// This file is part of AsmJit project // // See asmjit.h or LICENSE.md for license and copyright information // SPDX-License-Identifier: Zlib #include #if !defined(ASMJIT_NO_AARCH64) #include #include #include #include #include "asmjit_test_perf.h" using namespace asmjit; // Generates a long sequence of GP instructions. template static void generateGpSequenceInternal( Emitter& cc, const a64::Gp& a, const a64::Gp& b, const a64::Gp& c, const a64::Gp& d) { using namespace asmjit::a64; Gp wA = a.w(); Gp wB = b.w(); Gp wC = c.w(); Gp wD = d.w(); Gp xA = a.x(); Gp xB = b.x(); Gp xC = c.x(); Gp xD = d.x(); Mem m = ptr(xD); cc.mov(wA, 0); cc.mov(wB, 1); cc.mov(wC, 2); cc.mov(wD, 3); cc.adc(wA, wB, wC); cc.adc(xA, xB, xC); cc.adc(wA, wzr, wC); cc.adc(xA, xzr, xC); cc.adc(wzr, wB, wC); cc.adc(xzr, xB, xC); cc.adcs(wA, wB, wC); cc.adcs(xA, xB, xC); cc.add(wA, wB, wC); cc.add(xA, xB, xC); cc.add(wA, wB, wC, lsl(3)); cc.add(xA, xB, xC, lsl(3)); cc.add(wA, wzr, wC); cc.add(xA, xzr, xC); cc.add(wzr, wB, wC); cc.add(xzr, xB, xC); cc.add(wC, wD, 0, lsl(12)); cc.add(xC, xD, 0, lsl(12)); cc.add(wC, wD, 1024, lsl(12)); cc.add(xC, xD, 1024, lsl(12)); cc.add(wC, wD, 1024, lsl(12)); cc.add(xC, xD, 1024, lsl(12)); cc.adds(wA, wB, wC); cc.adds(xA, xB, xC); cc.adr(xA, 0); cc.adr(xA, 256); cc.adrp(xA, 4096); cc.and_(wA, wB, wC); cc.and_(xA, xB, xC); cc.and_(wA, wB, 1); cc.and_(xA, xB, 1); cc.and_(wA, wB, 15); cc.and_(xA, xB, 15); cc.and_(wA, wzr, wC); cc.and_(xA, xzr, xC); cc.and_(wzr, wB, wC); cc.and_(xzr, xB, xC); cc.and_(wA, wB, 0x1); cc.and_(xA, xB, 0x1); cc.and_(wA, wB, 0xf); cc.and_(xA, xB, 0xf); cc.ands(wA, wB, wC); cc.ands(xA, xB, xC); cc.ands(wA, wzr, wC); cc.ands(xA, xzr, xC); cc.ands(wzr, wB, wC); cc.ands(xzr, xB, xC); cc.ands(wA, wB, 0x1); cc.ands(xA, xB, 0x1); cc.ands(wA, wB, 0xf); cc.ands(xA, xB, 0xf); cc.asr(wA, wB, 15); cc.asr(xA, xB, 15); cc.asrv(wA, wB, wC); cc.asrv(xA, xB, xC); cc.bfc(wA, 8, 16); cc.bfc(xA, 8, 16); cc.bfi(wA, wB, 8, 16); cc.bfi(xA, xB, 8, 16); cc.bfm(wA, wB, 8, 16); cc.bfm(xA, xB, 8, 16); cc.bfxil(wA, wB, 8, 16); cc.bfxil(xA, xB, 8, 