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|
/*
* Copyright © 2016 Broadcom
*
* 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.
*/
#include <string.h>
#include "util/macros.h"
#include "broadcom/common/v3d_device_info.h"
#include "qpu_instr.h"
#ifndef QPU_MASK
#define QPU_MASK(high, low) ((((uint64_t)1<<((high)-(low)+1))-1)<<(low))
/* Using the GNU statement expression extension */
#define QPU_SET_FIELD(value, field) \
({ \
uint64_t fieldval = (uint64_t)(value) << field ## _SHIFT; \
assert((fieldval & ~ field ## _MASK) == 0); \
fieldval & field ## _MASK; \
})
#define QPU_GET_FIELD(word, field) ((uint32_t)(((word) & field ## _MASK) >> field ## _SHIFT))
#define QPU_UPDATE_FIELD(inst, value, field) \
(((inst) & ~(field ## _MASK)) | QPU_SET_FIELD(value, field))
#endif /* QPU_MASK */
#define VC5_QPU_OP_MUL_SHIFT 58
#define VC5_QPU_OP_MUL_MASK QPU_MASK(63, 58)
#define VC5_QPU_SIG_SHIFT 53
#define VC5_QPU_SIG_MASK QPU_MASK(57, 53)
# define VC5_QPU_SIG_THRSW_BIT 0x1
# define VC5_QPU_SIG_LDUNIF_BIT 0x2
# define VC5_QPU_SIG_LDTMU_BIT 0x4
# define VC5_QPU_SIG_LDVARY_BIT 0x8
#define VC5_QPU_COND_SHIFT 46
#define VC5_QPU_COND_MASK QPU_MASK(52, 46)
#define VC5_QPU_COND_SIG_MAGIC_ADDR (1 << 6)
#define VC5_QPU_MM QPU_MASK(45, 45)
#define VC5_QPU_MA QPU_MASK(44, 44)
#define V3D_QPU_WADDR_M_SHIFT 38
#define V3D_QPU_WADDR_M_MASK QPU_MASK(43, 38)
#define VC5_QPU_BRANCH_ADDR_LOW_SHIFT 35
#define VC5_QPU_BRANCH_ADDR_LOW_MASK QPU_MASK(55, 35)
#define V3D_QPU_WADDR_A_SHIFT 32
#define V3D_QPU_WADDR_A_MASK QPU_MASK(37, 32)
#define VC5_QPU_BRANCH_COND_SHIFT 32
#define VC5_QPU_BRANCH_COND_MASK QPU_MASK(34, 32)
#define VC5_QPU_BRANCH_ADDR_HIGH_SHIFT 24
#define VC5_QPU_BRANCH_ADDR_HIGH_MASK QPU_MASK(31, 24)
#define VC5_QPU_OP_ADD_SHIFT 24
#define VC5_QPU_OP_ADD_MASK QPU_MASK(31, 24)
#define VC5_QPU_MUL_B_SHIFT 21
#define VC5_QPU_MUL_B_MASK QPU_MASK(23, 21)
#define VC5_QPU_BRANCH_MSFIGN_SHIFT 21
#define VC5_QPU_BRANCH_MSFIGN_MASK QPU_MASK(22, 21)
#define VC5_QPU_MUL_A_SHIFT 18
#define VC5_QPU_MUL_A_MASK QPU_MASK(20, 18)
#define VC5_QPU_ADD_B_SHIFT 15
#define VC5_QPU_ADD_B_MASK QPU_MASK(17, 15)
#define VC5_QPU_BRANCH_BDU_SHIFT 15
#define VC5_QPU_BRANCH_BDU_MASK QPU_MASK(17, 15)
#define VC5_QPU_BRANCH_UB QPU_MASK(14, 14)
#define VC5_QPU_ADD_A_SHIFT 12
#define VC5_QPU_ADD_A_MASK QPU_MASK(14, 12)
#define VC5_QPU_BRANCH_BDI_SHIFT 12
#define VC5_QPU_BRANCH_BDI_MASK QPU_MASK(13, 12)
#define VC5_QPU_RADDR_A_SHIFT 6
#define VC5_QPU_RADDR_A_MASK QPU_MASK(11, 6)
#define VC5_QPU_RADDR_B_SHIFT 0
#define VC5_QPU_RADDR_B_MASK QPU_MASK(5, 0)
#define THRSW .thrsw = true
#define LDUNIF .ldunif = true
#define LDUNIFRF .ldunifrf = true
#define LDUNIFA .ldunifa = true
#define LDUNIFARF .ldunifarf = true
#define LDTMU .ldtmu = true
#define LDVARY .ldvary = true
#define LDVPM .ldvpm = true
#define SMIMM .small_imm = true
#define LDTLB .ldtlb = true
#define LDTLBU .ldtlbu = true
#define UCB .ucb = true
#define ROT .rotate = true
#define WRTMUC .wrtmuc = true
static const struct v3d_qpu_sig v33_sig_map[] = {
/* MISC R3 R4 R5 */
[0] = { },
[1] = { THRSW, },
[2] = { LDUNIF },
[3] = { THRSW, LDUNIF },
[4] = { LDTMU, },
[5] = { THRSW, LDTMU, },
[6] = { LDTMU, LDUNIF },
[7] = { THRSW, LDTMU, LDUNIF },
[8] = { LDVARY, },
[9] = { THRSW, LDVARY, },
[10] = { LDVARY, LDUNIF },
[11] = { THRSW, LDVARY, LDUNIF },
[12] = { LDVARY, LDTMU, },
[13] = { THRSW, LDVARY, LDTMU, },
[14] = { SMIMM, LDVARY, },
[15] = { SMIMM, },
[16] = { LDTLB, },
[17] = { LDTLBU, },
/* 18-21 reserved */
[22] = { UCB, },
[23] = { ROT, },
[24] = { LDVPM, },
[25] = { THRSW, LDVPM, },
[26] = { LDVPM, LDUNIF },
[27] = { THRSW, LDVPM, LDUNIF },
[28] = { LDVPM, LDTMU, },
[29] = { THRSW, LDVPM, LDTMU, },
[30] = { SMIMM, LDVPM, },
[31] = { SMIMM, },
};
static const struct v3d_qpu_sig v40_sig_map[] = {
/* MISC R3 R4 R5 */
[0] = { },
[1] = { THRSW, },
[2] = { LDUNIF },
[3] = { THRSW, LDUNIF },
[4] = { LDTMU, },
[5] = { THRSW, LDTMU, },
[6] = { LDTMU, LDUNIF },
[7] = { THRSW, LDTMU, LDUNIF },
[8] = { LDVARY, },
[9] = { THRSW, LDVARY, },
[10] = { LDVARY, LDUNIF },
[11] = { THRSW, LDVARY, LDUNIF },
/* 12-13 reserved */
[14] = { SMIMM, LDVARY, },
[15] = { SMIMM, },
[16] = { LDTLB, },
[17] = { LDTLBU, },
[18] = { WRTMUC },
[19] = { THRSW, WRTMUC },
[20] = { LDVARY, WRTMUC },
[21] = { THRSW, LDVARY, WRTMUC },
[22] = { UCB, },
[23] = { ROT, },
/* 24-30 reserved */
[31] = { SMIMM, LDTMU, },
};
static const struct v3d_qpu_sig v41_sig_map[] = {
/* MISC phys R5 */
[0] = { },
[1] = { THRSW, },
[2] = { LDUNIF },
[3] = { THRSW, LDUNIF },
