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FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/s3/@/amd64/compile/hs32/modules/usr/src/sys/modules/syscons/beastie/@/ia64/disasm/disasm_extract.c |
/*- * Copyright (c) 2000-2006 Marcel Moolenaar * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/ia64/disasm/disasm_extract.c 159916 2006-06-24 19:21:11Z marcel $"); #include <sys/param.h> #include <sys/systm.h> #include <machine/stdarg.h> #include <ia64/disasm/disasm_int.h> #include <ia64/disasm/disasm.h> #define FRAG(o,l) ((int)((o << 8) | (l & 0xff))) #define FRAG_OFS(f) (f >> 8) #define FRAG_LEN(f) (f & 0xff) /* * Support functions. */ static void asm_cmpltr_add(struct asm_inst *i, enum asm_cmpltr_class c, enum asm_cmpltr_type t) { i->i_cmpltr[i->i_ncmpltrs].c_class = c; i->i_cmpltr[i->i_ncmpltrs].c_type = t; i->i_ncmpltrs++; KASSERT(i->i_ncmpltrs < 6, ("foo")); } static void asm_hint(struct asm_inst *i, enum asm_cmpltr_class c) { switch (FIELD(i->i_bits, 28, 2)) { /* hint */ case 0: asm_cmpltr_add(i, c, ASM_CT_NONE); break; case 1: asm_cmpltr_add(i, c, ASM_CT_NT1); break; case 2: asm_cmpltr_add(i, c, ASM_CT_NT2); break; case 3: asm_cmpltr_add(i, c, ASM_CT_NTA); break; } } static void asm_sf(struct asm_inst *i) { switch (FIELD(i->i_bits, 34, 2)) { case 0: asm_cmpltr_add(i, ASM_CC_SF, ASM_CT_S0); break; case 1: asm_cmpltr_add(i, ASM_CC_SF, ASM_CT_S1); break; case 2: asm_cmpltr_add(i, ASM_CC_SF, ASM_CT_S2); break; case 3: asm_cmpltr_add(i, ASM_CC_SF, ASM_CT_S3); break; } } static void asm_brhint(struct asm_inst *i) { uint64_t bits = i->i_bits; switch (FIELD(bits, 33, 2)) { /* bwh */ case 0: asm_cmpltr_add(i, ASM_CC_BWH, ASM_CT_SPTK); break; case 1: asm_cmpltr_add(i, ASM_CC_BWH, ASM_CT_SPNT); break; case 2: asm_cmpltr_add(i, ASM_CC_BWH, ASM_CT_DPTK); break; case 3: asm_cmpltr_add(i, ASM_CC_BWH, ASM_CT_DPNT); break; } if (FIELD(bits, 12, 1)) /* ph */ asm_cmpltr_add(i, ASM_CC_PH, ASM_CT_MANY); else asm_cmpltr_add(i, ASM_CC_PH, ASM_CT_FEW); if (FIELD(bits, 35, 1)) /* dh */ asm_cmpltr_add(i, ASM_CC_DH, ASM_CT_CLR); else asm_cmpltr_add(i, ASM_CC_DH, ASM_CT_NONE); } static void asm_brphint(struct asm_inst *i) { uint64_t bits = i->i_bits; switch (FIELD(bits, 3, 2)) { /* ipwh, indwh */ case 0: asm_cmpltr_add(i, ASM_CC_IPWH, ASM_CT_SPTK); break; case 1: asm_cmpltr_add(i, ASM_CC_IPWH, ASM_CT_LOOP); break; case 2: asm_cmpltr_add(i, ASM_CC_IPWH, ASM_CT_DPTK); break; case 3: asm_cmpltr_add(i, ASM_CC_IPWH, ASM_CT_EXIT); break; } if (FIELD(bits, 5, 1)) /* ph */ asm_cmpltr_add(i, ASM_CC_PH, ASM_CT_MANY); else asm_cmpltr_add(i, ASM_CC_PH, ASM_CT_FEW); switch (FIELD(bits, 0, 3)) { /* pvec */ case 0: asm_cmpltr_add(i, ASM_CC_PVEC, ASM_CT_DC_DC); break; case 1: asm_cmpltr_add(i, ASM_CC_PVEC, ASM_CT_DC_NT); break; case 2: asm_cmpltr_add(i, ASM_CC_PVEC, ASM_CT_TK_DC); break; case 3: asm_cmpltr_add(i, ASM_CC_PVEC, ASM_CT_TK_TK); break; case 4: asm_cmpltr_add(i, ASM_CC_PVEC, ASM_CT_TK_NT); break; case 5: asm_cmpltr_add(i, ASM_CC_PVEC, ASM_CT_NT_DC); break; case 6: asm_cmpltr_add(i, ASM_CC_PVEC, ASM_CT_NT_TK); break; case 7: asm_cmpltr_add(i, ASM_CC_PVEC, ASM_CT_NT_NT); break; } if (FIELD(bits, 35, 1)) /* ih */ asm_cmpltr_add(i, ASM_CC_IH, ASM_CT_IMP); else asm_cmpltr_add(i, ASM_CC_IH, ASM_CT_NONE); } static enum asm_oper_type asm_normalize(struct asm_inst *i, enum asm_op op) { enum asm_oper_type ot = ASM_OPER_NONE; switch (op) { case ASM_OP_BR_CALL: asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_CALL); op = ASM_OP_BR; break; case ASM_OP_BR_CEXIT: asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_CEXIT); op = ASM_OP_BR; break; case ASM_OP_BR_CLOOP: asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_CLOOP); op = ASM_OP_BR; break; case ASM_OP_BR_COND: asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_COND); op = ASM_OP_BR; break; case ASM_OP_BR_CTOP: asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_CTOP); op = ASM_OP_BR; break; case ASM_OP_BR_IA: asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_IA); op = ASM_OP_BR; break; case ASM_OP_BR_RET: asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_RET); op = ASM_OP_BR; break; case ASM_OP_BR_WEXIT: asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_WEXIT); op = ASM_OP_BR; break; case ASM_OP_BR_WTOP: asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_WTOP); op = ASM_OP_BR; break; case ASM_OP_BREAK_B: asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_B); op = ASM_OP_BREAK; break; case ASM_OP_BREAK_F: asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_F); op = ASM_OP_BREAK; break; case ASM_OP_BREAK_I: asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_I); op = ASM_OP_BREAK; break; case ASM_OP_BREAK_M: asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_M); op = ASM_OP_BREAK; break; case ASM_OP_BREAK_X: asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_X); op = ASM_OP_BREAK; break; case ASM_OP_BRL_COND: asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_COND); op = ASM_OP_BRL; break; case ASM_OP_BRL_CALL: asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_CALL); op = ASM_OP_BRL; break; case ASM_OP_BRP_: asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_NONE); op = ASM_OP_BRP; break; case ASM_OP_BRP_RET: asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_RET); op = ASM_OP_BRP; break; case ASM_OP_BSW_0: asm_cmpltr_add(i, ASM_CC_BSW, ASM_CT_0); op = ASM_OP_BSW; break; case ASM_OP_BSW_1: asm_cmpltr_add(i, ASM_CC_BSW, ASM_CT_1); op = ASM_OP_BSW; break; case ASM_OP_CHK_A_CLR: asm_cmpltr_add(i, ASM_CC_CHK, ASM_CT_A); asm_cmpltr_add(i, ASM_CC_ACLR, ASM_CT_CLR); op = ASM_OP_CHK; break; case ASM_OP_CHK_A_NC: asm_cmpltr_add(i, ASM_CC_CHK, ASM_CT_A); asm_cmpltr_add(i, ASM_CC_ACLR, ASM_CT_NC); op = ASM_OP_CHK; break; case ASM_OP_CHK_S: asm_cmpltr_add(i, ASM_CC_CHK, ASM_CT_S); op = ASM_OP_CHK; break; case ASM_OP_CHK_S_I: asm_cmpltr_add(i, ASM_CC_CHK, ASM_CT_S); asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_I); op = ASM_OP_CHK; break; case ASM_OP_CHK_S_M: asm_cmpltr_add(i, ASM_CC_CHK, ASM_CT_S); asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_M); op = ASM_OP_CHK; break; case ASM_OP_CLRRRB_: asm_cmpltr_add(i, ASM_CC_CLRRRB, ASM_CT_NONE); op = ASM_OP_CLRRRB; break; case ASM_OP_CLRRRB_PR: asm_cmpltr_add(i, ASM_CC_CLRRRB, ASM_CT_PR); op = ASM_OP_CLRRRB; break; case