/*
* Copyright(c) 2019-2021 Qualcomm Innovation Center, Inc. All Rights Reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, see .
*/
DEF_MACRO(fDUMPQ,
do {
printf(STR ":" #REG ": 0x%016llx\n",REG.ud[0]);
} while (0),
()
)
DEF_MACRO(fUSE_LOOKUP_ADDRESS_BY_REV,
PROC->arch_proc_options->mmvec_use_full_va_for_lookup,
()
)
DEF_MACRO(fUSE_LOOKUP_ADDRESS,
1,
()
)
DEF_MACRO(fNOTQ,
({mmqreg_t _ret = {0}; int _i_; for (_i_ = 0; _i_ < fVECSIZE()/64; _i_++) _ret.ud[_i_] = ~VAL.ud[_i_]; _ret;}),
()
)
DEF_MACRO(fGETQBITS,
((MASK) & (REG.w[(BITNO)>>5] >> ((BITNO) & 0x1f))),
()
)
DEF_MACRO(fGETQBIT,
fGETQBITS(REG,1,1,BITNO),
()
)
DEF_MACRO(fGENMASKW,
(((fGETQBIT(QREG,(IDX*4+0)) ? 0xFF : 0x0) << 0)
|((fGETQBIT(QREG,(IDX*4+1)) ? 0xFF : 0x0) << 8)
|((fGETQBIT(QREG,(IDX*4+2)) ? 0xFF : 0x0) << 16)
|((fGETQBIT(QREG,(IDX*4+3)) ? 0xFF : 0x0) << 24)),
()
)
DEF_MACRO(fGET10BIT,
{
COE = (((((fGETUBYTE(3,VAL) >> (2 * POS)) & 3) << 8) | fGETUBYTE(POS,VAL)) << 6);
COE >>= 6;
},
()
)
DEF_MACRO(fVMAX,
(X>Y) ? X : Y,
()
)
DEF_MACRO(fGETNIBBLE,
( fSXTN(4,8,(SRC >> (4*IDX)) & 0xF) ),
()
)
DEF_MACRO(fGETCRUMB,
( fSXTN(2,8,(SRC >> (2*IDX)) & 0x3) ),
()
)
DEF_MACRO(fGETCRUMB_SYMMETRIC,
( (fGETCRUMB(IDX,SRC)>=0 ? (2-fGETCRUMB(IDX,SRC)) : fGETCRUMB(IDX,SRC) ) ),
()
)
#define ZERO_OFFSET_2B +
DEF_MACRO(fGENMASKH,
(((fGETQBIT(QREG,(IDX*2+0)) ? 0xFF : 0x0) << 0)
|((fGETQBIT(QREG,(IDX*2+1)) ? 0xFF : 0x0) << 8)),
()
)
DEF_MACRO(fGETMASKW,
(VREG.w[IDX] & fGENMASKW((QREG),IDX)),
()
)
DEF_MACRO(fGETMASKH,
(VREG.h[IDX] & fGENMASKH((QREG),IDX)),
()
)
DEF_MACRO(fCONDMASK8,
(fGETQBIT(QREG,IDX) ? (YESVAL) : (NOVAL)),
()
)
DEF_MACRO(fCONDMASK16,
((fGENMASKH(QREG,IDX) & (YESVAL)) | (fGENMASKH(fNOTQ(QREG),IDX) & (NOVAL))),
()
)
DEF_MACRO(fCONDMASK32,
((fGENMASKW(QREG,IDX) & (YESVAL)) | (fGENMASKW(fNOTQ(QREG),IDX) & (NOVAL))),
()
)
DEF_MACRO(fSETQBITS,
do {
size4u_t __TMP = (VAL);
REG.w[(BITNO)>>5] &= ~((MASK) << ((BITNO) & 0x1f));
REG.w[(BITNO)>>5] |= (((__TMP) & (MASK)) << ((BITNO) & 0x1f));
} while (0),
()
)
DEF_MACRO(fSETQBIT,
fSETQBITS(REG,1,1,BITNO,VAL),
()
)
DEF_MACRO(fVBYTES,
(fVECSIZE()),
()
)
DEF_MACRO(fVHALVES,
(fVECSIZE()/2),
()
)
DEF_MACRO(fVWORDS,
(fVECSIZE()/4),
()
)
DEF_MACRO(fVDWORDS,
(fVECSIZE()/8),
()
)
DEF_MACRO(fVALIGN,
( ADDR = ADDR & ~(LOG2_ALIGNMENT-1)),
()
)
DEF_MACRO(fVLASTBYTE,
( ADDR = ADDR | (LOG2_ALIGNMENT-1)),
()
)
DEF_MACRO(fVELEM,
((fVECSIZE()*8)/WIDTH),
()
)
DEF_MACRO(fVECLOGSIZE,
(mmvec_current_veclogsize(thread)),
()
)