[4] = { LDTMU, },
[5] = { THRSW, LDTMU, },
[6] = { LDTMU, LDUNIF },
[7] = { THRSW, LDTMU, LDUNIF },
[8] = { LDVARY, },
[9] = { THRSW, LDVARY, },
[10] = { LDVARY, LDUNIF },
[11] = { THRSW, LDVARY, LDUNIF },
[12] = { LDUNIFRF },
[13] = { THRSW, LDUNIFRF },
[14] = { SMIMM, LDVARY, },
[15] = { SMIMM, },
[16] = { LDTLB, },
[17] = { LDTLBU, },
[18] = { WRTMUC },
[19] = { THRSW, WRTMUC },
[20] = { LDVARY, WRTMUC },
[21] = { THRSW, LDVARY, WRTMUC },
[22] = { UCB, },
[23] = { ROT, },
/* 24-30 reserved */
[24] = { LDUNIFA},
[25] = { LDUNIFARF },
[31] = { SMIMM, LDTMU, },
};
bool
v3d_qpu_sig_unpack(const struct v3d_device_info *devinfo,
uint32_t packed_sig,
struct v3d_qpu_sig *sig)
{
if (packed_sig >= ARRAY_SIZE(v33_sig_map))
return false;
if (devinfo->ver >= 41)
*sig = v41_sig_map[packed_sig];
else if (devinfo->ver == 40)
*sig = v40_sig_map[packed_sig];
else
*sig = v33_sig_map[packed_sig];
/* Signals with zeroed unpacked contents after element 0 are reserved. */
return (packed_sig == 0 ||
memcmp(sig, &v33_sig_map[0], sizeof(*sig)) != 0);
}
bool
v3d_qpu_sig_pack(const struct v3d_device_info *devinfo,
const struct v3d_qpu_sig *sig,
uint32_t *packed_sig)
{
static const struct v3d_qpu_sig *map;
if (devinfo->ver >= 41)
map = v41_sig_map;
else if (devinfo->ver == 40)
map = v40_sig_map;
else
map = v33_sig_map;
for (int i = 0; i < ARRAY_SIZE(v33_sig_map); i++) {
if (memcmp(&map[i], sig, sizeof(*sig)) == 0) {
*packed_sig = i;
return true;
}
}
return false;
}
bool
v3d_qpu_flags_unpack(const struct v3d_device_info *devinfo,
uint32_t packed_cond,
struct v3d_qpu_flags *cond)
{
static const enum v3d_qpu_cond cond_map[4] = {
[0] = V3D_QPU_COND_IFA,
[1] = V3D_QPU_COND_IFB,
[2] = V3D_QPU_COND_IFNA,
[3] = V3D_QPU_COND_IFNB,
};
cond->ac = V3D_QPU_COND_NONE;
cond->mc = V3D_QPU_COND_NONE;
cond->apf = V3D_QPU_PF_NONE;
cond->mpf = V3D_QPU_PF_NONE;
cond->auf = V3D_QPU_UF_NONE;
cond->muf = V3D_QPU_UF_NONE;
if (packed_cond == 0) {
return true;
} else if (packed_cond >> 2 == 0) {
cond->apf = packed_cond & 0x3;
} else if (packed_cond >> 4 == 0) {
cond->auf = (packed_cond & 0xf) - 4 + V3D_QPU_UF_ANDZ;
} else if (packed_cond == 0x10) {
return false;
} else if (packed_cond >> 2 == 0x4) {
cond->mpf = packed_cond & 0x3;
} else if (packed_cond >> 4 == 0x1) {
cond->muf = (packed_cond & 0xf) - 4 + V3D_QPU_UF_ANDZ;
} else if (packed_cond >> 4 == 0x2) {
cond->ac = ((packed_cond >> 2) & 0x3) + V3D_QPU_COND_IFA;
cond->mpf = packed_cond & 0x3;
} else if (packed_cond >> 4 == 0x3) {
cond->mc = ((packed_cond >> 2) & 0x3) + V3D_QPU_COND_IFA;
cond->apf = packed_cond & 0x3;
} else if (packed_cond >> 6) {
cond->mc = cond_map[(packed_cond >> 4) & 0x3];
if (((packed_cond >> 2) & 0x3) == 0) {
cond->ac = cond_map[packed_cond & 0x3];
} else {
cond->auf = (packed_cond & 0xf) - 4 + V3D_QPU_UF_ANDZ;
}
}
return true;
}
bool
v3d_qpu_flags_pack(const struct v3d_device_info *devinfo,
const struct v3d_qpu_flags *cond,
uint32_t *packed_cond)
{
#define AC (1 << 0)
#define MC (1 << 1)
#define APF (1 << 2)
#define MPF (1 << 3)
#define AUF (1 << 4)
#define MUF (1 << 5)
static const struct {
uint8_t flags_present;
uint8_t bits;
} flags_table[] = {
{ 0, 0 },
{ APF, 0 },
{ AUF, 0 },
{ MPF, (1 << 4) },
{ MUF, (1 << 4) },
{ AC, (1 << 5) },
{ AC | MPF, (1 << 5) },
{ MC, (1 << 5) | (1 << 4) },
{ MC | APF, (1 << 5) | (1 << 4) },
{ MC | AC, (1 << 6) },
{ MC | AUF, (1 << 6) },
};
uint8_t flags_present = 0;
if (cond->ac != V3D_QPU_COND_NONE)
flags_present |= AC;
if (cond->mc != V3D_QPU_COND_NONE)
flags_present |= MC;
if (cond->apf != V3D_QPU_PF_NONE)
flags_present |= APF;
if (cond->mpf != V3D_QPU_PF_NONE)
flags_present |= MPF;
if (cond->auf != V3D_QPU_UF_NONE)
flags_present |= AUF;
if (cond->muf != V3D_QPU_UF_NONE)
flags_present |= MUF;
for (int i = 0; i < ARRAY_SIZE(flags_table); i++) {
if (flags_table[i].flags_present != flags_present)
continue;
*packed_cond = flags_table[i].bits;
*packed_cond |= cond->apf;
*packed_cond |= cond->mpf;
if (flags_present & AUF)
*packed_cond |= cond->auf - V3D_QPU_UF_ANDZ + 4;
if (flags_present & MUF)
*packed_cond |= cond->muf - V3D_QPU_UF_ANDZ + 4;
if (flags_present & AC)
*packed_cond |= (cond->ac - V3D_QPU_COND_IFA) << 2;
if (flags_present & MC) {
if (*packed_cond & (1 << 6))
*packed_cond |= (cond->mc -
V3D_QPU_COND_IFA) << 4;
else
*packed_cond |= (cond->mc -
V3D_QPU_COND_IFA) << 2;
}
return true;
}
return false;
}
/* Make a mapping of the table of opcodes in the spec. The opcode is
* determined by a combination of the opcode field, and in the case of 0 or
* 1-arg opcodes, the mux_b field as well.
