/* * Copyright 2012 Vadim Girlin * * 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 * on the rights to use, copy, modify, merge, publish, distribute, sub * license, 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 NON-INFRINGEMENT. IN NO EVENT SHALL * THE AUTHOR(S) AND/OR THEIR SUPPLIERS 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. * * Authors: * Vadim Girlin */ #ifndef R600_ISA_H_ #define R600_ISA_H_ #include "util/u_debug.h" /* ALU flags */ enum alu_op_flags { AF_V = (1<<0), /* allowed in vector slots */ /* allowed in scalar(trans) slot (slots xyz on cayman, may be replicated * to w) */ AF_S = (1<<1), AF_4SLOT = (1<<2), /* uses four vector slots (e.g. DOT4) */ AF_4V = (AF_V | AF_4SLOT), AF_VS = (AF_V | AF_S), /* allowed in any slot */ AF_KILL = (1<<4), AF_PRED = (1<<5), AF_SET = (1<<6), /* e.g. MUL_PREV instructions, allowed in x/y, depends on z/w */ AF_PREV_INTERLEAVE = (1<<7), AF_MOVA = (1<<8), /* all MOVA instructions */ AF_IEEE = (1<<10), AF_INT = (1<<11), /* integer dst type */ AF_UNSIGNED = (1<<12), /* unsigned dst (should be used with AF_INT) */ AF_UINT = (AF_INT | AF_UNSIGNED), /* DP instructions, 2-slot pairs */ AF_64 = (1<<13), /* 24 bit instructions */ AF_24 = (1<<14), /* DX10 variants */ AF_DX10 = (1<<15), /* result is replicated to all channels (only if AF_4V is also set - * for special handling of MULLO_INT on CM) */ AF_REPL = (1<<16), /* interpolation instructions */ AF_INTERP = (1<<17), /* LDS instructions */ AF_LDS = (1<<20), /* e.g. DOT - depends on the next slot in the same group (x<=y/y<=z/z<=w) */ AF_PREV_NEXT = (1<<21), /* int<->flt conversions */ AF_CVT = (1<<22), /* commutative operation on src0 and src1 ( a op b = b op a), * includes MULADDs (considering the MUL part on src0 and src1 only) */ AF_M_COMM = (1 << 23), /* associative operation ((a op b) op c) == (a op (b op c)) */ AF_M_ASSOC = (1 << 24), AF_PRED_PUSH = (1 << 25), AF_ANY_PRED = (AF_PRED | AF_PRED_PUSH), /* condition codes - 3 bits */ AF_CC_SHIFT = 26, AF_CC_MASK = (7 << AF_CC_SHIFT), AF_CC_E = (0 << AF_CC_SHIFT), AF_CC_GT = (1 << AF_CC_SHIFT), AF_CC_GE = (2 << AF_CC_SHIFT), AF_CC_NE = (3 << AF_CC_SHIFT), AF_CC_LT = (4 << AF_CC_SHIFT), AF_CC_LE = (5 << AF_CC_SHIFT), }; /* flags for FETCH instructions (TEX/VTX) */ enum fetch_op_flags { FF_GDS = (1<<0), FF_TEX = (1<<1), FF_SETGRAD = (1<<2), FF_USEGRAD = (1<<3), FF_VTX = (1<<4), FF_MEM = (1<<5), }; /* flags for CF instructions */ enum cf_op_flags { CF_CLAUSE = (1<<0), /* execute clause (alu/fetch ...) */ CF_ACK = (1<<1), /* acked versions of some instructions */ CF_ALU = (1<<2), /* alu clause execution */ CF_ALU_EXT = (1<<3), /* ALU_EXTENDED */ CF_EXP = (1<<4), /* export (CF_ALLOC_EXPORT_WORD1_SWIZ) */ CF_BRANCH = (1<<5), /* branch instructions */ CF_LOOP = (1<<6), /* loop instructions */ CF_CALL = (1<<7), /* call instructions */ CF_MEM = (1<<8), /* export_mem (CF_ALLOC_EXPORT_WORD1_BUF) */ CF_FETCH = (1<<9), /* fetch clause */ CF_UNCOND = (1<<10), /* COND = ACTIVE required */ CF_EMIT = (1<<11), CF_STRM = (1<<12), /* MEM_STREAM* */ CF_LOOP_START = (1<<13) }; /* ALU instruction info */ struct alu_op_info { /* instruction name */ const char *name; /* number of source operands */ int src_count; /* opcodes, [0] - for r6xx/r7xx, [1] - for evergreen/cayman * (-1) if instruction doesn't exist (more precise info in "slots") */ int opcode[2]; /* slots for r6xx, r7xx, evergreen, cayman * (0 if instruction doesn't exist for chip class) */ int slots[4]; /* flags (mostly autogenerated from instruction name) */ int flags; }; /* FETCH instruction info */ struct fetch_op_info { const char * name; /* for every chip class */ int opcode[4]; int flags; }; /* CF instruction info */ struct cf_op_info { const char * name; /* for every chip class */ int opcode[4]; int flags; }; static const struct alu_op_info alu_op_table[] = { {"ADD", 2, { 0x00, 0x00 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_M_COMM | AF_M_ASSOC }, {"MUL", 2, { 0x01, 0x01 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_M_COMM | AF_M_ASSOC }, {"MUL_IEEE", 2, { 0x02, 0x02 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_M_COMM | AF_M_ASSOC | AF_IEEE }, {"MAX", 2, { 0x03, 0x03 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_M_COMM | AF_M_ASSOC }, {"MIN", 2, { 0x04, 0x04 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_M_COMM | AF_M_ASSOC }, {"MAX_DX10", 2, { 0x05, 0x05 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_M_COMM | AF_M_ASSOC | AF_DX10 }, {"MIN_DX10", 2, { 0x06, 0x06 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_M_COMM | AF_M_ASSOC | AF_DX10 }, {"SETE", 2, { 0x08, 0x08 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_SET | AF_CC_E }, {"SETGT", 2, { 0x09, 0x09 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_SET | AF_CC_GT }, {"SETGE", 2, { 0x0A, 0x0A },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_SET | AF_CC_GE }, {"SETNE", 2, { 0x0B, 0x0B },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_SET | AF_CC_NE }, {"SETE_DX10", 2, { 0x0C, 0x0C },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_SET | AF_CC_E | AF_DX10 }, {"SETGT_DX10", 2, { 0x0D, 0x0D },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_SET | AF_CC_GT | AF_DX10 }, {"SETGE_DX10", 2, { 0x0E, 0x0E },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_SET | AF_CC_GE | AF_DX10 }, {"SETNE_DX10", 2, { 0x0F, 0x0F },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_SET | AF_CC_NE | AF_DX10 }, {"FRACT", 1, { 0x10, 0x10 },{ AF_VS, AF_VS, AF_VS, AF_VS}, 0 }, {"TRUNC", 1, { 0x11, 0x11 },{ AF_VS, AF_VS, AF_VS, AF_VS}, 0 }, {"CEIL", 1, { 0x12, 0x12 },{ AF_VS, AF_VS, AF_VS, AF_VS}, 0 }, {"RNDNE", 1, { 0x13, 0x13 },{ AF_VS, AF_VS, AF_VS, AF_VS}, 0 }, {"FLOOR", 1, { 0x14, 0x14 },{ AF_VS, AF_VS, AF_VS, AF_VS}, 0 }, {"ASHR_INT", 2, { 0x70, 0x15 },{ AF_S, AF_VS, AF_VS, AF_VS}, AF_INT }, {"LSHR_INT", 2, { 0x71, 0x16 },{ AF_S, AF_VS, AF_VS, AF_VS}, AF_INT }, {"LSHL_INT", 2, { 0x72, 0x17 },{ AF_S, AF_VS, AF_VS, AF_VS}, AF_INT }, {"MOV", 1, { 0x19, 0x19 },{ AF_VS, AF_VS, AF_VS, AF_VS}, 0 }, {"ALU_NOP", 0, { 0x1A, 0x1A },{ AF_VS, AF_VS, AF_VS, AF_VS}, 0 }, {"PRED_SETGT_UINT", 2, { 0x1E, 0x1E },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED | AF_CC_GT | AF_UINT }, {"PRED_SETGE_UINT", 2, { 0x1F, 0x1F },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED | AF_CC_GE | AF_UINT }, {"PRED_SETE", 2, { 0x20, 0x20 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED | AF_CC_E }, {"PRED_SETGT", 2, { 0x21, 0x21 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED | AF_CC_GT }, {"PRED_SETGE", 2, { 0x22, 0x22 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED | AF_CC_GE }, {"PRED_SETNE", 2, { 0x23, 0x23 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED | AF_CC_NE }, {"PRED_SET_INV", 1, { 0x24, 0x24 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED }, {"PRED_SET_POP", 2, { 0x25, 0x25 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED }, {"PRED_SET_CLR", 0, { 0x26, 0x26 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED }, {"PRED_SET_RESTORE", 1, { 0x27, 0x27 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED }, {"PRED_SETE_PUSH", 2, { 0x28, 0x28 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED_PUSH | AF_CC_E }, {"PRED_SETGT_PUSH", 2, { 0x29, 0x29 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED_PUSH | AF_CC_GT }, {"PRED_SETGE_PUSH", 2, { 0x2A, 0x2A },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED_PUSH | AF_CC_GE }, {"PRED_SETNE_PUSH", 2, { 0x2B, 0x2B },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED_PUSH | AF_CC_NE }, {"KILLE", 2, { 0x2C, 0x2C },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_KILL | AF_CC_E }, {"KILLGT", 2, { 0x2D, 0x2D },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_KILL | AF_CC_GT }, {"KILLGE", 2, { 0x2E, 0x2E },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_KILL | AF_CC_GE }, {"KILLNE", 2, { 0x2F, 0x2F },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_KILL | AF_CC_NE }, {"AND_INT", 2, { 0x30, 0x30 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_M_COMM | AF_M_ASSOC | AF_INT }, {"OR_INT", 2, { 0x31, 0x31 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_M_COMM | AF_M_ASSOC | AF_INT }, {"XOR_INT", 2, { 0x32, 0x32 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_M_COMM | AF_M_ASSOC | AF_INT }, {"NOT_INT", 1, { 0x33, 0x33 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_INT }, {"ADD_INT", 2, { 0x34, 0x34 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_M_COMM | AF_M_ASSOC | AF_INT }, {"SUB_INT", 2, { 0x35, 0x35 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_INT }, {"MAX_INT", 2, { 0x36, 0x36 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_M_COMM | AF_M_ASSOC | AF_INT }, {"MIN_INT", 2, { 0x37, 0x37 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_M_COMM | AF_M_ASSOC | AF_INT }, {"MAX_UINT", 2, { 0x38, 0x38 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_M_COMM | AF_M_ASSOC | AF_UINT }, {"MIN_UINT", 2, { 0x39, 0x39 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_M_COMM | AF_M_ASSOC | AF_UINT }, {"SETE_INT", 2, { 0x3A, 0x3A },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_SET | AF_CC_E | AF_INT }, {"SETGT_INT", 2, { 0x3B, 0x3B },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_SET | AF_CC_GT | AF_INT }, {"SETGE_INT", 2, { 0x3C, 0x3C },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_SET | AF_CC_GE | AF_INT }, {"SETNE_INT", 2, { 0x3D, 0x3D },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_SET | AF_CC_NE | AF_INT }, {"SETGT_UINT", 2, { 0x3E, 0x3E },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_SET | AF_CC_GT | AF_UINT }, {"SETGE_UINT", 2, { 0x3F, 0x3F },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_SET | AF_CC_GE | AF_UINT }, {"KILLGT_UINT", 2, { 0x40, 0x40 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_KILL | AF_CC_GT | AF_UINT }, {"KILLGE_UINT", 2, { 0x41, 0x41 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_KILL | AF_CC_GE | AF_UINT }, {"PRED_SETE_INT", 2, { 0x42, 0x42 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED | AF_CC_E | AF_INT }, {"PRED_SETGT_INT", 2, { 0x43, 0x43 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED | AF_CC_GT | AF_INT }, {"PRED_SETGE_INT", 2, { 0x44, 0x44 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED | AF_CC_GE | AF_INT }, {"PRED_SETNE_INT", 2, { 0x45, 0x45 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED | AF_CC_NE | AF_INT }, {"KILLE_INT", 2, { 0x46, 0x46 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_KILL | AF_CC_E | AF_INT }, {"KILLGT_INT", 2, { 0x47, 0x47 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_KILL | AF_CC_GT | AF_INT }, {"KILLGE_INT", 2, { 0x48, 0x48 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_KILL | AF_CC_GE | AF_INT }, {"KILLNE_INT", 2, { 0x49, 0x49 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_KILL | AF_CC_NE | AF_INT }, {"PRED_SETE_PUSH_INT", 2, { 0x4A, 0x4A },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED_PUSH | AF_CC_E | AF_INT }, {"PRED_SETGT_PUSH_INT", 2, { 0x4B, 0x4B },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED_PUSH | AF_CC_GT | AF_INT }, {"PRED_SETGE_PUSH_INT", 2, { 0x4C, 0x4C },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED_PUSH | AF_CC_GE | AF_INT }, {"PRED_SETNE_PUSH_INT", 2, { 0x4D, 0x4D },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED_PUSH | AF_CC_NE | AF_INT }, {"PRED_SETLT_PUSH_INT", 2, { 0x4E, 0x4E },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED_PUSH | AF_CC_LT | AF_INT }, {"PRED_SETLE_PUSH_INT", 2, { 0x4F, 0x4F },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_PRED_PUSH | AF_CC_LE | AF_INT }, {"FLT_TO_INT", 1, { 0x6B, 0x50 },{ AF_S, AF_S, AF_VS, AF_VS}, AF_INT | AF_CVT }, {"BFREV_INT", 1, { -1, 0x51 },{ 0, 0, AF_VS, AF_VS}, AF_INT }, {"ADDC_UINT", 2, { -1, 0x52 },{ 0, 0, AF_VS, AF_VS}, AF_UINT }, {"SUBB_UINT", 2, { -1, 0x53 },{ 0, 0, AF_VS, AF_VS}, AF_UINT }, {"GROUP_BARRIER", 0, { -1, 0x54 },{ 0, 0, AF_VS, AF_VS}, 0 }, {"GROUP_SEQ_BEGIN", 0, { -1, 0x55 },{ 0, 0, AF_VS, 0}, 0 }, {"GROUP_SEQ_END", 0, { -1, 0x56 },{ 0, 0, AF_VS, 0}, 0 }, {"SET_MODE", 2, { -1, 0x57 },{ 0, 0, AF_VS, AF_VS}, 0 }, {"SET_CF_IDX0", 0, { -1, 0x58 },{ 0, 0, AF_VS, 0}, 0 }, {"SET_CF_IDX1", 0, { -1, 0x59 },{ 0, 0, AF_VS, 0}, 0 }, {"SET_LDS_SIZE", 2, { -1, 0x5A },{ 0, 0, AF_VS, AF_VS}, 0 }, {"MUL_INT24", 2, { -1, 0x5B },{ 0, 0, 0, AF_V}, AF_INT | AF_24 }, {"MULHI_INT24", 2, { -1, 0x5C },{ 0, 0, 0, AF_V}, AF_INT | AF_24 }, {"FLT_TO_INT_TRUNC", 1, { -1, 0x5D },{ 0, 0, 0, AF_V}, AF_INT | AF_CVT}, {"EXP_IEEE", 1, { 0x61, 0x81 },{ AF_S, AF_S, AF_S, AF_S}, AF_IEEE }, {"LOG_CLAMPED", 1, { 0x62, 0x82 },{ AF_S, AF_S, AF_S, AF_S}, 0 }, {"LOG_IEEE", 1, { 0x63, 0x83 },{ AF_S, AF_S, AF_S, AF_S}, AF_IEEE }, {"RECIP_CLAMPED", 1, { 0x64, 0x84 },{ AF_S, AF_S, AF_S, AF_S}, 0 }, {"RECIP_FF", 1, { 0x65, 0x85 },{ AF_S, AF_S, AF_S, AF_S}, 0 }, {"RECIP_IEEE", 1, { 0x66, 0x86 },{ AF_S, AF_S, AF_S, AF_S}, AF_IEEE }, {"RECIPSQRT_CLAMPED", 1, { 0x67, 0x87 },{ AF_S, AF_S, AF_S, AF_S}, 0 }, {"RECIPSQRT_FF", 1, { 0x68, 0x88 },{ AF_S, AF_S, AF_S, AF_S}, 0 }, {"RECIPSQRT_IEEE", 1, { 0x69, 0x89 },{ AF_S, AF_S, AF_S, AF_S}, AF_IEEE }, {"SQRT_IEEE", 1, { 0x6A, 0x8A },{ AF_S, AF_S, AF_S, AF_S}, AF_IEEE }, {"SIN", 1, { 0x6E, 0x8D },{ AF_S, AF_S, AF_S, AF_S}, 0 }, {"COS", 1, { 0x6F, 0x8E },{ AF_S, AF_S, AF_S, AF_S}, 0 }, {"MULLO_INT", 2, { 0x73, 0x8F },{ AF_S, AF_S, AF_S, AF_4V}, AF_M_COMM | AF_INT | AF_REPL}, {"MULHI_INT", 