Test/glsl.460.subgroup.rmiss - platform/external/deqp-deps/glslang - Gitiles

 #version 460
 #extension GL_NV_ray_tracing : enable


 vec4 undeclared_errors(vec4 f4)
 {
   vec4 result;
   gl_SubgroupSize;               // ERROR, extension not enabled (basic)
   gl_SubgroupInvocationID;       // ERROR, extension not enabled (basic)
   subgroupBarrier();             // ERROR, extension not enabled (basic)
   subgroupMemoryBarrier();       // ERROR, extension not enabled (basic)
   subgroupMemoryBarrierBuffer(); // ERROR, extension not enabled (basic)
   subgroupMemoryBarrierImage();  // ERROR, extension not enabled (basic)
   subgroupElect();               // ERROR, extension not enabled (basic)
   gl_NumSubgroups;               // ERROR, only defined in compute
   gl_SubgroupID;                 // ERROR, only defined in compute
   subgroupMemoryBarrierShared(); // ERROR, only defined in compute

   subgroupAll(true);        // ERROR extension not enabled (vote)
   subgroupAny(false);       // ERROR extension not enabled (vote)
   subgroupAllEqual(f4);     // ERROR extension not enabled (vote)

   gl_SubgroupEqMask;                        // ERROR extension not enabled (ballot)
   gl_SubgroupGeMask;                        // ERROR extension not enabled (ballot)
   gl_SubgroupGtMask;                        // ERROR extension not enabled (ballot)
   gl_SubgroupLeMask;                        // ERROR extension not enabled (ballot)
   gl_SubgroupLtMask;                        // ERROR extension not enabled (ballot)
   subgroupBroadcast(f4, 0);                 // ERROR extension not enabled (ballot)
   subgroupBroadcastFirst(f4);               // ERROR extension not enabled (ballot)
   uvec4 ballot = subgroupBallot(false);     // ERROR extension not enabled (ballot)
   subgroupInverseBallot(uvec4(0x1));        // ERROR extension not enabled (ballot)
   subgroupBallotBitExtract(ballot, 0);      // ERROR extension not enabled (ballot)
   subgroupBallotBitCount(ballot);           // ERROR extension not enabled (ballot)
   subgroupBallotInclusiveBitCount(ballot);  // ERROR extension not enabled (ballot)
   subgroupBallotExclusiveBitCount(ballot);  // ERROR extension not enabled (ballot)
   subgroupBallotFindLSB(ballot);            // ERROR extension not enabled (ballot)
   subgroupBallotFindMSB(ballot);            // ERROR extension not enabled (ballot)

   subgroupShuffle(f4, 0);           // ERROR extension not enabled (shuffle)
   subgroupShuffleXor(f4, 0x1);      // ERROR extension not enabled (shuffle)
   subgroupShuffleUp(f4, 1);         // ERROR extension not enabled (shuffle_relative)
   subgroupShuffleDown(f4, 1);       // ERROR extension not enabled (shuffle_relative)

   result = subgroupAdd(f4);         // ERROR, extension not enabled (arith)
   subgroupMul(f4);                  // ERROR, extension not enabled (arith)
   subgroupMin(f4);                  // ERROR, extension not enabled (arith)
   subgroupMax(f4);                  // ERROR, extension not enabled (arith)
   subgroupAnd(ballot);              // ERROR, extension not enabled (arith)
   subgroupOr(ballot);               // ERROR, extension not enabled (arith)
   subgroupXor(ballot);              // ERROR, extension not enabled (arith)
   subgroupInclusiveAdd(f4);         // ERROR, extension not enabled (arith)
   subgroupInclusiveMul(f4);         // ERROR, extension not enabled (arith)
   subgroupInclusiveMin(f4);         // ERROR, extension not enabled (arith)
   subgroupInclusiveMax(f4);         // ERROR, extension not enabled (arith)
   subgroupInclusiveAnd(ballot);     // ERROR, extension not enabled (arith)
   subgroupInclusiveOr(ballot);      // ERROR, extension not enabled (arith)
   subgroupInclusiveXor(ballot);     // ERROR, extension not enabled (arith)
   subgroupExclusiveAdd(f4);         // ERROR, extension not enabled (arith)
   subgroupExclusiveMul(f4);         // ERROR, extension not enabled (arith)
   subgroupExclusiveMin(f4);         // ERROR, extension not enabled (arith)
   subgroupExclusiveMax(f4);         // ERROR, extension not enabled (arith)
   subgroupExclusiveAnd(ballot);     // ERROR, extension not enabled (arith)
   subgroupExclusiveOr(ballot);      // ERROR, extension not enabled (arith)
   subgroupExclusiveXor(ballot);     // ERROR, extension not enabled (arith)