*/
#define MUX_MASK(bot, top) (((1 << (top + 1)) - 1) - ((1 << (bot)) - 1))
#define ANYMUX MUX_MASK(0, 7)
struct opcode_desc {
uint8_t opcode_first;
uint8_t opcode_last;
uint8_t mux_b_mask;
uint8_t mux_a_mask;
uint8_t op;
/* 0 if it's the same across V3D versions, or a specific V3D version. */
uint8_t ver;
};
static const struct opcode_desc add_ops[] = {
/* FADD is FADDNF depending on the order of the mux_a/mux_b. */
{ 0, 47, ANYMUX, ANYMUX, V3D_QPU_A_FADD },
{ 0, 47, ANYMUX, ANYMUX, V3D_QPU_A_FADDNF },
{ 53, 55, ANYMUX, ANYMUX, V3D_QPU_A_VFPACK },
{ 56, 56, ANYMUX, ANYMUX, V3D_QPU_A_ADD },
{ 57, 59, ANYMUX, ANYMUX, V3D_QPU_A_VFPACK },
{ 60, 60, ANYMUX, ANYMUX, V3D_QPU_A_SUB },
{ 61, 63, ANYMUX, ANYMUX, V3D_QPU_A_VFPACK },
{ 64, 111, ANYMUX, ANYMUX, V3D_QPU_A_FSUB },
{ 120, 120, ANYMUX, ANYMUX, V3D_QPU_A_MIN },
{ 121, 121, ANYMUX, ANYMUX, V3D_QPU_A_MAX },
{ 122, 122, ANYMUX, ANYMUX, V3D_QPU_A_UMIN },
{ 123, 123, ANYMUX, ANYMUX, V3D_QPU_A_UMAX },
{ 124, 124, ANYMUX, ANYMUX, V3D_QPU_A_SHL },
{ 125, 125, ANYMUX, ANYMUX, V3D_QPU_A_SHR },
{ 126, 126, ANYMUX, ANYMUX, V3D_QPU_A_ASR },
{ 127, 127, ANYMUX, ANYMUX, V3D_QPU_A_ROR },
/* FMIN is instead FMAX depending on the order of the mux_a/mux_b. */
{ 128, 175, ANYMUX, ANYMUX, V3D_QPU_A_FMIN },
{ 128, 175, ANYMUX, ANYMUX, V3D_QPU_A_FMAX },
{ 176, 180, ANYMUX, ANYMUX, V3D_QPU_A_VFMIN },
{ 181, 181, ANYMUX, ANYMUX, V3D_QPU_A_AND },
{ 182, 182, ANYMUX, ANYMUX, V3D_QPU_A_OR },
{ 183, 183, ANYMUX, ANYMUX, V3D_QPU_A_XOR },
{ 184, 184, ANYMUX, ANYMUX, V3D_QPU_A_VADD },
{ 185, 185, ANYMUX, ANYMUX, V3D_QPU_A_VSUB },
{ 186, 186, 1 << 0, ANYMUX, V3D_QPU_A_NOT },
{ 186, 186, 1 << 1, ANYMUX, V3D_QPU_A_NEG },
{ 186, 186, 1 << 2, ANYMUX, V3D_QPU_A_FLAPUSH },
{ 186, 186, 1 << 3, ANYMUX, V3D_QPU_A_FLBPUSH },
{ 186, 186, 1 << 4, ANYMUX, V3D_QPU_A_FLBPOP },
{ 186, 186, 1 << 6, ANYMUX, V3D_QPU_A_SETMSF },
{ 186, 186, 1 << 7, ANYMUX, V3D_QPU_A_SETREVF },
{ 187, 187, 1 << 0, 1 << 0, V3D_QPU_A_NOP, 0 },
{ 187, 187, 1 << 0, 1 << 1, V3D_QPU_A_TIDX },
{ 187, 187, 1 << 0, 1 << 2, V3D_QPU_A_EIDX },
{ 187, 187, 1 << 0, 1 << 3, V3D_QPU_A_LR },
{ 187, 187, 1 << 0, 1 << 4, V3D_QPU_A_VFLA },
{ 187, 187, 1 << 0, 1 << 5, V3D_QPU_A_VFLNA },
{ 187, 187, 1 << 0, 1 << 6, V3D_QPU_A_VFLB },
{ 187, 187, 1 << 0, 1 << 7, V3D_QPU_A_VFLNB },
{ 187, 187, 1 << 1, MUX_MASK(0, 2), V3D_QPU_A_FXCD },
{ 187, 187, 1 << 1, 1 << 3, V3D_QPU_A_XCD },
{ 187, 187, 1 << 1, MUX_MASK(4, 6), V3D_QPU_A_FYCD },
{ 187, 187, 1 << 1, 1 << 7, V3D_QPU_A_YCD },
{ 187, 187, 1 << 2, 1 << 0, V3D_QPU_A_MSF },
{ 187, 187, 1 << 2, 1 << 1, V3D_QPU_A_REVF },
{ 187, 187, 1 << 2, 1 << 2, V3D_QPU_A_VDWWT },
{ 187, 187, 1 << 2, 1 << 5, V3D_QPU_A_TMUWT },
{ 187, 187, 1 << 2, 1 << 6, V3D_QPU_A_VPMWT },
{ 187, 187, 1 << 3, ANYMUX, V3D_QPU_A_VPMSETUP },
/* FIXME: MORE COMPLICATED */
/* { 190, 191, ANYMUX, ANYMUX, V3D_QPU_A_VFMOVABSNEGNAB }, */
{ 192, 239, ANYMUX, ANYMUX, V3D_QPU_A_FCMP },
{ 240, 244, ANYMUX, ANYMUX, V3D_QPU_A_VFMAX },
{ 245, 245, MUX_MASK(0, 2), ANYMUX, V3D_QPU_A_FROUND },
{ 245, 245, 1 << 3, ANYMUX, V3D_QPU_A_FTOIN },
{ 245, 245, MUX_MASK(4, 6), ANYMUX, V3D_QPU_A_FTRUNC },
{ 245, 245, 1 << 7, ANYMUX, V3D_QPU_A_FTOIZ },
{ 246, 246, MUX_MASK(0, 2), ANYMUX, V3D_QPU_A_FFLOOR },
{ 246, 246, 1 << 3, ANYMUX, V3D_QPU_A_FTOUZ },
{ 246, 246, MUX_MASK(4, 6), ANYMUX, V3D_QPU_A_FCEIL },
{ 246, 246, 1 << 7, ANYMUX, V3D_QPU_A_FTOC },
{ 247, 247, MUX_MASK(0, 2), ANYMUX, V3D_QPU_A_FDX },
{ 247, 247, MUX_MASK(4, 6), ANYMUX, V3D_QPU_A_FDY },
/* The stvpms are distinguished by the waddr field. */
{ 248, 248, ANYMUX, ANYMUX, V3D_QPU_A_STVPMV },
{ 248, 248, ANYMUX, ANYMUX, V3D_QPU_A_STVPMD },
{ 248, 248, ANYMUX, ANYMUX, V3D_QPU_A_STVPMP },
{ 252, 252, MUX_MASK(0, 2), ANYMUX, V3D_QPU_A_ITOF },
{ 252, 252, 1 << 3, ANYMUX, V3D_QPU_A_CLZ },
{ 252, 252, MUX_MASK(4, 6), ANYMUX, V3D_QPU_A_UTOF },
};
