freedreno/ir3: add generic get_barycentric()

[mesa.git] / src / freedreno / ir3 / ir3_parser.y

/*
 * Copyright (c) 2013 Rob Clark <robclark@freedesktop.org>
 *
 * 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.
 */

%code requires {
#include "ir3/ir3_assembler.h"

struct ir3 * ir3_parse(struct ir3_shader_variant *v,
                struct ir3_kernel_info *k, FILE *f);
}

%{
#define YYDEBUG 0

#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <math.h>

#include "util/u_math.h"

#include "ir3/ir3.h"
#include "ir3/ir3_shader.h"
#include "ir3/instr-a3xx.h"

#include "ir3_parser.h"

/* ir3 treats the abs/neg flags as separate flags for float vs integer,
 * but in the instruction encoding they are the same thing.  Tracking
 * them separately is only for the benefit of ir3 opt passes, and not
 * required here, so just use the float versions:
 */
#define IR3_REG_ABS     IR3_REG_FABS
#define IR3_REG_NEGATE  IR3_REG_FNEG

static struct ir3_kernel_info    *info;
static struct ir3_shader_variant *variant;
/* NOTE the assembler doesn't really use the ir3_block construction
 * like the compiler does.  Everything is treated as one large block.
 * Which might happen to contain flow control.  But since we don't
 * use any of the ir3 backend passes (sched, RA, etc) this doesn't
 * really matter.
 */
static struct ir3_block          *block;   /* current shader block */
static struct ir3_instruction    *instr;   /* current instruction */

static struct {
        unsigned flags;
        unsigned repeat;
        unsigned nop;
} iflags;

static struct {
        unsigned flags;
        unsigned wrmask;
} rflags;

int ir3_yyget_lineno(void);

static struct ir3_instruction * new_instr(opc_t opc)
{
        instr = ir3_instr_create(block, opc);
        instr->flags = iflags.flags;
        instr->repeat = iflags.repeat;
        instr->nop = iflags.nop;
        instr->line = ir3_yyget_lineno();
        iflags.flags = iflags.repeat = iflags.nop = 0;
        return instr;
}

static void new_shader(void)
{
        variant->ir = ir3_create(variant->shader->compiler, variant);
        block = ir3_block_create(variant->ir);
        list_addtail(&block->node, &variant->ir->block_list);
}

static type_t parse_type(const char **type)
{
        if (!strncmp("f16", *type, 3)) {
                *type += 3;
                return TYPE_F16;
        } else if (!strncmp("f32", *type, 3)) {
                *type += 3;
                return TYPE_F32;
        } else if (!strncmp("u16", *type, 3)) {
                *type += 3;
                return TYPE_U16;
        } else if (!strncmp("u32", *type, 3)) {
                *type += 3;
                return TYPE_U32;
        } else if (!strncmp("s16", *type, 3)) {
                *type += 3;
                return TYPE_S16;
        } else if (!strncmp("s32", *type, 3)) {
                *type += 3;
                return TYPE_S32;
        } else if (!strncmp("u8", *type, 2)) {
                *type += 2;
                return TYPE_U8;
        } else if (!strncmp("s8", *type, 2)) {
                *type += 2;
                return TYPE_S8;
        } else {
                assert(0);  /* shouldn't get here */
                return ~0;
        }
}

static struct ir3_instruction * parse_type_type(struct ir3_instruction *instr,
                const char *type_type)
{
        instr->cat1.src_type = parse_type(&type_type);
        instr->cat1.dst_type = parse_type(&type_type);
        return instr;
}

static struct ir3_register * new_reg(int num, unsigned flags)
{
        struct ir3_register *reg;
        flags |= rflags.flags;
        if (num & 0x1)
                flags |= IR3_REG_HALF;
        reg = ir3_reg_create(instr, num>>1, flags);
        reg->wrmask = MAX2(1, rflags.wrmask);
        rflags.flags = rflags.wrmask = 0;
        return reg;
}

static struct ir3_register * dummy_dst(void)
{
        return new_reg(0, 0);
}

static void add_const(unsigned reg, unsigned c0, unsigned c1, unsigned c2, unsigned c3)
{
        struct ir3_const_state *const_state = ir3_const_state(variant);
        assert((reg & 0x7) == 0);
        int idx = reg >> (1 + 2); /* low bit is half vs full, next two bits are swiz */
        if (const_state->immediate_idx == const_state->immediates_size * 4) {
                const_state->immediates = rerzalloc(const_state,
                                const_state->immediates,
                                __typeof__(const_state->immediates[0]),
                                const_state->immediates_size,
                                const_state->immediates_size + 4);
                const_state->immediates_size += 4;
        }
        const_state->immediates[idx].val[0] = c0;
        const_state->immediates[idx].val[1] = c1;
        const_state->immediates[idx].val[2] = c2;
        const_state->immediates[idx].val[3] = c3;
        const_state->immediates_count = idx + 1;
        const_state->immediate_idx++;
}

static void add_sysval(unsigned reg, unsigned compmask, gl_system_value sysval)
{
        unsigned n = variant->inputs_count++;
        variant->inputs[n].regid = reg;
        variant->inputs[n].sysval = true;
        variant->inputs[n].slot = sysval;
        variant->inputs[n].compmask = compmask;
        variant->inputs[n].interpolate = INTERP_MODE_FLAT;
        variant->total_in++;
}

