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qemu / qemu / 22126fdb1c4f71d7ff02327e14b612d77126334b / . / target / s390x / tcg / insn-data.h.inc
blob: e7d61cdec285b22e1603c0ceab83793ca4e651b6 [file] [log] [blame]
/*
* Arguments to the opcode prototypes
*
* C(OPC, NAME, FMT, FAC, I1, I2, P, W, OP, CC)
* D(OPC, NAME, FMT, FAC, I1, I2, P, W, OP, CC, DATA)
* E(OPC, NAME, FMT, FAC, I1, I2, P, W, OP, CC, DATA, FLAGS)
* F(OPC, NAME, FMT, FAC, I1, I2, P, W, OP, CC, FLAGS)
*
* OPC = (op << 8) | op2 where op is the major, op2 the minor opcode
* NAME = name of the opcode, used internally
* FMT = format of the opcode (defined in insn-format.h.inc)
* FAC = facility the opcode is available in (defined in DisasFacility)
* I1 = func in1_xx fills o->in1
* I2 = func in2_xx fills o->in2
* P = func prep_xx initializes o->*out*
* W = func wout_xx writes o->*out* somewhere
* OP = func op_xx does the bulk of the operation
* CC = func cout_xx defines how cc should get set
* DATA = immediate argument to op_xx function
* FLAGS = categorize the type of instruction (e.g. for advanced checks)
*
* The helpers get called in order: I1, I2, P, OP, W, CC
*/
/* ADD */
C(0x1a00, AR, RR_a, Z, r1, r2, new, r1_32, add, adds32)
C(0xb9f8, ARK, RRF_a, DO, r2, r3, new, r1_32, add, adds32)
C(0x5a00, A, RX_a, Z, r1, m2_32s, new, r1_32, add, adds32)
C(0xe35a, AY, RXY_a, LD, r1, m2_32s, new, r1_32, add, adds32)
C(0xb908, AGR, RRE, Z, r1, r2, r1, 0, add, adds64)
C(0xb918, AGFR, RRE, Z, r1, r2_32s, r1, 0, add, adds64)
C(0xb9e8, AGRK, RRF_a, DO, r2, r3, r1, 0, add, adds64)
C(0xe308, AG, RXY_a, Z, r1, m2_64, r1, 0, add, adds64)
C(0xe318, AGF, RXY_a, Z, r1, m2_32s, r1, 0, add, adds64)
F(0xb30a, AEBR, RRE, Z, e1, e2, new, e1, aeb, f32, IF_BFP)
F(0xb31a, ADBR, RRE, Z, f1, f2, new, f1, adb, f64, IF_BFP)
F(0xb34a, AXBR, RRE, Z, x1, x2, new_x, x1, axb, f128, IF_BFP)
F(0xed0a, AEB, RXE, Z, e1, m2_32u, new, e1, aeb, f32, IF_BFP)
F(0xed1a, ADB, RXE, Z, f1, m2_64, new, f1, adb, f64, IF_BFP)
/* ADD HIGH */
C(0xb9c8, AHHHR, RRF_a, HW, r2_sr32, r3_sr32, new, r1_32h, add, adds32)
C(0xb9d8, AHHLR, RRF_a, HW, r2_sr32, r3, new, r1_32h, add, adds32)
/* ADD IMMEDIATE */
C(0xc209, AFI, RIL_a, EI, r1, i2, new, r1_32, add, adds32)
D(0xeb6a, ASI, SIY, GIE, la1, i2, new, 0, asi, adds32, MO_TESL)
C(0xecd8, AHIK, RIE_d, DO, r3, i2, new, r1_32, add, adds32)
C(0xc208, AGFI, RIL_a, EI, r1, i2, r1, 0, add, adds64)
D(0xeb7a, AGSI, SIY, GIE, la1, i2, new, 0, asi, adds64, MO_TEUQ)
C(0xecd9, AGHIK, RIE_d, DO, r3, i2, r1, 0, add, adds64)
/* ADD IMMEDIATE HIGH */
C(0xcc08, AIH, RIL_a, HW, r1_sr32, i2, new, r1_32h, add, adds32)
/* ADD HALFWORD */
C(0x4a00, AH, RX_a, Z, r1, m2_16s, new, r1_32, add, adds32)
C(0xe37a, AHY, RXY_a, LD, r1, m2_16s, new, r1_32, add, adds32)
C(0xe338, AGH, RXY_a, MIE2,r1, m2_16s, r1, 0, add, adds64)
/* ADD HALFWORD IMMEDIATE */
C(0xa70a, AHI, RI_a, Z, r1, i2, new, r1_32, add, adds32)
C(0xa70b, AGHI, RI_a, Z, r1, i2, r1, 0, add, adds64)
/* ADD LOGICAL */
C(0x1e00, ALR, RR_a, Z, r1_32u, r2_32u, new, r1_32, add, addu32)
C(0xb9fa, ALRK, RRF_a, DO, r2_32u, r3_32u, new, r1_32, add, addu32)
C(0x5e00, AL, RX_a, Z, r1_32u, m2_32u, new, r1_32, add, addu32)
C(0xe35e, ALY, RXY_a, LD, r1_32u, m2_32u, new, r1_32, add, addu32)
C(0xb90a, ALGR, RRE, Z, r1, r2, r1, 0, addu64, addu64)
C(0xb91a, ALGFR, RRE, Z, r1, r2_32u, r1, 0, addu64, addu64)
C(0xb9ea, ALGRK, RRF_a, DO, r2, r3, r1, 0, addu64, addu64)
C(0xe30a, ALG, RXY_a, Z, r1, m2_64, r1, 0, addu64, addu64)
C(0xe31a, ALGF, RXY_a, Z, r1, m2_32u, r1, 0, addu64, addu64)
/* ADD LOGICAL HIGH */
C(0xb9ca, ALHHHR, RRF_a, HW, r2_sr32, r3_sr32, new, r1_32h, add, addu32)
C(0xb9da, ALHHLR, RRF_a, HW, r2_sr32, r3_32u, new, r1_32h, add, addu32)
/* ADD LOGICAL IMMEDIATE */
C(0xc20b, ALFI, RIL_a, EI, r1_32u, i2_32u, new, r1_32, add, addu32)
C(0xc20a, ALGFI, RIL_a, EI, r1, i2_32u, r1, 0, addu64, addu64)
/* ADD LOGICAL WITH SIGNED IMMEDIATE */
D(0xeb6e, ALSI, SIY, GIE, la1, i2_32u, new, 0, asi, addu32, MO_TEUL)
C(0xecda, ALHSIK, RIE_d, DO, r3_32u, i2_32u, new, r1_32, add, addu32)
D(0xeb7e, ALGSI, SIY, GIE, la1, i2, new, 0, asiu64, addu64, MO_TEUQ)
C(0xecdb, ALGHSIK, RIE_d, DO, r3, i2, r1, 0, addu64, addu64)
/* ADD LOGICAL WITH SIGNED IMMEDIATE HIGH */
C(0xcc0a, ALSIH, RIL_a, HW, r1_sr32, i2_32u, new, r1_32h, add, addu32)
C(0xcc0b, ALSIHN, RIL_a, HW, r1_sr32, i2_32u, new, r1_32h, add, 0)
/* ADD LOGICAL WITH CARRY */
C(0xb998, ALCR, RRE, Z, r1_32u, r2_32u, new, r1_32, addc32, addu32)
C(0xb988, ALCGR, RRE, Z, r1, r2, r1, 0, addc64, addu64)
C(0xe398, ALC, RXY_a, Z, r1_32u, m2_32u, new, r1_32, addc32, addu32)
C(0xe388, ALCG, RXY_a, Z, r1, m2_64, r1, 0, addc64, addu64)
/* AND */
C(0x1400, NR, RR_a, Z, r1, r2, new, r1_32, and, nz32)
C(0xb9f4, NRK, RRF_a, DO, r2, r3, new, r1_32, and, nz32)
C(0x5400, N, RX_a, Z, r1, m2_32s, new, r1_32, and, nz32)
C(0xe354, NY, RXY_a, LD, r1, m2_32s, new, r1_32, and, nz32)
C(0xb980, NGR, RRE, Z, r1, r2, r1, 0, and, nz64)
C(0xb9e4, NGRK, RRF_a, DO, r2, r3, r1, 0, and, nz64)
C(0xe380, NG, RXY_a, Z, r1, m2_64, r1, 0, and, nz64)
C(0xd400, NC, SS_a, Z, la1, a2, 0, 0, nc, 0)
/* AND IMMEDIATE */
D(0xc00a, NIHF, RIL_a, EI, r1_o, i2_32u, r1, 0, andi, 0, 0x2020)
D(0xc00b, NILF, RIL_a, EI, r1_o, i2_32u, r1, 0, andi, 0, 0x2000)
D(0xa504, NIHH, RI_a, Z, r1_o, i2_16u, r1, 0, andi, 0, 0x1030)
D(0xa505, NIHL, RI_a, Z, r1_o, i2_16u, r1, 0, andi, 0, 0x1020)
D(0xa506, NILH, RI_a, Z, r1_o, i2_16u, r1, 0, andi, 0, 0x1010)
D(0xa507, NILL, RI_a, Z, r1_o, i2_16u, r1, 0, andi, 0, 0x1000)
D(0x9400, NI, SI, Z, la1, i2_8u, new, 0, ni, nz64, MO_UB)
D(0xeb54, NIY, SIY, LD, la1, i2_8u, new, 0, ni, nz64, MO_UB)
/* AND WITH COMPLEMENT */
C(0xb9f5, NCRK, RRF_a, MIE3, r2, r3, new, r1_32, andc, nz32)
C(0xb9e5, NCGRK, RRF_a, MIE3, r2, r3, r1, 0, andc, nz64)
/* BRANCH AND LINK */
C(0x0500, BALR, RR_a, Z, 0, r2_nz, r1, 0, bal, 0)
C(0x4500, BAL, RX_a, Z, 0, a2, r1, 0, bal, 0)
/* BRANCH AND SAVE */
C(0x0d00, BASR, RR_a, Z, 0, r2_nz, r1, 0, bas, 0)
C(0x4d00, BAS, RX_a, Z, 0, a2, r1, 0, bas, 0)
/* BRANCH RELATIVE AND SAVE */
C(0xa705, BRAS, RI_b, Z, 0, 0, r1, 0, basi, 0)
C(0xc005, BRASL, RIL_b, Z, 0, 0, r1, 0, basi, 0)
/* BRANCH INDIRECT ON CONDITION */
C(0xe347, BIC, RXY_b, MIE2,0, m2_64w, 0, 0, bc, 0)
/* BRANCH ON CONDITION */
C(0x0700, BCR, RR_b, Z, 0, r2_nz, 0, 0, bc, 0)
C(0x4700, BC, RX_b, Z, 0, a2, 0, 0, bc, 0)
/* BRANCH RELATIVE ON CONDITION */
C(0xa704, BRC, RI_c, Z, 0, 0, 0, 0, bc, 0)
C(0xc004, BRCL, RIL_c, Z, 0, 0, 0, 0, bc, 0)
/* BRANCH ON COUNT */
C(0x0600, BCTR, RR_a, Z, 0, r2_nz, 0, 0, bct32, 0)
C(0xb946, BCTGR, RRE, Z, 0, r2_nz, 0, 0, bct64, 0)
C(0x4600, BCT, RX_a, Z, 0, a2, 0, 0, bct32, 0)
C(0xe346, BCTG, RXY_a, Z, 0, a2, 0, 0, bct64, 0)
/* BRANCH RELATIVE ON COUNT */
C(0xa706, BRCT, RI_b, Z, 0, 0, 0, 0, bct32, 0)
C(0xa707, BRCTG, RI_b, Z, 0, 0, 0, 0, bct64, 0)
/* BRANCH RELATIVE ON COUNT HIGH */
C(0xcc06, BRCTH, RIL_b, HW, 0, 0, 0, 0, bcth, 0)
/* BRANCH ON INDEX */
D(0x8600, BXH, RS_a, Z, 0, a2, 0, 0, bx32, 0, 0)
D(0x8700, BXLE, RS_a, Z, 0, a2, 0, 0, bx32, 0, 1)
D(0xeb44, BXHG, RSY_a, Z, 0, a2, 0, 0, bx64, 0, 0)
D(0xeb45, BXLEG, RSY_a, Z, 0, a2, 0, 0, bx64, 0, 1)
/* BRANCH RELATIVE ON INDEX */
D(0x8400, BRXH, RSI, Z, 0, 0, 0, 0, bx32, 0, 0)
D(0x8500, BRXLE, RSI, Z, 0, 0, 0, 0, bx32, 0, 1)
D(0xec44, BRXHG, RIE_e, Z, 0, 0, 0, 0, bx64, 0, 0)
D(0xec45, BRXHLE, RIE_e, Z, 0, 0, 0, 0, bx64, 0, 1)
/* BRANCH PREDICTION PRELOAD */
/* ??? Format is SMI, but implemented as NOP, so we need no fields. */
C(0xc700, BPP, E, EH, 0, 0, 0, 0, 0, 0)
/* BRANCH PREDICTION RELATIVE PRELOAD */
/* ??? Format is MII, but implemented as NOP, so we need no fields. */
C(0xc500, BPRP, E, EH, 0, 0, 0, 0, 0, 0)
/* NEXT INSTRUCTION ACCESS INTENT */
/* ??? Format is IE, but implemented as NOP, so we need no fields. */
C(0xb2fa, NIAI, E, EH, 0, 0, 0, 0, 0, 0)
/* CHECKSUM */
C(0xb241, CKSM, RRE, Z, r1_o, ra2_E, new, r1_32, cksm, 0)
/* COPY SIGN */
F(0xb372, CPSDR, RRF_b, FPSSH, f3, f2, new, f1, cps, 0, IF_AFP1 | IF_AFP2 | IF_AFP3)
/* COMPARE */
C(0x1900, CR, RR_a, Z, r1_o, r2_o, 0, 0, 0, cmps32)
C(0x5900, C, RX_a, Z, r1_o, m2_32s, 0, 0, 0, cmps32)
C(0xe359, CY, RXY_a, LD, r1_o, m2_32s, 0, 0, 0, cmps32)
C(0xb920, CGR, RRE, Z, r1_o, r2_o, 0, 0, 0, cmps64)
C(0xb930, CGFR, RRE, Z, r1_o, r2_32s, 0, 0, 0, cmps64)
C(0xe320, CG, RXY_a, Z, r1_o, m2_64, 0, 0, 0, cmps64)
C(0xe330, CGF, RXY_a, Z, r1_o, m2_32s, 0, 0, 0, cmps64)
F(0xb309, CEBR, RRE, Z, e1, e2, 0, 0, ceb, 0, IF_BFP)