ASM_OP_CMP_EQ: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_EQ); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_NONE); op = ASM_OP_CMP; break; case ASM_OP_CMP_EQ_AND: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_EQ); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); op = ASM_OP_CMP; break; case ASM_OP_CMP_EQ_OR: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_EQ); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); op = ASM_OP_CMP; break; case ASM_OP_CMP_EQ_OR_ANDCM: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_EQ); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); op = ASM_OP_CMP; break; case ASM_OP_CMP_EQ_UNC: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_EQ); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_UNC); op = ASM_OP_CMP; break; case ASM_OP_CMP_GE_AND: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GE); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); op = ASM_OP_CMP; break; case ASM_OP_CMP_GE_OR: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GE); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); op = ASM_OP_CMP; break; case ASM_OP_CMP_GE_OR_ANDCM: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GE); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); op = ASM_OP_CMP; break; case ASM_OP_CMP_GT_AND: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GT); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); op = ASM_OP_CMP; break; case ASM_OP_CMP_GT_OR: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GT); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); op = ASM_OP_CMP; break; case ASM_OP_CMP_GT_OR_ANDCM: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GT); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); op = ASM_OP_CMP; break; case ASM_OP_CMP_LE_AND: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LE); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); op = ASM_OP_CMP; break; case ASM_OP_CMP_LE_OR: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LE); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); op = ASM_OP_CMP; break; case ASM_OP_CMP_LE_OR_ANDCM: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LE); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); op = ASM_OP_CMP; break; case ASM_OP_CMP_LT: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LT); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_NONE); op = ASM_OP_CMP; break; case ASM_OP_CMP_LT_AND: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LT); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); op = ASM_OP_CMP; break; case ASM_OP_CMP_LT_OR: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LT); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); op = ASM_OP_CMP; break; case ASM_OP_CMP_LT_OR_ANDCM: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LT); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); op = ASM_OP_CMP; break; case ASM_OP_CMP_LT_UNC: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LT); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_UNC); op = ASM_OP_CMP; break; case ASM_OP_CMP_LTU: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LTU); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_NONE); op = ASM_OP_CMP; break; case ASM_OP_CMP_LTU_UNC: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LTU); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_UNC); op = ASM_OP_CMP; break; case ASM_OP_CMP_NE_AND: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_NE); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); op = ASM_OP_CMP; break; case ASM_OP_CMP_NE_OR: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_NE); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); op = ASM_OP_CMP; break; case ASM_OP_CMP_NE_OR_ANDCM: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_NE); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); op = ASM_OP_CMP; break; case ASM_OP_CMP4_EQ: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_EQ); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_NONE); op = ASM_OP_CMP4; break; case ASM_OP_CMP4_EQ_AND: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_EQ); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); op = ASM_OP_CMP4; break; case ASM_OP_CMP4_EQ_OR: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_EQ); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); op = ASM_OP_CMP4; break; case ASM_OP_CMP4_EQ_OR_ANDCM: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_EQ); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); op = ASM_OP_CMP4; break; case ASM_OP_CMP4_EQ_UNC: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_EQ); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_UNC); op = ASM_OP_CMP4; break; case ASM_OP_CMP4_GE_AND: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GE); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); op = ASM_OP_CMP4; break; case ASM_OP_CMP4_GE_OR: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GE); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); op = ASM_OP_CMP4; break; case ASM_OP_CMP4_GE_OR_ANDCM: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GE); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); op = ASM_OP_CMP4; break; case ASM_OP_CMP4_GT_AND: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GT); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); op = ASM_OP_CMP4; break; case ASM_OP_CMP4_GT_OR: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GT); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); op = ASM_OP_CMP4; break; case ASM_OP_CMP4_GT_OR_ANDCM: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GT); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); op = ASM_OP_CMP4; break; case ASM_OP_CMP4_LE_AND: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LE); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); op = ASM_OP_CMP4; break; case ASM_OP_CMP4_LE_OR: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LE); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); op = ASM_OP_CMP4; break; case ASM_OP_CMP4_LE_OR_ANDCM: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LE); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); op = ASM_OP_CMP4; break; case ASM_OP_CMP4_LT: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LT); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_NONE); op = ASM_OP_CMP4; break; case