DEF_MACRO(fVECSIZE,
(1<VRegs_updated & (((VRegMask)1)<future_VRegs[VNUM] : mmvec_zero_vector()),
(A_DOTNEWVALUE,A_RESTRICT_SLOT0ONLY)
)
DEF_MACRO(
fV_AL_CHECK,
if ((EA) & (MASK)) {
warn("aligning misaligned vector. PC=%08x EA=%08x",thread->Regs[REG_PC],(EA));
},
()
)
DEF_MACRO(fSCATTER_INIT,
{
mem_vector_scatter_init(thread, insn, REGION_START, LENGTH, ELEMENT_SIZE);
if (EXCEPTION_DETECTED) return;
},
(A_STORE,A_MEMLIKE,A_RESTRICT_SLOT0ONLY)
)
DEF_MACRO(fGATHER_INIT,
{
mem_vector_gather_init(thread, insn, REGION_START, LENGTH, ELEMENT_SIZE);
if (EXCEPTION_DETECTED) return;
},
(A_LOAD,A_MEMLIKE,A_RESTRICT_SLOT1ONLY)
)
DEF_MACRO(fSCATTER_FINISH,
{
if (EXCEPTION_DETECTED) return;
mem_vector_scatter_finish(thread, insn, OP);
},
()
)
DEF_MACRO(fGATHER_FINISH,
{
if (EXCEPTION_DETECTED) return;
mem_vector_gather_finish(thread, insn);
},
()
)
DEF_MACRO(CHECK_VTCM_PAGE,
{
int slot = insn->slot;
paddr_t pa = thread->mem_access[slot].paddr+OFFSET;
pa = pa & ~(ALIGNMENT-1);
FLAG = (pa < (thread->mem_access[slot].paddr+LENGTH));
},
()
)
DEF_MACRO(COUNT_OUT_OF_BOUNDS,
{
if (!FLAG)
{
THREAD2STRUCT->vtcm_log.oob_access += SIZE;
warn("Scatter/Gather out of bounds of region");
}
},
()
)
DEF_MACRO(fLOG_SCATTER_OP,
{
// Log the size and indicate that the extension ext.c file needs to increment right before memory write
THREAD2STRUCT->vtcm_log.op = 1;
THREAD2STRUCT->vtcm_log.op_size = SIZE;
},
()
)
DEF_MACRO(fVLOG_VTCM_WORD_INCREMENT,
{
int slot = insn->slot;
int log_bank = 0;
int log_byte =0;
paddr_t pa = thread->mem_access[slot].paddr+(OFFSET & ~(ALIGNMENT-1));
paddr_t pa_high = thread->mem_access[slot].paddr+LEN;
for(int i0 = 0; i0 < 4; i0++)
{
log_byte = ((OFFSET>=0)&&((pa+i0)<=pa_high));
log_bank |= (log_byte<slot;
int log_bank = 0;
int log_byte = 0;
paddr_t pa = thread->mem_access[slot].paddr+(OFFSET & ~(ALIGNMENT-1));
paddr_t pa_high = thread->mem_access[slot].paddr+LEN;
for(int i0 = 0; i0 < 2; i0++) {
log_byte = ((OFFSET>=0)&&((pa+i0)<=pa_high));
log_bank |= (log_byte<slot;
int log_bank = 0;
int log_byte = 0;
paddr_t pa = thread->mem_access[slot].paddr+(OFFSET & ~(ALIGNMENT-1));
paddr_t pa_high = thread->mem_access[slot].paddr+LEN;
for(int i0 = 0; i0 < 2; i0++) {
log_byte = ((OFFSET>=0)&&((pa+i0)<=pa_high));
log_bank |= (log_byte<slot;
int i0;
paddr_t pa = thread->mem_access[slot].paddr+OFFSET;
paddr_t pa_high = thread->mem_access[slot].paddr+LEN;
int log_bank = 0;
int log_byte = 0;
for(i0 = 0; i0 < ELEMENT_SIZE; i0++)
{
