/* * Copyright (C) 2016 Intel Corporation * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS * IN THE SOFTWARE. */ /* Instructions, enums and structures for BDW. * * This file has been generated, do not hand edit. */ #ifndef GEN8_PACK_H #define GEN8_PACK_H #include #include #include #include #include #ifndef __gen_validate_value #define __gen_validate_value(x) #endif #ifndef __gen_field_functions #define __gen_field_functions #ifdef NDEBUG #define NDEBUG_UNUSED __attribute__((unused)) #else #define NDEBUG_UNUSED #endif union __gen_value { float f; uint32_t dw; }; static inline uint64_t __gen_mbo(uint32_t start, uint32_t end) { return (~0ull >> (64 - (end - start + 1))) << start; } static inline uint64_t __gen_uint(uint64_t v, uint32_t start, NDEBUG_UNUSED uint32_t end) { __gen_validate_value(v); #ifndef NDEBUG const int width = end - start + 1; if (width < 64) { const uint64_t max = (1ull << width) - 1; assert(v <= max); } #endif return v << start; } static inline uint64_t __gen_sint(int64_t v, uint32_t start, uint32_t end) { const int width = end - start + 1; __gen_validate_value(v); #ifndef NDEBUG if (width < 64) { const int64_t max = (1ll << (width - 1)) - 1; const int64_t min = -(1ll << (width - 1)); assert(min <= v && v <= max); } #endif const uint64_t mask = ~0ull >> (64 - width); return (v & mask) << start; } static inline uint64_t __gen_offset(uint64_t v, NDEBUG_UNUSED uint32_t start, NDEBUG_UNUSED uint32_t end) { __gen_validate_value(v); #ifndef NDEBUG uint64_t mask = (~0ull >> (64 - (end - start + 1))) << start; assert((v & ~mask) == 0); #endif return v; } static inline uint32_t __gen_float(float v) { __gen_validate_value(v); return ((union __gen_value) { .f = (v) }).dw; } static inline uint64_t __gen_sfixed(float v, uint32_t start, uint32_t end, uint32_t fract_bits) { __gen_validate_value(v); const float factor = (1 << fract_bits); #ifndef NDEBUG const float max = ((1 << (end - start)) - 1) / factor; const float min = -(1 << (end - start)) / factor; assert(min <= v && v <= max); #endif const int64_t int_val = llroundf(v * factor); const uint64_t mask = ~0ull >> (64 - (end - start + 1)); return (int_val & mask) << start; } static inline uint64_t __gen_ufixed(float v, uint32_t start, NDEBUG_UNUSED uint32_t end, uint32_t fract_bits) { __gen_validate_value(v); const float factor = (1 << fract_bits); #ifndef NDEBUG const float max = ((1 << (end - start + 1)) - 1) / factor; const float min = 0.0f; assert(min <= v && v <= max); #endif const uint64_t uint_val = llroundf(v * factor); return uint_val << start; } #ifndef __gen_address_type #error #define __gen_address_type before including this file #endif #ifndef __gen_user_data #error #define __gen_combine_address before including this file #endif #undef NDEBUG_UNUSED #endif enum GEN8_3D_Color_Buffer_Blend_Factor { BLENDFACTOR_ONE = 1, BLENDFACTOR_SRC_COLOR = 2, BLENDFACTOR_SRC_ALPHA = 3, BLENDFACTOR_DST_ALPHA = 4, BLENDFACTOR_DST_COLOR = 5, BLENDFACTOR_SRC_ALPHA_SATURATE = 6, BLENDFACTOR_CONST_COLOR = 7, BLENDFACTOR_CONST_ALPHA = 8, BLENDFACTOR_SRC1_COLOR = 9, BLENDFACTOR_SRC1_ALPHA = 10, BLENDFACTOR_ZERO = 17, BLENDFACTOR_INV_SRC_COLOR = 18, BLENDFACTOR_INV_SRC_ALPHA = 19, BLENDFACTOR_INV_DST_ALPHA = 20, BLENDFACTOR_INV_DST_COLOR = 21, BLENDFACTOR_INV_CONST_COLOR = 23, BLENDFACTOR_INV_CONST_ALPHA = 24, BLENDFACTOR_INV_SRC1_COLOR = 25, BLENDFACTOR_INV_SRC1_ALPHA = 26, }; enum GEN8_3D_Color_Buffer_Blend_Function { BLENDFUNCTION_ADD = 0, BLENDFUNCTION_SUBTRACT = 1, BLENDFUNCTION_REVERSE_SUBTRACT = 2, BLENDFUNCTION_MIN = 3, BLENDFUNCTION_MAX = 4, }; enum GEN8_3D_Compare_Function { COMPAREFUNCTION_ALWAYS = 0, COMPAREFUNCTION_NEVER = 1, COMPAREFUNCTION_LESS = 2, COMPAREFUNCTION_EQUAL = 3, COMPAREFUNCTION_LEQUAL = 4, COMPAREFUNCTION_GREATER = 5, COMPAREFUNCTION_NOTEQUAL = 6, COMPAREFUNCTION_GEQUAL = 7, }; enum GEN8_3D_Logic_Op_Function { LOGICOP_CLEAR = 0, LOGICOP_NOR = 1, LOGICOP_AND_INVERTED = 2, LOGICOP_COPY_INVERTED = 3, LOGICOP_AND_REVERSE = 4, LOGICOP_INVERT = 5, LOGICOP_XOR = 6, LOGICOP_NAND = 7, LOGICOP_AND = 8, LOGICOP_EQUIV = 9, LOGICOP_NOOP = 10, LOGICOP_OR_INVERTED = 11, LOGICOP_COPY = 12, LOGICOP_OR_REVERSE = 13, LOGICOP_OR = 14, LOGICOP_SET = 15, }; enum GEN8_3D_Prim_Topo_Type { _3DPRIM_POINTLIST = 1, _3DPRIM_LINELIST = 2, _3DPRIM_LINESTRIP = 3, _3DPRIM_TRILIST = 4, _3DPRIM_TRISTRIP = 5, _3DPRIM_TRIFAN = 6, _3DPRIM_QUADLIST = 7, _3DPRIM_QUADSTRIP = 8, _3DPRIM_LINELIST_ADJ = 9, _3DPRIM_LINESTRIP_ADJ = 10, _3DPRIM_TRILIST_ADJ = 11, _3DPRIM_TRISTRIP_ADJ = 12, _3DPRIM_TRISTRIP_REVERSE = 13, _3DPRIM_POLYGON = 14, _3DPRIM_RECTLIST = 15, _3DPRIM_LINELOOP = 16, _3DPRIM_POINTLIST_BF = 17, _3DPRIM_LINESTRIP_CONT = 18, _3DPRIM_LINESTRIP_BF = 19, _3DPRIM_LINESTRIP_CONT_BF = 20, _3DPRIM_TRIFAN_NOSTIPPLE = 22, _3DPRIM_PATCHLIST_1 = 32, _3DPRIM_PATCHLIST_2 = 33, _3DPRIM_PATCHLIST_3 = 34, _3DPRIM_PATCHLIST_4 = 35, _3DPRIM_PATCHLIST_5 = 36, _3DPRIM_PATCHLIST_6 = 37, _3DPRIM_PATCHLIST_7 = 38, _3DPRIM_PATCHLIST_8 = 39, _3DPRIM_PATCHLIST_9 = 40, _3DPRIM_PATCHLIST_10 = 41, _3DPRIM_PATCHLIST_11 = 42, _3DPRIM_PATCHLIST_12 = 43, _3DPRIM_PATCHLIST_13 = 44, _3DPRIM_PATCHLIST_14 = 45, _3DPRIM_PATCHLIST_15 = 46, _3DPRIM_PATCHLIST_16 = 47, _3DPRIM_PATCHLIST_17 = 48, _3DPRIM_PATCHLIST_18 = 49, _3DPRIM_PATCHLIST_19 = 50, _3DPRIM_PATCHLIST_20 = 51, _3DPRIM_PATCHLIST_21 = 52, _3DPRIM_PATCHLIST_22 = 53, _3DPRIM_PATCHLIST_23 = 54, _3DPRIM_PATCHLIST_24 = 55, _3DPRIM_PATCHLIST_25 = 56, _3DPRIM_PATCHLIST_26 = 57, _3DPRIM_PATCHLIST_27 = 58, _3DPRIM_PATCHLIST_28 = 59, _3DPRIM_PATCHLIST_29 = 60, _3DPRIM_PATCHLIST_30 = 61, _3DPRIM_PATCHLIST_31 = 62, _3DPRIM_PATCHLIST_32 = 63, }; enum GEN8_3D_Stencil_Operation { STENCILOP_KEEP = 0, STENCILOP_ZERO = 1, STENCILOP_REPLACE = 2, STENCILOP_INCRSAT = 3, STENCILOP_DECRSAT = 4, STENCILOP_INCR = 5, STENCILOP_DECR = 6, STENCILOP_INVERT = 7, }; enum GEN8_3D_Vertex_Component_Control { VFCOMP_NOSTORE = 0, VFCOMP_STORE_SRC = 1, VFCOMP_STORE_0 = 2, VFCOMP_STORE_1_FP = 3, VFCOMP_STORE_1_INT = 4, VFCOMP_STORE_PID = 7, }; enum GEN8_ClearColor { CC_ZERO = 0, CC_ONE = 1, }; enum GEN8_ShaderChannelSelect { SCS_ZERO = 0, SCS_ONE = 1, SCS_RED = 4, SCS_GREEN = 5, SCS_BLUE = 6, SCS_ALPHA = 7, }; enum GEN8_TextureCoordinateMode { TCM_WRAP = 0, TCM_MIRROR = 1, TCM_CLAMP = 2, TCM_CUBE = 3, TCM_CLAMP_BORDER = 4, TCM_MIRROR_ONCE = 5, TCM_HALF_BORDER = 6, }; enum GEN8_WRAP_SHORTEST_ENABLE { WSE_X = 1, WSE_Y = 2, WSE_XY = 3, WSE_Z = 4, WSE_XZ = 5, WSE_YZ = 6, WSE_XYZ = 7, WSE_W = 8, WSE_XW = 9, WSE_YW = 10, WSE_XYW = 11, WSE_ZW = 12, WSE_XZW = 13, WSE_YZW = 14, WSE_XYZW = 15, }; #define GEN8_3DSTATE_CONSTANT_BODY_length 10 struct GEN8_3DSTATE_CONSTANT_BODY { uint32_t ReadLength[4]; __gen_address_type Buffer[4]; }; static inline void GEN8_3DSTATE_CONSTANT_BODY_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_CONSTANT_BODY * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->ReadLength[0], 0, 15) | __gen_uint(values->ReadLength[1], 16, 31); dw[1] = __gen_uint(values->ReadLength[2], 0, 15) | __gen_uint(values->ReadLength[3], 16, 31); const uint64_t v2_address = __gen_combine_address(data, &dw[2], values->Buffer[0], 0); dw[2] = v2_address; dw[3] = v2_address >> 32; const uint64_t v4_address = __gen_combine_address(data, &dw[4], values->Buffer[1], 0); dw[4] = v4_address; dw[5] = v4_address >> 32; const uint64_t v6_address = __gen_combine_address(data, &dw[6], values->Buffer[2], 0); dw[6] = v6_address; dw[7] = v6_address >> 32; const uint64_t v8_address = __gen_combine_address(data, &dw[8], values->Buffer[3], 0); dw[8] = v8_address; dw[9] = v8_address >> 32; } #define GEN8_BINDING_TABLE_EDIT_ENTRY_length 1 struct GEN8_BINDING_TABLE_EDIT_ENTRY { uint64_t SurfaceStatePointer; uint32_t BindingTableIndex; }; static inline void GEN8_BINDING_TABLE_EDIT_ENTRY_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_BINDING_TABLE_EDIT_ENTRY * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_offset(values->SurfaceStatePointer, 0, 15) | __gen_uint(values->BindingTableIndex, 16, 23); } #define GEN8_BINDING_TABLE_STATE_length 1 struct GEN8_BINDING_TABLE_STATE { uint64_t SurfaceStatePointer; }; static inline void GEN8_BINDING_TABLE_STATE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_BINDING_TABLE_STATE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_offset(values->SurfaceStatePointer, 6, 31); } #define GEN8_BLEND_STATE_ENTRY_length 2 struct GEN8_BLEND_STATE_ENTRY { bool WriteDisableBlue; bool WriteDisableGreen; bool WriteDisableRed; bool WriteDisableAlpha; enum GEN8_3D_Color_Buffer_Blend_Function AlphaBlendFunction; enum GEN8_3D_Color_Buffer_Blend_Factor DestinationAlphaBlendFactor; enum GEN8_3D_Color_Buffer_Blend_Factor SourceAlphaBlendFactor; enum GEN8_3D_Color_Buffer_Blend_Function ColorBlendFunction; enum GEN8_3D_Color_Buffer_Blend_Factor DestinationBlendFactor; enum GEN8_3D_Color_Buffer_Blend_Factor SourceBlendFactor; bool ColorBufferBlendEnable; bool PostBlendColorClampEnable; bool PreBlendColorClampEnable; uint32_t ColorClampRange; #define COLORCLAMP_UNORM 0 #define COLORCLAMP_SNORM 1 #define COLORCLAMP_RTFORMAT 2 bool PreBlendSourceOnlyClampEnable; enum GEN8_3D_Logic_Op_Function LogicOpFunction; bool LogicOpEnable; }; static inline void GEN8_BLEND_STATE_ENTRY_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_BLEND_STATE_ENTRY * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->WriteDisableBlue, 0, 0) | __gen_uint(values->WriteDisableGreen, 1, 1) | __gen_uint(values->WriteDisableRed, 2, 2) | __gen_uint(values->WriteDisableAlpha, 3, 3) | __gen_uint(values->AlphaBlendFunction, 5, 7) | __gen_uint(values->DestinationAlphaBlendFactor, 8, 12) | __gen_uint(values->SourceAlphaBlendFactor, 13, 17) | __gen_uint(values->ColorBlendFunction, 18, 20) | __gen_uint(values->DestinationBlendFactor, 21, 25) | __gen_uint(values->SourceBlendFactor, 26, 30) | __gen_uint(values->ColorBufferBlendEnable, 31, 31); dw[1] = __gen_uint(values->PostBlendColorClampEnable, 0, 0) | __gen_uint(values->PreBlendColorClampEnable, 1, 1) | __gen_uint(values->ColorClampRange, 2, 3) | __gen_uint(values->PreBlendSourceOnlyClampEnable, 4, 4) | __gen_uint(values->LogicOpFunction, 27, 30) | __gen_uint(values->LogicOpEnable, 31, 31); } #define GEN8_BLEND_STATE_length 1 struct GEN8_BLEND_STATE { uint32_t YDitherOffset; uint32_t XDitherOffset; bool ColorDitherEnable; enum GEN8_3D_Compare_Function AlphaTestFunction; bool AlphaTestEnable; bool AlphaToCoverageDitherEnable; bool AlphaToOneEnable; bool IndependentAlphaBlendEnable; bool AlphaToCoverageEnable; /* variable length fields follow */ }; static inline void GEN8_BLEND_STATE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_BLEND_STATE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->YDitherOffset, 19, 20) | __gen_uint(values->XDitherOffset, 21, 22) | __gen_uint(values->ColorDitherEnable, 23, 23) | __gen_uint(values->AlphaTestFunction, 24, 26) | __gen_uint(values->AlphaTestEnable, 27, 27) | __gen_uint(values->AlphaToCoverageDitherEnable, 28, 28) | __gen_uint(values->AlphaToOneEnable, 29, 29) | __gen_uint(values->IndependentAlphaBlendEnable, 30, 30) | __gen_uint(values->AlphaToCoverageEnable, 31, 31); } #define GEN8_CC_VIEWPORT_length 2 struct GEN8_CC_VIEWPORT { float MinimumDepth; float MaximumDepth; }; static inline void GEN8_CC_VIEWPORT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_CC_VIEWPORT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_float(values->MinimumDepth); dw[1] = __gen_float(values->MaximumDepth); } #define GEN8_COLOR_CALC_STATE_length 6 struct GEN8_COLOR_CALC_STATE { uint32_t AlphaTestFormat; #define ALPHATEST_UNORM8 0 #define ALPHATEST_FLOAT32 1 bool RoundDisableFunctionDisable; uint32_t BackfaceStencilReferenceValue; uint32_t StencilReferenceValue; uint32_t AlphaReferenceValueAsUNORM8; float AlphaReferenceValueAsFLOAT32; float BlendConstantColorRed; float BlendConstantColorGreen; float BlendConstantColorBlue; float BlendConstantColorAlpha; }; static inline void GEN8_COLOR_CALC_STATE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_COLOR_CALC_STATE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->AlphaTestFormat, 0, 0) | __gen_uint(values->RoundDisableFunctionDisable, 15, 15) | __gen_uint(values->BackfaceStencilReferenceValue, 16, 23) | __gen_uint(values->StencilReferenceValue, 24, 31); dw[1] = __gen_uint(values->AlphaReferenceValueAsUNORM8, 0, 31) | __gen_float(values->AlphaReferenceValueAsFLOAT32); dw[2] = __gen_float(values->BlendConstantColorRed); dw[3] = __gen_float(values->BlendConstantColorGreen); dw[4] = __gen_float(values->BlendConstantColorBlue); dw[5] = __gen_float(values->BlendConstantColorAlpha); } #define GEN8_FILTER_COEFFICIENT_length 1 struct GEN8_FILTER_COEFFICIENT { float FilterCoefficient; }; static inline void GEN8_FILTER_COEFFICIENT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_FILTER_COEFFICIENT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_sfixed(values->FilterCoefficient, 0, 7, 6); } #define GEN8_GATHER_CONSTANT_ENTRY_length 1 struct GEN8_GATHER_CONSTANT_ENTRY { uint32_t BindingTableIndexOffset; uint32_t ChannelMask; uint64_t ConstantBufferOffset; }; static inline void GEN8_GATHER_CONSTANT_ENTRY_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_GATHER_CONSTANT_ENTRY * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->BindingTableIndexOffset, 0, 3) | __gen_uint(values->ChannelMask, 4, 7) | __gen_offset(values->ConstantBufferOffset, 8, 15); } #define GEN8_INLINE_DATA_DESCRIPTION_FOR_MFD_AVC_BSD_OBJECT_length 3 struct GEN8_INLINE_DATA_DESCRIPTION_FOR_MFD_AVC_BSD_OBJECT { bool MBErrorConcealmentPSliceWeightPredictionDisable; bool MBErrorConcealmentPSliceMotionVectorsOverrideDisable; bool MBErrorConcealmentBSpatialWeightPredictionDisable; bool MBErrorConcealmentBSpatialMotionVectorsOverrideDisable; uint32_t MBErrorConcealmentBSpatialPredictionMode; bool MBHeaderErrorHandling; bool EntropyErrorHandling; bool MPRErrorHandling; bool BSDPrematureCompleteErrorHandling; uint32_t ConcealmentPictureID; bool MBErrorConcealmentBTemporalWeightPredictionDisable; bool MBErrorConcealmentBTemporalMotionVectorsOverrideEnable; uint32_t MBErrorConcealmentBTemporalPredictionMode; bool IntraPredMode4x48x8LumaErrorControl; bool InitCurrentMBNumber; uint32_t ConcealmentMethod; uint32_t FirstMBBitOffset; bool LastSlice; bool EmulationPreventionBytePresent; bool FixPrevMBSkipped; uint32_t FirstMBByteOffsetofSliceDataorSliceHeader; bool IntraPredictionErrorControl; bool Intra8x84x4PredictionErrorConcealmentControl; uint32_t BSliceTemporalInterConcealmentMode; uint32_t BSliceSpatialInterConcealmentMode; uint32_t BSliceInterDirectTypeConcealmentMode; uint32_t BSliceConcealmentMode; #define IntraConcealment 1 #define InterConcealment 0 uint32_t PSliceInterConcealmentMode; uint32_t PSliceConcealmentMode; #define IntraConcealment 1 #define InterConcealment 0 uint32_t ConcealmentReferencePictureFieldBit; uint32_t ISliceConcealmentMode; #define IntraConcealment 1 #define InterConcealment 0 }; static inline void GEN8_INLINE_DATA_DESCRIPTION_FOR_MFD_AVC_BSD_OBJECT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_INLINE_DATA_DESCRIPTION_FOR_MFD_AVC_BSD_OBJECT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->MBErrorConcealmentPSliceWeightPredictionDisable, 0, 0) | __gen_uint(values->MBErrorConcealmentPSliceMotionVectorsOverrideDisable, 1, 1) | __gen_uint(values->MBErrorConcealmentBSpatialWeightPredictionDisable, 3, 3) | __gen_uint(values->MBErrorConcealmentBSpatialMotionVectorsOverrideDisable, 4, 4) | __gen_uint(values->MBErrorConcealmentBSpatialPredictionMode, 6, 7) | __gen_uint(values->MBHeaderErrorHandling, 8, 8) | __gen_uint(values->EntropyErrorHandling, 10, 10) | __gen_uint(values->MPRErrorHandling, 12, 12) | __gen_uint(values->BSDPrematureCompleteErrorHandling, 14, 14) | __gen_uint(values->ConcealmentPictureID, 16, 21) | __gen_uint(values->MBErrorConcealmentBTemporalWeightPredictionDisable, 24, 24) | __gen_uint(values->MBErrorConcealmentBTemporalMotionVectorsOverrideEnable, 25, 25) | __gen_uint(values->MBErrorConcealmentBTemporalPredictionMode, 27, 28) | __gen_uint(values->IntraPredMode4x48x8LumaErrorControl, 29, 29) | __gen_uint(values->InitCurrentMBNumber, 30, 30) | __gen_uint(values->ConcealmentMethod, 31, 31); dw[1] = __gen_uint(values->FirstMBBitOffset, 0, 2) | __gen_uint(values->LastSlice, 3, 3) | __gen_uint(values->EmulationPreventionBytePresent, 4, 4) | __gen_uint(values->FixPrevMBSkipped, 7, 7) | __gen_uint(values->FirstMBByteOffsetofSliceDataorSliceHeader, 16, 31); dw[2] = __gen_uint(values->IntraPredictionErrorControl, 0, 0) | __gen_uint(values->Intra8x84x4PredictionErrorConcealmentControl, 1, 1) | __gen_uint(values->BSliceTemporalInterConcealmentMode, 4, 6) | __gen_uint(values->BSliceSpatialInterConcealmentMode, 8, 10) | __gen_uint(values->BSliceInterDirectTypeConcealmentMode, 12, 13) | __gen_uint(values->BSliceConcealmentMode, 15, 15) | __gen_uint(values->PSliceInterConcealmentMode, 16, 18) | __gen_uint(values->PSliceConcealmentMode, 23, 23) | __gen_uint(values->ConcealmentReferencePictureFieldBit, 24, 29) | __gen_uint(values->ISliceConcealmentMode, 31, 31); } #define GEN8_INTERFACE_DESCRIPTOR_DATA_length 8 struct GEN8_INTERFACE_DESCRIPTOR_DATA { uint64_t KernelStartPointer; bool SoftwareExceptionEnable; bool MaskStackExceptionEnable; bool IllegalOpcodeExceptionEnable; uint32_t FloatingPointMode; #define IEEE754 0 #define Alternate 1 uint32_t ThreadPriority; #define NormalPriority 0 #define HighPriority 1 bool SingleProgramFlow; uint32_t DenormMode; #define Ftz 0 #define SetByKernel 1 uint32_t SamplerCount; #define Nosamplersused 0 #define Between1and4samplersused 1 #define Between5and8samplersused 2 #define Between9and12samplersused 3 #define Between13and16samplersused 4 uint64_t SamplerStatePointer; uint32_t BindingTableEntryCount; uint64_t BindingTablePointer; uint32_t ConstantURBEntryReadOffset; uint32_t ConstantURBEntryReadLength; uint32_t NumberofThreadsinGPGPUThreadGroup; uint32_t SharedLocalMemorySize; #define Encodes0k 0 #define Encodes4k 1 #define Encodes8k 2 #define Encodes16k 4 #define Encodes32k 8 #define Encodes64k 16 bool BarrierEnable; uint32_t RoundingMode; #define RTNE 0 #define RU 1 #define RD 2 #define RTZ 3 uint32_t CrossThreadConstantDataReadLength; }; static inline void GEN8_INTERFACE_DESCRIPTOR_DATA_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_INTERFACE_DESCRIPTOR_DATA * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; const uint64_t v0 = __gen_offset(values->KernelStartPointer, 6, 47); dw[0] = v0; dw[1] = v0 >> 32; dw[2] = __gen_uint(values->SoftwareExceptionEnable, 7, 7) | __gen_uint(values->MaskStackExceptionEnable, 11, 11) | __gen_uint(values->IllegalOpcodeExceptionEnable, 13, 13) | __gen_uint(values->FloatingPointMode, 16, 16) | __gen_uint(values->ThreadPriority, 17, 17) | __gen_uint(values->SingleProgramFlow, 18, 18) | __gen_uint(values->DenormMode, 19, 19); dw[3] = __gen_uint(values->SamplerCount, 2, 4) | __gen_offset(values->SamplerStatePointer, 5, 31); dw[4] = __gen_uint(values->BindingTableEntryCount, 0, 4) | __gen_offset(values->BindingTablePointer, 5, 15); dw[5] = __gen_uint(values->ConstantURBEntryReadOffset, 0, 15) | __gen_uint(values->ConstantURBEntryReadLength, 16, 31); dw[6] = __gen_uint(values->NumberofThreadsinGPGPUThreadGroup, 0, 9) | __gen_uint(values->SharedLocalMemorySize, 16, 20) | __gen_uint(values->BarrierEnable, 21, 21) | __gen_uint(values->RoundingMode, 22, 23); dw[7] = __gen_uint(values->CrossThreadConstantDataReadLength, 0, 7); } #define GEN8_MEMORYADDRESSATTRIBUTES_length 1 struct GEN8_MEMORYADDRESSATTRIBUTES { uint32_t AgeforQUADLRU; uint32_t TargetCache; #define eLLCOnly 0 #define LLCOnly 1 #define LLCeLLC 2 #define L3LLCeLLC 3 uint32_t ArbitrationPriorityControl; }; static inline void GEN8_MEMORYADDRESSATTRIBUTES_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MEMORYADDRESSATTRIBUTES * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->AgeforQUADLRU, 0, 1) | __gen_uint(values->TargetCache, 3, 4) | __gen_uint(values->ArbitrationPriorityControl, 7, 8); } #define GEN8_MEMORY_OBJECT_CONTROL_STATE_length 1 struct GEN8_MEMORY_OBJECT_CONTROL_STATE { uint32_t AgeforQUADLRU; uint32_t TargetCache; #define eLLCOnlywheneDRAMispresentelsegetsallocatedinLLC 0 #define LLCOnly 1 #define LLCeLLCAllowed 2 #define L3DefertoPATforLLCeLLCselection 3 uint32_t MemoryTypeLLCeLLCCacheabilityControl; #define UCwithFenceifcoherentcycle 0 #define UCUncacheable 1 #define WT 2 #define WB 3 }; static inline void GEN8_MEMORY_OBJECT_CONTROL_STATE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MEMORY_OBJECT_CONTROL_STATE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->AgeforQUADLRU, 0, 1) | __gen_uint(values->TargetCache, 3, 4) | __gen_uint(values->MemoryTypeLLCeLLCCacheabilityControl, 5, 6); } #define GEN8_MFD_MPEG2_BSD_OBJECT_INLINE_DATA_DESCRIPTION_length 2 struct GEN8_MFD_MPEG2_BSD_OBJECT_INLINE_DATA_DESCRIPTION { uint32_t FirstMBBitOffset; bool LastMB; bool LastPicSlice; uint32_t SliceConcealmentType; uint32_t SliceConcealmentOverride; uint32_t MBCount; uint32_t SliceVerticalPosition; uint32_t SliceHorizontalPosition; uint32_t NextSliceHorizontalPosition; uint32_t NextSliceVerticalPosition; uint32_t QuantizerScaleCode; }; static inline void GEN8_MFD_MPEG2_BSD_OBJECT_INLINE_DATA_DESCRIPTION_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MFD_MPEG2_BSD_OBJECT_INLINE_DATA_DESCRIPTION * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->FirstMBBitOffset, 0, 2) | __gen_uint(values->LastMB, 3, 3) | __gen_uint(values->LastPicSlice, 5, 5) | __gen_uint(values->SliceConcealmentType, 6, 6) | __gen_uint(values->SliceConcealmentOverride, 7, 7) | __gen_uint(values->MBCount, 8, 15) | __gen_uint(values->SliceVerticalPosition, 16, 23) | __gen_uint(values->SliceHorizontalPosition, 24, 31); dw[1] = __gen_uint(values->NextSliceHorizontalPosition, 0, 7) | __gen_uint(values->NextSliceVerticalPosition, 8, 16) | __gen_uint(values->QuantizerScaleCode, 24, 28); } #define GEN8_MI_MATH_ALU_INSTRUCTION_length 1 struct GEN8_MI_MATH_ALU_INSTRUCTION { uint32_t Operand2; #define MI_ALU_REG0 0 #define MI_ALU_REG1 1 #define MI_ALU_REG2 2 #define MI_ALU_REG3 3 #define MI_ALU_REG4 4 #define MI_ALU_REG5 5 #define MI_ALU_REG6 6 #define MI_ALU_REG7 7 #define MI_ALU_REG8 8 #define MI_ALU_REG9 9 #define MI_ALU_REG10 10 #define MI_ALU_REG11 11 #define MI_ALU_REG12 12 #define MI_ALU_REG13 13 #define MI_ALU_REG14 14 #define MI_ALU_REG15 15 #define MI_ALU_SRCA 32 #define MI_ALU_SRCB 33 #define MI_ALU_ACCU 49 #define MI_ALU_ZF 50 #define MI_ALU_CF 51 uint32_t Operand1; #define MI_ALU_REG0 0 #define MI_ALU_REG1 1 #define MI_ALU_REG2 2 #define MI_ALU_REG3 3 #define MI_ALU_REG4 4 #define MI_ALU_REG5 5 #define MI_ALU_REG6 6 #define MI_ALU_REG7 7 #define MI_ALU_REG8 8 #define MI_ALU_REG9 9 #define MI_ALU_REG10 10 #define MI_ALU_REG11 11 #define MI_ALU_REG12 12 #define MI_ALU_REG13 13 #define MI_ALU_REG14 14 #define MI_ALU_REG15 15 #define MI_ALU_SRCA 32 #define MI_ALU_SRCB 33 #define MI_ALU_ACCU 49 #define MI_ALU_ZF 50 #define MI_ALU_CF 51 uint32_t ALUOpcode; #define MI_ALU_NOOP 0 #define MI_ALU_LOAD 128 #define MI_ALU_LOADINV 1152 #define MI_ALU_LOAD0 129 #define MI_ALU_LOAD1 1153 #define MI_ALU_ADD 256 #define MI_ALU_SUB 257 #define MI_ALU_AND 258 #define MI_ALU_OR 259 #define MI_ALU_XOR 260 #define MI_ALU_STORE 384 #define MI_ALU_STOREINV 1408 }; static inline void GEN8_MI_MATH_ALU_INSTRUCTION_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_MATH_ALU_INSTRUCTION * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->Operand2, 0, 9) | __gen_uint(values->Operand1, 10, 19) | __gen_uint(values->ALUOpcode, 20, 31); } #define GEN8_PALETTE_ENTRY_length 1 struct GEN8_PALETTE_ENTRY { uint32_t Blue; uint32_t Green; uint32_t Red; uint32_t Alpha; }; static inline void GEN8_PALETTE_ENTRY_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_PALETTE_ENTRY * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->Blue, 0, 7) | __gen_uint(values->Green, 8, 15) | __gen_uint(values->Red, 16, 23) | __gen_uint(values->Alpha, 24, 31); } #define GEN8_RENDER_SURFACE_STATE_length 16 struct GEN8_RENDER_SURFACE_STATE { bool CubeFaceEnablePositiveZ; bool CubeFaceEnableNegativeZ; bool CubeFaceEnablePositiveY; bool CubeFaceEnableNegativeY; bool CubeFaceEnablePositiveX; bool CubeFaceEnableNegativeX; uint32_t MediaBoundaryPixelMode; #define NORMAL_MODE 0 #define PROGRESSIVE_FRAME 2 #define INTERLACED_FRAME 3 uint32_t RenderCacheReadWriteMode; #define WriteOnlyCache 0 #define ReadWriteCache 1 bool SamplerL2BypassModeDisable; uint32_t VerticalLineStrideOffset; uint32_t VerticalLineStride; uint32_t TileMode; #define LINEAR 0 #define WMAJOR 1 #define XMAJOR 2 #define YMAJOR 3 uint32_t SurfaceHorizontalAlignment; #define HALIGN4 1 #define HALIGN8 2 #define HALIGN16 3 uint32_t SurfaceVerticalAlignment; #define VALIGN4 1 #define VALIGN8 2 #define VALIGN16 3 uint32_t SurfaceFormat; bool SurfaceArray; uint32_t SurfaceType; #define SURFTYPE_1D 0 #define SURFTYPE_2D 1 #define SURFTYPE_3D 2 #define SURFTYPE_CUBE 3 #define SURFTYPE_BUFFER 4 #define SURFTYPE_STRBUF 5 #define SURFTYPE_NULL 7 uint32_t SurfaceQPitch; float BaseMipLevel; uint32_t MOCS; uint32_t Width; uint32_t Height; uint32_t SurfacePitch; uint32_t Depth; uint32_t MultisamplePositionPaletteIndex; uint32_t NumberofMultisamples; #define MULTISAMPLECOUNT_1 0 #define MULTISAMPLECOUNT_2 1 #define MULTISAMPLECOUNT_4 2 #define MULTISAMPLECOUNT_8 3 uint32_t MultisampledSurfaceStorageFormat; #define MSFMT_MSS 0 #define MSFMT_DEPTH_STENCIL 1 uint32_t RenderTargetViewExtent; uint32_t MinimumArrayElement; uint32_t RenderTargetAndSampleUnormRotation; #define _0DEG 0 #define _90DEG 1 #define _270DEG 3 uint32_t MIPCountLOD; uint32_t SurfaceMinLOD; uint32_t CoherencyType; #define GPUcoherent 0 #define IAcoherent 1 bool EWADisableForCube; uint32_t YOffset; uint32_t XOffset; uint32_t AuxiliarySurfaceMode; #define AUX_NONE 0 #define AUX_MCS 1 #define AUX_APPEND 2 #define AUX_HIZ 3 uint32_t YOffsetforUorUVPlane; uint32_t AuxiliarySurfacePitch; uint32_t AuxiliarySurfaceQPitch; uint32_t XOffsetforUorUVPlane; bool SeparateUVPlaneEnable; float ResourceMinLOD; enum GEN8_ShaderChannelSelect ShaderChannelSelectAlpha; enum GEN8_ShaderChannelSelect ShaderChannelSelectBlue; enum GEN8_ShaderChannelSelect ShaderChannelSelectGreen; enum GEN8_ShaderChannelSelect ShaderChannelSelectRed; enum GEN8_ClearColor AlphaClearColor; enum GEN8_ClearColor BlueClearColor; enum GEN8_ClearColor GreenClearColor; enum GEN8_ClearColor RedClearColor; __gen_address_type SurfaceBaseAddress; __gen_address_type AuxiliarySurfaceBaseAddress; uint32_t AuxiliaryTableIndexforMediaCompressedSurface; uint32_t YOffsetforVPlane; uint32_t XOffsetforVPlane; }; static inline void GEN8_RENDER_SURFACE_STATE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_RENDER_SURFACE_STATE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->CubeFaceEnablePositiveZ, 0, 0) | __gen_uint(values->CubeFaceEnableNegativeZ, 1, 1) | __gen_uint(values->CubeFaceEnablePositiveY, 2, 2) | __gen_uint(values->CubeFaceEnableNegativeY, 3, 3) | __gen_uint(values->CubeFaceEnablePositiveX, 4, 4) | __gen_uint(values->CubeFaceEnableNegativeX, 5, 5) | __gen_uint(values->MediaBoundaryPixelMode, 6, 7) | __gen_uint(values->RenderCacheReadWriteMode, 8, 8) | __gen_uint(values->SamplerL2BypassModeDisable, 9, 9) | __gen_uint(values->VerticalLineStrideOffset, 10, 10) | __gen_uint(values->VerticalLineStride, 11, 11) | __gen_uint(values->TileMode, 12, 13) | __gen_uint(values->SurfaceHorizontalAlignment, 14, 15) | __gen_uint(values->SurfaceVerticalAlignment, 16, 17) | __gen_uint(values->SurfaceFormat, 18, 26) | __gen_uint(values->SurfaceArray, 28, 28) | __gen_uint(values->SurfaceType, 29, 31); dw[1] = __gen_uint(values->SurfaceQPitch, 0, 14) | __gen_ufixed(values->BaseMipLevel, 19, 23, 1) | __gen_uint(values->MOCS, 24, 30); dw[2] = __gen_uint(values->Width, 0, 13) | __gen_uint(values->Height, 16, 29); dw[3] = __gen_uint(values->SurfacePitch, 0, 17) | __gen_uint(values->Depth, 21, 31); dw[4] = __gen_uint(values->MultisamplePositionPaletteIndex, 