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/*
* Copyright 2012 Vadim Girlin <vadimgirlin@gmail.com>
*
* 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"
#ifdef __cplusplus
extern "C" {
#endif
/* 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_DST_TYPE_MASK = (3<<11),
AF_FLOAT_DST = 0,
AF_INT_DST = (1<<11),
AF_UINT_DST = (3<<11),
/* 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)),
* includes MULADDs (considering the MUL part on src0 and src1 only) */
AF_M_ASSOC = (1 << 24),
AF_PRED_PUSH = (1 << 25),
AF_ANY_PRED = (AF_PRED | AF_PRED_PUSH),
AF_CMOV = (1 << 26),
// for SETcc, PREDSETcc, ... - type of comparison
AF_CMP_TYPE_MASK = (3 << 27),
AF_FLOAT_CMP = 0,
AF_INT_CMP = (1 << 27),
AF_UINT_CMP = (3 << 27),
/* condition codes - 3 bits */
AF_CC_SHIFT = 29,
AF_CC_MASK = (7U << AF_CC_SHIFT),
AF_CC_E = (0U << AF_CC_SHIFT),
AF_CC_GT = (1U << AF_CC_SHIFT),
AF_CC_GE = (2U << AF_CC_SHIFT),
AF_CC_NE = (3U << AF_CC_SHIFT),
AF_CC_LT = (4U << AF_CC_SHIFT),
AF_CC_LE = (5U << AF_CC_SHIFT),
};
/* flags for FETCH instructions (TEX/VTX/GDS) */
enum fetch_op_flags
{
FF_GDS = (1<<0),
FF_TEX = (1<<1),
FF_SETGRAD = (1<<2),
FF_GETGRAD = (1<<3),
FF_USEGRAD = (1<<4),
FF_VTX = (1<<5),
FF_MEM = (1<<6),
FF_SET_TEXTURE_OFFSETS = (1<<7),
FF_USE_TEXTURE_OFFSETS = (1<<8),
};
/* 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_RAT = (1<<13), /* MEM_RAT* */
CF_LOOP_START = (1<<14)
};
/* 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) */
unsigned 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;
};
#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_VALID_PIXEL_MODE 87
#define CF_OP_ALU_ELSE_AFTER 88
/* CF_NATIVE means that r600_bytecode_cf contains pre-encoded native data */
#define CF_NATIVE 89
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);
extern const struct alu_op_info r600_alu_op_table[];
unsigned
r600_alu_op_table_size(void);
const struct alu_op_info *
r600_isa_alu(unsigned op);
const struct fetch_op_info *
r600_isa_fetch(unsigned op);
const struct cf_op_info *
r600_isa_cf(unsigned 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;
}
#ifdef __cplusplus
} /* extern "C" */
#endif
#endif /* R600_ISA_H_ */
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