static const struct opcode_desc mul_ops[] = {
{ 1, 1, ANYMUX, ANYMUX, V3D_QPU_M_ADD },
{ 2, 2, ANYMUX, ANYMUX, V3D_QPU_M_SUB },
{ 3, 3, ANYMUX, ANYMUX, V3D_QPU_M_UMUL24 },
{ 4, 8, ANYMUX, ANYMUX, V3D_QPU_M_VFMUL },
{ 9, 9, ANYMUX, ANYMUX, V3D_QPU_M_SMUL24 },
{ 10, 10, ANYMUX, ANYMUX, V3D_QPU_M_MULTOP },
{ 14, 14, ANYMUX, ANYMUX, V3D_QPU_M_FMOV },
{ 15, 15, MUX_MASK(0, 3), ANYMUX, V3D_QPU_M_FMOV },
{ 15, 15, 1 << 4, 1 << 0, V3D_QPU_M_NOP, 0 },
{ 15, 15, 1 << 7, ANYMUX, V3D_QPU_M_MOV },
{ 16, 63, ANYMUX, ANYMUX, V3D_QPU_M_FMUL },
};
static const struct opcode_desc *
lookup_opcode(const struct opcode_desc *opcodes, size_t num_opcodes,
uint32_t opcode, uint32_t mux_a, uint32_t mux_b)
{
for (int i = 0; i < num_opcodes; i++) {
const struct opcode_desc *op_desc = &opcodes[i];
if (opcode < op_desc->opcode_first ||
opcode > op_desc->opcode_last)
continue;
if (!(op_desc->mux_b_mask & (1 << mux_b)))
continue;
if (!(op_desc->mux_a_mask & (1 << mux_a)))
continue;
return op_desc;
}
return NULL;
}
static bool
v3d_qpu_float32_unpack_unpack(uint32_t packed,
enum v3d_qpu_input_unpack *unpacked)
{
switch (packed) {
case 0:
*unpacked = V3D_QPU_UNPACK_ABS;
return true;
case 1:
*unpacked = V3D_QPU_UNPACK_NONE;
return true;
case 2:
*unpacked = V3D_QPU_UNPACK_L;
return true;
case 3:
*unpacked = V3D_QPU_UNPACK_H;
return true;
default:
return false;
}
}
static bool
v3d_qpu_float32_unpack_pack(enum v3d_qpu_input_unpack unpacked,
uint32_t *packed)
{
switch (unpacked) {
case V3D_QPU_UNPACK_ABS:
*packed = 0;
return true;
case V3D_QPU_UNPACK_NONE:
*packed = 1;
return true;
case V3D_QPU_UNPACK_L:
*packed = 2;
return true;
case V3D_QPU_UNPACK_H:
*packed = 3;
return true;
default:
return false;
}
}
static bool
v3d_qpu_float16_unpack_unpack(uint32_t packed,
enum v3d_qpu_input_unpack *unpacked)
{
switch (packed) {
case 0:
*unpacked = V3D_QPU_UNPACK_NONE;
return true;
case 1:
*unpacked = V3D_QPU_UNPACK_REPLICATE_32F_16;
return true;
case 2:
*unpacked = V3D_QPU_UNPACK_REPLICATE_L_16;
return true;
case 3:
*unpacked = V3D_QPU_UNPACK_REPLICATE_H_16;
return true;
case 4:
*unpacked = V3D_QPU_UNPACK_SWAP_16;
return true;
default:
return false;
}
}
static bool
v3d_qpu_float16_unpack_pack(enum v3d_qpu_input_unpack unpacked,
uint32_t *packed)
{
switch (unpacked) {
case V3D_QPU_UNPACK_NONE:
*packed = 0;
return true;
case V3D_QPU_UNPACK_REPLICATE_32F_16:
*packed = 1;
return true;
case V3D_QPU_UNPACK_REPLICATE_L_16:
*packed = 2;
return true;
case V3D_QPU_UNPACK_REPLICATE_H_16:
*packed = 3;
return true;
case V3D_QPU_UNPACK_SWAP_16:
*packed = 4;
return true;
default:
return false;
}
}
static bool
v3d_qpu_float32_pack_pack(enum v3d_qpu_input_unpack unpacked,
uint32_t *packed)
{
switch (unpacked) {
case V3D_QPU_PACK_NONE:
*packed = 0;
return true;
case V3D_QPU_PACK_L:
*packed = 1;
return true;
case V3D_QPU_PACK_H:
*packed = 2;
return true;
default:
return false;
}
}
static bool
v3d_qpu_add_unpack(const struct v3d_device_info *devinfo, uint64_t packed_inst,
struct v3d_qpu_instr *instr)
{
uint32_t op = QPU_GET_FIELD(packed_inst, VC5_QPU_OP_ADD);
uint32_t mux_a = QPU_GET_FIELD(packed_inst, VC5_QPU_ADD_A);
uint32_t mux_b = QPU_GET_FIELD(packed_inst, VC5_QPU_ADD_B);
uint32_t waddr = QPU_GET_FIELD(packed_inst, V3D_QPU_WADDR_A);
uint32_t map_op = op;
/* Some big clusters of opcodes are replicated with unpack
* flags
*/
if (map_op >= 249 && map_op <= 251)
map_op = (map_op - 249 + 245);
if (map_op >= 253 && map_op <= 255)
map_op = (map_op - 253 + 245);
const struct opcode_desc *desc =
lookup_opcode(add_ops, ARRAY_SIZE(add_ops),
map_op, mux_a, mux_b);
if (!desc)
return false;
instr->alu.add.op = desc->op;
/* FADD/FADDNF and FMIN/FMAX are determined by the orders of the
* operands.
*/
if (((op >> 2) & 3) * 8 + mux_a > (op & 3) * 8 + mux_b) {
if (instr->alu.add.op == V3D_QPU_A_FMIN)
instr->alu.add.op = V3D_QPU_A_FMAX;