0, 2) | __gen_uint(values->NumberofMultisamples, 3, 5) | __gen_uint(values->MultisampledSurfaceStorageFormat, 6, 6) | __gen_uint(values->RenderTargetViewExtent, 7, 17) | __gen_uint(values->MinimumArrayElement, 18, 28) | __gen_uint(values->RenderTargetAndSampleUnormRotation, 29, 30); dw[5] = __gen_uint(values->MIPCountLOD, 0, 3) | __gen_uint(values->SurfaceMinLOD, 4, 7) | __gen_uint(values->CoherencyType, 14, 14) | __gen_uint(values->EWADisableForCube, 20, 20) | __gen_uint(values->YOffset, 21, 23) | __gen_uint(values->XOffset, 25, 31); dw[6] = __gen_uint(values->AuxiliarySurfaceMode, 0, 2) | __gen_uint(values->YOffsetforUorUVPlane, 0, 13) | __gen_uint(values->AuxiliarySurfacePitch, 3, 11) | __gen_uint(values->AuxiliarySurfaceQPitch, 16, 30) | __gen_uint(values->XOffsetforUorUVPlane, 16, 29) | __gen_uint(values->SeparateUVPlaneEnable, 31, 31); dw[7] = __gen_ufixed(values->ResourceMinLOD, 0, 11, 8) | __gen_uint(values->ShaderChannelSelectAlpha, 16, 18) | __gen_uint(values->ShaderChannelSelectBlue, 19, 21) | __gen_uint(values->ShaderChannelSelectGreen, 22, 24) | __gen_uint(values->ShaderChannelSelectRed, 25, 27) | __gen_uint(values->AlphaClearColor, 28, 28) | __gen_uint(values->BlueClearColor, 29, 29) | __gen_uint(values->GreenClearColor, 30, 30) | __gen_uint(values->RedClearColor, 31, 31); const uint64_t v8_address = __gen_combine_address(data, &dw[8], values->SurfaceBaseAddress, 0); dw[8] = v8_address; dw[9] = v8_address >> 32; const uint64_t v10 = __gen_uint(values->AuxiliaryTableIndexforMediaCompressedSurface, 21, 31) | __gen_uint(values->YOffsetforVPlane, 32, 45) | __gen_uint(values->XOffsetforVPlane, 48, 61); const uint64_t v10_address = __gen_combine_address(data, &dw[10], values->AuxiliarySurfaceBaseAddress, v10); dw[10] = v10_address; dw[11] = (v10_address >> 32) | (v10 >> 32); dw[12] = 0; dw[13] = 0; dw[14] = 0; dw[15] = 0; } #define GEN8_SAMPLER_BORDER_COLOR_STATE_length 4 struct GEN8_SAMPLER_BORDER_COLOR_STATE { float BorderColorFloatRed; uint32_t BorderColor32bitRed; float BorderColorFloatGreen; uint32_t BorderColor32bitGreen; float BorderColorFloatBlue; uint32_t BorderColor32bitBlue; float BorderColorFloatAlpha; uint32_t BorderColor32bitAlpha; }; static inline void GEN8_SAMPLER_BORDER_COLOR_STATE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_SAMPLER_BORDER_COLOR_STATE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_float(values->BorderColorFloatRed) | __gen_uint(values->BorderColor32bitRed, 0, 31); dw[1] = __gen_float(values->BorderColorFloatGreen) | __gen_uint(values->BorderColor32bitGreen, 0, 31); dw[2] = __gen_float(values->BorderColorFloatBlue) | __gen_uint(values->BorderColor32bitBlue, 0, 31); dw[3] = __gen_float(values->BorderColorFloatAlpha) | __gen_uint(values->BorderColor32bitAlpha, 0, 31); } #define GEN8_SAMPLER_STATE_length 4 struct GEN8_SAMPLER_STATE { uint32_t AnisotropicAlgorithm; #define LEGACY 0 #define EWAApproximation 1 float TextureLODBias; uint32_t MinModeFilter; #define MAPFILTER_NEAREST 0 #define MAPFILTER_LINEAR 1 #define MAPFILTER_ANISOTROPIC 2 #define MAPFILTER_MONO 6 uint32_t MagModeFilter; #define MAPFILTER_NEAREST 0 #define MAPFILTER_LINEAR 1 #define MAPFILTER_ANISOTROPIC 2 #define MAPFILTER_MONO 6 uint32_t MipModeFilter; #define MIPFILTER_NONE 0 #define MIPFILTER_NEAREST 1 #define MIPFILTER_LINEAR 3 float BaseMipLevel; uint32_t LODPreClampMode; #define CLAMP_MODE_NONE 0 #define CLAMP_MODE_OGL 2 uint32_t TextureBorderColorMode; #define DX10OGL 0 #define DX9 1 bool SamplerDisable; uint32_t CubeSurfaceControlMode; #define PROGRAMMED 0 #define OVERRIDE 1 uint32_t ShadowFunction; #define PREFILTEROPALWAYS 0 #define PREFILTEROPNEVER 1 #define PREFILTEROPLESS 2 #define PREFILTEROPEQUAL 3 #define PREFILTEROPLEQUAL 4 #define PREFILTEROPGREATER 5 #define PREFILTEROPNOTEQUAL 6 #define PREFILTEROPGEQUAL 7 uint32_t ChromaKeyMode; #define KEYFILTER_KILL_ON_ANY_MATCH 0 #define KEYFILTER_REPLACE_BLACK 1 uint32_t ChromaKeyIndex; bool ChromaKeyEnable; float MaxLOD; float MinLOD; uint32_t LODClampMagnificationMode; #define MIPNONE 0 #define MIPFILTER 1 uint64_t BorderColorPointer; enum GEN8_TextureCoordinateMode TCZAddressControlMode; enum GEN8_TextureCoordinateMode TCYAddressControlMode; enum GEN8_TextureCoordinateMode TCXAddressControlMode; bool NonnormalizedCoordinateEnable; uint32_t TrilinearFilterQuality; #define FULL 0 #define HIGH 1 #define MED 2 #define LOW 3 bool RAddressMinFilterRoundingEnable; bool RAddressMagFilterRoundingEnable; bool VAddressMinFilterRoundingEnable; bool VAddressMagFilterRoundingEnable; bool UAddressMinFilterRoundingEnable; bool UAddressMagFilterRoundingEnable; uint32_t MaximumAnisotropy; #define RATIO21 0 #define RATIO41 1 #define RATIO61 2 #define RATIO81 3 #define RATIO101 4 #define RATIO121 5 #define RATIO141 6 #define RATIO161 7 }; static inline void GEN8_SAMPLER_STATE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_SAMPLER_STATE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->AnisotropicAlgorithm, 0, 0) | __gen_sfixed(values->TextureLODBias, 1, 13, 8) | __gen_uint(values->MinModeFilter, 14, 16) | __gen_uint(values->MagModeFilter, 17, 19) | __gen_uint(values->MipModeFilter, 20, 21) | __gen_ufixed(values->BaseMipLevel, 22, 26, 1) | __gen_uint(values->LODPreClampMode, 27, 28) | __gen_uint(values->TextureBorderColorMode, 29, 29) | __gen_uint(values->SamplerDisable, 31, 31); dw[1] = __gen_uint(values->CubeSurfaceControlMode, 0, 0) | __gen_uint(values->ShadowFunction, 1, 3) | __gen_uint(values->ChromaKeyMode, 4, 4) | __gen_uint(values->ChromaKeyIndex, 5, 6) | __gen_uint(values->ChromaKeyEnable, 7, 7) | __gen_ufixed(values->MaxLOD, 8, 19, 8) | __gen_ufixed(values->MinLOD, 20, 31, 8); dw[2] = __gen_uint(values->LODClampMagnificationMode, 0, 0) | __gen_offset(values->BorderColorPointer, 6, 23); dw[3] = __gen_uint(values->TCZAddressControlMode, 0, 2) | __gen_uint(values->TCYAddressControlMode, 3, 5) | __gen_uint(values->TCXAddressControlMode, 6, 8) | __gen_uint(values->NonnormalizedCoordinateEnable, 10, 10) | __gen_uint(values->TrilinearFilterQuality, 11, 12) | __gen_uint(values->RAddressMinFilterRoundingEnable, 13, 13) | __gen_uint(values->RAddressMagFilterRoundingEnable, 14, 14) | __gen_uint(values->VAddressMinFilterRoundingEnable, 15, 15) | __gen_uint(values->VAddressMagFilterRoundingEnable, 16, 16) | __gen_uint(values->UAddressMinFilterRoundingEnable, 17, 17) | __gen_uint(values->UAddressMagFilterRoundingEnable, 18, 18) | __gen_uint(values->MaximumAnisotropy, 19, 21); } #define GEN8_SAMPLER_STATE_8X8_AVS_COEFFICIENTS_length 8 struct GEN8_SAMPLER_STATE_8X8_AVS_COEFFICIENTS { float Table0XFilterCoefficientn0; float Table0YFilterCoefficientn0; float Table0XFilterCoefficientn1; float Table0YFilterCoefficientn1; float Table0XFilterCoefficientn2; float Table0YFilterCoefficientn2; float Table0XFilterCoefficientn3; float Table0YFilterCoefficientn3; float Table0XFilterCoefficientn4; float Table0YFilterCoefficientn4; float Table0XFilterCoefficientn5; float Table0YFilterCoefficientn5; float Table0XFilterCoefficientn6; float Table0YFilterCoefficientn6; float Table0XFilterCoefficientn7; float Table0YFilterCoefficientn7; float Table1XFilterCoefficientn2; float Table1XFilterCoefficientn3; float Table1XFilterCoefficientn4; float Table1XFilterCoefficientn5; float Table1YFilterCoefficientn2; float Table1YFilterCoefficientn3; float Table1YFilterCoefficientn4; float Table1YFilterCoefficientn5; }; static inline void GEN8_SAMPLER_STATE_8X8_AVS_COEFFICIENTS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_SAMPLER_STATE_8X8_AVS_COEFFICIENTS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_sfixed(values->Table0XFilterCoefficientn0, 0, 7, 6) | __gen_sfixed(values->Table0YFilterCoefficientn0, 8, 15, 6) | __gen_sfixed(values->Table0XFilterCoefficientn1, 16, 23, 6) | __gen_sfixed(values->Table0YFilterCoefficientn1, 24, 31, 6); dw[1] = __gen_sfixed(values->Table0XFilterCoefficientn2, 0, 7, 6) | __gen_sfixed(values->Table0YFilterCoefficientn2, 8, 15, 6) | __gen_sfixed(values->Table0XFilterCoefficientn3, 16, 23, 6) | __gen_sfixed(values->Table0YFilterCoefficientn3, 24, 31, 6); dw[2] = __gen_sfixed(values->Table0XFilterCoefficientn4, 0, 7, 6) | __gen_sfixed(values->Table0YFilterCoefficientn4, 8, 15, 6) | __gen_sfixed(values->Table0XFilterCoefficientn5, 16, 23, 6) | __gen_sfixed(values->Table0YFilterCoefficientn5, 24, 31, 6); dw[3] = __gen_sfixed(values->Table0XFilterCoefficientn6, 0, 7, 6) | __gen_sfixed(values->Table0YFilterCoefficientn6, 8, 15, 6) | __gen_sfixed(values->Table0XFilterCoefficientn7, 16, 23, 6) | __gen_sfixed(values->Table0YFilterCoefficientn7, 24, 31, 6); dw[4] = __gen_sfixed(values->Table1XFilterCoefficientn2, 16, 23, 6) | __gen_sfixed(values->Table1XFilterCoefficientn3, 24, 31, 6); dw[5] = __gen_sfixed(values->Table1XFilterCoefficientn4, 0, 7, 6) | __gen_sfixed(values->Table1XFilterCoefficientn5, 8, 15, 6); dw[6] = __gen_sfixed(values->Table1YFilterCoefficientn2, 16, 23, 6) | __gen_sfixed(values->Table1YFilterCoefficientn3, 24, 31, 6); dw[7] = __gen_sfixed(values->Table1YFilterCoefficientn4, 0, 7, 6) | __gen_sfixed(values->Table1YFilterCoefficientn5, 8, 15, 6); } #define GEN8_SCISSOR_RECT_length 2 struct GEN8_SCISSOR_RECT { uint32_t ScissorRectangleXMin; uint32_t ScissorRectangleYMin; uint32_t ScissorRectangleXMax; uint32_t ScissorRectangleYMax; }; static inline void GEN8_SCISSOR_RECT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_SCISSOR_RECT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->ScissorRectangleXMin, 0, 15) | __gen_uint(values->ScissorRectangleYMin, 16, 31); dw[1] = __gen_uint(values->ScissorRectangleXMax, 0, 15) | __gen_uint(values->ScissorRectangleYMax, 16, 31); } #define GEN8_SF_CLIP_VIEWPORT_length 16 struct GEN8_SF_CLIP_VIEWPORT { float ViewportMatrixElementm00; float ViewportMatrixElementm11; float ViewportMatrixElementm22; float ViewportMatrixElementm30; float ViewportMatrixElementm31; float ViewportMatrixElementm32; float XMinClipGuardband; float XMaxClipGuardband; float YMinClipGuardband; float YMaxClipGuardband; float XMinViewPort; float XMaxViewPort; float YMinViewPort; float YMaxViewPort; }; static inline void GEN8_SF_CLIP_VIEWPORT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_SF_CLIP_VIEWPORT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_float(values->ViewportMatrixElementm00); dw[1] = __gen_float(values->ViewportMatrixElementm11); dw[2] = __gen_float(values->ViewportMatrixElementm22); dw[3] = __gen_float(values->ViewportMatrixElementm30); dw[4] = __gen_float(values->ViewportMatrixElementm31); dw[5] = __gen_float(values->ViewportMatrixElementm32); dw[6] = 0; dw[7] = 0; dw[8] = __gen_float(values->XMinClipGuardband); dw[9] = __gen_float(values->XMaxClipGuardband); dw[10] = __gen_float(values->YMinClipGuardband); dw[11] = __gen_float(values->YMaxClipGuardband); dw[12] = __gen_float(values->XMinViewPort); dw[13] = __gen_float(values->XMaxViewPort); dw[14] = __gen_float(values->YMinViewPort); dw[15] = __gen_float(values->YMaxViewPort); } #define GEN8_SF_OUTPUT_ATTRIBUTE_DETAIL_length 1 struct GEN8_SF_OUTPUT_ATTRIBUTE_DETAIL { uint32_t SourceAttribute; uint32_t SwizzleSelect; #define INPUTATTR 0 #define INPUTATTR_FACING 1 #define INPUTATTR_W 2 #define INPUTATTR_FACING_W 3 uint32_t ConstantSource; #define CONST_0000 0 #define CONST_0001_FLOAT 1 #define CONST_1111_FLOAT 2 #define PRIM_ID 3 uint32_t SwizzleControlMode; bool ComponentOverrideX; bool ComponentOverrideY; bool ComponentOverrideZ; bool ComponentOverrideW; }; static inline void GEN8_SF_OUTPUT_ATTRIBUTE_DETAIL_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_SF_OUTPUT_ATTRIBUTE_DETAIL * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->SourceAttribute, 0, 4) | __gen_uint(values->SwizzleSelect, 6, 7) | __gen_uint(values->ConstantSource, 9, 10) | __gen_uint(values->SwizzleControlMode, 11, 11) | __gen_uint(values->ComponentOverrideX, 12, 12) | __gen_uint(values->ComponentOverrideY, 13, 13) | __gen_uint(values->ComponentOverrideZ, 14, 14) | __gen_uint(values->ComponentOverrideW, 15, 15); } #define GEN8_SO_DECL_length 1 struct GEN8_SO_DECL { uint32_t ComponentMask; uint32_t RegisterIndex; uint32_t HoleFlag; uint32_t OutputBufferSlot; }; static inline void GEN8_SO_DECL_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_SO_DECL * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->ComponentMask, 0, 3) | __gen_uint(values->RegisterIndex, 4, 9) | __gen_uint(values->HoleFlag, 11, 11) | __gen_uint(values->OutputBufferSlot, 12, 13); } #define GEN8_SO_DECL_ENTRY_length 2 struct GEN8_SO_DECL_ENTRY { struct GEN8_SO_DECL Stream0Decl; struct GEN8_SO_DECL Stream1Decl; struct GEN8_SO_DECL Stream2Decl; struct GEN8_SO_DECL Stream3Decl; }; static inline void GEN8_SO_DECL_ENTRY_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_SO_DECL_ENTRY * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; uint32_t v0_0; GEN8_SO_DECL_pack(data, &v0_0, &values->Stream0Decl); uint32_t v0_1; GEN8_SO_DECL_pack(data, &v0_1, &values->Stream1Decl); dw[0] = __gen_uint(v0_0, 0, 15) | __gen_uint(v0_1, 16, 31); uint32_t v1_0; GEN8_SO_DECL_pack(data, &v1_0, &values->Stream2Decl); uint32_t v1_1; GEN8_SO_DECL_pack(data, &v1_1, &values->Stream3Decl); dw[1] = __gen_uint(v1_0, 0, 15) | __gen_uint(v1_1, 16, 31); } #define GEN8_VERTEX_BUFFER_STATE_length 4 struct GEN8_VERTEX_BUFFER_STATE { uint32_t BufferPitch; bool NullVertexBuffer; bool AddressModifyEnable; uint32_t MOCS; uint32_t VertexBufferIndex; __gen_address_type BufferStartingAddress; uint32_t BufferSize; }; static inline void GEN8_VERTEX_BUFFER_STATE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_VERTEX_BUFFER_STATE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->BufferPitch, 0, 11) | __gen_uint(values->NullVertexBuffer, 13, 13) | __gen_uint(values->AddressModifyEnable, 14, 14) | __gen_uint(values->MOCS, 16, 22) | __gen_uint(values->VertexBufferIndex, 26, 31); const uint64_t v1_address = __gen_combine_address(data, &dw[1], values->BufferStartingAddress, 0); dw[1] = v1_address; dw[2] = v1_address >> 32; dw[3] = __gen_uint(values->BufferSize, 0, 31); } #define GEN8_VERTEX_ELEMENT_STATE_length 2 struct GEN8_VERTEX_ELEMENT_STATE { uint32_t SourceElementOffset; bool EdgeFlagEnable; uint32_t SourceElementFormat; bool Valid; uint32_t VertexBufferIndex; enum GEN8_3D_Vertex_Component_Control Component3Control; enum GEN8_3D_Vertex_Component_Control Component2Control; enum GEN8_3D_Vertex_Component_Control Component1Control; enum GEN8_3D_Vertex_Component_Control Component0Control; }; static inline void GEN8_VERTEX_ELEMENT_STATE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_VERTEX_ELEMENT_STATE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->SourceElementOffset, 0, 11) | __gen_uint(values->EdgeFlagEnable, 15, 15) | __gen_uint(values->SourceElementFormat, 16, 24) | __gen_uint(values->Valid, 25, 25) | __gen_uint(values->VertexBufferIndex, 26, 31); dw[1] = __gen_uint(values->Component3Control, 16, 18) | __gen_uint(values->Component2Control, 20, 22) | __gen_uint(values->Component1Control, 24, 26) | __gen_uint(values->Component0Control, 28, 30); } #define GEN8_3DPRIMITIVE_length 7 #define GEN8_3DPRIMITIVE_length_bias 2 #define GEN8_3DPRIMITIVE_header \ .DWordLength = 5, \ ._3DCommandSubOpcode = 0, \ ._3DCommandOpcode = 3, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DPRIMITIVE { uint32_t DWordLength; bool PredicateEnable; bool UAVCoherencyRequired; bool IndirectParameterEnable; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; enum GEN8_3D_Prim_Topo_Type PrimitiveTopologyType; uint32_t VertexAccessType; #define SEQUENTIAL 0 #define RANDOM 1 bool EndOffsetEnable; uint32_t VertexCountPerInstance; uint32_t StartVertexLocation; uint32_t InstanceCount; uint32_t StartInstanceLocation; int32_t BaseVertexLocation; }; static inline void GEN8_3DPRIMITIVE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DPRIMITIVE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->PredicateEnable, 8, 8) | __gen_uint(values->UAVCoherencyRequired, 9, 9) | __gen_uint(values->IndirectParameterEnable, 10, 10) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->PrimitiveTopologyType, 0, 5) | __gen_uint(values->VertexAccessType, 8, 8) | __gen_uint(values->EndOffsetEnable, 9, 9); dw[2] = __gen_uint(values->VertexCountPerInstance, 0, 31); dw[3] = __gen_uint(values->StartVertexLocation, 0, 31); dw[4] = __gen_uint(values->InstanceCount, 0, 31); dw[5] = __gen_uint(values->StartInstanceLocation, 0, 31); dw[6] = __gen_sint(values->BaseVertexLocation, 0, 31); } #define GEN8_3DSTATE_AA_LINE_PARAMETERS_length 3 #define GEN8_3DSTATE_AA_LINE_PARAMETERS_length_bias 2 #define GEN8_3DSTATE_AA_LINE_PARAMETERS_header \ .DWordLength = 1, \ ._3DCommandSubOpcode = 10, \ ._3DCommandOpcode = 1, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_AA_LINE_PARAMETERS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; float AACoverageSlope; float AAPointCoverageSlope; float AACoverageBias; float AAPointCoverageBias; float AACoverageEndCapSlope; float AAPointCoverageEndCapSlope; float AACoverageEndCapBias; float AAPointCoverageEndCapBias; }; static inline void GEN8_3DSTATE_AA_LINE_PARAMETERS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_AA_LINE_PARAMETERS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_ufixed(values->AACoverageSlope, 0, 7, 8) | __gen_ufixed(values->AAPointCoverageSlope, 8, 15, 8) | __gen_ufixed(values->AACoverageBias, 16, 23, 8) | __gen_ufixed(values->AAPointCoverageBias, 24, 31, 8); dw[2] = __gen_ufixed(values->AACoverageEndCapSlope, 0, 7, 8) | __gen_ufixed(values->AAPointCoverageEndCapSlope, 8, 15, 8) | __gen_ufixed(values->AACoverageEndCapBias, 16, 23, 8) | __gen_ufixed(values->AAPointCoverageEndCapBias, 24, 31, 8); } #define GEN8_3DSTATE_BINDING_TABLE_EDIT_DS_length_bias 2 #define GEN8_3DSTATE_BINDING_TABLE_EDIT_DS_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 70, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_BINDING_TABLE_EDIT_DS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t BindingTableEditTarget; #define AllCores 3 #define Core1 2 #define Core0 1 uint32_t BindingTableBlockClear; /* variable length fields follow */ }; static inline void GEN8_3DSTATE_BINDING_TABLE_EDIT_DS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_BINDING_TABLE_EDIT_DS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 8) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->BindingTableEditTarget, 0, 1) | __gen_uint(values->BindingTableBlockClear, 16, 31); } #define GEN8_3DSTATE_BINDING_TABLE_EDIT_GS_length_bias 2 #define GEN8_3DSTATE_BINDING_TABLE_EDIT_GS_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 68, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_BINDING_TABLE_EDIT_GS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t BindingTableEditTarget; #define AllCores 3 #define Core1 2 #define Core0 1 uint32_t BindingTableBlockClear; /* variable length fields follow */ }; static inline void GEN8_3DSTATE_BINDING_TABLE_EDIT_GS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_BINDING_TABLE_EDIT_GS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 8) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->BindingTableEditTarget, 0, 1) | __gen_uint(values->BindingTableBlockClear, 16, 31); } #define GEN8_3DSTATE_BINDING_TABLE_EDIT_HS_length_bias 2 #define GEN8_3DSTATE_BINDING_TABLE_EDIT_HS_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 69, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_BINDING_TABLE_EDIT_HS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t BindingTableEditTarget; #define AllCores 3 #define Core1 2 #define Core0 1 uint32_t BindingTableBlockClear; /* variable length fields follow */ }; static inline void GEN8_3DSTATE_BINDING_TABLE_EDIT_HS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_BINDING_TABLE_EDIT_HS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 8) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->BindingTableEditTarget, 0, 1) | __gen_uint(values->BindingTableBlockClear, 16, 31); } #define GEN8_3DSTATE_BINDING_TABLE_EDIT_PS_length_bias 2 #define GEN8_3DSTATE_BINDING_TABLE_EDIT_PS_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 71, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_BINDING_TABLE_EDIT_PS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t BindingTableEditTarget; #define AllCores 3 #define Core1 2 #define Core0 1 uint32_t BindingTableBlockClear; /* variable length fields follow */ }; static inline void GEN8_3DSTATE_BINDING_TABLE_EDIT_PS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_BINDING_TABLE_EDIT_PS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 8) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->BindingTableEditTarget, 0, 1) | __gen_uint(values->BindingTableBlockClear, 16, 31); } #define GEN8_3DSTATE_BINDING_TABLE_EDIT_VS_length_bias 2 #define GEN8_3DSTATE_BINDING_TABLE_EDIT_VS_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 67, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_BINDING_TABLE_EDIT_VS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t BindingTableEditTarget; #define AllCores 3 #define Core1 2 #define Core0 1 uint32_t BindingTableBlockClear; /* variable length fields follow */ }; static inline void GEN8_3DSTATE_BINDING_TABLE_EDIT_VS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_BINDING_TABLE_EDIT_VS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 8) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->BindingTableEditTarget, 0, 1) | __gen_uint(values->BindingTableBlockClear, 16, 31); } #define GEN8_3DSTATE_BINDING_TABLE_POINTERS_DS_length 2 #define GEN8_3DSTATE_BINDING_TABLE_POINTERS_DS_length_bias 2 #define GEN8_3DSTATE_BINDING_TABLE_POINTERS_DS_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 40, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_BINDING_TABLE_POINTERS_DS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint64_t PointertoDSBindingTable; }; static inline void GEN8_3DSTATE_BINDING_TABLE_POINTERS_DS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_BINDING_TABLE_POINTERS_DS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_offset(values->PointertoDSBindingTable, 5, 15); } #define GEN8_3DSTATE_BINDING_TABLE_POINTERS_GS_length 2 #define GEN8_3DSTATE_BINDING_TABLE_POINTERS_GS_length_bias 2 #define GEN8_3DSTATE_BINDING_TABLE_POINTERS_GS_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 41, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_BINDING_TABLE_POINTERS_GS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint64_t PointertoGSBindingTable; }; static inline void GEN8_3DSTATE_BINDING_TABLE_POINTERS_GS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_BINDING_TABLE_POINTERS_GS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_offset(values->PointertoGSBindingTable, 5, 15); } #define GEN8_3DSTATE_BINDING_TABLE_POINTERS_HS_length 2 #define GEN8_3DSTATE_BINDING_TABLE_POINTERS_HS_length_bias 2 #define GEN8_3DSTATE_BINDING_TABLE_POINTERS_HS_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 39, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_BINDING_TABLE_POINTERS_HS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint64_t PointertoHSBindingTable; }; static inline void GEN8_3DSTATE_BINDING_TABLE_POINTERS_HS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_BINDING_TABLE_POINTERS_HS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_offset(values->PointertoHSBindingTable, 5, 15); } #define GEN8_3DSTATE_BINDING_TABLE_POINTERS_PS_length 2 #define GEN8_3DSTATE_BINDING_TABLE_POINTERS_PS_length_bias 2 #define GEN8_3DSTATE_BINDING_TABLE_POINTERS_PS_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 42, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_BINDING_TABLE_POINTERS_PS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint64_t PointertoPSBindingTable; }; static inline void GEN8_3DSTATE_BINDING_TABLE_POINTERS_PS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_BINDING_TABLE_POINTERS_PS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_offset(values->PointertoPSBindingTable, 5, 15); } #define GEN8_3DSTATE_BINDING_TABLE_POINTERS_VS_length 2 #define GEN8_3DSTATE_BINDING_TABLE_POINTERS_VS_length_bias 2 #define GEN8_3DSTATE_BINDING_TABLE_POINTERS_VS_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 38, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_BINDING_TABLE_POINTERS_VS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint64_t PointertoVSBindingTable; }; static inline void GEN8_3DSTATE_BINDING_TABLE_POINTERS_VS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_BINDING_TABLE_POINTERS_VS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_offset(values->PointertoVSBindingTable, 5, 15); } #define GEN8_3DSTATE_BINDING_TABLE_POOL_ALLOC_length 4 #define GEN8_3DSTATE_BINDING_TABLE_POOL_ALLOC_length_bias 2 #define GEN8_3DSTATE_BINDING_TABLE_POOL_ALLOC_header\ .DWordLength = 2, \ ._3DCommandSubOpcode = 25, \ ._3DCommandOpcode = 1, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_BINDING_TABLE_POOL_ALLOC { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t MOCS; uint32_t BindingTablePoolEnable; __gen_address_type BindingTablePoolBaseAddress; uint32_t BindingTablePoolBufferSize; #define NoValidData 0 }; static inline void GEN8_3DSTATE_BINDING_TABLE_POOL_ALLOC_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_BINDING_TABLE_POOL_ALLOC * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); const uint64_t v1 = __gen_uint(values->MOCS, 0, 6) | __gen_uint(values->BindingTablePoolEnable, 11, 11); const uint64_t v1_address = __gen_combine_address(data, &dw[1], values->BindingTablePoolBaseAddress, v1); dw[1] = v1_address; dw[2] = (v1_address >> 32) | (v1 >> 32); dw[3] = __gen_uint(values->BindingTablePoolBufferSize, 12, 31); } #define GEN8_3DSTATE_BLEND_STATE_POINTERS_length 2 #define GEN8_3DSTATE_BLEND_STATE_POINTERS_length_bias 2 #define GEN8_3DSTATE_BLEND_STATE_POINTERS_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 36, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_BLEND_STATE_POINTERS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; bool BlendStatePointerValid; uint64_t BlendStatePointer; }; static inline void GEN8_3DSTATE_BLEND_STATE_POINTERS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_BLEND_STATE_POINTERS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->BlendStatePointerValid, 0, 0) | __gen_offset(values->BlendStatePointer, 6, 31); } #define GEN8_3DSTATE_CC_STATE_POINTERS_length 2 #define GEN8_3DSTATE_CC_STATE_POINTERS_length_bias 2 #define GEN8_3DSTATE_CC_STATE_POINTERS_header \ .DWordLength = 0, \ ._3DCommandSubOpcode = 14, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_CC_STATE_POINTERS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; bool ColorCalcStatePointerValid; uint64_t ColorCalcStatePointer; }; static inline void GEN8_3DSTATE_CC_STATE_POINTERS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_CC_STATE_POINTERS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->ColorCalcStatePointerValid, 0, 0) | __gen_offset(values->ColorCalcStatePointer, 6, 31); } #define GEN8_3DSTATE_CHROMA_KEY_length 4 #define GEN8_3DSTATE_CHROMA_KEY_length_bias 2 #define GEN8_3DSTATE_CHROMA_KEY_header \ .DWordLength = 2, \ ._3DCommandSubOpcode = 4, \ ._3DCommandOpcode = 1, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_CHROMA_KEY { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t ChromaKeyTableIndex; uint32_t ChromaKeyLowValue; uint32_t ChromaKeyHighValue; }; static inline void GEN8_3DSTATE_CHROMA_KEY_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_CHROMA_KEY * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->ChromaKeyTableIndex, 30, 31); dw[2] = __gen_uint(values->ChromaKeyLowValue, 0, 31); dw[3] = __gen_uint(values->ChromaKeyHighValue, 0, 31); } #define GEN8_3DSTATE_CLEAR_PARAMS_length 3 #define GEN8_3DSTATE_CLEAR_PARAMS_length_bias 2 #define GEN8_3DSTATE_CLEAR_PARAMS_header \ .DWordLength = 1, \ ._3DCommandSubOpcode = 4, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_CLEAR_PARAMS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; float