2, { 0x74, 0x90 },{ AF_S, AF_S, AF_S, AF_4V}, AF_M_COMM | AF_INT | AF_REPL}, {"MULLO_UINT", 2, { 0x75, 0x91 },{ AF_S, AF_S, AF_S, AF_4V}, AF_M_COMM | AF_UINT | AF_REPL}, {"MULHI_UINT", 2, { 0x76, 0x92 },{ AF_S, AF_S, AF_S, AF_4V}, AF_M_COMM | AF_UINT | AF_REPL}, {"RECIP_INT", 1, { 0x77, 0x93 },{ AF_S, AF_S, AF_S, 0}, AF_INT }, {"RECIP_UINT", 1, { 0x78, 0x94 },{ AF_S, AF_S, AF_S, 0}, AF_UINT }, {"RECIP_64", 2, { -1, 0x95 },{ 0, 0, AF_S, AF_S}, AF_64 }, {"RECIP_CLAMPED_64", 2, { -1, 0x96 },{ 0, 0, AF_S, AF_S}, AF_64 }, {"RECIPSQRT_64", 2, { -1, 0x97 },{ 0, 0, AF_S, AF_S}, AF_64 }, {"RECIPSQRT_CLAMPED_64", 2, { -1, 0x98 },{ 0, 0, AF_S, AF_S}, AF_64 }, {"SQRT_64", 2, { -1, 0x99 },{ 0, 0, AF_S, AF_S}, AF_64 }, {"FLT_TO_UINT", 1, { 0x79, 0x9A },{ AF_S, AF_S, AF_S, AF_V}, AF_UINT | AF_CVT}, {"INT_TO_FLT", 1, { 0x6C, 0x9B },{ AF_S, AF_S, AF_S, AF_V}, AF_CVT}, {"UINT_TO_FLT", 1, { 0x6D, 0x9C },{ AF_S, AF_S, AF_S, AF_V}, AF_CVT }, {"BFM_INT", 2, { -1, 0xA0 },{ 0, 0, AF_V, AF_V}, AF_INT }, {"FLT32_TO_FLT16", 1, { -1, 0xA2 },{ 0, 0, AF_V, AF_V}, 0 }, {"FLT16_TO_FLT32", 1, { -1, 0xA3 },{ 0, 0, AF_V, AF_V}, 0 }, {"UBYTE0_FLT", 1, { -1, 0xA4 },{ 0, 0, AF_V, AF_V}, 0 }, {"UBYTE1_FLT", 1, { -1, 0xA5 },{ 0, 0, AF_V, AF_V}, 0 }, {"UBYTE2_FLT", 1, { -1, 0xA6 },{ 0, 0, AF_V, AF_V}, 0 }, {"UBYTE3_FLT", 1, { -1, 0xA7 },{ 0, 0, AF_V, AF_V}, 0 }, {"BCNT_INT", 1, { -1, 0xAA },{ 0, 0, AF_V, AF_V}, AF_INT }, {"FFBH_UINT", 1, { -1, 0xAB },{ 0, 0, AF_V, AF_V}, AF_UINT }, {"FFBL_INT", 1, { -1, 0xAC },{ 0, 0, AF_V, AF_V}, AF_INT }, {"FFBH_INT", 1, { -1, 0xAD },{ 0, 0, AF_V, AF_V}, AF_INT }, {"FLT_TO_UINT4", 1, { -1, 0xAE },{ 0, 0, AF_V, AF_V}, AF_UINT }, {"DOT_IEEE", 2, { -1, 0xAF },{ 0, 0, AF_V, AF_V}, AF_PREV_NEXT | AF_IEEE }, {"FLT_TO_INT_RPI", 1, { -1, 0xB0 },{ 0, 0, AF_V, AF_V}, AF_INT | AF_CVT}, {"FLT_TO_INT_FLOOR", 1, { -1, 0xB1 },{ 0, 0, AF_V, AF_V}, AF_INT | AF_CVT}, {"MULHI_UINT24", 2, { -1, 0xB2 },{ 0, 0, AF_V, AF_V}, AF_UINT | AF_24 }, {"MBCNT_32HI_INT", 1, { -1, 0xB3 },{ 0, 0, AF_V, AF_V}, AF_INT }, {"OFFSET_TO_FLT", 1, { -1, 0xB4 },{ 0, 0, AF_V, AF_V}, 0 }, {"MUL_UINT24", 2, { -1, 0xB5 },{ 0, 0, AF_V, AF_V}, AF_UINT | AF_24 }, {"BCNT_ACCUM_PREV_INT", 1, { -1, 0xB6 },{ 0, 0, AF_V, AF_V}, AF_INT | AF_PREV_NEXT }, {"MBCNT_32LO_ACCUM_PREV_INT", 1, { -1, 0xB7 },{ 0, 0, AF_V, AF_V}, AF_INT | AF_PREV_NEXT }, {"SETE_64", 2, { -1, 0xB8 },{ 0, 0, AF_V, AF_V}, AF_SET | AF_CC_E | AF_64 }, {"SETNE_64", 2, { -1, 0xB9 },{ 0, 0, AF_V, AF_V}, AF_SET | AF_CC_NE | AF_64 }, {"SETGT_64", 2, { -1, 0xBA },{ 0, 0, AF_V, AF_V}, AF_SET | AF_CC_GT | AF_64 }, {"SETGE_64", 2, { -1, 0xBB },{ 0, 0, AF_V, AF_V}, AF_SET | AF_CC_GE | AF_64 }, {"MIN_64", 2, { -1, 0xBC },{ 0, 0, AF_V, AF_V}, AF_64 }, {"MAX_64", 2, { -1, 0xBD },{ 0, 0, AF_V, AF_V}, AF_64 }, {"DOT4", 2, { 0x50, 0xBE },{ AF_4V, AF_4V, AF_4V, AF_4V}, AF_REPL }, {"DOT4_IEEE", 2, { 0x51, 0xBF },{ AF_4V, AF_4V, AF_4V, AF_4V}, AF_REPL | AF_IEEE }, {"CUBE", 2, { 0x52, 0xC0 },{ AF_4V, AF_4V, AF_4V, AF_4V}, 0 }, {"MAX4", 1, { 0x53, 0xC1 },{ AF_4V, AF_4V, AF_4V, AF_4V}, AF_REPL }, {"FREXP_64", 1, { 0x07, 0xC4 },{ AF_V, AF_V, AF_V, AF_V}, AF_64 }, {"LDEXP_64", 2, { 0x7A, 0xC5 },{ AF_V, AF_V, AF_V, AF_V}, AF_64 }, {"FRACT_64", 1, { 0x7B, 0xC6 },{ AF_V, AF_V, AF_V, AF_V}, AF_64 }, {"PRED_SETGT_64", 2, { 0x7C, 0xC7 },{ AF_V, AF_V, AF_V, AF_V}, AF_PRED | AF_CC_GT | AF_64 }, {"PRED_SETE_64", 2, { 0x7D, 0xC8 },{ AF_V, AF_V, AF_V, AF_V}, AF_PRED | AF_CC_E | AF_64 }, {"PRED_SETGE_64", 2, { 0x7E, 0xC9 },{ AF_V, AF_V, AF_V, AF_V}, AF_PRED | AF_CC_GE | AF_64 }, {"MUL_64", 2, { 0x1B, 0xCA },{ AF_V, AF_V, AF_V, AF_V}, AF_64 }, {"ADD_64", 2, { 0x17, 0xCB },{ AF_V, AF_V, AF_V, AF_V}, AF_64 }, {"MOVA_INT", 1, { 0x18, 0xCC },{ AF_V, AF_V, AF_V, AF_V}, AF_MOVA | AF_INT }, {"FLT64_TO_FLT32", 1, { 0x1C, 0xCD },{ AF_V, AF_V, AF_V, AF_V}, 0 }, {"FLT32_TO_FLT64", 1, { 0x1D, 0xCE },{ AF_V, AF_V, AF_V, AF_V}, 0 }, {"SAD_ACCUM_PREV_UINT", 2, { -1, 0xCF },{ 0, 0, AF_V, AF_V}, AF_UINT | AF_PREV_NEXT }, {"DOT", 2, { -1, 0xD0 },{ 0, 0, AF_V, AF_V}, AF_PREV_NEXT }, {"MUL_PREV", 1, { -1, 0xD1 },{ 0, 0, AF_V, AF_V}, AF_PREV_INTERLEAVE }, {"MUL_IEEE_PREV", 1, { -1, 0xD2 },{ 0, 0, AF_V, AF_V}, AF_PREV_INTERLEAVE | AF_IEEE }, {"ADD_PREV", 1, { -1, 0xD3 },{ 0, 0, AF_V, AF_V}, AF_PREV_INTERLEAVE }, {"MULADD_PREV", 2, { -1, 0xD4 },{ 0, 0, AF_V, AF_V}, AF_PREV_INTERLEAVE }, {"MULADD_IEEE_PREV", 2, { -1, 0xD5 },{ 0, 0, AF_V, AF_V}, AF_PREV_INTERLEAVE | AF_IEEE }, {"INTERP_XY", 2, { -1, 0xD6 },{ 0, 0, AF_4V, AF_4V}, AF_INTERP }, {"INTERP_ZW", 2, { -1, 0xD7 },{ 0, 0, AF_4V, AF_4V}, AF_INTERP }, {"INTERP_X", 2, { -1, 0xD8 },{ 0, 0, AF_V, AF_V}, AF_INTERP }, {"INTERP_Z", 2, { -1, 0xD9 },{ 0, 0, AF_V, AF_V}, AF_INTERP }, {"STORE_FLAGS", 1, { -1, 0xDA },{ 0, 0, AF_V, AF_V}, 0 }, {"LOAD_STORE_FLAGS", 1, { -1, 0xDB },{ 0, 0, AF_V, AF_V}, 0 }, {"LDS_1A", 2, { -1, 0xDC },{ 0, 0, AF_V, AF_V}, 0 }, {"LDS_1A1D", 2, { -1, 0xDD },{ 0, 0, AF_V, AF_V}, 0 }, {"LDS_2A", 2, { -1, 0xDF },{ 0, 0, AF_V, AF_V}, 0 }, {"INTERP_LOAD_P0", 1, { -1, 0xE0 },{ 0, 0, AF_V, AF_V}, 0 }, {"INTERP_LOAD_P10", 1, { -1, 0xE1 },{ 0, 0, AF_V, AF_V}, 0 }, {"INTERP_LOAD_P20", 1, { -1, 0xE2 },{ 0, 0, AF_V, AF_V}, 0 }, {"BFE_UINT", 3, { -1, 0x04 },{ 0, 0, AF_V, AF_V}, AF_UINT }, {"BFE_INT", 3, { -1, 0x05 },{ 0, 0, AF_V, AF_V}, AF_INT }, {"BFI_INT", 3, { -1, 0x06 },{ 0, 0, AF_V, AF_V}, AF_INT }, {"FMA", 3, { -1, 0x07 },{ 0, 0, AF_V, AF_V}, 0 }, {"MULADD_INT24", 3, { -1, 0x08 },{ 0, 0, 0, AF_V}, AF_INT | AF_24 }, {"CNDNE_64", 3, { -1, 0x09 },{ 0, 0, AF_V, AF_V}, AF_64 }, {"FMA_64", 3, { -1, 0x0A },{ 0, 0, AF_V, AF_V}, AF_64 }, {"LERP_UINT", 3, { -1, 0x0B },{ 0, 0, AF_V, AF_V}, AF_UINT }, {"BIT_ALIGN_INT", 3, { -1, 0x0C },{ 0, 0, AF_V, AF_V}, AF_INT }, {"BYTE_ALIGN_INT", 3, { -1, 0x0D },{ 0, 0, AF_V, AF_V}, AF_INT }, {"SAD_ACCUM_UINT", 3, { -1, 0x0E },{ 0, 0, AF_V, AF_V}, AF_UINT }, {"SAD_ACCUM_HI_UINT", 3, { -1, 0x0F },{ 0, 0, AF_V, AF_V}, AF_UINT }, {"MULADD_UINT24", 3, { -1, 0x10 },{ 0, 0, AF_V, AF_V}, AF_UINT | AF_24 }, {"LDS_IDX_OP", 3, { -1, 0x11 },{ 0, 0, AF_V, AF_V}, 0 }, {"MULADD", 3, { 0x10, 0x14 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_M_COMM }, {"MULADD_M2", 3, { 0x11, 0x15 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_M_COMM }, {"MULADD_M4", 3, { 0x12, 0x16 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_M_COMM }, {"MULADD_D2", 3, { 0x13, 0x17 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_M_COMM }, {"MULADD_IEEE", 3, { 0x14, 0x18 },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_M_COMM | AF_IEEE }, {"CNDE", 3, { 0x18, 0x19 },{ AF_VS, AF_VS, AF_VS, AF_VS}, 0 }, {"CNDGT", 3, { 0x19, 0x1A },{ AF_VS, AF_VS, AF_VS, AF_VS}, 0 }, {"CNDGE", 3, { 0x1A, 0x1B },{ AF_VS, AF_VS, AF_VS, AF_VS}, 0 }, {"CNDE_INT", 3, { 