   subgroupClusteredAdd(f4, 2);      // ERROR, extension not enabled (clustered)
   subgroupClusteredMul(f4, 2);      // ERROR, extension not enabled (clustered)
   subgroupClusteredMin(f4, 2);      // ERROR, extension not enabled (clustered)
   subgroupClusteredMax(f4, 2);      // ERROR, extension not enabled (clustered)
   subgroupClusteredAnd(ballot, 2);  // ERROR, extension not enabled (clustered)
   subgroupClusteredOr(ballot, 2);   // ERROR, extension not enabled (clustered)
   subgroupClusteredXor(ballot, 2);  // ERROR, extension not enabled (clustered)

   subgroupQuadBroadcast(f4, 0);     // ERROR, extension not enabled (quad)
   subgroupQuadSwapHorizontal(f4);   // ERROR, extension not enabled (quad)
   subgroupQuadSwapVertical(f4);     // ERROR, extension not enabled (quad)
   subgroupQuadSwapDiagonal(f4);     // ERROR, extension not enabled (quad)

   uvec4 parti = subgroupPartitionNV(f4);                // ERROR, extension not enabled (partitioned)
   subgroupPartitionedAddNV(f4, parti);                  // ERROR, extension not enabled (partitioned)
   subgroupPartitionedMulNV(f4, parti);                  // ERROR, extension not enabled (partitioned)
   subgroupPartitionedMinNV(f4, parti);                  // ERROR, extension not enabled (partitioned)
   subgroupPartitionedMaxNV(f4, parti);                  // ERROR, extension not enabled (partitioned)
   subgroupPartitionedAndNV(ballot, parti);              // ERROR, extension not enabled (partitioned)
   subgroupPartitionedOrNV(ballot, parti);               // ERROR, extension not enabled (partitioned)
   subgroupPartitionedXorNV(ballot, parti);              // ERROR, extension not enabled (partitioned)
   subgroupPartitionedInclusiveAddNV(f4, parti);         // ERROR, extension not enabled (partitioned)
   subgroupPartitionedInclusiveMulNV(f4, parti);         // ERROR, extension not enabled (partitioned)
   subgroupPartitionedInclusiveMinNV(f4, parti);         // ERROR, extension not enabled (partitioned)
   subgroupPartitionedInclusiveMaxNV(f4, parti);         // ERROR, extension not enabled (partitioned)
   subgroupPartitionedInclusiveAndNV(ballot, parti);     // ERROR, extension not enabled (partitioned)
   subgroupPartitionedInclusiveOrNV(ballot, parti);      // ERROR, extension not enabled (partitioned)
   subgroupPartitionedInclusiveXorNV(ballot, parti);     // ERROR, extension not enabled (partitioned)
   subgroupPartitionedExclusiveAddNV(f4, parti);         // ERROR, extension not enabled (partitioned)
   subgroupPartitionedExclusiveMulNV(f4, parti);         // ERROR, extension not enabled (partitioned)
   subgroupPartitionedExclusiveMinNV(f4, parti);         // ERROR, extension not enabled (partitioned)
   subgroupPartitionedExclusiveMaxNV(f4, parti);         // ERROR, extension not enabled (partitioned)
   subgroupPartitionedExclusiveAndNV(ballot, parti);     // ERROR, extension not enabled (partitioned)
   subgroupPartitionedExclusiveOrNV(ballot, parti);      // ERROR, extension not enabled (partitioned)
   subgroupPartitionedExclusiveXorNV(ballot, parti);     // ERROR, extension not enabled (partitioned)