if (instr->alu.add.op == V3D_QPU_A_FADD)
instr->alu.add.op = V3D_QPU_A_FADDNF;
}
/* Some QPU ops require a bit more than just basic opcode and mux a/b
* comparisons to distinguish them.
*/
switch (instr->alu.add.op) {
case V3D_QPU_A_STVPMV:
case V3D_QPU_A_STVPMD:
case V3D_QPU_A_STVPMP:
switch (waddr) {
case 0:
instr->alu.add.op = V3D_QPU_A_STVPMV;
break;
case 1:
instr->alu.add.op = V3D_QPU_A_STVPMD;
break;
case 2:
instr->alu.add.op = V3D_QPU_A_STVPMP;
break;
default:
return false;
}
break;
default:
break;
}
switch (instr->alu.add.op) {
case V3D_QPU_A_FADD:
case V3D_QPU_A_FADDNF:
case V3D_QPU_A_FSUB:
case V3D_QPU_A_FMIN:
case V3D_QPU_A_FMAX:
case V3D_QPU_A_FCMP:
instr->alu.add.output_pack = (op >> 4) & 0x3;
if (!v3d_qpu_float32_unpack_unpack((op >> 2) & 0x3,
&instr->alu.add.a_unpack)) {
return false;
}
if (!v3d_qpu_float32_unpack_unpack((op >> 0) & 0x3,
&instr->alu.add.b_unpack)) {
return false;
}
break;
case V3D_QPU_A_FFLOOR:
case V3D_QPU_A_FROUND:
case V3D_QPU_A_FTRUNC:
case V3D_QPU_A_FCEIL:
case V3D_QPU_A_FDX:
case V3D_QPU_A_FDY:
instr->alu.add.output_pack = mux_b & 0x3;
if (!v3d_qpu_float32_unpack_unpack((op >> 2) & 0x3,
&instr->alu.add.a_unpack)) {
return false;
}
break;
case V3D_QPU_A_FTOIN:
case V3D_QPU_A_FTOIZ:
case V3D_QPU_A_FTOUZ:
case V3D_QPU_A_FTOC:
instr->alu.add.output_pack = V3D_QPU_PACK_NONE;
if (!v3d_qpu_float32_unpack_unpack((op >> 2) & 0x3,
&instr->alu.add.a_unpack)) {
return false;
}
break;
case V3D_QPU_A_VFMIN:
case V3D_QPU_A_VFMAX:
if (!v3d_qpu_float16_unpack_unpack(op & 0x7,
&instr->alu.add.a_unpack)) {
return false;
}
instr->alu.add.output_pack = V3D_QPU_PACK_NONE;
instr->alu.add.b_unpack = V3D_QPU_UNPACK_NONE;
break;
default:
instr->alu.add.output_pack = V3D_QPU_PACK_NONE;
instr->alu.add.a_unpack = V3D_QPU_UNPACK_NONE;
instr->alu.add.b_unpack = V3D_QPU_UNPACK_NONE;
break;
}
instr->alu.add.a = mux_a;
instr->alu.add.b = mux_b;
instr->alu.add.waddr = QPU_GET_FIELD(packed_inst, V3D_QPU_WADDR_A);
instr->alu.add.magic_write = packed_inst & VC5_QPU_MA;
return true;
}
static bool
v3d_qpu_mul_unpack(const struct v3d_device_info *devinfo, uint64_t packed_inst,
struct v3d_qpu_instr *instr)
{
uint32_t op = QPU_GET_FIELD(packed_inst, VC5_QPU_OP_MUL);
uint32_t mux_a = QPU_GET_FIELD(packed_inst, VC5_QPU_MUL_A);
uint32_t mux_b = QPU_GET_FIELD(packed_inst, VC5_QPU_MUL_B);
{
const struct opcode_desc *desc =
lookup_opcode(mul_ops, ARRAY_SIZE(mul_ops),
op, mux_a, mux_b);
if (!desc)
return false;
instr->alu.mul.op = desc->op;
}
switch (instr->alu.mul.op) {
case V3D_QPU_M_FMUL:
instr->alu.mul.output_pack = ((op >> 4) & 0x3) - 1;
if (!v3d_qpu_float32_unpack_unpack((op >> 2) & 0x3,
&instr->alu.mul.a_unpack)) {
return false;
}
if (!v3d_qpu_float32_unpack_unpack((op >> 0) & 0x3,
&instr->alu.mul.b_unpack)) {
return false;
}
break;
case V3D_QPU_M_FMOV:
instr->alu.mul.output_pack = (((op & 1) << 1) +
((mux_b >> 2) & 1));
if (!v3d_qpu_float32_unpack_unpack(mux_b & 0x3,
&instr->alu.mul.a_unpack)) {
return false;
}
break;
case V3D_QPU_M_VFMUL:
instr->alu.mul.output_pack = V3D_QPU_PACK_NONE;
if (!v3d_qpu_float16_unpack_unpack(((op & 0x7) - 4) & 7,
&instr->alu.mul.a_unpack)) {
return false;
}
instr->alu.mul.b_unpack = V3D_QPU_UNPACK_NONE;
break;
default:
instr->alu.mul.output_pack = V3D_QPU_PACK_NONE;
instr->alu.mul.a_unpack = V3D_QPU_UNPACK_NONE;
instr->alu.mul.b_unpack = V3D_QPU_UNPACK_NONE;
break;
}
instr->alu.mul.a = mux_a;
instr->alu.mul.b = mux_b;
instr->alu.mul.waddr = QPU_GET_FIELD(packed_inst, V3D_QPU_WADDR_M);
instr->alu.mul.magic_write = packed_inst & VC5_QPU_MM;
return true;
}
static bool
v3d_qpu_add_pack(const struct v3d_device_info *devinfo,
const struct v3d_qpu_instr *instr, uint64_t *packed_instr)
{
uint32_t waddr = instr->alu.add.waddr;
uint32_t mux_a = instr->alu.add.a;
uint32_t mux_b = instr->alu.add.b;
int nsrc = v3d_qpu_add_op_num_src(instr->alu.add.op);