F(0xb319, CDBR, RRE, Z, f1, f2, 0, 0, cdb, 0, IF_BFP)
F(0xb349, CXBR, RRE, Z, x1, x2, 0, 0, cxb, 0, IF_BFP)
F(0xed09, CEB, RXE, Z, e1, m2_32u, 0, 0, ceb, 0, IF_BFP)
F(0xed19, CDB, RXE, Z, f1, m2_64, 0, 0, cdb, 0, IF_BFP)
/* COMPARE AND SIGNAL */
F(0xb308, KEBR, RRE, Z, e1, e2, 0, 0, keb, 0, IF_BFP)
F(0xb318, KDBR, RRE, Z, f1, f2, 0, 0, kdb, 0, IF_BFP)
F(0xb348, KXBR, RRE, Z, x1, x2, 0, 0, kxb, 0, IF_BFP)
F(0xed08, KEB, RXE, Z, e1, m2_32u, 0, 0, keb, 0, IF_BFP)
F(0xed18, KDB, RXE, Z, f1, m2_64, 0, 0, kdb, 0, IF_BFP)
/* COMPARE IMMEDIATE */
C(0xc20d, CFI, RIL_a, EI, r1, i2, 0, 0, 0, cmps32)
C(0xc20c, CGFI, RIL_a, EI, r1, i2, 0, 0, 0, cmps64)
/* COMPARE RELATIVE LONG */
C(0xc60d, CRL, RIL_b, GIE, r1, mri2_32s, 0, 0, 0, cmps32)
C(0xc608, CGRL, RIL_b, GIE, r1, mri2_64, 0, 0, 0, cmps64)
C(0xc60c, CGFRL, RIL_b, GIE, r1, mri2_32s, 0, 0, 0, cmps64)
/* COMPARE HALFWORD */
C(0x4900, CH, RX_a, Z, r1_o, m2_16s, 0, 0, 0, cmps32)
C(0xe379, CHY, RXY_a, LD, r1_o, m2_16s, 0, 0, 0, cmps32)
C(0xe334, CGH, RXY_a, GIE, r1_o, m2_16s, 0, 0, 0, cmps64)
/* COMPARE HALFWORD IMMEDIATE */
C(0xa70e, CHI, RI_a, Z, r1_o, i2, 0, 0, 0, cmps32)
C(0xa70f, CGHI, RI_a, Z, r1_o, i2, 0, 0, 0, cmps64)
C(0xe554, CHHSI, SIL, GIE, m1_16s, i2, 0, 0, 0, cmps64)
C(0xe55c, CHSI, SIL, GIE, m1_32s, i2, 0, 0, 0, cmps64)
C(0xe558, CGHSI, SIL, GIE, m1_64, i2, 0, 0, 0, cmps64)
/* COMPARE HALFWORD RELATIVE LONG */
C(0xc605, CHRL, RIL_b, GIE, r1_o, mri2_16s, 0, 0, 0, cmps32)
C(0xc604, CGHRL, RIL_b, GIE, r1_o, mri2_16s, 0, 0, 0, cmps64)
/* COMPARE HIGH */
C(0xb9cd, CHHR, RRE, HW, r1_sr32, r2_sr32, 0, 0, 0, cmps32)
C(0xb9dd, CHLR, RRE, HW, r1_sr32, r2_o, 0, 0, 0, cmps32)
C(0xe3cd, CHF, RXY_a, HW, r1_sr32, m2_32s, 0, 0, 0, cmps32)
/* COMPARE IMMEDIATE HIGH */
C(0xcc0d, CIH, RIL_a, HW, r1_sr32, i2, 0, 0, 0, cmps32)
/* COMPARE LOGICAL */
C(0x1500, CLR, RR_a, Z, r1, r2, 0, 0, 0, cmpu32)
C(0x5500, CL, RX_a, Z, r1, m2_32s, 0, 0, 0, cmpu32)
C(0xe355, CLY, RXY_a, LD, r1, m2_32s, 0, 0, 0, cmpu32)
C(0xb921, CLGR, RRE, Z, r1, r2, 0, 0, 0, cmpu64)
C(0xb931, CLGFR, RRE, Z, r1, r2_32u, 0, 0, 0, cmpu64)
C(0xe321, CLG, RXY_a, Z, r1, m2_64, 0, 0, 0, cmpu64)
C(0xe331, CLGF, RXY_a, Z, r1, m2_32u, 0, 0, 0, cmpu64)
C(0xd500, CLC, SS_a, Z, la1, a2, 0, 0, clc, 0)
/* COMPARE LOGICAL HIGH */
C(0xb9cf, CLHHR, RRE, HW, r1_sr32, r2_sr32, 0, 0, 0, cmpu32)
C(0xb9df, CLHLR, RRE, HW, r1_sr32, r2_o, 0, 0, 0, cmpu32)
C(0xe3cf, CLHF, RXY_a, HW, r1_sr32, m2_32s, 0, 0, 0, cmpu32)
/* COMPARE LOGICAL IMMEDIATE */
C(0xc20f, CLFI, RIL_a, EI, r1, i2, 0, 0, 0, cmpu32)
C(0xc20e, CLGFI, RIL_a, EI, r1, i2_32u, 0, 0, 0, cmpu64)
C(0x9500, CLI, SI, Z, m1_8u, i2_8u, 0, 0, 0, cmpu64)
C(0xeb55, CLIY, SIY, LD, m1_8u, i2_8u, 0, 0, 0, cmpu64)
C(0xe555, CLHHSI, SIL, GIE, m1_16u, i2_16u, 0, 0, 0, cmpu64)
C(0xe55d, CLFHSI, SIL, GIE, m1_32u, i2_16u, 0, 0, 0, cmpu64)
C(0xe559, CLGHSI, SIL, GIE, m1_64, i2_16u, 0, 0, 0, cmpu64)
/* COMPARE LOGICAL IMMEDIATE HIGH */
C(0xcc0f, CLIH, RIL_a, HW, r1_sr32, i2, 0, 0, 0, cmpu32)
/* COMPARE LOGICAL RELATIVE LONG */
C(0xc60f, CLRL, RIL_b, GIE, r1_o, mri2_32u, 0, 0, 0, cmpu32)
C(0xc60a, CLGRL, RIL_b, GIE, r1_o, mri2_64, 0, 0, 0, cmpu64)
C(0xc60e, CLGFRL, RIL_b, GIE, r1_o, mri2_32u, 0, 0, 0, cmpu64)
C(0xc607, CLHRL, RIL_b, GIE, r1_o, mri2_16u, 0, 0, 0, cmpu32)
C(0xc606, CLGHRL, RIL_b, GIE, r1_o, mri2_16u, 0, 0, 0, cmpu64)
/* COMPARE LOGICAL LONG */
C(0x0f00, CLCL, RR_a, Z, 0, 0, 0, 0, clcl, 0)
/* COMPARE LOGICAL LONG EXTENDED */
C(0xa900, CLCLE, RS_a, Z, 0, a2, 0, 0, clcle, 0)
/* COMPARE LOGICAL LONG UNICODE */
C(0xeb8f, CLCLU, RSY_a, E2, 0, a2, 0, 0, clclu, 0)
/* COMPARE LOGICAL CHARACTERS UNDER MASK */
C(0xbd00, CLM, RS_b, Z, r1_o, a2, 0, 0, clm, 0)
C(0xeb21, CLMY, RSY_b, LD, r1_o, a2, 0, 0, clm, 0)
C(0xeb20, CLMH, RSY_b, Z, r1_sr32, a2, 0, 0, clm, 0)
/* COMPARE LOGICAL STRING */
C(0xb25d, CLST, RRE, Z, r1_o, r2_o, 0, 0, clst, 0)
/* COMPARE AND BRANCH */
D(0xecf6, CRB, RRS, GIE, r1_32s, r2_32s, 0, 0, cj, 0, 0)
D(0xece4, CGRB, RRS, GIE, r1_o, r2_o, 0, 0, cj, 0, 0)
D(0xec76, CRJ, RIE_b, GIE, r1_32s, r2_32s, 0, 0, cj, 0, 0)
D(0xec64, CGRJ, RIE_b, GIE, r1_o, r2_o, 0, 0, cj, 0, 0)
D(0xecfe, CIB, RIS, GIE, r1_32s, i2, 0, 0, cj, 0, 0)
D(0xecfc, CGIB, RIS, GIE, r1_o, i2, 0, 0, cj, 0, 0)
D(0xec7e, CIJ, RIE_c, GIE, r1_32s, i2, 0, 0, cj, 0, 0)
D(0xec7c, CGIJ, RIE_c, GIE, r1_o, i2, 0, 0, cj, 0, 0)
/* COMPARE LOGICAL AND BRANCH */
D(0xecf7, CLRB, RRS, GIE, r1_32u, r2_32u, 0, 0, cj, 0, 1)
D(0xece5, CLGRB, RRS, GIE, r1_o, r2_o, 0, 0, cj, 0, 1)
D(0xec77, CLRJ, RIE_b, GIE, r1_32u, r2_32u, 0, 0, cj, 0, 1)
D(0xec65, CLGRJ, RIE_b, GIE, r1_o, r2_o, 0, 0, cj, 0, 1)
D(0xecff, CLIB, RIS, GIE, r1_32u, i2_8u, 0, 0, cj, 0, 1)
D(0xecfd, CLGIB, RIS, GIE, r1_o, i2_8u, 0, 0, cj, 0, 1)
D(0xec7f, CLIJ, RIE_c, GIE, r1_32u, i2_8u, 0, 0, cj, 0, 1)
D(0xec7d, CLGIJ, RIE_c, GIE, r1_o, i2_8u, 0, 0, cj, 0, 1)
/* COMPARE AND SWAP */
D(0xba00, CS, RS_a, Z, r3_32u, r1_32u, new, r1_32, cs, 0, MO_TEUL)
D(0xeb14, CSY, RSY_a, LD, r3_32u, r1_32u, new, r1_32, cs, 0, MO_TEUL)
D(0xeb30, CSG, RSY_a, Z, r3_o, r1_o, new, r1, cs, 0, MO_TEUQ)
/* COMPARE DOUBLE AND SWAP */
D(0xbb00, CDS, RS_a, Z, r3_D32, r1_D32, new, r1_D32, cs, 0, MO_TEUQ)
D(0xeb31, CDSY, RSY_a, LD, r3_D32, r1_D32, new, r1_D32, cs, 0, MO_TEUQ)
C(0xeb3e, CDSG, RSY_a, Z, la2, r3_D64, 0, r1_D64, cdsg, 0)
/* COMPARE AND SWAP AND STORE */
C(0xc802, CSST, SSF, CASS, la1, a2, 0, 0, csst, 0)
/* COMPARE AND TRAP */
D(0xb972, CRT, RRF_c, GIE, r1_32s, r2_32s, 0, 0, ct, 0, 0)
D(0xb960, CGRT, RRF_c, GIE, r1_o, r2_o, 0, 0, ct, 0, 0)
D(0xec72, CIT, RIE_a, GIE, r1_32s, i2, 0, 0, ct, 0, 0)
D(0xec70, CGIT, RIE_a, GIE, r1_o, i2, 0, 0, ct, 0, 0)
/* COMPARE LOGICAL AND TRAP */
D(0xb973, CLRT, RRF_c, GIE, r1_32u, r2_32u, 0, 0, ct, 0, 1)
D(0xb961, CLGRT, RRF_c, GIE, r1_o, r2_o, 0, 0, ct, 0, 1)
D(0xeb23, CLT, RSY_b, MIE, r1_32u, m2_32u, 0, 0, ct, 0, 1)
D(0xeb2b, CLGT, RSY_b, MIE, r1_o, m2_64, 0, 0, ct, 0, 1)
D(0xec73, CLFIT, RIE_a, GIE, r1_32u, i2_16u, 0, 0, ct, 0, 1)
D(0xec71, CLGIT, RIE_a, GIE, r1_o, i2_16u, 0, 0, ct, 0, 1)
/* CONVERT TO BINARY */
C(0x4f00, CVB, RX_a, Z, la2, 0, 0, 0, cvb, 0)
C(0xe306, CVBY, RXY_a, LD, la2, 0, 0, 0, cvb, 0)
C(0xe30e, CVBG, RXY_a, Z, la2, 0, r1, 0, cvbg, 0)
/* CONVERT TO DECIMAL */
C(0x4e00, CVD, RX_a, Z, r1_o, a2, 0, 0, cvd, 0)
C(0xe326, CVDY, RXY_a, LD, r1_o, a2, 0, 0, cvd, 0)
C(0xe32e, CVDG, RXY_a, Z, r1_o, a2, 0, 0, cvdg, 0)
/* CONVERT TO FIXED */
F(0xb398, CFEBR, RRF_e, Z, 0, e2, new, r1_32, cfeb, 0, IF_BFP)
F(0xb399, CFDBR, RRF_e, Z, 0, f2, new, r1_32, cfdb, 0, IF_BFP)
F(0xb39a, CFXBR, RRF_e, Z, 0, x2, new, r1_32, cfxb, 0, IF_BFP)
F(0xb3a8, CGEBR, RRF_e, Z, 0, e2, r1, 0, cgeb, 0, IF_BFP)
F(0xb3a9, CGDBR, RRF_e, Z, 0, f2, r1, 0, cgdb, 0, IF_BFP)
F(0xb3aa, CGXBR, RRF_e, Z, 0, x2, r1, 0, cgxb, 0, IF_BFP)
/* CONVERT FROM FIXED */
F(0xb394, CEFBR, RRF_e, Z, 0, r2_32s, new, e1, cegb, 0, IF_BFP)
F(0xb395, CDFBR, RRF_e, Z, 0, r2_32s, new, f1, cdgb, 0, IF_BFP)
F(0xb396, CXFBR, RRF_e, Z, 0, r2_32s, new_x, x1, cxgb, 0, IF_BFP)
F(0xb3a4, CEGBR, RRF_e, Z, 0, r2_o, new, e1, cegb, 0, IF_BFP)
F(0xb3a5, CDGBR, RRF_e, Z, 0, r2_o, new, f1, cdgb, 0, IF_BFP)
F(0xb3a6, CXGBR, RRF_e, Z, 0, r2_o, new_x, x1, cxgb, 0, IF_BFP)
/* CONVERT TO LOGICAL */
F(0xb39c, CLFEBR, RRF_e, FPE, 0, e2, new, r1_32, clfeb, 0, IF_BFP)
F(0xb39d, CLFDBR, RRF_e, FPE, 0, f2, new, r1_32, clfdb, 0, IF_BFP)
F(0xb39e, CLFXBR, RRF_e, FPE, 0, x2, new, r1_32, clfxb, 0, IF_BFP)
F(0xb3ac, CLGEBR, RRF_e, FPE, 0, e2, r1, 0, clgeb, 0, IF_BFP)
F(0xb3ad, CLGDBR, RRF_e, FPE, 0, f2, r1, 0, clgdb, 0, IF_BFP)
F(0xb3ae, CLGXBR, RRF_e, FPE, 0, x2, r1, 0, clgxb, 0, IF_BFP)
/* CONVERT FROM LOGICAL */
F(0xb390, CELFBR, RRF_e, FPE, 0, r2_32u, new, e1, celgb, 0, IF_BFP)
F(0xb391, CDLFBR, RRF_e, FPE, 0, r2_32u, new, f1, cdlgb, 0, IF_BFP)
F(0xb392, CXLFBR, RRF_e, FPE, 0, r2_32u, new_x, x1, cxlgb, 0, IF_BFP)
F(0xb3a0, CELGBR, RRF_e, FPE, 0, r2_o, new, e1, celgb, 0, IF_BFP)
F(0xb3a1, CDLGBR, RRF_e, FPE, 0, r2_o, new, f1, cdlgb, 0, IF_BFP)
F(0xb3a2, CXLGBR, RRF_e, FPE, 0, r2_o, new_x, x1, cxlgb, 0, IF_BFP)
/* CONVERT UTF-8 TO UTF-16 */
D(0xb2a7, CU12, RRF_c, Z, 0, 0, 0, 0, cuXX, 0, 12)
/* CONVERT UTF-8 TO UTF-32 */
D(0xb9b0, CU14, RRF_c, ETF3, 0, 0, 0, 0, cuXX, 0, 14)
/* CONVERT UTF-16 to UTF-8 */
D(0xb2a6, CU21, RRF_c, Z, 0, 0, 0, 0, cuXX, 0, 21)
/* CONVERT UTF-16 to UTF-32 */
D(0xb9b1, CU24, RRF_c, ETF3, 0, 0, 0, 0, cuXX, 0, 24)
/* CONVERT UTF-32 to UTF-8 */
D(0xb9b2, CU41, RRF_c, ETF3, 0, 0, 0, 0, cuXX, 0, 41)
/* CONVERT UTF-32 to UTF-16 */
D(0xb9b3, CU42, RRF_c, ETF3, 0, 0, 0, 0, cuXX, 0, 42)