#ifdef YYDEBUG
int yydebug;
#endif

extern int yylex(void);
extern FILE *ir3_yyin;
void ir3_yyset_lineno(int _line_number);

int yyparse(void);

static void yyerror(const char *error)
{
        fprintf(stderr, "error at line %d: %s\n", ir3_yyget_lineno(), error);
}

struct ir3 * ir3_parse(struct ir3_shader_variant *v,
                struct ir3_kernel_info *k, FILE *f)
{
        ir3_yyset_lineno(1);
        ir3_yyin = f;
#ifdef YYDEBUG
        yydebug = 1;
#endif
        info = k;
        variant = v;
        if (yyparse()) {
                ir3_destroy(variant->ir);
                variant->ir = NULL;
        }
        return variant->ir;
}
%}

%union {
        int tok;
        int num;
        uint32_t unum;
        double flt;
        const char *str;
        struct ir3_register *reg;
        struct {
                int start;
                int num;
        } range;
        type_t type;
}

%{
#if YYDEBUG
static void print_token(FILE *file, int type, YYSTYPE value)
{
        fprintf(file, "\ntype: %d\n", type);
}

#define YYPRINT(file, type, value) print_token(file, type, value)
#endif
%}

%token <num> T_INT
%token <unum> T_HEX
%token <flt> T_FLOAT
%token <str> T_IDENTIFIER
%token <num> T_REGISTER
%token <num> T_CONSTANT

/* @ headers (@const/@sampler/@uniform/@varying) */
%token <tok> T_A_LOCALSIZE
%token <tok> T_A_CONST
%token <tok> T_A_BUF
%token <tok> T_A_INVOCATIONID
%token <tok> T_A_WGID
%token <tok> T_A_NUMWG
%token <tok> T_A_IN
%token <tok> T_A_OUT
%token <tok> T_A_TEX
/* todo, re-add @sampler/@uniform/@varying if needed someday */

/* src register flags */
%token <tok> T_ABSNEG
%token <tok> T_NEG
%token <tok> T_ABS
%token <tok> T_R

/* dst register flags */
%token <tok> T_EVEN
%token <tok> T_POS_INFINITY
%token <tok> T_EI
%token <num> T_WRMASK

/* instruction flags */
%token <tok> T_SY
%token <tok> T_SS
%token <tok> T_JP
%token <num> T_RPT
%token <tok> T_UL
%token <tok> T_NOP

/* category 0: */
%token <tok> T_OP_NOP
%token <tok> T_OP_BR
%token <tok> T_OP_JUMP
%token <tok> T_OP_CALL
%token <tok> T_OP_RET
%token <tok> T_OP_KILL
%token <tok> T_OP_END
%token <tok> T_OP_EMIT
%token <tok> T_OP_CUT
%token <tok> T_OP_CHMASK
%token <tok> T_OP_CHSH
%token <tok> T_OP_FLOW_REV

/* category 1: */
%token <tok> T_OP_MOVA
%token <tok> T_OP_MOV
%token <tok> T_OP_COV

/* category 2: */
%token <tok> T_OP_ADD_F
%token <tok> T_OP_MIN_F
%token <tok> T_OP_MAX_F
%token <tok> T_OP_MUL_F
%token <tok> T_OP_SIGN_F
%token <tok> T_OP_CMPS_F
%token <tok> T_OP_ABSNEG_F
%token <tok> T_OP_CMPV_F
%token <tok> T_OP_FLOOR_F
%token <tok> T_OP_CEIL_F
%token <tok> T_OP_RNDNE_F
%token <tok> T_OP_RNDAZ_F
%token <tok> T_OP_TRUNC_F
%token <tok> T_OP_ADD_U
%token <tok> T_OP_ADD_S
%token <tok> T_OP_SUB_U
%token <tok> T_OP_SUB_S
%token <tok> T_OP_CMPS_U
%token <tok> T_OP_CMPS_S
%token <tok> T_OP_MIN_U
%token <tok> T_OP_MIN_S
%token <tok> T_OP_MAX_U
%token <tok> T_OP_MAX_S
%token <tok> T_OP_ABSNEG_S
%token <tok> T_OP_AND_B
%token <tok> T_OP_OR_B
%token <tok> T_OP_NOT_B
%token <tok> T_OP_XOR_B
%token <tok> T_OP_CMPV_U
%token <tok> T_OP_CMPV_S
%token <tok> T_OP_MUL_U24
%token <tok> T_OP_MUL_S24
%token <tok> T_OP_MULL_U
%token <tok> T_OP_BFREV_B
%token <tok> T_OP_CLZ_S
%token <tok> T_OP_CLZ_B
%token <tok> T_OP_SHL_B
%token <tok> T_OP_SHR_B
%token <tok> T_OP_ASHR_B
%token <tok> T_OP_BARY_F
%token <tok> T_OP_MGEN_B
%token <tok> T_OP_GETBIT_B
%token <tok> T_OP_SETRM
%token <tok> T_OP_CBITS_B
%token <tok> T_OP_SHB
%token <tok> T_OP_MSAD

