Test/spv.int16.amd.frag - third_party/glslang - Git at Google

 #version 450 core

 #extension GL_ARB_gpu_shader_int64: enable
 #extension GL_AMD_gpu_shader_half_float: enable
 #extension GL_AMD_gpu_shader_int16: enable

 layout(binding = 0) uniform Uniforms
 {
     uint i;
 };

 // int16/uint16 in block
 layout(std140, binding = 1) uniform Block
 {
     i16vec3  i16v;
     uint16_t u16;
 } block;

 // int16/uint16 for input
 layout(location = 0) in flat u16vec3 iu16v;
 layout(location = 1) in flat int16_t ii16;

 void literal()
 {
     const int16_t i16c[3] =
     {
         0x111S,         // Hex
         -2s,            // Dec
         0400s,          // Oct
     };

     const uint16_t u16c[] =
     {
         0xFFFFus,       // Hex
         65535US,        // Dec
         0177777us,      // Oct
     };

     uint16_t u16 = i16c[i] + u16c[i];
 }

 void operators()
 {
     u16vec3  u16v;
     int16_t  i16;
     uint16_t u16;
     int      i;
     uint     u;
     bool     b;

     // Unary
     u16v++;
     i16--;
     ++i16;
     --u16v;

     u16v = ~u16v;

     i16 = +i16;
     u16v = -u16v;

     // Arithmetic
     u16  += i16;
     u16v -= u16v;
     i16  *= i16;
     u16v /= u16v;
     u16v %= i16;

     u16v = u16v + u16v;
     u16  = i16 - u16;
     u16v = u16v * i16;
     i16  = i16 * i16;
     i16  = i16 % i16;

     // Shift
     u16v <<= i16;
     i16  >>= u16v.y;

     i16  = i16 << u16v.z;
     u16v = u16v << i16;

     // Relational
     b = (u16v.x != i16);
     b = (i16 == u16v.x);
     b = (u16v.x > u16v.y);
     b = (i16 < u);
     b = (u16v.y >= u16v.x);
     b = (i16 <= i);

     // Bitwise
     u16v |= i16;
     u16  = i16 | u16;
     i16  &= i16;
     u16v = u16v & u16v;
     u16v ^= i16;
     u16v = u16v ^ i16;
 }

 void typeCast()
 {
     bvec2 bv;
     ivec2 iv;
     uvec2 uv;
     vec2  fv;
     dvec2 dv;

     f16vec2 f16v;
     i64vec2 i64v;
     u64vec2 u64v;
     i16vec2 i16v;
     u16vec2 u16v;

     i16v = i16vec2(bv);   // bool -> int16
     u16v = u16vec2(bv);   // bool -> uint16
     bv   = bvec2(i16v);   // int16  -> bool
     bv   = bvec2(u16v);   // uint16 -> bool

     i16v = i16vec2(iv);   // int -> int16
     u16v = u16vec2(iv);   // int -> uint16
     iv   = i16v;          // int16  -> int
     iv   = ivec2(u16v);   // uint16 -> int

     i16v = i16vec2(uv);   // uint -> int16
     u16v = u16vec2(uv);   // uint -> uint16
     uv   = i16v;          // int16  -> uint
     uv   = u16v;          // uint16 -> uint

     i16v = i16vec2(fv);   // float -> int16
     u16v = u16vec2(fv);   // float -> uint16
     fv   = i16v;          // int16  -> float
     fv   = u16v;          // uint16 -> float

     i16v = i16vec2(dv);   // double -> int16
     u16v = u16vec2(dv);   // double -> uint16
     dv   = i16v;          // int16  -> double
     dv   = u16v;          // uint16 -> double

     i16v = i16vec2(f16v); // float16 -> int16
     u16v = u16vec2(f16v); // float16 -> uint16
     f16v = i16v;          // int16  -> float16
     f16v = u16v;          // uint16 -> float16