16); cc.bic(wA, wB, wC, lsl(4)); cc.bic(xA, xB, xC, lsl(4)); cc.bic(wA, wzr, wC); cc.bic(xA, xzr, xC); cc.bics(wA, wB, wC, lsl(4)); cc.bics(xA, xB, xC, lsl(4)); cc.bics(wA, wzr, wC); cc.bics(xA, xzr, xC); cc.cas(wA, wB, m); cc.cas(xA, xB, m); cc.casa(wA, wB, m); cc.casa(xA, xB, m); cc.casab(wA, wB, m); cc.casah(wA, wB, m); cc.casal(wA, wB, m); cc.casal(xA, xB, m); cc.casalb(wA, wB, m); cc.casalh(wA, wB, m); cc.casb(wA, wB, m); cc.cash(wA, wB, m); cc.casl(wA, wB, m); cc.casl(xA, xB, m); cc.caslb(wA, wB, m); cc.caslh(wA, wB, m); cc.casp(wA, wB, wC, wD, m); cc.casp(xA, xB, xC, xD, m); cc.caspa(wA, wB, wC, wD, m); cc.caspa(xA, xB, xC, xD, m); cc.caspal(wA, wB, wC, wD, m); cc.caspal(xA, xB, xC, xD, m); cc.caspl(wA, wB, wC, wD, m); cc.caspl(xA, xB, xC, xD, m); cc.ccmn(wA, wB, 3, CondCode::kEQ); cc.ccmn(xA, xB, 3, CondCode::kEQ); cc.ccmn(wA, 2, 3, CondCode::kEQ); cc.ccmn(xA, 2, 3, CondCode::kEQ); cc.ccmn(wA, wzr, 3, CondCode::kEQ); cc.ccmn(xA, xzr, 3, CondCode::kEQ); cc.ccmp(wA, wB, 3, CondCode::kEQ); cc.ccmp(xA, xB, 3, CondCode::kEQ); cc.ccmp(wA, 2, 3, CondCode::kEQ); cc.ccmp(xA, 2, 3, CondCode::kEQ); cc.ccmp(wA, wzr, 3, CondCode::kEQ); cc.ccmp(xA, xzr, 3, CondCode::kEQ); cc.cinc(wA, wB, CondCode::kEQ); cc.cinc(xA, xB, CondCode::kEQ); cc.cinc(wzr, wB, CondCode::kEQ); cc.cinc(wA, wzr, CondCode::kEQ); cc.cinc(xzr, xB, CondCode::kEQ); cc.cinc(xA, xzr, CondCode::kEQ); cc.cinv(wA, wB, CondCode::kEQ); cc.cinv(xA, xB, CondCode::kEQ); cc.cinv(wzr, wB, CondCode::kEQ); cc.cinv(wA, wzr, CondCode::kEQ); cc.cinv(xzr, xB, CondCode::kEQ); cc.cinv(xA, xzr, CondCode::kEQ); cc.cls(wA, wB); cc.cls(xA, xB); cc.cls(wA, wzr); cc.cls(xA, xzr); cc.cls(wzr, wB); cc.cls(xzr, xB); cc.clz(wA, wB); cc.clz(xA, xB); cc.clz(wA, wzr); cc.clz(xA, xzr); cc.clz(wzr, wB); cc.clz(xzr, xB); cc.cmn(wA, 33); cc.cmn(xA, 33); cc.cmn(wA, wB); cc.cmn(xA, xB); cc.cmn(wA, wB, uxtb(2)); cc.cmn(xA, xB, uxtb(2)); cc.cmp(wA, 33); cc.cmp(xA, 33); cc.cmp(wA, wB); cc.cmp(xA, xB); cc.cmp(wA, wB, uxtb(2)); cc.cmp(xA, xB, uxtb(2)); cc.crc32b(wA, wB, wC); cc.crc32b(wzr, wB, wC); cc.crc32b(wA, wzr, wC); cc.crc32b(wA, wB, wzr); cc.crc32cb(wA, wB, wC); cc.crc32cb(wzr, wB, wC); cc.crc32cb(wA, wzr, wC); cc.crc32cb(wA, wB, wzr); cc.crc32ch(wA, wB, wC); cc.crc32ch(wzr, wB, wC); cc.crc32ch(wA, wzr, wC); cc.crc32ch(wA, wB, wzr); cc.crc32cw(wA, wB, wC); cc.crc32cw(wzr, wB, wC); cc.crc32cw(wA, wzr, wC); cc.crc32cw(wA, wB, wzr); cc.crc32cx(wA, wB, xC); cc.crc32cx(wzr, wB, xC); cc.crc32cx(wA, wzr, xC); cc.crc32cx(wA, wB, xzr); cc.crc32h(wA, wB, wC); cc.crc32h(wzr, wB, wC); cc.crc32h(wA, wzr, wC); cc.crc32h(wA, wB, wzr); cc.crc32w(wA, wB, wC); cc.crc32w(wzr, wB, wC); cc.crc32w(wA, wzr, wC); cc.crc32w(wA, wB, wzr); cc.crc32x(wA, wB, xC); cc.crc32x(wzr, wB, xC); cc.crc32x(wA, wzr, xC); cc.crc32x(wA, wB, xzr); cc.csel(wA, wB, wC, CondCode::kEQ); cc.csel(xA, xB, xC, CondCode::kEQ); cc.cset(wA, CondCode::kEQ); cc.cset(xA, CondCode::kEQ); cc.cset(wA, CondCode::kEQ); cc.cset(xA, CondCode::kEQ); cc.csetm(wA, CondCode::kEQ); cc.csetm(xA, CondCode::kEQ); cc.csinc(wA, wB, wC, CondCode::kEQ); cc.csinc(xA, xB, xC, CondCode::kEQ); cc.csinv(wA, wB, wC, CondCode::kEQ); cc.csinv(xA, xB, xC, CondCode::kEQ); cc.csneg(wA, wB, wC, CondCode::kEQ); cc.csneg(xA, xB, xC, CondCode::kEQ); cc.eon(wA, wB, wC); cc.eon(wzr, wB, wC); cc.eon(wA, wzr, wC); cc.eon(wA, wB, wzr); cc.eon(wA, wB, wC, lsl(4)); cc.eon(xA, xB, xC); cc.eon(xzr, xB, xC); cc.eon(xA, xzr, xC); cc.eon(xA, xB, xzr); cc.eon(xA, xB, xC, lsl(4)); cc.eor(wA, wB, wC); cc.eor(wzr, wB, wC); cc.eor(wA, wzr, wC); cc.eor(wA, wB, wzr); cc.eor(xA, xB, xC); cc.eor(xzr, xB, xC); cc.eor(xA, xzr, xC); cc.eor(xA, xB, xzr); cc.eor(wA, wB, wC, lsl(4)); cc.eor(xA, xB, xC, lsl(4)); cc.eor(wA, wB, 0x4000); cc.eor(xA, xB, 0x8000); cc.extr(wA, wB, wC, 15); cc.extr(wzr, wB, wC, 15); cc.extr(wA, wzr, wC, 15); cc.extr(wA, wB, wzr, 15); cc.extr(xA, xB, xC, 15); cc.extr(xzr, xB, xC, 15); cc.extr(xA, xzr, xC, 15); cc.extr(xA, xB, xzr, 15); cc.ldadd(wA, wB, m); cc.ldadd(xA, xB, m); cc.ldadda(wA, wB, m); cc.ldadda(xA, xB, m); cc.ldaddab(wA, wB, m); cc.ldaddah(wA, wB, m); cc.ldaddal(wA, wB, m); cc.ldaddal(xA, xB, m); cc.ldaddalb(wA, wB, m); cc.ldaddalh(wA, wB, m); cc.ldaddb(wA, wB, m); cc.ldaddh(wA, wB, m); cc.ldaddl(wA, wB, m); cc.ldaddl(xA, xB, m); cc.ldaddlb(wA, wB, m); cc.ldaddlh(wA, wB, m); cc.ldclr(wA, wB, m); cc.ldclr(xA, xB, m); cc.ldclra(wA, wB, m); cc.ldclra(xA, xB, m); cc.ldclrab(wA, wB, m); cc.ldclrah(wA, wB, m); cc.ldclral(wA, wB, m); cc.ldclral(xA, xB, m); cc.ldclralb(wA, wB, m); cc.ldclralh(wA, wB, m); cc.ldclrb(wA, wB, m); cc.ldclrh(wA, wB, m); cc.ldclrl(wA