   return result;
 }


 layout(binding = 0, set = 0) uniform accelerationStructureNV accNV;
 layout(location = 0) rayPayloadNV vec4 localPayload;
 layout(location = 1) rayPayloadInNV vec4 incomingPayload;
 void main()
 {
 	uvec3 v0 = gl_LaunchIDNV;
 	uvec3 v1 = gl_LaunchSizeNV;
 	vec3 v2 = gl_WorldRayOriginNV;
 	vec3 v3 = gl_WorldRayDirectionNV;
 	vec3 v4 = gl_ObjectRayOriginNV;
 	vec3 v5 = gl_ObjectRayDirectionNV;
 	float v6 = gl_RayTminNV;
 	float v7 = gl_RayTmaxNV;
 	traceNV(accNV, 0u, 1u, 2u, 3u, 0u, vec3(0.5f), 0.5f, vec3(1.0f), 0.75f, 1);
 }

 #extension GL_KHR_shader_subgroup_basic: enable
 void basic_works (void)
 {
   gl_SubgroupSize;
   gl_SubgroupInvocationID;
   subgroupBarrier();
   subgroupMemoryBarrier();
   subgroupMemoryBarrierBuffer();
   subgroupMemoryBarrierImage();
   subgroupElect();
 }

 #extension GL_KHR_shader_subgroup_ballot: enable
 void ballot_works(vec4 f4) {
   gl_SubgroupEqMask;
   gl_SubgroupGeMask;
   gl_SubgroupGtMask;
   gl_SubgroupLeMask;
   gl_SubgroupLtMask;
   subgroupBroadcast(f4, 0);
   subgroupBroadcastFirst(f4);
   uvec4 ballot = subgroupBallot(false);
   subgroupInverseBallot(uvec4(0x1));
   subgroupBallotBitExtract(ballot, 0);
   subgroupBallotBitCount(ballot);
   subgroupBallotInclusiveBitCount(ballot);
   subgroupBallotExclusiveBitCount(ballot);
   subgroupBallotFindLSB(ballot);
   subgroupBallotFindMSB(ballot);
 }

 #extension GL_KHR_shader_subgroup_vote: enable
 void vote_works(vec4 f4)
 {
   subgroupAll(true);
   subgroupAny(false);
   subgroupAllEqual(f4);
 }

 #extension GL_KHR_shader_subgroup_shuffle: enable
 #extension GL_KHR_shader_subgroup_shuffle_relative: enable
 void shuffle_works(vec4 f4)
 {
   subgroupShuffle(f4, 0);
   subgroupShuffleXor(f4, 0x1);
   subgroupShuffleUp(f4, 1);
   subgroupShuffleDown(f4, 1);
 }

 #extension GL_KHR_shader_subgroup_arithmetic: enable
 void arith_works(vec4 f4)
 {
   uvec4 ballot;
   subgroupAdd(f4);
   subgroupMul(f4);
   subgroupMin(f4);
   subgroupMax(f4);
   subgroupAnd(ballot);
   subgroupOr(ballot);
   subgroupXor(ballot);
   subgroupInclusiveAdd(f4);
   subgroupInclusiveMul(f4);
   subgroupInclusiveMin(f4);
   subgroupInclusiveMax(f4);
   subgroupInclusiveAnd(ballot);
   subgroupInclusiveOr(ballot);
   subgroupInclusiveXor(ballot);
   subgroupExclusiveAdd(f4);
   subgroupExclusiveMul(f4);
   subgroupExclusiveMin(f4);
   subgroupExclusiveMax(f4);
   subgroupExclusiveAnd(ballot);
   subgroupExclusiveOr(ballot);
   subgroupExclusiveXor(ballot);
 }

 #extension GL_KHR_shader_subgroup_clustered: enable
 void clustered_works(vec4 f4)
 {
   uvec4 ballot = uvec4(0x55,0,0,0);
   subgroupClusteredAdd(f4, 2);
   subgroupClusteredMul(f4, 2);
   subgroupClusteredMin(f4, 2);
   subgroupClusteredMax(f4, 2);
   subgroupClusteredAnd(ballot, 2);
   subgroupClusteredOr(ballot, 2);
   subgroupClusteredXor(ballot, 2);
 }

 #extension GL_KHR_shader_subgroup_quad: enable
 void quad_works(vec4 f4)
 {
   subgroupQuadBroadcast(f4, 0);
   subgroupQuadSwapHorizontal(f4);
   subgroupQuadSwapVertical(f4);
   subgroupQuadSwapDiagonal(f4);
 }