0x1C, 0x1C },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_INT }, {"CNDGT_INT", 3, { 0x1D, 0x1D },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_INT }, {"CNDGE_INT", 3, { 0x1E, 0x1E },{ AF_VS, AF_VS, AF_VS, AF_VS}, AF_INT }, {"MUL_LIT", 3, { 0x0C, 0x1F },{ AF_S, AF_S, AF_S, AF_V}, 0 }, {"MOVA", 1, { 0x15, -1 },{ AF_V, AF_V, 0, 0}, AF_MOVA }, {"MOVA_FLOOR", 1, { 0x16, -1 },{ AF_V, AF_V, 0, 0}, AF_MOVA }, {"MOVA_GPR_INT", 1, { 0x60, -1 },{ AF_S, 0, 0, 0}, AF_MOVA | AF_INT }, {"MULADD_64", 3, { 0x08, -1 },{ AF_V, AF_V, 0, 0}, AF_64 }, {"MULADD_64_M2", 3, { 0x09, -1 },{ AF_V, AF_V, 0, 0}, AF_64 }, {"MULADD_64_M4", 3, { 0x0A, -1 },{ AF_V, AF_V, 0, 0}, AF_64 }, {"MULADD_64_D2", 3, { 0x0B, -1 },{ AF_V, AF_V, 0, 0}, AF_64 }, {"MUL_LIT_M2", 3, { 0x0D, -1 },{ AF_VS, AF_VS, 0, 0}, 0 }, {"MUL_LIT_M4", 3, { 0x0E, -1 },{ AF_VS, AF_VS, 0, 0}, 0 }, {"MUL_LIT_D2", 3, { 0x0F, -1 },{ AF_VS, AF_VS, 0, 0}, 0 }, {"MULADD_IEEE_M2", 3, { 0x15, -1 },{ AF_VS, AF_VS, 0, 0}, AF_IEEE }, {"MULADD_IEEE_M4", 3, { 0x16, -1 },{ AF_VS, AF_VS, 0, 0}, AF_IEEE }, {"MULADD_IEEE_D2", 3, { 0x17, -1 },{ AF_VS, AF_VS, 0, 0}, AF_IEEE }, {"LDS_ADD", 2, { -1, 0x0011 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_SUB", 2, { -1, 0x0111 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_RSUB", 2, { -1, 0x0211 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_INC", 2, { -1, 0x0311 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_DEC", 2, { -1, 0x0411 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_MIN_INT", 2, { -1, 0x0511 },{ 0, 0, AF_V, AF_V}, AF_LDS | AF_INT }, {"LDS_MAX_INT", 2, { -1, 0x0611 },{ 0, 0, AF_V, AF_V}, AF_LDS | AF_INT }, {"LDS_MIN_UINT", 2, { -1, 0x0711 },{ 0, 0, AF_V, AF_V}, AF_LDS | AF_UINT }, {"LDS_MAX_UINT", 2, { -1, 0x0811 },{ 0, 0, AF_V, AF_V}, AF_LDS | AF_UINT }, {"LDS_AND", 2, { -1, 0x0911 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_OR", 2, { -1, 0x0A11 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_XOR", 2, { -1, 0x0B11 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_MSKOR", 3, { -1, 0x0C11 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_WRITE", 2, { -1, 0x0D11 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_WRITE_REL", 3, { -1, 0x0E11 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_WRITE2", 3, { -1, 0x0F11 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_CMP_STORE", 3, { -1, 0x1011 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_CMP_STORE_SPF", 3, { -1, 0x1111 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_BYTE_WRITE", 2, { -1, 0x1211 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_SHORT_WRITE", 2, { -1, 0x1311 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_ADD_RET", 2, { -1, 0x2011 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_SUB_RET", 2, { -1, 0x2111 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_RSUB_RET", 2, { -1, 0x2211 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_INC_RET", 2, { -1, 0x2311 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_DEC_RET", 2, { -1, 0x2411 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_MIN_INT_RET", 2, { -1, 0x2511 },{ 0, 0, AF_V, AF_V}, AF_LDS | AF_INT }, {"LDS_MAX_INT_RET", 2, { -1, 0x2611 },{ 0, 0, AF_V, AF_V}, AF_LDS | AF_INT }, {"LDS_MIN_UINT_RET", 2, { -1, 0x2711 },{ 0, 0, AF_V, AF_V}, AF_LDS | AF_UINT }, {"LDS_MAX_UINT_RET", 2, { -1, 0x2811 },{ 0, 0, AF_V, AF_V}, AF_LDS | AF_UINT }, {"LDS_AND_RET", 2, { -1, 0x2911 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_OR_RET", 2, { -1, 0x2A11 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_XOR_RET", 2, { -1, 0x2B11 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_MSKOR_RET", 3, { -1, 0x2C11 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_XCHG_RET", 2, { -1, 0x2D11 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_XCHG_REL_RET", 3, { -1, 0x2E11 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_XCHG2_RET", 3, { -1, 0x2F11 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_CMP_XCHG_RET", 3, { -1, 0x3011 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_CMP_XCHG_SPF_RET", 3, { -1, 0x3111 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_READ_RET", 1, { -1, 0x3211 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_READ_REL_RET", 1, { -1, 0x3311 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_READ2_RET", 2, { -1, 0x3411 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_READWRITE_RET", 3, { -1, 0x3511 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_BYTE_READ_RET", 1, { -1, 0x3611 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_UBYTE_READ_RET", 1, { -1, 0x3711 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_SHORT_READ_RET", 1, { -1, 0x3811 },{ 0, 0, AF_V, AF_V}, AF_LDS }, {"LDS_USHORT_READ_RET", 1, { -1, 0x3911 },{ 0, 0, AF_V, AF_V}, AF_LDS }, }; static const struct fetch_op_info fetch_op_table[] = { {"VFETCH", { 0x000000, 0x000000, 0x000000, 0x000000 }, FF_VTX }, {"SEMFETCH", { 0x000001, 0x000001, 0x000001, 0x000001 }, FF_VTX }, {"READ_SCRATCH", { -1, 0x000002, 0x000002, 0x000002 }, FF_VTX | FF_MEM }, {"READ_REDUCT", { -1, 0x000102, -1, -1 }, FF_VTX | FF_MEM }, {"READ_MEM", { -1, 0x000202, 0x000202, 0x000202 }, FF_VTX | FF_MEM }, {"DS_LOCAL_WRITE", { -1, 0x000402, -1, -1 }, FF_VTX | FF_MEM }, {"DS_LOCAL_READ", { -1, 0x000502, -1, -1 }, FF_VTX | FF_MEM }, {"GDS_ADD", { -1, -1, 0x020002, 0x020002 }, FF_GDS }, {"GDS_SUB", { -1, -1, 0x020102, 0x020102 }, FF_GDS }, {"GDS_RSUB", { -1, -1, 0x020202, 0x020202 }, FF_GDS }, {"GDS_INC", { -1, -1, 0x020302, 0x020302 }, FF_GDS }, {"GDS_DEC", { -1, -1, 0x020402, 0x020402 }, FF_GDS }, {"GDS_MIN_INT", { -1, -1, 0x020502, 0x020502 }, FF_GDS }, {"GDS_MAX_INT", { -1, -1, 0x020602, 0x020602 }, FF_GDS }, {"GDS_MIN_UINT", { -1, -1, 0x020702, 0x020702 }, FF_GDS }, {"GDS_MAX_UINT", { -1, -1, 0x020802, 0x020802 }, FF_GDS }, {"GDS_AND", { -1, -1, 0x020902, 0x020902 }, FF_GDS }, {"GDS_OR", { -1, -1, 0x020A02, 0x020A02 }, FF_GDS }, {"GDS_XOR", { -1, -1, 0x020B02, 0x020B02 }, FF_GDS }, {"GDS_MSKOR", { -1, -1, 0x030C02, 0x030C02 }, FF_GDS }, {"GDS_WRITE", { -1, -1, 0x020D02, 0x020D02 }, FF_GDS }, {"GDS_WRITE_REL", { -1, -1, 0x030E02, 0x030E02 }, FF_GDS }, {"GDS_WRITE2", { -1, -1, 0x030F02, 0x030F02 }, FF_GDS }, {"GDS_CMP_STORE", { -1, -1, 0x031002, 0x031002 }, FF_GDS }, {"GDS_CMP_STORE_SPF", { -1, -1, 0x031102, 0x031102 }, FF_GDS }, {"GDS_BYTE_WRITE", { -1, -1, 0x021202, 0x021202 }, FF_GDS }, {"GDS_SHORT_WRITE", { -1, -1, 0x021302, 0x021302 }, FF_GDS }, {"GDS_ADD_RET", { -1, -1, 0x122002, 0x122002 }, FF_GDS }, {"GDS_SUB_RET", { -1, -1, 0x122102, 0x122102 }, FF_GDS }, {"GDS_RSUB_RET", { -1, -1, 0x122202, 0x122202 }, FF_GDS }, {"GDS_INC_RET", { -1, -1, 0x122302, 0x122302 }, FF_GDS }, {"GDS_DEC_RET", { -1, -1, 0x122402, 0x122402 }, FF_GDS }, {"GDS_MIN_INT_RET", { -1, -1, 0x122502, 0x122502 }, FF_GDS }, {"GDS_MAX_INT_RET", { -1, -1, 0x122602, 0x122602 }, FF_GDS }, {"GDS_MIN_UINT_RET", { -1, -1, 0x122702, 0x122702 }, FF_GDS }, {"GDS_MAX_UINT_RET", { -1, -1, 0x122802, 0x122802 }, FF_GDS }, {"GDS_AND_RET", { -1, -1, 0x122902, 0x122902 }, FF_GDS }, {"GDS_OR_RET", { -1, -1, 0x122A02, 0x122A02 }, FF_GDS }, {"GDS_XOR_RET", { -1, -1, 0x122B02, 0x122B02 }, FF_GDS }, {"GDS_MSKOR_RET", { -1, -1, 0x132C02, 0x132C02 }, FF_GDS }, {"GDS_XCHG_RET", { -1, -1, 0x122D02, 0x122D02 }, FF_GDS }, {"GDS_XCHG_REL_RET", { -1, -1, 0x232E02, 0x232E02 }, FF_GDS }, {"GDS_XCHG2_RET", { -1, -1, 0x232F02, 0x232F02 }, FF_GDS }, {"GDS_CMP_XCHG_RET", { -1, -1, 0x133002, 0x133002 }, FF_GDS }, {"GDS_CMP_XCHG_SPF_RET", { -1, -1, 0x133102, 0x133102 }, FF_GDS }, {"GDS_READ_RET", { -1, -1, 0x113202, 0x113202 }, FF_GDS }, {"GDS_READ_REL_RET", { -1, -1, 0x213302, 0x213302 }, FF_GDS }, {"GDS_READ2_RET", { -1, -1, 0x223402, 0x223402 }, FF_GDS }, {"GDS_READWRITE_RET", { -1, -1, 0x133502, 0x133502 }, FF_GDS }, {"GDS_BYTE_READ_RET", { -1, -1, 0x113602, 0x113602 }, FF_GDS }, {"GDS_UBYTE_READ_RET", { -1, -1, 0x113702, 0x113702 }, FF_GDS }, {"GDS_SHORT_READ_RET", { -1, -1, 0x113802, 0x113802 }, FF_GDS }, {"GDS_USHORT_READ_RET", { -1, -1, 0x113902, 0x113902 }, FF_GDS }, {"GDS_ATOMIC_ORDERED_ALLOC", { -1, -1, 0x113F02, 0x113F02 }, FF_GDS }, {"TF_WRITE", { -1, -1, 0x020502, 0x020502 }, FF_GDS }, {"DS_GLOBAL_WRITE", { -1, 0x000602, -1, -1 }, 0 }, {"DS_GLOBAL_READ", { -1, 0x000702, -1, -1 }, 0 }, {"LD", { 0x000003, 0x000003, 0x000003, 0x000003 }, 0 }, {"LDFPTR", { -1, -1, 0x000103, 0x000103 }, 0 }, {"GET_TEXTURE_RESINFO", { 0x000004, 0x000004, 0x000004, 0x000004 }, 0 }, {"GET_NUMBER_OF_SAMPLES", { 0x000005, 0x000005, 0x000005, 0x000005 }, 0 }, {"GET_LOD", { 0x000006, 0x000006, 0x000006, 0x000006 }, 0 }, {"GET_GRADIENTS_H", { 0x000007, 0x000007, 0x000007, 0x000007 }, 0 }, {"GET_GRADIENTS_V", { 0x000008, 0x000008, 0x000008, 0x000008 }, 0 }, {"GET_GRADIENTS_H_FINE", { -1, -1, 0x000107, 0x000107 }, 0 }, {"GET_GRADIENTS_V_FINE", { -1, -1, 0x000108, 0x000108 }, 0 }, {"GET_LERP", { 0x000009, 0x000009, -1, -1 }, 0 }, {"SET_TEXTURE_OFFSETS", { -1, -1, 0x000009, 0x000009 }, 0 }, {"KEEP_GRADIENTS", { -1, 0x00000A, 0x00000A, 0x00000A }, 0 }, {"SET_GRADIENTS_H", { 0x00000B, 0x00000B, 0x00000B, 0x00000B }, FF_SETGRAD }, {"SET_GRADIENTS_V", { 0x00000C, 0x00000C, 0x00000C, 0x00000C }, FF_SETGRAD }, {"SET_GRADIENTS_H_COARSE", { -1, -1, -1, 0x00010B }, FF_SETGRAD }, {"SET_GRADIENTS_V_COARSE", { -1, -1, -1, 0x00010C }, FF_SETGRAD }, {"SET_GRADIENTS_H_PACKED_FINE", { -1, -1, -1, 0x00020B }, FF_SETGRAD }, {"SET_GRADIENTS_V_PACKED_FINE", { -1, -1, -1, 0x00020C }, FF_SETGRAD }, {"SET_GRADIENTS_H_PACKED_COARSE", { -1, -1, -1, 0x00030B }, FF_SETGRAD }, {"SET_GRADIENTS_V_PACKED_COARSE", { -1, -1, -1, 0x00030C }, FF_SETGRAD }, {"PASS", { 0x00000D, 0x00000D, 0x00000D, 0x00000D }, 0 }, /* ???? 700, eg, cm docs - marked as reserved */ {"PASS1", { -1, -1, 0x00010D, 0x00010D }, 0 }, {"PASS2", { -1, -1, 0x00020D, 0x00020D }, 0 }, {"PASS3", { -1, -1, 0x00030D, 0x00030D }, 0 }, {"SET_CUBEMAP_INDEX", { 0x00000E, 0x00000E, -1, -1 }, 0 }, {"GET_BUFFER_RESINFO", { -1, -1, 0x00000E, 0x00000E }, FF_VTX }, {"FETCH4", { 0x00000F, 0x00000F, -1, -1 }, 0 }, {"SAMPLE", { 0x000010, 0x000010, 0x000010, 0x000010 }, FF_TEX }, {"SAMPLE_L", { 0x000011, 0x000011, 0x000011, 0x000011 }, FF_TEX }, {"SAMPLE_LB", { 0x000012, 0x000012, 0x000012, 0x000012 }, FF_TEX }, {"SAMPLE_LZ", { 0x000013, 0x000013, 0x000013, 0x000013 }, FF_TEX }, {"SAMPLE_G", { 0x000014, 0x000014, 0x000014, 0x000014 }, FF_TEX | FF_USEGRAD }, {"SAMPLE_G_L", { 0x000015, 0x000015, -1, -1 }, FF_TEX | FF_USEGRAD}, {"GATHER4", { -1, -1, 0x000015, 0x000015 }, FF_TEX }, {"SAMPLE_G_LB", { 0x000016, 0x000016, 0x000016, 0x000016 }, FF_TEX | FF_USEGRAD}, {"SAMPLE_G_LZ", { 0x000017, 0x000017, -1, -1 }, FF_TEX | FF_USEGRAD}, {"GATHER4_O", { -1, -1, 0x000017, 0x000017 }, FF_TEX }, {"SAMPLE_C", { 0x000018, 0x000018, 0x000018, 0x000018 }, FF_TEX }, {"SAMPLE_C_L", { 0x000019, 0x000019, 0x000019, 0x000019 }, FF_TEX }, {"SAMPLE_C_LB", { 0x00001A, 0x00001A, 0x00001A, 0x00001A }, FF_TEX }, {"SAMPLE_C_LZ", { 0x00001B, 0x00001B, 0x00001B, 0x00001B }, FF_TEX }, {"SAMPLE_C_G", { 0x00001C, 0x00001C, 0x00001C, 0x00001C }, FF_TEX | FF_USEGRAD}, {"SAMPLE_C_G_L", { 0x00001D, 0x00001D, -1, -1 }, FF_TEX | FF_USEGRAD}, {"GATHER4_C", { -1, -1, 0x00001D, 0x00001D }, FF_TEX }, {"SAMPLE_C_G_LB", { 0x00001E, 0x00001E, 0x00001E, 0x00001E }, FF_TEX | FF_USEGRAD}, {"SAMPLE_C_G_LZ", { 0x00001F, 0x00001F, -1, -1 }, FF_TEX | FF_USEGRAD}, {"GATHER4_C_O", { -1, -1, 0x00001F, 0x00001F }, FF_TEX } }; static const struct cf_op_info cf_op_table[] = { {"NOP", { 0x00, 0x00, 0x00, 0x00 }, 0 }, {"TEX", { 0x01, 0x01, 0x01, 0x01 }, CF_CLAUSE | CF_FETCH | CF_UNCOND }, /* merged with "TC" entry */ {"VTX", { 0x02, 0x02, 0x02, -1 }, CF_CLAUSE | CF_FETCH | CF_UNCOND }, /* merged with "VC" entry */ {"VTX_TC", { 0x03, 0x03, -1, -1 }, CF_CLAUSE | CF_FETCH | CF_UNCOND }, {"GDS", { -1, -1, 0x03, 0x03 }, CF_CLAUSE | CF_FETCH | CF_UNCOND }, {"LOOP_START", { 0x04, 0x04, 0x04, 0x04 }, CF_LOOP | CF_LOOP_START }, {"LOOP_END", { 0x05, 0x05, 0x05, 0x05 }, CF_LOOP }, {"LOOP_START_DX10", { 0x06, 0x06, 0x06, 0x06 }, CF_LOOP | CF_LOOP_START }, {"LOOP_START_NO_AL", { 0x07, 0x07, 0x07, 0x07 }, CF_LOOP | CF_LOOP_START }, {"LOOP_CONTINUE", { 0x08, 0x08, 0x08, 0x08 }, CF_LOOP }, {"LOOP_BREAK", { 0x09, 0x09, 0x09, 0x09 }, CF_LOOP }, {"JUMP", { 0x0A, 0x0A, 0x0A, 0x0A }, CF_BRANCH }, {"PUSH", { 0x0B, 0x0B, 0x0B, 0x0B }, CF_BRANCH }, {"PUSH_ELSE", { 0x0C, 0x0C, -1, -1 }, CF_BRANCH }, {"ELSE", { 0x0D, 0x0D, 0x0D, 0x0D }, CF_BRANCH }, {"POP", { 0x0E, 0x0E, 0x0E, 0x0E }, CF_BRANCH }, {"POP_JUMP", { 0x0F, 0x0F, -1, -1 }, CF_BRANCH }, {"POP_PUSH", { 0x10, 0x10, -1, -1 }, CF_BRANCH }, {"POP_PUSH_ELSE", { 0x11, 0x11, -1, -1 }, CF_BRANCH }, {"CALL", { 0x12, 0x12, 0x12, 0x12 }, CF_CALL }, {"CALL_FS", { 0x13, 0x13, 0x13, 0x13 }, CF_CALL }, {"RET", { 0x14, 0x14, 0x14, 0x14 }, 0 }, {"EMIT_VERTEX", { 0x15, 0x15, 0x15, 0x15 }, CF_EMIT | CF_UNCOND }, {"EMIT_CUT_VERTEX", { 0x16, 0x16, 0x16, 0x16 }, CF_EMIT | CF_UNCOND }, {"CUT_VERTEX", { 0x17, 0x17, 0x17, 0x17 }, CF_EMIT | CF_UNCOND }, {"KILL", { 0x18, 0x18, 0x18, 0x18 }, CF_UNCOND }, {"END_PROGRAM", { 0x19, 0x19, 0x19, 0x19 }, 0 }, /* ??? "reserved" in isa docs */ {"WAIT_ACK", { -1, 0x1A, 0x1A, 0x1A }, 0 }, {"TEX_ACK", { -1, 0x1B, 0x1B, 0x1B }, CF_CLAUSE | CF_FETCH | CF_ACK | CF_UNCOND }, {"VTX_ACK", { -1, 0x1C, 0x1C, -1 }, CF_CLAUSE | CF_FETCH | CF_ACK | CF_UNCOND }, {"VTX_TC_ACK", { -1, 0x1D, -1, -1 }, CF_CLAUSE | CF_FETCH | CF_ACK | CF_UNCOND }, {"JUMPTABLE", { -1, -1, 