ASM_OP_CMP4_LT_AND: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LT); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); op = ASM_OP_CMP4; break; case ASM_OP_CMP4_LT_OR: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LT); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); op = ASM_OP_CMP4; break; case ASM_OP_CMP4_LT_OR_ANDCM: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LT); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); op = ASM_OP_CMP4; break; case ASM_OP_CMP4_LT_UNC: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LT); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_UNC); op = ASM_OP_CMP4; break; case ASM_OP_CMP4_LTU: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LTU); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_NONE); op = ASM_OP_CMP4; break; case ASM_OP_CMP4_LTU_UNC: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LTU); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_UNC); op = ASM_OP_CMP4; break; case ASM_OP_CMP4_NE_AND: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_NE); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); op = ASM_OP_CMP4; break; case ASM_OP_CMP4_NE_OR: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_NE); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); op = ASM_OP_CMP4; break; case ASM_OP_CMP4_NE_OR_ANDCM: asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_NE); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); op = ASM_OP_CMP4; break; case ASM_OP_CMP8XCHG16_ACQ: asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_ACQ); op = ASM_OP_CMP8XCHG16; break; case ASM_OP_CMP8XCHG16_REL: asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_REL); op = ASM_OP_CMP8XCHG16; break; case ASM_OP_CMPXCHG1_ACQ: asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_ACQ); op = ASM_OP_CMPXCHG1; break; case ASM_OP_CMPXCHG1_REL: asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_REL); op = ASM_OP_CMPXCHG1; break; case ASM_OP_CMPXCHG2_ACQ: asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_ACQ); op = ASM_OP_CMPXCHG2; break; case ASM_OP_CMPXCHG2_REL: asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_REL); op = ASM_OP_CMPXCHG2; break; case ASM_OP_CMPXCHG4_ACQ: asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_ACQ); op = ASM_OP_CMPXCHG4; break; case ASM_OP_CMPXCHG4_REL: asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_REL); op = ASM_OP_CMPXCHG4; break; case ASM_OP_CMPXCHG8_ACQ: asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_ACQ); op = ASM_OP_CMPXCHG8; break; case ASM_OP_CMPXCHG8_REL: asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_REL); op = ASM_OP_CMPXCHG8; break; case ASM_OP_CZX1_L: asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_L); op = ASM_OP_CZX1; break; case ASM_OP_CZX1_R: asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_R); op = ASM_OP_CZX1; break; case ASM_OP_CZX2_L: asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_L); op = ASM_OP_CZX2; break; case ASM_OP_CZX2_R: asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_R); op = ASM_OP_CZX2; break; case ASM_OP_DEP_: asm_cmpltr_add(i, ASM_CC_DEP, ASM_CT_NONE); op = ASM_OP_DEP; break; case ASM_OP_DEP_Z: asm_cmpltr_add(i, ASM_CC_DEP, ASM_CT_Z); op = ASM_OP_DEP; break; case ASM_OP_FC_: asm_cmpltr_add(i, ASM_CC_FC, ASM_CT_NONE); op = ASM_OP_FC; break; case ASM_OP_FC_I: asm_cmpltr_add(i, ASM_CC_FC, ASM_CT_I); op = ASM_OP_FC; break; case ASM_OP_FCLASS_M: asm_cmpltr_add(i, ASM_CC_FCREL, ASM_CT_M); op = ASM_OP_FCLASS; break; case ASM_OP_FCVT_FX: asm_cmpltr_add(i, ASM_CC_FCVT, ASM_CT_FX); asm_cmpltr_add(i, ASM_CC_TRUNC, ASM_CT_NONE); op = ASM_OP_FCVT; break; case ASM_OP_FCVT_FX_TRUNC: asm_cmpltr_add(i, ASM_CC_FCVT, ASM_CT_FX); asm_cmpltr_add(i, ASM_CC_TRUNC, ASM_CT_TRUNC); op = ASM_OP_FCVT; break; case ASM_OP_FCVT_FXU: asm_cmpltr_add(i, ASM_CC_FCVT, ASM_CT_FXU); asm_cmpltr_add(i, ASM_CC_TRUNC, ASM_CT_NONE); op = ASM_OP_FCVT; break; case ASM_OP_FCVT_FXU_TRUNC: asm_cmpltr_add(i, ASM_CC_FCVT, ASM_CT_FXU); asm_cmpltr_add(i, ASM_CC_TRUNC, ASM_CT_TRUNC); op = ASM_OP_FCVT; break; case ASM_OP_FCVT_XF: asm_cmpltr_add(i, ASM_CC_FCVT, ASM_CT_XF); asm_cmpltr_add(i, ASM_CC_TRUNC, ASM_CT_NONE); op = ASM_OP_FCVT; break; case ASM_OP_FETCHADD4_ACQ: asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_ACQ); op = ASM_OP_FETCHADD4; break; case ASM_OP_FETCHADD4_REL: asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_REL); op = ASM_OP_FETCHADD4; break; case ASM_OP_FETCHADD8_ACQ: asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_ACQ); op = ASM_OP_FETCHADD8; break; case ASM_OP_FETCHADD8_REL: asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_REL); op = ASM_OP_FETCHADD8; break; case ASM_OP_FMA_: asm_cmpltr_add(i, ASM_CC_PC, ASM_CT_NONE); op = ASM_OP_FMA; break; case ASM_OP_FMA_D: asm_cmpltr_add(i, ASM_CC_PC, ASM_CT_D); op = ASM_OP_FMA; break; case ASM_OP_FMA_S: asm_cmpltr_add(i, ASM_CC_PC, ASM_CT_S); op = ASM_OP_FMA; break; case ASM_OP_FMERGE_NS: asm_cmpltr_add(i, ASM_CC_FMERGE, ASM_CT_NS); op = ASM_OP_FMERGE; break; case ASM_OP_FMERGE_S: asm_cmpltr_add(i, ASM_CC_FMERGE, ASM_CT_S); op = ASM_OP_FMERGE; break; case ASM_OP_FMERGE_SE: asm_cmpltr_add(i, ASM_CC_FMERGE, ASM_CT_SE); op = ASM_OP_FMERGE; break; case ASM_OP_FMIX_L: asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_L); op = ASM_OP_FMIX; break; case ASM_OP_FMIX_LR: asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_LR); op = ASM_OP_FMIX; break; case ASM_OP_FMIX_R: asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_R); op = ASM_OP_FMIX; break; case ASM_OP_FMS_: asm_cmpltr_add(i, ASM_CC_PC, ASM_CT_NONE); op = ASM_OP_FMS; break; case ASM_OP_FMS_D: asm_cmpltr_add(i, ASM_CC_PC, ASM_CT_D); op = ASM_OP_FMS; break; case ASM_OP_FMS_S: asm_cmpltr_add(i, ASM_CC_PC, ASM_CT_S); op = ASM_OP_FMS; break; case ASM_OP_FNMA_: asm_cmpltr_add(i, ASM_CC_PC, ASM_CT_NONE); op = ASM_OP_FNMA; break; case ASM_OP_FNMA_D: asm_cmpltr_add(i, ASM_CC_PC, ASM_CT_D); op = ASM_OP_FNMA; break; case ASM_OP_FNMA_S: asm_cmpltr_add(i, ASM_CC_PC, ASM_CT_S); op = ASM_OP_FNMA; break; case ASM_OP_FPCMP_EQ: asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_EQ); op = ASM_OP_FPCMP; break; case ASM_OP_FPCMP_LE: asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_LE); op = ASM_OP_FPCMP; break; case ASM_OP_FPCMP_LT: asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_LT); op = ASM_OP_FPCMP; break; case ASM_OP_FPCMP_NEQ: asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_NEQ); op = ASM_OP_FPCMP; break; case ASM_OP_FPCMP_NLE: asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_NLE); op = ASM_OP_FPCMP; break; case ASM_OP_FPCMP_NLT: asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_NLT); op = ASM_OP_FPCMP; break; case ASM_OP_FPCMP_ORD: asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_ORD); op = ASM_OP_FPCMP; break; case ASM_OP_FPCMP_UNORD: asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_UNORD); op = ASM_OP_FPCMP; break; case ASM_OP_FPCVT_FX: asm_cmpltr_add(i, ASM_CC_FCVT, ASM_CT_FX); asm_cmpltr_add(i, ASM_CC_TRUNC, ASM_CT_NONE); op = ASM_OP_FPCVT; break; case ASM_OP_FPCVT_FX_TRUNC: asm_cmpltr_add(i, ASM_CC_FCVT, ASM_CT_FX); asm_cmpltr_add(i, ASM_CC_TRUNC, ASM_CT_TRUNC); op = ASM_OP_FPCVT; break; case ASM_OP_FPCVT_FXU: asm_cmpltr_add(i, ASM_CC_FCVT, ASM_CT_FXU); asm_cmpltr_add(i, ASM_CC_TRUNC, ASM_CT_NONE); op = ASM_OP_FPCVT; break; case ASM_OP_FPCVT_FXU_TRUNC: asm_cmpltr_add(i, ASM_CC_FCVT, ASM_CT_FXU); asm_cmpltr_add(i, ASM_CC_TRUNC, ASM_CT_TRUNC); op = ASM_OP_FPCVT; break; case ASM_OP_FPMERGE_NS: asm_cmpltr_add(i, ASM_CC_FMERGE, ASM_CT_NS); op = ASM_OP_FPMERGE; break; case ASM_OP_FPMERGE_S: asm_cmpltr_add(i, ASM_CC_FMERGE, ASM_CT_S); op = ASM_OP_FPMERGE; break; case ASM_OP_FPMERGE_SE: asm_cmpltr_add(i, ASM_CC_FMERGE, ASM_CT_SE); op = ASM_OP_FPMERGE; break; case ASM_OP_FSWAP_: asm_cmpltr_add(i, ASM_CC_FSWAP, ASM_CT_NONE); op = ASM_OP_FSWAP; break; case ASM_OP_FSWAP_NL: asm_cmpltr_add(i, ASM_CC_FSWAP, ASM_CT_NL); op = ASM_OP_FSWAP; break; case ASM_OP_FSWAP_NR: asm_cmpltr_add(i, ASM_CC_FSWAP, ASM_CT_NR); op = ASM_OP_FSWAP; break; case ASM_OP_FSXT_L: asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_L); op = ASM_OP_FSXT; break; case ASM_OP_FSXT_R: asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_R); op = ASM_OP_FSXT; break; case ASM_OP_GETF_D: asm_cmpltr_add(i, ASM_CC_GETF, ASM_CT_D); op = ASM_OP_GETF; break; case ASM_OP_GETF_EXP: asm_cmpltr_add(i, ASM_CC_GETF, ASM_CT_EXP); op = ASM_OP_GETF; break; case ASM_OP_GETF_S: asm_cmpltr_add(i, ASM_CC_GETF, ASM_CT_S); op = ASM_OP_GETF; break; case ASM_OP_GETF_SIG: asm_cmpltr_add(i, ASM_CC_GETF, ASM_CT_SIG); op = ASM_OP_GETF; break; case ASM_OP_HINT_B: asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_B); op = ASM_OP_HINT; break; case ASM_OP_HINT_F: asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_F); op = ASM_OP_HINT; break; case ASM_OP_HINT_I: asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_I); op = ASM_OP_HINT; break; case ASM_OP_HINT_M: asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_M); op = ASM_OP_HINT; break; case ASM_OP_HINT_X: asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_X); op = ASM_OP_HINT; break; case ASM_OP_INVALA_: asm_cmpltr_add(i, ASM_CC_INVALA, ASM_CT_NONE); op = ASM_OP_INVALA; break; case ASM_OP_INVALA_E: asm_cmpltr_add(i, ASM_CC_INVALA, ASM_CT_E); op = ASM_OP_INVALA; break; case ASM_OP_ITC_D: asm_cmpltr_add(i, ASM_CC_ITC, ASM_CT_D); op = ASM_OP_ITC; break; case ASM_OP_ITC_I: asm_cmpltr_add(i, ASM_CC_ITC, ASM_CT_I); op = ASM_OP_ITC; break; case ASM_OP_ITR_D: asm_cmpltr_add(i, ASM_CC_ITR, ASM_CT_D); ot = ASM_OPER_DTR; op = ASM_OP_ITR; break; case ASM_OP_ITR_I: asm_cmpltr_add(i, ASM_CC_ITR, ASM_CT_I); ot = ASM_OPER_ITR; op = ASM_OP_ITR; break; case ASM_OP_LD1_: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_NONE); op = ASM_OP_LD1; break; case ASM_OP_LD1_A: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_A); op = ASM_OP_LD1; break; case ASM_OP_LD1_ACQ: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_ACQ); op = ASM_OP_LD1; break; case ASM_OP_LD1_BIAS: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_BIAS); op = ASM_OP_LD1; break; case ASM_OP_LD1_C_CLR: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_CLR); op = ASM_OP_LD1; break; case ASM_OP_LD1_C_CLR_ACQ: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_CLR_ACQ); op = ASM_OP_LD1; break; case ASM_OP_LD1_C_NC: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_NC); op = ASM_OP_LD1; break; case ASM_OP_LD1_S: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_S); op = ASM_OP_LD1; break; case ASM_OP_LD1_SA: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_SA); op = ASM_OP_LD1; break; case ASM_OP_LD16_: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_NONE); op = ASM_OP_LD16; break; case ASM_OP_LD16_ACQ: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_ACQ); op = ASM_OP_LD16; break; case ASM_OP_LD2_: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_NONE); op = ASM_OP_LD2; break; case ASM_OP_LD2_A: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_A); op = ASM_OP_LD2; break; case ASM_OP_LD2_ACQ: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_ACQ); op = ASM_OP_LD2; break; case ASM_OP_LD2_BIAS: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_BIAS); op = ASM_OP_LD2; break; case ASM_OP_LD2_C_CLR: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_CLR); op = ASM_OP_LD2; break; case ASM_OP_LD2_C_CLR_ACQ: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_CLR_ACQ); op = ASM_OP_LD2; break; case ASM_OP_LD2_C_NC: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_NC); op = ASM_OP_LD2; break; case ASM_OP_LD2_S: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_S); op = ASM_OP_LD2; break; case ASM_OP_LD2_SA: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_SA); op = ASM_OP_LD2; break; case ASM_OP_LD4_: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_NONE); op = ASM_OP_LD4; break; case ASM_OP_LD4_A: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_A); op = ASM_OP_LD4; break; case ASM_OP_LD4_ACQ: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_ACQ); op = ASM_OP_LD4; break; case ASM_OP_LD4_BIAS: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_BIAS); op = ASM_OP_LD4; break; case ASM_OP_LD4_C_CLR: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_CLR); op = ASM_OP_LD4; break; case ASM_OP_LD4_C_CLR_ACQ: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_CLR_ACQ); op = ASM_OP_LD4; break; case ASM_OP_LD4_C_NC: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_NC); op = ASM_OP_LD4; break; case ASM_OP_LD4_S: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_S); op = ASM_OP_LD4; break; case ASM_OP_LD4_SA: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_SA); op = ASM_OP_LD4; break; case ASM_OP_LD8_: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_NONE); op = ASM_OP_LD8; break; case ASM_OP_LD8_A: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_A); op = ASM_OP_LD8; break; case ASM_OP_LD8_ACQ: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_ACQ); op = ASM_OP_LD8; break; case ASM_OP_LD8_BIAS: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_BIAS); op = ASM_OP_LD8; break; case ASM_OP_LD8_C_CLR: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_CLR); op = ASM_OP_LD8; break; case ASM_OP_LD8_C_CLR_ACQ: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_CLR_ACQ); op = ASM_OP_LD8; break; case ASM_OP_LD8_C_NC: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_NC); op = ASM_OP_LD8; break; case ASM_OP_LD8_FILL: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_FILL); op = ASM_OP_LD8; break; case ASM_OP_LD8_S: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_S); op = ASM_OP_LD8; break; case ASM_OP_LD8_SA: asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_SA); op = ASM_OP_LD8; break; case ASM_OP_LDF_FILL: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_FILL); op = ASM_OP_LDF; break; case ASM_OP_LDF8_: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_NONE); op = ASM_OP_LDF8; break; case ASM_OP_LDF8_A: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_A); op = ASM_OP_LDF8; break; case ASM_OP_LDF8_C_CLR: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_CLR); op = ASM_OP_LDF8; break; case ASM_OP_LDF8_C_NC: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_NC); op = ASM_OP_LDF8; break; case ASM_OP_LDF8_S: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_S); op = ASM_OP_LDF8; break; case ASM_OP_LDF8_SA: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_SA); op = ASM_OP_LDF8; break; case ASM_OP_LDFD_: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_NONE); op = ASM_OP_LDFD; break; case ASM_OP_LDFD_A: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_A); op = ASM_OP_LDFD; break; case ASM_OP_LDFD_C_CLR: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_CLR); op = ASM_OP_LDFD; break; case ASM_OP_LDFD_C_NC: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_NC); op = ASM_OP_LDFD; break; case ASM_OP_LDFD_S: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_S); op = ASM_OP_LDFD; break; case ASM_OP_LDFD_SA: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_SA); op = ASM_OP_LDFD; break; case ASM_OP_LDFE_: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_NONE); op = ASM_OP_LDFE; break; case ASM_OP_LDFE_A: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_A); op = ASM_OP_LDFE; break; case ASM_OP_LDFE_C_CLR: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_CLR); op = ASM_OP_LDFE; break; case ASM_OP_LDFE_C_NC: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_NC); op = ASM_OP_LDFE; break; case ASM_OP_LDFE_S: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_S); op = ASM_OP_LDFE; break; case ASM_OP_LDFE_SA: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_SA); op = ASM_OP_LDFE; break; case ASM_OP_LDFP8_: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_NONE); op = ASM_OP_LDFP8; break; case ASM_OP_LDFP8_A: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_A); op = ASM_OP_LDFP8; break; case ASM_OP_LDFP8_C_CLR: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_CLR); op = ASM_OP_LDFP8; break; case ASM_OP_LDFP8_C_NC: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_NC); op = ASM_OP_LDFP8; break; case ASM_OP_LDFP8_S: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_S); op = ASM_OP_LDFP8; break; case ASM_OP_LDFP8_SA: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_SA); op = ASM_OP_LDFP8; break; case ASM_OP_LDFPD_: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_NONE); op = ASM_OP_LDFPD; break; case ASM_OP_LDFPD_A: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_A); op = ASM_OP_LDFPD; break; case ASM_OP_LDFPD_C_CLR: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_CLR); op = ASM_OP_LDFPD; break; case ASM_OP_LDFPD_C_NC: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_NC); op = ASM_OP_LDFPD; break; case ASM_OP_LDFPD_S: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_S); op = ASM_OP_LDFPD; break; case ASM_OP_LDFPD_SA: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_SA); op = ASM_OP_LDFPD; break; case ASM_OP_LDFPS_: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_NONE); op = ASM_OP_LDFPS; break; case ASM_OP_LDFPS_A: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_A); op = ASM_OP_LDFPS; break; case ASM_OP_LDFPS_C_CLR: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_CLR); op = ASM_OP_LDFPS; break; case ASM_OP_LDFPS_C_NC: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_NC); op = ASM_OP_LDFPS; break; case ASM_OP_LDFPS_S: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_S); op = ASM_OP_LDFPS; break; case ASM_OP_LDFPS_SA: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_SA); op = ASM_OP_LDFPS; break; case ASM_OP_LDFS_: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_NONE); op = ASM_OP_LDFS; break; case ASM_OP_LDFS_A: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_A); op = ASM_OP_LDFS; break; case ASM_OP_LDFS_C_CLR: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_CLR); op = ASM_OP_LDFS; break; case ASM_OP_LDFS_C_NC: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_NC); op = ASM_OP_LDFS; break; case ASM_OP_LDFS_S: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_S); op = ASM_OP_LDFS; break; case ASM_OP_LDFS_SA: asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_SA); op = ASM_OP_LDFS; break; case ASM_OP_LFETCH_: asm_cmpltr_add(i, ASM_CC_LFTYPE, ASM_CT_NONE); asm_cmpltr_add(i, ASM_CC_LFETCH, ASM_CT_NONE); op = ASM_OP_LFETCH; break; case ASM_OP_LFETCH_EXCL: asm_cmpltr_add(i, ASM_CC_LFTYPE, ASM_CT_NONE); asm_cmpltr_add(i, ASM_CC_LFETCH, ASM_CT_EXCL); op = ASM_OP_LFETCH; break; case ASM_OP_LFETCH_FAULT: asm_cmpltr_add(i, ASM_CC_LFTYPE, ASM_CT_FAULT); asm_cmpltr_add(i, ASM_CC_LFETCH, ASM_CT_NONE); op = ASM_OP_LFETCH; break; case ASM_OP_LFETCH_FAULT_EXCL: asm_cmpltr_add(i, ASM_CC_LFTYPE, ASM_CT_FAULT); asm_cmpltr_add(i, ASM_CC_LFETCH, ASM_CT_EXCL); op = ASM_OP_LFETCH; break; case ASM_OP_MF_: asm_cmpltr_add(i, ASM_CC_MF, ASM_CT_NONE); op = ASM_OP_MF; break; case ASM_OP_MF_A: asm_cmpltr_add(i, ASM_CC_MF, ASM_CT_A); op = ASM_OP_MF; break; case ASM_OP_MIX1_L: asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_L); op = ASM_OP_MIX1; break; case ASM_OP_MIX1_R: asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_R); op = ASM_OP_MIX1; break; case ASM_OP_MIX2_L: asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_L); op = ASM_OP_MIX2; break; case ASM_OP_MIX2_R: asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_R); op = ASM_OP_MIX2; break; case ASM_OP_MIX4_L: asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_L); op = ASM_OP_MIX4; break; case ASM_OP_MIX4_R: asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_R); op = ASM_OP_MIX4; break; case ASM_OP_MOV_: asm_cmpltr_add(i, ASM_CC_MOV, ASM_CT_NONE); op = ASM_OP_MOV; break; case ASM_OP_MOV_I: asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_I); op = ASM_OP_MOV; break; case ASM_OP_MOV_M: asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_M); op = ASM_OP_MOV; break; case ASM_OP_MOV_RET: asm_cmpltr_add(i, ASM_CC_MOV, ASM_CT_RET); op = ASM_OP_MOV; break; case ASM_OP_MOV_CPUID: ot = ASM_OPER_CPUID; op = ASM_OP_MOV; break; case ASM_OP_MOV_DBR: ot = ASM_OPER_DBR; op = ASM_OP_MOV; break; case ASM_OP_MOV_IBR: ot = ASM_OPER_IBR; op = ASM_OP_MOV; break; case ASM_OP_MOV_IP: ot = ASM_OPER_IP; op = ASM_OP_MOV; break; case ASM_OP_MOV_MSR: ot = ASM_OPER_MSR; op = ASM_OP_MOV; break; case ASM_OP_MOV_PKR: ot = ASM_OPER_PKR; op = ASM_OP_MOV; break; case ASM_OP_MOV_PMC: ot = ASM_OPER_PMC; op = ASM_OP_MOV; break; case ASM_OP_MOV_PMD: ot = ASM_OPER_PMD; op = ASM_OP_MOV; break; case ASM_OP_MOV_PR: ot = ASM_OPER_PR; op = ASM_OP_MOV; break; case ASM_OP_MOV_PSR: ot = ASM_OPER_PSR; op = ASM_OP_MOV; break; case ASM_OP_MOV_PSR_L: ot = ASM_OPER_PSR_L; op = ASM_OP_MOV; break; case ASM_OP_MOV_PSR_UM: ot = ASM_OPER_PSR_UM; op = ASM_OP_MOV; break; case ASM_OP_MOV_RR: ot = ASM_OPER_RR; op = ASM_OP_MOV; break; case ASM_OP_NOP_B: asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_B); op = ASM_OP_NOP; break; case ASM_OP_NOP_F: asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_F); op = ASM_OP_NOP; break; case ASM_OP_NOP_I: asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_I); op = ASM_OP_NOP; break; case ASM_OP_NOP_M: asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_M); op = ASM_OP_NOP; break; case ASM_OP_NOP_X: asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_X); op = ASM_OP_NOP; break; case ASM_OP_PACK2_SSS: asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_SSS); op = ASM_OP_PACK2; break; case ASM_OP_PACK2_USS: asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_USS); op = ASM_OP_PACK2; break; case ASM_OP_PACK4_SSS: asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_SSS); op = ASM_OP_PACK4; break; case ASM_OP_PADD1_: asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_NONE); op = ASM_OP_PADD1; break; case ASM_OP_PADD1_SSS: asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_SSS); op = ASM_OP_PADD1; break; case ASM_OP_PADD1_UUS: asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_UUS); op = ASM_OP_PADD1; break; case ASM_OP_PADD1_UUU: asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_UUU); op = ASM_OP_PADD1; break; case ASM_OP_PADD2_: asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_NONE); op = ASM_OP_PADD2; break; case ASM_OP_PADD2_SSS: asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_SSS); op = ASM_OP_PADD2; break; case ASM_OP_PADD2_UUS: asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_UUS); op = ASM_OP_PADD2; break; case ASM_OP_PADD2_UUU: asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_UUU); op = ASM_OP_PADD2; break; case ASM_OP_PAVG1_: asm_cmpltr_add(i, ASM_CC_PAVG, ASM_CT_NONE); op = ASM_OP_PAVG1; break; case ASM_OP_PAVG1_RAZ: asm_cmpltr_add(i, ASM_CC_PAVG, ASM_CT_RAZ); op = ASM_OP_PAVG1; break; case ASM_OP_PAVG2_: asm_cmpltr_add(i, ASM_CC_PAVG, ASM_CT_NONE); op = ASM_OP_PAVG2; break; case ASM_OP_PAVG2_RAZ: asm_cmpltr_add(i, ASM_CC_PAVG, ASM_CT_RAZ); op = ASM_OP_PAVG2; break; case ASM_OP_PCMP1_EQ: asm_cmpltr_add(i, ASM_CC_PREL, ASM_CT_EQ); op = ASM_OP_PCMP1; break; case ASM_OP_PCMP1_GT: asm_cmpltr_add(i, ASM_CC_PREL, ASM_CT_GT); op = ASM_OP_PCMP1; break; case ASM_OP_PCMP2_EQ: asm_cmpltr_add(i, ASM_CC_PREL, ASM_CT_EQ); op = ASM_OP_PCMP2; break; case ASM_OP_PCMP2_GT: asm_cmpltr_add(i, ASM_CC_PREL, ASM_CT_GT); op = ASM_OP_PCMP2; break; case ASM_OP_PCMP4_EQ: asm_cmpltr_add(i, ASM_CC_PREL, ASM_CT_EQ); op = ASM_OP_PCMP4; break; case ASM_OP_PCMP4_GT: asm_cmpltr_add(i, ASM_CC_PREL, ASM_CT_GT); op = ASM_OP_PCMP4; break; case ASM_OP_PMAX1_U: asm_cmpltr_add(i, ASM_CC_UNS, ASM_CT_U); op = ASM_OP_PMAX1; break; case ASM_OP_PMIN1_U: asm_cmpltr_add(i, ASM_CC_UNS, ASM_CT_U); op = ASM_OP_PMIN1; break; case ASM_OP_PMPY2_L: asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_L); op = ASM_OP_PMPY2; break; case ASM_OP_PMPY2_R: asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_R); op = ASM_OP_PMPY2; break; case ASM_OP_PMPYSHR2_: asm_cmpltr_add(i, ASM_CC_UNS, ASM_CT_NONE); op = ASM_OP_PMPYSHR2; break; case ASM_OP_PMPYSHR2_U: asm_cmpltr_add(i, ASM_CC_UNS, ASM_CT_U); op = ASM_OP_PMPYSHR2; break; case ASM_OP_PROBE_R: asm_cmpltr_add(i, ASM_CC_RW, ASM_CT_R); asm_cmpltr_add(i, ASM_CC_PRTYPE, ASM_CT_NONE); op = ASM_OP_PROBE; break; case ASM_OP_PROBE_R_FAULT: asm_cmpltr_add(i, ASM_CC_RW, ASM_CT_R); asm_cmpltr_add(i, ASM_CC_PRTYPE, ASM_CT_FAULT); op = ASM_OP_PROBE; break; case ASM_OP_PROBE_RW_FAULT: asm_cmpltr_add(i, ASM_CC_RW, ASM_CT_RW); asm_cmpltr_add(i, ASM_CC_PRTYPE, ASM_CT_FAULT); op = ASM_OP_PROBE; break; case ASM_OP_PROBE_W: asm_cmpltr_add(i, ASM_CC_RW, ASM_CT_W); asm_cmpltr_add(i, ASM_CC_PRTYPE, ASM_CT_NONE); op = ASM_OP_PROBE; break; case ASM_OP_PROBE_W_FAULT: asm_cmpltr_add(i, ASM_CC_RW, ASM_CT_W); asm_cmpltr_add(i, ASM_CC_PRTYPE, ASM_CT_FAULT); op = ASM_OP_PROBE; break; case ASM_OP_PSHR2_: asm_cmpltr_add(i, ASM_CC_UNS, ASM_CT_NONE); op = ASM_OP_PSHR2; break; case ASM_OP_PSHR2_U: asm_cmpltr_add(i, ASM_CC_UNS, ASM_CT_U); op = ASM_OP_PSHR2; break; case ASM_OP_PSHR4_: asm_cmpltr_add(i, ASM_CC_UNS, ASM_CT_NONE); op = ASM_OP_PSHR4; break; case ASM_OP_PSHR4_U: asm_cmpltr_add(i, ASM_CC_UNS, ASM_CT_U); op = ASM_OP_PSHR4; break; case ASM_OP_PSUB1_: asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_NONE); op = ASM_OP_PSUB1; break; case ASM_OP_PSUB1_SSS: asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_SSS); op = ASM_OP_PSUB1; break; case ASM_OP_PSUB1_UUS: asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_UUS); op = ASM_OP_PSUB1; break; case ASM_OP_PSUB1_UUU: asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_UUU); op = ASM_OP_PSUB1; break; case ASM_OP_PSUB2_: asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_NONE); op = ASM_OP_PSUB2; break; case ASM_OP_PSUB2_SSS: asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_SSS); op = ASM_OP_PSUB2; break; case ASM_OP_PSUB2_UUS: asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_UUS); op = ASM_OP_PSUB2; break; case ASM_OP_PSUB2_UUU: asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_UUU); op = ASM_OP_PSUB2; break; case ASM_OP_PTC_E: asm_cmpltr_add(i, ASM_CC_PTC, ASM_CT_E); op = ASM_OP_PTC; break; case ASM_OP_PTC_G: asm_cmpltr_add(i, ASM_CC_PTC, ASM_CT_G); op = ASM_OP_PTC; break; case ASM_OP_PTC_GA: asm_cmpltr_add(i, ASM_CC_PTC, ASM_CT_GA); op = ASM_OP_PTC; break; case ASM_OP_PTC_L: asm_cmpltr_add(i, ASM_CC_PTC, ASM_CT_L); op = ASM_OP_PTC; break; case ASM_OP_PTR_D: asm_cmpltr_add(i, ASM_CC_PTR, ASM_CT_D); op = ASM_OP_PTR; break; case ASM_OP_PTR_I: asm_cmpltr_add(i, ASM_CC_PTR, ASM_CT_I); op = ASM_OP_PTR; break; case ASM_OP_SETF_D: asm_cmpltr_add(i, ASM_CC_SETF, ASM_CT_D); op = ASM_OP_SETF; break; case ASM_OP_SETF_EXP: asm_cmpltr_add(i, ASM_CC_SETF, ASM_CT_EXP); op = ASM_OP_SETF; break; case ASM_OP_SETF_S: asm_cmpltr_add(i, ASM_CC_SETF, ASM_CT_S); op = ASM_OP_SETF; break; case ASM_OP_SETF_SIG: asm_cmpltr_add(i, ASM_CC_SETF, ASM_CT_SIG); op = ASM_OP_SETF; break; case ASM_OP_SHR_: asm_cmpltr_add(i, ASM_CC_UNS, ASM_CT_NONE); op = ASM_OP_SHR; break; case ASM_OP_SHR_U: asm_cmpltr_add(i, ASM_CC_UNS, ASM_CT_U); op = ASM_OP_SHR; break; case ASM_OP_SRLZ_D: asm_cmpltr_add(i, ASM_CC_SRLZ, ASM_CT_D); op = ASM_OP_SRLZ; break; case ASM_OP_SRLZ_I: asm_cmpltr_add(i, ASM_CC_SRLZ, ASM_CT_I); op = ASM_OP_SRLZ; break; case ASM_OP_ST1_: asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_NONE); op = ASM_OP_ST1; break; case ASM_OP_ST1_REL: asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_REL); op = ASM_OP_ST1; break; case ASM_OP_ST16_: asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_NONE); op = ASM_OP_ST16; break; case ASM_OP_ST16_REL: asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_REL); op = ASM_OP_ST16; break; case ASM_OP_ST2_: asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_NONE); op = ASM_OP_ST2; break; case ASM_OP_ST2_REL: asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_REL); op = ASM_OP_ST2; break; case ASM_OP_ST4_: asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_NONE); op = ASM_OP_ST4; break; case ASM_OP_ST4_REL: asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_REL); op = ASM_OP_ST4; break; case ASM_OP_ST8_: asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_NONE); op = ASM_OP_ST8; break; case ASM_OP_ST8_REL: asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_REL); op = ASM_OP_ST8; break; case ASM_OP_ST8_SPILL: asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_SPILL); op = ASM_OP_ST8; break; case ASM_OP_STF_SPILL: asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_SPILL); op = ASM_OP_STF; break; case ASM_OP_SYNC_I: asm_cmpltr_add(i, ASM_CC_SYNC, ASM_CT_I); op = ASM_OP_SYNC; break; case ASM_OP_TBIT_NZ_AND: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_NZ); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); op = ASM_OP_TBIT; break; case ASM_OP_TBIT_NZ_OR: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_NZ); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); op = ASM_OP_TBIT; break; case ASM_OP_TBIT_NZ_OR_ANDCM: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_NZ); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); op = ASM_OP_TBIT; break; case ASM_OP_TBIT_Z: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_NONE); op = ASM_OP_TBIT; break; case ASM_OP_TBIT_Z_AND: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); op = ASM_OP_TBIT; break; case ASM_OP_TBIT_Z_OR: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); op = ASM_OP_TBIT; break; case ASM_OP_TBIT_Z_OR_ANDCM: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); op = ASM_OP_TBIT; break; case ASM_OP_TBIT_Z_UNC: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_UNC); op = ASM_OP_TBIT; break; case ASM_OP_TF_NZ_AND: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_NZ); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); op = ASM_OP_TF; break; case ASM_OP_TF_NZ_OR: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_NZ); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); op = ASM_OP_TF; break; case ASM_OP_TF_NZ_OR_ANDCM: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_NZ); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); op = ASM_OP_TF; break; case ASM_OP_TF_Z: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_NONE); op = ASM_OP_TF; break; case ASM_OP_TF_Z_AND: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); op = ASM_OP_TF; break; case ASM_OP_TF_Z_OR: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); op = ASM_OP_TF; break; case ASM_OP_TF_Z_OR_ANDCM: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); op = ASM_OP_TF; break; case ASM_OP_TF_Z_UNC: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_UNC); op = ASM_OP_TF; break; case ASM_OP_TNAT_NZ_AND: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_NZ); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); op = ASM_OP_TNAT; break; case ASM_OP_TNAT_NZ_OR: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_NZ); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); op = ASM_OP_TNAT; break; case ASM_OP_TNAT_NZ_OR_ANDCM: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_NZ); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); op = ASM_OP_TNAT; break; case ASM_OP_TNAT_Z: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_NONE); op = ASM_OP_TNAT; break; case ASM_OP_TNAT_Z_AND: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); op = ASM_OP_TNAT; break; case ASM_OP_TNAT_Z_OR: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); op = ASM_OP_TNAT; break; case ASM_OP_TNAT_Z_OR_ANDCM: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); op = ASM_OP_TNAT; break; case ASM_OP_TNAT_Z_UNC: asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_UNC); op = ASM_OP_TNAT; break; case ASM_OP_UNPACK1_H: asm_cmpltr_add(i, ASM_CC_UNPACK, ASM_CT_H); op = ASM_OP_UNPACK1; break; case ASM_OP_UNPACK1_L: asm_cmpltr_add(i, ASM_CC_UNPACK, ASM_CT_L); op = ASM_OP_UNPACK1; break; case