/* category 3: */
%token <tok> T_OP_MAD_U16
%token <tok> T_OP_MADSH_U16
%token <tok> T_OP_MAD_S16
%token <tok> T_OP_MADSH_M16
%token <tok> T_OP_MAD_U24
%token <tok> T_OP_MAD_S24
%token <tok> T_OP_MAD_F16
%token <tok> T_OP_MAD_F32
%token <tok> T_OP_SEL_B16
%token <tok> T_OP_SEL_B32
%token <tok> T_OP_SEL_S16
%token <tok> T_OP_SEL_S32
%token <tok> T_OP_SEL_F16
%token <tok> T_OP_SEL_F32
%token <tok> T_OP_SAD_S16
%token <tok> T_OP_SAD_S32

/* category 4: */
%token <tok> T_OP_RCP
%token <tok> T_OP_RSQ
%token <tok> T_OP_LOG2
%token <tok> T_OP_EXP2
%token <tok> T_OP_SIN
%token <tok> T_OP_COS
%token <tok> T_OP_SQRT
%token <tok> T_OP_HRSQ
%token <tok> T_OP_HLOG2
%token <tok> T_OP_HEXP2

/* category 5: */
%token <tok> T_OP_ISAM
%token <tok> T_OP_ISAML
%token <tok> T_OP_ISAMM
%token <tok> T_OP_SAM
%token <tok> T_OP_SAMB
%token <tok> T_OP_SAML
%token <tok> T_OP_SAMGQ
%token <tok> T_OP_GETLOD
%token <tok> T_OP_CONV
%token <tok> T_OP_CONVM
%token <tok> T_OP_GETSIZE
%token <tok> T_OP_GETBUF
%token <tok> T_OP_GETPOS
%token <tok> T_OP_GETINFO
%token <tok> T_OP_DSX
%token <tok> T_OP_DSY
%token <tok> T_OP_GATHER4R
%token <tok> T_OP_GATHER4G
%token <tok> T_OP_GATHER4B
%token <tok> T_OP_GATHER4A
%token <tok> T_OP_SAMGP0
%token <tok> T_OP_SAMGP1
%token <tok> T_OP_SAMGP2
%token <tok> T_OP_SAMGP3
%token <tok> T_OP_DSXPP_1
%token <tok> T_OP_DSYPP_1
%token <tok> T_OP_RGETPOS
%token <tok> T_OP_RGETINFO

/* category 6: */
%token <tok> T_OP_LDG
%token <tok> T_OP_LDL
%token <tok> T_OP_LDP
%token <tok> T_OP_STG
%token <tok> T_OP_STL
%token <tok> T_OP_STP
%token <tok> T_OP_LDIB
%token <tok> T_OP_G2L
%token <tok> T_OP_L2G
%token <tok> T_OP_PREFETCH
%token <tok> T_OP_LDLW
%token <tok> T_OP_STLW
%token <tok> T_OP_RESFMT
%token <tok> T_OP_RESINF
%token <tok> T_OP_ATOMIC_ADD
%token <tok> T_OP_ATOMIC_SUB
%token <tok> T_OP_ATOMIC_XCHG
%token <tok> T_OP_ATOMIC_INC
%token <tok> T_OP_ATOMIC_DEC
%token <tok> T_OP_ATOMIC_CMPXCHG
%token <tok> T_OP_ATOMIC_MIN
%token <tok> T_OP_ATOMIC_MAX
%token <tok> T_OP_ATOMIC_AND
%token <tok> T_OP_ATOMIC_OR
%token <tok> T_OP_ATOMIC_XOR
%token <tok> T_OP_LDGB
%token <tok> T_OP_STGB
%token <tok> T_OP_STIB
%token <tok> T_OP_LDC
%token <tok> T_OP_LDLV

/* type qualifiers: */
%token <tok> T_TYPE_F16
%token <tok> T_TYPE_F32
%token <tok> T_TYPE_U16
%token <tok> T_TYPE_U32
%token <tok> T_TYPE_S16
%token <tok> T_TYPE_S32
%token <tok> T_TYPE_U8
%token <tok> T_TYPE_S8

%token <tok> T_UNTYPED
%token <tok> T_TYPED

%token <tok> T_1D
%token <tok> T_2D
%token <tok> T_3D
%token <tok> T_4D

/* condition qualifiers: */
%token <tok> T_LT
%token <tok> T_LE
%token <tok> T_GT
%token <tok> T_GE
%token <tok> T_EQ
%token <tok> T_NE

%token <tok> T_S2EN
%token <tok> T_SAMP
%token <tok> T_TEX
%token <tok> T_BASE

%token <tok> T_NAN
%token <tok> T_INF
%token <num> T_A0
%token <num> T_P0
%token <str> T_CAT1_TYPE_TYPE

%type <num> integer offset
%type <flt> float
%type <reg> reg const
%type <tok> cat1_opc
%type <tok> cat2_opc_1src cat2_opc_2src_cnd cat2_opc_2src
%type <tok> cat3_opc
%type <tok> cat4_opc
%type <tok> cat5_opc cat5_samp cat5_tex cat5_type
%type <type> type
%type <unum> const_val