DepthClearValue; bool DepthClearValueValid; }; static inline void GEN8_3DSTATE_CLEAR_PARAMS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_CLEAR_PARAMS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_float(values->DepthClearValue); dw[2] = __gen_uint(values->DepthClearValueValid, 0, 0); } #define GEN8_3DSTATE_CLIP_length 4 #define GEN8_3DSTATE_CLIP_length_bias 2 #define GEN8_3DSTATE_CLIP_header \ .DWordLength = 2, \ ._3DCommandSubOpcode = 18, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_CLIP { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t UserClipDistanceCullTestEnableBitmask; bool StatisticsEnable; bool ForceClipMode; bool ForceUserClipDistanceClipTestEnableBitmask; bool EarlyCullEnable; uint32_t VertexSubPixelPrecisionSelect; #define _8Bit 0 #define _4Bit 1 bool ForceUserClipDistanceCullTestEnableBitmask; uint32_t TriangleFanProvokingVertexSelect; uint32_t LineStripListProvokingVertexSelect; uint32_t TriangleStripListProvokingVertexSelect; bool NonPerspectiveBarycentricEnable; bool PerspectiveDivideDisable; uint32_t ClipMode; #define CLIPMODE_NORMAL 0 #define CLIPMODE_REJECT_ALL 3 #define CLIPMODE_ACCEPT_ALL 4 uint32_t UserClipDistanceClipTestEnableBitmask; bool GuardbandClipTestEnable; bool ViewportXYClipTestEnable; uint32_t APIMode; #define APIMODE_OGL 0 #define APIMODE_D3D 1 bool ClipEnable; uint32_t MaximumVPIndex; bool ForceZeroRTAIndexEnable; float MaximumPointWidth; float MinimumPointWidth; }; static inline void GEN8_3DSTATE_CLIP_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_CLIP * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->UserClipDistanceCullTestEnableBitmask, 0, 7) | __gen_uint(values->StatisticsEnable, 10, 10) | __gen_uint(values->ForceClipMode, 16, 16) | __gen_uint(values->ForceUserClipDistanceClipTestEnableBitmask, 17, 17) | __gen_uint(values->EarlyCullEnable, 18, 18) | __gen_uint(values->VertexSubPixelPrecisionSelect, 19, 19) | __gen_uint(values->ForceUserClipDistanceCullTestEnableBitmask, 20, 20); dw[2] = __gen_uint(values->TriangleFanProvokingVertexSelect, 0, 1) | __gen_uint(values->LineStripListProvokingVertexSelect, 2, 3) | __gen_uint(values->TriangleStripListProvokingVertexSelect, 4, 5) | __gen_uint(values->NonPerspectiveBarycentricEnable, 8, 8) | __gen_uint(values->PerspectiveDivideDisable, 9, 9) | __gen_uint(values->ClipMode, 13, 15) | __gen_uint(values->UserClipDistanceClipTestEnableBitmask, 16, 23) | __gen_uint(values->GuardbandClipTestEnable, 26, 26) | __gen_uint(values->ViewportXYClipTestEnable, 28, 28) | __gen_uint(values->APIMode, 30, 30) | __gen_uint(values->ClipEnable, 31, 31); dw[3] = __gen_uint(values->MaximumVPIndex, 0, 3) | __gen_uint(values->ForceZeroRTAIndexEnable, 5, 5) | __gen_ufixed(values->MaximumPointWidth, 6, 16, 3) | __gen_ufixed(values->MinimumPointWidth, 17, 27, 3); } #define GEN8_3DSTATE_CONSTANT_DS_length 11 #define GEN8_3DSTATE_CONSTANT_DS_length_bias 2 #define GEN8_3DSTATE_CONSTANT_DS_header \ .DWordLength = 9, \ ._3DCommandSubOpcode = 26, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_CONSTANT_DS { uint32_t DWordLength; uint32_t MOCS; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; struct GEN8_3DSTATE_CONSTANT_BODY ConstantBody; }; static inline void GEN8_3DSTATE_CONSTANT_DS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_CONSTANT_DS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->MOCS, 8, 14) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); GEN8_3DSTATE_CONSTANT_BODY_pack(data, &dw[1], &values->ConstantBody); } #define GEN8_3DSTATE_CONSTANT_GS_length 11 #define GEN8_3DSTATE_CONSTANT_GS_length_bias 2 #define GEN8_3DSTATE_CONSTANT_GS_header \ .DWordLength = 9, \ ._3DCommandSubOpcode = 22, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_CONSTANT_GS { uint32_t DWordLength; uint32_t MOCS; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; struct GEN8_3DSTATE_CONSTANT_BODY ConstantBody; }; static inline void GEN8_3DSTATE_CONSTANT_GS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_CONSTANT_GS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->MOCS, 8, 14) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); GEN8_3DSTATE_CONSTANT_BODY_pack(data, &dw[1], &values->ConstantBody); } #define GEN8_3DSTATE_CONSTANT_HS_length 11 #define GEN8_3DSTATE_CONSTANT_HS_length_bias 2 #define GEN8_3DSTATE_CONSTANT_HS_header \ .DWordLength = 9, \ ._3DCommandSubOpcode = 25, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_CONSTANT_HS { uint32_t DWordLength; uint32_t MOCS; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; struct GEN8_3DSTATE_CONSTANT_BODY ConstantBody; }; static inline void GEN8_3DSTATE_CONSTANT_HS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_CONSTANT_HS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->MOCS, 8, 14) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); GEN8_3DSTATE_CONSTANT_BODY_pack(data, &dw[1], &values->ConstantBody); } #define GEN8_3DSTATE_CONSTANT_PS_length 11 #define GEN8_3DSTATE_CONSTANT_PS_length_bias 2 #define GEN8_3DSTATE_CONSTANT_PS_header \ .DWordLength = 9, \ ._3DCommandSubOpcode = 23, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_CONSTANT_PS { uint32_t DWordLength; uint32_t MOCS; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; struct GEN8_3DSTATE_CONSTANT_BODY ConstantBody; }; static inline void GEN8_3DSTATE_CONSTANT_PS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_CONSTANT_PS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->MOCS, 8, 14) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); GEN8_3DSTATE_CONSTANT_BODY_pack(data, &dw[1], &values->ConstantBody); } #define GEN8_3DSTATE_CONSTANT_VS_length 11 #define GEN8_3DSTATE_CONSTANT_VS_length_bias 2 #define GEN8_3DSTATE_CONSTANT_VS_header \ .DWordLength = 9, \ ._3DCommandSubOpcode = 21, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_CONSTANT_VS { uint32_t DWordLength; uint32_t MOCS; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; struct GEN8_3DSTATE_CONSTANT_BODY ConstantBody; }; static inline void GEN8_3DSTATE_CONSTANT_VS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_CONSTANT_VS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->MOCS, 8, 14) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); GEN8_3DSTATE_CONSTANT_BODY_pack(data, &dw[1], &values->ConstantBody); } #define GEN8_3DSTATE_DEPTH_BUFFER_length 8 #define GEN8_3DSTATE_DEPTH_BUFFER_length_bias 2 #define GEN8_3DSTATE_DEPTH_BUFFER_header \ .DWordLength = 6, \ ._3DCommandSubOpcode = 5, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_DEPTH_BUFFER { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t SurfacePitch; uint32_t SurfaceFormat; #define D32_FLOAT 1 #define D24_UNORM_X8_UINT 3 #define D16_UNORM 5 bool HierarchicalDepthBufferEnable; bool StencilWriteEnable; bool DepthWriteEnable; uint32_t SurfaceType; #define SURFTYPE_1D 0 #define SURFTYPE_2D 1 #define SURFTYPE_3D 2 #define SURFTYPE_CUBE 3 #define SURFTYPE_NULL 7 __gen_address_type SurfaceBaseAddress; uint32_t LOD; uint32_t Width; uint32_t Height; uint32_t MOCS; uint32_t MinimumArrayElement; uint32_t Depth; uint32_t SurfaceQPitch; uint32_t RenderTargetViewExtent; }; static inline void GEN8_3DSTATE_DEPTH_BUFFER_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_DEPTH_BUFFER * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->SurfacePitch, 0, 17) | __gen_uint(values->SurfaceFormat, 18, 20) | __gen_uint(values->HierarchicalDepthBufferEnable, 22, 22) | __gen_uint(values->StencilWriteEnable, 27, 27) | __gen_uint(values->DepthWriteEnable, 28, 28) | __gen_uint(values->SurfaceType, 29, 31); const uint64_t v2_address = __gen_combine_address(data, &dw[2], values->SurfaceBaseAddress, 0); dw[2] = v2_address; dw[3] = v2_address >> 32; dw[4] = __gen_uint(values->LOD, 0, 3) | __gen_uint(values->Width, 4, 17) | __gen_uint(values->Height, 18, 31); dw[5] = __gen_uint(values->MOCS, 0, 6) | __gen_uint(values->MinimumArrayElement, 10, 20) | __gen_uint(values->Depth, 21, 31); dw[6] = 0; dw[7] = __gen_uint(values->SurfaceQPitch, 0, 14) | __gen_uint(values->RenderTargetViewExtent, 21, 31); } #define GEN8_3DSTATE_DRAWING_RECTANGLE_length 4 #define GEN8_3DSTATE_DRAWING_RECTANGLE_length_bias 2 #define GEN8_3DSTATE_DRAWING_RECTANGLE_header \ .DWordLength = 2, \ ._3DCommandSubOpcode = 0, \ ._3DCommandOpcode = 1, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_DRAWING_RECTANGLE { uint32_t DWordLength; uint32_t CoreModeSelect; #define Legacy 0 #define Core0Enabled 1 #define Core1Enabled 2 uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t ClippedDrawingRectangleXMin; uint32_t ClippedDrawingRectangleYMin; uint32_t ClippedDrawingRectangleXMax; uint32_t ClippedDrawingRectangleYMax; int32_t DrawingRectangleOriginX; int32_t DrawingRectangleOriginY; }; static inline void GEN8_3DSTATE_DRAWING_RECTANGLE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_DRAWING_RECTANGLE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->CoreModeSelect, 14, 15) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->ClippedDrawingRectangleXMin, 0, 15) | __gen_uint(values->ClippedDrawingRectangleYMin, 16, 31); dw[2] = __gen_uint(values->ClippedDrawingRectangleXMax, 0, 15) | __gen_uint(values->ClippedDrawingRectangleYMax, 16, 31); dw[3] = __gen_sint(values->DrawingRectangleOriginX, 0, 15) | __gen_sint(values->DrawingRectangleOriginY, 16, 31); } #define GEN8_3DSTATE_DS_length 9 #define GEN8_3DSTATE_DS_length_bias 2 #define GEN8_3DSTATE_DS_header \ .DWordLength = 7, \ ._3DCommandSubOpcode = 29, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_DS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint64_t KernelStartPointer; bool SoftwareExceptionEnable; bool IllegalOpcodeExceptionEnable; bool AccessesUAV; uint32_t FloatingPointMode; #define IEEE754 0 #define Alternate 1 uint32_t ThreadDispatchPriority; #define High 1 uint32_t BindingTableEntryCount; uint32_t SamplerCount; #define NoSamplers 0 #define _14Samplers 1 #define _58Samplers 2 #define _912Samplers 3 #define _1316Samplers 4 bool VectorMaskEnable; uint32_t SingleDomainPointDispatch; uint32_t PerThreadScratchSpace; __gen_address_type ScratchSpaceBasePointer; uint32_t PatchURBEntryReadOffset; uint32_t PatchURBEntryReadLength; uint32_t DispatchGRFStartRegisterForURBData; bool Enable; bool CacheDisable; bool ComputeWCoordinateEnable; uint32_t DispatchMode; #define DISPATCH_MODE_SIMD4X2 0 #define DISPATCH_MODE_SIMD8_SINGLE_PATCH 1 bool StatisticsEnable; uint32_t MaximumNumberofThreads; uint32_t UserClipDistanceCullTestEnableBitmask; uint32_t UserClipDistanceClipTestEnableBitmask; uint32_t VertexURBEntryOutputLength; uint32_t VertexURBEntryOutputReadOffset; }; static inline void GEN8_3DSTATE_DS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_DS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); const uint64_t v1 = __gen_offset(values->KernelStartPointer, 6, 63); dw[1] = v1; dw[2] = v1 >> 32; dw[3] = __gen_uint(values->SoftwareExceptionEnable, 7, 7) | __gen_uint(values->IllegalOpcodeExceptionEnable, 13, 13) | __gen_uint(values->AccessesUAV, 14, 14) | __gen_uint(values->FloatingPointMode, 16, 16) | __gen_uint(values->ThreadDispatchPriority, 17, 17) | __gen_uint(values->BindingTableEntryCount, 18, 25) | __gen_uint(values->SamplerCount, 27, 29) | __gen_uint(values->VectorMaskEnable, 30, 30) | __gen_uint(values->SingleDomainPointDispatch, 31, 31); const uint64_t v4 = __gen_uint(values->PerThreadScratchSpace, 0, 3); const uint64_t v4_address = __gen_combine_address(data, &dw[4], values->ScratchSpaceBasePointer, v4); dw[4] = v4_address; dw[5] = (v4_address >> 32) | (v4 >> 32); dw[6] = __gen_uint(values->PatchURBEntryReadOffset, 4, 9) | __gen_uint(values->PatchURBEntryReadLength, 11, 17) | __gen_uint(values->DispatchGRFStartRegisterForURBData, 20, 24); dw[7] = __gen_uint(values->Enable, 0, 0) | __gen_uint(values->CacheDisable, 1, 1) | __gen_uint(values->ComputeWCoordinateEnable, 2, 2) | __gen_uint(values->DispatchMode, 3, 3) | __gen_uint(values->StatisticsEnable, 10, 10) | __gen_uint(values->MaximumNumberofThreads, 21, 29); dw[8] = __gen_uint(values->UserClipDistanceCullTestEnableBitmask, 0, 7) | __gen_uint(values->UserClipDistanceClipTestEnableBitmask, 8, 15) | __gen_uint(values->VertexURBEntryOutputLength, 16, 20) | __gen_uint(values->VertexURBEntryOutputReadOffset, 21, 26); } #define GEN8_3DSTATE_GATHER_CONSTANT_DS_length_bias 2 #define GEN8_3DSTATE_GATHER_CONSTANT_DS_header \ .DWordLength = 1, \ ._3DCommandSubOpcode = 55, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_GATHER_CONSTANT_DS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t ConstantBufferBindingTableBlock; uint32_t ConstantBufferValid; bool ConstantBufferDx9GenerateStall; uint64_t GatherBufferOffset; /* variable length fields follow */ }; static inline void GEN8_3DSTATE_GATHER_CONSTANT_DS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_GATHER_CONSTANT_DS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->ConstantBufferBindingTableBlock, 12, 15) | __gen_uint(values->ConstantBufferValid, 16, 31); dw[2] = __gen_uint(values->ConstantBufferDx9GenerateStall, 5, 5) | __gen_offset(values->GatherBufferOffset, 6, 22); } #define GEN8_3DSTATE_GATHER_CONSTANT_GS_length_bias 2 #define GEN8_3DSTATE_GATHER_CONSTANT_GS_header \ .DWordLength = 1, \ ._3DCommandSubOpcode = 53, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_GATHER_CONSTANT_GS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t ConstantBufferBindingTableBlock; uint32_t ConstantBufferValid; bool ConstantBufferDx9GenerateStall; uint64_t GatherBufferOffset; /* variable length fields follow */ }; static inline void GEN8_3DSTATE_GATHER_CONSTANT_GS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_GATHER_CONSTANT_GS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->ConstantBufferBindingTableBlock, 12, 15) | __gen_uint(values->ConstantBufferValid, 16, 31); dw[2] = __gen_uint(values->ConstantBufferDx9GenerateStall, 5, 5) | __gen_offset(values->GatherBufferOffset, 6, 22); } #define GEN8_3DSTATE_GATHER_CONSTANT_HS_length_bias 2 #define GEN8_3DSTATE_GATHER_CONSTANT_HS_header \ .DWordLength = 1, \ ._3DCommandSubOpcode = 54, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_GATHER_CONSTANT_HS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t ConstantBufferBindingTableBlock; uint32_t ConstantBufferValid; bool ConstantBufferDx9GenerateStall; uint64_t GatherBufferOffset; /* variable length fields follow */ }; static inline void GEN8_3DSTATE_GATHER_CONSTANT_HS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_GATHER_CONSTANT_HS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->ConstantBufferBindingTableBlock, 12, 15) | __gen_uint(values->ConstantBufferValid, 16, 31); dw[2] = __gen_uint(values->ConstantBufferDx9GenerateStall, 5, 5) | __gen_offset(values->GatherBufferOffset, 6, 22); } #define GEN8_3DSTATE_GATHER_CONSTANT_PS_length_bias 2 #define GEN8_3DSTATE_GATHER_CONSTANT_PS_header \ .DWordLength = 1, \ ._3DCommandSubOpcode = 56, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_GATHER_CONSTANT_PS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t ConstantBufferBindingTableBlock; uint32_t ConstantBufferValid; bool ConstantBufferDx9Enable; bool ConstantBufferDx9GenerateStall; uint64_t GatherBufferOffset; /* variable length fields follow */ }; static inline void GEN8_3DSTATE_GATHER_CONSTANT_PS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_GATHER_CONSTANT_PS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->ConstantBufferBindingTableBlock, 12, 15) | __gen_uint(values->ConstantBufferValid, 16, 31); dw[2] = __gen_uint(values->ConstantBufferDx9Enable, 4, 4) | __gen_uint(values->ConstantBufferDx9GenerateStall, 5, 5) | __gen_offset(values->GatherBufferOffset, 6, 22); } #define GEN8_3DSTATE_GATHER_CONSTANT_VS_length_bias 2 #define GEN8_3DSTATE_GATHER_CONSTANT_VS_header \ .DWordLength = 0, \ ._3DCommandSubOpcode = 52, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_GATHER_CONSTANT_VS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t ConstantBufferBindingTableBlock; uint32_t ConstantBufferValid; bool ConstantBufferDx9Enable; bool ConstantBufferDx9GenerateStall; uint64_t GatherBufferOffset; /* variable length fields follow */ }; static inline void GEN8_3DSTATE_GATHER_CONSTANT_VS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_GATHER_CONSTANT_VS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->ConstantBufferBindingTableBlock, 12, 15) | __gen_uint(values->ConstantBufferValid, 16, 31); dw[2] = __gen_uint(values->ConstantBufferDx9Enable, 4, 4) | __gen_uint(values->ConstantBufferDx9GenerateStall, 5, 5) | __gen_offset(values->GatherBufferOffset, 6, 22); } #define GEN8_3DSTATE_GATHER_POOL_ALLOC_length 4 #define GEN8_3DSTATE_GATHER_POOL_ALLOC_length_bias 2 #define GEN8_3DSTATE_GATHER_POOL_ALLOC_header \ .DWordLength = 2, \ ._3DCommandSubOpcode = 26, \ ._3DCommandOpcode = 1, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_GATHER_POOL_ALLOC { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t MOCS; bool GatherPoolEnable; __gen_address_type GatherPoolBaseAddress; uint32_t GatherPoolBufferSize; }; static inline void GEN8_3DSTATE_GATHER_POOL_ALLOC_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_GATHER_POOL_ALLOC * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); const uint64_t v1 = __gen_uint(values->MOCS, 0, 6) | __gen_uint(values->GatherPoolEnable, 11, 11); const uint64_t v1_address = __gen_combine_address(data, &dw[1], values->GatherPoolBaseAddress, v1); dw[1] = v1_address; dw[2] = (v1_address >> 32) | (v1 >> 32); dw[3] = __gen_uint(values->GatherPoolBufferSize, 12, 31); } #define GEN8_3DSTATE_GS_length 10 #define GEN8_3DSTATE_GS_length_bias 2 #define GEN8_3DSTATE_GS_header \ .DWordLength = 8, \ ._3DCommandSubOpcode = 17, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_GS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint64_t KernelStartPointer; uint32_t ExpectedVertexCount; bool SoftwareExceptionEnable; bool MaskStackExceptionEnable; bool AccessesUAV; bool IllegalOpcodeExceptionEnable; uint32_t FloatingPointMode; #define IEEE754 0 #define Alternate 1 uint32_t ThreadDispatchPriority; #define High 1 uint32_t BindingTableEntryCount; uint32_t SamplerCount; #define NoSamplers 0 #define _14Samplers 1 #define _58Samplers 2 #define _912Samplers 3 #define _1316Samplers 4 bool VectorMaskEnable; bool SingleProgramFlow; uint32_t PerThreadScratchSpace; __gen_address_type ScratchSpaceBasePointer; uint32_t DispatchGRFStartRegisterForURBData; uint32_t VertexURBEntryReadOffset; bool IncludeVertexHandles; uint32_t VertexURBEntryReadLength; enum GEN8_3D_Prim_Topo_Type OutputTopology; uint32_t OutputVertexSize; bool Enable; bool DiscardAdjacency; uint32_t ReorderMode; #define LEADING 0 #define TRAILING 1 uint32_t Hint; bool IncludePrimitiveID; uint32_t InvocationsIncrementValue; bool StatisticsEnable; uint32_t DispatchMode; #define DISPATCH_MODE_DualInstance 1 #define DISPATCH_MODE_DualObject 2 #define DISPATCH_MODE_SIMD8 3 uint32_t DefaultStreamId; uint32_t InstanceControl; uint32_t ControlDataHeaderSize; uint32_t MaximumNumberofThreads; uint32_t StaticOutputVertexCount; bool StaticOutput; uint32_t ControlDataFormat; #define CUT 0 #define SID 1 uint32_t UserClipDistanceCullTestEnableBitmask; uint32_t UserClipDistanceClipTestEnableBitmask; uint32_t VertexURBEntryOutputLength; uint32_t VertexURBEntryOutputReadOffset; }; static inline void GEN8_3DSTATE_GS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_GS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); const uint64_t v1 = __gen_offset(values->KernelStartPointer, 6, 63); dw[1] = v1; dw[2] = v1 >> 32; dw[3] = __gen_uint(values->ExpectedVertexCount, 0, 5) | __gen_uint(values->SoftwareExceptionEnable, 7, 7) | __gen_uint(values->MaskStackExceptionEnable, 11, 11) | __gen_uint(values->AccessesUAV, 12, 12) | __gen_uint(values->IllegalOpcodeExceptionEnable, 13, 13) | __gen_uint(values->FloatingPointMode, 16, 16) | __gen_uint(values->ThreadDispatchPriority, 17, 17) | __gen_uint(values->BindingTableEntryCount, 18, 25) | __gen_uint(values->SamplerCount, 27, 29) | __gen_uint(values->VectorMaskEnable, 30, 30) | __gen_uint(values->SingleProgramFlow, 31, 31); const uint64_t v4 = __gen_uint(values->PerThreadScratchSpace, 0, 3); const uint64_t v4_address = __gen_combine_address(data, &dw[4], values->ScratchSpaceBasePointer, v4); dw[4] = v4_address; dw[5] = (v4_address >> 32) | (v4 >> 32); dw[6] = __gen_uint(values->DispatchGRFStartRegisterForURBData, 0, 3) | __gen_uint(values->VertexURBEntryReadOffset, 4, 9) | __gen_uint(values->IncludeVertexHandles, 10, 10) | __gen_uint(values->VertexURBEntryReadLength, 11, 16) | __gen_uint(values->OutputTopology, 17, 22) | __gen_uint(values->OutputVertexSize, 23, 28); dw[7] = __gen_uint(values->Enable, 0, 0) | __gen_uint(values->DiscardAdjacency, 1, 1) | __gen_uint(values->ReorderMode, 2, 2) | __gen_uint(values->Hint, 3, 3) | __gen_uint(values->IncludePrimitiveID, 4, 4) | __gen_uint(values->InvocationsIncrementValue, 5, 9) | __gen_uint(values->StatisticsEnable, 10, 10) | __gen_uint(values->DispatchMode, 11, 12) | __gen_uint(values->DefaultStreamId, 13, 14) | __gen_uint(values->InstanceControl, 15, 19) | __gen_uint(values->ControlDataHeaderSize, 20, 23) | __gen_uint(values->MaximumNumberofThreads, 24, 31); dw[8] = __gen_uint(values->StaticOutputVertexCount, 16, 26) | __gen_uint(values->StaticOutput, 30, 30) | __gen_uint(values->ControlDataFormat, 31, 31); dw[9] = __gen_uint(values->UserClipDistanceCullTestEnableBitmask, 0, 7) | __gen_uint(values->UserClipDistanceClipTestEnableBitmask, 8, 15) | __gen_uint(values->VertexURBEntryOutputLength, 16, 20) | __gen_uint(values->VertexURBEntryOutputReadOffset, 21, 26); } #define GEN8_3DSTATE_HIER_DEPTH_BUFFER_length 5 #define GEN8_3DSTATE_HIER_DEPTH_BUFFER_length_bias 2 #define GEN8_3DSTATE_HIER_DEPTH_BUFFER_header \ .DWordLength = 3, \ ._3DCommandSubOpcode = 7, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_HIER_DEPTH_BUFFER { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t SurfacePitch; uint32_t MOCS; __gen_address_type SurfaceBaseAddress; uint32_t SurfaceQPitch; }; static inline void GEN8_3DSTATE_HIER_DEPTH_BUFFER_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_HIER_DEPTH_BUFFER * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->SurfacePitch, 0, 16) | __gen_uint(values->MOCS, 25, 31); const uint64_t v2_address = __gen_combine_address(data, &dw[2], values->SurfaceBaseAddress, 0); dw[2] = v2_address; dw[3] = v2_address >> 32; dw[4] = __gen_uint(values->SurfaceQPitch, 0, 14); } #define GEN8_3DSTATE_HS_length 9 #define GEN8_3DSTATE_HS_length_bias 2 #define GEN8_3DSTATE_HS_header \ .DWordLength = 7, \ ._3DCommandSubOpcode = 27, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_HS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; bool SoftwareExceptionEnable; bool IllegalOpcodeExceptionEnable; uint32_t FloatingPointMode; #define IEEE754 0 #define alternate 1 uint32_t ThreadDispatchPriority; #define High 1 uint32_t BindingTableEntryCount; uint32_t SamplerCount; #define NoSamplers 0 #define _14Samplers 1 #define _58Samplers 2 #define _912Samplers 3 #define _1316Samplers 4 uint32_t InstanceCount; uint32_t MaximumNumberofThreads; bool StatisticsEnable; bool Enable; uint64_t KernelStartPointer; uint32_t PerThreadScratchSpace; __gen_address_type ScratchSpaceBasePointer; uint32_t VertexURBEntryReadOffset; uint32_t VertexURBEntryReadLength; uint32_t DispatchGRFStartRegisterForURBData; bool IncludeVertexHandles; bool AccessesUAV; bool VectorMaskEnable; bool SingleProgramFlow; }; static inline void GEN8_3DSTATE_HS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_HS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->SoftwareExceptionEnable, 12, 12) | __gen_uint(values->IllegalOpcodeExceptionEnable, 13, 13) | __gen_uint(values->FloatingPointMode, 16, 16) | __gen_uint(values->ThreadDispatchPriority, 17, 17) | __gen_uint(values->BindingTableEntryCount, 18, 25) | __gen_uint(values->SamplerCount, 27, 29); dw[2] = __gen_uint(values->InstanceCount, 0, 3) | __gen_uint(values->MaximumNumberofThreads, 8, 16) | __gen_uint(values->StatisticsEnable, 29, 29) | __gen_uint(values->Enable, 31, 31); const uint64_t v3 = __gen_offset(values->KernelStartPointer, 6, 63); dw[3] = v3; dw[4] = v3 >> 32; const uint64_t v5 = __gen_uint(values->PerThreadScratchSpace, 0, 3); const uint64_t v5_address = __gen_combine_address(data, &dw[5], values->ScratchSpaceBasePointer, v5); dw[5] = v5_address; dw[6] = (v5_address >> 32) | (v5 >> 32); dw[7] = __gen_uint(values->VertexURBEntryReadOffset, 4, 9) | __gen_uint(values->VertexURBEntryReadLength, 11, 16) | __gen_uint(values->DispatchGRFStartRegisterForURBData, 19, 23) | __gen_uint(values->IncludeVertexHandles, 24, 24) | __gen_uint(values->AccessesUAV, 25, 25) | __gen_uint(values->VectorMaskEnable, 26, 26) | __gen_uint(values->SingleProgramFlow, 27, 27); dw[8] = 0; } #define GEN8_3DSTATE_INDEX_BUFFER_length 5 #define GEN8_3DSTATE_INDEX_BUFFER_length_bias 2 #define GEN8_3DSTATE_INDEX_BUFFER_header \ .DWordLength = 3, \ ._3DCommandSubOpcode = 10, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_INDEX_BUFFER { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t MOCS; uint32_t IndexFormat; #define INDEX_BYTE 0 #define INDEX_WORD 1 #define INDEX_DWORD 2 __gen_address_type BufferStartingAddress; uint32_t BufferSize; }; static inline void GEN8_3DSTATE_INDEX_BUFFER_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_INDEX_BUFFER * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->MOCS, 0, 6) | __gen_uint(values->IndexFormat, 8, 9); const uint64_t v2_address = __gen_combine_address(data, &dw[2], values->BufferStartingAddress, 0); dw[2] = v2_address; dw[3] = v2_address >> 32; dw[4] = __gen_uint(values->BufferSize, 0, 31); } #define GEN8_3DSTATE_LINE_STIPPLE_length 3 #define GEN8_3DSTATE_LINE_STIPPLE_length_bias 2 #define GEN8_3DSTATE_LINE_STIPPLE_header \ .DWordLength = 1, \ ._3DCommandSubOpcode = 8, \ ._3DCommandOpcode = 1, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_LINE_STIPPLE { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t LineStipplePattern; uint32_t CurrentStippleIndex; uint32_t CurrentRepeatCounter; bool ModifyEnableCurrentRepeatCounterCurrentStippleIndex; uint32_t LineStippleRepeatCount; float LineStippleInverseRepeatCount; }; static inline void GEN8_3DSTATE_LINE_STIPPLE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_LINE_STIPPLE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->LineStipplePattern, 0, 15) | __gen_uint(values->CurrentStippleIndex, 16, 19) | __gen_uint(values->CurrentRepeatCounter, 21, 29) | __gen_uint(values->ModifyEnableCurrentRepeatCounterCurrentStippleIndex, 31, 31); dw[2] = __gen_uint(values->LineStippleRepeatCount, 0, 8) | __gen_ufixed(values->LineStippleInverseRepeatCount, 15, 31, 16); } #define GEN8_3DSTATE_MONOFILTER_SIZE_length 2 #define GEN8_3DSTATE_MONOFILTER_SIZE_length_bias 2 #define GEN8_3DSTATE_MONOFILTER_SIZE_header \ .DWordLength = 0, \ ._3DCommandSubOpcode = 17, \ ._3DCommandOpcode = 1, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_MONOFILTER_SIZE { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t MonochromeFilterHeight; uint32_t MonochromeFilterWidth; }; static inline void GEN8_3DSTATE_MONOFILTER_SIZE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_MONOFILTER_SIZE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->MonochromeFilterHeight, 0, 2) | __gen_uint(values->MonochromeFilterWidth, 3, 5); } #define GEN8_3DSTATE_MULTISAMPLE_length 2 #define GEN8_3DSTATE_MULTISAMPLE_length_bias 2 #define GEN8_3DSTATE_MULTISAMPLE_header \ .DWordLength = 0, \ ._3DCommandSubOpcode = 13, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_MULTISAMPLE { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t NumberofMultisamples; uint32_t PixelLocation; #define CENTER 0 #define UL_CORNER 1 bool PixelPositionOffsetEnable; }; static inline void GEN8_3DSTATE_MULTISAMPLE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_MULTISAMPLE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->NumberofMultisamples, 