log_byte = ((OFFSET>=0)&&((pa+i0)<=pa_high)) && QVAL;
log_bank |= (log_byte<system_ptr, thread->threadId, thread->mem_access[slot].paddr+OFFSET+i0);
THREAD2STRUCT->tmp_VRegs[0].ub[ELEMENT_SIZE*IDX+i0] = B;
LOG_VTCM_BYTE(pa+i0,log_byte,B,ELEMENT_SIZE*IDX+i0);
}
LOG_VTCM_BANK(pa, log_bank,BANK_IDX);
},
()
)
DEF_MACRO(fVLOG_VTCM_GATHER_WORD,
{
GATHER_FUNCTION(EA,OFFSET,IDX, LEN, 4, IDX, 1);
},
()
)
DEF_MACRO(fVLOG_VTCM_GATHER_HALFWORD,
{
GATHER_FUNCTION(EA,OFFSET,IDX, LEN, 2, IDX, 1);
},
()
)
DEF_MACRO(fVLOG_VTCM_GATHER_HALFWORD_DV,
{
GATHER_FUNCTION(EA,OFFSET,IDX, LEN, 2, (2*IDX2+IDX_H), 1);
},
()
)
DEF_MACRO(fVLOG_VTCM_GATHER_WORDQ,
{
GATHER_FUNCTION(EA,OFFSET,IDX, LEN, 4, IDX, fGETQBIT(QsV,4*IDX+i0));
},
()
)
DEF_MACRO(fVLOG_VTCM_GATHER_HALFWORDQ,
{
GATHER_FUNCTION(EA,OFFSET,IDX, LEN, 2, IDX, fGETQBIT(QsV,2*IDX+i0));
},
()
)
DEF_MACRO(fVLOG_VTCM_GATHER_HALFWORDQ_DV,
{
GATHER_FUNCTION(EA,OFFSET,IDX, LEN, 2, (2*IDX2+IDX_H), fGETQBIT(QsV,2*IDX+i0));
},
()
)
DEF_MACRO(DEBUG_LOG_ADDR,
{
if (thread->processor_ptr->arch_proc_options->mmvec_network_addr_log2)
{
int slot = insn->slot;
paddr_t pa = thread->mem_access[slot].paddr+OFFSET;
}
},
()
)
DEF_MACRO(SCATTER_OP_WRITE_TO_MEM,
{
for (int i = 0; i < mmvecx->vtcm_log.size; i+=sizeof(TYPE))
{
if ( mmvecx->vtcm_log.mask.ub[i] != 0) {
TYPE dst = 0;
TYPE inc = 0;
for(int j = 0; j < sizeof(TYPE); j++) {
dst |= (sim_mem_read1(thread->system_ptr, thread->threadId, mmvecx->vtcm_log.pa[i+j]) << (8*j));
inc |= mmvecx->vtcm_log.data.ub[j+i] << (8*j);
mmvecx->vtcm_log.mask.ub[j+i] = 0;
mmvecx->vtcm_log.data.ub[j+i] = 0;
mmvecx->vtcm_log.offsets.ub[j+i] = 0;
}
dst += inc;
for(int j = 0; j < sizeof(TYPE); j++) {
sim_mem_write1(thread->system_ptr,thread->threadId, mmvecx->vtcm_log.pa[i+j], (dst >> (8*j))& 0xFF );
}
}
}
},
()
)
DEF_MACRO(SCATTER_FUNCTION,
{
int slot = insn->slot;
int i0;
paddr_t pa = thread->mem_access[slot].paddr+OFFSET;
paddr_t pa_high = thread->mem_access[slot].paddr+LEN;
int log_bank = 0;
int log_byte = 0;
for(i0 = 0; i0 < ELEMENT_SIZE; i0++) {
log_byte = ((OFFSET>=0)&&((pa+i0)<=pa_high)) && QVAL;
log_bank |= (log_byte<processor_ptr));
},
(A_STORE,A_MEMLIKE)
)
DEF_MACRO(fVFETCH_AL,
{
fV_AL_CHECK(EA,fVECSIZE()-1);
mem_fetch_vector(thread, insn, EA&~(fVECSIZE()-1), insn->slot, fVECSIZE());
},
(A_LOAD,A_MEMLIKE)
)
DEF_MACRO(fLOADMMV_AL,
{
fV_AL_CHECK(EA,ALIGNMENT-1);
thread->last_pkt->double_access_vec = 0;