/* DIVIDE */
C(0x1d00, DR, RR_a, Z, r1_D32, r2_32s, new_P, r1_P32, divs32, 0)
C(0x5d00, D, RX_a, Z, r1_D32, m2_32s, new_P, r1_P32, divs32, 0)
F(0xb30d, DEBR, RRE, Z, e1, e2, new, e1, deb, 0, IF_BFP)
F(0xb31d, DDBR, RRE, Z, f1, f2, new, f1, ddb, 0, IF_BFP)
F(0xb34d, DXBR, RRE, Z, x1, x2, new_x, x1, dxb, 0, IF_BFP)
F(0xed0d, DEB, RXE, Z, e1, m2_32u, new, e1, deb, 0, IF_BFP)
F(0xed1d, DDB, RXE, Z, f1, m2_64, new, f1, ddb, 0, IF_BFP)
/* DIVIDE LOGICAL */
C(0xb997, DLR, RRE, Z, r1_D32, r2_32u, new_P, r1_P32, divu32, 0)
C(0xe397, DL, RXY_a, Z, r1_D32, m2_32u, new_P, r1_P32, divu32, 0)
C(0xb987, DLGR, RRE, Z, 0, r2_o, r1_P, 0, divu64, 0)
C(0xe387, DLG, RXY_a, Z, 0, m2_64, r1_P, 0, divu64, 0)
/* DIVIDE SINGLE */
C(0xb90d, DSGR, RRE, Z, r1p1, r2, r1_P, 0, divs64, 0)
C(0xb91d, DSGFR, RRE, Z, r1p1, r2_32s, r1_P, 0, divs64, 0)
C(0xe30d, DSG, RXY_a, Z, r1p1, m2_64, r1_P, 0, divs64, 0)
C(0xe31d, DSGF, RXY_a, Z, r1p1, m2_32s, r1_P, 0, divs64, 0)
/* EXCLUSIVE OR */
C(0x1700, XR, RR_a, Z, r1, r2, new, r1_32, xor, nz32)
C(0xb9f7, XRK, RRF_a, DO, r2, r3, new, r1_32, xor, nz32)
C(0x5700, X, RX_a, Z, r1, m2_32s, new, r1_32, xor, nz32)
C(0xe357, XY, RXY_a, LD, r1, m2_32s, new, r1_32, xor, nz32)
C(0xb982, XGR, RRE, Z, r1, r2, r1, 0, xor, nz64)
C(0xb9e7, XGRK, RRF_a, DO, r2, r3, r1, 0, xor, nz64)
C(0xe382, XG, RXY_a, Z, r1, m2_64, r1, 0, xor, nz64)
C(0xd700, XC, SS_a, Z, 0, 0, 0, 0, xc, 0)
/* EXCLUSIVE OR IMMEDIATE */
D(0xc006, XIHF, RIL_a, EI, r1_o, i2_32u, r1, 0, xori, 0, 0x2020)
D(0xc007, XILF, RIL_a, EI, r1_o, i2_32u, r1, 0, xori, 0, 0x2000)
D(0x9700, XI, SI, Z, la1, i2_8u, new, 0, xi, nz64, MO_UB)
D(0xeb57, XIY, SIY, LD, la1, i2_8u, new, 0, xi, nz64, MO_UB)
/* EXECUTE */
C(0x4400, EX, RX_a, Z, 0, a2, 0, 0, ex, 0)
/* EXECUTE RELATIVE LONG */
C(0xc600, EXRL, RIL_b, EE, 0, ri2, 0, 0, ex, 0)
/* EXTRACT ACCESS */
C(0xb24f, EAR, RRE, Z, 0, 0, new, r1_32, ear, 0)
/* EXTRACT CPU ATTRIBUTE */
C(0xeb4c, ECAG, RSY_a, GIE, 0, a2, r1, 0, ecag, 0)
/* EXTRACT CPU TIME */
F(0xc801, ECTG, SSF, ECT, 0, 0, 0, 0, ectg, 0, IF_IO)
/* EXTRACT FPC */
F(0xb38c, EFPC, RRE, Z, 0, 0, new, r1_32, efpc, 0, IF_BFP)
/* EXTRACT PSW */
C(0xb98d, EPSW, RRE, Z, 0, 0, 0, 0, epsw, 0)
/* FIND LEFTMOST ONE */
C(0xb983, FLOGR, RRE, EI, 0, r2_o, r1_P, 0, flogr, 0)
/* INSERT CHARACTER */
C(0x4300, IC, RX_a, Z, 0, m2_8u, 0, r1_8, mov2, 0)
C(0xe373, ICY, RXY_a, LD, 0, m2_8u, 0, r1_8, mov2, 0)
/* INSERT CHARACTERS UNDER MASK */
D(0xbf00, ICM, RS_b, Z, 0, a2, r1, 0, icm, 0, 0)
D(0xeb81, ICMY, RSY_b, LD, 0, a2, r1, 0, icm, 0, 0)
D(0xeb80, ICMH, RSY_b, Z, 0, a2, r1, 0, icm, 0, 32)
/* INSERT IMMEDIATE */
D(0xc008, IIHF, RIL_a, EI, r1_o, i2_32u, r1, 0, insi, 0, 0x2020)
D(0xc009, IILF, RIL_a, EI, r1_o, i2_32u, r1, 0, insi, 0, 0x2000)
D(0xa500, IIHH, RI_a, Z, r1_o, i2_16u, r1, 0, insi, 0, 0x1030)
D(0xa501, IIHL, RI_a, Z, r1_o, i2_16u, r1, 0, insi, 0, 0x1020)
D(0xa502, IILH, RI_a, Z, r1_o, i2_16u, r1, 0, insi, 0, 0x1010)
D(0xa503, IILL, RI_a, Z, r1_o, i2_16u, r1, 0, insi, 0, 0x1000)
/* INSERT PROGRAM MASK */
C(0xb222, IPM, RRE, Z, 0, 0, r1, 0, ipm, 0)
/* LOAD */
C(0x1800, LR, RR_a, Z, 0, r2_o, 0, cond_r1r2_32, mov2, 0)
D(0x5800, L, RX_a, Z, 0, a2, new, r1_32, ld32s, 0, 0)
D(0xe358, LY, RXY_a, LD, 0, a2, new, r1_32, ld32s, 0, 0)
C(0xb904, LGR, RRE, Z, 0, r2_o, 0, r1, mov2, 0)
C(0xb914, LGFR, RRE, Z, 0, r2_32s, 0, r1, mov2, 0)
D(0xe304, LG, RXY_a, Z, 0, a2, r1, 0, ld64, 0, 0)
D(0xe314, LGF, RXY_a, Z, 0, a2, r1, 0, ld32s, 0, 0)
F(0x2800, LDR, RR_a, Z, 0, f2, 0, f1, mov2, 0, IF_AFP1 | IF_AFP2)
F(0x6800, LD, RX_a, Z, 0, m2_64, 0, f1, mov2, 0, IF_AFP1)
F(0xed65, LDY, RXY_a, LD, 0, m2_64, 0, f1, mov2, 0, IF_AFP1)
F(0x3800, LER, RR_a, Z, 0, e2, 0, cond_e1e2, mov2, 0, IF_AFP1 | IF_AFP2)
F(0x7800, LE, RX_a, Z, 0, m2_32u, 0, e1, mov2, 0, IF_AFP1)
F(0xed64, LEY, RXY_a, LD, 0, m2_32u, 0, e1, mov2, 0, IF_AFP1)
F(0xb365, LXR, RRE, Z, x2h, x2l, 0, x1_P, movx, 0, IF_AFP1)
/* LOAD IMMEDIATE */
C(0xc001, LGFI, RIL_a, EI, 0, i2, 0, r1, mov2, 0)
/* LOAD RELATIVE LONG */
D(0xc40d, LRL, RIL_b, GIE, 0, ri2, new, r1_32, ld32s, 0, MO_ALIGN)
D(0xc408, LGRL, RIL_b, GIE, 0, ri2, r1, 0, ld64, 0, MO_ALIGN)
D(0xc40c, LGFRL, RIL_b, GIE, 0, ri2, r1, 0, ld32s, 0, MO_ALIGN)
/* LOAD ADDRESS */
C(0x4100, LA, RX_a, Z, 0, a2, 0, r1, mov2, 0)
C(0xe371, LAY, RXY_a, LD, 0, a2, 0, r1, mov2, 0)
/* LOAD ADDRESS EXTENDED */
C(0x5100, LAE, RX_a, Z, 0, a2, 0, r1, mov2e, 0)
C(0xe375, LAEY, RXY_a, GIE, 0, a2, 0, r1, mov2e, 0)
/* LOAD ADDRESS RELATIVE LONG */
C(0xc000, LARL, RIL_b, Z, 0, ri2, 0, r1, mov2, 0)
/* LOAD AND ADD */
D(0xebf8, LAA, RSY_a, ILA, r3_32s, a2, new, in2_r1_32, laa, adds32, MO_TESL)
D(0xebe8, LAAG, RSY_a, ILA, r3, a2, new, in2_r1, laa, adds64, MO_TEUQ)
/* LOAD AND ADD LOGICAL */
D(0xebfa, LAAL, RSY_a, ILA, r3_32u, a2, new, in2_r1_32, laa, addu32, MO_TEUL)
D(0xebea, LAALG, RSY_a, ILA, r3, a2, new, in2_r1, laa_addu64, addu64, MO_TEUQ)
/* LOAD AND AND */
D(0xebf4, LAN, RSY_a, ILA, r3_32s, a2, new, in2_r1_32, lan, nz32, MO_TESL)
D(0xebe4, LANG, RSY_a, ILA, r3, a2, new, in2_r1, lan, nz64, MO_TEUQ)
/* LOAD AND EXCLUSIVE OR */
D(0xebf7, LAX, RSY_a, ILA, r3_32s, a2, new, in2_r1_32, lax, nz32, MO_TESL)
D(0xebe7, LAXG, RSY_a, ILA, r3, a2, new, in2_r1, lax, nz64, MO_TEUQ)
/* LOAD AND OR */
D(0xebf6, LAO, RSY_a, ILA, r3_32s, a2, new, in2_r1_32, lao, nz32, MO_TESL)
D(0xebe6, LAOG, RSY_a, ILA, r3, a2, new, in2_r1, lao, nz64, MO_TEUQ)
/* LOAD AND TEST */
C(0x1200, LTR, RR_a, Z, 0, r2_o, 0, cond_r1r2_32, mov2, s32)
C(0xb902, LTGR, RRE, Z, 0, r2_o, 0, r1, mov2, s64)
C(0xb912, LTGFR, RRE, Z, 0, r2_32s, 0, r1, mov2, s64)
D(0xe312, LT, RXY_a, EI, 0, a2, new, r1_32, ld32s, s64, 0)
D(0xe302, LTG, RXY_a, EI, 0, a2, r1, 0, ld64, s64, 0)
D(0xe332, LTGF, RXY_a, GIE, 0, a2, r1, 0, ld32s, s64, 0)
F(0xb302, LTEBR, RRE, Z, 0, e2, 0, cond_e1e2, mov2, f32, IF_BFP)
F(0xb312, LTDBR, RRE, Z, 0, f2, 0, f1, mov2, f64, IF_BFP)
F(0xb342, LTXBR, RRE, Z, x2h, x2l, 0, x1_P, movx, f128, IF_BFP)
/* LOAD AND TRAP */
C(0xe39f, LAT, RXY_a, LAT, 0, m2_32u, r1, 0, lat, 0)
C(0xe385, LGAT, RXY_a, LAT, 0, a2, r1, 0, lgat, 0)
/* LOAD AND ZERO RIGHTMOST BYTE */
C(0xe33b, LZRF, RXY_a, LZRB, 0, m2_32u, new, r1_32, lzrb, 0)
C(0xe32a, LZRG, RXY_a, LZRB, 0, m2_64, r1, 0, lzrb, 0)
/* LOAD LOGICAL AND ZERO RIGHTMOST BYTE */
C(0xe33a, LLZRGF, RXY_a, LZRB, 0, m2_32u, r1, 0, lzrb, 0)
/* LOAD BYTE */
C(0xb926, LBR, RRE, EI, 0, r2_8s, 0, r1_32, mov2, 0)
C(0xb906, LGBR, RRE, EI, 0, r2_8s, 0, r1, mov2, 0)
C(0xe376, LB, RXY_a, LD, 0, a2, new, r1_32, ld8s, 0)
C(0xe377, LGB, RXY_a, LD, 0, a2, r1, 0, ld8s, 0)
/* LOAD BYTE HIGH */
C(0xe3c0, LBH, RXY_a, HW, 0, a2, new, r1_32h, ld8s, 0)
/* LOAD COMPLEMENT */
C(0x1300, LCR, RR_a, Z, 0, r2, new, r1_32, neg, neg32)
C(0xb903, LCGR, RRE, Z, 0, r2, r1, 0, neg, neg64)
C(0xb913, LCGFR, RRE, Z, 0, r2_32s, r1, 0, neg, neg64)
F(0xb303, LCEBR, RRE, Z, 0, e2, new, e1, negf32, f32, IF_BFP)
F(0xb313, LCDBR, RRE, Z, 0, f2, new, f1, negf64, f64, IF_BFP)
F(0xb343, LCXBR, RRE, Z, x2h, x2l, new_P, x1_P, negf128, f128, IF_BFP)
F(0xb373, LCDFR, RRE, FPSSH, 0, f2, new, f1, negf64, 0, IF_AFP1 | IF_AFP2)
/* LOAD COUNT TO BLOCK BOUNDARY */
C(0xe727, LCBB, RXE, V, la2, 0, new, r1_32, lcbb, 0)
/* LOAD HALFWORD */
C(0xb927, LHR, RRE, EI, 0, r2_16s, 0, r1_32, mov2, 0)
C(0xb907, LGHR, RRE, EI, 0, r2_16s, 0, r1, mov2, 0)
C(0x4800, LH, RX_a, Z, 0, a2, new, r1_32, ld16s, 0)
C(0xe378, LHY, RXY_a, LD, 0, a2, new, r1_32, ld16s, 0)
C(0xe315, LGH, RXY_a, Z, 0, a2, r1, 0, ld16s, 0)
/* LOAD HALFWORD HIGH */
C(0xe3c4, LHH, RXY_a, HW, 0, a2, new, r1_32h, ld16s, 0)
/* LOAD HALFWORD IMMEDIATE */
C(0xa708, LHI, RI_a, Z, 0, i2, 0, r1_32, mov2, 0)
C(0xa709, LGHI, RI_a, Z, 0, i2, 0, r1, mov2, 0)
/* LOAD HALFWORD RELATIVE LONG */
C(0xc405, LHRL, RIL_b, GIE, 0, ri2, new, r1_32, ld16s, 0)
C(0xc404, LGHRL, RIL_b, GIE, 0, ri2, r1, 0, ld16s, 0)
/* LOAD HIGH */
D(0xe3ca, LFH, RXY_a, HW, 0, a2, new, r1_32h, ld32u, 0, 0)
/* LOAG HIGH AND TRAP */
C(0xe3c8, LFHAT, RXY_a, LAT, 0, m2_32u, r1, 0, lfhat, 0)
/* LOAD LOGICAL */
C(0xb916, LLGFR, RRE, Z, 0, r2_32u, 0, r1, mov2, 0)
D(0xe316, LLGF, RXY_a, Z, 0, a2, r1, 0, ld32u, 0, 0)
/* LOAD LOGICAL AND TRAP */
C(0xe39d, LLGFAT, RXY_a, LAT, 0, a2, r1, 0, llgfat, 0)
/* LOAD LOGICAL RELATIVE LONG */
D(0xc40e, LLGFRL, RIL_b, GIE, 0, ri2, r1, 0, ld32u, 0, MO_ALIGN)
/* LOAD LOGICAL CHARACTER */
C(0xb994, LLCR, RRE, EI, 0, r2_8u, 0, r1_32, mov2, 0)
C(0xb984, LLGCR, RRE, EI, 0, r2_8u, 0, r1, mov2, 0)
C(0xe394, LLC, RXY_a, EI, 0, a2, new, r1_32, ld8u, 0)