%error-verbose

%start shader

%%

shader:            { new_shader(); } headers instrs

headers:           
|                  header headers

header:            localsize_header
|                  const_header
|                  buf_header
|                  invocationid_header
|                  wgid_header
|                  numwg_header
|                  in_header
|                  out_header
|                  tex_header

const_val:         T_FLOAT   { $$ = fui($1); }
|                  T_INT     { $$ = $1;      }
|                  '-' T_INT { $$ = -$2;     }
|                  T_HEX     { $$ = $1;      }

localsize_header:  T_A_LOCALSIZE const_val ',' const_val ',' const_val {
                       info->local_size[0] = $2;
                       info->local_size[1] = $4;
                       info->local_size[2] = $6;
}

const_header:      T_A_CONST '(' T_CONSTANT ')' const_val ',' const_val ',' const_val ',' const_val {
                       add_const($3, $5, $7, $9, $11);
}

buf_header:        T_A_BUF const_val {
                       int idx = info->num_bufs++;
                       assert(idx < MAX_BUFS);
                       info->buf_sizes[idx] = $2;
}

invocationid_header: T_A_INVOCATIONID '(' T_REGISTER ')' {
                       assert(($3 & 0x1) == 0);  /* half-reg not allowed */
                       unsigned reg = $3 >> 1;
                       add_sysval(reg, 0x7, SYSTEM_VALUE_LOCAL_INVOCATION_ID);
}

wgid_header:       T_A_WGID '(' T_REGISTER ')' {
                       assert(($3 & 0x1) == 0);  /* half-reg not allowed */
                       unsigned reg = $3 >> 1;
                       assert(reg >= regid(48, 0)); /* must be a high reg */
                       add_sysval(reg, 0x7, SYSTEM_VALUE_WORK_GROUP_ID);
}

numwg_header:      T_A_NUMWG '(' T_CONSTANT ')' {
                       assert(($3 & 0x1) == 0);  /* half-reg not allowed */
                       unsigned reg = $3 >> 1;
                       info->numwg = reg;
                       /* reserve space in immediates for the actual value to be plugged in later: */
                       add_const($3, 0, 0, 0, 0);
}

/* Stubs for now */
in_header:         T_A_IN '(' T_REGISTER ')' T_IDENTIFIER '(' T_IDENTIFIER '=' integer ')' { }

out_header:        T_A_OUT '(' T_REGISTER ')' T_IDENTIFIER '(' T_IDENTIFIER '=' integer ')' { }

tex_header:        T_A_TEX '(' T_REGISTER ')'
                       T_IDENTIFIER '=' integer ',' /* src */
                       T_IDENTIFIER '=' integer ',' /* samp */
                       T_IDENTIFIER '=' integer ',' /* tex */
                       T_IDENTIFIER '=' integer ',' /* wrmask */
                       T_IDENTIFIER '=' integer     /* cmd */ { }

iflag:             T_SY   { iflags.flags |= IR3_INSTR_SY; }
|                  T_SS   { iflags.flags |= IR3_INSTR_SS; }
|                  T_JP   { iflags.flags |= IR3_INSTR_JP; }
|                  T_RPT  { iflags.repeat = $1; }
|                  T_UL   { iflags.flags |= IR3_INSTR_UL; }
|                  T_NOP  { iflags.nop = $1; }

iflags:
|                  iflag iflags

instrs:            instr instrs
|                  instr

instr:             iflags cat0_instr
|                  iflags cat1_instr
|                  iflags cat2_instr
|                  iflags cat3_instr
|                  iflags cat4_instr
|                  iflags cat5_instr
|                  iflags cat6_instr

cat0_src:          '!' T_P0        { instr->cat0.inv = true; instr->cat0.comp = $2 >> 1; }
|                  T_P0            { instr->cat0.comp = $1 >> 1; }

cat0_immed:        '#' integer     { instr->cat0.immed = $2; }

cat0_instr:        T_OP_NOP        { new_instr(OPC_NOP); }
|                  T_OP_BR         { new_instr(OPC_B); }    cat0_src ',' cat0_immed
|                  T_OP_JUMP       { new_instr(OPC_JUMP); }  cat0_immed
|                  T_OP_CALL       { new_instr(OPC_CALL); }  cat0_immed
|                  T_OP_RET        { new_instr(OPC_RET); }
|                  T_OP_KILL       { new_instr(OPC_KILL); }  cat0_src
|                  T_OP_END        { new_instr(OPC_END); }
|                  T_OP_EMIT       { new_instr(OPC_EMIT); }
|                  T_OP_CUT        { new_instr(OPC_CUT); }
|                  T_OP_CHMASK     { new_instr(OPC_CHMASK); }
|                  T_OP_CHSH       { new_instr(OPC_CHSH); }
|                  T_OP_FLOW_REV   { new_instr(OPC_FLOW_REV); }

cat1_opc:          T_OP_MOVA {
                       new_instr(OPC_MOV);
                       instr->cat1.src_type = TYPE_S16;
                       instr->cat1.dst_type = TYPE_S16;
}
|                  T_OP_MOV '.' T_CAT1_TYPE_TYPE {
                       parse_type_type(new_instr(OPC_MOV), $3);
}
|                  T_OP_COV '.' T_CAT1_TYPE_TYPE {
                       parse_type_type(new_instr(OPC_MOV), $3);
}