 #extension GL_NV_shader_subgroup_partitioned: enable
 void partitioned_works(vec4 f4)
 {
   uvec4 parti = subgroupPartitionNV(f4);
   uvec4 ballot = uvec4(0x55,0,0,0);
   subgroupPartitionedAddNV(f4, parti);
   subgroupPartitionedMulNV(f4, parti);
   subgroupPartitionedMinNV(f4, parti);
   subgroupPartitionedMaxNV(f4, parti);
   subgroupPartitionedAndNV(ballot, parti);
   subgroupPartitionedOrNV(ballot, parti);
   subgroupPartitionedXorNV(ballot, parti);
   subgroupPartitionedInclusiveAddNV(f4, parti);
   subgroupPartitionedInclusiveMulNV(f4, parti);
   subgroupPartitionedInclusiveMinNV(f4, parti);
   subgroupPartitionedInclusiveMaxNV(f4, parti);
   subgroupPartitionedInclusiveAndNV(ballot, parti);
   subgroupPartitionedInclusiveOrNV(ballot, parti);
   subgroupPartitionedInclusiveXorNV(ballot, parti);
   subgroupPartitionedExclusiveAddNV(f4, parti);
   subgroupPartitionedExclusiveMulNV(f4, parti);
   subgroupPartitionedExclusiveMinNV(f4, parti);
   subgroupPartitionedExclusiveMaxNV(f4, parti);
   subgroupPartitionedExclusiveAndNV(ballot, parti);
   subgroupPartitionedExclusiveOrNV(ballot, parti);
   subgroupPartitionedExclusiveXorNV(ballot, parti);
 }

 // tests for NV_shader_sm_builtins
 void sm_builtins_err()
 {
     gl_WarpsPerSMNV;    // ERROR, no extension
     gl_SMCountNV;       // ERROR, no extension
     gl_WarpIDNV;        // ERROR, no extension
     gl_SMIDNV;          // ERROR, no extension
 }

 #ifdef GL_NV_shader_sm_builtins
 #extension GL_NV_shader_sm_builtins : enable
 #endif

 void sm_builtins()
 {
     gl_WarpsPerSMNV;
     gl_SMCountNV;
     gl_WarpIDNV;
     gl_SMIDNV;
 }
	#version 460
	#extension GL_NV_ray_tracing : enable


	vec4 undeclared_errors(vec4 f4)
	{
	vec4 result;
	gl_SubgroupSize; // ERROR, extension not enabled (basic)
	gl_SubgroupInvocationID; // ERROR, extension not enabled (basic)
	subgroupBarrier(); // ERROR, extension not enabled (basic)
	subgroupMemoryBarrier(); // ERROR, extension not enabled (basic)
	subgroupMemoryBarrierBuffer(); // ERROR, extension not enabled (basic)
	subgroupMemoryBarrierImage(); // ERROR, extension not enabled (basic)
	subgroupElect(); // ERROR, extension not enabled (basic)
	gl_NumSubgroups; // ERROR, only defined in compute
	gl_SubgroupID; // ERROR, only defined in compute
	subgroupMemoryBarrierShared(); // ERROR, only defined in compute

	subgroupAll(true); // ERROR extension not enabled (vote)
	subgroupAny(false); // ERROR extension not enabled (vote)
	subgroupAllEqual(f4); // ERROR extension not enabled (vote)

	gl_SubgroupEqMask; // ERROR extension not enabled (ballot)
	gl_SubgroupGeMask; // ERROR extension not enabled (ballot)
	gl_SubgroupGtMask; // ERROR extension not enabled (ballot)
	gl_SubgroupLeMask; // ERROR extension not enabled (ballot)
	gl_SubgroupLtMask; // ERROR extension not enabled (ballot)
	subgroupBroadcast(f4, 0); // ERROR extension not enabled (ballot)
	subgroupBroadcastFirst(f4); // ERROR extension not enabled (ballot)
	uvec4 ballot = subgroupBallot(false); // ERROR extension not enabled (ballot)
	subgroupInverseBallot(uvec4(0x1)); // ERROR extension not enabled (ballot)
	subgroupBallotBitExtract(ballot, 0); // ERROR extension not enabled (ballot)
	subgroupBallotBitCount(ballot); // ERROR extension not enabled (ballot)
	subgroupBallotInclusiveBitCount(ballot); // ERROR extension not enabled (ballot)
	subgroupBallotExclusiveBitCount(ballot); // ERROR extension not enabled (ballot)
	subgroupBallotFindLSB(ballot); // ERROR extension not enabled (ballot)
	subgroupBallotFindMSB(ballot); // ERROR extension not enabled (ballot)