1, 3) | __gen_uint(values->PixelLocation, 4, 4) | __gen_uint(values->PixelPositionOffsetEnable, 5, 5); } #define GEN8_3DSTATE_POLY_STIPPLE_OFFSET_length 2 #define GEN8_3DSTATE_POLY_STIPPLE_OFFSET_length_bias 2 #define GEN8_3DSTATE_POLY_STIPPLE_OFFSET_header \ .DWordLength = 0, \ ._3DCommandSubOpcode = 6, \ ._3DCommandOpcode = 1, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_POLY_STIPPLE_OFFSET { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t PolygonStippleYOffset; uint32_t PolygonStippleXOffset; }; static inline void GEN8_3DSTATE_POLY_STIPPLE_OFFSET_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_POLY_STIPPLE_OFFSET * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->PolygonStippleYOffset, 0, 4) | __gen_uint(values->PolygonStippleXOffset, 8, 12); } #define GEN8_3DSTATE_POLY_STIPPLE_PATTERN_length 33 #define GEN8_3DSTATE_POLY_STIPPLE_PATTERN_length_bias 2 #define GEN8_3DSTATE_POLY_STIPPLE_PATTERN_header\ .DWordLength = 31, \ ._3DCommandSubOpcode = 7, \ ._3DCommandOpcode = 1, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_POLY_STIPPLE_PATTERN { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t PatternRow[32]; }; static inline void GEN8_3DSTATE_POLY_STIPPLE_PATTERN_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_POLY_STIPPLE_PATTERN * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->PatternRow[0], 0, 31); dw[2] = __gen_uint(values->PatternRow[1], 0, 31); dw[3] = __gen_uint(values->PatternRow[2], 0, 31); dw[4] = __gen_uint(values->PatternRow[3], 0, 31); dw[5] = __gen_uint(values->PatternRow[4], 0, 31); dw[6] = __gen_uint(values->PatternRow[5], 0, 31); dw[7] = __gen_uint(values->PatternRow[6], 0, 31); dw[8] = __gen_uint(values->PatternRow[7], 0, 31); dw[9] = __gen_uint(values->PatternRow[8], 0, 31); dw[10] = __gen_uint(values->PatternRow[9], 0, 31); dw[11] = __gen_uint(values->PatternRow[10], 0, 31); dw[12] = __gen_uint(values->PatternRow[11], 0, 31); dw[13] = __gen_uint(values->PatternRow[12], 0, 31); dw[14] = __gen_uint(values->PatternRow[13], 0, 31); dw[15] = __gen_uint(values->PatternRow[14], 0, 31); dw[16] = __gen_uint(values->PatternRow[15], 0, 31); dw[17] = __gen_uint(values->PatternRow[16], 0, 31); dw[18] = __gen_uint(values->PatternRow[17], 0, 31); dw[19] = __gen_uint(values->PatternRow[18], 0, 31); dw[20] = __gen_uint(values->PatternRow[19], 0, 31); dw[21] = __gen_uint(values->PatternRow[20], 0, 31); dw[22] = __gen_uint(values->PatternRow[21], 0, 31); dw[23] = __gen_uint(values->PatternRow[22], 0, 31); dw[24] = __gen_uint(values->PatternRow[23], 0, 31); dw[25] = __gen_uint(values->PatternRow[24], 0, 31); dw[26] = __gen_uint(values->PatternRow[25], 0, 31); dw[27] = __gen_uint(values->PatternRow[26], 0, 31); dw[28] = __gen_uint(values->PatternRow[27], 0, 31); dw[29] = __gen_uint(values->PatternRow[28], 0, 31); dw[30] = __gen_uint(values->PatternRow[29], 0, 31); dw[31] = __gen_uint(values->PatternRow[30], 0, 31); dw[32] = __gen_uint(values->PatternRow[31], 0, 31); } #define GEN8_3DSTATE_PS_length 12 #define GEN8_3DSTATE_PS_length_bias 2 #define GEN8_3DSTATE_PS_header \ .DWordLength = 10, \ ._3DCommandSubOpcode = 32, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_PS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint64_t KernelStartPointer0; bool SoftwareExceptionEnable; bool MaskStackExceptionEnable; bool IllegalOpcodeExceptionEnable; uint32_t RoundingMode; #define RTNE 0 #define RU 1 #define RD 2 #define RTZ 3 uint32_t FloatingPointMode; #define IEEE754 0 #define Alternate 1 uint32_t ThreadDispatchPriority; #define High 1 uint32_t BindingTableEntryCount; uint32_t SinglePrecisionDenormalMode; #define FlushedtoZero 0 #define Retained 1 uint32_t SamplerCount; #define NoSamplers 0 #define _14Samplers 1 #define _58Samplers 2 #define _912Samplers 3 #define _1316Samplers 4 bool VectorMaskEnable; bool SingleProgramFlow; uint32_t PerThreadScratchSpace; __gen_address_type ScratchSpaceBasePointer; bool _8PixelDispatchEnable; bool _16PixelDispatchEnable; bool _32PixelDispatchEnable; uint32_t PositionXYOffsetSelect; #define POSOFFSET_NONE 0 #define POSOFFSET_CENTROID 2 #define POSOFFSET_SAMPLE 3 bool RenderTargetResolveEnable; bool RenderTargetFastClearEnable; bool PushConstantEnable; uint32_t MaximumNumberofThreadsPerPSD; uint32_t DispatchGRFStartRegisterForConstantSetupData2; uint32_t DispatchGRFStartRegisterForConstantSetupData1; uint32_t DispatchGRFStartRegisterForConstantSetupData0; uint64_t KernelStartPointer1; uint64_t KernelStartPointer2; }; static inline void GEN8_3DSTATE_PS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_PS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); const uint64_t v1 = __gen_offset(values->KernelStartPointer0, 6, 63); dw[1] = v1; dw[2] = v1 >> 32; dw[3] = __gen_uint(values->SoftwareExceptionEnable, 7, 7) | __gen_uint(values->MaskStackExceptionEnable, 11, 11) | __gen_uint(values->IllegalOpcodeExceptionEnable, 13, 13) | __gen_uint(values->RoundingMode, 14, 15) | __gen_uint(values->FloatingPointMode, 16, 16) | __gen_uint(values->ThreadDispatchPriority, 17, 17) | __gen_uint(values->BindingTableEntryCount, 18, 25) | __gen_uint(values->SinglePrecisionDenormalMode, 26, 26) | __gen_uint(values->SamplerCount, 27, 29) | __gen_uint(values->VectorMaskEnable, 30, 30) | __gen_uint(values->SingleProgramFlow, 31, 31); const uint64_t v4 = __gen_uint(values->PerThreadScratchSpace, 0, 3); const uint64_t v4_address = __gen_combine_address(data, &dw[4], values->ScratchSpaceBasePointer, v4); dw[4] = v4_address; dw[5] = (v4_address >> 32) | (v4 >> 32); dw[6] = __gen_uint(values->_8PixelDispatchEnable, 0, 0) | __gen_uint(values->_16PixelDispatchEnable, 1, 1) | __gen_uint(values->_32PixelDispatchEnable, 2, 2) | __gen_uint(values->PositionXYOffsetSelect, 3, 4) | __gen_uint(values->RenderTargetResolveEnable, 6, 6) | __gen_uint(values->RenderTargetFastClearEnable, 8, 8) | __gen_uint(values->PushConstantEnable, 11, 11) | __gen_uint(values->MaximumNumberofThreadsPerPSD, 23, 31); dw[7] = __gen_uint(values->DispatchGRFStartRegisterForConstantSetupData2, 0, 6) | __gen_uint(values->DispatchGRFStartRegisterForConstantSetupData1, 8, 14) | __gen_uint(values->DispatchGRFStartRegisterForConstantSetupData0, 16, 22); const uint64_t v8 = __gen_offset(values->KernelStartPointer1, 6, 63); dw[8] = v8; dw[9] = v8 >> 32; const uint64_t v10 = __gen_offset(values->KernelStartPointer2, 6, 63); dw[10] = v10; dw[11] = v10 >> 32; } #define GEN8_3DSTATE_PS_BLEND_length 2 #define GEN8_3DSTATE_PS_BLEND_length_bias 2 #define GEN8_3DSTATE_PS_BLEND_header \ .DWordLength = 0, \ ._3DCommandSubOpcode = 77, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_PS_BLEND { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; bool IndependentAlphaBlendEnable; bool AlphaTestEnable; uint32_t DestinationBlendFactor; uint32_t SourceBlendFactor; uint32_t DestinationAlphaBlendFactor; uint32_t SourceAlphaBlendFactor; bool ColorBufferBlendEnable; bool HasWriteableRT; bool AlphaToCoverageEnable; }; static inline void GEN8_3DSTATE_PS_BLEND_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_PS_BLEND * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->IndependentAlphaBlendEnable, 7, 7) | __gen_uint(values->AlphaTestEnable, 8, 8) | __gen_uint(values->DestinationBlendFactor, 9, 13) | __gen_uint(values->SourceBlendFactor, 14, 18) | __gen_uint(values->DestinationAlphaBlendFactor, 19, 23) | __gen_uint(values->SourceAlphaBlendFactor, 24, 28) | __gen_uint(values->ColorBufferBlendEnable, 29, 29) | __gen_uint(values->HasWriteableRT, 30, 30) | __gen_uint(values->AlphaToCoverageEnable, 31, 31); } #define GEN8_3DSTATE_PS_EXTRA_length 2 #define GEN8_3DSTATE_PS_EXTRA_length_bias 2 #define GEN8_3DSTATE_PS_EXTRA_header \ .DWordLength = 0, \ ._3DCommandSubOpcode = 79, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_PS_EXTRA { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; bool PixelShaderUsesInputCoverageMask; bool PixelShaderHasUAV; bool PixelShaderIsPerSample; bool PixelShaderDisablesAlphaToCoverage; bool AttributeEnable; bool PixelShaderUsesSourceW; bool PixelShaderUsesSourceDepth; bool ForceComputedDepth; uint32_t PixelShaderComputedDepthMode; #define PSCDEPTH_OFF 0 #define PSCDEPTH_ON 1 #define PSCDEPTH_ON_GE 2 #define PSCDEPTH_ON_LE 3 bool PixelShaderKillsPixel; bool oMaskPresenttoRenderTarget; bool PixelShaderDoesnotwritetoRT; bool PixelShaderValid; }; static inline void GEN8_3DSTATE_PS_EXTRA_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_PS_EXTRA * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->PixelShaderUsesInputCoverageMask, 1, 1) | __gen_uint(values->PixelShaderHasUAV, 2, 2) | __gen_uint(values->PixelShaderIsPerSample, 6, 6) | __gen_uint(values->PixelShaderDisablesAlphaToCoverage, 7, 7) | __gen_uint(values->AttributeEnable, 8, 8) | __gen_uint(values->PixelShaderUsesSourceW, 23, 23) | __gen_uint(values->PixelShaderUsesSourceDepth, 24, 24) | __gen_uint(values->ForceComputedDepth, 25, 25) | __gen_uint(values->PixelShaderComputedDepthMode, 26, 27) | __gen_uint(values->PixelShaderKillsPixel, 28, 28) | __gen_uint(values->oMaskPresenttoRenderTarget, 29, 29) | __gen_uint(values->PixelShaderDoesnotwritetoRT, 30, 30) | __gen_uint(values->PixelShaderValid, 31, 31); } #define GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_DS_length 2 #define GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_DS_length_bias 2 #define GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_DS_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 20, \ ._3DCommandOpcode = 1, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_DS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t ConstantBufferSize; uint32_t ConstantBufferOffset; }; static inline void GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_DS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_DS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->ConstantBufferSize, 0, 5) | __gen_uint(values->ConstantBufferOffset, 16, 20); } #define GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_GS_length 2 #define GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_GS_length_bias 2 #define GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_GS_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 21, \ ._3DCommandOpcode = 1, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_GS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t ConstantBufferSize; uint32_t ConstantBufferOffset; }; static inline void GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_GS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_GS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->ConstantBufferSize, 0, 5) | __gen_uint(values->ConstantBufferOffset, 16, 20); } #define GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_HS_length 2 #define GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_HS_length_bias 2 #define GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_HS_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 19, \ ._3DCommandOpcode = 1, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_HS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t ConstantBufferSize; uint32_t ConstantBufferOffset; }; static inline void GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_HS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_HS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->ConstantBufferSize, 0, 5) | __gen_uint(values->ConstantBufferOffset, 16, 20); } #define GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_PS_length 2 #define GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_PS_length_bias 2 #define GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_PS_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 22, \ ._3DCommandOpcode = 1, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_PS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t ConstantBufferSize; uint32_t ConstantBufferOffset; }; static inline void GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_PS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_PS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->ConstantBufferSize, 0, 5) | __gen_uint(values->ConstantBufferOffset, 16, 20); } #define GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_VS_length 2 #define GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_VS_length_bias 2 #define GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_VS_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 18, \ ._3DCommandOpcode = 1, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_VS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t ConstantBufferSize; uint32_t ConstantBufferOffset; }; static inline void GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_VS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_PUSH_CONSTANT_ALLOC_VS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->ConstantBufferSize, 0, 5) | __gen_uint(values->ConstantBufferOffset, 16, 20); } #define GEN8_3DSTATE_RASTER_length 5 #define GEN8_3DSTATE_RASTER_length_bias 2 #define GEN8_3DSTATE_RASTER_header \ .DWordLength = 3, \ ._3DCommandSubOpcode = 80, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_RASTER { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; bool ViewportZClipTestEnable; bool ScissorRectangleEnable; bool AntialiasingEnable; uint32_t BackFaceFillMode; #define FILL_MODE_SOLID 0 #define FILL_MODE_WIREFRAME 1 #define FILL_MODE_POINT 2 uint32_t FrontFaceFillMode; #define FILL_MODE_SOLID 0 #define FILL_MODE_WIREFRAME 1 #define FILL_MODE_POINT 2 bool GlobalDepthOffsetEnablePoint; bool GlobalDepthOffsetEnableWireframe; bool GlobalDepthOffsetEnableSolid; uint32_t DXMultisampleRasterizationMode; #define MSRASTMODE_OFF_PIXEL 0 #define MSRASTMODE_OFF_PATTERN 1 #define MSRASTMODE_ON_PIXEL 2 #define MSRASTMODE_ON_PATTERN 3 bool DXMultisampleRasterizationEnable; bool SmoothPointEnable; uint32_t ForceMultisampling; uint32_t CullMode; #define CULLMODE_BOTH 0 #define CULLMODE_NONE 1 #define CULLMODE_FRONT 2 #define CULLMODE_BACK 3 uint32_t ForcedSampleCount; #define FSC_NUMRASTSAMPLES_0 0 #define FSC_NUMRASTSAMPLES_1 1 #define FSC_NUMRASTSAMPLES_2 2 #define FSC_NUMRASTSAMPLES_4 3 #define FSC_NUMRASTSAMPLES_8 4 #define FSC_NUMRASTSAMPLES_16 5 uint32_t FrontWinding; #define Clockwise 0 #define CounterClockwise 1 uint32_t APIMode; #define DX9OGL 0 #define DX100 1 #define DX101 2 float GlobalDepthOffsetConstant; float GlobalDepthOffsetScale; float GlobalDepthOffsetClamp; }; static inline void GEN8_3DSTATE_RASTER_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_RASTER * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->ViewportZClipTestEnable, 0, 0) | __gen_uint(values->ScissorRectangleEnable, 1, 1) | __gen_uint(values->AntialiasingEnable, 2, 2) | __gen_uint(values->BackFaceFillMode, 3, 4) | __gen_uint(values->FrontFaceFillMode, 5, 6) | __gen_uint(values->GlobalDepthOffsetEnablePoint, 7, 7) | __gen_uint(values->GlobalDepthOffsetEnableWireframe, 8, 8) | __gen_uint(values->GlobalDepthOffsetEnableSolid, 9, 9) | __gen_uint(values->DXMultisampleRasterizationMode, 10, 11) | __gen_uint(values->DXMultisampleRasterizationEnable, 12, 12) | __gen_uint(values->SmoothPointEnable, 13, 13) | __gen_uint(values->ForceMultisampling, 14, 14) | __gen_uint(values->CullMode, 16, 17) | __gen_uint(values->ForcedSampleCount, 18, 20) | __gen_uint(values->FrontWinding, 21, 21) | __gen_uint(values->APIMode, 22, 23); dw[2] = __gen_float(values->GlobalDepthOffsetConstant); dw[3] = __gen_float(values->GlobalDepthOffsetScale); dw[4] = __gen_float(values->GlobalDepthOffsetClamp); } #define GEN8_3DSTATE_SAMPLER_PALETTE_LOAD0_length_bias 2 #define GEN8_3DSTATE_SAMPLER_PALETTE_LOAD0_header\ ._3DCommandSubOpcode = 2, \ ._3DCommandOpcode = 1, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_SAMPLER_PALETTE_LOAD0 { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; /* variable length fields follow */ }; static inline void GEN8_3DSTATE_SAMPLER_PALETTE_LOAD0_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_SAMPLER_PALETTE_LOAD0 * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); } #define GEN8_3DSTATE_SAMPLER_PALETTE_LOAD1_length_bias 2 #define GEN8_3DSTATE_SAMPLER_PALETTE_LOAD1_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 12, \ ._3DCommandOpcode = 1, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_SAMPLER_PALETTE_LOAD1 { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; /* variable length fields follow */ }; static inline void GEN8_3DSTATE_SAMPLER_PALETTE_LOAD1_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_SAMPLER_PALETTE_LOAD1 * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); } #define GEN8_3DSTATE_SAMPLER_STATE_POINTERS_DS_length 2 #define GEN8_3DSTATE_SAMPLER_STATE_POINTERS_DS_length_bias 2 #define GEN8_3DSTATE_SAMPLER_STATE_POINTERS_DS_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 45, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_SAMPLER_STATE_POINTERS_DS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint64_t PointertoDSSamplerState; }; static inline void GEN8_3DSTATE_SAMPLER_STATE_POINTERS_DS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_SAMPLER_STATE_POINTERS_DS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_offset(values->PointertoDSSamplerState, 5, 31); } #define GEN8_3DSTATE_SAMPLER_STATE_POINTERS_GS_length 2 #define GEN8_3DSTATE_SAMPLER_STATE_POINTERS_GS_length_bias 2 #define GEN8_3DSTATE_SAMPLER_STATE_POINTERS_GS_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 46, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_SAMPLER_STATE_POINTERS_GS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint64_t PointertoGSSamplerState; }; static inline void GEN8_3DSTATE_SAMPLER_STATE_POINTERS_GS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_SAMPLER_STATE_POINTERS_GS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_offset(values->PointertoGSSamplerState, 5, 31); } #define GEN8_3DSTATE_SAMPLER_STATE_POINTERS_HS_length 2 #define GEN8_3DSTATE_SAMPLER_STATE_POINTERS_HS_length_bias 2 #define GEN8_3DSTATE_SAMPLER_STATE_POINTERS_HS_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 44, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_SAMPLER_STATE_POINTERS_HS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint64_t PointertoHSSamplerState; }; static inline void GEN8_3DSTATE_SAMPLER_STATE_POINTERS_HS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_SAMPLER_STATE_POINTERS_HS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_offset(values->PointertoHSSamplerState, 5, 31); } #define GEN8_3DSTATE_SAMPLER_STATE_POINTERS_PS_length 2 #define GEN8_3DSTATE_SAMPLER_STATE_POINTERS_PS_length_bias 2 #define GEN8_3DSTATE_SAMPLER_STATE_POINTERS_PS_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 47, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_SAMPLER_STATE_POINTERS_PS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint64_t PointertoPSSamplerState; }; static inline void GEN8_3DSTATE_SAMPLER_STATE_POINTERS_PS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_SAMPLER_STATE_POINTERS_PS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_offset(values->PointertoPSSamplerState, 5, 31); } #define GEN8_3DSTATE_SAMPLER_STATE_POINTERS_VS_length 2 #define GEN8_3DSTATE_SAMPLER_STATE_POINTERS_VS_length_bias 2 #define GEN8_3DSTATE_SAMPLER_STATE_POINTERS_VS_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 43, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_SAMPLER_STATE_POINTERS_VS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint64_t PointertoVSSamplerState; }; static inline void GEN8_3DSTATE_SAMPLER_STATE_POINTERS_VS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_SAMPLER_STATE_POINTERS_VS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_offset(values->PointertoVSSamplerState, 5, 31); } #define GEN8_3DSTATE_SAMPLE_MASK_length 2 #define GEN8_3DSTATE_SAMPLE_MASK_length_bias 2 #define GEN8_3DSTATE_SAMPLE_MASK_header \ .DWordLength = 0, \ ._3DCommandSubOpcode = 24, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_SAMPLE_MASK { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t SampleMask; }; static inline void GEN8_3DSTATE_SAMPLE_MASK_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_SAMPLE_MASK * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->SampleMask, 0, 15); } #define GEN8_3DSTATE_SAMPLE_PATTERN_length 9 #define GEN8_3DSTATE_SAMPLE_PATTERN_length_bias 2 #define GEN8_3DSTATE_SAMPLE_PATTERN_header \ .DWordLength = 7, \ ._3DCommandSubOpcode = 28, \ ._3DCommandOpcode = 1, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_SAMPLE_PATTERN { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; float _8xSample4YOffset; float _8xSample4XOffset; float _8xSample5YOffset; float _8xSample5XOffset; float _8xSample6YOffset; float _8xSample6XOffset; float _8xSample7YOffset; float _8xSample7XOffset; float _8xSample0YOffset; float _8xSample0XOffset; float _8xSample1YOffset; float _8xSample1XOffset; float _8xSample2YOffset; float _8xSample2XOffset; float _8xSample3YOffset; float _8xSample3XOffset; float _4xSample0YOffset; float _4xSample0XOffset; float _4xSample1YOffset; float _4xSample1XOffset; float _4xSample2YOffset; float _4xSample2XOffset; float _4xSample3YOffset; float _4xSample3XOffset; float _2xSample0YOffset; float _2xSample0XOffset; float _2xSample1YOffset; float _2xSample1XOffset; float _1xSample0YOffset; float _1xSample0XOffset; }; static inline void GEN8_3DSTATE_SAMPLE_PATTERN_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_SAMPLE_PATTERN * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = 0; dw[2] = 0; dw[3] = 0; dw[4] = 0; dw[5] = __gen_ufixed(values->_8xSample4YOffset, 0, 3, 4) | __gen_ufixed(values->_8xSample4XOffset, 4, 7, 4) | __gen_ufixed(values->_8xSample5YOffset, 8, 11, 4) | __gen_ufixed(values->_8xSample5XOffset, 12, 15, 4) | __gen_ufixed(values->_8xSample6YOffset, 16, 19, 4) | __gen_ufixed(values->_8xSample6XOffset, 20, 23, 4) | __gen_ufixed(values->_8xSample7YOffset, 24, 27, 4) | __gen_ufixed(values->_8xSample7XOffset, 28, 31, 4); dw[6] = __gen_ufixed(values->_8xSample0YOffset, 0, 3, 4) | __gen_ufixed(values->_8xSample0XOffset, 4, 7, 4) | __gen_ufixed(values->_8xSample1YOffset, 8, 11, 4) | __gen_ufixed(values->_8xSample1XOffset, 12, 15, 4) | __gen_ufixed(values->_8xSample2YOffset, 16, 19, 4) | __gen_ufixed(values->_8xSample2XOffset, 20, 23, 4) | __gen_ufixed(values->_8xSample3YOffset, 24, 27, 4) | __gen_ufixed(values->_8xSample3XOffset, 28, 31, 4); dw[7] = __gen_ufixed(values->_4xSample0YOffset, 0, 3, 4) | __gen_ufixed(values->_4xSample0XOffset, 4, 7, 4) | __gen_ufixed(values->_4xSample1YOffset, 8, 11, 4) | __gen_ufixed(values->_4xSample1XOffset, 12, 15, 4) | __gen_ufixed(values->_4xSample2YOffset, 16, 19, 4) | __gen_ufixed(values->_4xSample2XOffset, 20, 23, 4) | __gen_ufixed(values->_4xSample3YOffset, 24, 27, 4) | __gen_ufixed(values->_4xSample3XOffset, 28, 31, 4); dw[8] = __gen_ufixed(values->_2xSample0YOffset, 0, 3, 4) | __gen_ufixed(values->_2xSample0XOffset, 4, 7, 4) | __gen_ufixed(values->_2xSample1YOffset, 8, 11, 4) | __gen_ufixed(values->_2xSample1XOffset, 12, 15, 4) | __gen_ufixed(values->_1xSample0YOffset, 16, 19, 4) | __gen_ufixed(values->_1xSample0XOffset, 20, 23, 4); } #define GEN8_3DSTATE_SBE_length 4 #define GEN8_3DSTATE_SBE_length_bias 2 #define GEN8_3DSTATE_SBE_header \ .DWordLength = 2, \ ._3DCommandSubOpcode = 31, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_SBE { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t PrimitiveIDOverrideAttributeSelect; uint32_t VertexURBEntryReadOffset; uint32_t VertexURBEntryReadLength; bool PrimitiveIDOverrideComponentX; bool PrimitiveIDOverrideComponentY; bool PrimitiveIDOverrideComponentZ; bool PrimitiveIDOverrideComponentW; uint32_t PointSpriteTextureCoordinateOrigin; #define UPPERLEFT 0 #define LOWERLEFT 1 bool AttributeSwizzleEnable; uint32_t NumberofSFOutputAttributes; bool ForceVertexURBEntryReadOffset; bool ForceVertexURBEntryReadLength; uint32_t PointSpriteTextureCoordinateEnable; uint32_t ConstantInterpolationEnable; }; static inline void GEN8_3DSTATE_SBE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_SBE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->PrimitiveIDOverrideAttributeSelect, 0, 4) | __gen_uint(values->VertexURBEntryReadOffset, 5, 10) | __gen_uint(values->VertexURBEntryReadLength, 11, 15) | __gen_uint(values->PrimitiveIDOverrideComponentX, 16, 16) | __gen_uint(values->PrimitiveIDOverrideComponentY, 17, 17) | __gen_uint(values->PrimitiveIDOverrideComponentZ, 18, 18) | __gen_uint(values->PrimitiveIDOverrideComponentW, 19, 19) | __gen_uint(values->PointSpriteTextureCoordinateOrigin, 20, 20) | __gen_uint(values->AttributeSwizzleEnable, 21, 21) | __gen_uint(values->NumberofSFOutputAttributes, 22, 27) | __gen_uint(values->ForceVertexURBEntryReadOffset, 28, 28) | __gen_uint(values->ForceVertexURBEntryReadLength, 29, 29); dw[2] = __gen_uint(values->PointSpriteTextureCoordinateEnable, 0, 31); dw[3] = __gen_uint(values->ConstantInterpolationEnable, 0, 31); } #define GEN8_3DSTATE_SBE_SWIZ_length 11 #define GEN8_3DSTATE_SBE_SWIZ_length_bias 2 #define GEN8_3DSTATE_SBE_SWIZ_header \ .DWordLength = 9, \ ._3DCommandSubOpcode = 81, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_SBE_SWIZ { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; struct GEN8_SF_OUTPUT_ATTRIBUTE_DETAIL Attribute[16]; uint32_t AttributeWrapShortestEnables[16]; }; static inline void GEN8_3DSTATE_SBE_SWIZ_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_SBE_SWIZ * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); uint32_t v1_0; GEN8_SF_OUTPUT_ATTRIBUTE_DETAIL_pack(data, &v1_0, &values->Attribute[0]); uint32_t v1_1; GEN8_SF_OUTPUT_ATTRIBUTE_DETAIL_pack(data, &v1_1, &values->Attribute[1]); dw[1] = __gen_uint(v1_0, 0, 15) | __gen_uint(v1_1, 16, 31); uint32_t v2_0; GEN8_SF_OUTPUT_ATTRIBUTE_DETAIL_pack(data, &v2_0, &values->Attribute[2]); uint32_t v2_1; GEN8_SF_OUTPUT_ATTRIBUTE_DETAIL_pack(data, &v2_1, &values->Attribute[3]); dw[2] = __gen_uint(v2_0, 0, 15) | __gen_uint(v2_1, 16, 31); uint32_t v3_0; GEN8_SF_OUTPUT_ATTRIBUTE_DETAIL_pack(data, &v3_0, &values->Attribute[4]); uint32_t v3_1; GEN8_SF_OUTPUT_ATTRIBUTE_DETAIL_pack(data, &v3_1, &values->Attribute[5]); dw[3] = __gen_uint(v3_0, 0, 15) | __gen_uint(v3_1, 16, 31); uint32_t v4_0; GEN8_SF_OUTPUT_ATTRIBUTE_DETAIL_pack(data, &v4_0, &values->Attribute[6]); uint32_t v4_1; GEN8_SF_OUTPUT_ATTRIBUTE_DETAIL_pack(data, &v4_1, &values->Attribute[7]); dw[4] = __gen_uint(v4_0, 0, 15) | __gen_uint(v4_1, 16, 31); uint32_t v5_0; GEN8_SF_OUTPUT_ATTRIBUTE_DETAIL_pack(data, &v5_0, &values->Attribute[8]); uint32_t v5_1; GEN8_SF_OUTPUT_ATTRIBUTE_DETAIL_pack(data, &v5_1, &values->Attribute[9]); dw[5] = __gen_uint(v5_0, 0, 15) | __gen_uint(v5_1, 16, 31); uint32_t v6_0; GEN8_SF_OUTPUT_ATTRIBUTE_DETAIL_pack(data, &v6_0, &values->Attribute[10]); uint32_t v6_1; GEN8_SF_OUTPUT_ATTRIBUTE_DETAIL_pack(data, &v6_1, &values->Attribute[11]); dw[6] = __gen_uint(v6_0, 0, 15) | __gen_uint(v6_1, 16, 31); uint32_t v7_0; GEN8_SF_OUTPUT_ATTRIBUTE_DETAIL_pack(data, &v7_0, &values->Attribute[12]); uint32_t v7_1; GEN8_SF_OUTPUT_ATTRIBUTE_DETAIL_pack(data, &v7_1, &values->Attribute[13]); dw[7] = __gen_uint(v7_0, 0, 15) | __gen_uint(v7_1, 16, 31); uint32_t v8_0; GEN8_SF_OUTPUT_ATTRIBUTE_DETAIL_pack(data, &v8_0, &values->Attribute[14]); uint32_t v8_1; GEN8_SF_OUTPUT_ATTRIBUTE_DETAIL_pack(data, &v8_1, &values->Attribute[15]); dw[8] = __gen_uint(v8_0, 0, 15) | __gen_uint(v8_1, 16, 31); dw[9] = __gen_uint(values->AttributeWrapShortestEnables[0], 0, 3) | __gen_uint(values->AttributeWrapShortestEnables[1], 4, 7) | __gen_uint(values->AttributeWrapShortestEnables[2], 8, 11) | __gen_uint(values->AttributeWrapShortestEnables[3], 12, 15) | __gen_uint(values->AttributeWrapShortestEnables[4], 16, 19) | __gen_uint(values->AttributeWrapShortestEnables[5], 20, 23) | __gen_uint(values->AttributeWrapShortestEnables[6], 24, 27) | __gen_uint(values->AttributeWrapShortestEnables[7], 28, 31); dw[10] = __gen_uint(values->AttributeWrapShortestEnables[8], 