     i16v = i16vec2(i64v); // int64 -> int16
     u16v = u16vec2(i64v); // int64 -> uint16
     i64v = i16v;          // int16  -> int64
     i64v = i64vec2(u16v); // uint16 -> int64

     i16v = i16vec2(u64v); // uint64 -> int16
     u16v = u16vec2(u64v); // uint64 -> uint16
     u64v = i16v;          // int16  -> uint64
     u64v = u16v;          // uint16 -> uint64

     i16v = i16vec2(u16v); // uint16 -> int16
     u16v = i16v;          // int16 -> uint16
 }

 void builtinFuncs()
 {
     i16vec2  i16v;
     u16vec3  u16v;
     f16vec3  f16v;
     bvec3    bv;

     int16_t  i16;
     uint16_t u16;

     // abs()
     i16v = abs(i16v);

     // sign()
     i16v  = sign(i16v);

     // min()
     i16v = min(i16v, i16);
     i16v = min(i16v, i16vec2(-1s));
     u16v = min(u16v, u16);
     u16v = min(u16v, u16vec3(0us));

     // max()
     i16v = max(i16v, i16);
     i16v = max(i16v, i16vec2(-1s));
     u16v = max(u16v, u16);
     u16v = max(u16v, u16vec3(0us));

     // clamp()
     i16v = clamp(i16v, -i16, i16);
     i16v = clamp(i16v, -i16v, i16v);
     u16v = clamp(u16v, -u16, u16);
     u16v = clamp(u16v, -u16v, u16v);

     // mix()
     i16  = mix(i16v.x, i16v.y, true);
     i16v = mix(i16vec2(i16), i16vec2(-i16), bvec2(false));
     u16  = mix(u16v.x, u16v.y, true);
     u16v = mix(u16vec3(u16), u16vec3(-u16), bvec3(false));

     // frexp()
     i16vec3 exp;
     f16v = frexp(f16v, exp);

     // ldexp()
     f16v = ldexp(f16v, exp);

     // float16BitsToInt16()
     i16v = float16BitsToInt16(f16v.xy);

     // float16BitsToUint16()
     u16v.x = float16BitsToUint16(f16v.z);

     // int16BitsToFloat16()
     f16v.xy = int16BitsToFloat16(i16v);

     // uint16BitsToFloat16()
     f16v = uint16BitsToFloat16(u16v);

     // packInt2x16()
     int packi = packInt2x16(i16v);

     // unpackInt2x16()
     i16v = unpackInt2x16(packi);

     // packUint2x16()
     uint packu = packUint2x16(u16v.xy);

     // unpackUint2x16()
     u16v.xy = unpackUint2x16(packu);

     // packInt4x16()
     int64_t packi64 = packInt4x16(i16vec4(i16));

     // unpackInt4x16()
     i16v = unpackInt4x16(packi64).xy;

     // packUint4x16()
     uint64_t packu64 = packUint4x16(u16vec4(u16));

     // unpackUint4x16()
     u16v = unpackUint4x16(packu64).xyz;

     // lessThan()
     bv    = lessThan(u16v, u16vec3(u16));
     bv.xy = lessThan(i16v, i16vec2(i16));

     // lessThanEqual()
     bv    = lessThanEqual(u16v, u16vec3(u16));
     bv.xy = lessThanEqual(i16v, i16vec2(i16));

     // greaterThan()
     bv    = greaterThan(u16v, u16vec3(u16));
     bv.xy = greaterThan(i16v, i16vec2(i16));

     // greaterThanEqual()
     bv    = greaterThanEqual(u16v, u16vec3(u16));
     bv.xy = greaterThanEqual(i16v, i16vec2(i16));

     // equal()
     bv    = equal(u16v, u16vec3(u16));
     bv.xy = equal(i16v, i16vec2(i16));

     // notEqual()
     bv    = notEqual(u16v, u16vec3(u16));
     bv.xy = notEqual(i16v, i16vec2(i16));
 }