C(0xe390, LLGC, RXY_a, Z, 0, a2, r1, 0, ld8u, 0)
/* LOAD LOGICAL CHARACTER HIGH */
C(0xe3c2, LLCH, RXY_a, HW, 0, a2, new, r1_32h, ld8u, 0)
/* LOAD LOGICAL HALFWORD */
C(0xb995, LLHR, RRE, EI, 0, r2_16u, 0, r1_32, mov2, 0)
C(0xb985, LLGHR, RRE, EI, 0, r2_16u, 0, r1, mov2, 0)
C(0xe395, LLH, RXY_a, EI, 0, a2, new, r1_32, ld16u, 0)
C(0xe391, LLGH, RXY_a, Z, 0, a2, r1, 0, ld16u, 0)
/* LOAD LOGICAL HALFWORD HIGH */
C(0xe3c6, LLHH, RXY_a, HW, 0, a2, new, r1_32h, ld16u, 0)
/* LOAD LOGICAL HALFWORD RELATIVE LONG */
C(0xc402, LLHRL, RIL_b, GIE, 0, ri2, new, r1_32, ld16u, 0)
C(0xc406, LLGHRL, RIL_b, GIE, 0, ri2, r1, 0, ld16u, 0)
/* LOAD LOGICAL IMMEDIATE */
D(0xc00e, LLIHF, RIL_a, EI, 0, i2_32u_shl, 0, r1, mov2, 0, 32)
D(0xc00f, LLILF, RIL_a, EI, 0, i2_32u_shl, 0, r1, mov2, 0, 0)
D(0xa50c, LLIHH, RI_a, Z, 0, i2_16u_shl, 0, r1, mov2, 0, 48)
D(0xa50d, LLIHL, RI_a, Z, 0, i2_16u_shl, 0, r1, mov2, 0, 32)
D(0xa50e, LLILH, RI_a, Z, 0, i2_16u_shl, 0, r1, mov2, 0, 16)
D(0xa50f, LLILL, RI_a, Z, 0, i2_16u_shl, 0, r1, mov2, 0, 0)
/* LOAD LOGICAL THIRTY ONE BITS */
C(0xb917, LLGTR, RRE, Z, 0, r2_o, r1, 0, llgt, 0)
C(0xe317, LLGT, RXY_a, Z, 0, m2_32u, r1, 0, llgt, 0)
/* LOAD LOGICAL THIRTY ONE BITS AND TRAP */
C(0xe39c, LLGTAT, RXY_a, LAT, 0, m2_32u, r1, 0, llgtat, 0)
/* LOAD FPR FROM GR */
F(0xb3c1, LDGR, RRE, FPRGR, 0, r2_o, 0, f1, mov2, 0, IF_AFP1)
/* LOAD GR FROM FPR */
F(0xb3cd, LGDR, RRE, FPRGR, 0, f2, 0, r1, mov2, 0, IF_AFP2)
/* LOAD NEGATIVE */
C(0x1100, LNR, RR_a, Z, 0, r2_32s, new, r1_32, nabs, nabs32)
C(0xb901, LNGR, RRE, Z, 0, r2, r1, 0, nabs, nabs64)
C(0xb911, LNGFR, RRE, Z, 0, r2_32s, r1, 0, nabs, nabs64)
F(0xb301, LNEBR, RRE, Z, 0, e2, new, e1, nabsf32, f32, IF_BFP)
F(0xb311, LNDBR, RRE, Z, 0, f2, new, f1, nabsf64, f64, IF_BFP)
F(0xb341, LNXBR, RRE, Z, x2h, x2l, new_P, x1_P, nabsf128, f128, IF_BFP)
F(0xb371, LNDFR, RRE, FPSSH, 0, f2, new, f1, nabsf64, 0, IF_AFP1 | IF_AFP2)
/* LOAD ON CONDITION */
C(0xb9f2, LOCR, RRF_c, LOC, r1, r2, new, r1_32, loc, 0)
C(0xb9e2, LOCGR, RRF_c, LOC, r1, r2, r1, 0, loc, 0)
C(0xebf2, LOC, RSY_b, LOC, r1, m2_32u, new, r1_32, loc, 0)
C(0xebe2, LOCG, RSY_b, LOC, r1, m2_64, r1, 0, loc, 0)
/* LOAD HALFWORD IMMEDIATE ON CONDITION */
C(0xec42, LOCHI, RIE_g, LOC2, r1, i2, new, r1_32, loc, 0)
C(0xec46, LOCGHI, RIE_g, LOC2, r1, i2, r1, 0, loc, 0)
C(0xec4e, LOCHHI, RIE_g, LOC2, r1_sr32, i2, new, r1_32h, loc, 0)
/* LOAD HIGH ON CONDITION */
C(0xb9e0, LOCFHR, RRF_c, LOC2, r1_sr32, r2_sr32, new, r1_32h, loc, 0)
C(0xebe0, LOCFH, RSY_b, LOC2, r1_sr32, m2_32u, new, r1_32h, loc, 0)
/* LOAD PAIR DISJOINT */
D(0xc804, LPD, SSF, ILA, 0, 0, new_P, r3_P32, lpd, 0, MO_TEUL)
D(0xc805, LPDG, SSF, ILA, 0, 0, new_P, r3_P64, lpd, 0, MO_TEUQ)
/* LOAD PAIR FROM QUADWORD */
C(0xe38f, LPQ, RXY_a, Z, 0, a2, 0, r1_D64, lpq, 0)
/* LOAD POSITIVE */
C(0x1000, LPR, RR_a, Z, 0, r2_32s, new, r1_32, abs, abs32)
C(0xb900, LPGR, RRE, Z, 0, r2, r1, 0, abs, abs64)
C(0xb910, LPGFR, RRE, Z, 0, r2_32s, r1, 0, abs, abs64)
F(0xb300, LPEBR, RRE, Z, 0, e2, new, e1, absf32, f32, IF_BFP)
F(0xb310, LPDBR, RRE, Z, 0, f2, new, f1, absf64, f64, IF_BFP)
F(0xb340, LPXBR, RRE, Z, x2h, x2l, new_P, x1_P, absf128, f128, IF_BFP)
F(0xb370, LPDFR, RRE, FPSSH, 0, f2, new, f1, absf64, 0, IF_AFP1 | IF_AFP2)
/* LOAD REVERSED */
C(0xb91f, LRVR, RRE, Z, 0, r2_32u, new, r1_32, rev32, 0)
C(0xb90f, LRVGR, RRE, Z, 0, r2_o, r1, 0, rev64, 0)
C(0xe31f, LRVH, RXY_a, Z, 0, m2_16u, new, r1_16, rev16, 0)
C(0xe31e, LRV, RXY_a, Z, 0, m2_32u, new, r1_32, rev32, 0)
C(0xe30f, LRVG, RXY_a, Z, 0, m2_64, r1, 0, rev64, 0)
/* LOAD ZERO */
F(0xb374, LZER, RRE, Z, 0, 0, 0, e1, zero, 0, IF_AFP1)
F(0xb375, LZDR, RRE, Z, 0, 0, 0, f1, zero, 0, IF_AFP1)
F(0xb376, LZXR, RRE, Z, 0, 0, 0, x1_P, zero2, 0, IF_AFP1)
/* LOAD FPC */
F(0xb29d, LFPC, S, Z, 0, m2_32u, 0, 0, sfpc, 0, IF_BFP)
/* LOAD FPC AND SIGNAL */
F(0xb2bd, LFAS, S, IEEEE_SIM, 0, m2_32u, 0, 0, sfas, 0, IF_DFP)
/* LOAD FP INTEGER */
F(0xb357, FIEBR, RRF_e, Z, 0, e2, new, e1, fieb, 0, IF_BFP)
F(0xb35f, FIDBR, RRF_e, Z, 0, f2, new, f1, fidb, 0, IF_BFP)
F(0xb347, FIXBR, RRF_e, Z, 0, x2, new_x, x1, fixb, 0, IF_BFP)
/* LOAD LENGTHENED */
F(0xb304, LDEBR, RRE, Z, 0, e2, new, f1, ldeb, 0, IF_BFP)
F(0xb305, LXDBR, RRE, Z, 0, f2, new_x, x1, lxdb, 0, IF_BFP)
F(0xb306, LXEBR, RRE, Z, 0, e2, new_x, x1, lxeb, 0, IF_BFP)
F(0xed04, LDEB, RXE, Z, 0, m2_32u, new, f1, ldeb, 0, IF_BFP)
F(0xed05, LXDB, RXE, Z, 0, m2_64, new_x, x1, lxdb, 0, IF_BFP)
F(0xed06, LXEB, RXE, Z, 0, m2_32u, new_x, x1, lxeb, 0, IF_BFP)
F(0xb324, LDER, RRE, Z, 0, e2, new, f1, lde, 0, IF_AFP1)
F(0xed24, LDE, RXE, Z, 0, m2_32u, new, f1, lde, 0, IF_AFP1)
/* LOAD ROUNDED */
F(0xb344, LEDBR, RRF_e, Z, 0, f2, new, e1, ledb, 0, IF_BFP)
F(0xb345, LDXBR, RRF_e, Z, 0, x2, new, f1, ldxb, 0, IF_BFP)
F(0xb346, LEXBR, RRF_e, Z, 0, x2, new, e1, lexb, 0, IF_BFP)
/* LOAD MULTIPLE */
C(0x9800, LM, RS_a, Z, 0, a2, 0, 0, lm32, 0)
C(0xeb98, LMY, RSY_a, LD, 0, a2, 0, 0, lm32, 0)
C(0xeb04, LMG, RSY_a, Z, 0, a2, 0, 0, lm64, 0)
/* LOAD MULTIPLE HIGH */
C(0xeb96, LMH, RSY_a, Z, 0, a2, 0, 0, lmh, 0)
/* LOAD ACCESS MULTIPLE */
C(0x9a00, LAM, RS_a, Z, 0, a2, 0, 0, lam, 0)
C(0xeb9a, LAMY, RSY_a, LD, 0, a2, 0, 0, lam, 0)
/* MONITOR CALL */
C(0xaf00, MC, SI, Z, la1, 0, 0, 0, mc, 0)
/* MOVE */
C(0xd200, MVC, SS_a, Z, la1, a2, 0, 0, mvc, 0)
C(0xe544, MVHHI, SIL, GIE, la1, i2, 0, m1_16, mov2, 0)
C(0xe54c, MVHI, SIL, GIE, la1, i2, 0, m1_32, mov2, 0)
C(0xe548, MVGHI, SIL, GIE, la1, i2, 0, m1_64, mov2, 0)
C(0x9200, MVI, SI, Z, la1, i2, 0, m1_8, mov2, 0)
C(0xeb52, MVIY, SIY, LD, la1, i2, 0, m1_8, mov2, 0)
/* MOVE INVERSE */
C(0xe800, MVCIN, SS_a, Z, la1, a2, 0, 0, mvcin, 0)
/* MOVE LONG */
C(0x0e00, MVCL, RR_a, Z, 0, 0, 0, 0, mvcl, 0)
/* MOVE LONG EXTENDED */
C(0xa800, MVCLE, RS_a, Z, 0, a2, 0, 0, mvcle, 0)
/* MOVE LONG UNICODE */
C(0xeb8e, MVCLU, RSY_a, E2, 0, a2, 0, 0, mvclu, 0)
/* MOVE NUMERICS */
C(0xd100, MVN, SS_a, Z, la1, a2, 0, 0, mvn, 0)
/* MOVE RIGHT TO LEFT */
C(0xe50a, MVCRL, SSE, MIE3, la1, a2, 0, 0, mvcrl, 0)
/* MOVE PAGE */
C(0xb254, MVPG, RRE, Z, 0, 0, 0, 0, mvpg, 0)
/* MOVE STRING */
C(0xb255, MVST, RRE, Z, 0, 0, 0, 0, mvst, 0)
/* MOVE WITH OPTIONAL SPECIFICATION */
C(0xc800, MVCOS, SSF, MVCOS, la1, a2, 0, 0, mvcos, 0)
/* MOVE WITH OFFSET */
/* Really format SS_b, but we pack both lengths into one argument
for the helper call, so we might as well leave one 8-bit field. */
C(0xf100, MVO, SS_a, Z, la1, a2, 0, 0, mvo, 0)
/* MOVE ZONES */
C(0xd300, MVZ, SS_a, Z, la1, a2, 0, 0, mvz, 0)
/* MULTIPLY */
C(0x1c00, MR, RR_a, Z, r1p1_32s, r2_32s, new, r1_D32, mul, 0)
C(0xb9ec, MGRK, RRF_a, MIE2,r3_o, r2_o, r1_P, 0, muls128, 0)
C(0x5c00, M, RX_a, Z, r1p1_32s, m2_32s, new, r1_D32, mul, 0)
C(0xe35c, MFY, RXY_a, GIE, r1p1_32s, m2_32s, new, r1_D32, mul, 0)
C(0xe384, MG, RXY_a, MIE2,r1p1_o, m2_64, r1_P, 0, muls128, 0)
F(0xb317, MEEBR, RRE, Z, e1, e2, new, e1, meeb, 0, IF_BFP)
F(0xb31c, MDBR, RRE, Z, f1, f2, new, f1, mdb, 0, IF_BFP)
F(0xb34c, MXBR, RRE, Z, x1, x2, new_x, x1, mxb, 0, IF_BFP)
F(0xb30c, MDEBR, RRE, Z, e1, e2, new, f1, mdeb, 0, IF_BFP)
F(0xb307, MXDBR, RRE, Z, f1, f2, new_x, x1, mxdb, 0, IF_BFP)
F(0xed17, MEEB, RXE, Z, e1, m2_32u, new, e1, meeb, 0, IF_BFP)
F(0xed1c, MDB, RXE, Z, f1, m2_64, new, f1, mdb, 0, IF_BFP)
F(0xed0c, MDEB, RXE, Z, e1, m2_32u, new, f1, mdeb, 0, IF_BFP)
F(0xed07, MXDB, RXE, Z, f1, m2_64, new_x, x1, mxdb, 0, IF_BFP)
/* MULTIPLY HALFWORD */
C(0x4c00, MH, RX_a, Z, r1_o, m2_16s, new, r1_32, mul, 0)
C(0xe37c, MHY, RXY_a, GIE, r1_o, m2_16s, new, r1_32, mul, 0)
C(0xe33c, MGH, RXY_a, MIE2,r1_o, m2_16s, r1, 0, mul, 0)
/* MULTIPLY HALFWORD IMMEDIATE */
C(0xa70c, MHI, RI_a, Z, r1_o, i2, new, r1_32, mul, 0)
C(0xa70d, MGHI, RI_a, Z, r1_o, i2, r1, 0, mul, 0)
/* MULTIPLY LOGICAL */
C(0xb996, MLR, RRE, Z, r1p1_32u, r2_32u, new, r1_D32, mul, 0)
C(0xe396, ML, RXY_a, Z, r1p1_32u, m2_32u, new, r1_D32, mul, 0)
C(0xb986, MLGR, RRE, Z, r1p1, r2_o, r1_P, 0, mul128, 0)
C(0xe386, MLG, RXY_a, Z, r1p1, m2_64, r1_P, 0, mul128, 0)
/* MULTIPLY SINGLE */
C(0xb252, MSR, RRE, Z, r1_o, r2_o, new, r1_32, mul, 0)
C(0xb9fd, MSRKC, RRF_a, MIE2,r3_32s, r2_32s, new, r1_32, mul, muls32)
C(0x7100, MS, RX_a, Z, r1_o, m2_32s, new, r1_32, mul, 0)
C(0xe351, MSY, RXY_a, LD, r1_o, m2_32s, new, r1_32, mul, 0)
C(0xe353, MSC, RXY_a, MIE2,r1_32s, m2_32s, new, r1_32, mul, muls32)
C(0xb90c, MSGR, RRE, Z, r1_o, r2_o, r1, 0, mul, 0)
C(0xb9ed, MSGRKC, RRF_a, MIE2,r3_o, r2_o, new_P, out2_r1, muls128, muls64)
C(0xb91c, MSGFR, RRE, Z, r1_o, r2_32s, r1, 0, mul, 0)