0, 3) | __gen_uint(values->AttributeWrapShortestEnables[9], 4, 7) | __gen_uint(values->AttributeWrapShortestEnables[10], 8, 11) | __gen_uint(values->AttributeWrapShortestEnables[11], 12, 15) | __gen_uint(values->AttributeWrapShortestEnables[12], 16, 19) | __gen_uint(values->AttributeWrapShortestEnables[13], 20, 23) | __gen_uint(values->AttributeWrapShortestEnables[14], 24, 27) | __gen_uint(values->AttributeWrapShortestEnables[15], 28, 31); } #define GEN8_3DSTATE_SCISSOR_STATE_POINTERS_length 2 #define GEN8_3DSTATE_SCISSOR_STATE_POINTERS_length_bias 2 #define GEN8_3DSTATE_SCISSOR_STATE_POINTERS_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 15, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_SCISSOR_STATE_POINTERS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint64_t ScissorRectPointer; }; static inline void GEN8_3DSTATE_SCISSOR_STATE_POINTERS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_SCISSOR_STATE_POINTERS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_offset(values->ScissorRectPointer, 5, 31); } #define GEN8_3DSTATE_SF_length 4 #define GEN8_3DSTATE_SF_length_bias 2 #define GEN8_3DSTATE_SF_header \ .DWordLength = 2, \ ._3DCommandSubOpcode = 19, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_SF { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; bool ViewportTransformEnable; bool StatisticsEnable; bool LegacyGlobalDepthBiasEnable; float CHVLineWidth; uint32_t LineEndCapAntialiasingRegionWidth; #define _05pixels 0 #define _10pixels 1 #define _20pixels 2 #define _40pixels 3 float LineWidth; float PointWidth; uint32_t PointWidthSource; #define Vertex 0 #define State 1 uint32_t VertexSubPixelPrecisionSelect; #define _8Bit 0 #define _4Bit 1 bool SmoothPointEnable; uint32_t AALineDistanceMode; #define AALINEDISTANCE_TRUE 1 uint32_t TriangleFanProvokingVertexSelect; uint32_t LineStripListProvokingVertexSelect; uint32_t TriangleStripListProvokingVertexSelect; bool LastPixelEnable; }; static inline void GEN8_3DSTATE_SF_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_SF * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->ViewportTransformEnable, 1, 1) | __gen_uint(values->StatisticsEnable, 10, 10) | __gen_uint(values->LegacyGlobalDepthBiasEnable, 11, 11) | __gen_ufixed(values->CHVLineWidth, 12, 29, 7); dw[2] = __gen_uint(values->LineEndCapAntialiasingRegionWidth, 16, 17) | __gen_ufixed(values->LineWidth, 18, 27, 7); dw[3] = __gen_ufixed(values->PointWidth, 0, 10, 3) | __gen_uint(values->PointWidthSource, 11, 11) | __gen_uint(values->VertexSubPixelPrecisionSelect, 12, 12) | __gen_uint(values->SmoothPointEnable, 13, 13) | __gen_uint(values->AALineDistanceMode, 14, 14) | __gen_uint(values->TriangleFanProvokingVertexSelect, 25, 26) | __gen_uint(values->LineStripListProvokingVertexSelect, 27, 28) | __gen_uint(values->TriangleStripListProvokingVertexSelect, 29, 30) | __gen_uint(values->LastPixelEnable, 31, 31); } #define GEN8_3DSTATE_SO_BUFFER_length 8 #define GEN8_3DSTATE_SO_BUFFER_length_bias 2 #define GEN8_3DSTATE_SO_BUFFER_header \ .DWordLength = 6, \ ._3DCommandSubOpcode = 24, \ ._3DCommandOpcode = 1, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_SO_BUFFER { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; bool StreamOutputBufferOffsetAddressEnable; bool StreamOffsetWriteEnable; uint32_t MOCS; uint32_t SOBufferIndex; bool SOBufferEnable; __gen_address_type SurfaceBaseAddress; uint32_t SurfaceSize; __gen_address_type StreamOutputBufferOffsetAddress; uint32_t StreamOffset; }; static inline void GEN8_3DSTATE_SO_BUFFER_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_SO_BUFFER * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->StreamOutputBufferOffsetAddressEnable, 20, 20) | __gen_uint(values->StreamOffsetWriteEnable, 21, 21) | __gen_uint(values->MOCS, 22, 28) | __gen_uint(values->SOBufferIndex, 29, 30) | __gen_uint(values->SOBufferEnable, 31, 31); const uint64_t v2_address = __gen_combine_address(data, &dw[2], values->SurfaceBaseAddress, 0); dw[2] = v2_address; dw[3] = v2_address >> 32; dw[4] = __gen_uint(values->SurfaceSize, 0, 29); const uint64_t v5_address = __gen_combine_address(data, &dw[5], values->StreamOutputBufferOffsetAddress, 0); dw[5] = v5_address; dw[6] = v5_address >> 32; dw[7] = __gen_uint(values->StreamOffset, 0, 31); } #define GEN8_3DSTATE_SO_DECL_LIST_length_bias 2 #define GEN8_3DSTATE_SO_DECL_LIST_header \ ._3DCommandSubOpcode = 23, \ ._3DCommandOpcode = 1, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_SO_DECL_LIST { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t StreamtoBufferSelects0; uint32_t StreamtoBufferSelects1; uint32_t StreamtoBufferSelects2; uint32_t StreamtoBufferSelects3; uint32_t NumEntries0; uint32_t NumEntries1; uint32_t NumEntries2; uint32_t NumEntries3; /* variable length fields follow */ }; static inline void GEN8_3DSTATE_SO_DECL_LIST_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_SO_DECL_LIST * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 8) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->StreamtoBufferSelects0, 0, 3) | __gen_uint(values->StreamtoBufferSelects1, 4, 7) | __gen_uint(values->StreamtoBufferSelects2, 8, 11) | __gen_uint(values->StreamtoBufferSelects3, 12, 15); dw[2] = __gen_uint(values->NumEntries0, 0, 7) | __gen_uint(values->NumEntries1, 8, 15) | __gen_uint(values->NumEntries2, 16, 23) | __gen_uint(values->NumEntries3, 24, 31); } #define GEN8_3DSTATE_STENCIL_BUFFER_length 5 #define GEN8_3DSTATE_STENCIL_BUFFER_length_bias 2 #define GEN8_3DSTATE_STENCIL_BUFFER_header \ .DWordLength = 3, \ ._3DCommandSubOpcode = 6, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_STENCIL_BUFFER { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t SurfacePitch; uint32_t MOCS; bool StencilBufferEnable; __gen_address_type SurfaceBaseAddress; uint32_t SurfaceQPitch; }; static inline void GEN8_3DSTATE_STENCIL_BUFFER_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_STENCIL_BUFFER * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->SurfacePitch, 0, 16) | __gen_uint(values->MOCS, 22, 28) | __gen_uint(values->StencilBufferEnable, 31, 31); const uint64_t v2_address = __gen_combine_address(data, &dw[2], values->SurfaceBaseAddress, 0); dw[2] = v2_address; dw[3] = v2_address >> 32; dw[4] = __gen_uint(values->SurfaceQPitch, 0, 14); } #define GEN8_3DSTATE_STREAMOUT_length 5 #define GEN8_3DSTATE_STREAMOUT_length_bias 2 #define GEN8_3DSTATE_STREAMOUT_header \ .DWordLength = 3, \ ._3DCommandSubOpcode = 30, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_STREAMOUT { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t ForceRendering; #define Resreved 1 #define Force_Off 2 #define Force_on 3 bool SOStatisticsEnable; uint32_t ReorderMode; #define LEADING 0 #define TRAILING 1 uint32_t RenderStreamSelect; bool RenderingDisable; bool SOFunctionEnable; uint32_t Stream0VertexReadLength; uint32_t Stream0VertexReadOffset; uint32_t Stream1VertexReadLength; uint32_t Stream1VertexReadOffset; uint32_t Stream2VertexReadLength; uint32_t Stream2VertexReadOffset; uint32_t Stream3VertexReadLength; uint32_t Stream3VertexReadOffset; uint32_t Buffer0SurfacePitch; uint32_t Buffer1SurfacePitch; uint32_t Buffer2SurfacePitch; uint32_t Buffer3SurfacePitch; }; static inline void GEN8_3DSTATE_STREAMOUT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_STREAMOUT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->ForceRendering, 23, 24) | __gen_uint(values->SOStatisticsEnable, 25, 25) | __gen_uint(values->ReorderMode, 26, 26) | __gen_uint(values->RenderStreamSelect, 27, 28) | __gen_uint(values->RenderingDisable, 30, 30) | __gen_uint(values->SOFunctionEnable, 31, 31); dw[2] = __gen_uint(values->Stream0VertexReadLength, 0, 4) | __gen_uint(values->Stream0VertexReadOffset, 5, 5) | __gen_uint(values->Stream1VertexReadLength, 8, 12) | __gen_uint(values->Stream1VertexReadOffset, 13, 13) | __gen_uint(values->Stream2VertexReadLength, 16, 20) | __gen_uint(values->Stream2VertexReadOffset, 21, 21) | __gen_uint(values->Stream3VertexReadLength, 24, 28) | __gen_uint(values->Stream3VertexReadOffset, 29, 29); dw[3] = __gen_uint(values->Buffer0SurfacePitch, 0, 11) | __gen_uint(values->Buffer1SurfacePitch, 16, 27); dw[4] = __gen_uint(values->Buffer2SurfacePitch, 0, 11) | __gen_uint(values->Buffer3SurfacePitch, 16, 27); } #define GEN8_3DSTATE_TE_length 4 #define GEN8_3DSTATE_TE_length_bias 2 #define GEN8_3DSTATE_TE_header \ .DWordLength = 2, \ ._3DCommandSubOpcode = 28, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_TE { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; bool TEEnable; uint32_t TEMode; #define HW_TESS 0 #define SW_TESS 1 uint32_t TEDomain; #define QUAD 0 #define TRI 1 #define ISOLINE 2 uint32_t OutputTopology; #define OUTPUT_POINT 0 #define OUTPUT_LINE 1 #define OUTPUT_TRI_CW 2 #define OUTPUT_TRI_CCW 3 uint32_t Partitioning; #define INTEGER 0 #define ODD_FRACTIONAL 1 #define EVEN_FRACTIONAL 2 float MaximumTessellationFactorOdd; float MaximumTessellationFactorNotOdd; }; static inline void GEN8_3DSTATE_TE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_TE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->TEEnable, 0, 0) | __gen_uint(values->TEMode, 1, 2) | __gen_uint(values->TEDomain, 4, 5) | __gen_uint(values->OutputTopology, 8, 9) | __gen_uint(values->Partitioning, 12, 13); dw[2] = __gen_float(values->MaximumTessellationFactorOdd); dw[3] = __gen_float(values->MaximumTessellationFactorNotOdd); } #define GEN8_3DSTATE_URB_DS_length 2 #define GEN8_3DSTATE_URB_DS_length_bias 2 #define GEN8_3DSTATE_URB_DS_header \ .DWordLength = 0, \ ._3DCommandSubOpcode = 50, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_URB_DS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t DSNumberofURBEntries; uint32_t DSURBEntryAllocationSize; uint32_t DSURBStartingAddress; }; static inline void GEN8_3DSTATE_URB_DS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_URB_DS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->DSNumberofURBEntries, 0, 15) | __gen_uint(values->DSURBEntryAllocationSize, 16, 24) | __gen_uint(values->DSURBStartingAddress, 25, 31); } #define GEN8_3DSTATE_URB_GS_length 2 #define GEN8_3DSTATE_URB_GS_length_bias 2 #define GEN8_3DSTATE_URB_GS_header \ .DWordLength = 0, \ ._3DCommandSubOpcode = 51, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_URB_GS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t GSNumberofURBEntries; uint32_t GSURBEntryAllocationSize; uint32_t GSURBStartingAddress; }; static inline void GEN8_3DSTATE_URB_GS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_URB_GS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->GSNumberofURBEntries, 0, 15) | __gen_uint(values->GSURBEntryAllocationSize, 16, 24) | __gen_uint(values->GSURBStartingAddress, 25, 31); } #define GEN8_3DSTATE_URB_HS_length 2 #define GEN8_3DSTATE_URB_HS_length_bias 2 #define GEN8_3DSTATE_URB_HS_header \ .DWordLength = 0, \ ._3DCommandSubOpcode = 49, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_URB_HS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t HSNumberofURBEntries; uint32_t HSURBEntryAllocationSize; uint32_t HSURBStartingAddress; }; static inline void GEN8_3DSTATE_URB_HS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_URB_HS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->HSNumberofURBEntries, 0, 15) | __gen_uint(values->HSURBEntryAllocationSize, 16, 24) | __gen_uint(values->HSURBStartingAddress, 25, 31); } #define GEN8_3DSTATE_URB_VS_length 2 #define GEN8_3DSTATE_URB_VS_length_bias 2 #define GEN8_3DSTATE_URB_VS_header \ .DWordLength = 0, \ ._3DCommandSubOpcode = 48, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_URB_VS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t VSNumberofURBEntries; uint32_t VSURBEntryAllocationSize; uint32_t VSURBStartingAddress; }; static inline void GEN8_3DSTATE_URB_VS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_URB_VS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->VSNumberofURBEntries, 0, 15) | __gen_uint(values->VSURBEntryAllocationSize, 16, 24) | __gen_uint(values->VSURBStartingAddress, 25, 31); } #define GEN8_3DSTATE_VERTEX_BUFFERS_length_bias 2 #define GEN8_3DSTATE_VERTEX_BUFFERS_header \ .DWordLength = 3, \ ._3DCommandSubOpcode = 8, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_VERTEX_BUFFERS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; /* variable length fields follow */ }; static inline void GEN8_3DSTATE_VERTEX_BUFFERS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_VERTEX_BUFFERS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); } #define GEN8_3DSTATE_VERTEX_ELEMENTS_length_bias 2 #define GEN8_3DSTATE_VERTEX_ELEMENTS_header \ .DWordLength = 1, \ ._3DCommandSubOpcode = 9, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_VERTEX_ELEMENTS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; /* variable length fields follow */ }; static inline void GEN8_3DSTATE_VERTEX_ELEMENTS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_VERTEX_ELEMENTS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); } #define GEN8_3DSTATE_VF_length 2 #define GEN8_3DSTATE_VF_length_bias 2 #define GEN8_3DSTATE_VF_header \ .DWordLength = 0, \ ._3DCommandSubOpcode = 12, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_VF { uint32_t DWordLength; bool IndexedDrawCutIndexEnable; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t CutIndex; }; static inline void GEN8_3DSTATE_VF_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_VF * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->IndexedDrawCutIndexEnable, 8, 8) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->CutIndex, 0, 31); } #define GEN8_3DSTATE_VF_INSTANCING_length 3 #define GEN8_3DSTATE_VF_INSTANCING_length_bias 2 #define GEN8_3DSTATE_VF_INSTANCING_header \ .DWordLength = 1, \ ._3DCommandSubOpcode = 73, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_VF_INSTANCING { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t VertexElementIndex; bool InstancingEnable; uint32_t InstanceDataStepRate; }; static inline void GEN8_3DSTATE_VF_INSTANCING_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_VF_INSTANCING * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->VertexElementIndex, 0, 5) | __gen_uint(values->InstancingEnable, 8, 8); dw[2] = __gen_uint(values->InstanceDataStepRate, 0, 31); } #define GEN8_3DSTATE_VF_SGVS_length 2 #define GEN8_3DSTATE_VF_SGVS_length_bias 2 #define GEN8_3DSTATE_VF_SGVS_header \ .DWordLength = 0, \ ._3DCommandSubOpcode = 74, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_VF_SGVS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t VertexIDElementOffset; uint32_t VertexIDComponentNumber; #define COMP_0 0 #define COMP_1 1 #define COMP_2 2 #define COMP_3 3 bool VertexIDEnable; uint32_t InstanceIDElementOffset; uint32_t InstanceIDComponentNumber; #define COMP_0 0 #define COMP_1 1 #define COMP_2 2 #define COMP_3 3 bool InstanceIDEnable; }; static inline void GEN8_3DSTATE_VF_SGVS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_VF_SGVS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->VertexIDElementOffset, 0, 5) | __gen_uint(values->VertexIDComponentNumber, 13, 14) | __gen_uint(values->VertexIDEnable, 15, 15) | __gen_uint(values->InstanceIDElementOffset, 16, 21) | __gen_uint(values->InstanceIDComponentNumber, 29, 30) | __gen_uint(values->InstanceIDEnable, 31, 31); } #define GEN8_3DSTATE_VF_STATISTICS_length 1 #define GEN8_3DSTATE_VF_STATISTICS_length_bias 1 #define GEN8_3DSTATE_VF_STATISTICS_header \ ._3DCommandSubOpcode = 11, \ ._3DCommandOpcode = 0, \ .CommandSubType = 1, \ .CommandType = 3 struct GEN8_3DSTATE_VF_STATISTICS { bool StatisticsEnable; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; }; static inline void GEN8_3DSTATE_VF_STATISTICS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_VF_STATISTICS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->StatisticsEnable, 0, 0) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); } #define GEN8_3DSTATE_VF_TOPOLOGY_length 2 #define GEN8_3DSTATE_VF_TOPOLOGY_length_bias 2 #define GEN8_3DSTATE_VF_TOPOLOGY_header \ .DWordLength = 0, \ ._3DCommandSubOpcode = 75, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_VF_TOPOLOGY { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; enum GEN8_3D_Prim_Topo_Type PrimitiveTopologyType; }; static inline void GEN8_3DSTATE_VF_TOPOLOGY_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_VF_TOPOLOGY * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->PrimitiveTopologyType, 0, 5); } #define GEN8_3DSTATE_VIEWPORT_STATE_POINTERS_CC_length 2 #define GEN8_3DSTATE_VIEWPORT_STATE_POINTERS_CC_length_bias 2 #define GEN8_3DSTATE_VIEWPORT_STATE_POINTERS_CC_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 35, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_VIEWPORT_STATE_POINTERS_CC { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint64_t CCViewportPointer; }; static inline void GEN8_3DSTATE_VIEWPORT_STATE_POINTERS_CC_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_VIEWPORT_STATE_POINTERS_CC * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_offset(values->CCViewportPointer, 5, 31); } #define GEN8_3DSTATE_VIEWPORT_STATE_POINTERS_SF_CLIP_length 2 #define GEN8_3DSTATE_VIEWPORT_STATE_POINTERS_SF_CLIP_length_bias 2 #define GEN8_3DSTATE_VIEWPORT_STATE_POINTERS_SF_CLIP_header\ .DWordLength = 0, \ ._3DCommandSubOpcode = 33, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_VIEWPORT_STATE_POINTERS_SF_CLIP { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint64_t SFClipViewportPointer; }; static inline void GEN8_3DSTATE_VIEWPORT_STATE_POINTERS_SF_CLIP_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_VIEWPORT_STATE_POINTERS_SF_CLIP * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_offset(values->SFClipViewportPointer, 6, 31); } #define GEN8_3DSTATE_VS_length 9 #define GEN8_3DSTATE_VS_length_bias 2 #define GEN8_3DSTATE_VS_header \ .DWordLength = 7, \ ._3DCommandSubOpcode = 16, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_VS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint64_t KernelStartPointer; bool SoftwareExceptionEnable; bool AccessesUAV; bool IllegalOpcodeExceptionEnable; uint32_t FloatingPointMode; #define IEEE754 0 #define Alternate 1 uint32_t ThreadDispatchPriority; #define High 1 uint32_t BindingTableEntryCount; uint32_t SamplerCount; #define NoSamplers 0 #define _14Samplers 1 #define _58Samplers 2 #define _912Samplers 3 #define _1316Samplers 4 bool VectorMaskEnable; bool SingleVertexDispatch; uint32_t PerThreadScratchSpace; __gen_address_type ScratchSpaceBasePointer; uint32_t VertexURBEntryReadOffset; uint32_t VertexURBEntryReadLength; uint32_t DispatchGRFStartRegisterForURBData; bool Enable; bool VertexCacheDisable; bool SIMD8DispatchEnable; bool StatisticsEnable; uint32_t MaximumNumberofThreads; uint32_t UserClipDistanceCullTestEnableBitmask; uint32_t UserClipDistanceClipTestEnableBitmask; uint32_t VertexURBEntryOutputLength; uint32_t VertexURBEntryOutputReadOffset; }; static inline void GEN8_3DSTATE_VS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_VS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); const uint64_t v1 = __gen_offset(values->KernelStartPointer, 6, 63); dw[1] = v1; dw[2] = v1 >> 32; dw[3] = __gen_uint(values->SoftwareExceptionEnable, 7, 7) | __gen_uint(values->AccessesUAV, 12, 12) | __gen_uint(values->IllegalOpcodeExceptionEnable, 13, 13) | __gen_uint(values->FloatingPointMode, 16, 16) | __gen_uint(values->ThreadDispatchPriority, 17, 17) | __gen_uint(values->BindingTableEntryCount, 18, 25) | __gen_uint(values->SamplerCount, 27, 29) | __gen_uint(values->VectorMaskEnable, 30, 30) | __gen_uint(values->SingleVertexDispatch, 31, 31); const uint64_t v4 = __gen_uint(values->PerThreadScratchSpace, 0, 3); const uint64_t v4_address = __gen_combine_address(data, &dw[4], values->ScratchSpaceBasePointer, v4); dw[4] = v4_address; dw[5] = (v4_address >> 32) | (v4 >> 32); dw[6] = __gen_uint(values->VertexURBEntryReadOffset, 4, 9) | __gen_uint(values->VertexURBEntryReadLength, 11, 16) | __gen_uint(values->DispatchGRFStartRegisterForURBData, 20, 24); dw[7] = __gen_uint(values->Enable, 0, 0) | __gen_uint(values->VertexCacheDisable, 1, 1) | __gen_uint(values->SIMD8DispatchEnable, 2, 2) | __gen_uint(values->StatisticsEnable, 10, 10) | __gen_uint(values->MaximumNumberofThreads, 23, 31); dw[8] = __gen_uint(values->UserClipDistanceCullTestEnableBitmask, 0, 7) | __gen_uint(values->UserClipDistanceClipTestEnableBitmask, 8, 15) | __gen_uint(values->VertexURBEntryOutputLength, 16, 20) | __gen_uint(values->VertexURBEntryOutputReadOffset, 21, 26); } #define GEN8_3DSTATE_WM_length 2 #define GEN8_3DSTATE_WM_length_bias 2 #define GEN8_3DSTATE_WM_header \ .DWordLength = 0, \ ._3DCommandSubOpcode = 20, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_WM { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t ForceKillPixelEnable; #define ForceOff 1 #define ForceON 2 uint32_t PointRasterizationRule; #define RASTRULE_UPPER_LEFT 0 #define RASTRULE_UPPER_RIGHT 1 bool LineStippleEnable; bool PolygonStippleEnable; uint32_t LineAntialiasingRegionWidth; #define _05pixels 0 #define _10pixels 1 #define _20pixels 2 #define _40pixels 3 uint32_t LineEndCapAntialiasingRegionWidth; #define _05pixels 0 #define _10pixels 1 #define _20pixels 2 #define _40pixels 3 uint32_t BarycentricInterpolationMode; #define BIM_PERSPECTIVE_PIXEL 1 #define BIM_PERSPECTIVE_CENTROID 2 #define BIM_PERSPECTIVE_SAMPLE 4 #define BIM_LINEAR_PIXEL 8 #define BIM_LINEAR_CENTROID 16 #define BIM_LINEAR_SAMPLE 32 uint32_t PositionZWInterpolationMode; #define INTERP_PIXEL 0 #define INTERP_CENTROID 2 #define INTERP_SAMPLE 3 uint32_t ForceThreadDispatchEnable; #define ForceOff 1 #define ForceON 2 uint32_t EarlyDepthStencilControl; #define EDSC_NORMAL 0 #define EDSC_PSEXEC 1 #define EDSC_PREPS 2 bool LegacyDiamondLineRasterization; bool LegacyHierarchicalDepthBufferResolveEnable; bool LegacyDepthBufferResolveEnable; bool LegacyDepthBufferClearEnable; bool StatisticsEnable; }; static inline void GEN8_3DSTATE_WM_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_WM * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->ForceKillPixelEnable, 0, 1) | __gen_uint(values->PointRasterizationRule, 2, 2) | __gen_uint(values->LineStippleEnable, 3, 3) | __gen_uint(values->PolygonStippleEnable, 4, 4) | __gen_uint(values->LineAntialiasingRegionWidth, 6, 7) | __gen_uint(values->LineEndCapAntialiasingRegionWidth, 8, 9) | __gen_uint(values->BarycentricInterpolationMode, 11, 16) | __gen_uint(values->PositionZWInterpolationMode, 17, 18) | __gen_uint(values->ForceThreadDispatchEnable, 19, 20) | __gen_uint(values->EarlyDepthStencilControl, 21, 22) | __gen_uint(values->LegacyDiamondLineRasterization, 26, 26) | __gen_uint(values->LegacyHierarchicalDepthBufferResolveEnable, 27, 27) | __gen_uint(values->LegacyDepthBufferResolveEnable, 28, 28) | __gen_uint(values->LegacyDepthBufferClearEnable, 30, 30) | __gen_uint(values->StatisticsEnable, 31, 31); } #define GEN8_3DSTATE_WM_CHROMAKEY_length 2 #define GEN8_3DSTATE_WM_CHROMAKEY_length_bias 2 #define GEN8_3DSTATE_WM_CHROMAKEY_header \ .DWordLength = 0, \ ._3DCommandSubOpcode = 76, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_WM_CHROMAKEY { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; bool ChromaKeyKillEnable; }; static inline void GEN8_3DSTATE_WM_CHROMAKEY_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_WM_CHROMAKEY * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->ChromaKeyKillEnable, 31, 31); } #define GEN8_3DSTATE_WM_DEPTH_STENCIL_length 3 #define GEN8_3DSTATE_WM_DEPTH_STENCIL_length_bias 2 #define GEN8_3DSTATE_WM_DEPTH_STENCIL_header \ .DWordLength = 1, \ ._3DCommandSubOpcode = 78, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_WM_DEPTH_STENCIL { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; bool DepthBufferWriteEnable; bool DepthTestEnable; bool StencilBufferWriteEnable; bool StencilTestEnable; bool DoubleSidedStencilEnable; enum GEN8_3D_Compare_Function DepthTestFunction; enum GEN8_3D_Compare_Function StencilTestFunction; enum GEN8_3D_Stencil_Operation BackfaceStencilPassDepthPassOp; enum GEN8_3D_Stencil_Operation BackfaceStencilPassDepthFailOp; enum GEN8_3D_Stencil_Operation BackfaceStencilFailOp; enum GEN8_3D_Compare_Function BackfaceStencilTestFunction; enum GEN8_3D_Stencil_Operation StencilPassDepthPassOp; enum GEN8_3D_Stencil_Operation StencilPassDepthFailOp; enum GEN8_3D_Stencil_Operation StencilFailOp; uint32_t BackfaceStencilWriteMask; uint32_t BackfaceStencilTestMask; uint32_t StencilWriteMask; uint32_t StencilTestMask; }; static inline void GEN8_3DSTATE_WM_DEPTH_STENCIL_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_WM_DEPTH_STENCIL * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->DepthBufferWriteEnable, 0, 0) | __gen_uint(values->DepthTestEnable, 1, 1) | __gen_uint(values->StencilBufferWriteEnable, 2, 2) | __gen_uint(values->StencilTestEnable, 3, 3) | __gen_uint(values->DoubleSidedStencilEnable, 4, 4) | __gen_uint(values->DepthTestFunction, 5, 7) | __gen_uint(values->StencilTestFunction, 8, 10) | __gen_uint(values->BackfaceStencilPassDepthPassOp, 11, 13) | __gen_uint(values->BackfaceStencilPassDepthFailOp, 14, 16) | __gen_uint(values->BackfaceStencilFailOp, 17, 19) | __gen_uint(values->BackfaceStencilTestFunction, 20, 22) | __gen_uint(values->StencilPassDepthPassOp, 23, 25) | __gen_uint(values->StencilPassDepthFailOp, 26, 28) | __gen_uint(values->StencilFailOp, 29, 31); dw[2] = __gen_uint(values->BackfaceStencilWriteMask, 0, 7) | __gen_uint(values->BackfaceStencilTestMask, 8, 15) | __gen_uint(values->StencilWriteMask, 16, 23) | __gen_uint(values->StencilTestMask, 24, 31); } #define GEN8_3DSTATE_WM_HZ_OP_length 5 #define GEN8_3DSTATE_WM_HZ_OP_length_bias 2 #define GEN8_3DSTATE_WM_HZ_OP_header \ .DWordLength = 3, \ ._3DCommandSubOpcode = 82, \ ._3DCommandOpcode = 0, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_3DSTATE_WM_HZ_OP { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t NumberofMultisamples; uint32_t StencilClearValue; bool FullSurfaceDepthandStencilClear; bool PixelPositionOffsetEnable; bool HierarchicalDepthBufferResolveEnable; bool DepthBufferResolveEnable; bool ScissorRectangleEnable; bool DepthBufferClearEnable; bool StencilBufferClearEnable; uint32_t ClearRectangleXMin; uint32_t ClearRectangleYMin; uint32_t ClearRectangleXMax; uint32_t ClearRectangleYMax; uint32_t SampleMask; }; static inline void GEN8_3DSTATE_WM_HZ_OP_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_3DSTATE_WM_HZ_OP * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->NumberofMultisamples, 13, 15) | __gen_uint(values->StencilClearValue, 16, 23) | __gen_uint(values->FullSurfaceDepthandStencilClear, 25, 25) | __gen_uint(values->PixelPositionOffsetEnable, 26, 26) | __gen_uint(values->HierarchicalDepthBufferResolveEnable, 27, 27) | __gen_uint(values->DepthBufferResolveEnable, 28, 28) | __gen_uint(values->ScissorRectangleEnable, 29, 29) | __gen_uint(values->DepthBufferClearEnable, 30, 30) | __gen_uint(values->StencilBufferClearEnable, 31, 31); dw[2] = __gen_uint(values->ClearRectangleXMin, 0, 15) | __gen_uint(values->ClearRectangleYMin, 16, 31); dw[3] = __gen_uint(values->ClearRectangleXMax, 0, 15) | __gen_uint(values->ClearRectangleYMax, 16, 31); dw[4] = __gen_uint(values->SampleMask, 0, 15); } #define GEN8_GPGPU_CSR_BASE_ADDRESS_length 3 #define GEN8_GPGPU_CSR_BASE_ADDRESS_length_bias 2 #define GEN8_GPGPU_CSR_BASE_ADDRESS_header \ .DWordLength = 1, \ ._3DCommandSubOpcode = 4, \ ._3DCommandOpcode = 1, \ .CommandSubType = 0, \ .CommandType = 3 struct GEN8_GPGPU_CSR_BASE_ADDRESS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; __gen_address_type GPGPUCSRBaseAddress; }; static inline void GEN8_GPGPU_CSR_BASE_ADDRESS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_GPGPU_CSR_BASE_ADDRESS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); const uint64_t v1_address = __gen_combine_address(data, &dw[1], values->GPGPUCSRBaseAddress, 0); dw[1] = v1_address; dw[2] = v1_address >> 