mem_load_vector_oddva(thread, insn, EA&~(ALIGNMENT-1), EA, insn->slot, LEN, &DST.ub[0], LEN, fUSE_LOOKUP_ADDRESS_BY_REV(thread->processor_ptr));
},
(A_LOAD,A_MEMLIKE)
)
DEF_MACRO(fLOADMMV,
fLOADMMV_AL(EA,fVECSIZE(),fVECSIZE(),DST),
()
)
DEF_MACRO(fLOADMMVQ,
do {
int __i;
fLOADMMV_AL(EA,fVECSIZE(),fVECSIZE(),DST);
fVFOREACH(8,__i) if (!fGETQBIT(QVAL,__i)) DST.b[__i] = 0;
} while (0),
()
)
DEF_MACRO(fLOADMMVNQ,
do {
int __i;
fLOADMMV_AL(EA,fVECSIZE(),fVECSIZE(),DST);
fVFOREACH(8,__i) if (fGETQBIT(QVAL,__i)) DST.b[__i] = 0;
} while (0),
()
)
DEF_MACRO(fLOADMMVU_AL,
{
size4u_t size2 = (EA)&(ALIGNMENT-1);
size4u_t size1 = LEN-size2;
thread->last_pkt->double_access_vec = 1;
mem_load_vector_oddva(thread, insn, EA+size1, EA+fVECSIZE(), /* slot */ 1, size2, &DST.ub[size1], size2, fUSE_LOOKUP_ADDRESS());
mem_load_vector_oddva(thread, insn, EA, EA,/* slot */ 0, size1, &DST.ub[0], size1, fUSE_LOOKUP_ADDRESS_BY_REV(thread->processor_ptr));
},
(A_LOAD,A_MEMLIKE)
)
DEF_MACRO(fLOADMMVU,
{
/* if address happens to be aligned, only do aligned load */
thread->last_pkt->pkt_has_vtcm_access = 0;
thread->last_pkt->pkt_access_count = 0;
if ( (EA & (fVECSIZE()-1)) == 0) {
thread->last_pkt->pkt_has_vmemu_access = 0;
thread->last_pkt->double_access = 0;
fLOADMMV_AL(EA,fVECSIZE(),fVECSIZE(),DST);
} else {
thread->last_pkt->pkt_has_vmemu_access = 1;
thread->last_pkt->double_access = 1;
fLOADMMVU_AL(EA,fVECSIZE(),fVECSIZE(),DST);
}
},
()
)
DEF_MACRO(fSTOREMMV_AL,
{
fV_AL_CHECK(EA,ALIGNMENT-1);
mem_store_vector_oddva(thread, insn, EA&~(ALIGNMENT-1), EA, insn->slot, LEN, &SRC.ub[0], 0, 0, fUSE_LOOKUP_ADDRESS_BY_REV(thread->processor_ptr));
},
(A_STORE,A_MEMLIKE)
)
DEF_MACRO(fSTOREMMV,
fSTOREMMV_AL(EA,fVECSIZE(),fVECSIZE(),SRC),
()
)
DEF_MACRO(fSTOREMMVQ_AL,
do {
mmvector_t maskvec;
int i;
for (i = 0; i < fVECSIZE(); i++) maskvec.ub[i] = fGETQBIT(MASK,i);
mem_store_vector_oddva(thread, insn, EA&~(ALIGNMENT-1), EA, insn->slot, LEN, &SRC.ub[0], &maskvec.ub[0], 0, fUSE_LOOKUP_ADDRESS_BY_REV(thread->processor_ptr));
} while (0),
(A_STORE,A_MEMLIKE)
)
DEF_MACRO(fSTOREMMVQ,
fSTOREMMVQ_AL(EA,fVECSIZE(),fVECSIZE(),SRC,MASK),
()
)
DEF_MACRO(fSTOREMMVNQ_AL,
{
mmvector_t maskvec;
int i;
for (i = 0; i < fVECSIZE(); i++) maskvec.ub[i] = fGETQBIT(MASK,i);
fV_AL_CHECK(EA,ALIGNMENT-1);
mem_store_vector_oddva(thread, insn, EA&~(ALIGNMENT-1), EA, insn->slot, LEN, &SRC.ub[0], &maskvec.ub[0], 1, fUSE_LOOKUP_ADDRESS_BY_REV(thread->processor_ptr));
},
(A_STORE,A_MEMLIKE)
)
DEF_MACRO(fSTOREMMVNQ,