	subgroupShuffle(f4, 0); // ERROR extension not enabled (shuffle)
	subgroupShuffleXor(f4, 0x1); // ERROR extension not enabled (shuffle)
	subgroupShuffleUp(f4, 1); // ERROR extension not enabled (shuffle_relative)
	subgroupShuffleDown(f4, 1); // ERROR extension not enabled (shuffle_relative)

	result = subgroupAdd(f4); // ERROR, extension not enabled (arith)
	subgroupMul(f4); // ERROR, extension not enabled (arith)
	subgroupMin(f4); // ERROR, extension not enabled (arith)
	subgroupMax(f4); // ERROR, extension not enabled (arith)
	subgroupAnd(ballot); // ERROR, extension not enabled (arith)
	subgroupOr(ballot); // ERROR, extension not enabled (arith)
	subgroupXor(ballot); // ERROR, extension not enabled (arith)
	subgroupInclusiveAdd(f4); // ERROR, extension not enabled (arith)
	subgroupInclusiveMul(f4); // ERROR, extension not enabled (arith)
	subgroupInclusiveMin(f4); // ERROR, extension not enabled (arith)
	subgroupInclusiveMax(f4); // ERROR, extension not enabled (arith)
	subgroupInclusiveAnd(ballot); // ERROR, extension not enabled (arith)
	subgroupInclusiveOr(ballot); // ERROR, extension not enabled (arith)
	subgroupInclusiveXor(ballot); // ERROR, extension not enabled (arith)
	subgroupExclusiveAdd(f4); // ERROR, extension not enabled (arith)
	subgroupExclusiveMul(f4); // ERROR, extension not enabled (arith)
	subgroupExclusiveMin(f4); // ERROR, extension not enabled (arith)
	subgroupExclusiveMax(f4); // ERROR, extension not enabled (arith)
	subgroupExclusiveAnd(ballot); // ERROR, extension not enabled (arith)
	subgroupExclusiveOr(ballot); // ERROR, extension not enabled (arith)
	subgroupExclusiveXor(ballot); // ERROR, extension not enabled (arith)

	subgroupClusteredAdd(f4, 2); // ERROR, extension not enabled (clustered)
	subgroupClusteredMul(f4, 2); // ERROR, extension not enabled (clustered)
	subgroupClusteredMin(f4, 2); // ERROR, extension not enabled (clustered)
	subgroupClusteredMax(f4, 2); // ERROR, extension not enabled (clustered)
	subgroupClusteredAnd(ballot, 2); // ERROR, extension not enabled (clustered)
	subgroupClusteredOr(ballot, 2); // ERROR, extension not enabled (clustered)
	subgroupClusteredXor(ballot, 2); // ERROR, extension not enabled (clustered)

	subgroupQuadBroadcast(f4, 0); // ERROR, extension not enabled (quad)
	subgroupQuadSwapHorizontal(f4); // ERROR, extension not enabled (quad)
	subgroupQuadSwapVertical(f4); // ERROR, extension not enabled (quad)
	subgroupQuadSwapDiagonal(f4); // ERROR, extension not enabled (quad)

