tests/sksl/shared/ComplexDelete.metal - skia - Git at Google

 #include <metal_stdlib>
 #include <simd/simd.h>
 using namespace metal;

 struct sampler2D {
     texture2d<half> tex;
     sampler smp;
 };
 half4 sample(sampler2D i, float2 p, float b=0) { return i.tex.sample(i.smp, p, bias(b)); }
 half4 sample(sampler2D i, float3 p, float b=0) { return i.tex.sample(i.smp, p.xy / p.z, bias(b)); }
 half4 sampleLod(sampler2D i, float2 p, float lod) { return i.tex.sample(i.smp, p, level(lod)); }
 half4 sampleLod(sampler2D i, float3 p, float lod) {
     return i.tex.sample(i.smp, p.xy / p.z, level(lod));
 }
 half4 sampleGrad(sampler2D i, float2 p, float2 dPdx, float2 dPdy) {
     return i.tex.sample(i.smp, p, gradient2d(dPdx, dPdy));
 }

 struct Uniforms {
     float4x4 colorXform;
 };
 struct Inputs {
 };
 struct Outputs {
     half4 sk_FragColor [[color(0)]];
 };
 struct Globals {
     sampler2D s;
 };

 thread bool operator==(const float4x4 left, const float4x4 right);
 thread bool operator!=(const float4x4 left, const float4x4 right);
 thread bool operator==(const float4x4 left, const float4x4 right) {
     return all(left[0] == right[0]) &&
            all(left[1] == right[1]) &&
            all(left[2] == right[2]) &&
            all(left[3] == right[3]);
 }
 thread bool operator!=(const float4x4 left, const float4x4 right) {
     return !(left == right);
 }
 fragment Outputs fragmentMain(Inputs _in [[stage_in]], constant Uniforms& _uniforms [[buffer(0)]], texture2d<half> s_Tex [[texture(0)]], sampler s_Smplr [[sampler(0)]], bool _frontFacing [[front_facing]], float4 _fragCoord [[position]]) {
     Globals _globals{{s_Tex, s_Smplr}};
     (void)_globals;
     Outputs _out;
     (void)_out;
     float4 tmpColor;
     _out.sk_FragColor = (tmpColor = float4(sample(_globals.s, float2(1.0))), half4(_uniforms.colorXform != float4x4(1.0) ? float4(clamp((_uniforms.colorXform * float4(tmpColor.xyz, 1.0)).xyz, 0.0, tmpColor.w), tmpColor.w) : tmpColor));
     return _out;
 }
	#include <metal_stdlib>
	#include <simd/simd.h>
	using namespace metal;

	struct sampler2D {
	texture2d<half> tex;
	sampler smp;
	};
	half4 sample(sampler2D i, float2 p, float b=0) { return i.tex.sample(i.smp, p, bias(b)); }
	half4 sample(sampler2D i, float3 p, float b=0) { return i.tex.sample(i.smp, p.xy / p.z, bias(b)); }
	half4 sampleLod(sampler2D i, float2 p, float lod) { return i.tex.sample(i.smp, p, level(lod)); }
	half4 sampleLod(sampler2D i, float3 p, float lod) {
	return i.tex.sample(i.smp, p.xy / p.z, level(lod));
	}
	half4 sampleGrad(sampler2D i, float2 p, float2 dPdx, float2 dPdy) {
	return i.tex.sample(i.smp, p, gradient2d(dPdx, dPdy));
	}

	struct Uniforms {
	float4x4 colorXform;
	};
	struct Inputs {
	};
	struct Outputs {
	half4 sk_FragColor [[color(0)]];
	};
	struct Globals {
	sampler2D s;
	};

	thread bool operator==(const float4x4 left, const float4x4 right);
	thread bool operator!=(const float4x4 left, const float4x4 right);
	thread bool operator==(const float4x4 left, const float4x4 right) {
	return all(left[0] == right[0]) &&
	all(left[1] == right[1]) &&
	all(left[2] == right[2]) &&
	all(left[3] == right[3]);
	}
	thread bool operator!=(const float4x4 left, const float4x4 right) {
	return !(left == right);
	}
	fragment Outputs fragmentMain(Inputs _in [[stage_in]], constant Uniforms& _uniforms [[buffer(0)]], texture2d<half> s_Tex [[texture(0)]], sampler s_Smplr [[sampler(0)]], bool _frontFacing [[front_facing]], float4 _fragCoord [[position]]) {
	Globals _globals{{s_Tex, s_Smplr}};
	(void)_globals;
	Outputs _out;
	(void)_out;
	float4 tmpColor;
	_out.sk_FragColor = (tmpColor = float4(sample(_globals.s, float2(1.0))), half4(_uniforms.colorXform != float4x4(1.0) ? float4(clamp((_uniforms.colorXform * float4(tmpColor.xyz, 1.0)).xyz, 0.0, tmpColor.w), tmpColor.w) : tmpColor));
	return _out;
	}