 // Type conversion for specialization constant
 layout(constant_id = 100) const int64_t  si64 = -10L;
 layout(constant_id = 101) const uint64_t su64 = 20UL;
 layout(constant_id = 102) const int  si = -5;
 layout(constant_id = 103) const uint su = 4;
 layout(constant_id = 104) const bool sb = true;
 layout(constant_id = 105) const int16_t si16 = -5S;
 layout(constant_id = 106) const uint16_t su16 = 4US;

 // bool <-> int16/uint16
 const bool i16_to_b = bool(si16);
 const bool u16_to_b = bool(su16);
 const int16_t  b_to_i16 = int16_t(sb);
 const uint16_t b_to_u16 = uint16_t(sb);

 // int <-> int16/uint16
 const int i16_to_i = int(si16);
 const int u16_to_i = int(su16);
 const int16_t  i_to_i16 = int16_t(si);
 const uint16_t i_to_u16 = uint16_t(si);

 // uint <-> int16/uint16
 const uint i16_to_u = uint(si16);
 const uint u16_to_u = uint(su16);
 const int16_t  u_to_i16 = int16_t(su);
 const uint16_t u_to_u16 = uint16_t(su);

 // int64 <-> int16/uint16
 const int64_t i16_to_i64 = int64_t(si16);
 const int64_t u16_to_i64 = int64_t(su16);
 const int16_t  i64_to_i16 = int16_t(si64);
 const uint16_t i64_to_u16 = uint16_t(si64);

 // uint64 <-> int16/uint16
 const uint64_t i16_to_u64 = uint64_t(si16);
 const uint64_t u16_to_u64 = uint64_t(su16);
 const int16_t  u64_to_i16 = int16_t(su64);
 const uint16_t u64_to_u16 = uint16_t(su64);

 // int16 <-> uint16
 const uint16_t i16_to_u16 = uint16_t(si16);
 const int16_t  u16_to_i16 = int16_t(su16);

 void main()
 {
     literal();
     operators();
     typeCast();
     builtinFuncs();
 }
	#version 450 core

	#extension GL_ARB_gpu_shader_int64: enable
	#extension GL_AMD_gpu_shader_half_float: enable
	#extension GL_AMD_gpu_shader_int16: enable

	layout(binding = 0) uniform Uniforms
	{
	uint i;
	};

	// int16/uint16 in block
	layout(std140, binding = 1) uniform Block
	{
	i16vec3 i16v;
	uint16_t u16;
	} block;

	// int16/uint16 for input
	layout(location = 0) in flat u16vec3 iu16v;
	layout(location = 1) in flat int16_t ii16;

	void literal()
	{
	const int16_t i16c[3] =
	{
	0x111S, // Hex
	-2s, // Dec
	0400s, // Oct
	};

	const uint16_t u16c[] =
	{
	0xFFFFus, // Hex
	65535US, // Dec
	0177777us, // Oct
	};

	uint16_t u16 = i16c[i] + u16c[i];
	}

	void operators()
	{
	u16vec3 u16v;
	int16_t i16;
	uint16_t u16;
	int i;
	uint u;
	bool b;

	// Unary
	u16v++;
	i16--;
	++i16;
	--u16v;

	u16v = ~u16v;

	i16 = +i16;
	u16v = -u16v;

	// Arithmetic
	u16 += i16;
	u16v -= u16v;
	i16 *= i16;
	u16v /= u16v;
	u16v %= i16;

	u16v = u16v + u16v;
	u16 = i16 - u16;
	u16v = u16v * i16;
	i16 = i16 * i16;
	i16 = i16 % i16;

	// Shift
	u16v <<= i16;
	i16 >>= u16v.y;

	i16 = i16 << u16v.z;
	u16v = u16v << i16;

	// Relational
	b = (u16v.x != i16);
	b = (i16 == u16v.x);
	b = (u16v.x > u16v.y);
	b = (i16 < u);
	b = (u16v.y >= u16v.x);
	b = (i16 <= i);