	uvec4 parti = subgroupPartitionNV(f4); // ERROR, extension not enabled (partitioned)
	subgroupPartitionedAddNV(f4, parti); // ERROR, extension not enabled (partitioned)
	subgroupPartitionedMulNV(f4, parti); // ERROR, extension not enabled (partitioned)
	subgroupPartitionedMinNV(f4, parti); // ERROR, extension not enabled (partitioned)
	subgroupPartitionedMaxNV(f4, parti); // ERROR, extension not enabled (partitioned)
	subgroupPartitionedAndNV(ballot, parti); // ERROR, extension not enabled (partitioned)
	subgroupPartitionedOrNV(ballot, parti); // ERROR, extension not enabled (partitioned)
	subgroupPartitionedXorNV(ballot, parti); // ERROR, extension not enabled (partitioned)
	subgroupPartitionedInclusiveAddNV(f4, parti); // ERROR, extension not enabled (partitioned)
	subgroupPartitionedInclusiveMulNV(f4, parti); // ERROR, extension not enabled (partitioned)
	subgroupPartitionedInclusiveMinNV(f4, parti); // ERROR, extension not enabled (partitioned)
	subgroupPartitionedInclusiveMaxNV(f4, parti); // ERROR, extension not enabled (partitioned)
	subgroupPartitionedInclusiveAndNV(ballot, parti); // ERROR, extension not enabled (partitioned)
	subgroupPartitionedInclusiveOrNV(ballot, parti); // ERROR, extension not enabled (partitioned)
	subgroupPartitionedInclusiveXorNV(ballot, parti); // ERROR, extension not enabled (partitioned)
	subgroupPartitionedExclusiveAddNV(f4, parti); // ERROR, extension not enabled (partitioned)
	subgroupPartitionedExclusiveMulNV(f4, parti); // ERROR, extension not enabled (partitioned)
	subgroupPartitionedExclusiveMinNV(f4, parti); // ERROR, extension not enabled (partitioned)
	subgroupPartitionedExclusiveMaxNV(f4, parti); // ERROR, extension not enabled (partitioned)
	subgroupPartitionedExclusiveAndNV(ballot, parti); // ERROR, extension not enabled (partitioned)
	subgroupPartitionedExclusiveOrNV(ballot, parti); // ERROR, extension not enabled (partitioned)
	subgroupPartitionedExclusiveXorNV(ballot, parti); // ERROR, extension not enabled (partitioned)

	return result;
	}


	layout(binding = 0, set = 0) uniform accelerationStructureNV accNV;
	layout(location = 0) rayPayloadNV vec4 localPayload;
	layout(location = 1) rayPayloadInNV vec4 incomingPayload;
	void main()
	{
	uvec3 v0 = gl_LaunchIDNV;
	uvec3 v1 = gl_LaunchSizeNV;
	vec3 v2 = gl_WorldRayOriginNV;
	vec3 v3 = gl_WorldRayDirectionNV;
	vec3 v4 = gl_ObjectRayOriginNV;
	vec3 v5 = gl_ObjectRayDirectionNV;
	float v6 = gl_RayTminNV;
	float v7 = gl_RayTmaxNV;
	traceNV(accNV, 0u, 1u, 2u, 3u, 0u, vec3(0.5f), 0.5f, vec3(1.0f), 0.75f, 1);
	}

	#extension GL_KHR_shader_subgroup_basic: enable
	void basic_works (void)
	{
	gl_SubgroupSize;
	gl_SubgroupInvocationID;
	subgroupBarrier();
	subgroupMemoryBarrier();
	subgroupMemoryBarrierBuffer();
	subgroupMemoryBarrierImage();
	subgroupElect();
	}

	#extension GL_KHR_shader_subgroup_ballot: enable
	void ballot_works(vec4 f4) {
	gl_SubgroupEqMask;
	gl_SubgroupGeMask;
	gl_SubgroupGtMask;
	gl_SubgroupLeMask;
	gl_SubgroupLtMask;
	subgroupBroadcast(f4, 0);
	subgroupBroadcastFirst(f4);
	uvec4 ballot = subgroupBallot(false);
	subgroupInverseBallot(uvec4(0x1));
	subgroupBallotBitExtract(ballot, 0);
	subgroupBallotBitCount(ballot);
	subgroupBallotInclusiveBitCount(ballot);
	subgroupBallotExclusiveBitCount(ballot);
	subgroupBallotFindLSB(ballot);
	subgroupBallotFindMSB(ballot);
	}

	#extension GL_KHR_shader_subgroup_vote: enable
	void vote_works(vec4 f4)
	{
	subgroupAll(true);
	subgroupAny(false);
	subgroupAllEqual(f4);
	}

	#extension GL_KHR_shader_subgroup_shuffle: enable
	#extension GL_KHR_shader_subgroup_shuffle_relative: enable
	void shuffle_works(vec4 f4)
	{
	subgroupShuffle(f4, 0);
	subgroupShuffleXor(f4, 0x1);
	subgroupShuffleUp(f4, 1);
	subgroupShuffleDown(f4, 1);
	}

