// Copyright 2017 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // This input extends auto-generated amd64enc.s test suite // with manually added tests. #include "../../../../../runtime/textflag.h" TEXT asmtest(SB),DUPOK|NOSPLIT,$0 // AVX2GATHER: basic combinations. VPGATHERDQ Y2, (BP)(X7*2), Y1 // c4e2ed904c7d00 VPGATHERDQ X12, (R13)(X14*2), X11 // c40299905c7500 VPGATHERDQ Y12, (R13)(X14*2), Y11 // c4029d905c7500 VPGATHERDQ Y0, 8(X4*1), Y6 // c4e2fd90342508000000 VPGATHERDQ Y0, -8(X4*1), Y6 // c4e2fd903425f8ffffff VPGATHERDQ Y0, 0(X4*1), Y6 // c4e2fd90342500000000 VPGATHERDQ Y0, 664(X4*1), Y6 // c4e2fd90342598020000 VPGATHERDQ Y0, 8(X4*8), Y6 // c4e2fd9034e508000000 VPGATHERDQ Y0, -8(X4*8), Y6 // c4e2fd9034e5f8ffffff VPGATHERDQ Y0, 0(X4*8), Y6 // c4e2fd9034e500000000 VPGATHERDQ Y0, 664(X4*8), Y6 // c4e2fd9034e598020000 VPGATHERDQ Y0, 8(X14*1), Y6 // c4a2fd90343508000000 VPGATHERDQ Y0, -8(X14*1), Y6 // c4a2fd903435f8ffffff VPGATHERDQ Y0, 0(X14*1), Y6 // c4a2fd90343500000000 VPGATHERDQ Y0, 664(X14*1), Y6 // c4a2fd90343598020000 VPGATHERDQ Y0, 8(X14*8), Y6 // c4a2fd9034f508000000 VPGATHERDQ Y0, -8(X14*8), Y6 // c4a2fd9034f5f8ffffff VPGATHERDQ Y0, 0(X14*8), Y6 // c4a2fd9034f500000000 VPGATHERDQ Y0, 664(X14*8), Y6 // c4a2fd9034f598020000 VPGATHERDQ X2, (BP)(X7*2), X1 // c4e2e9904c7d00 VPGATHERDQ Y2, (BP)(X7*2), Y1 // c4e2ed904c7d00 VPGATHERDQ X12, (R13)(X14*2), X11 // c40299905c7500 VPGATHERDQ Y12, (R13)(X14*2), Y11 // c4029d905c7500 VPGATHERDQ Y0, 8(X4*1), Y6 // c4e2fd90342508000000 VPGATHERDQ Y0, -8(X4*1), Y6 // c4e2fd903425f8ffffff VPGATHERDQ Y0, 0(X4*1), Y6 // c4e2fd90342500000000 VPGATHERDQ Y0, 664(X4*1), Y6 // c4e2fd90342598020000 VPGATHERDQ Y0, 8(X4*8), Y6 // c4e2fd9034e508000000 VPGATHERDQ Y0, -8(X4*8), Y6 // c4e2fd9034e5f8ffffff VPGATHERDQ Y0, 0(X4*8), Y6 // c4e2fd9034e500000000 VPGATHERDQ Y0, 664(X4*8), Y6 // c4e2fd9034e598020000 VPGATHERDQ Y0, 8(X14*1), Y6 // c4a2fd90343508000000 VPGATHERDQ Y0, -8(X14*1), Y6 // c4a2fd903435f8ffffff VPGATHERDQ Y0, 0(X14*1), Y6 // c4a2fd90343500000000 VPGATHERDQ Y0, 664(X14*1), Y6 // c4a2fd90343598020000 VPGATHERDQ Y0, 8(X14*8), Y6 // c4a2fd9034f508000000 VPGATHERDQ Y0, -8(X14*8), Y6 // c4a2fd9034f5f8ffffff VPGATHERDQ Y0, 0(X14*8), Y6 // c4a2fd9034f500000000 VPGATHERDQ Y0, 664(X14*8), Y6 // c4a2fd9034f598020000 VPGATHERQQ X2, (BP)(X7*2), X1 // c4e2e9914c7d00 VPGATHERQQ Y2, (BP)(Y7*2), Y1 // c4e2ed914c7d00 VPGATHERQQ X12, (R13)(X14*2), X11 // c40299915c7500 VPGATHERQQ Y12, (R13)(Y14*2), Y11 // c4029d915c7500 VPGATHERQQ X2, (BP)(X7*2), X1 // c4e2e9914c7d00 VPGATHERQQ Y2, (BP)(Y7*2), Y1 // c4e2ed914c7d00 VPGATHERQQ X12, (R13)(X14*2), X11 // c40299915c7500 VPGATHERQQ Y12, (R13)(Y14*2), Y11 // c4029d915c7500 VGATHERDPD X2, (BP)(X7*2), X1 // c4e2e9924c7d00 VGATHERDPD Y2, (BP)(X7*2), Y1 // c4e2ed924c7d00 VGATHERDPD X12, (R13)(X14*2), X11 // c40299925c7500 VGATHERDPD Y12, (R13)(X14*2), Y11 // c4029d925c7500 VGATHERDPD Y0, 8(X4*1), Y6 // c4e2fd92342508000000 VGATHERDPD Y0, -8(X4*1), Y6 // c4e2fd923425f8ffffff VGATHERDPD Y0, 0(X4*1), Y6 // c4e2fd92342500000000 VGATHERDPD Y0, 664(X4*1), Y6 // c4e2fd92342598020000 VGATHERDPD Y0, 8(X4*8), Y6 // c4e2fd9234e508000000 VGATHERDPD Y0, -8(X4*8), Y6 // c4e2fd9234e5f8ffffff VGATHERDPD Y0, 0(X4*8), Y6 // c4e2fd9234e500000000 VGATHERDPD Y0, 664(X4*8), Y6 // c4e2fd9234e598020000 VGATHERDPD Y0, 8(X14*1), Y6 // c4a2fd92343508000000 VGATHERDPD Y0, -8(X14*1), Y6 // c4a2fd923435f8ffffff VGATHERDPD Y0, 0(X14*1), Y6 // c4a2fd92343500000000 VGATHERDPD Y0, 664(X14*1), Y6 // c4a2fd92343598020000 VGATHERDPD Y0, 8(X14*8), Y6 // c4a2fd9234f508000000 VGATHERDPD Y0, -8(X14*8), Y6 // c4a2fd9234f5f8ffffff VGATHERDPD Y0, 0(X14*8), Y6 // c4a2fd9234f500000000 VGATHERDPD Y0, 664(X14*8), Y6 // c4a2fd9234f598020000 VGATHERDPD X2, (BP)(X7*2), X1 // c4e2e9924c7d00 VGATHERDPD Y2, (BP)(X7*2), Y1 // c4e2ed924c7d00 VGATHERDPD X12, (R13)(X14*2), X11 // c40299925c7500 VGATHERDPD Y12, (R13)(X14*2), Y11 // c4029d925c7500 VGATHERDPD Y0, 8(X4*1), Y6 // c4e2fd92342508000000 VGATHERDPD Y0, -8(X4*1), Y6 // c4e2fd923425f8ffffff VGATHERDPD Y0, 0(X4*1), Y6 // c4e2fd92342500000000 VGATHERDPD Y0, 664(X4*1), Y6 // c4e2fd92342598020000 VGATHERDPD Y0, 8(X4*8), Y6 // c4e2fd9234e508000000 VGATHERDPD Y0, -8(X4*8), Y6 // c4e2fd9234e5f8ffffff VGATHERDPD Y0, 0(X4*8), Y6 // c4e2fd9234e500000000 VGATHERDPD Y0, 664(X4*8), Y6 // c4e2fd9234e598020000 VGATHERDPD Y0, 8(X14*1), Y6 // c4a2fd92343508000000 VGATHERDPD Y0, -8(X14*1), Y6 // c4a2fd923435f8ffffff VGATHERDPD Y0, 0(X14*1), Y6 // c4a2fd92343500000000 VGATHERDPD Y0, 664(X14*1), Y6 // c4a2fd92343598020000 VGATHERDPD Y0, 8(X14*8), Y6 // c4a2fd9234f508000000 VGATHERDPD Y0, -8(X14*8), Y6 // c4a2fd9234f5f8ffffff VGATHERDPD Y0, 0(X14*8), Y6 // c4a2fd9234f500000000 VGATHERDPD Y0, 664(X14*8), Y6 // c4a2fd9234f598020000 VGATHERQPD X2, (BP)(X7*2), X1 // c4e2e9934c7d00 VGATHERQPD Y2, (BP)(Y7*2), Y1 // c4e2ed934c7d00 VGATHERQPD X12, (R13)(X14*2), X11 // c40299935c7500 VGATHERQPD Y12, (R13)(Y14*2), Y11 // c4029d935c7500 VGATHERQPD X2, (BP)(X7*2), X1 // c4e2e9934c7d00 VGATHERQPD Y2, (BP)(Y7*2), Y1 // c4e2ed934c7d00 VGATHERQPD X12, (R13)(X14*2), X11 // c40299935c7500 VGATHERQPD Y12, (R13)(Y14*2), Y11 // c4029d935c7500 VGATHERDPS X2, (BP)(X7*2), X1 // c4e269924c7d00 VGATHERDPS Y2, (BP)(Y7*2), Y1 // c4e26d924c7d00 VGATHERDPS X12, (R13)(X14*2), X11 // c40219925c7500 VGATHERDPS Y12, (R13)(Y14*2), Y11 // c4021d925c7500 VGATHERDPS X3, 8(X4*1), X6 // c4e26192342508000000 VGATHERDPS X3, -8(X4*1), X6 // c4e261923425f8ffffff VGATHERDPS X3, 0(X4*1), X6 // c4e26192342500000000 VGATHERDPS X3, 664(X4*1), X6 // c4e26192342598020000 VGATHERDPS X3, 8(X4*8), X6 // c4e2619234e508000000 VGATHERDPS X3, -8(X4*8), X6 // c4e2619234e5f8ffffff VGATHERDPS X3, 0(X4*8), X6 // c4e2619234e500000000 VGATHERDPS X3, 664(X4*8), X6 // c4e2619234e598020000 VGATHERDPS X3, 8(X14*1), X6 // c4a26192343508000000 VGATHERDPS X3, -8(X14*1), X6 // c4a261923435f8ffffff VGATHERDPS X3, 0(X14*1), X6 // c4a26192343500000000 VGATHERDPS X3, 664(X14*1), X6 // c4a26192343598020000 VGATHERDPS X3, 8(X14*8), X6 // c4a2619234f508000000 VGATHERDPS X3, -8(X14*8), X6 // c4a2619234f5f8ffffff VGATHERDPS X3, 0(X14*8), X6 // c4a2619234f500000000 VGATHERDPS X3, 664(X14*8), X6 // c4a2619234f598020000 VGATHERDPS X2, (BP)(X7*2), X1 // c4e269924c7d00 VGATHERDPS Y2, (BP)(Y7*2), Y1 // c4e26d924c7d00 VGATHERDPS X12, (R13)(X14*2), X11 // c40219925c7500 VGATHERDPS Y12, (R13)(Y14*2), Y11 // c4021d925c7500 VGATHERDPS X5, 8(X4*1), X6 // c4e25192342508000000 VGATHERDPS X3, -8(X4*1), X6 // c4e261923425f8ffffff VGATHERDPS X3, 0(X4*1), X6 // c4e26192342500000000 VGATHERDPS X3, 664(X4*1), X6 // c4e26192342598020000 VGATHERDPS X3, 8(X4*8), X6 // c4e2619234e508000000 VGATHERDPS X3, -8(X4*8), X6 // c4e2619234e5f8ffffff VGATHERDPS X3, 0(X4*8), X6 // c4e2619234e500000000 VGATHERDPS X3, 664(X4*8), X6 // c4e2619234e598020000 VGATHERDPS X3, 8(X14*1), X6 // c4a26192343508000000 VGATHERDPS X3, -8(X14*1), X6 // c4a261923435f8ffffff VGATHERDPS X3, 0(X14*1), X6 // c4a26192343500000000 VGATHERDPS X3, 664(X14*1), X6 // c4a26192343598020000 VGATHERDPS X3, 8(X14*8), X6 // c4a2619234f508000000 VGATHERDPS X3, -8(X14*8), X6 // c4a2619234f5f8ffffff VGATHERDPS X3, 0(X14*8), X6 // c4a2619234f500000000 VGATHERDPS X3, 664(X14*8), X6 // c4a2619234f598020000 VGATHERQPS X2, (BP)(X7*2), X1 // c4e269934c7d00 VGATHERQPS X2, (BP)(Y7*2), X1 // c4e26d934c7d00 VGATHERQPS X12, (R13)(X14*2), X11 // c40219935c7500 VGATHERQPS X12, (R13)(Y14*2), X11 // c4021d935c7500 VGATHERQPS X2, (BP)(X7*2), X1 // c4e269934c7d00 VGATHERQPS X2, (BP)(Y7*2), X1 // c4e26d934c7d00 VGATHERQPS X12, (R13)(X14*2), X11 // c40219935c7500 VGATHERQPS X12, (R13)(Y14*2), X11 // c4021d935c7500 VPGATHERDD X2, (BP)(X7*2), X1 // c4e269904c7d00 VPGATHERDD Y2, (BP)(Y7*2), Y1 // c4e26d904c7d00 VPGATHERDD X12, (R13)(X14*2), X11 // c40219905c7500 VPGATHERDD Y12, (R13)(Y14*2), Y11 // c4021d905c7500 VPGATHERDD X3, 8(X4*1), X6 // c4e26190342508000000 VPGATHERDD X3, -8(X4*1), X6 // c4e261903425f8ffffff VPGATHERDD X3, 0(X4*1), X6 // c4e26190342500000000 VPGATHERDD X3, 664(X4*1), X6 // c4e26190342598020000 VPGATHERDD X3, 8(X4*8), X6 // c4e2619034e508000000 VPGATHERDD X3, -8(X4*8), X6 // c4e2619034e5f8ffffff VPGATHERDD X3, 0(X4*8), X6 // c4e2619034e500000000 VPGATHERDD X3, 664(X4*8), X6 // c4e2619034e598020000 VPGATHERDD X3, 8(X14*1), X6 // c4a26190343508000000 VPGATHERDD X3, -8(X14*1), X6 // c4a261903435f8ffffff VPGATHERDD X3, 0(X14*1), X6 // c4a26190343500000000 VPGATHERDD X3, 664(X14*1), X6 // c4a26190343598020000 VPGATHERDD X3, 8(X14*8), X6 // c4a2619034f508000000 VPGATHERDD X3, -8(X14*8), X6 // c4a2619034f5f8ffffff VPGATHERDD X3, 0(X14*8), X6 // c4a2619034f500000000 VPGATHERDD X3, 664(X14*8), X6 // c4a2619034f598020000 VPGATHERDD X2, (BP)(X7*2), X1 // c4e269904c7d00 VPGATHERDD Y2, (BP)(Y7*2), Y1 // c4e26d904c7d00 VPGATHERDD X12, (R13)(X14*2), X11 // c40219905c7500 VPGATHERDD Y12, (R13)(Y14*2), Y11 // c4021d905c7500 VPGATHERDD X3, 8(X4*1), X6 // c4e26190342508000000 VPGATHERDD X3, -8(X4*1), X6 // c4e261903425f8ffffff VPGATHERDD X3, 0(X4*1), X6 // c4e26190342500000000 VPGATHERDD X3, 664(X4*1), X6 // c4e26190342598020000 VPGATHERDD X3, 8(X4*8), X6 // c4e2619034e508000000 VPGATHERDD X3, -8(X4*8), X6 // c4e2619034e5f8ffffff VPGATHERDD X3, 0(X4*8), X6 // c4e2619034e500000000 VPGATHERDD X3, 664(X4*8), X6 // c4e2619034e598020000 VPGATHERDD X3, 8(X14*1), X6 // c4a26190343508000000 VPGATHERDD X3, -8(X14*1), X6 // c4a261903435f8ffffff VPGATHERDD X3, 0(X14*1), X6 // c4a26190343500000000 VPGATHERDD X3, 664(X14*1), X6 // c4a26190343598020000 VPGATHERDD X3, 8(X14*8), X6 // c4a2619034f508000000 VPGATHERDD X3, -8(X14*8), X6 // c4a2619034f5f8ffffff VPGATHERDD X3, 0(X14*8), X6 // c4a2619034f500000000 VPGATHERDD X3, 664(X14*8), X6 // c4a2619034f598020000 VPGATHERQD X2, (BP)(X7*2), X1 // c4e269914c7d00 VPGATHERQD X2, (BP)(Y7*2), X1 // c4e26d914c7d00 VPGATHERQD X12, (R13)(X14*2), X11 // c40219915c7500 VPGATHERQD X12, (R13)(Y14*2), X11 // c4021d915c7500 VPGATHERQD X2, (BP)(X7*2), X1 // c4e269914c7d00 VPGATHERQD X2, (BP)(Y7*2), X1 // c4e26d914c7d00 VPGATHERQD X12, (R13)(X14*2), X11 // c40219915c7500 VPGATHERQD X12, (R13)(Y14*2), X11 // c4021d915c7500 VPGATHERQQ X0, 0(X1*1), X2 // c4e2f991140d00000000 VPGATHERQQ Y0, 0(Y1*1), Y2 // c4e2fd91140d00000000 VPGATHERQQ X8, 0(X9*1), X10 // c422b991140d00000000 VPGATHERQQ Y8, 0(Y9*1), Y10 // c422bd91140d00000000 VPGATHERQQ X0, 0(X1*4), X2 // c4e2f991148d00000000 VPGATHERQQ Y0, 0(Y1*4), Y2 // c4e2fd91148d00000000 VPGATHERQQ X8, 0(X9*4), X10 // c422b991148d00000000 VPGATHERQQ Y8, 0(Y9*4), Y10 // c422bd91148d00000000 // AVX2GATHER: test SP/BP base with different displacements. VPGATHERQQ X0, (SP)(X1*1), X2 // c4e2f991140c VPGATHERQQ X0, 16(SP)(X1*1), X2 // c4e2f991540c10 VPGATHERQQ X0, 512(SP)(X1*1), X2 // c4e2f991940c00020000 VPGATHERQQ X0, (R12)(X1*1), X2 // c4c2f991140c VPGATHERQQ X0, 16(R12)(X1*1), X2 // c4c2f991540c10 VPGATHERQQ X0, 512(R12)(X1*1), X2 // c4c2f991940c00020000 VPGATHERQQ X0, (BP)(X1*1), X2 // c4e2f991540d00 VPGATHERQQ X0, 16(BP)(X1*1), X2 // c4e2f991540d10 VPGATHERQQ X0, 512(BP)(X1*1), X2 // c4e2f991940d00020000 VPGATHERQQ X0, (R13)(X1*1), X2 // c4c2f991540d00 VPGATHERQQ X0, 16(R13)(X1*1), X2 // c4c2f991540d10 VPGATHERQQ X0, 512(R13)(X1*1), X2 // c4c2f991940d00020000 VPGATHERQQ Y0, (SP)(Y1*1), Y2 // c4e2fd91140c VPGATHERQQ Y0, 16(SP)(Y1*1), Y2 // c4e2fd91540c10 VPGATHERQQ Y0, 512(SP)(Y1*1), Y2 // c4e2fd91940c00020000 VPGATHERQQ Y0, (R12)(Y1*1), Y2 // c4c2fd91140c VPGATHERQQ Y0, 16(R12)(Y1*1), Y2 // c4c2fd91540c10 VPGATHERQQ Y0, 512(R12)(Y1*1), Y2 // c4c2fd91940c00020000 VPGATHERQQ Y0, (BP)(Y1*1), Y2 // c4e2fd91540d00 VPGATHERQQ Y0, 16(BP)(Y1*1), Y2 // c4e2fd91540d10 VPGATHERQQ Y0, 512(BP)(Y1*1), Y2 // c4e2fd91940d00020000 VPGATHERQQ Y0, (R13)(Y1*1), Y2 // c4c2fd91540d00 VPGATHERQQ Y0, 16(R13)(Y1*1), Y2 // c4c2fd91540d10 VPGATHERQQ Y0, 512(R13)(Y1*1), Y2 // c4c2fd91940d00020000 // Test low-8 register for /is4 "hr" operand. VPBLENDVB X0, (BX), X1, X2 // c4e3714c1300 // /Yxr0 tests. SHA256RNDS2 X0, (BX), X2 // 0f38cb13 SHA256RNDS2 X0, (R11), X2 // 410f38cb13 SHA256RNDS2 X0, X2, X2 // 0f38cbd2 SHA256RNDS2 X0, X11, X2 // 410f38cbd3 SHA256RNDS2 X0, (BX), X11 // 440f38cb1b SHA256RNDS2 X0, (R11), X11 // 450f38cb1b SHA256RNDS2 X0, X2, X11 // 440f38cbda SHA256RNDS2 X0, X11, X11 // 450f38cbdb // Rest SHA instructions tests. SHA1MSG1 (BX), X2 // 0f38c913 SHA1MSG1 (R11), X2 // 410f38c913 SHA1MSG1 X2, X2 // 0f38c9d2 SHA1MSG1 X11, X2 // 410f38c9d3 SHA1MSG1 (BX), X11 // 440f38c91b SHA1MSG1 (R11), X11 // 450f38c91b SHA1MSG1 X2, X11 // 440f38c9da SHA1MSG1 X11, X11 // 450f38c9db SHA1MSG2 (BX), X2 // 0f38ca13 SHA1MSG2 (R11), X2 // 410f38ca13 SHA1MSG2 X2, X2 // 0f38cad2 SHA1MSG2 X11, X2 // 410f38cad3 SHA1MSG2 (BX), X11 // 440f38ca1b SHA1MSG2 (R11), X11 // 450f38ca1b SHA1MSG2 X2, X11 // 440f38cada SHA1MSG2 X11, X11 // 450f38cadb SHA1NEXTE (BX), X2 // 0f38c813 SHA1NEXTE (R11), X2 // 410f38c813 SHA1NEXTE X2, X2 // 0f38c8d2 SHA1NEXTE X11, X2 // 410f38c8d3 SHA1NEXTE (BX), X11 // 440f38c81b SHA1NEXTE (R11), X11 // 