, wB, m); cc.ldclrl(xA, xB, m); cc.ldclrlb(wA, wB, m); cc.ldclrlh(wA, wB, m); cc.ldeor(wA, wB, m); cc.ldeor(xA, xB, m); cc.ldeora(wA, wB, m); cc.ldeora(xA, xB, m); cc.ldeorab(wA, wB, m); cc.ldeorah(wA, wB, m); cc.ldeoral(wA, wB, m); cc.ldeoral(xA, xB, m); cc.ldeoralb(wA, wB, m); cc.ldeoralh(wA, wB, m); cc.ldeorb(wA, wB, m); cc.ldeorh(wA, wB, m); cc.ldeorl(wA, wB, m); cc.ldeorl(xA, xB, m); cc.ldeorlb(wA, wB, m); cc.ldeorlh(wA, wB, m); cc.ldlar(wA, m); cc.ldlar(xA, m); cc.ldlarb(wA, m); cc.ldlarh(wA, m); cc.ldnp(wA, wB, m); cc.ldnp(xA, xB, m); cc.ldp(wA, wB, m); cc.ldp(xA, xB, m); cc.ldpsw(xA, xB, m); cc.ldr(wA, m); cc.ldr(xA, m); cc.ldrb(wA, m); cc.ldrh(wA, m); cc.ldrsw(xA, m); cc.ldraa(xA, m); cc.ldrab(xA, m); cc.ldset(wA, wB, m); cc.ldset(xA, xB, m); cc.ldseta(wA, wB, m); cc.ldseta(xA, xB, m); cc.ldsetab(wA, wB, m); cc.ldsetah(wA, wB, m); cc.ldsetal(wA, wB, m); cc.ldsetal(xA, xB, m); cc.ldsetalh(wA, wB, m); cc.ldsetalb(wA, wB, m); cc.ldsetb(wA, wB, m); cc.ldseth(wA, wB, m); cc.ldsetl(wA, wB, m); cc.ldsetl(xA, xB, m); cc.ldsetlb(wA, wB, m); cc.ldsetlh(wA, wB, m); cc.ldsmax(wA, wB, m); cc.ldsmax(xA, xB, m); cc.ldsmaxa(wA, wB, m); cc.ldsmaxa(xA, xB, m); cc.ldsmaxab(wA, wB, m); cc.ldsmaxah(wA, wB, m); cc.ldsmaxal(wA, wB, m); cc.ldsmaxal(xA, xB, m); cc.ldsmaxalb(wA, wB, m); cc.ldsmaxalh(wA, wB, m); cc.ldsmaxb(wA, wB, m); cc.ldsmaxh(wA, wB, m); cc.ldsmaxl(wA, wB, m); cc.ldsmaxl(xA, xB, m); cc.ldsmaxlb(wA, wB, m); cc.ldsmaxlh(wA, wB, m); cc.ldsmin(wA, wB, m); cc.ldsmin(xA, xB, m); cc.ldsmina(wA, wB, m); cc.ldsmina(xA, xB, m); cc.ldsminab(wA, wB, m); cc.ldsminah(wA, wB, m); cc.ldsminal(wA, wB, m); cc.ldsminal(xA, xB, m); cc.ldsminalb(wA, wB, m); cc.ldsminalh(wA, wB, m); cc.ldsminb(wA, wB, m); cc.ldsminh(wA, wB, m); cc.ldsminl(wA, wB, m); cc.ldsminl(xA, xB, m); cc.ldsminlb(wA, wB, m); cc.ldsminlh(wA, wB, m); cc.ldtr(wA, m); cc.ldtr(xA, m); cc.ldtrb(wA, m); cc.ldtrh(wA, m); cc.ldtrsb(wA, m); cc.ldtrsh(wA, m); cc.ldtrsw(xA, m); cc.ldumax(wA, wB, m); cc.ldumax(xA, xB, m); cc.ldumaxa(wA, wB, m); cc.ldumaxa(xA, xB, m); cc.ldumaxab(wA, wB, m); cc.ldumaxah(wA, wB, m); cc.ldumaxal(wA, wB, m); cc.ldumaxal(xA, xB, m); cc.ldumaxalb(wA, wB, m); cc.ldumaxalh(wA, wB, m); cc.ldumaxb(wA, wB, m); cc.ldumaxh(