0x1D, 0x1D }, CF_BRANCH }, {"WAVE_SYNC", { -1, -1, 0x1E, 0x1E }, 0 }, {"HALT", { -1, -1, 0x1F, 0x1F }, 0 }, {"CF_END", { -1, -1, -1, 0x20 }, 0 }, {"LDS_DEALLOC", { -1, -1, -1, 0x21 }, 0 }, {"PUSH_WQM", { -1, -1, -1, 0x22 }, CF_BRANCH }, {"POP_WQM", { -1, -1, -1, 0x23 }, CF_BRANCH }, {"ELSE_WQM", { -1, -1, -1, 0x24 }, CF_BRANCH }, {"JUMP_ANY", { -1, -1, -1, 0x25 }, CF_BRANCH }, /* ??? next 5 added from CAYMAN ISA doc, not in the original table */ {"REACTIVATE", { -1, -1, -1, 0x26 }, 0 }, {"REACTIVATE_WQM", { -1, -1, -1, 0x27 }, 0 }, {"INTERRUPT", { -1, -1, -1, 0x28 }, 0 }, {"INTERRUPT_AND_SLEEP", { -1, -1, -1, 0x29 }, 0 }, {"SET_PRIORITY", { -1, -1, -1, 0x2A }, 0 }, {"MEM_STREAM0_BUF0", { -1, -1, 0x40, 0x40 }, CF_MEM | CF_STRM }, {"MEM_STREAM0_BUF1", { -1, -1, 0x41, 0x41 }, CF_MEM | CF_STRM }, {"MEM_STREAM0_BUF2", { -1, -1, 0x42, 0x42 }, CF_MEM | CF_STRM }, {"MEM_STREAM0_BUF3", { -1, -1, 0x43, 0x43 }, CF_MEM | CF_STRM }, {"MEM_STREAM1_BUF0", { -1, -1, 0x44, 0x44 }, CF_MEM | CF_STRM }, {"MEM_STREAM1_BUF1", { -1, -1, 0x45, 0x45 }, CF_MEM | CF_STRM }, {"MEM_STREAM1_BUF2", { -1, -1, 0x46, 0x46 }, CF_MEM | CF_STRM }, {"MEM_STREAM1_BUF3", { -1, -1, 0x47, 0x47 }, CF_MEM | CF_STRM }, {"MEM_STREAM2_BUF0", { -1, -1, 0x48, 0x48 }, CF_MEM | CF_STRM }, {"MEM_STREAM2_BUF1", { -1, -1, 0x49, 0x49 }, CF_MEM | CF_STRM }, {"MEM_STREAM2_BUF2", { -1, -1, 0x4A, 0x4A }, CF_MEM | CF_STRM }, {"MEM_STREAM2_BUF3", { -1, -1, 0x4B, 0x4B }, CF_MEM | CF_STRM }, {"MEM_STREAM3_BUF0", { -1, -1, 0x4C, 0x4C }, CF_MEM | CF_STRM }, {"MEM_STREAM3_BUF1", { -1, -1, 0x4D, 0x4D }, CF_MEM | CF_STRM }, {"MEM_STREAM3_BUF2", { -1, -1, 0x4E, 0x4E }, CF_MEM | CF_STRM }, {"MEM_STREAM3_BUF3", { -1, -1, 0x4F, 0x4F }, CF_MEM | CF_STRM }, {"MEM_STREAM0", { 0x20, 0x20, -1, -1 }, CF_MEM | CF_STRM }, {"MEM_STREAM1", { 0x21, 0x21, -1, -1 }, CF_MEM | CF_STRM }, {"MEM_STREAM2", { 0x22, 0x22, -1, -1 }, CF_MEM | CF_STRM }, {"MEM_STREAM3", { 0x23, 0x23, -1, -1 }, CF_MEM | CF_STRM }, {"MEM_SCRATCH", { 0x24, 0x24, 0x50, 0x50 }, CF_MEM }, {"MEM_REDUCT", { 0x25, 0x25, -1, -1 }, CF_MEM }, {"MEM_RING", { 0x26, 0x26, 0x52, 0x52 }, CF_MEM }, {"EXPORT", { 0x27, 0x27, 0x53, 0x53 }, CF_EXP }, {"EXPORT_DONE", { 0x28, 0x28, 0x54, 0x54 }, CF_EXP }, {"MEM_EXPORT", { -1, 0x3A, 0x55, 0x55 }, CF_MEM }, {"MEM_RAT", { -1, -1, 0x56, 0x56 }, CF_MEM }, {"MEM_RAT_NOCACHE", { -1, -1, 0x57, 0x57 }, CF_MEM }, {"MEM_RING1", { -1, -1, 0x58, 0x58 }, CF_MEM }, {"MEM_RING2", { -1, -1, 0x59, 0x59 }, CF_MEM }, {"MEM_RING3", { -1, -1, 0x5A, 0x5A }, CF_MEM }, {"MEM_MEM_COMBINED", { -1, -1, 0x5B, 0x5B }, CF_MEM }, {"MEM_RAT_COMBINED_NOCACHE", { -1, -1, 0x5C, 0x5C }, CF_MEM }, {"MEM_RAT_COMBINED", { -1, -1, -1, 0x5D }, CF_MEM }, /* ??? not in cayman isa doc */ {"EXPORT_DONE_END", { -1, -1, -1, 0x5E }, CF_EXP }, /* ??? not in cayman isa doc */ {"ALU", { 0x08, 0x08, 0x08, 0x08 }, CF_CLAUSE | CF_ALU }, {"ALU_PUSH_BEFORE", { 0x09, 0x09, 0x09, 0x09 }, CF_CLAUSE | CF_ALU }, {"ALU_POP_AFTER", { 0x0A, 0x0A, 0x0A, 0x0A }, CF_CLAUSE | CF_ALU }, {"ALU_POP2_AFTER", { 0x0B, 0x0B, 0x0B, 0x0B }, CF_CLAUSE | CF_ALU }, {"ALU_EXT", { -1, -1, 0x0C, 0x0C }, CF_CLAUSE | CF_ALU | CF_ALU_EXT }, {"ALU_CONTINUE", { 0x0D, 0x0D, 0x0D, -1 }, CF_CLAUSE | CF_ALU }, {"ALU_BREAK", { 0x0E, 0x0E, 0x0E, -1 }, CF_CLAUSE | CF_ALU }, {"ALU_ELSE_AFTER", { 0x0F, 0x0F, 0x0F, 0x0F }, CF_CLAUSE | CF_ALU }, {"CF_NATIVE", { 0x00, 0x00, 0x00, 0x00 }, 0 } }; #define ALU_OP2_ADD 0 #define ALU_OP2_MUL 1 #define ALU_OP2_MUL_IEEE 2 #define ALU_OP2_MAX 3 #define ALU_OP2_MIN 4 #define ALU_OP2_MAX_DX10 5 #define ALU_OP2_MIN_DX10 6 #define ALU_OP2_SETE 7 #define ALU_OP2_SETGT 8 #define ALU_OP2_SETGE 9 #define ALU_OP2_SETNE 10 #define ALU_OP2_SETE_DX10 11 #define ALU_OP2_SETGT_DX10 12 #define ALU_OP2_SETGE_DX10 13 #define ALU_OP2_SETNE_DX10 14 #define ALU_OP1_FRACT 15 #define ALU_OP1_TRUNC 16 #define ALU_OP1_CEIL 17 #define ALU_OP1_RNDNE 18 #define ALU_OP1_FLOOR 19 #define ALU_OP2_ASHR_INT 20 #define ALU_OP2_LSHR_INT 21 #define ALU_OP2_LSHL_INT 22 #define ALU_OP1_MOV 23 #define ALU_OP0_NOP 24 #define ALU_OP2_PRED_SETGT_UINT 25 #define ALU_OP2_PRED_SETGE_UINT 26 #define ALU_OP2_PRED_SETE 27 #define ALU_OP2_PRED_SETGT 28 #define ALU_OP2_PRED_SETGE 29 #define ALU_OP2_PRED_SETNE 30 #define ALU_OP1_PRED_SET_INV 31 #define ALU_OP2_PRED_SET_POP 32 #define ALU_OP0_PRED_SET_CLR 33 #define ALU_OP1_PRED_SET_RESTORE 34 #define ALU_OP2_PRED_SETE_PUSH 35 #define ALU_OP2_PRED_SETGT_PUSH 36 #define ALU_OP2_PRED_SETGE_PUSH 37 #define ALU_OP2_PRED_SETNE_PUSH 38 #define ALU_OP2_KILLE 39 #define ALU_OP2_KILLGT 40 #define ALU_OP2_KILLGE 41 #define ALU_OP2_KILLNE 42 #define ALU_OP2_AND_INT 43 #define ALU_OP2_OR_INT 44 #define ALU_OP2_XOR_INT 45 #define ALU_OP1_NOT_INT 46 #define ALU_OP2_ADD_INT 47 #define ALU_OP2_SUB_INT 48 #define ALU_OP2_MAX_INT 49 #define ALU_OP2_MIN_INT 50 #define ALU_OP2_MAX_UINT 51 #define ALU_OP2_MIN_UINT 52 #define ALU_OP2_SETE_INT 53 #define ALU_OP2_SETGT_INT 54 #define ALU_OP2_SETGE_INT 55 #define ALU_OP2_SETNE_INT 56 #define ALU_OP2_SETGT_UINT 57 #define ALU_OP2_SETGE_UINT 58 #define ALU_OP2_KILLGT_UINT 59 #define ALU_OP2_KILLGE_UINT 60 #define ALU_OP2_PRED_SETE_INT 61 #define ALU_OP2_PRED_SETGT_INT 62 #define ALU_OP2_PRED_SETGE_INT 63 #define ALU_OP2_PRED_SETNE_INT 64 #define ALU_OP2_KILLE_INT 65 #define ALU_OP2_KILLGT_INT 66 #define ALU_OP2_KILLGE_INT 67 #define ALU_OP2_KILLNE_INT 68 #define ALU_OP2_PRED_SETE_PUSH_INT 69 #define ALU_OP2_PRED_SETGT_PUSH_INT 70 #define ALU_OP2_PRED_SETGE_PUSH_INT 71 #define ALU_OP2_PRED_SETNE_PUSH_INT 72 #define ALU_OP2_PRED_SETLT_PUSH_INT 73 #define ALU_OP2_PRED_SETLE_PUSH_INT 74 #define ALU_OP1_FLT_TO_INT 75 #define ALU_OP1_BFREV_INT 76 #define ALU_OP2_ADDC_UINT 77 #define ALU_OP2_SUBB_UINT 78 #define ALU_OP0_GROUP_BARRIER 79 #define ALU_OP0_GROUP_SEQ_BEGIN 80 #define ALU_OP0_GROUP_SEQ_END 81 #define ALU_OP2_SET_MODE 82 #define ALU_OP0_SET_CF_IDX0 83 #define ALU_OP0_SET_CF_IDX1 84 #define ALU_OP2_SET_LDS_SIZE 85 #define ALU_OP2_MUL_INT24 86 #define ALU_OP2_MULHI_INT24 87 #define ALU_OP1_FLT_TO_INT_TRUNC 88 #define ALU_OP1_EXP_IEEE 89 #define ALU_OP1_LOG_CLAMPED 90 #define ALU_OP1_LOG_IEEE 91 #define ALU_OP1_RECIP_CLAMPED 92 #define ALU_OP1_RECIP_FF 93 #define ALU_OP1_RECIP_IEEE 94 #define ALU_OP1_RECIPSQRT_CLAMPED 95 #define ALU_OP1_RECIPSQRT_FF 96 #define ALU_OP1_RECIPSQRT_IEEE 97 #define ALU_OP1_SQRT_IEEE 98 #define ALU_OP1_SIN 99 #define ALU_OP1_COS 100 #define ALU_OP2_MULLO_INT 101 #define ALU_OP2_MULHI_INT 102 #define ALU_OP2_MULLO_UINT 103 #define ALU_OP2_MULHI_UINT 104 #define ALU_OP1_RECIP_INT 105 #define ALU_OP1_RECIP_UINT 106 #define ALU_OP2_RECIP_64 107 #define ALU_OP2_RECIP_CLAMPED_64 108 #define ALU_OP2_RECIPSQRT_64 109 #define ALU_OP2_RECIPSQRT_CLAMPED_64 110 #define