const struct opcode_desc *desc;
int opcode;
for (desc = add_ops; desc != &add_ops[ARRAY_SIZE(add_ops)];
desc++) {
if (desc->op == instr->alu.add.op)
break;
}
if (desc == &add_ops[ARRAY_SIZE(add_ops)])
return false;
opcode = desc->opcode_first;
/* If an operation doesn't use an arg, its mux values may be used to
* identify the operation type.
*/
if (nsrc < 2)
mux_b = ffs(desc->mux_b_mask) - 1;
if (nsrc < 1)
mux_a = ffs(desc->mux_a_mask) - 1;
switch (instr->alu.add.op) {
case V3D_QPU_A_STVPMV:
waddr = 0;
break;
case V3D_QPU_A_STVPMD:
waddr = 1;
break;
case V3D_QPU_A_STVPMP:
waddr = 2;
break;
default:
break;
}
switch (instr->alu.add.op) {
case V3D_QPU_A_FADD:
case V3D_QPU_A_FADDNF:
case V3D_QPU_A_FSUB:
case V3D_QPU_A_FMIN:
case V3D_QPU_A_FMAX:
case V3D_QPU_A_FCMP: {
uint32_t output_pack;
uint32_t a_unpack;
uint32_t b_unpack;
if (!v3d_qpu_float32_pack_pack(instr->alu.add.output_pack,
&output_pack)) {
return false;
}
opcode |= output_pack << 4;
if (!v3d_qpu_float32_unpack_pack(instr->alu.add.a_unpack,
&a_unpack)) {
return false;
}
if (!v3d_qpu_float32_unpack_pack(instr->alu.add.b_unpack,
&b_unpack)) {
return false;
}
/* These operations with commutative operands are
* distinguished by which order their operands come in.
*/
bool ordering = a_unpack * 8 + mux_a > b_unpack * 8 + mux_b;
if (((instr->alu.add.op == V3D_QPU_A_FMIN ||
instr->alu.add.op == V3D_QPU_A_FADD) && ordering) ||
((instr->alu.add.op == V3D_QPU_A_FMAX ||
instr->alu.add.op == V3D_QPU_A_FADDNF) && !ordering)) {
uint32_t temp;
temp = a_unpack;
a_unpack = b_unpack;
b_unpack = temp;
temp = mux_a;
mux_a = mux_b;
mux_b = temp;
}
opcode |= a_unpack << 2;
opcode |= b_unpack << 0;
break;
}
case V3D_QPU_A_FFLOOR:
case V3D_QPU_A_FROUND:
case V3D_QPU_A_FTRUNC:
case V3D_QPU_A_FCEIL:
case V3D_QPU_A_FDX:
case V3D_QPU_A_FDY: {
uint32_t packed;
if (!v3d_qpu_float32_pack_pack(instr->alu.add.output_pack,
&packed)) {
return false;
}
mux_b |= packed;
if (!v3d_qpu_float32_unpack_pack(instr->alu.add.a_unpack,
&packed)) {
return false;
}
if (packed == 0)
return false;
opcode |= packed << 2;
break;
}
case V3D_QPU_A_FTOIN:
case V3D_QPU_A_FTOIZ:
case V3D_QPU_A_FTOUZ:
case V3D_QPU_A_FTOC:
if (instr->alu.add.output_pack != V3D_QPU_PACK_NONE)
return false;
uint32_t packed;
if (!v3d_qpu_float32_unpack_pack(instr->alu.add.a_unpack,
&packed)) {
return false;
}
if (packed == 0)
return false;
opcode |= packed << 2;
break;
case V3D_QPU_A_VFMIN:
case V3D_QPU_A_VFMAX:
if (instr->alu.add.output_pack != V3D_QPU_PACK_NONE ||
instr->alu.add.b_unpack != V3D_QPU_UNPACK_NONE) {
return false;
}
if (!v3d_qpu_float16_unpack_pack(instr->alu.add.a_unpack,
&packed)) {
return false;
}
opcode |= packed;
break;
default:
if (instr->alu.add.op != V3D_QPU_A_NOP &&
(instr->alu.add.output_pack != V3D_QPU_PACK_NONE ||
instr->alu.add.a_unpack != V3D_QPU_UNPACK_NONE ||
instr->alu.add.b_unpack != V3D_QPU_UNPACK_NONE)) {
return false;
}
break;
}
*packed_instr |= QPU_SET_FIELD(mux_a, VC5_QPU_ADD_A);
*packed_instr |= QPU_SET_FIELD(mux_b, VC5_QPU_ADD_B);
*packed_instr |= QPU_SET_FIELD(opcode, VC5_QPU_OP_ADD);
*packed_instr |= QPU_SET_FIELD(waddr, V3D_QPU_WADDR_A);
if (instr->alu.add.magic_write)
*packed_instr |= VC5_QPU_MA;
return true;
}
static bool
v3d_qpu_mul_pack(const struct v3d_device_info *devinfo,
const struct v3d_qpu_instr *instr, uint64_t *packed_instr)
{
uint32_t mux_a = instr->alu.mul.a;
uint32_t mux_b = instr->alu.mul.b;
int nsrc = v3d_qpu_mul_op_num_src(instr->alu.mul.op);
const struct opcode_desc *desc;
for (desc = mul_ops; desc != &mul_ops[ARRAY_SIZE(mul_ops)];
desc++) {
if (desc->op == instr->alu.mul.op)
break;
}
if (desc == &mul_ops[ARRAY_SIZE(mul_ops)])
return false;
uint32_t opcode = desc->opcode_first;
/* Some opcodes have a single valid value for their mux a/b, so set
* that here. If mux a/b determine packing, it will be set below.