32; } #define GEN8_GPGPU_WALKER_length 15 #define GEN8_GPGPU_WALKER_length_bias 2 #define GEN8_GPGPU_WALKER_header \ .DWordLength = 13, \ .SubOpcode = 5, \ .MediaCommandOpcode = 1, \ .Pipeline = 2, \ .CommandType = 3 struct GEN8_GPGPU_WALKER { uint32_t DWordLength; bool PredicateEnable; bool IndirectParameterEnable; uint32_t SubOpcode; uint32_t MediaCommandOpcode; uint32_t Pipeline; uint32_t CommandType; uint32_t InterfaceDescriptorOffset; uint32_t IndirectDataLength; uint64_t IndirectDataStartAddress; uint32_t ThreadWidthCounterMaximum; uint32_t ThreadHeightCounterMaximum; uint32_t ThreadDepthCounterMaximum; uint32_t SIMDSize; #define SIMD8 0 #define SIMD16 1 #define SIMD32 2 uint32_t ThreadGroupIDStartingX; uint32_t ThreadGroupIDXDimension; uint32_t ThreadGroupIDStartingY; uint32_t ThreadGroupIDYDimension; uint32_t ThreadGroupIDStartingResumeZ; uint32_t ThreadGroupIDZDimension; uint32_t RightExecutionMask; uint32_t BottomExecutionMask; }; static inline void GEN8_GPGPU_WALKER_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_GPGPU_WALKER * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->PredicateEnable, 8, 8) | __gen_uint(values->IndirectParameterEnable, 10, 10) | __gen_uint(values->SubOpcode, 16, 23) | __gen_uint(values->MediaCommandOpcode, 24, 26) | __gen_uint(values->Pipeline, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->InterfaceDescriptorOffset, 0, 5); dw[2] = __gen_uint(values->IndirectDataLength, 0, 16); dw[3] = __gen_offset(values->IndirectDataStartAddress, 6, 31); dw[4] = __gen_uint(values->ThreadWidthCounterMaximum, 0, 5) | __gen_uint(values->ThreadHeightCounterMaximum, 8, 13) | __gen_uint(values->ThreadDepthCounterMaximum, 16, 21) | __gen_uint(values->SIMDSize, 30, 31); dw[5] = __gen_uint(values->ThreadGroupIDStartingX, 0, 31); dw[6] = 0; dw[7] = __gen_uint(values->ThreadGroupIDXDimension, 0, 31); dw[8] = __gen_uint(values->ThreadGroupIDStartingY, 0, 31); dw[9] = 0; dw[10] = __gen_uint(values->ThreadGroupIDYDimension, 0, 31); dw[11] = __gen_uint(values->ThreadGroupIDStartingResumeZ, 0, 31); dw[12] = __gen_uint(values->ThreadGroupIDZDimension, 0, 31); dw[13] = __gen_uint(values->RightExecutionMask, 0, 31); dw[14] = __gen_uint(values->BottomExecutionMask, 0, 31); } #define GEN8_MEDIA_CURBE_LOAD_length 4 #define GEN8_MEDIA_CURBE_LOAD_length_bias 2 #define GEN8_MEDIA_CURBE_LOAD_header \ .DWordLength = 2, \ .SubOpcode = 1, \ .MediaCommandOpcode = 0, \ .Pipeline = 2, \ .CommandType = 3 struct GEN8_MEDIA_CURBE_LOAD { uint32_t DWordLength; uint32_t SubOpcode; uint32_t MediaCommandOpcode; uint32_t Pipeline; uint32_t CommandType; uint32_t CURBETotalDataLength; uint32_t CURBEDataStartAddress; }; static inline void GEN8_MEDIA_CURBE_LOAD_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MEDIA_CURBE_LOAD * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 15) | __gen_uint(values->SubOpcode, 16, 23) | __gen_uint(values->MediaCommandOpcode, 24, 26) | __gen_uint(values->Pipeline, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = 0; dw[2] = __gen_uint(values->CURBETotalDataLength, 0, 16); dw[3] = __gen_uint(values->CURBEDataStartAddress, 0, 31); } #define GEN8_MEDIA_INTERFACE_DESCRIPTOR_LOAD_length 4 #define GEN8_MEDIA_INTERFACE_DESCRIPTOR_LOAD_length_bias 2 #define GEN8_MEDIA_INTERFACE_DESCRIPTOR_LOAD_header\ .DWordLength = 2, \ .SubOpcode = 2, \ .MediaCommandOpcode = 0, \ .Pipeline = 2, \ .CommandType = 3 struct GEN8_MEDIA_INTERFACE_DESCRIPTOR_LOAD { uint32_t DWordLength; uint32_t SubOpcode; uint32_t MediaCommandOpcode; uint32_t Pipeline; uint32_t CommandType; uint32_t InterfaceDescriptorTotalLength; uint64_t InterfaceDescriptorDataStartAddress; }; static inline void GEN8_MEDIA_INTERFACE_DESCRIPTOR_LOAD_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MEDIA_INTERFACE_DESCRIPTOR_LOAD * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 15) | __gen_uint(values->SubOpcode, 16, 23) | __gen_uint(values->MediaCommandOpcode, 24, 26) | __gen_uint(values->Pipeline, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = 0; dw[2] = __gen_uint(values->InterfaceDescriptorTotalLength, 0, 16); dw[3] = __gen_offset(values->InterfaceDescriptorDataStartAddress, 0, 31); } #define GEN8_MEDIA_OBJECT_length_bias 2 #define GEN8_MEDIA_OBJECT_header \ .DWordLength = 4, \ .MediaCommandSubOpcode = 0, \ .MediaCommandOpcode = 1, \ .MediaCommandPipeline = 2, \ .CommandType = 3 struct GEN8_MEDIA_OBJECT { uint32_t DWordLength; uint32_t MediaCommandSubOpcode; uint32_t MediaCommandOpcode; uint32_t MediaCommandPipeline; uint32_t CommandType; uint32_t InterfaceDescriptorOffset; uint32_t IndirectDataLength; uint32_t SubSliceDestinationSelect; #define SubSlice2 2 #define SubSlice1 1 #define SubSlice0 0 uint32_t SliceDestinationSelect; #define Slice0 0 #define Slice1 1 #define Slice2 2 uint32_t UseScoreboard; #define Notusingscoreboard 0 #define Usingscoreboard 1 uint32_t ForceDestination; uint32_t ThreadSynchronization; #define Nothreadsynchronization 0 #define Threaddispatchissynchronizedbythespawnrootthreadmessage 1 bool ChildrenPresent; __gen_address_type IndirectDataStartAddress; uint32_t ScoreboardX; uint32_t ScoredboardY; uint32_t ScoreboardMask; uint32_t ScoreboardColor; /* variable length fields follow */ }; static inline void GEN8_MEDIA_OBJECT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MEDIA_OBJECT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 15) | __gen_uint(values->MediaCommandSubOpcode, 16, 23) | __gen_uint(values->MediaCommandOpcode, 24, 26) | __gen_uint(values->MediaCommandPipeline, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->InterfaceDescriptorOffset, 0, 5); dw[2] = __gen_uint(values->IndirectDataLength, 0, 16) | __gen_uint(values->SubSliceDestinationSelect, 17, 18) | __gen_uint(values->SliceDestinationSelect, 19, 20) | __gen_uint(values->UseScoreboard, 21, 21) | __gen_uint(values->ForceDestination, 22, 22) | __gen_uint(values->ThreadSynchronization, 24, 24) | __gen_uint(values->ChildrenPresent, 31, 31); dw[3] = __gen_combine_address(data, &dw[3], values->IndirectDataStartAddress, 0); dw[4] = __gen_uint(values->ScoreboardX, 0, 8) | __gen_uint(values->ScoredboardY, 16, 24); dw[5] = __gen_uint(values->ScoreboardMask, 0, 7) | __gen_uint(values->ScoreboardColor, 16, 19); } #define GEN8_MEDIA_OBJECT_GRPID_length_bias 2 #define GEN8_MEDIA_OBJECT_GRPID_header \ .DWordLength = 5, \ .MediaCommandSubOpcode = 6, \ .MediaCommandOpcode = 1, \ .MediaCommandPipeline = 2, \ .CommandType = 3 struct GEN8_MEDIA_OBJECT_GRPID { uint32_t DWordLength; uint32_t MediaCommandSubOpcode; uint32_t MediaCommandOpcode; uint32_t MediaCommandPipeline; uint32_t CommandType; uint32_t InterfaceDescriptorOffset; uint32_t IndirectDataLength; uint32_t SubSliceDestinationSelect; #define SubSlice2 2 #define SubSlice1 1 #define SubSlice0 0 uint32_t SliceDestinationSelect; #define Slice0 0 #define Slice1 1 #define Slice2 2 uint32_t UseScoreboard; #define Notusingscoreboard 0 #define Usingscoreboard 1 uint32_t ForceDestination; uint32_t EndofThreadGroup; __gen_address_type IndirectDataStartAddress; uint32_t ScoreboardX; uint32_t ScoreboardY; uint32_t ScoreboardMask; uint32_t ScoreboardColor; uint32_t GroupID; /* variable length fields follow */ }; static inline void GEN8_MEDIA_OBJECT_GRPID_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MEDIA_OBJECT_GRPID * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 15) | __gen_uint(values->MediaCommandSubOpcode, 16, 23) | __gen_uint(values->MediaCommandOpcode, 24, 26) | __gen_uint(values->MediaCommandPipeline, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->InterfaceDescriptorOffset, 0, 5); dw[2] = __gen_uint(values->IndirectDataLength, 0, 16) | __gen_uint(values->SubSliceDestinationSelect, 17, 18) | __gen_uint(values->SliceDestinationSelect, 19, 20) | __gen_uint(values->UseScoreboard, 21, 21) | __gen_uint(values->ForceDestination, 22, 22) | __gen_uint(values->EndofThreadGroup, 23, 23); dw[3] = __gen_combine_address(data, &dw[3], values->IndirectDataStartAddress, 0); dw[4] = __gen_uint(values->ScoreboardX, 0, 8) | __gen_uint(values->ScoreboardY, 16, 24); dw[5] = __gen_uint(values->ScoreboardMask, 0, 7) | __gen_uint(values->ScoreboardColor, 16, 19); dw[6] = __gen_uint(values->GroupID, 0, 31); } #define GEN8_MEDIA_OBJECT_PRT_length 16 #define GEN8_MEDIA_OBJECT_PRT_length_bias 2 #define GEN8_MEDIA_OBJECT_PRT_header \ .DWordLength = 14, \ .SubOpcode = 2, \ .MediaCommandOpcode = 1, \ .Pipeline = 2, \ .CommandType = 3 struct GEN8_MEDIA_OBJECT_PRT { uint32_t DWordLength; uint32_t SubOpcode; uint32_t MediaCommandOpcode; uint32_t Pipeline; uint32_t CommandType; uint32_t InterfaceDescriptorOffset; uint32_t PRT_FenceType; #define Rootthreadqueue 0 #define VFEstateflush 1 bool PRT_FenceNeeded; bool ChildrenPresent; uint32_t InlineData[12]; }; static inline void GEN8_MEDIA_OBJECT_PRT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MEDIA_OBJECT_PRT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 15) | __gen_uint(values->SubOpcode, 16, 23) | __gen_uint(values->MediaCommandOpcode, 24, 26) | __gen_uint(values->Pipeline, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->InterfaceDescriptorOffset, 0, 5); dw[2] = __gen_uint(values->PRT_FenceType, 22, 22) | __gen_uint(values->PRT_FenceNeeded, 23, 23) | __gen_uint(values->ChildrenPresent, 31, 31); dw[3] = 0; dw[4] = __gen_uint(values->InlineData[0], 0, 31); dw[5] = __gen_uint(values->InlineData[1], 0, 31); dw[6] = __gen_uint(values->InlineData[2], 0, 31); dw[7] = __gen_uint(values->InlineData[3], 0, 31); dw[8] = __gen_uint(values->InlineData[4], 0, 31); dw[9] = __gen_uint(values->InlineData[5], 0, 31); dw[10] = __gen_uint(values->InlineData[6], 0, 31); dw[11] = __gen_uint(values->InlineData[7], 0, 31); dw[12] = __gen_uint(values->InlineData[8], 0, 31); dw[13] = __gen_uint(values->InlineData[9], 0, 31); dw[14] = __gen_uint(values->InlineData[10], 0, 31); dw[15] = __gen_uint(values->InlineData[11], 0, 31); } #define GEN8_MEDIA_OBJECT_WALKER_length_bias 2 #define GEN8_MEDIA_OBJECT_WALKER_header \ .DWordLength = 15, \ .SubOpcode = 3, \ .MediaCommandOpcode = 1, \ .Pipeline = 2, \ .CommandType = 3 struct GEN8_MEDIA_OBJECT_WALKER { uint32_t DWordLength; uint32_t SubOpcode; uint32_t MediaCommandOpcode; uint32_t Pipeline; uint32_t CommandType; uint32_t InterfaceDescriptorOffset; uint32_t IndirectDataLength; uint32_t UseScoreboard; #define Notusingscoreboard 0 #define Usingscoreboard 1 uint32_t ThreadSynchronization; #define Nothreadsynchronization 0 #define Threaddispatchissynchronizedbythespawnrootthreadmessage 1 uint32_t ChildrenPresent; uint64_t IndirectDataStartAddress; uint32_t ScoreboardMask; uint32_t GroupIDLoopSelect; int32_t MidLoopUnitX; int32_t LocalMidLoopUnitY; uint32_t MiddleLoopExtraSteps; uint32_t ColorCountMinusOne; uint32_t LocalLoopExecCount; uint32_t GlobalLoopExecCount; uint32_t BlockResolutionX; uint32_t BlockResolutionY; uint32_t LocalStartX; uint32_t LocalStartY; int32_t LocalOuterLoopStrideX; int32_t LocalOuterLoopStrideY; int32_t LocalInnerLoopUnitX; int32_t LocalInnerLoopUnitY; uint32_t GlobalResolutionX; uint32_t GlobalResolutionY; int32_t GlobalStartX; int32_t GlobalStartY; int32_t GlobalOuterLoopStrideX; int32_t GlobalOuterLoopStrideY; int32_t GlobalInnerLoopUnitX; int32_t GlobalInnerLoopUnitY; /* variable length fields follow */ }; static inline void GEN8_MEDIA_OBJECT_WALKER_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MEDIA_OBJECT_WALKER * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 15) | __gen_uint(values->SubOpcode, 16, 23) | __gen_uint(values->MediaCommandOpcode, 24, 26) | __gen_uint(values->Pipeline, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->InterfaceDescriptorOffset, 0, 5); dw[2] = __gen_uint(values->IndirectDataLength, 0, 16) | __gen_uint(values->UseScoreboard, 21, 21) | __gen_uint(values->ThreadSynchronization, 24, 24) | __gen_uint(values->ChildrenPresent, 31, 31); dw[3] = __gen_offset(values->IndirectDataStartAddress, 0, 31); dw[4] = 0; dw[5] = __gen_uint(values->ScoreboardMask, 0, 7) | __gen_uint(values->GroupIDLoopSelect, 8, 31); dw[6] = __gen_sint(values->MidLoopUnitX, 8, 9) | __gen_sint(values->LocalMidLoopUnitY, 12, 13) | __gen_uint(values->MiddleLoopExtraSteps, 16, 20) | __gen_uint(values->ColorCountMinusOne, 24, 27); dw[7] = __gen_uint(values->LocalLoopExecCount, 0, 9) | __gen_uint(values->GlobalLoopExecCount, 16, 25); dw[8] = __gen_uint(values->BlockResolutionX, 0, 8) | __gen_uint(values->BlockResolutionY, 16, 24); dw[9] = __gen_uint(values->LocalStartX, 0, 8) | __gen_uint(values->LocalStartY, 16, 24); dw[10] = 0; dw[11] = __gen_sint(values->LocalOuterLoopStrideX, 0, 9) | __gen_sint(values->LocalOuterLoopStrideY, 16, 25); dw[12] = __gen_sint(values->LocalInnerLoopUnitX, 0, 9) | __gen_sint(values->LocalInnerLoopUnitY, 16, 25); dw[13] = __gen_uint(values->GlobalResolutionX, 0, 8) | __gen_uint(values->GlobalResolutionY, 16, 24); dw[14] = __gen_sint(values->GlobalStartX, 0, 9) | __gen_sint(values->GlobalStartY, 16, 25); dw[15] = __gen_sint(values->GlobalOuterLoopStrideX, 0, 9) | __gen_sint(values->GlobalOuterLoopStrideY, 16, 25); dw[16] = __gen_sint(values->GlobalInnerLoopUnitX, 0, 9) | __gen_sint(values->GlobalInnerLoopUnitY, 16, 25); } #define GEN8_MEDIA_STATE_FLUSH_length 2 #define GEN8_MEDIA_STATE_FLUSH_length_bias 2 #define GEN8_MEDIA_STATE_FLUSH_header \ .DWordLength = 0, \ .SubOpcode = 4, \ .MediaCommandOpcode = 0, \ .Pipeline = 2, \ .CommandType = 3 struct GEN8_MEDIA_STATE_FLUSH { uint32_t DWordLength; uint32_t SubOpcode; uint32_t MediaCommandOpcode; uint32_t Pipeline; uint32_t CommandType; uint32_t InterfaceDescriptorOffset; uint32_t WatermarkRequired; bool FlushtoGO; }; static inline void GEN8_MEDIA_STATE_FLUSH_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MEDIA_STATE_FLUSH * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 15) | __gen_uint(values->SubOpcode, 16, 23) | __gen_uint(values->MediaCommandOpcode, 24, 26) | __gen_uint(values->Pipeline, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->InterfaceDescriptorOffset, 0, 5) | __gen_uint(values->WatermarkRequired, 6, 6) | __gen_uint(values->FlushtoGO, 7, 7); } #define GEN8_MEDIA_VFE_STATE_length 9 #define GEN8_MEDIA_VFE_STATE_length_bias 2 #define GEN8_MEDIA_VFE_STATE_header \ .DWordLength = 7, \ .SubOpcode = 0, \ .MediaCommandOpcode = 0, \ .Pipeline = 2, \ .CommandType = 3 struct GEN8_MEDIA_VFE_STATE { uint32_t DWordLength; uint32_t SubOpcode; uint32_t MediaCommandOpcode; uint32_t Pipeline; uint32_t CommandType; uint32_t PerThreadScratchSpace; uint32_t StackSize; __gen_address_type ScratchSpaceBasePointer; uint32_t BypassGatewayControl; #define MaintainingOpenGatewayForwardMsgCloseGatewayprotocollegacymode 0 #define BypassingOpenGatewayCloseGatewayprotocol 1 uint32_t ResetGatewayTimer; #define Maintainingtheexistingtimestampstate 0 #define Resettingrelativetimerandlatchingtheglobaltimestamp 1 uint32_t NumberofURBEntries; uint32_t MaximumNumberofThreads; uint32_t SliceDisable; #define AllSubslicesEnabled 0 #define OnlySlice0Enabled 1 #define OnlySlice0Subslice0Enabled 3 uint32_t CURBEAllocationSize; uint32_t URBEntryAllocationSize; uint32_t ScoreboardMask; uint32_t ScoreboardType; #define StallingScoreboard 0 #define NonStallingScoreboard 1 bool ScoreboardEnable; int32_t Scoreboard0DeltaX; int32_t Scoreboard0DeltaY; int32_t Scoreboard1DeltaX; int32_t Scoreboard1DeltaY; int32_t Scoreboard2DeltaX; int32_t Scoreboard2DeltaY; int32_t Scoreboard3DeltaX; int32_t Scoreboard3DeltaY; int32_t Scoreboard4DeltaX; int32_t Scoreboard4DeltaY; int32_t Scoreboard5DeltaX; int32_t Scoreboard5DeltaY; int32_t Scoreboard6DeltaX; int32_t Scoreboard6DeltaY; int32_t Scoreboard7DeltaX; int32_t Scoreboard7DeltaY; }; static inline void GEN8_MEDIA_VFE_STATE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MEDIA_VFE_STATE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 15) | __gen_uint(values->SubOpcode, 16, 23) | __gen_uint(values->MediaCommandOpcode, 24, 26) | __gen_uint(values->Pipeline, 27, 28) | __gen_uint(values->CommandType, 29, 31); const uint64_t v1 = __gen_uint(values->PerThreadScratchSpace, 0, 3) | __gen_uint(values->StackSize, 4, 7); const uint64_t v1_address = __gen_combine_address(data, &dw[1], values->ScratchSpaceBasePointer, v1); dw[1] = v1_address; dw[2] = (v1_address >> 32) | (v1 >> 32); dw[3] = __gen_uint(values->BypassGatewayControl, 6, 6) | __gen_uint(values->ResetGatewayTimer, 7, 7) | __gen_uint(values->NumberofURBEntries, 8, 15) | __gen_uint(values->MaximumNumberofThreads, 16, 31); dw[4] = __gen_uint(values->SliceDisable, 0, 1); dw[5] = __gen_uint(values->CURBEAllocationSize, 0, 15) | __gen_uint(values->URBEntryAllocationSize, 16, 31); dw[6] = __gen_uint(values->ScoreboardMask, 0, 7) | __gen_uint(values->ScoreboardType, 30, 30) | __gen_uint(values->ScoreboardEnable, 31, 31); dw[7] = __gen_sint(values->Scoreboard0DeltaX, 0, 3) | __gen_sint(values->Scoreboard0DeltaY, 4, 7) | __gen_sint(values->Scoreboard1DeltaX, 8, 11) | __gen_sint(values->Scoreboard1DeltaY, 12, 15) | __gen_sint(values->Scoreboard2DeltaX, 16, 19) | __gen_sint(values->Scoreboard2DeltaY, 20, 23) | __gen_sint(values->Scoreboard3DeltaX, 24, 27) | __gen_sint(values->Scoreboard3DeltaY, 28, 31); dw[8] = __gen_sint(values->Scoreboard4DeltaX, 0, 3) | __gen_sint(values->Scoreboard4DeltaY, 4, 7) | __gen_sint(values->Scoreboard5DeltaX, 8, 11) | __gen_sint(values->Scoreboard5DeltaY, 12, 15) | __gen_sint(values->Scoreboard6DeltaX, 16, 19) | __gen_sint(values->Scoreboard6DeltaY, 20, 23) | __gen_sint(values->Scoreboard7DeltaX, 24, 27) | __gen_sint(values->Scoreboard7DeltaY, 28, 31); } #define GEN8_MI_ARB_CHECK_length 1 #define GEN8_MI_ARB_CHECK_length_bias 1 #define GEN8_MI_ARB_CHECK_header \ .MICommandOpcode = 5, \ .CommandType = 0 struct GEN8_MI_ARB_CHECK { uint32_t MICommandOpcode; uint32_t CommandType; }; static inline void GEN8_MI_ARB_CHECK_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_ARB_CHECK * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); } #define GEN8_MI_ARB_ON_OFF_length 1 #define GEN8_MI_ARB_ON_OFF_length_bias 1 #define GEN8_MI_ARB_ON_OFF_header \ .ArbitrationEnable = 1, \ .MICommandOpcode = 8, \ .CommandType = 0 struct GEN8_MI_ARB_ON_OFF { bool ArbitrationEnable; uint32_t MICommandOpcode; uint32_t CommandType; }; static inline void GEN8_MI_ARB_ON_OFF_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_ARB_ON_OFF * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->ArbitrationEnable, 0, 0) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); } #define GEN8_MI_ATOMIC_length 3 #define GEN8_MI_ATOMIC_length_bias 2 #define GEN8_MI_ATOMIC_header \ .DWordLength = 1, \ .MICommandOpcode = 47, \ .CommandType = 0 struct GEN8_MI_ATOMIC { uint32_t DWordLength; uint32_t ATOMICOPCODE; uint32_t ReturnDataControl; uint32_t CSSTALL; uint32_t InlineData; uint32_t DataSize; #define DWORD 0 #define QWORD 1 #define OCTWORD 2 #define RESERVED 3 bool PostSyncOperation; uint32_t MemoryType; #define PerProcessGraphicsAddress 0 #define GlobalGraphicsAddress 1 uint32_t MICommandOpcode; uint32_t CommandType; __gen_address_type MemoryAddress; uint32_t Operand1DataDword0; uint32_t Operand2DataDword0; uint32_t Operand1DataDword1; uint32_t Operand2DataDword1; uint32_t Operand1DataDword2; uint32_t Operand2DataDword2; uint32_t Operand1DataDword3; uint32_t Operand2DataDword3; }; static inline void GEN8_MI_ATOMIC_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_ATOMIC * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->ATOMICOPCODE, 8, 15) | __gen_uint(values->ReturnDataControl, 16, 16) | __gen_uint(values->CSSTALL, 17, 17) | __gen_uint(values->InlineData, 18, 18) | __gen_uint(values->DataSize, 19, 20) | __gen_uint(values->PostSyncOperation, 21, 21) | __gen_uint(values->MemoryType, 22, 22) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); const uint64_t v1_address = __gen_combine_address(data, &dw[1], values->MemoryAddress, 0); dw[1] = v1_address; dw[2] = v1_address >> 32; } #define GEN8_MI_BATCH_BUFFER_END_length 1 #define GEN8_MI_BATCH_BUFFER_END_length_bias 1 #define GEN8_MI_BATCH_BUFFER_END_header \ .MICommandOpcode = 10, \ .CommandType = 0 struct GEN8_MI_BATCH_BUFFER_END { uint32_t MICommandOpcode; uint32_t CommandType; }; static inline void GEN8_MI_BATCH_BUFFER_END_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_BATCH_BUFFER_END * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); } #define GEN8_MI_BATCH_BUFFER_START_length 3 #define GEN8_MI_BATCH_BUFFER_START_length_bias 2 #define GEN8_MI_BATCH_BUFFER_START_header \ .DWordLength = 1, \ .MICommandOpcode = 49, \ .CommandType = 0 struct GEN8_MI_BATCH_BUFFER_START { uint32_t DWordLength; uint32_t AddressSpaceIndicator; #define ASI_GGTT 0 #define ASI_PPGTT 1 bool ResourceStreamerEnable; bool PredicationEnable; bool AddOffsetEnable; uint32_t SecondLevelBatchBuffer; #define Firstlevelbatch 0 #define Secondlevelbatch 1 uint32_t MICommandOpcode; uint32_t CommandType; __gen_address_type BatchBufferStartAddress; }; static inline void GEN8_MI_BATCH_BUFFER_START_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_BATCH_BUFFER_START * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->AddressSpaceIndicator, 8, 8) | __gen_uint(values->ResourceStreamerEnable, 10, 10) | __gen_uint(values->PredicationEnable, 15, 15) | __gen_uint(values->AddOffsetEnable, 16, 16) | __gen_uint(values->SecondLevelBatchBuffer, 22, 22) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); const uint64_t v1_address = __gen_combine_address(data, &dw[1], values->BatchBufferStartAddress, 0); dw[1] = v1_address; dw[2] = v1_address >> 32; } #define GEN8_MI_CLFLUSH_length_bias 2 #define GEN8_MI_CLFLUSH_header \ .DWordLength = 1, \ .MICommandOpcode = 39, \ .CommandType = 0 struct GEN8_MI_CLFLUSH { uint32_t DWordLength; bool UseGlobalGTT; uint32_t MICommandOpcode; uint32_t CommandType; uint32_t StartingCachelineOffset; __gen_address_type PageBaseAddress; /* variable length fields follow */ }; static inline void GEN8_MI_CLFLUSH_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_CLFLUSH * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 9) | __gen_uint(values->UseGlobalGTT, 22, 22) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); const uint64_t v1 = __gen_uint(values->StartingCachelineOffset, 6, 11); const uint64_t v1_address = __gen_combine_address(data, &dw[1], values->PageBaseAddress, v1); dw[1] = v1_address; dw[2] = (v1_address >> 32) | (v1 >> 32); } #define GEN8_MI_CONDITIONAL_BATCH_BUFFER_END_length 3 #define GEN8_MI_CONDITIONAL_BATCH_BUFFER_END_length_bias 2 #define GEN8_MI_CONDITIONAL_BATCH_BUFFER_END_header\ .DWordLength = 1, \ .CompareSemaphore = 0, \ .MICommandOpcode = 54, \ .CommandType = 0 struct GEN8_MI_CONDITIONAL_BATCH_BUFFER_END { uint32_t DWordLength; uint32_t CompareSemaphore; bool UseGlobalGTT; uint32_t MICommandOpcode; uint32_t CommandType; uint32_t CompareDataDword; __gen_address_type CompareAddress; }; static inline void GEN8_MI_CONDITIONAL_BATCH_BUFFER_END_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_CONDITIONAL_BATCH_BUFFER_END * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->CompareSemaphore, 21, 21) | __gen_uint(values->UseGlobalGTT, 22, 22) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->CompareDataDword, 0, 31); const uint64_t v2_address = __gen_combine_address(data, &dw[2], values->CompareAddress, 0); dw[2] = v2_address; dw[3] = v2_address >> 32; } #define GEN8_MI_COPY_MEM_MEM_length 5 #define GEN8_MI_COPY_MEM_MEM_length_bias 2 #define GEN8_MI_COPY_MEM_MEM_header \ .DWordLength = 3, \ .MICommandOpcode = 46, \ .CommandType = 0 struct GEN8_MI_COPY_MEM_MEM { uint32_t DWordLength; bool UseGlobalGTTDestination; bool UseGlobalGTTSource; uint32_t MICommandOpcode; uint32_t CommandType; __gen_address_type DestinationMemoryAddress; __gen_address_type SourceMemoryAddress; }; static inline void GEN8_MI_COPY_MEM_MEM_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_COPY_MEM_MEM * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->UseGlobalGTTDestination, 21, 21) | __gen_uint(values->UseGlobalGTTSource, 22, 22) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); const uint64_t v1_address = __gen_combine_address(data, &dw[1], values->DestinationMemoryAddress, 0); dw[1] = v1_address; dw[2] = v1_address >> 32; const uint64_t v3_address = __gen_combine_address(data, &dw[3], values->SourceMemoryAddress, 0); dw[3] = v3_address; dw[4] = v3_address >> 32; } #define GEN8_MI_LOAD_REGISTER_IMM_length 3 #define GEN8_MI_LOAD_REGISTER_IMM_length_bias 2 #define GEN8_MI_LOAD_REGISTER_IMM_header \ .DWordLength = 1, \ .MICommandOpcode = 34, \ .CommandType = 0 struct GEN8_MI_LOAD_REGISTER_IMM { uint32_t DWordLength; uint32_t ByteWriteDisables; uint32_t MICommandOpcode; uint32_t CommandType; uint64_t RegisterOffset; uint32_t DataDWord; /* variable length fields follow */ }; static inline void GEN8_MI_LOAD_REGISTER_IMM_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_LOAD_REGISTER_IMM * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->ByteWriteDisables, 8, 11) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_offset(values->RegisterOffset, 2, 22); dw[2] = __gen_uint(values->DataDWord, 0, 31); } #define GEN8_MI_LOAD_REGISTER_MEM_length 4 #define GEN8_MI_LOAD_REGISTER_MEM_length_bias 2 #define GEN8_MI_LOAD_REGISTER_MEM_header \ .DWordLength = 2, \ .MICommandOpcode = 41, \ .CommandType = 0 struct GEN8_MI_LOAD_REGISTER_MEM { uint32_t DWordLength; bool AsyncModeEnable; bool UseGlobalGTT; uint32_t MICommandOpcode; uint32_t CommandType; uint64_t RegisterAddress; __gen_address_type MemoryAddress; }; static inline void GEN8_MI_LOAD_REGISTER_MEM_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_LOAD_REGISTER_MEM * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->AsyncModeEnable, 21, 21) | __gen_uint(values->UseGlobalGTT, 22, 22) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_offset(values->RegisterAddress, 2, 22); const uint64_t v2_address = __gen_combine_address(data, &dw[2], values->MemoryAddress, 0); dw[2] = v2_address; dw[3] = v2_address >> 32; } #define GEN8_MI_LOAD_REGISTER_REG_length 3 #define GEN8_MI_LOAD_REGISTER_REG_length_bias 2 #define GEN8_MI_LOAD_REGISTER_REG_header \ .DWordLength = 1, \ .MICommandOpcode = 42, \ .CommandType = 0 struct GEN8_MI_LOAD_REGISTER_REG { uint32_t DWordLength; uint32_t MICommandOpcode; uint32_t CommandType; uint64_t SourceRegisterAddress; uint64_t DestinationRegisterAddress; }; static inline void GEN8_MI_LOAD_REGISTER_REG_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_LOAD_REGISTER_REG * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_offset(values->SourceRegisterAddress, 2, 22); dw[2] = __gen_offset(values->DestinationRegisterAddress, 2, 22); } #define GEN8_MI_LOAD_SCAN_LINES_EXCL_length 2 #define GEN8_MI_LOAD_SCAN_LINES_EXCL_length_bias 2 #define GEN8_MI_LOAD_SCAN_LINES_EXCL_header \ .DWordLength = 0, \ .MICommandOpcode = 19, \ .CommandType = 0 struct GEN8_MI_LOAD_SCAN_LINES_EXCL { uint32_t DWordLength; uint32_t DisplayPlaneSelect; #define DisplayPlaneA 0 #define DisplayPlaneB 1 #define DisplayPlaneC 4 uint32_t MICommandOpcode; uint32_t CommandType; uint32_t EndScanLineNumber; uint32_t StartScanLineNumber; }; static inline void GEN8_MI_LOAD_SCAN_LINES_EXCL_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_LOAD_SCAN_LINES_EXCL * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 5) | __gen_uint(values->DisplayPlaneSelect, 19, 21) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->EndScanLineNumber, 0, 12) | __gen_uint(values->StartScanLineNumber, 16, 28); } #define GEN8_MI_LOAD_SCAN_LINES_INCL_length 2 #define GEN8_MI_LOAD_SCAN_LINES_INCL_length_bias 2 #define GEN8_MI_LOAD_SCAN_LINES_INCL_header \ .DWordLength = 0, \ .MICommandOpcode = 18, \ .CommandType = 0 struct GEN8_MI_LOAD_SCAN_LINES_INCL { uint32_t DWordLength; uint32_t ScanLineEventDoneForward; uint32_t DisplayPlaneSelect; #define DisplayPlaneA 0 #define DisplayPlaneB 1 #define DisplayPlaneC 4 uint32_t MICommandOpcode; uint32_t CommandType; uint32_t EndScanLineNumber; uint32_t StartScanLineNumber; }; static inline void