C(0xe30c, MSG, RXY_a, Z, r1_o, m2_64, r1, 0, mul, 0)
C(0xe383, MSGC, RXY_a, MIE2,r1_o, m2_64, new_P, out2_r1, muls128, muls64)
C(0xe31c, MSGF, RXY_a, Z, r1_o, m2_32s, r1, 0, mul, 0)
/* MULTIPLY SINGLE IMMEDIATE */
C(0xc201, MSFI, RIL_a, GIE, r1_o, i2, new, r1_32, mul, 0)
C(0xc200, MSGFI, RIL_a, GIE, r1_o, i2, r1, 0, mul, 0)
/* MULTIPLY AND ADD */
F(0xb30e, MAEBR, RRD, Z, e1, e2, new, e1, maeb, 0, IF_BFP)
F(0xb31e, MADBR, RRD, Z, f1, f2, new, f1, madb, 0, IF_BFP)
F(0xed0e, MAEB, RXF, Z, e1, m2_32u, new, e1, maeb, 0, IF_BFP)
F(0xed1e, MADB, RXF, Z, f1, m2_64, new, f1, madb, 0, IF_BFP)
/* MULTIPLY AND SUBTRACT */
F(0xb30f, MSEBR, RRD, Z, e1, e2, new, e1, mseb, 0, IF_BFP)
F(0xb31f, MSDBR, RRD, Z, f1, f2, new, f1, msdb, 0, IF_BFP)
F(0xed0f, MSEB, RXF, Z, e1, m2_32u, new, e1, mseb, 0, IF_BFP)
F(0xed1f, MSDB, RXF, Z, f1, m2_64, new, f1, msdb, 0, IF_BFP)
/* NAND */
C(0xb974, NNRK, RRF_a, MIE3, r2, r3, new, r1_32, nand, nz32)
C(0xb964, NNGRK, RRF_a, MIE3, r2, r3, r1, 0, nand, nz64)
/* NOR */
C(0xb976, NORK, RRF_a, MIE3, r2, r3, new, r1_32, nor, nz32)
C(0xb966, NOGRK, RRF_a, MIE3, r2, r3, r1, 0, nor, nz64)
/* NOT EXCLUSIVE OR */
C(0xb977, NXRK, RRF_a, MIE3, r2, r3, new, r1_32, nxor, nz32)
C(0xb967, NXGRK, RRF_a, MIE3, r2, r3, r1, 0, nxor, nz64)
/* OR */
C(0x1600, OR, RR_a, Z, r1, r2, new, r1_32, or, nz32)
C(0xb9f6, ORK, RRF_a, DO, r2, r3, new, r1_32, or, nz32)
C(0x5600, O, RX_a, Z, r1, m2_32s, new, r1_32, or, nz32)
C(0xe356, OY, RXY_a, LD, r1, m2_32s, new, r1_32, or, nz32)
C(0xb981, OGR, RRE, Z, r1, r2, r1, 0, or, nz64)
C(0xb9e6, OGRK, RRF_a, DO, r2, r3, r1, 0, or, nz64)
C(0xe381, OG, RXY_a, Z, r1, m2_64, r1, 0, or, nz64)
C(0xd600, OC, SS_a, Z, la1, a2, 0, 0, oc, 0)
/* OR IMMEDIATE */
D(0xc00c, OIHF, RIL_a, EI, r1_o, i2_32u, r1, 0, ori, 0, 0x2020)
D(0xc00d, OILF, RIL_a, EI, r1_o, i2_32u, r1, 0, ori, 0, 0x2000)
D(0xa508, OIHH, RI_a, Z, r1_o, i2_16u, r1, 0, ori, 0, 0x1030)
D(0xa509, OIHL, RI_a, Z, r1_o, i2_16u, r1, 0, ori, 0, 0x1020)
D(0xa50a, OILH, RI_a, Z, r1_o, i2_16u, r1, 0, ori, 0, 0x1010)
D(0xa50b, OILL, RI_a, Z, r1_o, i2_16u, r1, 0, ori, 0, 0x1000)
D(0x9600, OI, SI, Z, la1, i2_8u, new, 0, oi, nz64, MO_UB)
D(0xeb56, OIY, SIY, LD, la1, i2_8u, new, 0, oi, nz64, MO_UB)
/* OR WITH COMPLEMENT */
C(0xb975, OCRK, RRF_a, MIE3, r2, r3, new, r1_32, orc, nz32)
C(0xb965, OCGRK, RRF_a, MIE3, r2, r3, r1, 0, orc, nz64)
/* PACK */
/* Really format SS_b, but we pack both lengths into one argument
for the helper call, so we might as well leave one 8-bit field. */
C(0xf200, PACK, SS_a, Z, la1, a2, 0, 0, pack, 0)
/* PACK ASCII */
C(0xe900, PKA, SS_f, E2, la1, a2, 0, 0, pka, 0)
/* PACK UNICODE */
C(0xe100, PKU, SS_f, E2, la1, a2, 0, 0, pku, 0)
/* POPULATION COUNT */
C(0xb9e1, POPCNT, RRF_c, PC, 0, r2_o, r1, 0, popcnt, nz64)
/* PREFETCH */
/* Implemented as nops of course. */
C(0xe336, PFD, RXY_b, GIE, 0, 0, 0, 0, 0, 0)
C(0xc602, PFDRL, RIL_c, GIE, 0, 0, 0, 0, 0, 0)
/* PERFORM PROCESSOR ASSIST */
/* Implemented as nop of course. */
C(0xb2e8, PPA, RRF_c, PPA, 0, 0, 0, 0, 0, 0)
/* ROTATE LEFT SINGLE LOGICAL */
C(0xeb1d, RLL, RSY_a, Z, r3_o, sh, new, r1_32, rll32, 0)
C(0xeb1c, RLLG, RSY_a, Z, r3_o, sh, r1, 0, rll64, 0)
/* ROTATE THEN INSERT SELECTED BITS */
C(0xec55, RISBG, RIE_f, GIE, 0, r2, r1, 0, risbg, s64)
C(0xec59, RISBGN, RIE_f, MIE, 0, r2, r1, 0, risbg, 0)
C(0xec5d, RISBHG, RIE_f, HW, 0, r2, r1, 0, risbg, 0)
C(0xec51, RISBLG, RIE_f, HW, 0, r2, r1, 0, risbg, 0)
/* ROTATE_THEN <OP> SELECTED BITS */
C(0xec54, RNSBG, RIE_f, GIE, 0, r2, r1, 0, rosbg, 0)
C(0xec56, ROSBG, RIE_f, GIE, 0, r2, r1, 0, rosbg, 0)
C(0xec57, RXSBG, RIE_f, GIE, 0, r2, r1, 0, rosbg, 0)
/* SEARCH STRING */
C(0xb25e, SRST, RRE, Z, 0, 0, 0, 0, srst, 0)
/* SEARCH STRING UNICODE */
C(0xb9be, SRSTU, RRE, ETF3, 0, 0, 0, 0, srstu, 0)
/* SELECT */
C(0xb9f0, SELR, RRF_a, MIE3, r3, r2, new, r1_32, loc, 0)
C(0xb9e3, SELGR, RRF_a, MIE3, r3, r2, r1, 0, loc, 0)
/* SELECT HIGH */
C(0xb9c0, SELFHR, RRF_a, MIE3, r3_sr32, r2_sr32, new, r1_32h, loc, 0)
/* SET ACCESS */
C(0xb24e, SAR, RRE, Z, 0, r2_o, 0, 0, sar, 0)
/* SET ADDRESSING MODE */
D(0x010c, SAM24, E, Z, 0, 0, 0, 0, sam, 0, 0)
D(0x010d, SAM31, E, Z, 0, 0, 0, 0, sam, 0, 1)
D(0x010e, SAM64, E, Z, 0, 0, 0, 0, sam, 0, 3)
/* SET FPC */
F(0xb384, SFPC, RRE, Z, 0, r1_o, 0, 0, sfpc, 0, IF_BFP)
/* SET FPC AND SIGNAL */
F(0xb385, SFASR, RRE, IEEEE_SIM, 0, r1_o, 0, 0, sfas, 0, IF_DFP)
/* SET BFP ROUNDING MODE */
F(0xb299, SRNM, S, Z, la2, 0, 0, 0, srnm, 0, IF_BFP)
F(0xb2b8, SRNMB, S, FPE, la2, 0, 0, 0, srnmb, 0, IF_BFP)
/* SET DFP ROUNDING MODE */
F(0xb2b9, SRNMT, S, DFPR, la2, 0, 0, 0, srnmt, 0, IF_DFP)
/* SET PROGRAM MASK */
C(0x0400, SPM, RR_a, Z, r1, 0, 0, 0, spm, 0)
/* SHIFT LEFT SINGLE */
D(0x8b00, SLA, RS_a, Z, r1, sh, new, r1_32, sla, 0, 31)
D(0xebdd, SLAK, RSY_a, DO, r3, sh, new, r1_32, sla, 0, 31)
D(0xeb0b, SLAG, RSY_a, Z, r3, sh, r1, 0, sla, 0, 63)
/* SHIFT LEFT SINGLE LOGICAL */
C(0x8900, SLL, RS_a, Z, r1_o, sh, new, r1_32, sll, 0)
C(0xebdf, SLLK, RSY_a, DO, r3_o, sh, new, r1_32, sll, 0)
C(0xeb0d, SLLG, RSY_a, Z, r3_o, sh, r1, 0, sll, 0)
/* SHIFT RIGHT SINGLE */
C(0x8a00, SRA, RS_a, Z, r1_32s, sh, new, r1_32, sra, s32)
C(0xebdc, SRAK, RSY_a, DO, r3_32s, sh, new, r1_32, sra, s32)
C(0xeb0a, SRAG, RSY_a, Z, r3_o, sh, r1, 0, sra, s64)
/* SHIFT RIGHT SINGLE LOGICAL */
C(0x8800, SRL, RS_a, Z, r1_32u, sh, new, r1_32, srl, 0)
C(0xebde, SRLK, RSY_a, DO, r3_32u, sh, new, r1_32, srl, 0)
C(0xeb0c, SRLG, RSY_a, Z, r3_o, sh, r1, 0, srl, 0)
/* SHIFT LEFT DOUBLE */
D(0x8f00, SLDA, RS_a, Z, r1_D32, sh, new, r1_D32, sla, 0, 63)
/* SHIFT LEFT DOUBLE LOGICAL */
C(0x8d00, SLDL, RS_a, Z, r1_D32, sh, new, r1_D32, sll, 0)
/* SHIFT RIGHT DOUBLE */
C(0x8e00, SRDA, RS_a, Z, r1_D32, sh, new, r1_D32, sra, s64)
/* SHIFT RIGHT DOUBLE LOGICAL */
C(0x8c00, SRDL, RS_a, Z, r1_D32, sh, new, r1_D32, srl, 0)
/* SQUARE ROOT */
F(0xb314, SQEBR, RRE, Z, 0, e2, new, e1, sqeb, 0, IF_BFP)
F(0xb315, SQDBR, RRE, Z, 0, f2, new, f1, sqdb, 0, IF_BFP)
F(0xb316, SQXBR, RRE, Z, 0, x2, new_x, x1, sqxb, 0, IF_BFP)
F(0xed14, SQEB, RXE, Z, 0, m2_32u, new, e1, sqeb, 0, IF_BFP)
F(0xed15, SQDB, RXE, Z, 0, m2_64, new, f1, sqdb, 0, IF_BFP)
/* STORE */
D(0x5000, ST, RX_a, Z, r1_o, a2, 0, 0, st32, 0, 0)
D(0xe350, STY, RXY_a, LD, r1_o, a2, 0, 0, st32, 0, 0)
D(0xe324, STG, RXY_a, Z, r1_o, a2, 0, 0, st64, 0, 0)
E(0x6000, STD, RX_a, Z, f1, a2, 0, 0, st64, 0, 0, IF_AFP1)
E(0xed67, STDY, RXY_a, LD, f1, a2, 0, 0, st64, 0, 0, IF_AFP1)
E(0x7000, STE, RX_a, Z, e1, a2, 0, 0, st32, 0, 0, IF_AFP1)
E(0xed66, STEY, RXY_a, LD, e1, a2, 0, 0, st32, 0, 0, IF_AFP1)
/* STORE RELATIVE LONG */
D(0xc40f, STRL, RIL_b, GIE, r1_o, ri2, 0, 0, st32, 0, MO_ALIGN)
D(0xc40b, STGRL, RIL_b, GIE, r1_o, ri2, 0, 0, st64, 0, MO_ALIGN)
/* STORE CHARACTER */
C(0x4200, STC, RX_a, Z, r1_o, a2, 0, 0, st8, 0)
C(0xe372, STCY, RXY_a, LD, r1_o, a2, 0, 0, st8, 0)
/* STORE CHARACTER HIGH */
C(0xe3c3, STCH, RXY_a, HW, r1_sr32, a2, 0, 0, st8, 0)
/* STORE CHARACTERS UNDER MASK */
D(0xbe00, STCM, RS_b, Z, r1_o, a2, 0, 0, stcm, 0, 0)
D(0xeb2d, STCMY, RSY_b, LD, r1_o, a2, 0, 0, stcm, 0, 0)
D(0xeb2c, STCMH, RSY_b, Z, r1_o, a2, 0, 0, stcm, 0, 32)
/* STORE HALFWORD */
C(0x4000, STH, RX_a, Z, r1_o, a2, 0, 0, st16, 0)
C(0xe370, STHY, RXY_a, LD, r1_o, a2, 0, 0, st16, 0)
/* STORE HALFWORD HIGH */
C(0xe3c7, STHH, RXY_a, HW, r1_sr32, a2, 0, 0, st16, 0)
/* STORE HALFWORD RELATIVE LONG */
C(0xc407, STHRL, RIL_b, GIE, r1_o, ri2, 0, 0, st16, 0)
/* STORE HIGH */
D(0xe3cb, STFH, RXY_a, HW, r1_sr32, a2, 0, 0, st32, 0, 0)
/* STORE ON CONDITION */
D(0xebf3, STOC, RSY_b, LOC, 0, 0, 0, 0, soc, 0, 0)
D(0xebe3, STOCG, RSY_b, LOC, 0, 0, 0, 0, soc, 0, 1)
/* STORE HIGH ON CONDITION */
D(0xebe1, STOCFH, RSY_b, LOC2, 0, 0, 0, 0, soc, 0, 2)
/* STORE REVERSED */
C(0xe33f, STRVH, RXY_a, Z, la2, r1_16u, new, m1_16, rev16, 0)
C(0xe33e, STRV, RXY_a, Z, la2, r1_32u, new, m1_32, rev32, 0)
C(0xe32f, STRVG, RXY_a, Z, la2, r1_o, new, m1_64, rev64, 0)
/* STORE CLOCK */
F(0xb205, STCK, S, Z, la2, 0, new, m1_64, stck, 0, IF_IO)
F(0xb27c, STCKF, S, SCF, la2, 0, new, m1_64, stck, 0, IF_IO)
/* STORE CLOCK EXTENDED */
F(0xb278, STCKE, S, Z, 0, a2, 0, 0, stcke, 0, IF_IO)
/* STORE FACILITY LIST EXTENDED */
C(0xb2b0, STFLE, S, SFLE, 0, a2, 0, 0, stfle, 0)
/* STORE FPC */
F(0xb29c, STFPC, S, Z, 0, a2, new, m2_32, efpc, 0, IF_BFP)
/* STORE MULTIPLE */
D(0x9000, STM, RS_a, Z, 0, a2, 0, 0, stm, 0, 4)
D(0xeb90, STMY, RSY_a, LD, 0, a2, 0, 0, stm, 0, 4)
D(0xeb24, STMG, RSY_a, Z, 0, a2, 0, 0, stm, 0, 8)