ALU_OP2_SQRT_64 111 #define ALU_OP1_FLT_TO_UINT 112 #define ALU_OP1_INT_TO_FLT 113 #define ALU_OP1_UINT_TO_FLT 114 #define ALU_OP2_BFM_INT 115 #define ALU_OP1_FLT32_TO_FLT16 116 #define ALU_OP1_FLT16_TO_FLT32 117 #define ALU_OP1_UBYTE0_FLT 118 #define ALU_OP1_UBYTE1_FLT 119 #define ALU_OP1_UBYTE2_FLT 120 #define ALU_OP1_UBYTE3_FLT 121 #define ALU_OP1_BCNT_INT 122 #define ALU_OP1_FFBH_UINT 123 #define ALU_OP1_FFBL_INT 124 #define ALU_OP1_FFBH_INT 125 #define ALU_OP1_FLT_TO_UINT4 126 #define ALU_OP2_DOT_IEEE 127 #define ALU_OP1_FLT_TO_INT_RPI 128 #define ALU_OP1_FLT_TO_INT_FLOOR 129 #define ALU_OP2_MULHI_UINT24 130 #define ALU_OP1_MBCNT_32HI_INT 131 #define ALU_OP1_OFFSET_TO_FLT 132 #define ALU_OP2_MUL_UINT24 133 #define ALU_OP1_BCNT_ACCUM_PREV_INT 134 #define ALU_OP1_MBCNT_32LO_ACCUM_PREV_INT 135 #define ALU_OP2_SETE_64 136 #define ALU_OP2_SETNE_64 137 #define ALU_OP2_SETGT_64 138 #define ALU_OP2_SETGE_64 139 #define ALU_OP2_MIN_64 140 #define ALU_OP2_MAX_64 141 #define ALU_OP2_DOT4 142 #define ALU_OP2_DOT4_IEEE 143 #define ALU_OP2_CUBE 144 #define ALU_OP1_MAX4 145 #define ALU_OP1_FREXP_64 146 #define ALU_OP2_LDEXP_64 147 #define ALU_OP1_FRACT_64 148 #define ALU_OP2_PRED_SETGT_64 149 #define ALU_OP2_PRED_SETE_64 150 #define ALU_OP2_PRED_SETGE_64 151 #define ALU_OP2_MUL_64 152 #define ALU_OP2_ADD_64 153 #define ALU_OP1_MOVA_INT 154 #define ALU_OP1_FLT64_TO_FLT32 155 #define ALU_OP1_FLT32_TO_FLT64 156 #define ALU_OP2_SAD_ACCUM_PREV_UINT 157 #define ALU_OP2_DOT 158 #define ALU_OP1_MUL_PREV 159 #define ALU_OP1_MUL_IEEE_PREV 160 #define ALU_OP1_ADD_PREV 161 #define ALU_OP2_MULADD_PREV 162 #define ALU_OP2_MULADD_IEEE_PREV 163 #define ALU_OP2_INTERP_XY 164 #define ALU_OP2_INTERP_ZW 165 #define ALU_OP2_INTERP_X 166 #define ALU_OP2_INTERP_Z 167 #define ALU_OP1_STORE_FLAGS 168 #define ALU_OP1_LOAD_STORE_FLAGS 169 #define ALU_OP2_LDS_1A 170 #define ALU_OP2_LDS_1A1D 171 #define ALU_OP2_LDS_2A 172 #define ALU_OP1_INTERP_LOAD_P0 173 #define ALU_OP1_INTERP_LOAD_P10 174 #define ALU_OP1_INTERP_LOAD_P20 175 #define ALU_OP3_BFE_UINT 176 #define ALU_OP3_BFE_INT 177 #define ALU_OP3_BFI_INT 178 #define ALU_OP3_FMA 179 #define ALU_OP3_MULADD_INT24 180 #define ALU_OP3_CNDNE_64 181 #define ALU_OP3_FMA_64 182 #define ALU_OP3_LERP_UINT 183 #define ALU_OP3_BIT_ALIGN_INT 184 #define ALU_OP3_BYTE_ALIGN_INT 185 #define ALU_OP3_SAD_ACCUM_UINT 186 #define ALU_OP3_SAD_ACCUM_HI_UINT 187 #define ALU_OP3_MULADD_UINT24 188 #define ALU_OP3_LDS_IDX_OP 189 #define ALU_OP3_MULADD 190 #define ALU_OP3_MULADD_M2 191 #define ALU_OP3_MULADD_M4 192 #define ALU_OP3_MULADD_D2 193 #define ALU_OP3_MULADD_IEEE 194 #define ALU_OP3_CNDE 195 #define ALU_OP3_CNDGT 196 #define ALU_OP3_CNDGE 197 #define ALU_OP3_CNDE_INT 198 #define ALU_OP3_CNDGT_INT 199 #define ALU_OP3_CNDGE_INT 200 #define ALU_OP3_MUL_LIT 201 #define ALU_OP1_MOVA 202 #define ALU_OP1_MOVA_FLOOR 203 #define ALU_OP1_MOVA_GPR_INT 204 #define ALU_OP3_MULADD_64 205 #define ALU_OP3_MULADD_64_M2 206 #define ALU_OP3_MULADD_64_M4 207 #define ALU_OP3_MULADD_64_D2 208 #define ALU_OP3_MUL_LIT_M2 209 #define ALU_OP3_MUL_LIT_M4 210 #define ALU_OP3_MUL_LIT_D2 211 #define ALU_OP3_MULADD_IEEE_M2 212 #define ALU_OP3_MULADD_IEEE_M4 213 #define ALU_OP3_MULADD_IEEE_D2 214 #define LDS_OP2_LDS_ADD 215 #define LDS_OP2_LDS_SUB 216 #define LDS_OP2_LDS_RSUB 217 #define LDS_OP2_LDS_INC 218 #define LDS_OP2_LDS_DEC 219 #define LDS_OP2_LDS_MIN_INT 220 #define LDS_OP2_LDS_MAX_INT 221 #define LDS_OP2_LDS_MIN_UINT 222 #define LDS_OP2_LDS_MAX_UINT 223 #define LDS_OP2_LDS_AND 224 #define LDS_OP2_LDS_OR 225 #define LDS_OP2_LDS_XOR 226 #define LDS_OP3_LDS_MSKOR 227 #define LDS_OP2_LDS_WRITE 228 #define LDS_OP3_LDS_WRITE_REL 229 #define LDS_OP3_LDS_WRITE2 230 #define LDS_OP3_LDS_CMP_STORE 231 #define LDS_OP3_LDS_CMP_STORE_SPF 232 #define LDS_OP2_LDS_BYTE_WRITE 233 #define LDS_OP2_LDS_SHORT_WRITE 234 #define LDS_OP2_LDS_ADD_RET 235 #define LDS_OP2_LDS_SUB_RET 236 #define LDS_OP2_LDS_RSUB_RET 237 #define LDS_OP2_LDS_INC_RET 238 #define LDS_OP2_LDS_DEC_RET 239 #define LDS_OP2_LDS_MIN_INT_RET 240 #define LDS_OP2_LDS_MAX_INT_RET 241 #define LDS_OP2_LDS_MIN_UINT_RET 242 #define LDS_OP2_LDS_MAX_UINT_RET 243 #define LDS_OP2_LDS_AND_RET 244 #define LDS_OP2_LDS_OR_RET 245 #define LDS_OP2_LDS_XOR_RET 246 #define LDS_OP3_LDS_MSKOR_RET 247 #define LDS_OP2_LDS_XCHG_RET 248 #define LDS_OP3_LDS_XCHG_REL_RET 249 #define LDS_OP3_LDS_XCHG2_RET 250 #define LDS_OP3_LDS_CMP_XCHG_RET 251 #define LDS_OP3_LDS_CMP_XCHG_SPF_RET 252 #define LDS_OP1_LDS_READ_RET 253 #define LDS_OP1_LDS_READ_REL_RET 254 #define LDS_OP2_LDS_READ2_RET 255 #define LDS_OP3_LDS_READWRITE_RET 256 #define LDS_OP1_LDS_BYTE_READ_RET 257 #define LDS_OP1_LDS_UBYTE_READ_RET 258 #define LDS_OP1_LDS_SHORT_READ_RET 259 #define LDS_OP1_LDS_USHORT_READ_RET 260 #define FETCH_OP_VFETCH 0 #define FETCH_OP_SEMFETCH 1 #define FETCH_OP_READ_SCRATCH 2 #define FETCH_OP_READ_REDUCT 3 #define FETCH_OP_READ_MEM 4 #define FETCH_OP_DS_LOCAL_WRITE 5 #define FETCH_OP_DS_LOCAL_READ 6 #define FETCH_OP_GDS_ADD 7 #define FETCH_OP_GDS_SUB 8 #define FETCH_OP_GDS_RSUB 9 #define FETCH_OP_GDS_INC 10 #define FETCH_OP_GDS_DEC 11 #define FETCH_OP_GDS_MIN_INT 12 #define FETCH_OP_GDS_MAX_INT 13 #define FETCH_OP_GDS_MIN_UINT 14 #define FETCH_OP_GDS_MAX_UINT 15 #define FETCH_OP_GDS_AND 16 #define FETCH_OP_GDS_OR 17 #define FETCH_OP_GDS_XOR 18 #define FETCH_OP_GDS_MSKOR 19 #define FETCH_OP_GDS_WRITE 20 #define FETCH_OP_GDS_WRITE_REL 21 #define FETCH_OP_GDS_WRITE2 22 #define FETCH_OP_GDS_CMP_STORE 23 #define FETCH_OP_GDS_CMP_STORE_SPF 24 #define FETCH_OP_GDS_BYTE_WRITE 25 #define FETCH_OP_GDS_SHORT_WRITE 26 #define FETCH_OP_GDS_ADD_RET 27 #define FETCH_OP_GDS_SUB_RET 28 #define FETCH_OP_GDS_RSUB_RET 29 #define FETCH_OP_GDS_INC_RET 30 #define FETCH_OP_GDS_DEC_RET 31 #define FETCH_OP_GDS_MIN_INT_RET 32 #define FETCH_OP_GDS_MAX_INT_RET 33 #define FETCH_OP_GDS_MIN_UINT_RET 34 #define FETCH_OP_GDS_MAX_UINT_RET 35 #define FETCH_OP_GDS_AND_RET 36 #define FETCH_OP_GDS_OR_RET 37 #define FETCH_OP_GDS_XOR_RET 38 #define FETCH_OP_GDS_MSKOR_RET 39 #define FETCH_OP_GDS_XCHG_RET 40 #define FETCH_OP_GDS_XCHG_REL_RET 41 #define FETCH_OP_GDS_XCHG2_RET 42 #define FETCH_OP_GDS_CMP_XCHG_RET 43 #define FETCH_OP_GDS_CMP_XCHG_SPF_RET 44 #define FETCH_OP_GDS_READ_RET 45 #define FETCH_OP_GDS_READ_REL_RET 46 #define FETCH_OP_GDS_READ2_RET 47 #define FETCH_OP_GDS_READWRITE_RET 48 #define FETCH_OP_GDS_BYTE_READ_RET 49 #define FETCH_OP_GDS_UBYTE_READ_RET 50 #define FETCH_OP_GDS_SHORT_READ_RET 51 #define FETCH_OP_GDS_USHORT_READ_RET 52 #define FETCH_OP_GDS_ATOMIC_ORDERED_ALLOC 53 #define FETCH_OP_TF_WRITE 54 #define FETCH_OP_DS_GLOBAL_WRITE 55 #define FETCH_OP_DS_GLOBAL_READ 56 #define FETCH_OP_LD 57 #define FETCH_OP_LDFPTR 58 #define