fSTOREMMVNQ_AL(EA,fVECSIZE(),fVECSIZE(),SRC,MASK),
()
)
DEF_MACRO(fSTOREMMVU_AL,
{
size4u_t size1 = ALIGNMENT-((EA)&(ALIGNMENT-1));
size4u_t size2;
if (size1>LEN) size1 = LEN;
size2 = LEN-size1;
mem_store_vector_oddva(thread, insn, EA+size1, EA+fVECSIZE(), /* slot */ 1, size2, &SRC.ub[size1], 0, 0, fUSE_LOOKUP_ADDRESS());
mem_store_vector_oddva(thread, insn, EA, EA, /* slot */ 0, size1, &SRC.ub[0], 0, 0, fUSE_LOOKUP_ADDRESS_BY_REV(thread->processor_ptr));
},
(A_STORE,A_MEMLIKE)
)
DEF_MACRO(fSTOREMMVU,
{
thread->last_pkt->pkt_has_vtcm_access = 0;
thread->last_pkt->pkt_access_count = 0;
if ( (EA & (fVECSIZE()-1)) == 0) {
thread->last_pkt->double_access = 0;
fSTOREMMV_AL(EA,fVECSIZE(),fVECSIZE(),SRC);
} else {
thread->last_pkt->double_access = 1;
thread->last_pkt->pkt_has_vmemu_access = 1;
fSTOREMMVU_AL(EA,fVECSIZE(),fVECSIZE(),SRC);
}
},
()
)
DEF_MACRO(fSTOREMMVQU_AL,
{
size4u_t size1 = ALIGNMENT-((EA)&(ALIGNMENT-1));
size4u_t size2;
mmvector_t maskvec;
int i;
for (i = 0; i < fVECSIZE(); i++) maskvec.ub[i] = fGETQBIT(MASK,i);
if (size1>LEN) size1 = LEN;
size2 = LEN-size1;
mem_store_vector_oddva(thread, insn, EA+size1, EA+fVECSIZE(),/* slot */ 1, size2, &SRC.ub[size1], &maskvec.ub[size1], 0, fUSE_LOOKUP_ADDRESS());
mem_store_vector_oddva(thread, insn, EA, /* slot */ 0, size1, &SRC.ub[0], &maskvec.ub[0], 0, fUSE_LOOKUP_ADDRESS_BY_REV(thread->processor_ptr));
},
(A_STORE,A_MEMLIKE)
)
DEF_MACRO(fSTOREMMVQU,
{
thread->last_pkt->pkt_has_vtcm_access = 0;
thread->last_pkt->pkt_access_count = 0;
if ( (EA & (fVECSIZE()-1)) == 0) {
thread->last_pkt->double_access = 0;
fSTOREMMVQ_AL(EA,fVECSIZE(),fVECSIZE(),SRC,MASK);
} else {
thread->last_pkt->double_access = 1;
thread->last_pkt->pkt_has_vmemu_access = 1;
fSTOREMMVQU_AL(EA,fVECSIZE(),fVECSIZE(),SRC,MASK);
}
},
()
)
DEF_MACRO(fSTOREMMVNQU_AL,
{
size4u_t size1 = ALIGNMENT-((EA)&(ALIGNMENT-1));
size4u_t size2;
mmvector_t maskvec;
int i;
for (i = 0; i < fVECSIZE(); i++) maskvec.ub[i] = fGETQBIT(MASK,i);
if (size1>LEN) size1 = LEN;
size2 = LEN-size1;
mem_store_vector_oddva(thread, insn, EA+size1, EA+fVECSIZE(), /* slot */ 1, size2, &SRC.ub[size1], &maskvec.ub[size1], 1, fUSE_LOOKUP_ADDRESS());
mem_store_vector_oddva(thread, insn, EA, EA, /* slot */ 0, size1, &SRC.ub[0], &maskvec.ub[0], 1, fUSE_LOOKUP_ADDRESS_BY_REV(thread->processor_ptr));
},
(A_STORE,A_MEMLIKE)
)
DEF_MACRO(fSTOREMMVNQU,
{
thread->last_pkt->pkt_has_vtcm_access = 0;
thread->last_pkt->pkt_access_count = 0;
if ( (EA & (fVECSIZE()-1)) == 0) {