cat1_instr:        cat1_opc dst_reg ',' src_reg_or_const_or_rel_or_imm

cat2_opc_1src:     T_OP_ABSNEG_F  { new_instr(OPC_ABSNEG_F); }
|                  T_OP_ABSNEG_S  { new_instr(OPC_ABSNEG_S); }
|                  T_OP_CLZ_B     { new_instr(OPC_CLZ_B); }
|                  T_OP_CLZ_S     { new_instr(OPC_CLZ_S); }
|                  T_OP_SIGN_F    { new_instr(OPC_SIGN_F); }
|                  T_OP_FLOOR_F   { new_instr(OPC_FLOOR_F); }
|                  T_OP_CEIL_F    { new_instr(OPC_CEIL_F); }
|                  T_OP_RNDNE_F   { new_instr(OPC_RNDNE_F); }
|                  T_OP_RNDAZ_F   { new_instr(OPC_RNDAZ_F); }
|                  T_OP_TRUNC_F   { new_instr(OPC_TRUNC_F); }
|                  T_OP_NOT_B     { new_instr(OPC_NOT_B); }
|                  T_OP_BFREV_B   { new_instr(OPC_BFREV_B); }
|                  T_OP_SETRM     { new_instr(OPC_SETRM); }
|                  T_OP_CBITS_B   { new_instr(OPC_CBITS_B); }

cat2_opc_2src_cnd: T_OP_CMPS_F    { new_instr(OPC_CMPS_F); }
|                  T_OP_CMPS_U    { new_instr(OPC_CMPS_U); }
|                  T_OP_CMPS_S    { new_instr(OPC_CMPS_S); }
|                  T_OP_CMPV_F    { new_instr(OPC_CMPV_F); }
|                  T_OP_CMPV_U    { new_instr(OPC_CMPV_U); }
|                  T_OP_CMPV_S    { new_instr(OPC_CMPV_S); }

cat2_opc_2src:     T_OP_ADD_F     { new_instr(OPC_ADD_F); }
|                  T_OP_MIN_F     { new_instr(OPC_MIN_F); }
|                  T_OP_MAX_F     { new_instr(OPC_MAX_F); }
|                  T_OP_MUL_F     { new_instr(OPC_MUL_F); }
|                  T_OP_ADD_U     { new_instr(OPC_ADD_U); }
|                  T_OP_ADD_S     { new_instr(OPC_ADD_S); }
|                  T_OP_SUB_U     { new_instr(OPC_SUB_U); }
|                  T_OP_SUB_S     { new_instr(OPC_SUB_S); }
|                  T_OP_MIN_U     { new_instr(OPC_MIN_U); }
|                  T_OP_MIN_S     { new_instr(OPC_MIN_S); }
|                  T_OP_MAX_U     { new_instr(OPC_MAX_U); }
|                  T_OP_MAX_S     { new_instr(OPC_MAX_S); }
|                  T_OP_AND_B     { new_instr(OPC_AND_B); }
|                  T_OP_OR_B      { new_instr(OPC_OR_B); }
|                  T_OP_XOR_B     { new_instr(OPC_XOR_B); }
|                  T_OP_MUL_U24   { new_instr(OPC_MUL_U24); }
|                  T_OP_MUL_S24   { new_instr(OPC_MUL_S24); }
|                  T_OP_MULL_U    { new_instr(OPC_MULL_U); }
|                  T_OP_SHL_B     { new_instr(OPC_SHL_B); }
|                  T_OP_SHR_B     { new_instr(OPC_SHR_B); }
|                  T_OP_ASHR_B    { new_instr(OPC_ASHR_B); }
|                  T_OP_BARY_F    { new_instr(OPC_BARY_F); }
|                  T_OP_MGEN_B    { new_instr(OPC_MGEN_B); }
|                  T_OP_GETBIT_B  { new_instr(OPC_GETBIT_B); }
|                  T_OP_SHB       { new_instr(OPC_SHB); }
|                  T_OP_MSAD      { new_instr(OPC_MSAD); }

cond:              T_LT           { instr->cat2.condition = IR3_COND_LT; }
|                  T_LE           { instr->cat2.condition = IR3_COND_LE; }
|                  T_GT           { instr->cat2.condition = IR3_COND_GT; }
|                  T_GE           { instr->cat2.condition = IR3_COND_GE; }
|                  T_EQ           { instr->cat2.condition = IR3_COND_EQ; }
|                  T_NE           { instr->cat2.condition = IR3_COND_NE; }

cat2_instr:        cat2_opc_1src dst_reg ',' src_reg_or_const_or_rel_or_imm
|                  cat2_opc_2src_cnd '.' cond dst_reg ',' src_reg_or_const_or_rel_or_imm ',' src_reg_or_const_or_rel_or_imm
|                  cat2_opc_2src dst_reg ',' src_reg_or_const_or_rel_or_imm ',' src_reg_or_const_or_rel_or_imm

cat3_opc:          T_OP_MAD_U16   { new_instr(OPC_MAD_U16); }
|                  T_OP_MADSH_U16 { new_instr(OPC_MADSH_U16); }
|                  T_OP_MAD_S16   { new_instr(OPC_MAD_S16); }
|                  T_OP_MADSH_M16 { new_instr(OPC_MADSH_M16); }
|                  T_OP_MAD_U24   { new_instr(OPC_MAD_U24); }
|                  T_OP_MAD_S24   { new_instr(OPC_MAD_S24); }
|                  T_OP_MAD_F16   { new_instr(OPC_MAD_F16); }
|                  T_OP_MAD_F32   { new_instr(OPC_MAD_F32); }
|                  T_OP_SEL_B16   { new_instr(OPC_SEL_B16); }
|                  T_OP_SEL_B32   { new_instr(OPC_SEL_B32); }
|                  T_OP_SEL_S16   { new_instr(OPC_SEL_S16); }
|                  T_OP_SEL_S32   { new_instr(OPC_SEL_S32); }
|                  T_OP_SEL_F16   { new_instr(OPC_SEL_F16); }
|                  T_OP_SEL_F32   { new_instr(OPC_SEL_F32); }
|                  T_OP_SAD_S16   { new_instr(OPC_SAD_S16); }
|                  T_OP_SAD_S32   { new_instr(OPC_SAD_S32); }