450f38c81b SHA1NEXTE X2, X11 // 440f38c8da SHA1NEXTE X11, X11 // 450f38c8db SHA1RNDS4 $0, (BX), X2 // 0f3acc1300 SHA1RNDS4 $0, (R11), X2 // 410f3acc1300 SHA1RNDS4 $1, X2, X2 // 0f3accd201 SHA1RNDS4 $1, X11, X2 // 410f3accd301 SHA1RNDS4 $2, (BX), X11 // 440f3acc1b02 SHA1RNDS4 $2, (R11), X11 // 450f3acc1b02 SHA1RNDS4 $3, X2, X11 // 440f3accda03 SHA1RNDS4 $3, X11, X11 // 450f3accdb03 SHA256MSG1 (BX), X2 // 0f38cc13 SHA256MSG1 (R11), X2 // 410f38cc13 SHA256MSG1 X2, X2 // 0f38ccd2 SHA256MSG1 X11, X2 // 410f38ccd3 SHA256MSG1 (BX), X11 // 440f38cc1b SHA256MSG1 (R11), X11 // 450f38cc1b SHA256MSG1 X2, X11 // 440f38ccda SHA256MSG1 X11, X11 // 450f38ccdb SHA256MSG2 (BX), X2 // 0f38cd13 SHA256MSG2 (R11), X2 // 410f38cd13 SHA256MSG2 X2, X2 // 0f38cdd2 SHA256MSG2 X11, X2 // 410f38cdd3 SHA256MSG2 (BX), X11 // 440f38cd1b SHA256MSG2 (R11), X11 // 450f38cd1b SHA256MSG2 X2, X11 // 440f38cdda SHA256MSG2 X11, X11 // 450f38cddb // Test VPERMQ with both uint8 and int8 immediate args VPERMQ $-40, Y8, Y8 // c443fd00c0d8 VPERMQ $216, Y8, Y8 // c443fd00c0d8 // Test that VPERMPD that shares ytab list with VPERMQ continues to work too. VPERMPD $-40, Y7, Y7 // c4e3fd01ffd8 VPERMPD $216, Y7, Y7 // c4e3fd01ffd8 // Check that LEAL is permitted to use overflowing offset. LEAL 2400959708(BP)(R10*1), BP // 428dac15dcbc1b8f LEAL 3395469782(AX)(R10*1), AX // 428d8410d6c162ca // Make sure MOV CR/DR continues to work after changing its movtabs. MOVQ CR0, AX // 0f20c0 MOVQ CR0, DX // 0f20c2 MOVQ CR4, DI // 0f20e7 MOVQ AX, CR0 // 0f22c0 MOVQ DX, CR0 // 0f22c2 MOVQ DI, CR4 // 0f22e7 MOVQ DR0, AX // 0f21c0 MOVQ DR6, DX // 0f21f2 MOVQ DR7, SI // 0f21fe // Test other movtab entries. PUSHQ GS // 0fa8 PUSHQ FS // 0fa0 POPQ FS // 0fa1 POPQ GS // 0fa9 // All instructions below semantically have unsigned operands, // but previous assembler permitted negative arguments. // This behavior is preserved for compatibility reasons. VPSHUFD $-79, X7, X7 // c5f970ffb1 RORXL $-1, (AX), DX // c4e37bf010ff RORXQ $-1, (AX), DX // c4e3fbf010ff VPSHUFD $-1, X1, X2 // c5f970d1ff VPSHUFD $-1, Y1, Y2 // c5fd70d1ff VPSHUFHW $-1, X1, X2 // c5fa70d1ff VPSHUFHW $-1, Y1, Y2 // c5fe70d1ff VPSHUFLW $-1, X1, X2 // c5fb70d1ff VPSHUFLW $-1, Y1, Y2 // c5ff70d1ff VROUNDPD $-1, X1, X2 // c4e37909d1ff VROUNDPS $-1, Y1, Y2 // c4e37d08d1ff VPSLLD $-1, X1, X2 // c5e972f1ff VPSLLD $-1, Y1, Y2 // c5ed72f1ff VPSLLDQ $-1, X1, X2 // c5e973f9ff VPSLLDQ $-1, Y1, Y2 // c5ed73f9ff VPSLLQ $-1, X1, X2 // c5e973f1ff VPSLLQ $-1, Y1, Y2 // c5ed73f1ff VPSRLD $-1, X1, X2 // c5e972d1ff VPSRLD $-1, Y1, Y2 // c5ed72d1ff VPSRLDQ $-1, X1, X2 // c5e973d9ff VPSRLDQ $-1, Y1, Y2 // c5ed73d9ff VPSRLQ $-1, X1, X2 // c5e973d1ff VPSRLQ $-1, Y1, Y2 // c5ed73d1ff VPEXTRW $-1, X1, (AX) // c4e3791508ff VPEXTRW $-1, X1, AX // c4e37915c8ff VEXTRACTF128 $-1, Y1, X2 // c4e37d19caff VEXTRACTI128 $-1, Y1, X2 // c4e37d39caff VAESKEYGENASSIST $-1, X1, X2 // c4e379dfd1ff VPCMPESTRI $-1, X1, X2 // c4e37961d1ff VPCMPESTRM $-1, X1, X2 // c4e37960d1ff VPCMPISTRI $-1, X1, X2 // c4e37963d1ff VPCMPISTRM $-1, X1, X2 // c4e37962d1ff VPERMPD $-1, Y1, Y2 // c4e3fd01d1ff VPERMILPD $-1, X1, X2 // c4e37905d1ff VPERMILPD $-1, Y1, Y2 // c4e37d05d1ff VPERMILPS $-1, X1, X2 // c4e37904d1ff VPERMILPS $-1, Y1, Y2 // c4e37d04d1ff VCVTPS2PH $-1, X1, X2 // c4e3791dcaff VCVTPS2PH $-1, Y1, X2 // c4e37d1dcaff VPSLLW $-1, X1, X2 // c5e971f1ff VPSLLW $-1, Y1, Y2 // c5ed71f1ff VPSRAD $-1, X1, X2 // c5e972e1ff VPSRAD $-1, Y1, Y2 // c5ed72e1ff VPSRAW $-1, X1, X2 // c5e971e1ff VPSRAW $-1, Y1, Y2 // c5ed71e1ff VPSRLW $-1, X1, X1 // c5f171d1ff VPSRLW $-1, Y1, Y2 // c5ed71d1ff VEXTRACTPS $-1, X1, AX // c4e37917c8ff VPEXTRB $-1, X1, AX // c4e37914c8ff VPEXTRD $-1, X1, AX // c4e37916c8ff VPEXTRQ $-1, X1, AX // c4e3f916c8ff // EVEX: High-16 X registers. VADDPD X30, X1, X0 // 6291f50858c6 VADDPD X2, X29, X0 // 62f1950058c2 VADDPD X30, X29, X0 // 6291950058c6 VADDPD X2, X1, X28 // 6261f50858e2 VADDPD X30, X1, X28 // 6201f50858e6 VADDPD X2, X29, X28 // 6261950058e2 VADDPD X30, X29, X28 // 6201950058e6 VADDPD X30, X11, X10 // 6211a50858d6 VADDPD X12, X29, X10 // 6251950058d4 VADDPD X30, X29, X10 // 6211950058d6 VADDPD X12, X11, X28 // 6241a50858e4 VADDPD X30, X11, X28 // 6201a50858e6 VADDPD X12, X29, X28 // 6241950058e4 VADDPD X30, X29, X28 // 6201950058e6 VADDPD (AX), X29, X0 // 62f195005800 VADDPD (AX), X1, X28 // 6261f5085820 VADDPD (AX), X29, X28 // 626195005820 VADDPD (AX), X29, X10 // 627195005810 VADDPD (AX), X10, X28 // 6261ad085820 VADDPD (CX)(AX*1), X29, X0 // 62f19500580401 VADDPD (CX)(AX*1), X1, X28 // 6261f508582401 VADDPD (CX)(AX*1), X29, X28 // 62619500582401 VADDPD (CX)(AX*1), X29, X10 // 62719500581401 VADDPD (CX)(AX*1), X10, X28 // 6261ad08582401 VADDPD (CX)(AX*2), X29, X0 // 62f19500580441 VADDPD (CX)(AX*2), X1, X28 // 6261f508582441 VADDPD (CX)(AX*2), X29, X28 // 62619500582441 VADDPD (CX)(AX*2), X29, X10 // 62719500581441 VADDPD (CX)(AX*2), X10, X28 // 6261ad08582441 // EVEX: displacement without Disp8. VADDPD 15(AX), X29, X0 // 62f1950058800f000000 VADDPD 15(AX), X1, X28 // 6261f50858a00f000000 VADDPD 15(AX), X29, X28 // 6261950058a00f000000 VADDPD 15(AX), X29, X10 // 6271950058900f000000 VADDPD 15(AX), X10, X28 // 6261ad0858a00f000000 VADDPD 15(CX)(AX*1), X29, X0 // 62f195005884010f000000 VADDPD 15(CX)(AX*1), X1, X28 // 6261f50858a4010f000000 VADDPD 15(CX)(AX*1), X29, X28 // 6261950058a4010f000000 VADDPD 15(CX)(AX*1), X29, X10 // 627195005894010f000000 VADDPD 15(CX)(AX*1), X10, X28 // 6261ad0858a4010f000000 VADDPD 15(CX)(AX*2), X29, X0 // 62f195005884410f000000 VADDPD 15(CX)(AX*2), X1, X28 // 6261f50858a4410f000000 VADDPD 15(CX)(AX*2), X29, X28 // 6261950058a4410f000000 VADDPD 15(CX)(AX*2), X29, X10 // 627195005894410f000000 VADDPD 15(CX)(AX*2), X10, X28 // 6261ad0858a4410f000000 // EVEX: compressed displacement (Disp8). VADDPD 2032(DX), X29, X0 // 62f1950058427f VADDPD 2032(DX), X1, X29 // 6261f508586a7f VADDPD 2032(DX), X29, X28 // 6261950058627f VADDPD 2032(DX)(AX*2), X29, X0 // 62f195005844427f VADDPD 2032(DX)(AX*2), X1, X29 // 6261f508586c427f VADDPD 2032(DX)(AX*2), X29, X28 // 626195005864427f VADDPD 4064(DX), Y0, Y29 // 6261fd28586a7f VADDPD 4064(DX), Y29, Y1 // 62f19520584a7f VADDPD 4064(DX), Y28, Y29 // 62619d20586a7f VADDPD 4064(DX)(AX*2), Y0, Y29 // 6261fd28586c427f VADDPD 4064(DX)(AX*2), Y29, Y1 // 62f19520584c427f VADDPD 8128(DX), Z0, Z29 // 6261fd48586a7f VADDPD 8128(DX), Z29, Z1 // 62f19540584a7f VADDPD 8128(DX), Z28, Z29 // 62619d40586a7f VADDPD 8128(DX)(AX*2), Z0, Z29 // 6261fd48586c427f VADDPD 