	// Bitwise
	u16v \|= i16;
	u16 = i16 \| u16;
	i16 &= i16;
	u16v = u16v & u16v;
	u16v ^= i16;
	u16v = u16v ^ i16;
	}

	void typeCast()
	{
	bvec2 bv;
	ivec2 iv;
	uvec2 uv;
	vec2 fv;
	dvec2 dv;

	f16vec2 f16v;
	i64vec2 i64v;
	u64vec2 u64v;
	i16vec2 i16v;
	u16vec2 u16v;

	i16v = i16vec2(bv); // bool -> int16
	u16v = u16vec2(bv); // bool -> uint16
	bv = bvec2(i16v); // int16 -> bool
	bv = bvec2(u16v); // uint16 -> bool

	i16v = i16vec2(iv); // int -> int16
	u16v = u16vec2(iv); // int -> uint16
	iv = i16v; // int16 -> int
	iv = ivec2(u16v); // uint16 -> int

	i16v = i16vec2(uv); // uint -> int16
	u16v = u16vec2(uv); // uint -> uint16
	uv = i16v; // int16 -> uint
	uv = u16v; // uint16 -> uint

	i16v = i16vec2(fv); // float -> int16
	u16v = u16vec2(fv); // float -> uint16
	fv = i16v; // int16 -> float
	fv = u16v; // uint16 -> float

	i16v = i16vec2(dv); // double -> int16
	u16v = u16vec2(dv); // double -> uint16
	dv = i16v; // int16 -> double
	dv = u16v; // uint16 -> double

	i16v = i16vec2(f16v); // float16 -> int16
	u16v = u16vec2(f16v); // float16 -> uint16
	f16v = i16v; // int16 -> float16
	f16v = u16v; // uint16 -> float16

	i16v = i16vec2(i64v); // int64 -> int16
	u16v = u16vec2(i64v); // int64 -> uint16
	i64v = i16v; // int16 -> int64
	i64v = i64vec2(u16v); // uint16 -> int64

	i16v = i16vec2(u64v); // uint64 -> int16
	u16v = u16vec2(u64v); // uint64 -> uint16
	u64v = i16v; // int16 -> uint64
	u64v = u16v; // uint16 -> uint64

	i16v = i16vec2(u16v); // uint16 -> int16
	u16v = i16v; // int16 -> uint16
	}

	void builtinFuncs()
	{
	i16vec2 i16v;
	u16vec3 u16v;
	f16vec3 f16v;
	bvec3 bv;

	int16_t i16;
	uint16_t u16;

	// abs()
	i16v = abs(i16v);

	// sign()
	i16v = sign(i16v);

	// min()
	i16v = min(i16v, i16);
	i16v = min(i16v, i16vec2(-1s));
	u16v = min(u16v, u16);
	u16v = min(u16v, u16vec3(0us));

	// max()
	i16v = max(i16v, i16);
	i16v = max(i16v, i16vec2(-1s));
	u16v = max(u16v, u16);
	u16v = max(u16v, u16vec3(0us));

	// clamp()
	i16v = clamp(i16v, -i16, i16);
	i16v = clamp(i16v, -i16v, i16v);
	u16v = clamp(u16v, -u16, u16);
	u16v = clamp(u16v, -u16v, u16v);

	// mix()
	i16 = mix(i16v.x, i16v.y, true);
	i16v = mix(i16vec2(i16), i16vec2(-i16), bvec2(false));
	u16 = mix(u16v.x, u16v.y, true);
	u16v = mix(u16vec3(u16), u16vec3(-u16), bvec3(false));

	// frexp()
	i16vec3 exp;
	f16v = frexp(f16v, exp);

	// ldexp()
	f16v = ldexp(f16v, exp);

	// float16BitsToInt16()
	i16v = float16BitsToInt16(f16v.xy);