FETCH_OP_GET_TEXTURE_RESINFO 59 #define FETCH_OP_GET_NUMBER_OF_SAMPLES 60 #define FETCH_OP_GET_LOD 61 #define FETCH_OP_GET_GRADIENTS_H 62 #define FETCH_OP_GET_GRADIENTS_V 63 #define FETCH_OP_GET_GRADIENTS_H_FINE 64 #define FETCH_OP_GET_GRADIENTS_V_FINE 65 #define FETCH_OP_GET_LERP 66 #define FETCH_OP_SET_TEXTURE_OFFSETS 67 #define FETCH_OP_KEEP_GRADIENTS 68 #define FETCH_OP_SET_GRADIENTS_H 69 #define FETCH_OP_SET_GRADIENTS_V 70 #define FETCH_OP_SET_GRADIENTS_H_COARSE 71 #define FETCH_OP_SET_GRADIENTS_V_COARSE 72 #define FETCH_OP_SET_GRADIENTS_H_PACKED_FINE 73 #define FETCH_OP_SET_GRADIENTS_V_PACKED_FINE 74 #define FETCH_OP_SET_GRADIENTS_H_PACKED_COARSE 75 #define FETCH_OP_SET_GRADIENTS_V_PACKED_COARSE 76 #define FETCH_OP_PASS 77 #define FETCH_OP_PASS1 78 #define FETCH_OP_PASS2 79 #define FETCH_OP_PASS3 80 #define FETCH_OP_SET_CUBEMAP_INDEX 81 #define FETCH_OP_GET_BUFFER_RESINFO 82 #define FETCH_OP_FETCH4 83 #define FETCH_OP_SAMPLE 84 #define FETCH_OP_SAMPLE_L 85 #define FETCH_OP_SAMPLE_LB 86 #define FETCH_OP_SAMPLE_LZ 87 #define FETCH_OP_SAMPLE_G 88 #define FETCH_OP_SAMPLE_G_L 89 #define FETCH_OP_GATHER4 90 #define FETCH_OP_SAMPLE_G_LB 91 #define FETCH_OP_SAMPLE_G_LZ 92 #define FETCH_OP_GATHER4_O 93 #define FETCH_OP_SAMPLE_C 94 #define FETCH_OP_SAMPLE_C_L 95 #define FETCH_OP_SAMPLE_C_LB 96 #define FETCH_OP_SAMPLE_C_LZ 97 #define FETCH_OP_SAMPLE_C_G 98 #define FETCH_OP_SAMPLE_C_G_L 99 #define FETCH_OP_GATHER4_C 100 #define FETCH_OP_SAMPLE_C_G_LB 101 #define FETCH_OP_SAMPLE_C_G_LZ 102 #define FETCH_OP_GATHER4_C_O 103 #define CF_OP_NOP 0 #define CF_OP_TEX 1 #define CF_OP_VTX 2 #define CF_OP_VTX_TC 3 #define CF_OP_GDS 4 #define CF_OP_LOOP_START 5 #define CF_OP_LOOP_END 6 #define CF_OP_LOOP_START_DX10 7 #define CF_OP_LOOP_START_NO_AL 8 #define CF_OP_LOOP_CONTINUE 9 #define CF_OP_LOOP_BREAK 10 #define CF_OP_JUMP 11 #define CF_OP_PUSH 12 #define CF_OP_PUSH_ELSE 13 #define CF_OP_ELSE 14 #define CF_OP_POP 15 #define CF_OP_POP_JUMP 16 #define CF_OP_POP_PUSH 17 #define CF_OP_POP_PUSH_ELSE 18 #define CF_OP_CALL 19 #define CF_OP_CALL_FS 20 #define CF_OP_RET 21 #define CF_OP_EMIT_VERTEX 22 #define CF_OP_EMIT_CUT_VERTEX 23 #define CF_OP_CUT_VERTEX 24 #define CF_OP_KILL 25 #define CF_OP_END_PROGRAM 26 #define CF_OP_WAIT_ACK 27 #define CF_OP_TEX_ACK 28 #define CF_OP_VTX_ACK 29 #define CF_OP_VTX_TC_ACK 30 #define CF_OP_JUMPTABLE 31 #define CF_OP_WAVE_SYNC 32 #define CF_OP_HALT 33 #define CF_OP_CF_END 34 #define CF_OP_LDS_DEALLOC 35 #define CF_OP_PUSH_WQM 36 #define CF_OP_POP_WQM 37 #define CF_OP_ELSE_WQM 38 #define CF_OP_JUMP_ANY 39 #define CF_OP_REACTIVATE 40 #define CF_OP_REACTIVATE_WQM 41 #define CF_OP_INTERRUPT 42 #define CF_OP_INTERRUPT_AND_SLEEP 43 #define CF_OP_SET_PRIORITY 44 #define CF_OP_MEM_STREAM0_BUF0 45 #define CF_OP_MEM_STREAM0_BUF1 46 #define CF_OP_MEM_STREAM0_BUF2 47 #define CF_OP_MEM_STREAM0_BUF3 48 #define CF_OP_MEM_STREAM1_BUF0 49 #define CF_OP_MEM_STREAM1_BUF1 50 #define CF_OP_MEM_STREAM1_BUF2 51 #define CF_OP_MEM_STREAM1_BUF3 52 #define CF_OP_MEM_STREAM2_BUF0 53 #define CF_OP_MEM_STREAM2_BUF1 54 #define CF_OP_MEM_STREAM2_BUF2 55 #define CF_OP_MEM_STREAM2_BUF3 56 #define CF_OP_MEM_STREAM3_BUF0 57 #define CF_OP_MEM_STREAM3_BUF1 58 #define CF_OP_MEM_STREAM3_BUF2 59 #define CF_OP_MEM_STREAM3_BUF3 60 #define CF_OP_MEM_STREAM0 61 #define CF_OP_MEM_STREAM1 62 #define CF_OP_MEM_STREAM2 63 #define CF_OP_MEM_STREAM3 64 #define CF_OP_MEM_SCRATCH 65 #define CF_OP_MEM_REDUCT 66 #define CF_OP_MEM_RING 67 #define CF_OP_EXPORT 68 #define CF_OP_EXPORT_DONE 69 #define CF_OP_MEM_EXPORT 70 #define CF_OP_MEM_RAT 71 #define CF_OP_MEM_RAT_NOCACHE 72 #define CF_OP_MEM_RING1 73 #define CF_OP_MEM_RING2 74 #define CF_OP_MEM_RING3 75 #define CF_OP_MEM_MEM_COMBINED 76 #define CF_OP_MEM_RAT_COMBINED_NOCACHE 77 #define CF_OP_MEM_RAT_COMBINED 78 #define CF_OP_EXPORT_DONE_END 79 #define CF_OP_ALU 80 #define CF_OP_ALU_PUSH_BEFORE 81 #define CF_OP_ALU_POP_AFTER 82 #define CF_OP_ALU_POP2_AFTER 83 #define CF_OP_ALU_EXT 84 #define CF_OP_ALU_CONTINUE 85 #define CF_OP_ALU_BREAK 86 #define CF_OP_ALU_ELSE_AFTER 87 /* CF_NATIVE means that r600_bytecode_cf contains pre-encoded native data */ #define CF_NATIVE 88 enum r600_chip_class { ISA_CC_R600, ISA_CC_R700, ISA_CC_EVERGREEN, ISA_CC_CAYMAN }; struct r600_isa { enum r600_chip_class hw_class; /* these arrays provide reverse mapping - opcode => table_index, * typically we don't need such lookup, unless we are decoding the native * bytecode (e.g. when reading the bytestream from llvm backend) */ unsigned *alu_op2_map; unsigned *alu_op3_map; unsigned *fetch_map; unsigned *cf_map; }; struct r600_context; int r600_isa_init(struct r600_context *ctx, struct r600_isa *isa); int r600_isa_destroy(struct r600_isa *isa); #define TABLE_SIZE(t) (sizeof(t)/sizeof(t[0])) static inline const struct alu_op_info * r600_isa_alu(unsigned op) { assert (op < TABLE_SIZE(alu_op_table)); return &alu_op_table[op]; } static inline const struct fetch_op_info * r600_isa_fetch(unsigned op) { assert (op < TABLE_SIZE(fetch_op_table)); return &fetch_op_table[op]; } static inline const struct cf_op_info * r600_isa_cf(unsigned op) { assert (op < TABLE_SIZE(cf_op_table)); return &cf_op_table[op]; } static inline unsigned r600_isa_alu_opcode(enum r600_chip_class chip_class, unsigned op) { int opc = r600_isa_alu(op)->opcode[chip_class >> 1]; assert(opc != -1); return opc; } static inline unsigned r600_isa_alu_slots(enum r600_chip_class chip_class, unsigned op) { unsigned slots = r600_isa_alu(op)->slots[chip_class]; assert(slots != 0); return slots; } static inline unsigned r600_isa_fetch_opcode(enum r600_chip_class chip_class, unsigned op) { int opc = r600_isa_fetch(op)->opcode[chip_class]; assert(opc != -1); return opc; } static inline unsigned r600_isa_cf_opcode(enum r600_chip_class chip_class, unsigned op) { int opc = r600_isa_cf(op)->opcode[chip_class]; assert(opc != -1); return opc; } static inline unsigned r600_isa_alu_by_opcode(struct r600_isa* isa, unsigned opcode, unsigned is_op3) { unsigned op; if (is_op3) { assert(isa->alu_op3_map); op = isa->alu_op3_map[opcode]; } else { assert(isa->alu_op2_map); op = isa->alu_op2_map[opcode]; } assert(op); return op - 1; } static inline unsigned r600_isa_fetch_by_opcode(struct r600_isa* isa, unsigned opcode) { unsigned op; assert(isa->fetch_map); op = isa->fetch_map[opcode]; assert(op); return op - 1; } static inline unsigned r600_isa_cf_by_opcode(struct r600_isa* isa, unsigned opcode, unsigned is_alu) { unsigned op; assert(isa->cf_map); /* using offset for CF_ALU_xxx opcodes because they overlap with other * CF opcodes (they use different encoding in hw) */ op = isa->cf_map[is_alu ? opcode + 0x80 : opcode]; assert(op); return op - 1; } #endif /* R600_ISA_H_ */