thread->last_pkt->double_access = 0;
fSTOREMMVNQ_AL(EA,fVECSIZE(),fVECSIZE(),SRC,MASK);
} else {
thread->last_pkt->double_access = 1;
thread->last_pkt->pkt_has_vmemu_access = 1;
fSTOREMMVNQU_AL(EA,fVECSIZE(),fVECSIZE(),SRC,MASK);
}
},
()
)
DEF_MACRO(fVFOREACH,
for (VAR = 0; VAR < fVELEM(WIDTH); VAR++),
/* NOTHING */
)
DEF_MACRO(fVARRAY_ELEMENT_ACCESS,
ARRAY.v[(INDEX) / (fVECSIZE()/(sizeof(ARRAY.TYPE[0])))].TYPE[(INDEX) % (fVECSIZE()/(sizeof(ARRAY.TYPE[0])))],
()
)
DEF_MACRO(fVNEWCANCEL,
do { THREAD2STRUCT->VRegs_select &= ~(1<<(REGNUM)); } while (0),
()
)
DEF_MACRO(fTMPVDATA,
mmvec_vtmp_data(thread),
(A_CVI)
)
DEF_MACRO(fVSATDW,
fVSATW( ( ( ((long long)U)<<32 ) | fZXTN(32,64,V) ) ),
/* attribs */
)
DEF_MACRO(fVASL_SATHI,
fVSATW(((U)<<1) | ((V)>>31)),
/* attribs */
)
DEF_MACRO(fVUADDSAT,
fVSATUN( WIDTH, fZXTN(WIDTH, 2*WIDTH, U) + fZXTN(WIDTH, 2*WIDTH, V)),
/* attribs */
)
DEF_MACRO(fVSADDSAT,
fVSATN( WIDTH, fSXTN(WIDTH, 2*WIDTH, U) + fSXTN(WIDTH, 2*WIDTH, V)),
/* attribs */
)
DEF_MACRO(fVUSUBSAT,
fVSATUN( WIDTH, fZXTN(WIDTH, 2*WIDTH, U) - fZXTN(WIDTH, 2*WIDTH, V)),
/* attribs */
)
DEF_MACRO(fVSSUBSAT,
fVSATN( WIDTH, fSXTN(WIDTH, 2*WIDTH, U) - fSXTN(WIDTH, 2*WIDTH, V)),
/* attribs */
)
DEF_MACRO(fVAVGU,
((fZXTN(WIDTH, 2*WIDTH, U) + fZXTN(WIDTH, 2*WIDTH, V))>>1),
/* attribs */
)
DEF_MACRO(fVAVGURND,
((fZXTN(WIDTH, 2*WIDTH, U) + fZXTN(WIDTH, 2*WIDTH, V)+1)>>1),
/* attribs */
)
DEF_MACRO(fVNAVGU,
((fZXTN(WIDTH, 2*WIDTH, U) - fZXTN(WIDTH, 2*WIDTH, V))>>1),
/* attribs */
)
DEF_MACRO(fVNAVGURNDSAT,
fVSATUN(WIDTH,((fZXTN(WIDTH, 2*WIDTH, U) - fZXTN(WIDTH, 2*WIDTH, V)+1)>>1)),
/* attribs */
)
DEF_MACRO(fVAVGS,
((fSXTN(WIDTH, 2*WIDTH, U) + fSXTN(WIDTH, 2*WIDTH, V))>>1),
/* attribs */
)
DEF_MACRO(fVAVGSRND,
((fSXTN(WIDTH, 2*WIDTH, U) + fSXTN(WIDTH, 2*WIDTH, V)+1)>>1),
/* attribs */
)
DEF_MACRO(fVNAVGS,
((fSXTN(WIDTH, 2*WIDTH, U) - fSXTN(WIDTH, 2*WIDTH, V))>>1),
/* attribs */
)
DEF_MACRO(fVNAVGSRND,
((fSXTN(WIDTH, 2*WIDTH, U) - fSXTN(WIDTH, 2*WIDTH, V)+1)>>1),
/* attribs */
)
DEF_MACRO(fVNAVGSRNDSAT,
fVSATN(WIDTH,((fSXTN(WIDTH, 2*WIDTH, U) - fSXTN(WIDTH, 2*WIDTH, V)+1)>>1)),
/* attribs */
)
DEF_MACRO(fVNOROUND,
VAL,
/* NOTHING */
)
DEF_MACRO(fVNOSAT,
VAL,
/* NOTHING */
)
DEF_MACRO(fVROUND,
((VAL) + (((SHAMT)>0)?(1LL<<((SHAMT)-1)):0)),
/* NOTHING */
)
DEF_MACRO(fCARRY_FROM_ADD32,
(((fZXTN(32,64,A)+fZXTN(32,64,B)+C) >> 32) & 1),
/* NOTHING */
)
DEF_MACRO(fUARCH_NOTE_PUMP_4X,
,
()
)
DEF_MACRO(fUARCH_NOTE_PUMP_2X,
,
()
)