wA, wB, m); cc.ldumaxl(wA, wB, m); cc.ldumaxl(xA, xB, m); cc.ldumaxlb(wA, wB, m); cc.ldumaxlh(wA, wB, m); cc.ldumin(wA, wB, m); cc.ldumin(xA, xB, m); cc.ldumina(wA, wB, m); cc.ldumina(xA, xB, m); cc.lduminab(wA, wB, m); cc.lduminah(wA, wB, m); cc.lduminal(wA, wB, m); cc.lduminal(xA, xB, m); cc.lduminalb(wA, wB, m); cc.lduminalh(wA, wB, m); cc.lduminb(wA, wB, m); cc.lduminh(wA, wB, m); cc.lduminl(wA, wB, m); cc.lduminl(xA, xB, m); cc.lduminlb(wA, wB, m); cc.lduminlh(wA, wB, m); cc.ldur(wA, m); cc.ldur(xA, m); cc.ldurb(wA, m); cc.ldurh(wA, m); cc.ldursb(wA, m); cc.ldursh(wA, m); cc.ldursw(xA, m); cc.ldxp(wA, wB, m); cc.ldxp(xA, xB, m); cc.ldxr(wA, m); cc.ldxr(xA, m); cc.ldxrb(wA, m); cc.ldxrh(wA, m); cc.lsl(wA, wB, wC); cc.lsl(xA, xB, xC); cc.lsl(wA, wB, 15); cc.lsl(xA, xB, 15); cc.lslv(wA, wB, wC); cc.lslv(xA, xB, xC); cc.lsr(wA, wB, wC); cc.lsr(xA, xB, xC); cc.lsr(wA, wB, 15); cc.lsr(xA, xB, 15); cc.lsrv(wA, wB, wC); cc.lsrv(xA, xB, xC); cc.madd(wA, wB, wC, wD); cc.madd(xA, xB, xC, xD); cc.mneg(wA, wB, wC); cc.mneg(xA, xB, xC); cc.mov(wA, wB); cc.mov(xA, xB); cc.mov(wA, 0); cc.mov(wA, 1); cc.mov(wA, 2); cc.mov(wA, 3); cc.mov(wA, 4); cc.mov(wA, 5); cc.mov(wA, 6); cc.mov(wA, 7); cc.mov(wA, 8); cc.mov(wA, 9); cc.mov(wA, 10); cc.mov(wA, 0xA234); cc.mov(xA, 0xA23400000000); cc.msub(wA, wB, wC, wD); cc.msub(xA, xB, xC, xD); cc.mul(wA, wB, wC); cc.mul(xA, xB, xC); cc.mvn(wA, wB); cc.mvn(xA, xB); cc.mvn(wA, wB, lsl(4)); cc.mvn(xA, xB, lsl(4)); cc.neg(wA, wB); cc.neg(xA, xB); cc.neg(wA, wB, lsl(4)); cc.neg(xA, xB, lsl(4)); cc.negs(wA, wB); cc.negs(xA, xB); cc.negs(wA, wB, lsl(4)); cc.negs(xA, xB, lsl(4)); cc.ngc(wA, wB); cc.ngc(xA, xB); cc.ngcs(wA, wB); cc.ngcs(xA, xB); cc.orn(wA, wB, wC); cc.orn(xA, xB, xC); cc.orn(wA, wB, wC, lsl(4)); cc.orn(xA, xB, xC, lsl(4)); cc.orr(wA, wB, wC); cc.orr(xA, xB, xC); cc.orr(wA, wB, wC, lsl(4)); cc.orr(xA, xB, xC, lsl(4)); cc.orr(wA, wB, 0x4000); cc.orr(xA, xB, 0x8000); cc.rbit(wA, wB); cc.rbit(xA, xB); cc.rev(wA, wB); cc.rev(xA, xB); cc.rev16(wA, wB); cc.rev16(xA, xB); cc.rev32(xA, xB); cc.rev64(xA, xB); cc.ror(wA, wB, wC); cc.ror(xA, xB, xC); cc.ror(wA, wB, 15); cc.ror(xA, xB, 15); cc.rorv(wA, wB, wC); cc.rorv(xA, xB, xC); cc.sbc(wA, wB, wC); cc.sbc(xA, xB, xC); cc.sbcs(wA, wB, wC); cc.sbcs(xA, xB, xC); cc.sbfiz(wA, wB, 