GEN8_MI_LOAD_SCAN_LINES_INCL_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_LOAD_SCAN_LINES_INCL * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 5) | __gen_uint(values->ScanLineEventDoneForward, 17, 18) | __gen_uint(values->DisplayPlaneSelect, 19, 21) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->EndScanLineNumber, 0, 12) | __gen_uint(values->StartScanLineNumber, 16, 28); } #define GEN8_MI_LOAD_URB_MEM_length 4 #define GEN8_MI_LOAD_URB_MEM_length_bias 2 #define GEN8_MI_LOAD_URB_MEM_header \ .DWordLength = 2, \ .MICommandOpcode = 44, \ .CommandType = 0 struct GEN8_MI_LOAD_URB_MEM { uint32_t DWordLength; uint32_t MICommandOpcode; uint32_t CommandType; uint32_t URBAddress; __gen_address_type MemoryAddress; }; static inline void GEN8_MI_LOAD_URB_MEM_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_LOAD_URB_MEM * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->URBAddress, 2, 14); const uint64_t v2_address = __gen_combine_address(data, &dw[2], values->MemoryAddress, 0); dw[2] = v2_address; dw[3] = v2_address >> 32; } #define GEN8_MI_MATH_length_bias 2 #define GEN8_MI_MATH_header \ .DWordLength = 0, \ .MICommandOpcode = 26, \ .CommandType = 0 struct GEN8_MI_MATH { uint32_t DWordLength; uint32_t MICommandOpcode; uint32_t CommandType; /* variable length fields follow */ }; static inline void GEN8_MI_MATH_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_MATH * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 5) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); } #define GEN8_MI_NOOP_length 1 #define GEN8_MI_NOOP_length_bias 1 #define GEN8_MI_NOOP_header \ .MICommandOpcode = 0, \ .CommandType = 0 struct GEN8_MI_NOOP { uint32_t IdentificationNumber; bool IdentificationNumberRegisterWriteEnable; uint32_t MICommandOpcode; uint32_t CommandType; }; static inline void GEN8_MI_NOOP_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_NOOP * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->IdentificationNumber, 0, 21) | __gen_uint(values->IdentificationNumberRegisterWriteEnable, 22, 22) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); } #define GEN8_MI_PREDICATE_length 1 #define GEN8_MI_PREDICATE_length_bias 1 #define GEN8_MI_PREDICATE_header \ .MICommandOpcode = 12, \ .CommandType = 0 struct GEN8_MI_PREDICATE { uint32_t CompareOperation; #define COMPARE_TRUE 0 #define COMPARE_FALSE 1 #define COMPARE_SRCS_EQUAL 2 #define COMPARE_DELTAS_EQUAL 3 uint32_t CombineOperation; #define COMBINE_SET 0 #define COMBINE_AND 1 #define COMBINE_OR 2 #define COMBINE_XOR 3 uint32_t LoadOperation; #define LOAD_KEEP 0 #define LOAD_LOAD 2 #define LOAD_LOADINV 3 uint32_t MICommandOpcode; uint32_t CommandType; }; static inline void GEN8_MI_PREDICATE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_PREDICATE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->CompareOperation, 0, 1) | __gen_uint(values->CombineOperation, 3, 4) | __gen_uint(values->LoadOperation, 6, 7) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); } #define GEN8_MI_REPORT_HEAD_length 1 #define GEN8_MI_REPORT_HEAD_length_bias 1 #define GEN8_MI_REPORT_HEAD_header \ .MICommandOpcode = 7, \ .CommandType = 0 struct GEN8_MI_REPORT_HEAD { uint32_t MICommandOpcode; uint32_t CommandType; }; static inline void GEN8_MI_REPORT_HEAD_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_REPORT_HEAD * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); } #define GEN8_MI_REPORT_PERF_COUNT_length 4 #define GEN8_MI_REPORT_PERF_COUNT_length_bias 2 #define GEN8_MI_REPORT_PERF_COUNT_header \ .DWordLength = 2, \ .MICommandOpcode = 40, \ .CommandType = 0 struct GEN8_MI_REPORT_PERF_COUNT { uint32_t DWordLength; uint32_t MICommandOpcode; uint32_t CommandType; bool UseGlobalGTT; uint32_t CoreModeEnable; __gen_address_type MemoryAddress; uint32_t ReportID; }; static inline void GEN8_MI_REPORT_PERF_COUNT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_REPORT_PERF_COUNT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 5) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); const uint64_t v1 = __gen_uint(values->UseGlobalGTT, 0, 0) | __gen_uint(values->CoreModeEnable, 4, 4); const uint64_t v1_address = __gen_combine_address(data, &dw[1], values->MemoryAddress, v1); dw[1] = v1_address; dw[2] = (v1_address >> 32) | (v1 >> 32); dw[3] = __gen_uint(values->ReportID, 0, 31); } #define GEN8_MI_RS_CONTEXT_length 1 #define GEN8_MI_RS_CONTEXT_length_bias 1 #define GEN8_MI_RS_CONTEXT_header \ .MICommandOpcode = 15, \ .CommandType = 0 struct GEN8_MI_RS_CONTEXT { uint32_t ResourceStreamerSave; #define RS_Restore 0 #define RS_Save 1 uint32_t MICommandOpcode; uint32_t CommandType; }; static inline void GEN8_MI_RS_CONTEXT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_RS_CONTEXT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->ResourceStreamerSave, 0, 0) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); } #define GEN8_MI_RS_CONTROL_length 1 #define GEN8_MI_RS_CONTROL_length_bias 1 #define GEN8_MI_RS_CONTROL_header \ .MICommandOpcode = 6, \ .CommandType = 0 struct GEN8_MI_RS_CONTROL { uint32_t ResourceStreamerControl; #define RS_Stop 0 #define RS_Start 1 uint32_t MICommandOpcode; uint32_t CommandType; }; static inline void GEN8_MI_RS_CONTROL_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_RS_CONTROL * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->ResourceStreamerControl, 0, 0) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); } #define GEN8_MI_RS_STORE_DATA_IMM_length 4 #define GEN8_MI_RS_STORE_DATA_IMM_length_bias 2 #define GEN8_MI_RS_STORE_DATA_IMM_header \ .DWordLength = 2, \ .MICommandOpcode = 43, \ .CommandType = 0 struct GEN8_MI_RS_STORE_DATA_IMM { uint32_t DWordLength; uint32_t MICommandOpcode; uint32_t CommandType; uint32_t CoreModeEnable; __gen_address_type DestinationAddress; uint32_t DataDWord0; }; static inline void GEN8_MI_RS_STORE_DATA_IMM_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_RS_STORE_DATA_IMM * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); const uint64_t v1 = __gen_uint(values->CoreModeEnable, 0, 0); const uint64_t v1_address = __gen_combine_address(data, &dw[1], values->DestinationAddress, v1); dw[1] = v1_address; dw[2] = (v1_address >> 32) | (v1 >> 32); dw[3] = __gen_uint(values->DataDWord0, 0, 31); } #define GEN8_MI_SEMAPHORE_SIGNAL_length 2 #define GEN8_MI_SEMAPHORE_SIGNAL_length_bias 2 #define GEN8_MI_SEMAPHORE_SIGNAL_header \ .DWordLength = 0, \ .MICommandOpcode = 27, \ .CommandType = 0 struct GEN8_MI_SEMAPHORE_SIGNAL { uint32_t DWordLength; uint32_t TargetEngineSelect; #define RCS 0 #define VCS0 1 #define BCS 2 #define VECS 3 #define VCS1 4 bool PostSyncOperation; uint32_t MICommandOpcode; uint32_t CommandType; uint32_t TargetContextID; }; static inline void GEN8_MI_SEMAPHORE_SIGNAL_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_SEMAPHORE_SIGNAL * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->TargetEngineSelect, 15, 17) | __gen_uint(values->PostSyncOperation, 21, 21) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->TargetContextID, 0, 31); } #define GEN8_MI_SEMAPHORE_WAIT_length 4 #define GEN8_MI_SEMAPHORE_WAIT_length_bias 2 #define GEN8_MI_SEMAPHORE_WAIT_header \ .DWordLength = 2, \ .MICommandOpcode = 28, \ .CommandType = 0 struct GEN8_MI_SEMAPHORE_WAIT { uint32_t DWordLength; uint32_t CompareOperation; #define COMPARE_SAD_GREATER_THAN_SDD 0 #define COMPARE_SAD_GREATER_THAN_OR_EQUAL_SDD 1 #define COMPARE_SAD_LESS_THAN_SDD 2 #define COMPARE_SAD_LESS_THAN_OR_EQUAL_SDD 3 #define COMPARE_SAD_EQUAL_SDD 4 #define COMPARE_SAD_NOT_EQUAL_SDD 5 uint32_t WaitMode; #define PollingMode 1 #define SignalMode 0 uint32_t MemoryType; #define PerProcessGraphicsAddress 0 #define GlobalGraphicsAddress 1 uint32_t MICommandOpcode; uint32_t CommandType; uint32_t SemaphoreDataDword; __gen_address_type SemaphoreAddress; __gen_address_type SemaphoreAddressHigh; }; static inline void GEN8_MI_SEMAPHORE_WAIT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_SEMAPHORE_WAIT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->CompareOperation, 12, 14) | __gen_uint(values->WaitMode, 15, 15) | __gen_uint(values->MemoryType, 22, 22) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->SemaphoreDataDword, 0, 31); dw[2] = __gen_combine_address(data, &dw[2], values->SemaphoreAddress, 0); dw[3] = __gen_combine_address(data, &dw[3], values->SemaphoreAddressHigh, 0); } #define GEN8_MI_SET_CONTEXT_length 2 #define GEN8_MI_SET_CONTEXT_length_bias 2 #define GEN8_MI_SET_CONTEXT_header \ .DWordLength = 0, \ .MICommandOpcode = 24, \ .CommandType = 0 struct GEN8_MI_SET_CONTEXT { uint32_t DWordLength; uint32_t MICommandOpcode; uint32_t CommandType; uint32_t RestoreInhibit; uint32_t ForceRestore; bool ResourceStreamerStateRestoreEnable; bool ResourceStreamerStateSaveEnable; bool CoreModeEnable; uint32_t ReservedMustbe1; __gen_address_type LogicalContextAddress; }; static inline void GEN8_MI_SET_CONTEXT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_SET_CONTEXT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); const uint32_t v1 = __gen_uint(values->RestoreInhibit, 0, 0) | __gen_uint(values->ForceRestore, 1, 1) | __gen_uint(values->ResourceStreamerStateRestoreEnable, 2, 2) | __gen_uint(values->ResourceStreamerStateSaveEnable, 3, 3) | __gen_uint(values->CoreModeEnable, 4, 4) | __gen_uint(values->ReservedMustbe1, 8, 8); dw[1] = __gen_combine_address(data, &dw[1], values->LogicalContextAddress, v1); } #define GEN8_MI_SET_PREDICATE_length 1 #define GEN8_MI_SET_PREDICATE_length_bias 1 #define GEN8_MI_SET_PREDICATE_header \ .MICommandOpcode = 1, \ .CommandType = 0 struct GEN8_MI_SET_PREDICATE { uint32_t PREDICATEENABLE; #define NOOPNever 0 #define NOOPonResult2clear 1 #define NOOPonResult2set 2 #define NOOPonResultclear 3 #define NOOPonResultset 4 #define Executewhenonesliceenabled 5 #define Executewhentwoslicesareenabled 6 #define Executewhenthreeslicesareenabled 7 #define NOOPAlways 15 uint32_t MICommandOpcode; uint32_t CommandType; }; static inline void GEN8_MI_SET_PREDICATE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_SET_PREDICATE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->PREDICATEENABLE, 0, 3) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); } #define GEN8_MI_STORE_DATA_IMM_length 4 #define GEN8_MI_STORE_DATA_IMM_length_bias 2 #define GEN8_MI_STORE_DATA_IMM_header \ .DWordLength = 2, \ .MICommandOpcode = 32, \ .CommandType = 0 struct GEN8_MI_STORE_DATA_IMM { uint32_t DWordLength; uint32_t StoreQword; bool UseGlobalGTT; uint32_t MICommandOpcode; uint32_t CommandType; uint32_t CoreModeEnable; __gen_address_type Address; uint64_t ImmediateData; }; static inline void GEN8_MI_STORE_DATA_IMM_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_STORE_DATA_IMM * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 9) | __gen_uint(values->StoreQword, 21, 21) | __gen_uint(values->UseGlobalGTT, 22, 22) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); const uint64_t v1 = __gen_uint(values->CoreModeEnable, 0, 0); const uint64_t v1_address = __gen_combine_address(data, &dw[1], values->Address, v1); dw[1] = v1_address; dw[2] = (v1_address >> 32) | (v1 >> 32); const uint64_t v3 = __gen_uint(values->ImmediateData, 0, 63); dw[3] = v3; dw[4] = v3 >> 32; } #define GEN8_MI_STORE_DATA_INDEX_length 3 #define GEN8_MI_STORE_DATA_INDEX_length_bias 2 #define GEN8_MI_STORE_DATA_INDEX_header \ .DWordLength = 1, \ .MICommandOpcode = 33, \ .CommandType = 0 struct GEN8_MI_STORE_DATA_INDEX { uint32_t DWordLength; uint32_t UsePerProcessHardwareStatusPage; uint32_t MICommandOpcode; uint32_t CommandType; uint32_t Offset; uint32_t DataDWord0; uint32_t DataDWord1; }; static inline void GEN8_MI_STORE_DATA_INDEX_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_STORE_DATA_INDEX * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->UsePerProcessHardwareStatusPage, 21, 21) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->Offset, 2, 11); dw[2] = __gen_uint(values->DataDWord0, 0, 31); } #define GEN8_MI_STORE_REGISTER_MEM_length 4 #define GEN8_MI_STORE_REGISTER_MEM_length_bias 2 #define GEN8_MI_STORE_REGISTER_MEM_header \ .DWordLength = 2, \ .MICommandOpcode = 36, \ .CommandType = 0 struct GEN8_MI_STORE_REGISTER_MEM { uint32_t DWordLength; bool PredicateEnable; bool UseGlobalGTT; uint32_t MICommandOpcode; uint32_t CommandType; uint64_t RegisterAddress; __gen_address_type MemoryAddress; }; static inline void GEN8_MI_STORE_REGISTER_MEM_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_STORE_REGISTER_MEM * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->PredicateEnable, 21, 21) | __gen_uint(values->UseGlobalGTT, 22, 22) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_offset(values->RegisterAddress, 2, 22); const uint64_t v2_address = __gen_combine_address(data, &dw[2], values->MemoryAddress, 0); dw[2] = v2_address; dw[3] = v2_address >> 32; } #define GEN8_MI_STORE_URB_MEM_length 4 #define GEN8_MI_STORE_URB_MEM_length_bias 2 #define GEN8_MI_STORE_URB_MEM_header \ .DWordLength = 2, \ .MICommandOpcode = 45, \ .CommandType = 0 struct GEN8_MI_STORE_URB_MEM { uint32_t DWordLength; uint32_t MICommandOpcode; uint32_t CommandType; uint32_t URBAddress; __gen_address_type MemoryAddress; }; static inline void GEN8_MI_STORE_URB_MEM_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_STORE_URB_MEM * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->URBAddress, 2, 14); const uint64_t v2_address = __gen_combine_address(data, &dw[2], values->MemoryAddress, 0); dw[2] = v2_address; dw[3] = v2_address >> 32; } #define GEN8_MI_SUSPEND_FLUSH_length 1 #define GEN8_MI_SUSPEND_FLUSH_length_bias 1 #define GEN8_MI_SUSPEND_FLUSH_header \ .MICommandOpcode = 11, \ .CommandType = 0 struct GEN8_MI_SUSPEND_FLUSH { bool SuspendFlush; uint32_t MICommandOpcode; uint32_t CommandType; }; static inline void GEN8_MI_SUSPEND_FLUSH_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_SUSPEND_FLUSH * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->SuspendFlush, 0, 0) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); } #define GEN8_MI_TOPOLOGY_FILTER_length 1 #define GEN8_MI_TOPOLOGY_FILTER_length_bias 1 #define GEN8_MI_TOPOLOGY_FILTER_header \ .MICommandOpcode = 13, \ .CommandType = 0 struct GEN8_MI_TOPOLOGY_FILTER { enum GEN8_3D_Prim_Topo_Type TopologyFilterValue; uint32_t MICommandOpcode; uint32_t CommandType; }; static inline void GEN8_MI_TOPOLOGY_FILTER_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_TOPOLOGY_FILTER * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->TopologyFilterValue, 0, 5) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); } #define GEN8_MI_URB_ATOMIC_ALLOC_length 1 #define GEN8_MI_URB_ATOMIC_ALLOC_length_bias 1 #define GEN8_MI_URB_ATOMIC_ALLOC_header \ .MICommandOpcode = 9, \ .CommandType = 0 struct GEN8_MI_URB_ATOMIC_ALLOC { uint32_t URBAtomicStorageSize; uint32_t URBAtomicStorageOffset; uint32_t MICommandOpcode; uint32_t CommandType; }; static inline void GEN8_MI_URB_ATOMIC_ALLOC_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_URB_ATOMIC_ALLOC * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->URBAtomicStorageSize, 0, 8) | __gen_uint(values->URBAtomicStorageOffset, 12, 19) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); } #define GEN8_MI_URB_CLEAR_length 2 #define GEN8_MI_URB_CLEAR_length_bias 2 #define GEN8_MI_URB_CLEAR_header \ .DWordLength = 0, \ .MICommandOpcode = 25, \ .CommandType = 0 struct GEN8_MI_URB_CLEAR { uint32_t DWordLength; uint32_t MICommandOpcode; uint32_t CommandType; uint64_t URBAddress; uint32_t URBClearLength; }; static inline void GEN8_MI_URB_CLEAR_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_URB_CLEAR * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_offset(values->URBAddress, 0, 14) | __gen_uint(values->URBClearLength, 16, 29); } #define GEN8_MI_USER_INTERRUPT_length 1 #define GEN8_MI_USER_INTERRUPT_length_bias 1 #define GEN8_MI_USER_INTERRUPT_header \ .MICommandOpcode = 2, \ .CommandType = 0 struct GEN8_MI_USER_INTERRUPT { uint32_t MICommandOpcode; uint32_t CommandType; }; static inline void GEN8_MI_USER_INTERRUPT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_USER_INTERRUPT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); } #define GEN8_MI_WAIT_FOR_EVENT_length 1 #define GEN8_MI_WAIT_FOR_EVENT_length_bias 1 #define GEN8_MI_WAIT_FOR_EVENT_header \ .MICommandOpcode = 3, \ .CommandType = 0 struct GEN8_MI_WAIT_FOR_EVENT { bool DisplayPipeAScanLineWaitEnable; bool DisplayPlaneAFlipPendingWaitEnable; bool DisplaySpriteAFlipPendingWaitEnable; bool DisplayPipeAVerticalBlankWaitEnable; bool DisplayPipeBScanLineWaitEnable; bool DisplayPlaneBFlipPendingWaitEnable; bool DisplaySpriteBFlipPendingWaitEnable; bool DisplayPipeBVerticalBlankWaitEnable; bool DisplayPipeCScanLineWaitEnable; bool DisplayPlaneCFlipPendingWaitEnable; bool DisplaySpriteCFlipPendingWaitEnable; bool DisplayPipeCVerticalBlankWaitEnable; uint32_t MICommandOpcode; uint32_t CommandType; }; static inline void GEN8_MI_WAIT_FOR_EVENT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_MI_WAIT_FOR_EVENT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DisplayPipeAScanLineWaitEnable, 0, 0) | __gen_uint(values->DisplayPlaneAFlipPendingWaitEnable, 1, 1) | __gen_uint(values->DisplaySpriteAFlipPendingWaitEnable, 2, 2) | __gen_uint(values->DisplayPipeAVerticalBlankWaitEnable, 3, 3) | __gen_uint(values->DisplayPipeBScanLineWaitEnable, 8, 8) | __gen_uint(values->DisplayPlaneBFlipPendingWaitEnable, 9, 9) | __gen_uint(values->DisplaySpriteBFlipPendingWaitEnable, 10, 10) | __gen_uint(values->DisplayPipeBVerticalBlankWaitEnable, 11, 11) | __gen_uint(values->DisplayPipeCScanLineWaitEnable, 14, 14) | __gen_uint(values->DisplayPlaneCFlipPendingWaitEnable, 15, 15) | __gen_uint(values->DisplaySpriteCFlipPendingWaitEnable, 20, 20) | __gen_uint(values->DisplayPipeCVerticalBlankWaitEnable, 21, 21) | __gen_uint(values->MICommandOpcode, 23, 28) | __gen_uint(values->CommandType, 29, 31); } #define GEN8_PIPELINE_SELECT_length 1 #define GEN8_PIPELINE_SELECT_length_bias 1 #define GEN8_PIPELINE_SELECT_header \ ._3DCommandSubOpcode = 4, \ ._3DCommandOpcode = 1, \ .CommandSubType = 1, \ .CommandType = 3 struct GEN8_PIPELINE_SELECT { uint32_t PipelineSelection; #define _3D 0 #define Media 1 #define GPGPU 2 uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; }; static inline void GEN8_PIPELINE_SELECT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_PIPELINE_SELECT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->PipelineSelection, 0, 1) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); } #define GEN8_PIPE_CONTROL_length 6 #define GEN8_PIPE_CONTROL_length_bias 2 #define GEN8_PIPE_CONTROL_header \ .DWordLength = 4, \ ._3DCommandSubOpcode = 0, \ ._3DCommandOpcode = 2, \ .CommandSubType = 3, \ .CommandType = 3 struct GEN8_PIPE_CONTROL { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; bool DepthCacheFlushEnable; bool StallAtPixelScoreboard; bool StateCacheInvalidationEnable; bool ConstantCacheInvalidationEnable; bool VFCacheInvalidationEnable; bool DCFlushEnable; bool PipeControlFlushEnable; bool NotifyEnable; bool IndirectStatePointersDisable; bool TextureCacheInvalidationEnable; bool InstructionCacheInvalidateEnable; bool RenderTargetCacheFlushEnable; bool DepthStallEnable; uint32_t PostSyncOperation; #define NoWrite 0 #define WriteImmediateData 1 #define WritePSDepthCount 2 #define WriteTimestamp 3 bool GenericMediaStateClear; bool TLBInvalidate; bool GlobalSnapshotCountReset; bool CommandStreamerStallEnable; uint32_t StoreDataIndex; uint32_t LRIPostSyncOperation; #define NoLRIOperation 0 #define MMIOWriteImmediateData 1 uint32_t DestinationAddressType; #define DAT_PPGTT 0 #define DAT_GGTT 1 __gen_address_type Address; uint64_t ImmediateData; }; static inline void GEN8_PIPE_CONTROL_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_PIPE_CONTROL * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); dw[1] = __gen_uint(values->DepthCacheFlushEnable, 0, 0) | __gen_uint(values->StallAtPixelScoreboard, 1, 1) | __gen_uint(values->StateCacheInvalidationEnable, 2, 2) | __gen_uint(values->ConstantCacheInvalidationEnable, 3, 3) | __gen_uint(values->VFCacheInvalidationEnable, 4, 4) | __gen_uint(values->DCFlushEnable, 5, 5) | __gen_uint(values->PipeControlFlushEnable, 7, 7) | __gen_uint(values->NotifyEnable, 8, 8) | __gen_uint(values->IndirectStatePointersDisable, 9, 9) | __gen_uint(values->TextureCacheInvalidationEnable, 10, 10) | __gen_uint(values->InstructionCacheInvalidateEnable, 11, 11) | __gen_uint(values->RenderTargetCacheFlushEnable, 12, 12) | __gen_uint(values->DepthStallEnable, 13, 13) | __gen_uint(values->PostSyncOperation, 14, 15) | __gen_uint(values->GenericMediaStateClear, 16, 16) | __gen_uint(values->TLBInvalidate, 18, 18) | __gen_uint(values->GlobalSnapshotCountReset, 19, 19) | __gen_uint(values->CommandStreamerStallEnable, 20, 20) | __gen_uint(values->StoreDataIndex, 21, 21) | __gen_uint(values->LRIPostSyncOperation, 23, 23) | __gen_uint(values->DestinationAddressType, 24, 24); const uint64_t v2_address = __gen_combine_address(data, &dw[2], values->Address, 0); dw[2] = v2_address; dw[3] = v2_address >> 32; const uint64_t v4 = __gen_uint(values->ImmediateData, 0, 63); dw[4] = v4; dw[5] = v4 >> 32; } #define GEN8_STATE_BASE_ADDRESS_length 16 #define GEN8_STATE_BASE_ADDRESS_length_bias 2 #define GEN8_STATE_BASE_ADDRESS_header \ .DWordLength = 14, \ ._3DCommandSubOpcode = 1, \ ._3DCommandOpcode = 1, \ .CommandSubType = 0, \ .CommandType = 3 struct GEN8_STATE_BASE_ADDRESS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; bool GeneralStateBaseAddressModifyEnable; uint32_t GeneralStateMOCS; __gen_address_type GeneralStateBaseAddress; uint32_t StatelessDataPortAccessMOCS; bool SurfaceStateBaseAddressModifyEnable; uint32_t SurfaceStateMOCS; __gen_address_type SurfaceStateBaseAddress; bool DynamicStateBaseAddressModifyEnable; uint32_t DynamicStateMOCS; __gen_address_type DynamicStateBaseAddress; bool IndirectObjectBaseAddressModifyEnable; uint32_t IndirectObjectMOCS; __gen_address_type IndirectObjectBaseAddress; bool InstructionBaseAddressModifyEnable; uint32_t InstructionMOCS; __gen_address_type InstructionBaseAddress; bool GeneralStateBufferSizeModifyEnable; uint32_t GeneralStateBufferSize; bool DynamicStateBufferSizeModifyEnable; uint32_t DynamicStateBufferSize; bool IndirectObjectBufferSizeModifyEnable; uint32_t IndirectObjectBufferSize; bool InstructionBuffersizeModifyEnable; uint32_t InstructionBufferSize; }; static inline void GEN8_STATE_BASE_ADDRESS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_STATE_BASE_ADDRESS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); const uint64_t v1 = __gen_uint(values->GeneralStateBaseAddressModifyEnable, 0, 0) | __gen_uint(values->GeneralStateMOCS, 4, 10); const uint64_t v1_address = __gen_combine_address(data, &dw[1], values->GeneralStateBaseAddress, v1); dw[1] = v1_address; dw[2] = (v1_address >> 32) | (v1 >> 32); dw[3] = __gen_uint(values->StatelessDataPortAccessMOCS, 16, 22); const uint64_t v4 = __gen_uint(values->SurfaceStateBaseAddressModifyEnable, 0, 0) | __gen_uint(values->SurfaceStateMOCS, 4, 10); const uint64_t v4_address = __gen_combine_address(data, &dw[4], values->SurfaceStateBaseAddress, v4); dw[4] = v4_address; dw[5] = (v4_address >> 32) | (v4 >> 32); const uint64_t v6 = __gen_uint(values->DynamicStateBaseAddressModifyEnable, 0, 0) | __gen_uint(values->DynamicStateMOCS, 4, 10); const uint64_t v6_address = __gen_combine_address(data, &dw[6], values->DynamicStateBaseAddress, v6); dw[6] = v6_address; dw[7] = (v6_address >> 32) | (v6 >> 32); const uint64_t v8 = __gen_uint(values->IndirectObjectBaseAddressModifyEnable, 0, 0) | __gen_uint(values->IndirectObjectMOCS, 4, 10); const uint64_t v8_address = __gen_combine_address(data, &dw[8], values->IndirectObjectBaseAddress, v8); dw[8] = v8_address; dw[9] = (v8_address >> 32) | (v8 >> 32); const uint64_t v10 = __gen_uint(values->InstructionBaseAddressModifyEnable, 0, 0) | __gen_uint(values->InstructionMOCS, 4, 10); const uint64_t v10_address = __gen_combine_address(data, &dw[10], values->InstructionBaseAddress, v10); dw[10] = v10_address; dw[11] = (v10_address >> 32) | (v10 >> 32); dw[12] = __gen_uint(values->GeneralStateBufferSizeModifyEnable, 0, 0) | __gen_uint(values->GeneralStateBufferSize, 12, 31); dw[13] = __gen_uint(values->DynamicStateBufferSizeModifyEnable, 0, 0) | __gen_uint(values->DynamicStateBufferSize, 12, 31); dw[14] = __gen_uint(values->IndirectObjectBufferSizeModifyEnable, 0, 0) | __gen_uint(values->IndirectObjectBufferSize, 12, 31); dw[15] = __gen_uint(values->InstructionBuffersizeModifyEnable, 0, 0) | __gen_uint(values->InstructionBufferSize, 12, 31); } #define GEN8_STATE_PREFETCH_length 2 #define GEN8_STATE_PREFETCH_length_bias 2 #define GEN8_STATE_PREFETCH_header \ .DWordLength = 0, \ ._3DCommandSubOpcode = 3, \ ._3DCommandOpcode = 0, \ .CommandSubType = 0, \ .CommandType = 3 struct GEN8_STATE_PREFETCH { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t PrefetchCount; __gen_address_type PrefetchPointer; }; static inline void GEN8_STATE_PREFETCH_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_STATE_PREFETCH * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); const uint32_t v1 = __gen_uint(values->PrefetchCount, 0, 2); dw[1] = __gen_combine_address(data, &dw[1], values->PrefetchPointer, v1); } #define GEN8_STATE_SIP_length 3 #define GEN8_STATE_SIP_length_bias 2 #define GEN8_STATE_SIP_header \ .DWordLength = 1, \ ._3DCommandSubOpcode = 2, \ ._3DCommandOpcode = 1, \ .CommandSubType = 0, \ .CommandType = 3 struct GEN8_STATE_SIP { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint64_t SystemInstructionPointer; }; static inline void GEN8_STATE_SIP_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_STATE_SIP * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); const uint64_t v1 = __gen_offset(values->SystemInstructionPointer, 4, 63); dw[1] = v1; dw[2] = v1 >> 32; } #define GEN8_SWTESS_BASE_ADDRESS_length 2 #define GEN8_SWTESS_BASE_ADDRESS_length_bias 2 #define GEN8_SWTESS_BASE_ADDRESS_header \ .DWordLength = 0, \ ._3DCommandSubOpcode = 3, \ ._3DCommandOpcode = 1, \ .CommandSubType = 0, \ .CommandType = 3 struct GEN8_SWTESS_BASE_ADDRESS { uint32_t DWordLength; uint32_t _3DCommandSubOpcode; uint32_t _3DCommandOpcode; uint32_t CommandSubType; uint32_t CommandType; uint32_t SWTessellationMOCS; __gen_address_type SWTessellationBaseAddress; }; static inline void GEN8_SWTESS_BASE_ADDRESS_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_SWTESS_BASE_ADDRESS * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->DWordLength, 0, 7) | __gen_uint(values->_3DCommandSubOpcode, 16, 23) | __gen_uint(values->_3DCommandOpcode, 24, 26) | __gen_uint(values->CommandSubType, 27, 28) | __gen_uint(values->CommandType, 29, 31); const uint64_t v1 = __gen_uint(values->SWTessellationMOCS, 8, 11); const uint64_t v1_address = __gen_combine_address(data, &dw[1], values->SWTessellationBaseAddress, v1); dw[1] = v1_address; dw[2] = (v1_address >> 32) | (v1 >> 32); } #define GEN8_ACTHD_UDW_num 0x205c #define GEN8_ACTHD_UDW_length 1 struct GEN8_ACTHD_UDW { uint32_t HeadPointerUpperDWORD; }; static inline void GEN8_ACTHD_UDW_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_ACTHD_UDW * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->HeadPointerUpperDWORD, 0, 15); } #define GEN8_BCS_ACTHD_UDW_num 0x2205c #define GEN8_BCS_ACTHD_UDW_length 1 struct GEN8_BCS_ACTHD_UDW { uint32_t HeadPointerUpperDWORD; }; static inline void GEN8_BCS_ACTHD_UDW_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_BCS_ACTHD_UDW * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->HeadPointerUpperDWORD, 0, 15); } #define GEN8_BCS_INSTDONE_num 0x2206c #define GEN8_BCS_INSTDONE_length 1 struct GEN8_BCS_INSTDONE { bool RingEnable; bool BlitterIDLE; bool GABIDLE; bool BCSDone; }; static inline void GEN8_BCS_INSTDONE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_BCS_INSTDONE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->RingEnable, 