	#extension GL_KHR_shader_subgroup_arithmetic: enable
	void arith_works(vec4 f4)
	{
	uvec4 ballot;
	subgroupAdd(f4);
	subgroupMul(f4);
	subgroupMin(f4);
	subgroupMax(f4);
	subgroupAnd(ballot);
	subgroupOr(ballot);
	subgroupXor(ballot);
	subgroupInclusiveAdd(f4);
	subgroupInclusiveMul(f4);
	subgroupInclusiveMin(f4);
	subgroupInclusiveMax(f4);
	subgroupInclusiveAnd(ballot);
	subgroupInclusiveOr(ballot);
	subgroupInclusiveXor(ballot);
	subgroupExclusiveAdd(f4);
	subgroupExclusiveMul(f4);
	subgroupExclusiveMin(f4);
	subgroupExclusiveMax(f4);
	subgroupExclusiveAnd(ballot);
	subgroupExclusiveOr(ballot);
	subgroupExclusiveXor(ballot);
	}

	#extension GL_KHR_shader_subgroup_clustered: enable
	void clustered_works(vec4 f4)
	{
	uvec4 ballot = uvec4(0x55,0,0,0);
	subgroupClusteredAdd(f4, 2);
	subgroupClusteredMul(f4, 2);
	subgroupClusteredMin(f4, 2);
	subgroupClusteredMax(f4, 2);
	subgroupClusteredAnd(ballot, 2);
	subgroupClusteredOr(ballot, 2);
	subgroupClusteredXor(ballot, 2);
	}

	#extension GL_KHR_shader_subgroup_quad: enable
	void quad_works(vec4 f4)
	{
	subgroupQuadBroadcast(f4, 0);
	subgroupQuadSwapHorizontal(f4);
	subgroupQuadSwapVertical(f4);
	subgroupQuadSwapDiagonal(f4);
	}

	#extension GL_NV_shader_subgroup_partitioned: enable
	void partitioned_works(vec4 f4)
	{
	uvec4 parti = subgroupPartitionNV(f4);
	uvec4 ballot = uvec4(0x55,0,0,0);
	subgroupPartitionedAddNV(f4, parti);
	subgroupPartitionedMulNV(f4, parti);
	subgroupPartitionedMinNV(f4, parti);
	subgroupPartitionedMaxNV(f4, parti);
	subgroupPartitionedAndNV(ballot, parti);
	subgroupPartitionedOrNV(ballot, parti);
	subgroupPartitionedXorNV(ballot, parti);
	subgroupPartitionedInclusiveAddNV(f4, parti);
	subgroupPartitionedInclusiveMulNV(f4, parti);
	subgroupPartitionedInclusiveMinNV(f4, parti);
	subgroupPartitionedInclusiveMaxNV(f4, parti);
	subgroupPartitionedInclusiveAndNV(ballot, parti);
	subgroupPartitionedInclusiveOrNV(ballot, parti);
	subgroupPartitionedInclusiveXorNV(ballot, parti);
	subgroupPartitionedExclusiveAddNV(f4, parti);
	subgroupPartitionedExclusiveMulNV(f4, parti);
	subgroupPartitionedExclusiveMinNV(f4, parti);
	subgroupPartitionedExclusiveMaxNV(f4, parti);
	subgroupPartitionedExclusiveAndNV(ballot, parti);
	subgroupPartitionedExclusiveOrNV(ballot, parti);
	subgroupPartitionedExclusiveXorNV(ballot, parti);
	}

	// tests for NV_shader_sm_builtins
	void sm_builtins_err()
	{
	gl_WarpsPerSMNV; // ERROR, no extension
	gl_SMCountNV; // ERROR, no extension
	gl_WarpIDNV; // ERROR, no extension
	gl_SMIDNV; // ERROR, no extension
	}

	#ifdef GL_NV_shader_sm_builtins
	#extension GL_NV_shader_sm_builtins : enable
	#endif

	void sm_builtins()
	{
	gl_WarpsPerSMNV;
	gl_SMCountNV;
	gl_WarpIDNV;
	gl_SMIDNV;
	}