	// float16BitsToUint16()
	u16v.x = float16BitsToUint16(f16v.z);

	// int16BitsToFloat16()
	f16v.xy = int16BitsToFloat16(i16v);

	// uint16BitsToFloat16()
	f16v = uint16BitsToFloat16(u16v);

	// packInt2x16()
	int packi = packInt2x16(i16v);

	// unpackInt2x16()
	i16v = unpackInt2x16(packi);

	// packUint2x16()
	uint packu = packUint2x16(u16v.xy);

	// unpackUint2x16()
	u16v.xy = unpackUint2x16(packu);

	// packInt4x16()
	int64_t packi64 = packInt4x16(i16vec4(i16));

	// unpackInt4x16()
	i16v = unpackInt4x16(packi64).xy;

	// packUint4x16()
	uint64_t packu64 = packUint4x16(u16vec4(u16));

	// unpackUint4x16()
	u16v = unpackUint4x16(packu64).xyz;

	// lessThan()
	bv = lessThan(u16v, u16vec3(u16));
	bv.xy = lessThan(i16v, i16vec2(i16));

	// lessThanEqual()
	bv = lessThanEqual(u16v, u16vec3(u16));
	bv.xy = lessThanEqual(i16v, i16vec2(i16));

	// greaterThan()
	bv = greaterThan(u16v, u16vec3(u16));
	bv.xy = greaterThan(i16v, i16vec2(i16));

	// greaterThanEqual()
	bv = greaterThanEqual(u16v, u16vec3(u16));
	bv.xy = greaterThanEqual(i16v, i16vec2(i16));

	// equal()
	bv = equal(u16v, u16vec3(u16));
	bv.xy = equal(i16v, i16vec2(i16));

	// notEqual()
	bv = notEqual(u16v, u16vec3(u16));
	bv.xy = notEqual(i16v, i16vec2(i16));
	}

	// Type conversion for specialization constant
	layout(constant_id = 100) const int64_t si64 = -10L;
	layout(constant_id = 101) const uint64_t su64 = 20UL;
	layout(constant_id = 102) const int si = -5;
	layout(constant_id = 103) const uint su = 4;
	layout(constant_id = 104) const bool sb = true;
	layout(constant_id = 105) const int16_t si16 = -5S;
	layout(constant_id = 106) const uint16_t su16 = 4US;

	// bool <-> int16/uint16
	const bool i16_to_b = bool(si16);
	const bool u16_to_b = bool(su16);
	const int16_t b_to_i16 = int16_t(sb);
	const uint16_t b_to_u16 = uint16_t(sb);

	// int <-> int16/uint16
	const int i16_to_i = int(si16);
	const int u16_to_i = int(su16);
	const int16_t i_to_i16 = int16_t(si);
	const uint16_t i_to_u16 = uint16_t(si);

	// uint <-> int16/uint16
	const uint i16_to_u = uint(si16);
	const uint u16_to_u = uint(su16);
	const int16_t u_to_i16 = int16_t(su);
	const uint16_t u_to_u16 = uint16_t(su);

	// int64 <-> int16/uint16
	const int64_t i16_to_i64 = int64_t(si16);
	const int64_t u16_to_i64 = int64_t(su16);
	const int16_t i64_to_i16 = int16_t(si64);
	const uint16_t i64_to_u16 = uint16_t(si64);

	// uint64 <-> int16/uint16
	const uint64_t i16_to_u64 = uint64_t(si16);
	const uint64_t u16_to_u64 = uint64_t(su16);
	const int16_t u64_to_i16 = int16_t(su64);
	const uint16_t u64_to_u16 = uint16_t(su64);

	// int16 <-> uint16
	const uint16_t i16_to_u16 = uint16_t(si16);
	const int16_t u16_to_i16 = int16_t(su16);

	void main()
	{
	literal();
	operators();
	typeCast();
	builtinFuncs();
	}