cat3_instr:        cat3_opc dst_reg ',' src_reg_or_const_or_rel ',' src_reg_or_const ',' src_reg_or_const_or_rel

cat4_opc:          T_OP_RCP       { new_instr(OPC_RCP); }
|                  T_OP_RSQ       { new_instr(OPC_RSQ); }
|                  T_OP_LOG2      { new_instr(OPC_LOG2); }
|                  T_OP_EXP2      { new_instr(OPC_EXP2); }
|                  T_OP_SIN       { new_instr(OPC_SIN); }
|                  T_OP_COS       { new_instr(OPC_COS); }
|                  T_OP_SQRT      { new_instr(OPC_SQRT); }
|                  T_OP_HRSQ      { new_instr(OPC_HRSQ); }
|                  T_OP_HLOG2     { new_instr(OPC_HLOG2); }
|                  T_OP_HEXP2     { new_instr(OPC_HEXP2); }

cat4_instr:        cat4_opc dst_reg ',' src_reg_or_const_or_rel_or_imm

cat5_opc_dsxypp:   T_OP_DSXPP_1   { new_instr(OPC_DSXPP_1); }
|                  T_OP_DSYPP_1   { new_instr(OPC_DSYPP_1); }

cat5_opc:          T_OP_ISAM      { new_instr(OPC_ISAM); }
|                  T_OP_ISAML     { new_instr(OPC_ISAML); }
|                  T_OP_ISAMM     { new_instr(OPC_ISAMM); }
|                  T_OP_SAM       { new_instr(OPC_SAM); }
|                  T_OP_SAMB      { new_instr(OPC_SAMB); }
|                  T_OP_SAML      { new_instr(OPC_SAML); }
|                  T_OP_SAMGQ     { new_instr(OPC_SAMGQ); }
|                  T_OP_GETLOD    { new_instr(OPC_GETLOD); }
|                  T_OP_CONV      { new_instr(OPC_CONV); }
|                  T_OP_CONVM     { new_instr(OPC_CONVM); }
|                  T_OP_GETSIZE   { new_instr(OPC_GETSIZE); }
|                  T_OP_GETBUF    { new_instr(OPC_GETBUF); }
|                  T_OP_GETPOS    { new_instr(OPC_GETPOS); }
|                  T_OP_GETINFO   { new_instr(OPC_GETINFO); }
|                  T_OP_DSX       { new_instr(OPC_DSX); }
|                  T_OP_DSY       { new_instr(OPC_DSY); }
|                  T_OP_GATHER4R  { new_instr(OPC_GATHER4R); }
|                  T_OP_GATHER4G  { new_instr(OPC_GATHER4G); }
|                  T_OP_GATHER4B  { new_instr(OPC_GATHER4B); }
|                  T_OP_GATHER4A  { new_instr(OPC_GATHER4A); }
|                  T_OP_SAMGP0    { new_instr(OPC_SAMGP0); }
|                  T_OP_SAMGP1    { new_instr(OPC_SAMGP1); }
|                  T_OP_SAMGP2    { new_instr(OPC_SAMGP2); }
|                  T_OP_SAMGP3    { new_instr(OPC_SAMGP3); }
|                  T_OP_RGETPOS   { new_instr(OPC_RGETPOS); }
|                  T_OP_RGETINFO  { new_instr(OPC_RGETINFO); }

cat5_flag:         '.' T_3D       { instr->flags |= IR3_INSTR_3D; }
|                  '.' 'a'        { instr->flags |= IR3_INSTR_A; }
|                  '.' 'o'        { instr->flags |= IR3_INSTR_O; }
|                  '.' 'p'        { instr->flags |= IR3_INSTR_P; }
|                  '.' 's'        { instr->flags |= IR3_INSTR_S; }
|                  '.' T_S2EN     { instr->flags |= IR3_INSTR_S2EN; }
|                  '.' T_BASE     { instr->flags |= IR3_INSTR_B; instr->cat5.tex_base = $2; }
cat5_flags:
|                  cat5_flag cat5_flags

cat5_samp:         T_SAMP         { instr->cat5.samp = $1; }
cat5_tex:          T_TEX          { if (instr->flags & IR3_INSTR_B) instr->cat5.samp |= ($1 << 4); else instr->cat5.tex = $1; }
cat5_type:         '(' type ')'   { instr->cat5.type = $2; }