0, 0) | __gen_uint(values->BlitterIDLE, 1, 1) | __gen_uint(values->GABIDLE, 2, 2) | __gen_uint(values->BCSDone, 3, 3); } #define GEN8_BCS_RING_BUFFER_CTL_num 0x2203c #define GEN8_BCS_RING_BUFFER_CTL_length 1 struct GEN8_BCS_RING_BUFFER_CTL { bool RingBufferEnable; uint32_t AutomaticReportHeadPointer; #define MI_AUTOREPORT_OFF 0 #define MI_AUTOREPORT_64KB 1 #define MI_AUTOREPORT_4KB 2 #define MI_AUTOREPORT_128KB 3 bool DisableRegisterAccesses; bool SemaphoreWait; bool RBWait; uint32_t BufferLengthinpages1; }; static inline void GEN8_BCS_RING_BUFFER_CTL_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_BCS_RING_BUFFER_CTL * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->RingBufferEnable, 0, 0) | __gen_uint(values->AutomaticReportHeadPointer, 1, 2) | __gen_uint(values->DisableRegisterAccesses, 8, 8) | __gen_uint(values->SemaphoreWait, 10, 10) | __gen_uint(values->RBWait, 11, 11) | __gen_uint(values->BufferLengthinpages1, 12, 20); } #define GEN8_CACHE_MODE_1_num 0x7004 #define GEN8_CACHE_MODE_1_length 1 struct GEN8_CACHE_MODE_1 { bool RCZReadafterexpansioncontrolfix2; bool DepthReadHitWriteOnlyOptimizationDisable; bool MCSCacheDisable; bool _4X4RCPFESTCOptimizationDisable; uint32_t SamplerCacheSetXORselection; uint32_t NPPMAFixEnable; uint32_t HIZEvictionPolicy; uint32_t NPEarlyZFailsDisable; uint32_t MSCResolveOptimizationDisable; bool RCZReadafterexpansioncontrolfix2Mask; bool DepthReadHitWriteOnlyOptimizationDisableMask; bool MCSCacheDisableMask; bool _4X4RCPFESTCOptimizationDisableMask; uint32_t SamplerCacheSetXORselectionMask; uint32_t NPPMAFixEnableMask; uint32_t HIZEvictionPolicyMask; uint32_t NPEarlyZFailsDisableMask; uint32_t MSCResolveOptimizationDisableMask; }; static inline void GEN8_CACHE_MODE_1_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_CACHE_MODE_1 * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->RCZReadafterexpansioncontrolfix2, 2, 2) | __gen_uint(values->DepthReadHitWriteOnlyOptimizationDisable, 3, 3) | __gen_uint(values->MCSCacheDisable, 5, 5) | __gen_uint(values->_4X4RCPFESTCOptimizationDisable, 6, 6) | __gen_uint(values->SamplerCacheSetXORselection, 7, 8) | __gen_uint(values->NPPMAFixEnable, 11, 11) | __gen_uint(values->HIZEvictionPolicy, 12, 12) | __gen_uint(values->NPEarlyZFailsDisable, 13, 13) | __gen_uint(values->MSCResolveOptimizationDisable, 14, 14) | __gen_uint(values->RCZReadafterexpansioncontrolfix2Mask, 18, 18) | __gen_uint(values->DepthReadHitWriteOnlyOptimizationDisableMask, 19, 19) | __gen_uint(values->MCSCacheDisableMask, 21, 21) | __gen_uint(values->_4X4RCPFESTCOptimizationDisableMask, 22, 22) | __gen_uint(values->SamplerCacheSetXORselectionMask, 23, 24) | __gen_uint(values->NPPMAFixEnableMask, 27, 27) | __gen_uint(values->HIZEvictionPolicyMask, 28, 28) | __gen_uint(values->NPEarlyZFailsDisableMask, 29, 29) | __gen_uint(values->MSCResolveOptimizationDisableMask, 30, 30); } #define GEN8_CL_INVOCATION_COUNT_num 0x2338 #define GEN8_CL_INVOCATION_COUNT_length 2 struct GEN8_CL_INVOCATION_COUNT { uint64_t CLInvocationCountReport; }; static inline void GEN8_CL_INVOCATION_COUNT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_CL_INVOCATION_COUNT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; const uint64_t v0 = __gen_uint(values->CLInvocationCountReport, 0, 63); dw[0] = v0; dw[1] = v0 >> 32; } #define GEN8_CL_PRIMITIVES_COUNT_num 0x2340 #define GEN8_CL_PRIMITIVES_COUNT_length 2 struct GEN8_CL_PRIMITIVES_COUNT { uint64_t CLPrimitivesCountReport; }; static inline void GEN8_CL_PRIMITIVES_COUNT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_CL_PRIMITIVES_COUNT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; const uint64_t v0 = __gen_uint(values->CLPrimitivesCountReport, 0, 63); dw[0] = v0; dw[1] = v0 >> 32; } #define GEN8_CS_INVOCATION_COUNT_num 0x2290 #define GEN8_CS_INVOCATION_COUNT_length 2 struct GEN8_CS_INVOCATION_COUNT { uint64_t CSInvocationCountReport; }; static inline void GEN8_CS_INVOCATION_COUNT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_CS_INVOCATION_COUNT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; const uint64_t v0 = __gen_uint(values->CSInvocationCountReport, 0, 63); dw[0] = v0; dw[1] = v0 >> 32; } #define GEN8_DS_INVOCATION_COUNT_num 0x2308 #define GEN8_DS_INVOCATION_COUNT_length 2 struct GEN8_DS_INVOCATION_COUNT { uint64_t DSInvocationCountReport; }; static inline void GEN8_DS_INVOCATION_COUNT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_DS_INVOCATION_COUNT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; const uint64_t v0 = __gen_uint(values->DSInvocationCountReport, 0, 63); dw[0] = v0; dw[1] = v0 >> 32; } #define GEN8_FAULT_REG_num 0x4094 #define GEN8_FAULT_REG_length 1 struct GEN8_FAULT_REG { bool ValidBit; uint32_t FaultType; #define InvalidPTEFault 0 #define InvalidPDEFault 1 #define InvalidPDPEFault 2 #define InvalidPML4EFault 3 uint32_t SRCIDofFault; uint32_t GTTSEL; #define PPGTT 0 #define GGTT 1 uint32_t EngineID; #define GFX 0 #define MFX0 1 #define MFX1 2 #define VEBX 3 #define BLT 4 #define GUC 5 }; static inline void GEN8_FAULT_REG_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_FAULT_REG * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->ValidBit, 0, 0) | __gen_uint(values->FaultType, 1, 2) | __gen_uint(values->SRCIDofFault, 3, 10) | __gen_uint(values->GTTSEL, 11, 11) | __gen_uint(values->EngineID, 12, 14); } #define GEN8_GFX_ARB_ERROR_RPT_num 0x40a0 #define GEN8_GFX_ARB_ERROR_RPT_length 1 struct GEN8_GFX_ARB_ERROR_RPT { bool TLBPageFaultError; bool RSTRMPAVPReadInvalid; bool InvalidPageDirectoryEntryError; bool ROSTRMPAVPInvalidPhysicalAddress; bool TLBPageVTDTranslationError; bool WRDPPAVPInvalid; bool PageDirectoryEntryVTDTranslationError; bool UnloadedPDError; bool GuCVTdtranslationPageFault2ndlevelUndefineddoorbell; bool NonWBmemorytypeforAdvancedContext; bool PASIDNotEnabled; bool PASIDBoundaryViolation; bool PASIDNotValid; bool PASIDWasZeroForUntranslatedRequest; bool ContextWasNotMarkedAsPresentWhenDoingDMA; }; static inline void GEN8_GFX_ARB_ERROR_RPT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_GFX_ARB_ERROR_RPT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->TLBPageFaultError, 0, 0) | __gen_uint(values->RSTRMPAVPReadInvalid, 1, 1) | __gen_uint(values->InvalidPageDirectoryEntryError, 2, 2) | __gen_uint(values->ROSTRMPAVPInvalidPhysicalAddress, 3, 3) | __gen_uint(values->TLBPageVTDTranslationError, 4, 4) | __gen_uint(values->WRDPPAVPInvalid, 5, 5) | __gen_uint(values->PageDirectoryEntryVTDTranslationError, 6, 6) | __gen_uint(values->UnloadedPDError, 8, 8) | __gen_uint(values->GuCVTdtranslationPageFault2ndlevelUndefineddoorbell, 9, 9) | __gen_uint(values->NonWBmemorytypeforAdvancedContext, 10, 10) | __gen_uint(values->PASIDNotEnabled, 11, 11) | __gen_uint(values->PASIDBoundaryViolation, 12, 12) | __gen_uint(values->PASIDNotValid, 13, 13) | __gen_uint(values->PASIDWasZeroForUntranslatedRequest, 14, 14) | __gen_uint(values->ContextWasNotMarkedAsPresentWhenDoingDMA, 15, 15); } #define GEN8_GS_INVOCATION_COUNT_num 0x2328 #define GEN8_GS_INVOCATION_COUNT_length 2 struct GEN8_GS_INVOCATION_COUNT { uint64_t GSInvocationCountReport; }; static inline void GEN8_GS_INVOCATION_COUNT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_GS_INVOCATION_COUNT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; const uint64_t v0 = __gen_uint(values->GSInvocationCountReport, 0, 63); dw[0] = v0; dw[1] = v0 >> 32; } #define GEN8_GS_PRIMITIVES_COUNT_num 0x2330 #define GEN8_GS_PRIMITIVES_COUNT_length 2 struct GEN8_GS_PRIMITIVES_COUNT { uint64_t GSPrimitivesCountReport; }; static inline void GEN8_GS_PRIMITIVES_COUNT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_GS_PRIMITIVES_COUNT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; const uint64_t v0 = __gen_uint(values->GSPrimitivesCountReport, 0, 63); dw[0] = v0; dw[1] = v0 >> 32; } #define GEN8_HS_INVOCATION_COUNT_num 0x2300 #define GEN8_HS_INVOCATION_COUNT_length 2 struct GEN8_HS_INVOCATION_COUNT { uint64_t HSInvocationCountReport; }; static inline void GEN8_HS_INVOCATION_COUNT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_HS_INVOCATION_COUNT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; const uint64_t v0 = __gen_uint(values->HSInvocationCountReport, 0, 63); dw[0] = v0; dw[1] = v0 >> 32; } #define GEN8_IA_PRIMITIVES_COUNT_num 0x2318 #define GEN8_IA_PRIMITIVES_COUNT_length 2 struct GEN8_IA_PRIMITIVES_COUNT { uint64_t IAPrimitivesCountReport; }; static inline void GEN8_IA_PRIMITIVES_COUNT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_IA_PRIMITIVES_COUNT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; const uint64_t v0 = __gen_uint(values->IAPrimitivesCountReport, 0, 63); dw[0] = v0; dw[1] = v0 >> 32; } #define GEN8_IA_VERTICES_COUNT_num 0x2310 #define GEN8_IA_VERTICES_COUNT_length 2 struct GEN8_IA_VERTICES_COUNT { uint64_t IAVerticesCountReport; }; static inline void GEN8_IA_VERTICES_COUNT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_IA_VERTICES_COUNT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; const uint64_t v0 = __gen_uint(values->IAVerticesCountReport, 0, 63); dw[0] = v0; dw[1] = v0 >> 32; } #define GEN8_INSTDONE_1_num 0x206c #define GEN8_INSTDONE_1_length 1 struct GEN8_INSTDONE_1 { bool PRB0RingEnable; bool VFGDone; bool VSDone; bool HSDone; bool TEDone; bool DSDone; bool GSDone; bool SOLDone; bool CLDone; bool SFDone; bool TDGDone; bool URBMDone; bool SVGDone; bool GAFSDone; bool VFEDone; bool TSGDone; bool GAFMDone; bool GAMDone; bool RSDone; bool CSDone; bool SDEDone; bool RCCFBCCSDone; }; static inline void GEN8_INSTDONE_1_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_INSTDONE_1 * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->PRB0RingEnable, 0, 0) | __gen_uint(values->VFGDone, 1, 1) | __gen_uint(values->VSDone, 2, 2) | __gen_uint(values->HSDone, 3, 3) | __gen_uint(values->TEDone, 4, 4) | __gen_uint(values->DSDone, 5, 5) | __gen_uint(values->GSDone, 6, 6) | __gen_uint(values->SOLDone, 7, 7) | __gen_uint(values->CLDone, 8, 8) | __gen_uint(values->SFDone, 9, 9) | __gen_uint(values->TDGDone, 12, 12) | __gen_uint(values->URBMDone, 13, 13) | __gen_uint(values->SVGDone, 14, 14) | __gen_uint(values->GAFSDone, 15, 15) | __gen_uint(values->VFEDone, 16, 16) | __gen_uint(values->TSGDone, 17, 17) | __gen_uint(values->GAFMDone, 18, 18) | __gen_uint(values->GAMDone, 19, 19) | __gen_uint(values->RSDone, 20, 20) | __gen_uint(values->CSDone, 21, 21) | __gen_uint(values->SDEDone, 22, 22) | __gen_uint(values->RCCFBCCSDone, 23, 23); } #define GEN8_INSTPM_num 0x20c0 #define GEN8_INSTPM_length 1 struct GEN8_INSTPM { bool _3DStateInstructionDisable; bool _3DRenderingInstructionDisable; bool MediaInstructionDisable; bool CONSTANT_BUFFERAddressOffsetDisable; bool _3DStateInstructionDisableMask; bool _3DRenderingInstructionDisableMask; bool MediaInstructionDisableMask; bool CONSTANT_BUFFERAddressOffsetDisableMask; }; static inline void GEN8_INSTPM_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_INSTPM * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->_3DStateInstructionDisable, 1, 1) | __gen_uint(values->_3DRenderingInstructionDisable, 2, 2) | __gen_uint(values->MediaInstructionDisable, 3, 3) | __gen_uint(values->CONSTANT_BUFFERAddressOffsetDisable, 6, 6) | __gen_uint(values->_3DStateInstructionDisableMask, 17, 17) | __gen_uint(values->_3DRenderingInstructionDisableMask, 18, 18) | __gen_uint(values->MediaInstructionDisableMask, 19, 19) | __gen_uint(values->CONSTANT_BUFFERAddressOffsetDisableMask, 22, 22); } #define GEN8_L3CNTLREG_num 0x7034 #define GEN8_L3CNTLREG_length 1 struct GEN8_L3CNTLREG { bool SLMEnable; uint32_t URBAllocation; uint32_t ROAllocation; uint32_t DCAllocation; uint32_t AllAllocation; }; static inline void GEN8_L3CNTLREG_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_L3CNTLREG * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->SLMEnable, 0, 0) | __gen_uint(values->URBAllocation, 1, 7) | __gen_uint(values->ROAllocation, 11, 17) | __gen_uint(values->DCAllocation, 18, 24) | __gen_uint(values->AllAllocation, 25, 31); } #define GEN8_PS_INVOCATION_COUNT_num 0x2348 #define GEN8_PS_INVOCATION_COUNT_length 2 struct GEN8_PS_INVOCATION_COUNT { uint64_t PSInvocationCountReport; }; static inline void GEN8_PS_INVOCATION_COUNT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_PS_INVOCATION_COUNT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; const uint64_t v0 = __gen_uint(values->PSInvocationCountReport, 0, 63); dw[0] = v0; dw[1] = v0 >> 32; } #define GEN8_RCS_RING_BUFFER_CTL_num 0x203c #define GEN8_RCS_RING_BUFFER_CTL_length 1 struct GEN8_RCS_RING_BUFFER_CTL { bool RingBufferEnable; uint32_t AutomaticReportHeadPointer; #define MI_AUTOREPORT_OFF 0 #define MI_AUTOREPORT_64KB 1 #define MI_AUTOREPORT_4KB 2 #define MI_AUTOREPORT_128KB 3 bool SemaphoreWait; bool RBWait; uint32_t BufferLengthinpages1; }; static inline void GEN8_RCS_RING_BUFFER_CTL_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_RCS_RING_BUFFER_CTL * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->RingBufferEnable, 0, 0) | __gen_uint(values->AutomaticReportHeadPointer, 1, 2) | __gen_uint(values->SemaphoreWait, 10, 10) | __gen_uint(values->RBWait, 11, 11) | __gen_uint(values->BufferLengthinpages1, 12, 20); } #define GEN8_ROW_INSTDONE_num 0xe164 #define GEN8_ROW_INSTDONE_length 1 struct GEN8_ROW_INSTDONE { bool BCDone; bool PSDDone; bool DAPRDone; bool TDLDone; bool ICDone; bool MA0Done; bool EU00DoneSS0; bool EU01DoneSS0; bool EU02DoneSS0; bool EU03DoneSS0; bool EU10DoneSS0; bool EU11DoneSS0; bool EU12DoneSS0; bool EU13DoneSS0; bool MA1DoneSS0; }; static inline void GEN8_ROW_INSTDONE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_ROW_INSTDONE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->BCDone, 0, 0) | __gen_uint(values->PSDDone, 1, 1) | __gen_uint(values->DAPRDone, 3, 3) | __gen_uint(values->TDLDone, 6, 6) | __gen_uint(values->ICDone, 12, 12) | __gen_uint(values->MA0Done, 15, 15) | __gen_uint(values->EU00DoneSS0, 16, 16) | __gen_uint(values->EU01DoneSS0, 17, 17) | __gen_uint(values->EU02DoneSS0, 18, 18) | __gen_uint(values->EU03DoneSS0, 19, 19) | __gen_uint(values->EU10DoneSS0, 21, 21) | __gen_uint(values->EU11DoneSS0, 22, 22) | __gen_uint(values->EU12DoneSS0, 23, 23) | __gen_uint(values->EU13DoneSS0, 24, 24) | __gen_uint(values->MA1DoneSS0, 26, 26); } #define GEN8_SAMPLER_INSTDONE_num 0xe160 #define GEN8_SAMPLER_INSTDONE_length 1 struct GEN8_SAMPLER_INSTDONE { bool IMEDone; bool PL0Done; bool SO0Done; bool DG0Done; bool FT0Done; bool DM0Done; bool SCDone; bool FL0Done; bool QCDone; bool SVSMDone; bool SI0Done; bool MT0Done; bool AVSDone; bool IEFDone; bool CREDone; bool SVSMARB3; bool SVSMARB2; bool SVSMARB1; bool SVSMAdapter; bool BDMDone; }; static inline void GEN8_SAMPLER_INSTDONE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_SAMPLER_INSTDONE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->IMEDone, 0, 0) | __gen_uint(values->PL0Done, 1, 1) | __gen_uint(values->SO0Done, 2, 2) | __gen_uint(values->DG0Done, 3, 3) | __gen_uint(values->FT0Done, 4, 4) | __gen_uint(values->DM0Done, 5, 5) | __gen_uint(values->SCDone, 6, 6) | __gen_uint(values->FL0Done, 7, 7) | __gen_uint(values->QCDone, 8, 8) | __gen_uint(values->SVSMDone, 9, 9) | __gen_uint(values->SI0Done, 10, 10) | __gen_uint(values->MT0Done, 11, 11) | __gen_uint(values->AVSDone, 12, 12) | __gen_uint(values->IEFDone, 13, 13) | __gen_uint(values->CREDone, 14, 14) | __gen_uint(values->SVSMARB3, 15, 15) | __gen_uint(values->SVSMARB2, 16, 16) | __gen_uint(values->SVSMARB1, 17, 17) | __gen_uint(values->SVSMAdapter, 18, 18) | __gen_uint(values->BDMDone, 19, 19); } #define GEN8_SC_INSTDONE_num 0x7100 #define GEN8_SC_INSTDONE_length 1 struct GEN8_SC_INSTDONE { bool SVLDone; bool WMFEDone; bool WMBEDone; bool HIZDone; bool STCDone; bool IZDone; bool SBEDone; bool RCZDone; bool RCCDone; bool RCPBEDone; bool RCPFEDone; bool DAPBDone; bool DAPRBEDone; bool SARBDone; bool DC0Done; bool DC1Done; bool DC2Done; bool GW0Done; bool GW1Done; bool GW2Done; bool TDCDone; }; static inline void GEN8_SC_INSTDONE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_SC_INSTDONE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->SVLDone, 0, 0) | __gen_uint(values->WMFEDone, 1, 1) | __gen_uint(values->WMBEDone, 2, 2) | __gen_uint(values->HIZDone, 3, 3) | __gen_uint(values->STCDone, 4, 4) | __gen_uint(values->IZDone, 5, 5) | __gen_uint(values->SBEDone, 6, 6) | __gen_uint(values->RCZDone, 8, 8) | __gen_uint(values->RCCDone, 9, 9) | __gen_uint(values->RCPBEDone, 10, 10) | __gen_uint(values->RCPFEDone, 11, 11) | __gen_uint(values->DAPBDone, 12, 12) | __gen_uint(values->DAPRBEDone, 13, 13) | __gen_uint(values->SARBDone, 15, 15) | __gen_uint(values->DC0Done, 16, 16) | __gen_uint(values->DC1Done, 17, 17) | __gen_uint(values->DC2Done, 18, 18) | __gen_uint(values->GW0Done, 20, 20) | __gen_uint(values->GW1Done, 21, 21) | __gen_uint(values->GW2Done, 22, 22) | __gen_uint(values->TDCDone, 24, 24); } #define GEN8_SO_NUM_PRIMS_WRITTEN0_num 0x5200 #define GEN8_SO_NUM_PRIMS_WRITTEN0_length 2 struct GEN8_SO_NUM_PRIMS_WRITTEN0 { uint64_t NumPrimsWrittenCount; }; static inline void GEN8_SO_NUM_PRIMS_WRITTEN0_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_SO_NUM_PRIMS_WRITTEN0 * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; const uint64_t v0 = __gen_uint(values->NumPrimsWrittenCount, 0, 63); dw[0] = v0; dw[1] = v0 >> 32; } #define GEN8_SO_NUM_PRIMS_WRITTEN1_num 0x5208 #define GEN8_SO_NUM_PRIMS_WRITTEN1_length 2 struct GEN8_SO_NUM_PRIMS_WRITTEN1 { uint64_t NumPrimsWrittenCount; }; static inline void GEN8_SO_NUM_PRIMS_WRITTEN1_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_SO_NUM_PRIMS_WRITTEN1 * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; const uint64_t v0 = __gen_uint(values->NumPrimsWrittenCount, 0, 63); dw[0] = v0; dw[1] = v0 >> 32; } #define GEN8_SO_NUM_PRIMS_WRITTEN2_num 0x5210 #define GEN8_SO_NUM_PRIMS_WRITTEN2_length 2 struct GEN8_SO_NUM_PRIMS_WRITTEN2 { uint64_t NumPrimsWrittenCount; }; static inline void GEN8_SO_NUM_PRIMS_WRITTEN2_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_SO_NUM_PRIMS_WRITTEN2 * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; const uint64_t v0 = __gen_uint(values->NumPrimsWrittenCount, 0, 63); dw[0] = v0; dw[1] = v0 >> 32; } #define GEN8_SO_NUM_PRIMS_WRITTEN3_num 0x5218 #define GEN8_SO_NUM_PRIMS_WRITTEN3_length 2 struct GEN8_SO_NUM_PRIMS_WRITTEN3 { uint64_t NumPrimsWrittenCount; }; static inline void GEN8_SO_NUM_PRIMS_WRITTEN3_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_SO_NUM_PRIMS_WRITTEN3 * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; const uint64_t v0 = __gen_uint(values->NumPrimsWrittenCount, 0, 63); dw[0] = v0; dw[1] = v0 >> 32; } #define GEN8_SO_PRIM_STORAGE_NEEDED0_num 0x5240 #define GEN8_SO_PRIM_STORAGE_NEEDED0_length 2 struct GEN8_SO_PRIM_STORAGE_NEEDED0 { uint64_t PrimStorageNeededCount; }; static inline void GEN8_SO_PRIM_STORAGE_NEEDED0_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_SO_PRIM_STORAGE_NEEDED0 * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; const uint64_t v0 = __gen_uint(values->PrimStorageNeededCount, 0, 63); dw[0] = v0; dw[1] = v0 >> 32; } #define GEN8_SO_PRIM_STORAGE_NEEDED1_num 0x5248 #define GEN8_SO_PRIM_STORAGE_NEEDED1_length 2 struct GEN8_SO_PRIM_STORAGE_NEEDED1 { uint64_t PrimStorageNeededCount; }; static inline void GEN8_SO_PRIM_STORAGE_NEEDED1_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_SO_PRIM_STORAGE_NEEDED1 * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; const uint64_t v0 = __gen_uint(values->PrimStorageNeededCount, 0, 63); dw[0] = v0; dw[1] = v0 >> 32; } #define GEN8_SO_PRIM_STORAGE_NEEDED2_num 0x5250 #define GEN8_SO_PRIM_STORAGE_NEEDED2_length 2 struct GEN8_SO_PRIM_STORAGE_NEEDED2 { uint64_t PrimStorageNeededCount; }; static inline void GEN8_SO_PRIM_STORAGE_NEEDED2_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_SO_PRIM_STORAGE_NEEDED2 * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; const uint64_t v0 = __gen_uint(values->PrimStorageNeededCount, 0, 63); dw[0] = v0; dw[1] = v0 >> 32; } #define GEN8_SO_PRIM_STORAGE_NEEDED3_num 0x5258 #define GEN8_SO_PRIM_STORAGE_NEEDED3_length 2 struct GEN8_SO_PRIM_STORAGE_NEEDED3 { uint64_t PrimStorageNeededCount; }; static inline void GEN8_SO_PRIM_STORAGE_NEEDED3_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_SO_PRIM_STORAGE_NEEDED3 * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; const uint64_t v0 = __gen_uint(values->PrimStorageNeededCount, 0, 63); dw[0] = v0; dw[1] = v0 >> 32; } #define GEN8_SO_WRITE_OFFSET0_num 0x5280 #define GEN8_SO_WRITE_OFFSET0_length 1 struct GEN8_SO_WRITE_OFFSET0 { uint64_t WriteOffset; }; static inline void GEN8_SO_WRITE_OFFSET0_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_SO_WRITE_OFFSET0 * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_offset(values->WriteOffset, 2, 31); } #define GEN8_SO_WRITE_OFFSET1_num 0x5284 #define GEN8_SO_WRITE_OFFSET1_length 1 struct GEN8_SO_WRITE_OFFSET1 { uint64_t WriteOffset; }; static inline void GEN8_SO_WRITE_OFFSET1_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_SO_WRITE_OFFSET1 * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_offset(values->WriteOffset, 2, 31); } #define GEN8_SO_WRITE_OFFSET2_num 0x5288 #define GEN8_SO_WRITE_OFFSET2_length 1 struct GEN8_SO_WRITE_OFFSET2 { uint64_t WriteOffset; }; static inline void GEN8_SO_WRITE_OFFSET2_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_SO_WRITE_OFFSET2 * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_offset(values->WriteOffset, 2, 31); } #define GEN8_SO_WRITE_OFFSET3_num 0x528c #define GEN8_SO_WRITE_OFFSET3_length 1 struct GEN8_SO_WRITE_OFFSET3 { uint64_t WriteOffset; }; static inline void GEN8_SO_WRITE_OFFSET3_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_SO_WRITE_OFFSET3 * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_offset(values->WriteOffset, 2, 31); } #define GEN8_VCS2_RING_BUFFER_CTL_num 0x1203c #define GEN8_VCS2_RING_BUFFER_CTL_length 1 struct GEN8_VCS2_RING_BUFFER_CTL { bool RingBufferEnable; uint32_t AutomaticReportHeadPointer; #define MI_AUTOREPORT_OFF 0 #define MI_AUTOREPORT_64KB 1 #define MI_AUTOREPORT_4KB 2 #define MI_AUTOREPORT_128KB 3 bool DisableRegisterAccesses; bool SemaphoreWait; bool RBWait; uint32_t BufferLengthinpages1; }; static inline void GEN8_VCS2_RING_BUFFER_CTL_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_VCS2_RING_BUFFER_CTL * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->RingBufferEnable, 0, 0) | __gen_uint(values->AutomaticReportHeadPointer, 1, 2) | __gen_uint(values->DisableRegisterAccesses, 8, 8) | __gen_uint(values->SemaphoreWait, 10, 10) | __gen_uint(values->RBWait, 11, 11) | __gen_uint(values->BufferLengthinpages1, 12, 20); } #define GEN8_VCS_ACTHD_UDW_num 0x1205c #define GEN8_VCS_ACTHD_UDW_length 1 struct GEN8_VCS_ACTHD_UDW { uint32_t HeadPointerUpperDWORD; }; static inline void GEN8_VCS_ACTHD_UDW_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_VCS_ACTHD_UDW * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->HeadPointerUpperDWORD, 0, 15); } #define GEN8_VCS_INSTDONE_num 0x1206c #define GEN8_VCS_INSTDONE_length 1 struct GEN8_VCS_INSTDONE { bool RingEnable; bool USBDone; bool QRCDone; bool SECDone; bool MPCDone; bool VFTDone; bool BSPDone; bool VLFDone; bool VOPDone; bool VMCDone; bool VIPDone; bool VITDone; bool VDSDone; bool VMXDone; bool VCPDone; bool VCDDone; bool VADDone; bool VMDDone; bool VISDone; bool VACDone; bool VAMDone; bool JPGDone; bool VBPDone; bool VHRDone; bool VCIDone; bool VCRDone; bool VINDone; bool VPRDone; bool VTQDone; bool Reserved; bool VCSDone; bool GACDone; }; static inline void GEN8_VCS_INSTDONE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_VCS_INSTDONE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->RingEnable, 0, 0) | __gen_uint(values->USBDone, 1, 1) | __gen_uint(values->QRCDone, 2, 2) | __gen_uint(values->SECDone, 3, 3) | __gen_uint(values->MPCDone, 4, 4) | __gen_uint(values->VFTDone, 5, 5) | __gen_uint(values->BSPDone, 6, 6) | __gen_uint(values->VLFDone, 7, 7) | __gen_uint(values->VOPDone, 8, 8) | __gen_uint(values->VMCDone, 9, 9) | __gen_uint(values->VIPDone, 10, 10) | __gen_uint(values->VITDone, 11, 11) | __gen_uint(values->VDSDone, 12, 12) | __gen_uint(values->VMXDone, 13, 13) | __gen_uint(values->VCPDone, 14, 14) | __gen_uint(values->VCDDone, 15, 15) | __gen_uint(values->VADDone, 16, 16) | __gen_uint(values->VMDDone, 17, 17) | __gen_uint(values->VISDone, 18, 18) | __gen_uint(values->VACDone, 19, 19) | __gen_uint(values->VAMDone, 20, 20) | __gen_uint(values->JPGDone, 21, 21) | __gen_uint(values->VBPDone, 22, 22) | __gen_uint(values->VHRDone, 23, 23) | __gen_uint(values->VCIDone, 24, 24) | __gen_uint(values->VCRDone, 25, 25) | __gen_uint(values->VINDone, 26, 26) | __gen_uint(values->VPRDone, 27, 27) | __gen_uint(values->VTQDone, 28, 28) | __gen_uint(values->Reserved, 29, 29) | __gen_uint(values->VCSDone, 30, 30) | __gen_uint(values->GACDone, 31, 31); } #define GEN8_VCS_RING_BUFFER_CTL_num 0x1203c #define GEN8_VCS_RING_BUFFER_CTL_length 1 struct GEN8_VCS_RING_BUFFER_CTL { bool RingBufferEnable; uint32_t AutomaticReportHeadPointer; #define MI_AUTOREPORT_OFF 0 #define MI_AUTOREPORT_64KB 1 #define MI_AUTOREPORT_4KB 2 #define MI_AUTOREPORT_128KB 3 bool DisableRegisterAccesses; bool SemaphoreWait; bool RBWait; uint32_t BufferLengthinpages1; }; static inline void GEN8_VCS_RING_BUFFER_CTL_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_VCS_RING_BUFFER_CTL * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->RingBufferEnable, 0, 0) | __gen_uint(values->AutomaticReportHeadPointer, 1, 2) | __gen_uint(values->DisableRegisterAccesses, 8, 8) | __gen_uint(values->SemaphoreWait, 10, 10) | __gen_uint(values->RBWait, 11, 11) | __gen_uint(values->BufferLengthinpages1, 12, 20); } #define GEN8_VECS_ACTHD_UDW_num 0x1a05c #define GEN8_VECS_ACTHD_UDW_length 1 struct GEN8_VECS_ACTHD_UDW { uint32_t HeadPointerUpperDWORD; }; static inline void GEN8_VECS_ACTHD_UDW_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_VECS_ACTHD_UDW * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->HeadPointerUpperDWORD, 0, 15); } #define GEN8_VECS_INSTDONE_num 0x1a06c #define GEN8_VECS_INSTDONE_length 1 struct GEN8_VECS_INSTDONE { bool RingEnable; bool VECSDone; bool GAMDone; }; static inline void GEN8_VECS_INSTDONE_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_VECS_INSTDONE * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->RingEnable, 0, 0) | __gen_uint(values->VECSDone, 30, 30) | __gen_uint(values->GAMDone, 31, 31); } #define GEN8_VECS_RING_BUFFER_CTL_num 0x1a03c #define GEN8_VECS_RING_BUFFER_CTL_length 1 struct GEN8_VECS_RING_BUFFER_CTL { bool RingBufferEnable; uint32_t AutomaticReportHeadPointer; #define MI_AUTOREPORT_OFF 0 #define MI_AUTOREPORT_64KB 1 #define MI_AUTOREPORT_4KB 2 #define MI_AUTOREPORT_128KB 3 bool DisableRegisterAccesses; bool SemaphoreWait; bool RBWait; uint32_t BufferLengthinpages1; }; static inline void GEN8_VECS_RING_BUFFER_CTL_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_VECS_RING_BUFFER_CTL * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; dw[0] = __gen_uint(values->RingBufferEnable, 0, 0) | __gen_uint(values->AutomaticReportHeadPointer, 1, 2) | __gen_uint(values->DisableRegisterAccesses, 8, 8) | __gen_uint(values->SemaphoreWait, 10, 10) | __gen_uint(values->RBWait, 11, 11) | __gen_uint(values->BufferLengthinpages1, 12, 20); } #define GEN8_VS_INVOCATION_COUNT_num 0x2320 #define GEN8_VS_INVOCATION_COUNT_length 2 struct GEN8_VS_INVOCATION_COUNT { uint64_t VSInvocationCountReport; }; static inline void GEN8_VS_INVOCATION_COUNT_pack(__attribute__((unused)) __gen_user_data *data, __attribute__((unused)) void * restrict dst, __attribute__((unused)) const struct GEN8_VS_INVOCATION_COUNT * restrict values) { uint32_t * restrict dw = (uint32_t * restrict) dst; const uint64_t v0 = __gen_uint(values->VSInvocationCountReport, 0, 63); dw[0] = v0; dw[1] = v0 >> 32; } #endif /* GEN8_PACK_H */