8128(DX)(AX*2), Z29, Z1 // 62f19540584c427f // EVEX: compressed displacement that does not fit into 8bits. VADDPD 2048(DX), X29, X0 // 62f19500588200080000 VADDPD 2048(DX), X1, X29 // 6261f50858aa00080000 VADDPD 2048(DX), X29, X28 // 6261950058a200080000 VADDPD 2048(DX)(AX*2), X29, X0 // 62f1950058844200080000 VADDPD 2048(DX)(AX*2), X1, X29 // 6261f50858ac4200080000 VADDPD 2048(DX)(AX*2), X29, X28 // 6261950058a44200080000 VADDPD 4096(DX), Y0, Y29 // 6261fd2858aa00100000 VADDPD 4096(DX), Y29, Y1 // 62f19520588a00100000 VADDPD 4096(DX), Y28, Y29 // 62619d2058aa00100000 VADDPD 4096(DX)(AX*2), Y0, Y29 // 6261fd2858ac4200100000 VADDPD 4096(DX)(AX*2), Y29, Y1 // 62f19520588c4200100000 VADDPD 8192(DX), Z0, Z29 // 6261fd4858aa00200000 VADDPD 8192(DX), Z29, Z1 // 62f19540588a00200000 VADDPD 8192(DX), Z28, Z29 // 62619d4058aa00200000 VADDPD 8192(DX)(AX*2), Z0, Z29 // 6261fd4858ac4200200000 VADDPD 8192(DX)(AX*2), Z29, Z1 // 62f19540588c4200200000 // EVEX: Y registers; VL=256. VADDPD Y30, Y1, Y0 // 6291f52858c6 VADDPD Y0, Y29, Y2 // 62f1952058d0 VADDPD Y0, Y29, Y30 // 6261952058f0 VADDPD Y28, Y1, Y2 // 6291f52858d4 VADDPD Y28, Y1, Y30 // 6201f52858f4 VADDPD Y28, Y29, Y2 // 6291952058d4 VADDPD Y28, Y29, Y30 // 6201952058f4 VADDPD Y10, Y11, Y30 // 6241a52858f2 VADDPD Y10, Y29, Y12 // 6251952058e2 VADDPD Y10, Y29, Y30 // 6241952058f2 VADDPD Y28, Y11, Y12 // 6211a52858e4 VADDPD Y28, Y11, Y30 // 6201a52858f4 VADDPD Y28, Y29, Y12 // 6211952058e4 VADDPD Y28, Y29, Y30 // 6201952058f4 VADDPD (AX), Y29, Y0 // 62f195205800 VADDPD (AX), Y1, Y28 // 6261f5285820 VADDPD (AX), Y29, Y28 // 626195205820 VADDPD (AX), Y29, Y10 // 627195205810 VADDPD (AX), Y10, Y28 // 6261ad285820 VADDPD (CX)(AX*1), Y29, Y0 // 62f19520580401 VADDPD (CX)(AX*1), Y1, Y28 // 6261f528582401 VADDPD (CX)(AX*1), Y29, Y28 // 62619520582401 VADDPD (CX)(AX*1), Y29, Y10 // 62719520581401 VADDPD (CX)(AX*1), Y10, Y28 // 6261ad28582401 VADDPD (CX)(AX*2), Y29, Y0 // 62f19520580441 VADDPD (CX)(AX*2), Y1, Y28 // 6261f528582441 VADDPD (CX)(AX*2), Y29, Y28 // 62619520582441 VADDPD (CX)(AX*2), Y29, Y10 // 62719520581441 VADDPD (CX)(AX*2), Y10, Y28 // 6261ad28582441 VADDPD 15(AX), Y0, Y29 // 6261fd2858a80f000000 VADDPD 15(AX), Y28, Y1 // 62f19d2058880f000000 VADDPD 15(AX), Y28, Y29 // 62619d2058a80f000000 VADDPD 15(AX), Y10, Y29 // 6261ad2858a80f000000 VADDPD 15(AX), Y28, Y10 // 62719d2058900f000000 VADDPD 15(CX)(AX*1), Y0, Y29 // 6261fd2858ac010f000000 VADDPD 15(CX)(AX*1), Y28, Y1 // 62f19d20588c010f000000 VADDPD 15(CX)(AX*1), Y28, Y29 // 62619d2058ac010f000000 VADDPD 15(CX)(AX*1), Y10, Y29 // 6261ad2858ac010f000000 VADDPD 15(CX)(AX*1), Y28, Y10 // 62719d205894010f000000 VADDPD 15(CX)(AX*2), Y0, Y29 // 6261fd2858ac410f000000 VADDPD 15(CX)(AX*2), Y28, Y1 // 62f19d20588c410f000000 VADDPD 15(CX)(AX*2), Y28, Y29 // 62619d2058ac410f000000 VADDPD 15(CX)(AX*2), Y10, Y29 // 6261ad2858ac410f000000 VADDPD 15(CX)(AX*2), Y28, Y10 // 62719d205894410f000000 VADDPD 2048(DX), Y0, Y29 // 6261fd28586a40 VADDPD 2048(DX), Y29, Y1 // 62f19520584a40 VADDPD 2048(DX), Y28, Y29 // 62619d20586a40 VADDPD 2048(DX)(AX*2), Y0, Y29 // 6261fd28586c4240 VADDPD 2048(DX)(AX*2), Y29, Y1 // 62f19520584c4240 VADDPD 2048(DX)(AX*2), Y28, Y29 // 62619d20586c4240 // EVEX: Z registers; VL=512. VADDPD Z30, Z0, Z1 // 6291fd4858ce VADDPD Z0, Z2, Z29 // 6261ed4858e8 VADDPD Z0, Z30, Z29 // 62618d4058e8 VADDPD Z28, Z2, Z1 // 6291ed4858cc VADDPD Z28, Z30, Z1 // 62918d4058cc VADDPD Z28, Z2, Z29 // 6201ed4858ec VADDPD Z28, Z30, Z29 // 62018d4058ec VADDPD Z10, Z30, Z11 // 62518d4058da VADDPD Z10, Z12, Z29 // 62419d4858ea VADDPD Z10, Z30, Z29 // 62418d4058ea VADDPD Z28, Z12, Z11 // 62119d4858dc VADDPD Z28, Z30, Z11 // 62118d4058dc VADDPD Z28, Z12, Z29 // 62019d4858ec VADDPD Z28, Z30, Z29 // 62018d4058ec VADDPD (AX), Z0, Z29 // 6261fd485828 VADDPD (AX), Z28, Z1 // 62f19d405808 VADDPD (AX), Z28, Z29 // 62619d405828 VADDPD (AX), Z10, Z29 // 6261ad485828 VADDPD (AX), Z28, Z10 // 62719d405810 VADDPD (CX)(AX*1), Z0, Z29 // 6261fd48582c01 VADDPD (CX)(AX*1), Z28, Z1 // 62f19d40580c01 VADDPD (CX)(AX*1), Z28, Z29 // 62619d40582c01 VADDPD (CX)(AX*1), Z10, Z29 // 6261ad48582c01 VADDPD (CX)(AX*1), Z28, Z10 // 62719d40581401 VADDPD (CX)(AX*2), Z0, Z29 // 6261fd48582c41 VADDPD (CX)(AX*2), Z28, Z1 // 62f19d40580c41 VADDPD (CX)(AX*2), Z28, Z29 // 62619d40582c41 VADDPD (CX)(AX*2), Z10, Z29 // 6261ad48582c41 VADDPD (CX)(AX*2), Z28, Z10 // 62719d40581441 VADDPD 15(AX), Z29, Z0 // 62f1954058800f000000 VADDPD 15(AX), Z1, Z28 // 6261f54858a00f000000 VADDPD 15(AX), Z29, Z28 // 6261954058a00f000000 VADDPD 15(AX), Z29, Z10 // 6271954058900f000000 VADDPD 15(AX), Z10, Z28 // 6261ad4858a00f000000 VADDPD 15(CX)(AX*1), Z29, Z0 // 62f195405884010f000000 VADDPD 15(CX)(AX*1), Z1, Z28 // 6261f54858a4010f000000 VADDPD 15(CX)(AX*1), Z29, Z28 // 6261954058a4010f000000 VADDPD 15(CX)(AX*1), Z29, Z10 // 627195405894010f000000 VADDPD 15(CX)(AX*1), Z10, Z28 // 6261ad4858a4010f000000 VADDPD 15(CX)(AX*2), Z29, Z0 // 62f195405884410f000000 VADDPD 15(CX)(AX*2), Z1, Z28 // 6261f54858a4410f000000 VADDPD 15(CX)(AX*2), Z29, Z28 // 6261954058a4410f000000 VADDPD 15(CX)(AX*2), Z29, Z10 // 627195405894410f000000 VADDPD 15(CX)(AX*2), Z10, Z28 // 6261ad4858a4410f000000 VADDPD 2048(DX), Z29, Z0 // 62f19540584220 VADDPD 2048(DX), Z1, Z29 // 6261f548586a20 VADDPD 2048(DX), Z29, Z28 // 62619540586220 VADDPD 2048(DX)(AX*2), Z29, Z0 // 62f1954058444220 VADDPD 2048(DX)(AX*2), Z1, Z29 // 6261f548586c4220 VADDPD 2048(DX)(AX*2), Z29, Z28 // 6261954058644220 // EVEX: KOP (opmask) instructions. KMOVB K0, K0 // c5f990c0 KMOVB K7, K7 // c5f990ff KMOVB K5, K1 // c5f990cd KMOVB K1, K5 // c5f990e9 KMOVB (AX), K1 // c5f99008 KMOVB K0, (AX) // c5f99100 KMOVB K7, (R10) // c4c179913a KMOVB K5, AX // c5f993c5 KMOVB K7, R10 // c57993d7 KMOVB AX, K5 // c5f992e8 KMOVB R10, K7 // c4c17992fa KMOVW K0, K0 // c5f890c0 KMOVW K7, K7 // c5f890ff KMOVW K5, K1 // c5f890cd KMOVW K1, K5 // c5f890e9 KMOVW (AX), K1 // c5f89008 KMOVW K0, (AX) // c5f89100 KMOVW K7, (R10) // c4c178913a KMOVW K5, AX // c5f893c5 KMOVW K7, R10 // c57893d7 KMOVW AX, K5 // c5f892e8 KMOVW R10, K7 // c4c17892fa KMOVD K0, K0 // c4e1f990c0 KMOVD K7, K7 // c4e1f990ff KMOVD K5, K1 // c4e1f990cd KMOVD K1, K5 // c4e1f990e9 KMOVD (AX), K1 // c4e1f99008 KMOVD AX, K5 // c5fb92e8 KMOVD R10, K7 // c4c17b92fa KMOVD K0, (AX) // c4e1f99100 KMOVD K7, (R10) // c4c1f9913a KMOVD K5, AX // c5fb93c5 KMOVD K7, R10 // c57b93d7 KMOVQ K0, K0 // c4e1f890c0 KMOVQ K7, K7 // c4e1f890ff KMOVQ K5, K1 // c4e1f890cd KMOVQ K1, K5 // c4e1f890e9 KMOVQ (AX), K1 // c4e1f89008 KMOVQ AX, K5 // c4e1fb92e8 KMOVQ R10, K7 // c4c1fb92fa KMOVQ K0, (AX) // c4e1f89100 KMOVQ K7, (R10) // c4c1f8913a KMOVQ K5, AX // c4e1fb93c5 KMOVQ K7, R10 // c461fb93d7 KNOTB K7, K0 // c5f944c7 KNOTB K1, K5 // c5f944e9 KNOTW K7, K0 // c5f844c7 KNOTW K1, K5 // c5f844e9 KNOTD K7, K0 // c4e1f944c7 KNOTD K1, K5 // c4e1f944e9 KNOTQ K7, K0 // c4e1f844c7 KNOTQ K1, K5 // c4e1f844e9 KORB K7, K5, K0 // c5d545c7 KORB K0, K7, K5 // c5c545e8 KORW K7, K5, K0 // c5d445c7 KORW K0, K7, K5 // c5c445e8 KORD K7, K5, K0 // c4e1d545c7 KORD K0, K7, K5 // c4e1c545e8 KORQ K7, K5, K0 // c4e1d445c7 KORQ K0, K7, K5 // c4e1c445e8 KSHIFTLB $0, K7, K0 // c4e37932c700 KSHIFTLB $196, K1, K5 // c4e37932e9c4 KSHIFTLW $0, K7, K0 // c4e3f932c700 KSHIFTLW $196, K1, K5 // c4e3f932e9c4 KSHIFTLD $0, K7, K0 // c4e37933c700 KSHIFTLD $196, K1, K5 // c4e37933e9c4 KSHIFTLQ $0, K7, K0 // c4e3f933c700 KSHIFTLQ $196, K1, K5 // c4e3f933e9c4 // EVEX: masking with K1-K7. VADDPD X2, X1, K1, X0 // 62f1f50958c2 VADDPD X12, X1, K4, X10 // 6251f50c58d4 VADDPD X22, X1, K7, X20 // 62a1f50f58e6 VADDPD (AX), X1, K1, X1 // 62f1f5095808 VADDPD 8(R10), X10, K4, X10 // 6251ad0c589208000000 VADDPD (R10)(AX*4), X20, K7, X20 // 62c1dd07582482 VADDPD Y2, Y1, K1, Y0 // 62f1f52958c2 VADDPD Y12, Y1, K4, Y10 // 6251f52c58d4 VADDPD Y22, Y1, K7, Y20 // 62a1f52f58e6 VADDPD (AX), Y1, K1, Y1 // 62f1f5295808 VADDPD 8(R10), Y10, K4, Y10 // 6251ad2c589208000000 VADDPD (R10)(AX*4), Y20, K7, Y20 // 62c1dd27582482 VADDPD Z2, Z1, K1, Z0 // 62f1f54958c2 VADDPD Z12, Z1, K4, Z10 // 6251f54c58d4 VADDPD Z22, Z1, K7, Z20 // 62a1f54f58e6 VADDPD (AX), Z1, K1, Z1 // 62f1f5495808 VADDPD 8(R10), Z10, K4, Z10 // 6251ad4c589208000000 VADDPD (R10)(AX*4), Z20, K7, Z20 // 62c1dd47582482 // EVEX gather (also tests Z as VSIB index). VPGATHERDD 360(AX)(X2*4), K1, X1 // 62f27d09904c905a VPGATHERDD 640(BP)(X15*8), K3, X14 // 62327d0b90b4fd80020000 VPGATHERDD 960(R10)(X25*2), K7, X24 // 62027d0790844ac0030000 VPGATHERDD 1280(R10)(X1*4), K4, X0 // 62d27d0c90848a00050000 VPGATHERDD 360(AX)(Y2*4), K1, Y1 // 62f27d29904c905a VPGATHERDD 640(BP)(Y15*8), K3, Y14 // 62327d2b90b4fd80020000 VPGATHERDD 960(R10)(Y25*2), K7, Y24 // 62027d2790844ac0030000 VPGATHERDD 1280(R10)(Y1*4), K4, Y0 // 62d27d2c90848a00050000 VPGATHERDD 360(AX)(Z2*4), K1, Z1 // 62f27d49904c905a VPGATHERDD 640(BP)(Z15*8), K3, Z14 // 62327d4b90b4fd80020000 VPGATHERDD 960(R10)(Z25*2), K7, Z24 // 62027d4790844ac0030000 VPGATHERDD 1280(R10)(Z1*4), K4, Z0 // 62d27d4c90848a00050000 VPGATHERDQ 360(AX)(X2*4), K1, X1 // 62f2fd09904c902d VPGATHERDQ 640(BP)(X15*8), K3, X14 // 6232fd0b9074fd50 VPGATHERDQ 960(R10)(X25*2), K7, X24 // 6202fd0790444a78 VPGATHERDQ 1280(R10)(X1*4), K4, X0 // 62d2fd0c90848a00050000 VPGATHERDQ 360(AX)(X2*4), K1, Y1 // 62f2fd29904c902d VPGATHERDQ 640(BP)(X15*8), K3, Y14 // 6232fd2b9074fd50 VPGATHERDQ 960(R10)(X25*2), K7, Y24 // 6202fd2790444a78 VPGATHERDQ 1280(R10)(X1*4), K4, Y0 // 62d2fd2c90848a00050000 VPGATHERDQ 360(AX)(Y2*4), K1, Z1 // 62f2fd49904c902d VPGATHERDQ 640(BP)(Y15*8), K3, Z14 // 6232fd4b9074fd50 VPGATHERDQ 960(R10)(Y25*2), K7, Z24 // 6202fd4790444a78 VPGATHERDQ 1280(R10)(Y1*4), K4, Z0 // 62d2fd4c90848a00050000 VGATHERDPD 360(R15)(X30*2), K6, X20 // 6282fd069264772d VGATHERDPD 640(R15)(X20*2), K6, X10 // 6252fd0692546750 VGATHERDPD 960(R15)(X10*2), K6, X20 // 6282fd0e92645778 VGATHERDPD 1280(R15)(X0*2), K6, X10 // 6252fd0e92944700050000 VGATHERDPD 360(R15)(X30*2), K6, Y20 // 6282fd269264772d VGATHERDPD 640(R15)(X20*2), K6, Y10 // 6252fd2692546750 VGATHERDPD 960(R15)(X10*2), K6, Y20 // 6282fd2e92645778 VGATHERDPD 1280(R15)(X0*2), K6, Y10 // 6252fd2e92944700050000 VGATHERDPD 360(R15)(Y30*2), K6, Z20 // 6282fd469264772d VGATHERDPD 640(R15)(Y20*2), K6, Z10 // 6252fd4692546750 VGATHERDPD 960(R15)(Y10*2), K6, Z20 // 6282fd4e92645778 VGATHERDPD 1280(R15)(Y0*2), K6, Z10 // 6252fd4e92944700050000 VGATHERDPS 360(R15)(X30*2), K6, X20 // 62827d069264775a VGATHERDPS 640(R15)(X20*2), K6, X10 // 62527d0692946780020000 VGATHERDPS 960(R15)(X10*2), K6, X20 // 62827d0e92a457c0030000 VGATHERDPS 1280(R15)(X0*2), K6, X10 // 62527d0e92944700050000 VGATHERDPS 360(R15)(Y30*2), K6, Y20 // 62827d269264775a VGATHERDPS 640(R15)(Y20*2), K6, Y10 // 62527d2692946780020000 VGATHERDPS 960(R15)(Y10*2), K6, Y20 // 62827d2e92a457c0030000 VGATHERDPS 1280(R15)(Y0*2), K6, Y10 // 62527d2e92944700050000 VGATHERDPS 360(R15)(Z30*2), K6, Z20 // 62827d469264775a VGATHERDPS 640(R15)(Z20*2), K6, Z10 // 62527d4692946780020000 VGATHERDPS 960(R15)(Z10*2), K6, Z20 // 62827d4e92a457c0030000 VGATHERDPS 1280(R15)(Z0*2), K6, Z10 // 62527d4e92944700050000 VGATHERQPS 360(R15)(X30*2), K6, X20 // 62827d069364775a VGATHERQPS 640(R15)(X20*2), K6, X10 // 62527d0693946780020000 VGATHERQPS 960(R15)(X10*2), K6, X20 // 62827d0e93a457c0030000 VGATHERQPS 1280(R15)(X0*2), K6, X10 // 62527d0e93944700050000 VGATHERQPS 360(R15)(Y30*2), K6, X20 // 62827d269364775a VGATHERQPS 640(R15)(Y20*2), K6, X10 // 62527d2693946780020000 VGATHERQPS 960(R15)(Y10*2), K6, X20 // 62827d2e93a457c0030000 VGATHERQPS 1280(R15)(Y0*2), K6, X10 // 62527d2e93944700050000 VGATHERQPS 360(R15)(Z30*2), K6, Y20 // 62827d469364775a VGATHERQPS 640(R15)(Z20*2), K6, Y10 // 62527d4693946780020000 VGATHERQPS 960(R15)(Z10*2), K6, Y20 // 62827d4e93a457c0030000 VGATHERQPS 1280(R15)(Z0*2), K6, Y10 // 62527d4e93944700050000 VPGATHERQD 360(R15)(X30*2), K6, X20 // 62827d069164775a VPGATHERQD 640(R15)(X20*2), K6, X10 // 62527d0691946780020000 VPGATHERQD 960(R15)(X10*2), K6, X20 // 62827d0e91a457c0030000 VPGATHERQD 1280(R15)(X0*2), K6, X10 // 62527d0e91944700050000 VPGATHERQD 360(R15)(Y30*2), K6, X20 // 62827d269164775a VPGATHERQD 640(R15)(Y20*2), K6, X10 // 62527d2691946780020000 VPGATHERQD 960(R15)(Y10*2), K6, X20 // 62827d2e91a457c0030000 VPGATHERQD 1280(R15)(Y0*2), K6, X10 // 62527d2e91944700050000 VPGATHERQD 360(R15)(Z30*2), K6, Y20 // 62827d469164775a VPGATHERQD 640(R15)(Z20*2), K6, Y10 // 62527d4691946780020000 VPGATHERQD 960(R15)(Z10*2), K6, Y20 // 62827d4e91a457c0030000 VPGATHERQD 1280(R15)(Z0*2), K6, Y10 // 62527d4e91944700050000 VPGATHERQQ 360(R15)(X30*2), K6, X20 // 6282fd069164772d VPGATHERQQ 640(R15)(X20*2), K6, X10 // 6252fd0691546750 VPGATHERQQ 960(R15)(X10*2), K6, X20 // 6282fd0e91645778 VPGATHERQQ 1280(R15)(X0*2), K6, X10 // 6252fd0e91944700050000 VPGATHERQQ 360(R15)(Y30*2), K6, Y20 // 6282fd269164772d VPGATHERQQ 640(R15)(Y20*2), K6, Y10 // 6252fd2691546750 VPGATHERQQ 960(R15)(Y10*2), K6, Y20 // 6282fd2e91645778 VPGATHERQQ 1280(R15)(Y0*2), K6, Y10 // 6252fd2e91944700050000 VPGATHERQQ 360(R15)(Z30*2), K6, Z20 // 6282fd469164772d VPGATHERQQ 640(R15)(Z20*2), K6, Z10 // 6252fd4691546750 VPGATHERQQ 960(R15)(Z10*2), K6, Z20 // 6282fd4e91645778 VPGATHERQQ 1280(R15)(Z0*2), K6, Z10 // 6252fd4e91944700050000 VGATHERQPD 360(R15)(X30*2), K6, X20 // 6282fd069364772d VGATHERQPD 640(R15)(X20*2), K6, X10 // 6252fd0693546750 VGATHERQPD 960(R15)(X10*2), K6, X20 // 6282fd0e93645778 VGATHERQPD 1280(R15)(X0*2), K6, X10 // 6252fd0e93944700050000 VGATHERQPD 360(R15)(Y30*2), K6, Y20 // 6282fd269364772d VGATHERQPD 640(R15)(Y20*2), K6, Y10 // 6252fd2693546750 VGATHERQPD 960(R15)(Y10*2), K6, Y20 // 6282fd2e93645778 VGATHERQPD 1280(R15)(Y0*2), K6, Y10 // 6252fd2e93944700050000 VGATHERQPD 360(R15)(Z30*2), K6, Z20 // 6282fd469364772d VGATHERQPD 640(R15)(Z20*2), K6, Z10 // 6252fd4693546750 VGATHERQPD 960(R15)(Z10*2), K6, Z20 // 6282fd4e93645778 VGATHERQPD 1280(R15)(Z0*2), K6, Z10 // 6252fd4e93944700050000 // EVEX: corner cases for High-16 registers. VADDPD X31, X16, X15 // 6211fd0058ff VADDPD X23, X15, X16 // 62a1850858c7 VADDPD Y31, Y16, Y15 // 6211fd2058ff VADDPD Y23, Y15, Y16 // 62a1852858c7 VADDPD Z31, Z16, Z15 // 6211fd4058ff VADDPD Z23, Z15, Z16 // 62a1854858c7 VGATHERQPD (DX)(X16*1),K1,X31 // 6262fd01933c02 VGATHERQPD (DX)(X31*1),K1,X16 // 62a2fd0193043a VGATHERQPD (DX)(X15*1),K1,X23 // 62a2fd09933c3a VGATHERQPD (DX)(X23*1),K1,X15 // 6272fd01933c3a VGATHERQPD (DX)(Y16*1),K1,Y31 // 6262fd21933c02 VGATHERQPD (DX)(Y31*1),K1,Y16 // 62a2fd2193043a VGATHERQPD (DX)(Y15*1),K1,Y23 // 62a2fd29933c3a VGATHERQPD (DX)(Y23*1),K1,Y15 // 6272fd21933c3a VGATHERQPD (DX)(Z16*1),K1,Z31 // 6262fd41933c02 VGATHERQPD (DX)(Z31*1),K1,Z16 // 62a2fd4193043a VGATHERQPD (DX)(Z15*1),K1,Z23 // 62a2fd49933c3a VGATHERQPD (DX)(Z23*1),K1,Z15 // 6272fd41933c3a // EVEX: VCVTPD2DQ with Y suffix (VL=2). VCVTPD2DQY (BX), X20 // 62e1ff28e623 VCVTPD2DQY (R11), X30 // 6241ff28e633 // XED encoder uses EVEX.X=0 for these; most x86 tools use EVEX.X=1. // Either way is OK. VMOVQ SP, X20 // 62e1fd086ee4 or 62a1fd086ee4 VMOVQ BP, X20 // 62e1fd086ee5 or 62a1fd086ee5 VMOVQ R14, X20 // 62c1fd086ee6 or 6281fd086ee6 // "VMOVQ r/m64, xmm1"/6E vs "VMOVQ xmm2/m64, xmm1"/7E with mem operand. VMOVQ (AX), X20 // 62e1fd086e20 or 62e1fe087e20 VMOVQ 7(DX), X20 // 62e1fd086ea207000000 or 62e1fe087ea207000000 VMOVQ -15(R11)(CX*1), X20 // 62c1fd086ea40bf1ffffff or 62c1fe087ea40bf1ffffff VMOVQ (SP)(AX*2), X20 // 62e1fd086e2444 or 62e1fe087e2444 // "VMOVQ xmm1, r/m64"/7E vs "VMOVQ xmm1, xmm2/m64"/D6 with mem operand. VMOVQ X20, (AX) // 62e1fd087e20 or 62e1fd08d620 VMOVQ X20, 7(DX) // 62e1fd087ea207000000 or 62e1fd08d6a207000000 VMOVQ X20, -15(R11)(CX*1) // 62c1fd087ea40bf1ffffff or 62c1fd08d6a40bf1ffffff VMOVQ X20, (SP)(AX*2) // 62e1fd087e2444 or 62e1fd08d62444 // VMOVHPD: overlapping VEX and EVEX variants. VMOVHPD (AX), X5, X5 // c5d11628 or c4e1d11628 or 62f1d5281628 or 62f1d5481628 VMOVHPD 7(DX), X5, X5 // c5d1166a07 or 62f1d52816aa07000000 or 62f1d54816aa07000000 VMOVHPD -15(R11)(CX*1), X5, X5 // c4c151166c0bf1 or 62d1d52816ac0bf1ffffff or 62d1d54816ac0bf1ffffff VMOVHPD (SP)(AX*2), X5, X5 // c5d1162c44 or c4e1d1162c44 or 62f1d528162c44 or 62f1d548162c44 VMOVHPD (AX), X8, X5 // c5b91628 or c4e1b91628 or 62f1bd281628 or 62f1bd481628 VMOVHPD 7(DX), X8, X5 // c5b9166a07 or 62f1bd2816aa07000000 or 62f1bd4816aa07000000 VMOVHPD -15(R11)(CX*1), X8, X5 // c4c139166c0bf1 or 62d1bd4816ac0bf1ffffff VMOVHPD (SP)(AX*2), X8, X5 // c5b9162c44 or c4e1b9162c44 or 62f1bd28162c44 or 62f1bd48162c44 VMOVHPD (AX), X20, X5 // 62f1dd001628 or 62f1dd201628 or 62f1dd401628 VMOVHPD 7(DX), X20, X5 // 62f1dd0016aa07000000 or 62f1dd2016aa07000000 or 62f1dd4016aa07000000 VMOVHPD -15(R11)(CX*1), X20, X5 // 62d1dd0016ac0bf1ffffff or 62d1dd2016ac0bf1ffffff or 62d1dd4016ac0bf1ffffff VMOVHPD (SP)(AX*2), X20, X5 // 62f1dd00162c44 or 62f1dd20162c44 or 62f1dd40162c44 VMOVHPD (AX), X5, X8 // c5511600 or c461d11600 or 6271d5281600 or 6271d5481600 VMOVHPD 7(DX), X5, X8 // c551164207 or 6271d528168207000000 or 6271d548168207000000 VMOVHPD -15(R11)(CX*1), X5, X8 // c4415116440bf1 or 6251d52816840bf1ffffff or 6251d54816840bf1ffffff VMOVHPD (SP)(AX*2), X5, X8 // c551160444 or 6271d528160444 or 6271d548160444 VMOVHPD (AX), X8, X8 // c5391600 or 6271bd281600 or 6271bd481600 VMOVHPD 7(DX), X8, X8 // c539164207 or 6271bd28168207000000 or 6271bd48168207000000 VMOVHPD -15(R11)(CX*1), X8, X8 // c4413916440bf1 or 6251bd2816840bf1ffffff or 6251bd4816840bf1ffffff VMOVHPD (SP)(AX*2), X8, X8 // c539160444 or 6271bd28160444 or 6271bd48160444 VMOVHPD (AX), X20, X8 // 6271dd001600 or 6271dd201600 or 6271dd401600 VMOVHPD 7(DX), X20, X8 // 6271dd00168207000000 or 6271dd20168207000000 or 6271dd40168207000000 VMOVHPD -15(R11)(CX*1), X20, X8 // 6251dd0016840bf1ffffff or 6251dd2016840bf1ffffff or 6251dd4016840bf1ffffff VMOVHPD (SP)(AX*2), X20, X8 // 6271dd00160444 or 6271dd20160444 or 6271dd40160444 VMOVHPD (AX), X5, X20 // 62e1d5081620 or 62e1d5281620 or 62e1d5481620 VMOVHPD 7(DX), X5, X20 // 62e1d50816a207000000 or 62e1d52816a207000000 or 62e1d54816a207000000 VMOVHPD -15(R11)(CX*1), X5, X20 // 62c1d50816a40bf1ffffff or 62c1d52816a40bf1ffffff or 62c1d54816a40bf1ffffff VMOVHPD (SP)(AX*2), X5, X20 // 62e1d508162444 or 62e1d528162444 or 62e1d548162444 VMOVHPD (AX), X8, X20 // 62e1bd081620 or 62e1bd281620 or 62e1bd481620 VMOVHPD 7(DX), X8, X20 // 62e1bd0816a207000000 or 62e1bd2816a207000000 or 62e1bd4816a207000000 VMOVHPD -15(R11)(CX*1), X8, X20 // 62c1bd0816a40bf1ffffff or 62c1bd2816a40bf1ffffff or 62c1bd4816a40bf1ffffff VMOVHPD (SP)(AX*2), X8, X20 // 62e1bd08162444 or 62e1bd28162444 or 62e1bd48162444 VMOVHPD (AX), X20, X20 // 62e1dd001620 or 62e1dd201620 or 62e1dd401620 VMOVHPD 7(DX), X20, X20 // 62e1dd0016a207000000 or 62e1dd2016a207000000 or 62e1dd4016a207000000 VMOVHPD -15(R11)(CX*1), X20, X20 // 62c1dd0016a40bf1ffffff or 62c1dd2016a40bf1ffffff or 62c1dd4016a40bf1ffffff VMOVHPD (SP)(AX*2), X20, X20 // 62e1dd00162444 or 62e1dd20162444 or 62e1dd40162444 VMOVHPD X5, (AX) // c5f91728 or 62f1fd281728 or 62f1fd481728 VMOVHPD X8, (AX) // c5791700 or 6271fd281700 or 6271fd481700 VMOVHPD X20, (AX) // 62e1fd081720 or 62e1fd281720 or 62e1fd481720 VMOVHPD X5, 7(DX) // c5f9176a07 or 62f1fd2817aa07000000 or 62f1fd4817aa07000000 VMOVHPD X8, 7(DX) // c579174207 or 6271fd28178207000000 or 6271fd48178207000000 VMOVHPD X20, 7(DX) // 62e1fd0817a207000000 or 62e1fd2817a207000000 or 62e1fd4817a207000000 VMOVHPD X5, -15(R11)(CX*1) // c4c179176c0bf1 or 62d1fd2817ac0bf1ffffff