*/
if (nsrc < 2)
mux_b = ffs(desc->mux_b_mask) - 1;
if (nsrc < 1)
mux_a = ffs(desc->mux_a_mask) - 1;
switch (instr->alu.mul.op) {
case V3D_QPU_M_FMUL: {
uint32_t packed;
if (!v3d_qpu_float32_pack_pack(instr->alu.mul.output_pack,
&packed)) {
return false;
}
/* No need for a +1 because desc->opcode_first has a 1 in this
* field.
*/
opcode += packed << 4;
if (!v3d_qpu_float32_unpack_pack(instr->alu.mul.a_unpack,
&packed)) {
return false;
}
opcode |= packed << 2;
if (!v3d_qpu_float32_unpack_pack(instr->alu.mul.b_unpack,
&packed)) {
return false;
}
opcode |= packed << 0;
break;
}
case V3D_QPU_M_FMOV: {
uint32_t packed;
if (!v3d_qpu_float32_pack_pack(instr->alu.mul.output_pack,
&packed)) {
return false;
}
opcode |= (packed >> 1) & 1;
mux_b = (packed & 1) << 2;
if (!v3d_qpu_float32_unpack_pack(instr->alu.mul.a_unpack,
&packed)) {
return false;
}
mux_b |= packed;
break;
}
case V3D_QPU_M_VFMUL: {
uint32_t packed;
if (instr->alu.mul.output_pack != V3D_QPU_PACK_NONE)
return false;
if (!v3d_qpu_float16_unpack_pack(instr->alu.mul.a_unpack,
&packed)) {
return false;
}
if (instr->alu.mul.a_unpack == V3D_QPU_UNPACK_SWAP_16)
opcode = 8;
else
opcode |= (packed + 4) & 7;
if (instr->alu.mul.b_unpack != V3D_QPU_UNPACK_NONE)
return false;
break;
}
default:
break;
}
*packed_instr |= QPU_SET_FIELD(mux_a, VC5_QPU_MUL_A);
*packed_instr |= QPU_SET_FIELD(mux_b, VC5_QPU_MUL_B);
*packed_instr |= QPU_SET_FIELD(opcode, VC5_QPU_OP_MUL);
*packed_instr |= QPU_SET_FIELD(instr->alu.mul.waddr, V3D_QPU_WADDR_M);
if (instr->alu.mul.magic_write)
*packed_instr |= VC5_QPU_MM;
return true;
}
static bool
v3d_qpu_instr_unpack_alu(const struct v3d_device_info *devinfo,
uint64_t packed_instr,
struct v3d_qpu_instr *instr)
{
instr->type = V3D_QPU_INSTR_TYPE_ALU;
if (!v3d_qpu_sig_unpack(devinfo,
QPU_GET_FIELD(packed_instr, VC5_QPU_SIG),
&instr->sig))
return false;
uint32_t packed_cond = QPU_GET_FIELD(packed_instr, VC5_QPU_COND);
if (v3d_qpu_sig_writes_address(devinfo, &instr->sig)) {
instr->sig_addr = packed_cond & ~VC5_QPU_COND_SIG_MAGIC_ADDR;
instr->sig_magic = packed_cond & VC5_QPU_COND_SIG_MAGIC_ADDR;
instr->flags.ac = V3D_QPU_COND_NONE;
instr->flags.mc = V3D_QPU_COND_NONE;
instr->flags.apf = V3D_QPU_PF_NONE;
instr->flags.mpf = V3D_QPU_PF_NONE;
instr->flags.auf = V3D_QPU_UF_NONE;
instr->flags.muf = V3D_QPU_UF_NONE;
} else {
if (!v3d_qpu_flags_unpack(devinfo, packed_cond, &instr->flags))
return false;
}
instr->raddr_a = QPU_GET_FIELD(packed_instr, VC5_QPU_RADDR_A);
instr->raddr_b = QPU_GET_FIELD(packed_instr, VC5_QPU_RADDR_B);
if (!v3d_qpu_add_unpack(devinfo, packed_instr, instr))
return false;
if (!v3d_qpu_mul_unpack(devinfo, packed_instr, instr))
return false;
return true;
}
static bool
v3d_qpu_instr_unpack_branch(const struct v3d_device_info *devinfo,
uint64_t packed_instr,
struct v3d_qpu_instr *instr)
{
instr->type = V3D_QPU_INSTR_TYPE_BRANCH;
uint32_t cond = QPU_GET_FIELD(packed_instr, VC5_QPU_BRANCH_COND);
if (cond == 0)
instr->branch.cond = V3D_QPU_BRANCH_COND_ALWAYS;
else if (V3D_QPU_BRANCH_COND_A0 + (cond - 2) <=
V3D_QPU_BRANCH_COND_ALLNA)
instr->branch.cond = V3D_QPU_BRANCH_COND_A0 + (cond - 2);
else
return false;
uint32_t msfign = QPU_GET_FIELD(packed_instr, VC5_QPU_BRANCH_MSFIGN);
if (msfign == 3)
return false;
instr->branch.msfign = msfign;
instr->branch.bdi = QPU_GET_FIELD(packed_instr, VC5_QPU_BRANCH_BDI);
instr->branch.ub = packed_instr & VC5_QPU_BRANCH_UB;
if (instr->branch.ub) {
instr->branch.bdu = QPU_GET_FIELD(packed_instr,
VC5_QPU_BRANCH_BDU);
