * (clamp(pct, .33, .66) - .33)), step(.33, pct));
}
float2 mix(float2 a, float2 b, float2 c, float2 d, float pct) {
return lerp(lerp(a, b, 3. * pct), lerp(b, lerp(c, d, 3. * (max(pct, .66) - .66)), 3. * (clamp(pct, .33, .66) - .33)), step(.33, pct));
}
float3 mix(float3 a, float3 b, float3 c, float3 d, float pct) {
return lerp(lerp(a, b, 3. * pct), lerp(b, lerp(c, d, 3. * (max(pct, .66) - .66)), 3. * (clamp(pct, .33, .66) - .33)), step(.33, pct));
}
float4 mix(float4 a, float4 b, float4 c, float4 d, float pct) {
return lerp(lerp(a, b, 3. * pct), lerp(b, lerp(c, d, 3. * (max(pct, .66) - .66)), 3. * (clamp(pct, .33, .66) - .33)), step(.33, pct));
}
#endif
Dependencies:
lygia
/v1.1.6
/math
/operations
.hlsl
Use:
mix(<float|float2|float3|float4> a, <float|float2|float3|float4> b, <float|float2|float3|float4> c [, <float|float2|float3|float4> d], <float> pct)
#ifndef FNC_MIX
#define FNC_MIX
inline __device__ __host__ float mix(float a, float b, float t) { return a + t*(b - a); }
inline __device__ __host__ float2 mix(const float2& a, const float2& b, float t) { return a + t*(b - a); }
inline __device__ __host__ float3 mix(const float3& a, const float3& b, float t) { return a + t*(b - a); }
inline __device__ __host__ float4 mix(const float4& a, const float4& b, float t) { return a + t*(b - a); }
inline __device__ __host__ float2 mix(const float2& a, const float2& b, const float2& t) { return a + t*(b - a); }
inline __device__ __host__ float3 mix(const float3& a, const float3& b, const float3& t) { return a + t*(b - a); }
inline __device__ __host__ float4 mix(const float4& a, const float4& b, const float4& t) { return a + t*(b - a); }
#endif
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