or 62d1fd4817ac0bf1ffffff VMOVHPD X8, -15(R11)(CX*1) // c4417917440bf1 or 6251fd2817840bf1ffffff or 6251fd4817840bf1ffffff VMOVHPD X20, -15(R11)(CX*1) // 62c1fd0817a40bf1ffffff or 62c1fd2817a40bf1ffffff or 62c1fd4817a40bf1ffffff VMOVHPD X5, (SP)(AX*2) // c5f9172c44 or 62f1fd28172c44 or 62f1fd48172c44 VMOVHPD X8, (SP)(AX*2) // c579170444 or 6271fd28170444 or 6271fd48170444 VMOVHPD X20, (SP)(AX*2) // 62e1fd08172444 or 62e1fd28172444 or 62e1fd48172444 // VMOVLPD: overlapping VEX and EVEX variants. VMOVLPD (AX), X5, X5 // c5d11228 or 62f1d5281228 or 62f1d5481228 VMOVLPD 7(DX), X5, X5 // c5d1126a07 or 62f1d52812aa07000000 or 62f1d54812aa07000000 VMOVLPD -15(R11)(CX*1), X5, X5 // c4c151126c0bf1 or 62d1d52812ac0bf1ffffff or 62d1d54812ac0bf1ffffff VMOVLPD (SP)(AX*2), X5, X5 // c5d1122c44 or 62f1d528122c44 or 62f1d548122c44 VMOVLPD (AX), X8, X5 // c5b91228 or 62f1bd281228 or 62f1bd481228 VMOVLPD 7(DX), X8, X5 // c5b9126a07 or 62f1bd2812aa07000000 or 62f1bd4812aa07000000 VMOVLPD -15(R11)(CX*1), X8, X5 // c4c139126c0bf1 or 62d1bd2812ac0bf1ffffff or 62d1bd4812ac0bf1ffffff VMOVLPD (SP)(AX*2), X8, X5 // c5b9122c44 or 62f1bd28122c44 or 62f1bd48122c44 VMOVLPD (AX), X20, X5 // 62f1dd001228 or 62f1dd201228 or 62f1dd401228 VMOVLPD 7(DX), X20, X5 // 62f1dd0012aa07000000 or 62f1dd2012aa07000000 or 62f1dd4012aa07000000 VMOVLPD -15(R11)(CX*1), X20, X5 // 62d1dd0012ac0bf1ffffff or 62d1dd2012ac0bf1ffffff or 62d1dd4012ac0bf1ffffff VMOVLPD (SP)(AX*2), X20, X5 // 62f1dd00122c44 or 62f1dd20122c44 or 62f1dd40122c44 VMOVLPD (AX), X5, X8 // c5511200 or 6271d5281200 or 6271d5481200 VMOVLPD 7(DX), X5, X8 // c551124207 or 6271d528128207000000 or 6271d548128207000000 VMOVLPD -15(R11)(CX*1), X5, X8 // c4415112440bf1 or 6251d52812840bf1ffffff or 6251d54812840bf1ffffff VMOVLPD (SP)(AX*2), X5, X8 // c551120444 or 6271d528120444 or 6271d548120444 VMOVLPD (AX), X8, X8 // c5391200 or 6271bd281200 or 6271bd481200 VMOVLPD 7(DX), X8, X8 // c539124207 or 6271bd28128207000000 or 6271bd48128207000000 VMOVLPD -15(R11)(CX*1), X8, X8 // c4413912440bf1 or 6251bd2812840bf1ffffff or 6251bd4812840bf1ffffff VMOVLPD (SP)(AX*2), X8, X8 // c539120444 or 6271bd28120444 or 6271bd48120444 VMOVLPD (AX), X20, X8 // 6271dd001200 or 6271dd201200 or 6271dd401200 VMOVLPD 7(DX), X20, X8 // 6271dd00128207000000 or 6271dd20128207000000 or 6271dd40128207000000 VMOVLPD -15(R11)(CX*1), X20, X8 // 6251dd0012840bf1ffffff or 6251dd2012840bf1ffffff or 6251dd4012840bf1ffffff VMOVLPD (SP)(AX*2), X20, X8 // 6271dd00120444 or 6271dd20120444 or 6271dd40120444 VMOVLPD (AX), X5, X20 // 62e1d5081220 or 62e1d5281220 or 62e1d5481220 VMOVLPD 7(DX), X5, X20 // 62e1d50812a207000000 or 62e1d52812a207000000 or 62e1d54812a207000000 VMOVLPD -15(R11)(CX*1), X5, X20 // 62c1d50812a40bf1ffffff or 62c1d52812a40bf1ffffff or 62c1d54812a40bf1ffffff VMOVLPD (SP)(AX*2), X5, X20 // 62e1d508122444 or 62e1d528122444 or 62e1d548122444 VMOVLPD (AX), X8, X20 // 62e1bd081220 or 62e1bd281220 or 62e1bd481220 VMOVLPD 7(DX), X8, X20 // 62e1bd0812a207000000 or 62e1bd2812a207000000 or 62e1bd4812a207000000 VMOVLPD -15(R11)(CX*1), X8, X20 // 62c1bd0812a40bf1ffffff or 62c1bd2812a40bf1ffffff or 62c1bd4812a40bf1ffffff VMOVLPD (SP)(AX*2), X8, X20 // 62e1bd08122444 or 62e1bd28122444 or 62e1bd48122444 VMOVLPD (AX), X20, X20 // 62e1dd001220 or 62e1dd201220 or 62e1dd401220 VMOVLPD 7(DX), X20, X20 // 62e1dd0012a207000000 or 62e1dd2012a207000000 or 62e1dd4012a207000000 VMOVLPD -15(R11)(CX*1), X20, X20 // 62c1dd0012a40bf1ffffff or 62c1dd2012a40bf1ffffff or 62c1dd4012a40bf1ffffff VMOVLPD (SP)(AX*2), X20, X20 // 62e1dd00122444 or 62e1dd20122444 or 62e1dd40122444 VMOVLPD X5, (AX) // c5f91328 or 62f1fd281328 or 62f1fd481328 VMOVLPD X8, (AX) // c5791300 or 6271fd281300 or 6271fd481300 VMOVLPD X20, (AX) // 62e1fd081320 or 62e1fd281320 or 62e1fd481320 VMOVLPD X5, 7(DX) // c5f9136a07 or 62f1fd2813aa07000000 or 62f1fd4813aa07000000 VMOVLPD X8, 7(DX) // c579134207 or 6271fd28138207000000 or 6271fd48138207000000 VMOVLPD X20, 7(DX) // 62e1fd0813a207000000 or 62e1fd2813a207000000 or 62e1fd4813a207000000 VMOVLPD X5, -15(R11)(CX*1) // c4c179136c0bf1 or 62d1fd2813ac0bf1ffffff or 62d1fd4813ac0bf1ffffff VMOVLPD X8, -15(R11)(CX*1) // c4417913440bf1 or 6251fd2813840bf1ffffff or 6251fd4813840bf1ffffff VMOVLPD X20, -15(R11)(CX*1) // 62c1fd0813a40bf1ffffff or 62c1fd2813a40bf1ffffff or 62c1fd4813a40bf1ffffff VMOVLPD X5, (SP)(AX*2) // c5f9132c44 or 62f1fd28132c44 or 62f1fd48132c44 VMOVLPD X8, (SP)(AX*2) // c579130444 or 6271fd28130444 or 6271fd48130444 VMOVLPD X20, (SP)(AX*2) // 62e1fd08132444 or 62e1fd28132444 or 62e1fd48132444 // "VPEXTRW imm8u, xmm1, r32/m16"/15 vs "VPEXTRW imm8u, xmm2, r32"/C5. VPEXTRW $17, X20, AX // 62b17d08c5c411 or 62e37d0815e011 or 62e3fd0815e011 VPEXTRW $127, X20, AX // 62b17d08c5c47f or 62e37d0815e07f or 62e3fd0815e07f VPEXTRW $17, X20, SP // 62b17d08c5e411 or 62e37d0815e411 or 62e3fd0815e411 VPEXTRW $127, X20, SP // 62b17d08c5e47f or 62e37d0815e47f or 62e3fd0815e47f VPEXTRW $17, X20, BP // 62b17d08c5ec11 or 62e37d0815e511 or 62e3fd0815e511 VPEXTRW $127, X20, BP // 62b17d08c5ec7f or 62e37d0815e57f or 62e3fd0815e57f VPEXTRW $17, X20, R14 // 62317d08c5f411 or 62c37d0815e611 or 62c3fd0815e611 VPEXTRW $127, X20, R14 // 62317d08c5f47f or 62c37d0815e67f or 62c3fd0815e67f VPEXTRW $17, X20, (AX) // 62e37d08152011 or 62e3fd08152011 VPEXTRW $127, X20, (AX) // 62e37d0815207f or 62e3fd0815207f VPEXTRW $17, X20, 7(DX) // 62e37d0815a20700000011 or 62e3fd0815a20700000011 VPEXTRW $127, X20, 7(DX) // 62e37d0815a2070000007f or 62e3fd0815a2070000007f VPEXTRW $17, X20, -15(R11)(CX*1) // 62c37d0815a40bf1ffffff11 or 62c3fd0815a40bf1ffffff11 VPEXTRW $127, X20, -15(R11)(CX*1) // 62c37d0815a40bf1ffffff7f or 62c3fd0815a40bf1ffffff7f VPEXTRW $17, X20, (SP)(AX*2) // 62e37d0815244411 or 62e3fd0815244411 VPEXTRW $127, X20, (SP)(AX*2) // 62e37d081524447f or 62e3fd081524447f // EVEX: embedded zeroing. VADDPD.Z X30, X1, K7, X0 // 6291f58f58c6 VMAXPD.Z (AX), Z2, K1, Z1 // 62f1edc95f08 // EVEX: embedded rounding. VADDPD.RU_SAE Z3, Z2, K1, Z1 // 62f1ed5958cb VADDPD.RD_SAE Z3, Z2, K1, Z1 // 62f1ed3958cb VADDPD.RZ_SAE Z3, Z2, K1, Z1 // 62f1ed7958cb VADDPD.RN_SAE Z3, Z2, K1, Z1 // 62f1ed1958cb VADDPD.RU_SAE.Z Z3, Z2, K1, Z1 // 62f1edd958cb VADDPD.RD_SAE.Z Z3, Z2, K1, Z1 // 62f1edb958cb VADDPD.RZ_SAE.Z Z3, Z2, K1, Z1 // 62f1edf958cb VADDPD.RN_SAE.Z Z3, Z2, K1, Z1 // 62f1ed9958cb // EVEX: embedded broadcasting. VADDPD.BCST (AX), X2, K1, X1 // 62f1ed195808 VADDPD.BCST.Z (AX), X2, K1, X1 // 62f1ed995808 VADDPD.BCST (AX), Y2, K1, Y1 // 62f1ed395808 VADDPD.BCST.Z (AX), Y2, K1, Y1 // 62f1edb95808 VADDPD.BCST (AX), Z2, K1, Z1 // 62f1ed595808 VADDPD.BCST.Z (AX), Z2, K1, Z1 // 62f1edd95808 VMAXPD.BCST (AX), Z2, K1, Z1 // 62f1ed595f08 VMAXPD.BCST.Z (AX), Z2, K1, Z1 // 62f1edd95f08 // EVEX: suppress all exceptions (SAE). VMAXPD.SAE Z3, Z2, K1, Z1 // 62f1ed595fcb or 62f1ed195fcb VMAXPD.SAE.Z Z3, Z2, K1, Z1 // 62f1edd95fcb or 62f1ed995fcb VMAXPD (AX), Z2, K1, Z1 // 62f1ed495f08 VCMPSD.SAE $0, X0, X2, K0 // 62f1ef18c2c000 VCMPSD.SAE $0, X0, X2, K1, K0 // 62f1ef19c2c000 // EVEX: broadcast-affected compressed displacement (Disp8). VADDPD.BCST 1016(DX), X0, X29 // 6261fd18586a7f VADDPD.BCST 1016(DX), X29, X1 // 62f19510584a7f VADDPD.BCST 1016(DX), X28, X29 // 62619d10586a7f VADDPD.BCST 1016(DX)(AX*2), X0, X29 // 6261fd18586c427f VADDPD.BCST 1016(DX)(AX*2), X29, X1 // 62f19510584c427f VADDPD.BCST 1016(DX), Y0, Y29 // 6261fd38586a7f VADDPD.BCST 1016(DX), Y29, Y1 // 62f19530584a7f VADDPD.BCST 1016(DX), Y28, Y29 // 62619d30586a7f VADDPD.BCST 1016(DX)(AX*2), Y0, Y29 // 6261fd38586c427f VADDPD.BCST 1016(DX)(AX*2), Y29, Y1 // 62f19530584c427f VADDPD.BCST 1016(DX), Z0, Z29 // 6261fd58586a7f VADDPD.BCST 1016(DX), Z29, Z1 // 62f19550584a7f VADDPD.BCST 1016(DX), Z28, Z29 // 62619d50586a7f VADDPD.BCST 1016(DX)(AX*2), Z0, Z29 // 6261fd58586c427f VADDPD.BCST 1016(DX)(AX*2), Z29, Z1 // 62f19550584c427f VADDPS.BCST 508(DX), Z0, Z29 // 62617c58586a7f VADDPS.BCST 508(DX), Z1, Z29 // 62617458586a7f VADDPS.BCST 508(DX), Z28, Z29 // 62611c50586a7f VADDPS.BCST 508(DX)(AX*2), Z0, Z29 // 62617c58586c427f VADDPS.BCST 508(DX)(AX*2), Z1, Z29 // 62617458586c427f // EVEX: broadcast-affected compressed displacement that does not fit into 8bits. VADDPD.BCST 2032(DX), X0, X29 // 6261fd1858aaf0070000 VADDPD.BCST 2032(DX), X29, X1 // 62f19510588af0070000 VADDPD.BCST 2032(DX), X28, X29 // 62619d1058aaf0070000 VADDPD.BCST 2032(DX)(AX*2), X0, X29 // 6261fd1858ac42f0070000 VADDPD.BCST 2032(DX)(AX*2), X29, X1 // 62f19510588c42f0070000 VADDPD.BCST 2032(DX), Y0, Y29 // 6261fd3858aaf0070000 VADDPD.BCST 2032(DX), Y29, Y1 // 62f19530588af0070000 VADDPD.BCST 2032(DX), Y28, Y29 // 62619d3058aaf0070000 VADDPD.BCST 2032(DX)(AX*2), Y0, Y29 // 6261fd3858ac42f0070000 VADDPD.BCST 2032(DX)(AX*2), Y29, Y1 // 62f19530588c42f0070000 VADDPD.BCST 2032(DX), Z0, Z29 // 6261fd5858aaf0070000 VADDPD.BCST 2032(DX), Z29, Z1 // 62f19550588af0070000 VADDPD.BCST 2032(DX), Z28, Z29 // 62619d5058aaf0070000 VADDPD.BCST 2032(DX)(AX*2), Z0, Z29 // 6261fd5858ac42f0070000 VADDPD.BCST 2032(DX)(AX*2), Z29, Z1 // 62f19550588c42f0070000 VADDPS.BCST 2032(DX), Z0, Z29 // 62617c5858aaf0070000 VADDPS.BCST 2032(DX), Z1, Z29 // 6261745858aaf0070000 VADDPS.BCST 2032(DX), Z28, Z29 // 62611c5058aaf0070000 VADDPS.BCST 2032(DX)(AX*2), Z0, Z29 // 62617c5858ac42f0070000 VADDPS.BCST 2032(DX)(AX*2), Z1, Z29 // 6261745858ac42f0070000 // Forced EVEX encoding due to suffixes. VADDPD.BCST 2032(DX), X0, X0 // 62f1fd185882f0070000 VADDPD.BCST 2032(DX), Y0, Y0 // 62f1fd385882f0070000 // Test new Z-cases one-by-one. // // Zevex_i_r_k_rm. VCVTPS2PH $1, Z2, K5, Y21 // 62b37d4d1dd501 VCVTPS2PH $2, Z21, K4, Y2 // 62e37d4c1dea02 // Zevex_i_r_rm. VCVTPS2PH $1, Z2, Y21 // 62b37d481dd501 VCVTPS2PH $2, Z21, Y2 // 62e37d481dea02 // Zevex_i_rm_k_r. VFPCLASSPDX $1, X2, K5, K3 // 62f3fd0d66da01 VFPCLASSPDX $2, X21, K4, K1 // 62b3fd0c66cd02 VFPCLASSPDX $1, (AX), K5, K3 // 62f3fd0d661801 VFPCLASSPDX $2, (CX), K4, K1 // 62f3fd0c660902 // Zevex_i_rm_k_vo. VPROLD $1, X2, K5, X21 // 62f1550572ca01 VPROLD $2, Y21, K5, Y2 // 62b16d2d72cd02 VPROLD $1, (AX), K5, X21 // 62f15505720801 VPROLD $2, (CX), K5, Y2 // 62f16d2d720902 // Zevex_i_rm_r. VFPCLASSPDX $1, X2, K3 // 62f3fd0866da01 VFPCLASSPDX $2, X21, K1 // 62b3fd0866cd02 VFPCLASSPDX $1, (AX), K3 // 62f3fd08661801 VFPCLASSPDX $2, (CX), K1 // 62f3fd08660902 // Zevex_i_rm_v_k_r. VALIGND $1, X2, X9, K5, X21 // 62e3350d03ea01 VALIGND $2, Y21, Y2, K5, Y9 // 62336d2d03cd02 VALIGND $3, Z9, Z21, K5, Z2 // 62d3554503d103 VALIGND $1, (AX), X9, K5, X21 // 62e3350d032801 VALIGND $2, (CX), Y2, K5, Y9 // 62736d2d030902 VALIGND $3, (AX), Z21, K5, Z2 // 62f35545031003 // Zevex_i_rm_v_r. VALIGND $1, X2, X9, X21 // 62e3350803ea01 VALIGND $2, Y21, Y2, Y9 // 62336d2803cd02 VALIGND $3, Z9, Z21, Z2 // 62d3554003d103 VALIGND $1, (AX), X9, X21 // 62e33508032801 VALIGND $2, (CX), Y2, Y9 // 62736d28030902 VALIGND $3, (AX), Z21, Z2 // 62f35540031003 // Zevex_i_rm_vo. VPROLD $1, X2, X21 // 62f1550072ca01 VPROLD $2, Y21, Y2 // 62b16d2872cd02 VPROLD $1, (AX), X21 // 62f15500720801 VPROLD $2, (CX), Y2 // 62f16d28720902 // Zevex_k_rmo. VGATHERPF0DPD K5, (AX)(Y2*2) // 62f2fd4dc60c50 VGATHERPF0DPD K3, (CX)(Y21*2) // 62f2fd43c60c69 VSCATTERPF1DPD K5, (AX)(Y2*2) // 62f2fd4dc63450 VSCATTERPF1DPD K3, (CX)(Y21*2) // 62f2fd43c63469 // Zevex_r_k_rm. VPSCATTERDD X2, K5, (AX)(X21*2) // 62f27d05a01468 VPSCATTERDD X21, K5, (AX)(X2*2) // 62e27d0da02c50 VPSCATTERDD Y2, K5, (AX)(Y21*2) // 62f27d25a01468 VPSCATTERDD Y21, K5, (AX)(Y2*2) // 62e27d2da02c50 VPSCATTERDD Z2, K5, (AX)(Z21*2) // 62f27d45a01468 VPSCATTERDD Z21, K5, (AX)(Z2*2) // 62e27d4da02c50 // Zevex_r_v_k_rm. VMOVSD X2, X9, K5, X21 // 62b1b70d11d5 or 62e1b70d10ea VMOVSD X21, X2, K5, X9 // 62c1ef0d11e9 or 6231ef0d10cd VMOVSD X9, X21, K5, X2 // 6271d70511ca or 62d1d70510d1 // Zevex_r_v_rm. VMOVSD X2, X9, X21 // 62b1b70811d5 or 62e1b70810ea VMOVSD X21, X2, X9 // 62c1ef0811e9 or 6231ef0810cd VMOVSD X9, X21, X2 // 6271d70011ca or 62d1d70010d1 VPMOVDB X2, X21 // 62b27e0831d5 VPMOVDB X21, X2 // 62e27e0831ea VPMOVDB X2, (AX) // 62f27e083110 VPMOVDB X21, (AX) // 62e27e083128 // Zevex_rm_k_r. VMOVDDUP X2, K5, X21 // 62e1ff0d12ea VMOVDDUP X21, K5, X2 // 62b1ff0d12d5 VMOVDDUP (AX), K5, X21 // 62e1ff0d1228 VMOVDDUP (CX), K5, X2 // 62f1ff0d1211 VMOVDDUP Y2, K5, Y21 // 62e1ff2d12ea VMOVDDUP Y21, K5, Y2 // 62b1ff2d12d5 VMOVDDUP (AX), K5, Y21 // 62e1ff2d1228 VMOVDDUP (CX), K5, Y2 // 62f1ff2d1211 VMOVDDUP Z2, K5, Z21 // 62e1ff4d12ea VMOVDDUP Z21, K5, Z2 // 62b1ff4d12d5 VMOVDDUP (AX), K5, Z21 // 62e1ff4d1228 VMOVDDUP (CX), K5, Z2 // 62f1ff4d1211 // Zevex_rm_v_k_r. VADDPD Z2, Z9, K5, Z21 // 62e1b54d58ea VADDPD Z21, Z2, K5, Z9 // 6231ed4d58cd VADDPD Z9, Z21, K5, Z2 // 62d1d54558d1 // Zevex_rm_v_r. VADDPD Z2, Z9, Z21 // 62e1b54858ea VADDPD Z21, Z2, Z9 // 6231ed4858cd VADDPD Z9, Z21, Z2 // 62d1d54058d1 CLWB (BX) // 660fae33 CLDEMOTE (BX) // 0f1c03 TPAUSE BX // 660faef3 UMONITOR BX // f30faef3 UMWAIT BX // f20faef3 RDPID DX // f30fc7fa RDPID R11 // f3410fc7fb // End of tests. RET