5, 10); cc.sbfiz(xA, xB, 5, 10); cc.sbfm(wA, wB, 5, 10); cc.sbfm(xA, xB, 5, 10); cc.sbfx(wA, wB, 5, 10); cc.sbfx(xA, xB, 5, 10); cc.sdiv(wA, wB, wC); cc.sdiv(xA, xB, xC); cc.smaddl(xA, wB, wC, xD); cc.smnegl(xA, wB, wC); cc.smsubl(xA, wB, wC, xD); cc.smulh(xA, xB, xC); cc.smull(xA, wB, wC); cc.stp(wA, wB, m); cc.stp(xA, xB, m); cc.sttr(wA, m); cc.sttr(xA, m); cc.sttrb(wA, m); cc.sttrh(wA, m); cc.stur(wA, m); cc.stur(xA, m); cc.sturb(wA, m); cc.sturh(wA, m); cc.stxp(wA, wB, wC, m); cc.stxp(wA, xB, xC, m); cc.stxr(wA, wB, m); cc.stxr(wA, xB, m); cc.stxrb(wA, wB, m); cc.stxrh(wA, wB, m); cc.sub(wA, wB, wC); cc.sub(xA, xB, xC); cc.sub(wA, wB, wC, lsl(3)); cc.sub(xA, xB, xC, lsl(3)); cc.subg(xA, xB, 32, 11); cc.subp(xA, xB, xC); cc.subps(xA, xB, xC); cc.subs(wA, wB, wC); cc.subs(xA, xB, xC); cc.subs(wA, wB, wC, lsl(3)); cc.subs(xA, xB, xC, lsl(3)); cc.sxtb(wA, wB); cc.sxtb(xA, wB); cc.sxth(wA, wB); cc.sxth(xA, wB); cc.sxtw(xA, wB); cc.tst(wA, 1); cc.tst(xA, 1); cc.tst(wA, wB); cc.tst(xA, xB); cc.tst(wA, wB, lsl(4)); cc.tst(xA, xB, lsl(4)); cc.udiv(wA, wB, wC); cc.udiv(xA, xB, xC); cc.ubfiz(wA, wB, 5, 10); cc.ubfiz(xA, xB, 5, 10); cc.ubfm(wA, wB, 5, 10); cc.ubfm(xA, xB, 5, 10); cc.ubfx(wA, wB, 5, 10); cc.ubfx(xA, xB, 5, 10); cc.umaddl(xA, wB, wC, xD); cc.umnegl(xA, wB, wC); cc.umsubl(xA, wB, wC, xD); cc.umulh(xA, xB, xC); cc.umull(xA, wB, wC); cc.uxtb(wA, wB); cc.uxth(wA, wB); } static void generateGpSequence(BaseEmitter& emitter, bool emitPrologEpilog) { if (emitter.isAssembler()) { a64::Assembler& cc = *emitter.as(); a64::Gp a = a64::x0; a64::Gp b = a64::x1; a64::Gp c = a64::x2; a64::Gp d = a64::x3; if (emitPrologEpilog) { FuncDetail func; func.init(FuncSignatureT(CallConvId::kHost), cc.environment()); FuncFrame frame; frame.init(func); frame.addDirtyRegs(a, b, c, d); frame.finalize(); cc.emitProlog(frame); generateGpSequenceInternal(cc, a, b, c, d); cc.emitEpilog(frame); } else { generateGpSequenceInternal(cc, a, b, c, d); } } #ifndef ASMJIT_NO_BUILDER else if (emitter.isBuilder()) { a64::Builder& cc = *emitter.as(); a64::Gp a = a64::x0; a64::Gp b = a64::x1; a64::Gp c = a64::x2; a64::Gp d = a64::x3; if (emitPrologEpilog) { FuncDetail