cat5_instr:        cat5_opc_dsxypp cat5_flags dst_reg ',' src_reg
|                  cat5_opc cat5_flags cat5_type dst_reg ',' src_reg ',' src_reg ',' cat5_samp ',' cat5_tex
|                  cat5_opc cat5_flags cat5_type dst_reg ',' src_reg ',' src_reg ',' cat5_samp
|                  cat5_opc cat5_flags cat5_type dst_reg ',' src_reg ',' src_reg ',' cat5_tex
|                  cat5_opc cat5_flags cat5_type dst_reg ',' src_reg ',' src_reg
|                  cat5_opc cat5_flags cat5_type dst_reg ',' src_reg ',' cat5_samp ',' cat5_tex
|                  cat5_opc cat5_flags cat5_type dst_reg ',' src_reg ',' cat5_samp
|                  cat5_opc cat5_flags cat5_type dst_reg ',' src_reg ',' cat5_tex
|                  cat5_opc cat5_flags cat5_type dst_reg ',' src_reg
|                  cat5_opc cat5_flags cat5_type dst_reg ',' cat5_samp ',' cat5_tex
|                  cat5_opc cat5_flags cat5_type dst_reg ',' cat5_samp
|                  cat5_opc cat5_flags cat5_type dst_reg ',' cat5_tex
|                  cat5_opc cat5_flags cat5_type dst_reg

cat6_typed:        '.' T_UNTYPED  { instr->cat6.typed = 0; }
|                  '.' T_TYPED    { instr->cat6.typed = 1; }

cat6_dim:          '.' T_1D  { instr->cat6.d = 1; }
|                  '.' T_2D  { instr->cat6.d = 2; }
|                  '.' T_3D  { instr->cat6.d = 3; }
|                  '.' T_4D  { instr->cat6.d = 4; }

cat6_type:         '.' type  { instr->cat6.type = $2; }
cat6_offset:       offset    { instr->cat6.src_offset = $1; }
cat6_immed:        integer   { instr->cat6.iim_val = $1; }

cat6_load:         T_OP_LDG  { new_instr(OPC_LDG); }  cat6_type dst_reg ',' 'g' '[' reg cat6_offset ']' ',' cat6_immed
|                  T_OP_LDP  { new_instr(OPC_LDP); }  cat6_type dst_reg ',' 'p' '[' reg cat6_offset ']' ',' cat6_immed
|                  T_OP_LDL  { new_instr(OPC_LDL); }  cat6_type dst_reg ',' 'l' '[' reg cat6_offset ']' ',' cat6_immed
|                  T_OP_LDLW { new_instr(OPC_LDLW); } cat6_type dst_reg ',' 'l' '[' reg cat6_offset ']' ',' cat6_immed
|                  T_OP_LDLV { new_instr(OPC_LDLV); } cat6_type dst_reg ',' 'l' '[' reg cat6_offset ']' ',' cat6_immed

// TODO some of the cat6 instructions have different syntax for a6xx..
//|                  T_OP_LDIB { new_instr(OPC_LDIB); } cat6_type dst_reg cat6_offset ',' reg ',' cat6_immed

cat6_store:        T_OP_STG  { new_instr(OPC_STG); }  cat6_type 'g' '[' dst_reg cat6_offset ']' ',' reg ',' cat6_immed
|                  T_OP_STP  { new_instr(OPC_STP); }  cat6_type 'p' '[' dst_reg cat6_offset ']' ',' reg ',' cat6_immed
|                  T_OP_STL  { new_instr(OPC_STL); }  cat6_type 'l' '[' dst_reg cat6_offset ']' ',' reg ',' cat6_immed
|                  T_OP_STLW { new_instr(OPC_STLW); } cat6_type 'l' '[' dst_reg cat6_offset ']' ',' reg ',' cat6_immed

cat6_storeib:      T_OP_STIB { new_instr(OPC_STIB); dummy_dst(); } cat6_typed cat6_dim cat6_type '.' cat6_immed'g' '[' immediate ']' '+' reg ',' reg

cat6_prefetch:     T_OP_PREFETCH { new_instr(OPC_PREFETCH); new_reg(0,0); /* dummy dst */ } 'g' '[' reg cat6_offset ']' ',' cat6_immed

cat6_atomic_l_g:   '.' 'g'  { instr->flags |= IR3_INSTR_G; }
|                  '.' 'l'  {  }

cat6_atomic:       T_OP_ATOMIC_ADD     { new_instr(OPC_ATOMIC_ADD); }    cat6_atomic_l_g cat6_type dst_reg ',' 'l' '[' reg cat6_offset ']' ',' cat6_immed
|                  T_OP_ATOMIC_SUB     { new_instr(OPC_ATOMIC_SUB); }    cat6_atomic_l_g cat6_type dst_reg ',' 'l' '[' reg cat6_offset ']' ',' cat6_immed
|                  T_OP_ATOMIC_XCHG    { new_instr(OPC_ATOMIC_XCHG); }   cat6_atomic_l_g cat6_type dst_reg ',' 'l' '[' reg cat6_offset ']' ',' cat6_immed
|                  T_OP_ATOMIC_INC     { new_instr(OPC_ATOMIC_INC); }    cat6_atomic_l_g cat6_type dst_reg ',' 'l' '[' reg cat6_offset ']' ',' cat6_immed
|                  T_OP_ATOMIC_DEC     { new_instr(OPC_ATOMIC_DEC); }    cat6_atomic_l_g cat6_type dst_reg ',' 'l' '[' reg cat6_offset ']' ',' cat6_immed
|                  T_OP_ATOMIC_CMPXCHG { new_instr(OPC_ATOMIC_CMPXCHG); }cat6_atomic_l_g cat6_type dst_reg ',' 'l' '[' reg cat6_offset ']' ',' cat6_immed
|                  T_OP_ATOMIC_MIN     { new_instr(OPC_ATOMIC_MIN); }    cat6_atomic_l_g cat6_type dst_reg ',' 'l' '[' reg cat6_offset ']' ',' cat6_immed
|                  T_OP_ATOMIC_MAX     { new_instr(OPC_ATOMIC_MAX); }    cat6_atomic_l_g cat6_type dst_reg ',' 'l' '[' reg cat6_offset ']' ',' cat6_immed
|                  T_OP_ATOMIC_AND     { new_instr(OPC_ATOMIC_AND); }    cat6_atomic_l_g cat6_type dst_reg ',' 'l' '[' reg cat6_offset ']' ',' cat6_immed
|                  T_OP_ATOMIC_OR      { new_instr(OPC_ATOMIC_OR); }     cat6_atomic_l_g cat6_type dst_reg ',' 'l' '[' reg cat6_offset ']' ',' cat6_immed
|                  T_OP_ATOMIC_XOR     { new_instr(OPC_ATOMIC_XOR); }    cat6_atomic_l_g cat6_type dst_reg ',' 'l' '[' reg cat6_offset ']' ',' cat6_immed