/* STORE MULTIPLE HIGH */
C(0xeb26, STMH, RSY_a, Z, 0, a2, 0, 0, stmh, 0)
/* STORE ACCESS MULTIPLE */
C(0x9b00, STAM, RS_a, Z, 0, a2, 0, 0, stam, 0)
C(0xeb9b, STAMY, RSY_a, LD, 0, a2, 0, 0, stam, 0)
/* STORE PAIR TO QUADWORD */
C(0xe38e, STPQ, RXY_a, Z, 0, a2, r1_P, 0, stpq, 0)
/* SUBTRACT */
C(0x1b00, SR, RR_a, Z, r1, r2, new, r1_32, sub, subs32)
C(0xb9f9, SRK, RRF_a, DO, r2, r3, new, r1_32, sub, subs32)
C(0x5b00, S, RX_a, Z, r1, m2_32s, new, r1_32, sub, subs32)
C(0xe35b, SY, RXY_a, LD, r1, m2_32s, new, r1_32, sub, subs32)
C(0xb909, SGR, RRE, Z, r1, r2, r1, 0, sub, subs64)
C(0xb919, SGFR, RRE, Z, r1, r2_32s, r1, 0, sub, subs64)
C(0xb9e9, SGRK, RRF_a, DO, r2, r3, r1, 0, sub, subs64)
C(0xe309, SG, RXY_a, Z, r1, m2_64, r1, 0, sub, subs64)
C(0xe319, SGF, RXY_a, Z, r1, m2_32s, r1, 0, sub, subs64)
F(0xb30b, SEBR, RRE, Z, e1, e2, new, e1, seb, f32, IF_BFP)
F(0xb31b, SDBR, RRE, Z, f1, f2, new, f1, sdb, f64, IF_BFP)
F(0xb34b, SXBR, RRE, Z, x1, x2, new_x, x1, sxb, f128, IF_BFP)
F(0xed0b, SEB, RXE, Z, e1, m2_32u, new, e1, seb, f32, IF_BFP)
F(0xed1b, SDB, RXE, Z, f1, m2_64, new, f1, sdb, f64, IF_BFP)
/* SUBTRACT HALFWORD */
C(0x4b00, SH, RX_a, Z, r1, m2_16s, new, r1_32, sub, subs32)
C(0xe37b, SHY, RXY_a, LD, r1, m2_16s, new, r1_32, sub, subs32)
C(0xe339, SGH, RXY_a, MIE2,r1, m2_16s, r1, 0, sub, subs64)
/* SUBTRACT HIGH */
C(0xb9c9, SHHHR, RRF_a, HW, r2_sr32, r3_sr32, new, r1_32h, sub, subs32)
C(0xb9d9, SHHLR, RRF_a, HW, r2_sr32, r3, new, r1_32h, sub, subs32)
/* SUBTRACT LOGICAL */
C(0x1f00, SLR, RR_a, Z, r1_32u, r2_32u, new, r1_32, sub, subu32)
C(0xb9fb, SLRK, RRF_a, DO, r2_32u, r3_32u, new, r1_32, sub, subu32)
C(0x5f00, SL, RX_a, Z, r1_32u, m2_32u, new, r1_32, sub, subu32)
C(0xe35f, SLY, RXY_a, LD, r1_32u, m2_32u, new, r1_32, sub, subu32)
C(0xb90b, SLGR, RRE, Z, r1, r2, r1, 0, subu64, subu64)
C(0xb91b, SLGFR, RRE, Z, r1, r2_32u, r1, 0, subu64, subu64)
C(0xb9eb, SLGRK, RRF_a, DO, r2, r3, r1, 0, subu64, subu64)
C(0xe30b, SLG, RXY_a, Z, r1, m2_64, r1, 0, subu64, subu64)
C(0xe31b, SLGF, RXY_a, Z, r1, m2_32u, r1, 0, subu64, subu64)
/* SUBTRACT LOCICAL HIGH */
C(0xb9cb, SLHHHR, RRF_a, HW, r2_sr32, r3_sr32, new, r1_32h, sub, subu32)
C(0xb9db, SLHHLR, RRF_a, HW, r2_sr32, r3_32u, new, r1_32h, sub, subu32)
/* SUBTRACT LOGICAL IMMEDIATE */
C(0xc205, SLFI, RIL_a, EI, r1_32u, i2_32u, new, r1_32, sub, subu32)
C(0xc204, SLGFI, RIL_a, EI, r1, i2_32u, r1, 0, subu64, subu64)
/* SUBTRACT LOGICAL WITH BORROW */
C(0xb999, SLBR, RRE, Z, r1_32u, r2_32u, new, r1_32, subb32, subu32)
C(0xb989, SLBGR, RRE, Z, r1, r2, r1, 0, subb64, subu64)
C(0xe399, SLB, RXY_a, Z, r1_32u, m2_32u, new, r1_32, subb32, subu32)
C(0xe389, SLBG, RXY_a, Z, r1, m2_64, r1, 0, subb64, subu64)
/* SUPERVISOR CALL */
C(0x0a00, SVC, I, Z, 0, 0, 0, 0, svc, 0)
/* TEST ADDRESSING MODE */
C(0x010b, TAM, E, Z, 0, 0, 0, 0, tam, 0)
/* TEST AND SET */
C(0x9300, TS, S, Z, 0, a2, 0, 0, ts, 0)
/* TEST DATA CLASS */
F(0xed10, TCEB, RXE, Z, e1, a2, 0, 0, tceb, 0, IF_BFP)
F(0xed11, TCDB, RXE, Z, f1, a2, 0, 0, tcdb, 0, IF_BFP)
F(0xed12, TCXB, RXE, Z, x1, a2, 0, 0, tcxb, 0, IF_BFP)
/* TEST DECIMAL */
C(0xebc0, TP, RSL, E2, la1, 0, 0, 0, tp, 0)
/* TEST UNDER MASK */
C(0x9100, TM, SI, Z, m1_8u, i2_8u, 0, 0, 0, tm32)
C(0xeb51, TMY, SIY, LD, m1_8u, i2_8u, 0, 0, 0, tm32)
D(0xa702, TMHH, RI_a, Z, r1_o, i2_16u_shl, 0, 0, 0, tm64, 48)
D(0xa703, TMHL, RI_a, Z, r1_o, i2_16u_shl, 0, 0, 0, tm64, 32)
D(0xa700, TMLH, RI_a, Z, r1_o, i2_16u_shl, 0, 0, 0, tm64, 16)
D(0xa701, TMLL, RI_a, Z, r1_o, i2_16u_shl, 0, 0, 0, tm64, 0)
/* TRANSLATE */
C(0xdc00, TR, SS_a, Z, la1, a2, 0, 0, tr, 0)
/* TRANSLATE AND TEST */
C(0xdd00, TRT, SS_a, Z, la1, a2, 0, 0, trt, 0)
/* TRANSLATE AND TEST REVERSE */
C(0xd000, TRTR, SS_a, ETF3, la1, a2, 0, 0, trtr, 0)
/* TRANSLATE EXTENDED */
C(0xb2a5, TRE, RRE, Z, 0, r2, r1_P, 0, tre, 0)
/* TRANSLATE ONE TO ONE */
C(0xb993, TROO, RRF_c, E2, 0, 0, 0, 0, trXX, 0)
/* TRANSLATE ONE TO TWO */
C(0xb992, TROT, RRF_c, E2, 0, 0, 0, 0, trXX, 0)
/* TRANSLATE TWO TO ONE */
C(0xb991, TRTO, RRF_c, E2, 0, 0, 0, 0, trXX, 0)
/* TRANSLATE TWO TO TWO */
C(0xb990, TRTT, RRF_c, E2, 0, 0, 0, 0, trXX, 0)
/* UNPACK */
/* Really format SS_b, but we pack both lengths into one argument
for the helper call, so we might as well leave one 8-bit field. */
C(0xf300, UNPK, SS_a, Z, la1, a2, 0, 0, unpk, 0)
/* UNPACK ASCII */
C(0xea00, UNPKA, SS_a, E2, la1, a2, 0, 0, unpka, 0)
/* UNPACK UNICODE */
C(0xe200, UNPKU, SS_a, E2, la1, a2, 0, 0, unpku, 0)
/* MSA Instructions */
D(0xb91e, KMAC, RRE, MSA, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_KMAC)
D(0xb928, PCKMO, RRE, MSA3, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_PCKMO)
D(0xb92a, KMF, RRE, MSA4, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_KMF)
D(0xb92b, KMO, RRE, MSA4, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_KMO)
D(0xb92c, PCC, RRE, MSA4, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_PCC)
D(0xb92d, KMCTR, RRF_b, MSA4, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_KMCTR)
D(0xb92e, KM, RRE, MSA, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_KM)
D(0xb92f, KMC, RRE, MSA, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_KMC)
D(0xb929, KMA, RRF_b, MSA8, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_KMA)
D(0xb93c, PPNO, RRE, MSA5, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_PPNO)
D(0xb93e, KIMD, RRE, MSA, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_KIMD)
D(0xb93f, KLMD, RRE, MSA, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_KLMD)
/* === Vector Support Instructions === */
/* VECTOR BIT PERMUTE */
E(0xe785, VBPERM, VRR_c, VE, 0, 0, 0, 0, vbperm, 0, 0, IF_VEC)
/* VECTOR GATHER ELEMENT */
E(0xe713, VGEF, VRV, V, la2, 0, 0, 0, vge, 0, ES_32, IF_VEC)
E(0xe712, VGEG, VRV, V, la2, 0, 0, 0, vge, 0, ES_64, IF_VEC)
/* VECTOR GENERATE BYTE MASK */
F(0xe744, VGBM, VRI_a, V, 0, 0, 0, 0, vgbm, 0, IF_VEC)
/* VECTOR GENERATE MASK */
F(0xe746, VGM, VRI_b, V, 0, 0, 0, 0, vgm, 0, IF_VEC)
/* VECTOR LOAD */
F(0xe706, VL, VRX, V, la2, 0, 0, 0, vl, 0, IF_VEC)
F(0xe756, VLR, VRR_a, V, 0, 0, 0, 0, vlr, 0, IF_VEC)
/* VECTOR LOAD AND REPLICATE */
F(0xe705, VLREP, VRX, V, la2, 0, 0, 0, vlrep, 0, IF_VEC)
/* VECTOR LOAD BYTE REVERSED ELEMENT */
E(0xe601, VLEBRH, VRX, VE2, la2, 0, 0, 0, vlebr, 0, ES_16, IF_VEC)
E(0xe603, VLEBRF, VRX, VE2, la2, 0, 0, 0, vlebr, 0, ES_32, IF_VEC)
E(0xe602, VLEBRG, VRX, VE2, la2, 0, 0, 0, vlebr, 0, ES_64, IF_VEC)
/* VECTOR LOAD BYTE REVERSED ELEMENT AND REPLICATE */
F(0xe605, VLBRREP, VRX, VE2, la2, 0, 0, 0, vlbrrep, 0, IF_VEC)
/* VECTOR LOAD BYTE REVERSED ELEMENT AND ZERO */
F(0xe604, VLLEBRZ, VRX, VE2, la2, 0, 0, 0, vllebrz, 0, IF_VEC)
/* VECTOR LOAD BYTE REVERSED ELEMENTS */
F(0xe606, VLBR, VRX, VE2, la2, 0, 0, 0, vlbr, 0, IF_VEC)
/* VECTOR LOAD ELEMENT */
E(0xe700, VLEB, VRX, V, la2, 0, 0, 0, vle, 0, ES_8, IF_VEC)
E(0xe701, VLEH, VRX, V, la2, 0, 0, 0, vle, 0, ES_16, IF_VEC)
E(0xe703, VLEF, VRX, V, la2, 0, 0, 0, vle, 0, ES_32, IF_VEC)
E(0xe702, VLEG, VRX, V, la2, 0, 0, 0, vle, 0, ES_64, IF_VEC)
/* VECTOR LOAD ELEMENT IMMEDIATE */
E(0xe740, VLEIB, VRI_a, V, 0, 0, 0, 0, vlei, 0, ES_8, IF_VEC)
E(0xe741, VLEIH, VRI_a, V, 0, 0, 0, 0, vlei, 0, ES_16, IF_VEC)
E(0xe743, VLEIF, VRI_a, V, 0, 0, 0, 0, vlei, 0, ES_32, IF_VEC)
E(0xe742, VLEIG, VRI_a, V, 0, 0, 0, 0, vlei, 0, ES_64, IF_VEC)
/* VECTOR LOAD ELEMENTS REVERSED */
F(0xe607, VLER, VRX, VE2, la2, 0, 0, 0, vler, 0, IF_VEC)
/* VECTOR LOAD GR FROM VR ELEMENT */
F(0xe721, VLGV, VRS_c, V, la2, 0, r1, 0, vlgv, 0, IF_VEC)
/* VECTOR LOAD LOGICAL ELEMENT AND ZERO */
F(0xe704, VLLEZ, VRX, V, la2, 0, 0, 0, vllez, 0, IF_VEC)
/* VECTOR LOAD MULTIPLE */
F(0xe736, VLM, VRS_a, V, la2, 0, 0, 0, vlm, 0, IF_VEC)
/* VECTOR LOAD TO BLOCK BOUNDARY */
F(0xe707, VLBB, VRX, V, la2, 0, 0, 0, vlbb, 0, IF_VEC)
/* VECTOR LOAD VR ELEMENT FROM GR */
F(0xe722, VLVG, VRS_b, V, la2, r3, 0, 0, vlvg, 0, IF_VEC)
/* VECTOR LOAD VR FROM GRS DISJOINT */
F(0xe762, VLVGP, VRR_f, V, r2, r3, 0, 0, vlvgp, 0, IF_VEC)
/* VECTOR LOAD WITH LENGTH */
F(0xe737, VLL, VRS_b, V, la2, r3_32u, 0, 0, vll, 0, IF_VEC)
/* VECTOR MERGE HIGH */
F(0xe761, VMRH, VRR_c, V, 0, 0, 0, 0, vmr, 0, IF_VEC)
/* VECTOR MERGE LOW */
F(0xe760, VMRL, VRR_c, V, 0, 0, 0, 0, vmr, 0, IF_VEC)
/* VECTOR PACK */
F(0xe794, VPK, VRR_c, V, 0, 0, 0, 0, vpk, 0, IF_VEC)
/* VECTOR PACK SATURATE */
F(0xe797, VPKS, VRR_b, V, 0, 0, 0, 0, vpk, 0, IF_VEC)
/* VECTOR PACK LOGICAL SATURATE */
F(0xe795, VPKLS, VRR_b, V, 0, 0, 0, 0, vpk, 0, IF_VEC)