func; func.init(FuncSignatureT(CallConvId::kHost), cc.environment()); FuncFrame frame; frame.init(func); frame.addDirtyRegs(a, b, c, d); frame.finalize(); cc.emitProlog(frame); generateGpSequenceInternal(cc, a, b, c, d); cc.emitEpilog(frame); } else { generateGpSequenceInternal(cc, a, b, c, d); } } #endif #ifndef ASMJIT_NO_COMPILER else if (emitter.isCompiler()) { a64::Compiler& cc = *emitter.as(); a64::Gp a = cc.newIntPtr("a"); a64::Gp b = cc.newIntPtr("b"); a64::Gp c = cc.newIntPtr("c"); a64::Gp d = cc.newIntPtr("d"); cc.addFunc(FuncSignatureT(CallConvId::kHost)); generateGpSequenceInternal(cc, a, b, c, d); cc.endFunc(); } #endif } template static void benchmarkA64Function(Arch arch, uint32_t numIterations, const char* description, const EmitterFn& emitterFn) noexcept { CodeHolder code; printf("%s:\n", description); bench(code, arch, numIterations, "[raw]", [&](a64::Assembler& cc) { emitterFn(cc, false); }); bench(code, arch, numIterations, "[validated]", [&](a64::Assembler& cc) { cc.addDiagnosticOptions(DiagnosticOptions::kValidateAssembler); emitterFn(cc, false); }); bench(code, arch, numIterations, "[prolog/epilog]", [&](a64::Assembler& cc) { cc.addDiagnosticOptions(DiagnosticOptions::kValidateAssembler); emitterFn(cc, true); }); #ifndef ASMJIT_NO_BUILDER bench(code, arch, numIterations, "[no-asm]", [&](a64::Builder& cc) { emitterFn(cc, false); }); bench(code, arch, numIterations, "[finalized]", [&](a64::Builder& cc) { emitterFn(cc, false); cc.finalize(); }); bench(code, arch, numIterations, "[prolog/epilog]", [&](a64::Builder& cc) { emitterFn(cc, true); cc.finalize(); }); #endif #ifndef ASMJIT_NO_COMPILER bench(code, arch, numIterations, "[no-asm]", [&](a64::Compiler& cc) { emitterFn(cc, true); }); bench(code, arch, numIterations, "[finalized]", [&](a64::Compiler& cc) { emitterFn(cc, true); cc.finalize(); }); #endif printf("\n"); } void benchmarkA64Emitters(uint32_t numIterations) { static const char description[] = "GpSequence (Sequence of GP instructions - reg/mem)"; benchmarkA64Function(Arch::kAArch64, numIterations, description, [](BaseEmitter& emitter, bool emitPrologEpilog) { generateGpSequence(emitter, emitPrologEpilog); }); } #endif // !ASMJIT_NO_AARCH64