cat6_todo:         T_OP_G2L                 { new_instr(OPC_G2L); }
|                  T_OP_L2G                 { new_instr(OPC_L2G); }
|                  T_OP_RESFMT              { new_instr(OPC_RESFMT); }
|                  T_OP_RESINF              { new_instr(OPC_RESINFO); }
|                  T_OP_LDGB                { new_instr(OPC_LDGB); }
|                  T_OP_STGB                { new_instr(OPC_STGB); }
|                  T_OP_LDC                 { new_instr(OPC_LDC); }

cat6_instr:        cat6_load
|                  cat6_store
|                  cat6_storeib
|                  cat6_prefetch
|                  cat6_atomic
|                  cat6_todo

reg:               T_REGISTER     { $$ = new_reg($1, 0); }
|                  T_A0           { $$ = new_reg((61 << 3) + $1, IR3_REG_HALF); }
|                  T_P0           { $$ = new_reg((62 << 3) + $1, 0); }

const:             T_CONSTANT     { $$ = new_reg($1, IR3_REG_CONST); }

dst_reg_flag:      T_EVEN         { rflags.flags |= IR3_REG_EVEN; }
|                  T_POS_INFINITY { rflags.flags |= IR3_REG_POS_INF; }
|                  T_EI           { rflags.flags |= IR3_REG_EI; }
|                  T_WRMASK       { rflags.wrmask = $1; }

dst_reg_flags:     dst_reg_flag
|                  dst_reg_flag dst_reg_flags

                   /* note: destination registers are always incremented in repeat */
dst_reg:           reg                 { $1->flags |= IR3_REG_R; }
|                  dst_reg_flags reg   { $2->flags |= IR3_REG_R; }

src_reg_flag:      T_ABSNEG       { rflags.flags |= IR3_REG_ABS|IR3_REG_NEGATE; }
|                  T_NEG          { rflags.flags |= IR3_REG_NEGATE; }
|                  T_ABS          { rflags.flags |= IR3_REG_ABS; }
|                  T_R            { rflags.flags |= IR3_REG_R; }

src_reg_flags:     src_reg_flag
|                  src_reg_flag src_reg_flags

src_reg:           reg
|                  src_reg_flags reg

src_const:         const
|                  src_reg_flags const

src_reg_or_const:  src_reg
|                  src_const

src_reg_or_const_or_rel: src_reg_or_const
|                  relative

src_reg_or_const_or_rel_or_imm: src_reg_or_const_or_rel
|                  src_reg_flags immediate
|                  immediate

offset:            { $$ = 0; }
|                  '+' integer { $$ = $2; }
|                  '-' integer { $$ = -$2; }

relative:          'r' '<' T_A0 offset '>'  { new_reg(0, IR3_REG_RELATIV)->array.offset = $4; }
|                  'c' '<' T_A0 offset '>'  { new_reg(0, IR3_REG_RELATIV | IR3_REG_CONST)->array.offset = $4; }

immediate:         integer             { new_reg(0, IR3_REG_IMMED)->iim_val = $1; }
|                  '(' integer ')'     { new_reg(0, IR3_REG_IMMED)->fim_val = $2; }
|                  '(' float ')'       { new_reg(0, IR3_REG_IMMED)->fim_val = $2; }
|                  '(' T_NAN ')'       { new_reg(0, IR3_REG_IMMED)->fim_val = NAN; }
|                  '(' T_INF ')'       { new_reg(0, IR3_REG_IMMED)->fim_val = INFINITY; }

integer:           T_INT       { $$ = $1; }
|                  '-' T_INT   { $$ = -$2; }
|                  T_HEX       { $$ = $1; }
|                  '-' T_HEX   { $$ = -$2; }

float:             T_FLOAT     { $$ = $1; }
|                  '-' T_FLOAT { $$ = -$2; }

type:              T_TYPE_F16  { $$ = TYPE_F16; }
|                  T_TYPE_F32  { $$ = TYPE_F32; }
|                  T_TYPE_U16  { $$ = TYPE_U16; }
|                  T_TYPE_U32  { $$ = TYPE_U32; }
|                  T_TYPE_S16  { $$ = TYPE_S16; }
|                  T_TYPE_S32  { $$ = TYPE_S32; }
|                  T_TYPE_U8   { $$ = TYPE_U8;  }
|                  T_TYPE_S8   { $$ = TYPE_S8;  }