}
instr->branch.raddr_a = QPU_GET_FIELD(packed_instr,
VC5_QPU_RADDR_A);
instr->branch.offset = 0;
instr->branch.offset +=
QPU_GET_FIELD(packed_instr,
VC5_QPU_BRANCH_ADDR_LOW) << 3;
instr->branch.offset +=
QPU_GET_FIELD(packed_instr,
VC5_QPU_BRANCH_ADDR_HIGH) << 24;
return true;
}
bool
v3d_qpu_instr_unpack(const struct v3d_device_info *devinfo,
uint64_t packed_instr,
struct v3d_qpu_instr *instr)
{
if (QPU_GET_FIELD(packed_instr, VC5_QPU_OP_MUL) != 0) {
return v3d_qpu_instr_unpack_alu(devinfo, packed_instr, instr);
} else {
uint32_t sig = QPU_GET_FIELD(packed_instr, VC5_QPU_SIG);
if ((sig & 24) == 16) {
return v3d_qpu_instr_unpack_branch(devinfo, packed_instr,
instr);
} else {
return false;
}
}
}
static bool
v3d_qpu_instr_pack_alu(const struct v3d_device_info *devinfo,
const struct v3d_qpu_instr *instr,
uint64_t *packed_instr)
{
uint32_t sig;
if (!v3d_qpu_sig_pack(devinfo, &instr->sig, &sig))
return false;
*packed_instr |= QPU_SET_FIELD(sig, VC5_QPU_SIG);
if (instr->type == V3D_QPU_INSTR_TYPE_ALU) {
*packed_instr |= QPU_SET_FIELD(instr->raddr_a, VC5_QPU_RADDR_A);
*packed_instr |= QPU_SET_FIELD(instr->raddr_b, VC5_QPU_RADDR_B);
if (!v3d_qpu_add_pack(devinfo, instr, packed_instr))
return false;
if (!v3d_qpu_mul_pack(devinfo, instr, packed_instr))
return false;
uint32_t flags;
if (v3d_qpu_sig_writes_address(devinfo, &instr->sig)) {
if (instr->flags.ac != V3D_QPU_COND_NONE ||
instr->flags.mc != V3D_QPU_COND_NONE ||
instr->flags.apf != V3D_QPU_PF_NONE ||
instr->flags.mpf != V3D_QPU_PF_NONE ||
instr->flags.auf != V3D_QPU_UF_NONE ||
instr->flags.muf != V3D_QPU_UF_NONE) {
return false;
}
flags = instr->sig_addr;
if (instr->sig_magic)
flags |= VC5_QPU_COND_SIG_MAGIC_ADDR;
} else {
if (!v3d_qpu_flags_pack(devinfo, &instr->flags, &flags))
return false;
}
*packed_instr |= QPU_SET_FIELD(flags, VC5_QPU_COND);
} else {
if (v3d_qpu_sig_writes_address(devinfo, &instr->sig))
return false;
}
return true;
}
static bool
v3d_qpu_instr_pack_branch(const struct v3d_device_info *devinfo,
const struct v3d_qpu_instr *instr,
uint64_t *packed_instr)
{
*packed_instr |= QPU_SET_FIELD(16, VC5_QPU_SIG);
if (instr->branch.cond != V3D_QPU_BRANCH_COND_ALWAYS) {
*packed_instr |= QPU_SET_FIELD(2 + (instr->branch.cond -
V3D_QPU_BRANCH_COND_A0),
VC5_QPU_BRANCH_COND);
}
*packed_instr |= QPU_SET_FIELD(instr->branch.msfign,
VC5_QPU_BRANCH_MSFIGN);
*packed_instr |= QPU_SET_FIELD(instr->branch.bdi,
VC5_QPU_BRANCH_BDI);
if (instr->branch.ub) {
*packed_instr |= VC5_QPU_BRANCH_UB;
*packed_instr |= QPU_SET_FIELD(instr->branch.bdu,
VC5_QPU_BRANCH_BDU);
}
switch (instr->branch.bdi) {
case V3D_QPU_BRANCH_DEST_ABS:
case V3D_QPU_BRANCH_DEST_REL:
*packed_instr |= QPU_SET_FIELD(instr->branch.msfign,
VC5_QPU_BRANCH_MSFIGN);
*packed_instr |= QPU_SET_FIELD((instr->branch.offset &
~0xff000000) >> 3,
VC5_QPU_BRANCH_ADDR_LOW);
*packed_instr |= QPU_SET_FIELD(instr->branch.offset >> 24,
VC5_QPU_BRANCH_ADDR_HIGH);
case V3D_QPU_BRANCH_DEST_REGFILE:
*packed_instr |= QPU_SET_FIELD(instr->branch.raddr_a,
VC5_QPU_RADDR_A);
break;
default:
break;
}
return true;
}
bool
v3d_qpu_instr_pack(const struct v3d_device_info *devinfo,
const struct v3d_qpu_instr *instr,
uint64_t *packed_instr)
{
*packed_instr = 0;
switch (instr->type) {
case V3D_QPU_INSTR_TYPE_ALU:
return v3d_qpu_instr_pack_alu(devinfo, instr, packed_instr);
case V3D_QPU_INSTR_TYPE_BRANCH:
return v3d_qpu_instr_pack_branch(devinfo, instr, packed_instr);
default:
return false;
}
}
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