F(0xe78c, VPERM, VRR_e, V, 0, 0, 0, 0, vperm, 0, IF_VEC)
/* VECTOR PERMUTE DOUBLEWORD IMMEDIATE */
F(0xe784, VPDI, VRR_c, V, 0, 0, 0, 0, vpdi, 0, IF_VEC)
/* VECTOR REPLICATE */
F(0xe74d, VREP, VRI_c, V, 0, 0, 0, 0, vrep, 0, IF_VEC)
/* VECTOR REPLICATE IMMEDIATE */
F(0xe745, VREPI, VRI_a, V, 0, 0, 0, 0, vrepi, 0, IF_VEC)
/* VECTOR SCATTER ELEMENT */
E(0xe71b, VSCEF, VRV, V, la2, 0, 0, 0, vsce, 0, ES_32, IF_VEC)
E(0xe71a, VSCEG, VRV, V, la2, 0, 0, 0, vsce, 0, ES_64, IF_VEC)
/* VECTOR SELECT */
F(0xe78d, VSEL, VRR_e, V, 0, 0, 0, 0, vsel, 0, IF_VEC)
/* VECTOR SIGN EXTEND TO DOUBLEWORD */
F(0xe75f, VSEG, VRR_a, V, 0, 0, 0, 0, vseg, 0, IF_VEC)
/* VECTOR STORE */
F(0xe70e, VST, VRX, V, la2, 0, 0, 0, vst, 0, IF_VEC)
/* VECTOR STORE BYTE REVERSED ELEMENT */
E(0xe609, VSTEBRH, VRX, VE2, la2, 0, 0, 0, vstebr, 0, ES_16, IF_VEC)
E(0xe60b, VSTEBRF, VRX, VE2, la2, 0, 0, 0, vstebr, 0, ES_32, IF_VEC)
E(0xe60a, VSTEBRG, VRX, VE2, la2, 0, 0, 0, vstebr, 0, ES_64, IF_VEC)
/* VECTOR STORE BYTE REVERSED ELEMENTS */
F(0xe60e, VSTBR, VRX, VE2, la2, 0, 0, 0, vstbr, 0, IF_VEC)
/* VECTOR STORE ELEMENT */
E(0xe708, VSTEB, VRX, V, la2, 0, 0, 0, vste, 0, ES_8, IF_VEC)
E(0xe709, VSTEH, VRX, V, la2, 0, 0, 0, vste, 0, ES_16, IF_VEC)
E(0xe70b, VSTEF, VRX, V, la2, 0, 0, 0, vste, 0, ES_32, IF_VEC)
E(0xe70a, VSTEG, VRX, V, la2, 0, 0, 0, vste, 0, ES_64, IF_VEC)
/* VECTOR STORE ELEMENTS REVERSED */
F(0xe60f, VSTER, VRX, VE2, la2, 0, 0, 0, vster, 0, IF_VEC)
/* VECTOR STORE MULTIPLE */
F(0xe73e, VSTM, VRS_a, V, la2, 0, 0, 0, vstm, 0, IF_VEC)
/* VECTOR STORE WITH LENGTH */
F(0xe73f, VSTL, VRS_b, V, la2, r3_32u, 0, 0, vstl, 0, IF_VEC)
/* VECTOR UNPACK HIGH */
F(0xe7d7, VUPH, VRR_a, V, 0, 0, 0, 0, vup, 0, IF_VEC)
/* VECTOR UNPACK LOGICAL HIGH */
F(0xe7d5, VUPLH, VRR_a, V, 0, 0, 0, 0, vup, 0, IF_VEC)
/* VECTOR UNPACK LOW */
F(0xe7d6, VUPL, VRR_a, V, 0, 0, 0, 0, vup, 0, IF_VEC)
/* VECTOR UNPACK LOGICAL LOW */
F(0xe7d4, VUPLL, VRR_a, V, 0, 0, 0, 0, vup, 0, IF_VEC)
/* === Vector Integer Instructions === */
/* VECTOR ADD */
F(0xe7f3, VA, VRR_c, V, 0, 0, 0, 0, va, 0, IF_VEC)
/* VECTOR ADD COMPUTE CARRY */
F(0xe7f1, VACC, VRR_c, V, 0, 0, 0, 0, vacc, 0, IF_VEC)
/* VECTOR ADD WITH CARRY */
F(0xe7bb, VAC, VRR_d, V, 0, 0, 0, 0, vac, 0, IF_VEC)
/* VECTOR ADD WITH CARRY COMPUTE CARRY */
F(0xe7b9, VACCC, VRR_d, V, 0, 0, 0, 0, vaccc, 0, IF_VEC)
/* VECTOR AND */
F(0xe768, VN, VRR_c, V, 0, 0, 0, 0, vn, 0, IF_VEC)
/* VECTOR AND WITH COMPLEMENT */
F(0xe769, VNC, VRR_c, V, 0, 0, 0, 0, vnc, 0, IF_VEC)
/* VECTOR AVERAGE */
F(0xe7f2, VAVG, VRR_c, V, 0, 0, 0, 0, vavg, 0, IF_VEC)
/* VECTOR AVERAGE LOGICAL */
F(0xe7f0, VAVGL, VRR_c, V, 0, 0, 0, 0, vavgl, 0, IF_VEC)
/* VECTOR CHECKSUM */
F(0xe766, VCKSM, VRR_c, V, 0, 0, 0, 0, vcksm, 0, IF_VEC)
/* VECTOR ELEMENT COMPARE */
F(0xe7db, VEC, VRR_a, V, 0, 0, 0, 0, vec, cmps64, IF_VEC)
/* VECTOR ELEMENT COMPARE LOGICAL */
F(0xe7d9, VECL, VRR_a, V, 0, 0, 0, 0, vec, cmpu64, IF_VEC)
/* VECTOR COMPARE EQUAL */
E(0xe7f8, VCEQ, VRR_b, V, 0, 0, 0, 0, vc, 0, TCG_COND_EQ, IF_VEC)
/* VECTOR COMPARE HIGH */
E(0xe7fb, VCH, VRR_b, V, 0, 0, 0, 0, vc, 0, TCG_COND_GT, IF_VEC)
/* VECTOR COMPARE HIGH LOGICAL */
E(0xe7f9, VCHL, VRR_b, V, 0, 0, 0, 0, vc, 0, TCG_COND_GTU, IF_VEC)
/* VECTOR COUNT LEADING ZEROS */
F(0xe753, VCLZ, VRR_a, V, 0, 0, 0, 0, vclz, 0, IF_VEC)
/* VECTOR COUNT TRAILING ZEROS */
F(0xe752, VCTZ, VRR_a, V, 0, 0, 0, 0, vctz, 0, IF_VEC)
/* VECTOR EXCLUSIVE OR */
F(0xe76d, VX, VRR_c, V, 0, 0, 0, 0, vx, 0, IF_VEC)
/* VECTOR GALOIS FIELD MULTIPLY SUM */
F(0xe7b4, VGFM, VRR_c, V, 0, 0, 0, 0, vgfm, 0, IF_VEC)
/* VECTOR GALOIS FIELD MULTIPLY SUM AND ACCUMULATE */
F(0xe7bc, VGFMA, VRR_d, V, 0, 0, 0, 0, vgfma, 0, IF_VEC)
/* VECTOR LOAD COMPLEMENT */
F(0xe7de, VLC, VRR_a, V, 0, 0, 0, 0, vlc, 0, IF_VEC)
/* VECTOR LOAD POSITIVE */
F(0xe7df, VLP, VRR_a, V, 0, 0, 0, 0, vlp, 0, IF_VEC)
/* VECTOR MAXIMUM */
F(0xe7ff, VMX, VRR_c, V, 0, 0, 0, 0, vmx, 0, IF_VEC)
/* VECTOR MAXIMUM LOGICAL */
F(0xe7fd, VMXL, VRR_c, V, 0, 0, 0, 0, vmx, 0, IF_VEC)
/* VECTOR MINIMUM */
F(0xe7fe, VMN, VRR_c, V, 0, 0, 0, 0, vmx, 0, IF_VEC)
/* VECTOR MINIMUM LOGICAL */
F(0xe7fc, VMNL, VRR_c, V, 0, 0, 0, 0, vmx, 0, IF_VEC)
/* VECTOR MULTIPLY AND ADD LOW */
F(0xe7aa, VMAL, VRR_d, V, 0, 0, 0, 0, vma, 0, IF_VEC)
/* VECTOR MULTIPLY AND ADD HIGH */
F(0xe7ab, VMAH, VRR_d, V, 0, 0, 0, 0, vma, 0, IF_VEC)
/* VECTOR MULTIPLY AND ADD LOGICAL HIGH */
F(0xe7a9, VMALH, VRR_d, V, 0, 0, 0, 0, vma, 0, IF_VEC)
/* VECTOR MULTIPLY AND ADD EVEN */
F(0xe7ae, VMAE, VRR_d, V, 0, 0, 0, 0, vma, 0, IF_VEC)
/* VECTOR MULTIPLY AND ADD LOGICAL EVEN */
F(0xe7ac, VMALE, VRR_d, V, 0, 0, 0, 0, vma, 0, IF_VEC)
/* VECTOR MULTIPLY AND ADD ODD */
F(0xe7af, VMAO, VRR_d, V, 0, 0, 0, 0, vma, 0, IF_VEC)
/* VECTOR MULTIPLY AND ADD LOGICAL ODD */
F(0xe7ad, VMALO, VRR_d, V, 0, 0, 0, 0, vma, 0, IF_VEC)
/* VECTOR MULTIPLY HIGH */
F(0xe7a3, VMH, VRR_c, V, 0, 0, 0, 0, vm, 0, IF_VEC)
/* VECTOR MULTIPLY LOGICAL HIGH */
F(0xe7a1, VMLH, VRR_c, V, 0, 0, 0, 0, vm, 0, IF_VEC)
/* VECTOR MULTIPLY LOW */
F(0xe7a2, VML, VRR_c, V, 0, 0, 0, 0, vm, 0, IF_VEC)
/* VECTOR MULTIPLY EVEN */
F(0xe7a6, VME, VRR_c, V, 0, 0, 0, 0, vm, 0, IF_VEC)
/* VECTOR MULTIPLY LOGICAL EVEN */
F(0xe7a4, VMLE, VRR_c, V, 0, 0, 0, 0, vm, 0, IF_VEC)
/* VECTOR MULTIPLY ODD */
F(0xe7a7, VMO, VRR_c, V, 0, 0, 0, 0, vm, 0, IF_VEC)
/* VECTOR MULTIPLY LOGICAL ODD */
F(0xe7a5, VMLO, VRR_c, V, 0, 0, 0, 0, vm, 0, IF_VEC)
/* VECTOR MULTIPLY SUM LOGICAL */
F(0xe7b8, VMSL, VRR_d, VE, 0, 0, 0, 0, vmsl, 0, IF_VEC)
/* VECTOR NAND */
F(0xe76e, VNN, VRR_c, VE, 0, 0, 0, 0, vnn, 0, IF_VEC)
/* VECTOR NOR */
F(0xe76b, VNO, VRR_c, V, 0, 0, 0, 0, vno, 0, IF_VEC)
/* VECTOR NOT EXCLUSIVE OR */
F(0xe76c, VNX, VRR_c, VE, 0, 0, 0, 0, vnx, 0, IF_VEC)
/* VECTOR OR */
F(0xe76a, VO, VRR_c, V, 0, 0, 0, 0, vo, 0, IF_VEC)
/* VECTOR OR WITH COMPLEMENT */
F(0xe76f, VOC, VRR_c, VE, 0, 0, 0, 0, voc, 0, IF_VEC)
/* VECTOR POPULATION COUNT */
F(0xe750, VPOPCT, VRR_a, V, 0, 0, 0, 0, vpopct, 0, IF_VEC)
/* VECTOR ELEMENT ROTATE LEFT LOGICAL */
F(0xe773, VERLLV, VRR_c, V, 0, 0, 0, 0, vesv, 0, IF_VEC)
F(0xe733, VERLL, VRS_a, V, la2, 0, 0, 0, ves, 0, IF_VEC)
/* VECTOR ELEMENT ROTATE AND INSERT UNDER MASK */
F(0xe772, VERIM, VRI_d, V, 0, 0, 0, 0, verim, 0, IF_VEC)
/* VECTOR ELEMENT SHIFT LEFT */
F(0xe770, VESLV, VRR_c, V, 0, 0, 0, 0, vesv, 0, IF_VEC)
F(0xe730, VESL, VRS_a, V, la2, 0, 0, 0, ves, 0, IF_VEC)
/* VECTOR ELEMENT SHIFT RIGHT ARITHMETIC */
F(0xe77a, VESRAV, VRR_c, V, 0, 0, 0, 0, vesv, 0, IF_VEC)
F(0xe73a, VESRA, VRS_a, V, la2, 0, 0, 0, ves, 0, IF_VEC)
/* VECTOR ELEMENT SHIFT RIGHT LOGICAL */
F(0xe778, VESRLV, VRR_c, V, 0, 0, 0, 0, vesv, 0, IF_VEC)
F(0xe738, VESRL, VRS_a, V, la2, 0, 0, 0, ves, 0, IF_VEC)
/* VECTOR SHIFT LEFT */
E(0xe774, VSL, VRR_c, V, 0, 0, 0, 0, vsl, 0, 0, IF_VEC)
/* VECTOR SHIFT LEFT BY BYTE */
E(0xe775, VSLB, VRR_c, V, 0, 0, 0, 0, vsl, 0, 1, IF_VEC)
/* VECTOR SHIFT LEFT DOUBLE BY BIT */
E(0xe786, VSLD, VRI_d, VE2, 0, 0, 0, 0, vsld, 0, 0, IF_VEC)
/* VECTOR SHIFT LEFT DOUBLE BY BYTE */
E(0xe777, VSLDB, VRI_d, V, 0, 0, 0, 0, vsld, 0, 1, IF_VEC)
/* VECTOR SHIFT RIGHT ARITHMETIC */
E(0xe77e, VSRA, VRR_c, V, 0, 0, 0, 0, vsra, 0, 0, IF_VEC)
/* VECTOR SHIFT RIGHT ARITHMETIC BY BYTE */
E(0xe77f, VSRAB, VRR_c, V, 0, 0, 0, 0, vsra, 0, 1, IF_VEC)
/* VECTOR SHIFT RIGHT DOUBLE BY BIT */
F(0xe787, VSRD, VRI_d, VE2, 0, 0, 0, 0, vsrd, 0, IF_VEC)
/* VECTOR SHIFT RIGHT LOGICAL */
E(0xe77c, VSRL, VRR_c, V, 0, 0, 0, 0, vsrl, 0, 0, IF_VEC)
/* VECTOR SHIFT RIGHT LOGICAL BY BYTE */
E(0xe77d, VSRLB, VRR_c, V, 0, 0, 0, 0, vsrl, 0, 1, IF_VEC)
/* VECTOR SUBTRACT */
F(0xe7f7, VS, VRR_c, V, 0, 0, 0, 0, vs, 0, IF_VEC)
/* VECTOR SUBTRACT COMPUTE BORROW INDICATION */
F(0xe7f5, VSCBI, VRR_c, V, 0, 0, 0, 0, vscbi, 0, IF_VEC)
/* VECTOR SUBTRACT WITH BORROW INDICATION */
F(0xe7bf, VSBI, VRR_d, V, 0, 0, 0, 0, vsbi, 0, IF_VEC)
/* VECTOR SUBTRACT WITH BORROW COMPUTE BORROW INDICATION */
F(0xe7bd, VSBCBI, VRR_d, V, 0, 0, 0, 0, vsbcbi, 0, IF_VEC)
/* VECTOR SUM ACROSS DOUBLEWORD */
F(0xe765, VSUMG, VRR_c, V, 0, 0, 0, 0, vsumg, 0, IF_VEC)
/* VECTOR SUM ACROSS QUADWORD */
F(0xe767, VSUMQ, VRR_c, V, 0, 0, 0, 0, vsumq, 0, IF_VEC)
/* VECTOR SUM ACROSS WORD */
F(0xe764, VSUM, VRR_c, V, 0, 0, 0, 0, vsum, 0, IF_VEC)
/* VECTOR TEST UNDER MASK */
F(0xe7d8, VTM, VRR_a, V, 0, 0, 0, 0, vtm, 0, IF_VEC)
/* === Vector String Instructions === */
/* VECTOR FIND ANY ELEMENT EQUAL */
F(0xe782, VFAE, VRR_b, V, 0, 0, 0, 0, vfae, 0, IF_VEC)
/* VECTOR FIND ELEMENT EQUAL */
F(0xe780, VFEE, VRR_b, V, 0, 0, 0, 0, vfee, 0, IF_VEC)
/* VECTOR FIND ELEMENT NOT EQUAL */
F(0xe781, VFENE, VRR_b, V, 0, 0, 0, 0, vfene, 0, IF_VEC)
/* VECTOR ISOLATE STRING */
F(0xe75c, VISTR, VRR_a, V, 0, 0, 0, 0, vistr, 0, IF_VEC)
/* VECTOR STRING RANGE COMPARE */
F(0xe78a, VSTRC, VRR_d, V, 0, 0, 0, 0, vstrc, 0, IF_VEC)
/* VECTOR STRING SEARCH */
F(0xe78b, VSTRS, VRR_d, VE2, 0, 0, 0, 0, vstrs, 0, IF_VEC)
/* === Vector Floating-Point Instructions */
/* VECTOR FP ADD */
F(0xe7e3, VFA, VRR_c, V, 0, 0, 0, 0, vfa, 0, IF_VEC)
/* VECTOR FP COMPARE SCALAR */
F(0xe7cb, WFC, VRR_a, V, 0, 0, 0, 0, wfc, 0, IF_VEC)
/* VECTOR FP COMPARE AND SIGNAL SCALAR */
F(0xe7ca, WFK, VRR_a, V, 0, 0, 0, 0, wfc, 0, IF_VEC)
/* VECTOR FP COMPARE EQUAL */
F(0xe7e8, VFCE, VRR_c, V, 0, 0, 0, 0, vfc, 0, IF_VEC)
/* VECTOR FP COMPARE HIGH */
F(0xe7eb, VFCH, VRR_c, V, 0, 0, 0, 0, vfc, 0, IF_VEC)
/* VECTOR FP COMPARE HIGH OR EQUAL */
F(0xe7ea, VFCHE, VRR_c, V, 0, 0, 0, 0, vfc, 0, IF_VEC)
/* VECTOR FP CONVERT FROM FIXED 64-BIT */
F(0xe7c3, VCDG, VRR_a, V, 0, 0, 0, 0, vcdg, 0, IF_VEC)
/* VECTOR FP CONVERT FROM LOGICAL 64-BIT */
F(0xe7c1, VCDLG, VRR_a, V, 0, 0, 0, 0, vcdg, 0, IF_VEC)
/* VECTOR FP CONVERT TO FIXED 64-BIT */
F(0xe7c2, VCGD, VRR_a, V, 0, 0, 0, 0, vcdg, 0, IF_VEC)
/* VECTOR FP CONVERT TO LOGICAL 64-BIT */
F(0xe7c0, VCLGD, VRR_a, V, 0, 0, 0, 0, vcdg, 0, IF_VEC)
/* VECTOR FP DIVIDE */
F(0xe7e5, VFD, VRR_c, V, 0, 0, 0, 0, vfa, 0, IF_VEC)
/* VECTOR LOAD FP INTEGER */
F(0xe7c7, VFI, VRR_a, V, 0, 0, 0, 0, vcdg, 0, IF_VEC)
/* VECTOR FP LOAD LENGTHENED */
F(0xe7c4, VFLL, VRR_a, V, 0, 0, 0, 0, vfll, 0, IF_VEC)
/* VECTOR FP LOAD ROUNDED */
F(0xe7c5, VFLR, VRR_a, V, 0, 0, 0, 0, vcdg, 0, IF_VEC)
/* VECTOR FP MAXIMUM */
F(0xe7ef, VFMAX, VRR_c, VE, 0, 0, 0, 0, vfmax, 0, IF_VEC)
/* VECTOR FP MINIMUM */
F(0xe7ee, VFMIN, VRR_c, VE, 0, 0, 0, 0, vfmax, 0, IF_VEC)
/* VECTOR FP MULTIPLY */
F(0xe7e7, VFM, VRR_c, V, 0, 0, 0, 0, vfa, 0, IF_VEC)
/* VECTOR FP MULTIPLY AND ADD */
F(0xe78f, VFMA, VRR_e, V, 0, 0, 0, 0, vfma, 0, IF_VEC)
/* VECTOR FP MULTIPLY AND SUBTRACT */
F(0xe78e, VFMS, VRR_e, V, 0, 0, 0, 0, vfma, 0, IF_VEC)
/* VECTOR FP NEGATIVE MULTIPLY AND ADD */
F(0xe79f, VFNMA, VRR_e, VE, 0, 0, 0, 0, vfma, 0, IF_VEC)
/* VECTOR FP NEGATIVE MULTIPLY AND SUBTRACT */
F(0xe79e, VFNMS, VRR_e, VE, 0, 0, 0, 0, vfma, 0, IF_VEC)
/* VECTOR FP PERFORM SIGN OPERATION */
F(0xe7cc, VFPSO, VRR_a, V, 0, 0, 0, 0, vfpso, 0, IF_VEC)
/* VECTOR FP SQUARE ROOT */
F(0xe7ce, VFSQ, VRR_a, V, 0, 0, 0, 0, vfsq, 0, IF_VEC)
/* VECTOR FP SUBTRACT */
F(0xe7e2, VFS, VRR_c, V, 0, 0, 0, 0, vfa, 0, IF_VEC)
/* VECTOR FP TEST DATA CLASS IMMEDIATE */
F(0xe74a, VFTCI, VRI_e, V, 0, 0, 0, 0, vftci, 0, IF_VEC)
#ifndef CONFIG_USER_ONLY
/* COMPARE AND SWAP AND PURGE */
E(0xb250, CSP, RRE, Z, r1_32u, ra2, r1_P, 0, csp, 0, MO_TEUL, IF_PRIV)
E(0xb98a, CSPG, RRE, DAT_ENH, r1_o, ra2, r1_P, 0, csp, 0, MO_TEUQ, IF_PRIV)
/* DIAGNOSE (KVM hypercall) */
F(0x8300, DIAG, RSI, Z, 0, 0, 0, 0, diag, 0, IF_PRIV | IF_IO)
/* INSERT STORAGE KEY EXTENDED */
F(0xb229, ISKE, RRE, Z, 0, r2_o, new, r1_8, iske, 0, IF_PRIV)
/* INVALIDATE DAT TABLE ENTRY */
F(0xb98e, IPDE, RRF_b, Z, r1_o, r2_o, 0, 0, idte, 0, IF_PRIV)
/* INVALIDATE PAGE TABLE ENTRY */
F(0xb221, IPTE, RRF_a, Z, r1_o, r2_o, 0, 0, ipte, 0, IF_PRIV)
/* LOAD CONTROL */
F(0xb700, LCTL, RS_a, Z, 0, a2, 0, 0, lctl, 0, IF_PRIV)
F(0xeb2f, LCTLG, RSY_a, Z, 0, a2, 0, 0, lctlg, 0, IF_PRIV)
/* LOAD PROGRAM PARAMETER */
F(0xb280, LPP, S, LPP, 0, m2_64, 0, 0, lpp, 0, IF_PRIV)
/* LOAD PSW */
F(0x8200, LPSW, S, Z, 0, a2, 0, 0, lpsw, 0, IF_PRIV)
/* LOAD PSW EXTENDED */
F(0xb2b2, LPSWE, S, Z, 0, a2, 0, 0, lpswe, 0, IF_PRIV)
/* LOAD REAL ADDRESS */
F(0xb100, LRA, RX_a, Z, 0, a2, r1, 0, lra, 0, IF_PRIV)
F(0xe313, LRAY, RXY_a, LD, 0, a2, r1, 0, lra, 0, IF_PRIV)
F(0xe303, LRAG, RXY_a, Z, 0, a2, r1, 0, lra, 0, IF_PRIV)
/* LOAD USING REAL ADDRESS */
E(0xb24b, LURA, RRE, Z, 0, ra2, new, r1_32, lura, 0, MO_TEUL, IF_PRIV)
E(0xb905, LURAG, RRE, Z, 0, ra2, r1, 0, lura, 0, MO_TEUQ, IF_PRIV)
/* MOVE TO PRIMARY */
C(0xda00, MVCP, SS_d, Z, la1, a2, 0, 0, mvcp, 0)
/* MOVE TO SECONDARY */
C(0xdb00, MVCS, SS_d, Z, la1, a2, 0, 0, mvcs, 0)
/* PURGE TLB */
F(0xb20d, PTLB, S, Z, 0, 0, 0, 0, ptlb, 0, IF_PRIV)
/* RESET REFERENCE BIT EXTENDED */
F(0xb22a, RRBE, RRE, Z, 0, r2_o, 0, 0, rrbe, 0, IF_PRIV)
/* SERVICE CALL LOGICAL PROCESSOR (PV hypercall) */
F(0xb220, SERVC, RRE, Z, r1_o, r2_o, 0, 0, servc, 0, IF_PRIV | IF_IO)
/* SET ADDRESS SPACE CONTROL FAST */
C(0xb279, SACF, S, Z, 0, a2, 0, 0, sacf, 0)
/* SET CLOCK */
F(0xb204, SCK, S, Z, 0, m2_64a, 0, 0, sck, 0, IF_PRIV | IF_IO)
/* SET CLOCK COMPARATOR */
F(0xb206, SCKC, S, Z, 0, m2_64a, 0, 0, sckc, 0, IF_PRIV | IF_IO)
/* SET CLOCK PROGRAMMABLE FIELD */
F(0x0107, SCKPF, E, Z, 0, 0, 0, 0, sckpf, 0, IF_PRIV)
/* SET CPU TIMER */
F(0xb208, SPT, S, Z, 0, m2_64a, 0, 0, spt, 0, IF_PRIV | IF_IO)
/* SET PREFIX */
F(0xb210, SPX, S, Z, 0, m2_32ua, 0, 0, spx, 0, IF_PRIV)
/* SET PSW KEY FROM ADDRESS */
F(0xb20a, SPKA, S, Z, 0, a2, 0, 0, spka, 0, IF_PRIV)
/* SET STORAGE KEY EXTENDED */
F(0xb22b, SSKE, RRF_c, Z, r1_o, r2_o, 0, 0, sske, 0, IF_PRIV)
/* SET SYSTEM MASK */
F(0x8000, SSM, S, Z, 0, m2_8u, 0, 0, ssm, 0, IF_PRIV)
/* SIGNAL PROCESSOR */
F(0xae00, SIGP, RS_a, Z, 0, a2, 0, 0, sigp, 0, IF_PRIV | IF_IO)
/* STORE CLOCK COMPARATOR */
F(0xb207, STCKC, S, Z, la2, 0, new, m1_64a, stckc, 0, IF_PRIV)
/* STORE CONTROL */
F(0xb600, STCTL, RS_a, Z, 0, a2, 0, 0, stctl, 0, IF_PRIV)
F(0xeb25, STCTG, RSY_a, Z, 0, a2, 0, 0, stctg, 0, IF_PRIV)
/* STORE CPU ADDRESS */
F(0xb212, STAP, S, Z, la2, 0, new, m1_16a, stap, 0, IF_PRIV)
/* STORE CPU ID */
F(0xb202, STIDP, S, Z, la2, 0, new, m1_64a, stidp, 0, IF_PRIV)
/* STORE CPU TIMER */
F(0xb209, STPT, S, Z, la2, 0, new, m1_64a, stpt, 0, IF_PRIV | IF_IO)
/* STORE FACILITY LIST */
F(0xb2b1, STFL, S, Z, 0, 0, 0, 0, stfl, 0, IF_PRIV)
/* STORE PREFIX */
F(0xb211, STPX, S, Z, la2, 0, new, m1_32a, stpx, 0, IF_PRIV)
/* STORE SYSTEM INFORMATION */
F(0xb27d, STSI, S, Z, 0, a2, 0, 0, stsi, 0, IF_PRIV)
/* STORE THEN AND SYSTEM MASK */
F(0xac00, STNSM, SI, Z, la1, 0, 0, 0, stnosm, 0, IF_PRIV)
/* STORE THEN OR SYSTEM MASK */
F(0xad00, STOSM, SI, Z, la1, 0, 0, 0, stnosm, 0, IF_PRIV)
/* STORE USING REAL ADDRESS */
E(0xb246, STURA, RRE, Z, r1_o, ra2, 0, 0, stura, 0, MO_TEUL, IF_PRIV)
E(0xb925, STURG, RRE, Z, r1_o, ra2, 0, 0, stura, 0, MO_TEUQ, IF_PRIV)
/* TEST BLOCK */
F(0xb22c, TB, RRE, Z, 0, r2_o, 0, 0, testblock, 0, IF_PRIV)
/* TEST PROTECTION */
C(0xe501, TPROT, SSE, Z, la1, a2, 0, 0, tprot, 0)
/* CCW I/O Instructions */
F(0xb276, XSCH, S, Z, 0, 0, 0, 0, xsch, 0, IF_PRIV | IF_IO)
F(0xb230, CSCH, S, Z, 0, 0, 0, 0, csch, 0, IF_PRIV | IF_IO)
F(0xb231, HSCH, S, Z, 0, 0, 0, 0, hsch, 0, IF_PRIV | IF_IO)
F(0xb232, MSCH, S, Z, 0, insn, 0, 0, msch, 0, IF_PRIV | IF_IO)
F(0xb23b, RCHP, S, Z, 0, 0, 0, 0, rchp, 0, IF_PRIV | IF_IO)
F(0xb238, RSCH, S, Z, 0, 0, 0, 0, rsch, 0, IF_PRIV | IF_IO)
F(0xb237, SAL, S, Z, 0, 0, 0, 0, sal, 0, IF_PRIV | IF_IO)
F(0xb23c, SCHM, S, Z, 0, insn, 0, 0, schm, 0, IF_PRIV | IF_IO)
F(0xb274, SIGA, S, Z, 0, 0, 0, 0, siga, 0, IF_PRIV | IF_IO)
F(0xb23a, STCPS, S, Z, 0, 0, 0, 0, stcps, 0, IF_PRIV | IF_IO)
F(0xb233, SSCH, S, Z, 0, insn, 0, 0, ssch, 0, IF_PRIV | IF_IO)
F(0xb239, STCRW, S, Z, 0, insn, 0, 0, stcrw, 0, IF_PRIV | IF_IO)
F(0xb234, STSCH, S, Z, 0, insn, 0, 0, stsch, 0, IF_PRIV | IF_IO)
F(0xb236, TPI , S, Z, la2, 0, 0, 0, tpi, 0, IF_PRIV | IF_IO)
F(0xb235, TSCH, S, Z, 0, insn, 0, 0, tsch, 0, IF_PRIV | IF_IO)
/* ??? Not listed in PoO ninth edition, but there's a linux driver that
uses it: "A CHSC subchannel is usually present on LPAR only." */
F(0xb25f, CHSC, RRE, Z, 0, insn, 0, 0, chsc, 0, IF_PRIV | IF_IO)
/* zPCI Instructions */
/* None of these instructions are documented in the PoP, so this is all
based upon target/s390x/kvm.c and Linux code and likely incomplete */
F(0xebd0, PCISTB, RSY_a, PCI, la2, 0, 0, 0, pcistb, 0, IF_PRIV | IF_IO)
F(0xebd1, SIC, RSY_a, AIS, r1, r3, 0, 0, sic, 0, IF_PRIV | IF_IO)
F(0xb9a0, CLP, RRF_c, PCI, 0, 0, 0, 0, clp, 0, IF_PRIV | IF_IO)
F(0xb9d0, PCISTG, RRE, PCI, 0, 0, 0, 0, pcistg, 0, IF_PRIV | IF_IO)
F(0xb9d2, PCILG, RRE, PCI, 0, 0, 0, 0, pcilg, 0, IF_PRIV | IF_IO)
F(0xb9d3, RPCIT, RRE, PCI, 0, 0, 0, 0, rpcit, 0, IF_PRIV | IF_IO)
F(0xe3d0, MPCIFC, RXY_a, PCI, la2, 0, 0, 0, mpcifc, 0, IF_PRIV | IF_IO)
F(0xe3d4, STPCIFC, RXY_a, PCI, la2, 0, 0, 0, stpcifc, 0, IF_PRIV | IF_IO)
#endif /* CONFIG_USER_ONLY */