ASM_OP_UNPACK2_H: asm_cmpltr_add(i, ASM_CC_UNPACK, ASM_CT_H); op = ASM_OP_UNPACK2; break; case ASM_OP_UNPACK2_L: asm_cmpltr_add(i, ASM_CC_UNPACK, ASM_CT_L); op = ASM_OP_UNPACK2; break; case ASM_OP_UNPACK4_H: asm_cmpltr_add(i, ASM_CC_UNPACK, ASM_CT_H); op = ASM_OP_UNPACK4; break; case ASM_OP_UNPACK4_L: asm_cmpltr_add(i, ASM_CC_UNPACK, ASM_CT_L); op = ASM_OP_UNPACK4; break; case ASM_OP_VMSW_0: asm_cmpltr_add(i, ASM_CC_VMSW, ASM_CT_0); op = ASM_OP_VMSW; break; case ASM_OP_VMSW_1: asm_cmpltr_add(i, ASM_CC_VMSW, ASM_CT_1); op = ASM_OP_VMSW; break; case ASM_OP_XMA_H: asm_cmpltr_add(i, ASM_CC_XMA, ASM_CT_H); op = ASM_OP_XMA; break; case ASM_OP_XMA_HU: asm_cmpltr_add(i, ASM_CC_XMA, ASM_CT_HU); op = ASM_OP_XMA; break; case ASM_OP_XMA_L: asm_cmpltr_add(i, ASM_CC_XMA, ASM_CT_L); op = ASM_OP_XMA; break; default: KASSERT(op < ASM_OP_NUMBER_OF_OPCODES, ("foo")); break; } i->i_op = op; return (ot); } static __inline void op_imm(struct asm_inst *i, int op, uint64_t val) { i->i_oper[op].o_type = ASM_OPER_IMM; i->i_oper[op].o_value = val; } static __inline void op_type(struct asm_inst *i, int op, enum asm_oper_type ot) { i->i_oper[op].o_type = ot; } static __inline void op_value(struct asm_inst *i, int op, uint64_t val) { i->i_oper[op].o_value = val; } static __inline void operand(struct asm_inst *i, int op, enum asm_oper_type ot, uint64_t bits, int o, int l) { i->i_oper[op].o_type = ot; i->i_oper[op].o_value = FIELD(bits, o, l); } static uint64_t imm(uint64_t bits, int sign, int o, int l) { uint64_t val = FIELD(bits, o, l); if (sign && (val & (1LL << (l - 1))) != 0) val |= -1LL << l; return (val); } static void s_imm(struct asm_inst *i, int op, uint64_t bits, int o, int l) { i->i_oper[op].o_type = ASM_OPER_IMM; i->i_oper[op].o_value = imm(bits, 1, o, l); } static void u_imm(struct asm_inst *i, int op, uint64_t bits, int o, int l) { i->i_oper[op].o_type = ASM_OPER_IMM; i->i_oper[op].o_value = imm(bits, 0, o, l); } static uint64_t vimm(uint64_t bits, int sign, va_list ap) { uint64_t val = 0; int len = 0; int frag; while ((frag = va_arg(ap, int)) != 0) { val |= (uint64_t)FIELD(bits, FRAG_OFS(frag), FRAG_LEN(frag)) << len; len += FRAG_LEN(frag); } if (sign && (val & (1LL << (len - 1))) != 0) val |= -1LL << len; return (val); } static void s_immf(struct asm_inst *i, int op, uint64_t bits, ...) { va_list ap; va_start(ap, bits); i->i_oper[op].o_type = ASM_OPER_IMM; i->i_oper[op].o_value = vimm(bits, 1, ap); va_end(ap); } static void u_immf(struct asm_inst *i, int op, uint64_t bits, ...) { va_list ap; va_start(ap, bits); i->i_oper[op].o_type = ASM_OPER_IMM; i->i_oper[op].o_value = vimm(bits, 0, ap); va_end(ap); } static void disp(struct asm_inst *i, int op, uint64_t bits, ...) { va_list ap; va_start(ap, bits); i->i_oper[op].o_type = ASM_OPER_DISP; i->i_oper[op].o_value = vimm(bits, 1, ap) << 4; va_end(ap); } static __inline void combine(uint64_t *dst, int dl, uint64_t src, int sl, int so) { *dst = (*dst & ((1LL << dl) - 1LL)) | ((uint64_t)_FLD64(src, so, sl) << dl); } int asm_extract(enum asm_op op, enum asm_fmt fmt, uint64_t bits, struct asm_bundle *b, int slot) { struct asm_inst *i = b->b_inst + slot; enum asm_oper_type ot; KASSERT(op != ASM_OP_NONE, ("foo")); i->i_bits = bits; i->i_format = fmt; i->i_srcidx = 2; ot = asm_normalize(i, op); if (fmt != ASM_FMT_B6 && fmt != ASM_FMT_B7) operand(i, 0, ASM_OPER_PREG, bits, 0, 6); switch (fmt) { case ASM_FMT_A1: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); operand(i, 3, ASM_OPER_GREG, bits, 20, 7); if ((op == ASM_OP_ADD && FIELD(bits, 27, 2) == 1) || (op == ASM_OP_SUB && FIELD(bits, 27, 2) == 0)) op_imm(i, 4, 1LL); break; case ASM_FMT_A2: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); op_imm(i, 3, 1LL + FIELD(bits, 27, 2)); operand(i, 4, ASM_OPER_GREG, bits, 20, 7); break; case ASM_FMT_A3: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); s_immf(i, 2, bits, FRAG(13,7), FRAG(36,1), 0); operand(i, 3, ASM_OPER_GREG, bits, 20, 7); break; case ASM_FMT_A4: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); s_immf(i, 2, bits, FRAG(13,7), FRAG(27,6), FRAG(36,1), 0); operand(i, 3, ASM_OPER_GREG, bits, 20, 7); break; case ASM_FMT_A5: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); s_immf(i, 2, bits, FRAG(13,7), FRAG(27,9), FRAG(22,5), FRAG(36,1), 0); operand(i, 3, ASM_OPER_GREG, bits, 20, 2); break; case ASM_FMT_A6: /* 2 dst */ operand(i, 1, ASM_OPER_PREG, bits, 6, 6); operand(i, 2, ASM_OPER_PREG, bits, 27, 6); operand(i, 3, ASM_OPER_GREG, bits, 13, 7); operand(i, 4, ASM_OPER_GREG, bits, 20, 7); i->i_srcidx++; break; case ASM_FMT_A7: /* 2 dst */ if (FIELD(bits, 13, 7) != 0) return (0); operand(i, 1, ASM_OPER_PREG, bits, 6, 6); operand(i, 2, ASM_OPER_PREG, bits, 27, 6); operand(i, 3, ASM_OPER_GREG, bits, 13, 7); operand(i, 4, ASM_OPER_GREG, bits, 20, 7); i->i_srcidx++; break; case ASM_FMT_A8: /* 2 dst */ operand(i, 1, ASM_OPER_PREG, bits, 6, 6); operand(i, 2, ASM_OPER_PREG, bits, 27, 6); s_immf(i, 3, bits, FRAG(13,7), FRAG(36,1), 0); operand(i, 4, ASM_OPER_GREG, bits, 20, 7); i->i_srcidx++; break; case ASM_FMT_A9: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); operand(i, 3, ASM_OPER_GREG, bits, 20, 7); break; case ASM_FMT_A10: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); op_imm(i, 3, 1LL + FIELD(bits, 27, 2)); operand(i, 4, ASM_OPER_GREG, bits, 20, 7); break; case ASM_FMT_B1: /* 0 dst */ asm_brhint(i); disp(i, 1, bits, FRAG(13,20), FRAG(36,1), 0); break; case ASM_FMT_B2: /* 0 dst */ if (FIELD(bits, 0, 6) != 0) return (0); asm_brhint(i); disp(i, 1, bits, FRAG(13,20), FRAG(36,1), 0); break; case ASM_FMT_B3: asm_brhint(i); operand(i, 1, ASM_OPER_BREG, bits, 6, 3); disp(i, 2, bits, FRAG(13,20), FRAG(36,1), 0); break; case ASM_FMT_B4: /* 0 dst */ asm_brhint(i); operand(i, 1, ASM_OPER_BREG, bits, 13, 3); break; case ASM_FMT_B5: #if 0 if (FIELD(bits, 32, 1) == 0) return (0); #endif asm_brhint(i); operand(i, 1, ASM_OPER_BREG, bits, 6, 3); operand(i, 2, ASM_OPER_BREG, bits, 13, 3); break; case ASM_FMT_B6: /* 0 dst */ asm_brphint(i); disp(i, 1, bits, FRAG(13,20), FRAG(36,1), 0); disp(i, 2, bits, FRAG(6,7), FRAG(33,2), 0); i->i_srcidx--; break; case ASM_FMT_B7: /* 0 dst */ asm_brphint(i); operand(i, 1, ASM_OPER_BREG, bits, 13, 3); disp(i, 2, bits, FRAG(6,7), FRAG(33,2), 0); i->i_srcidx--; break; case ASM_FMT_B8: /* no operands */ break; case ASM_FMT_B9: /* 0 dst */ u_immf(i, 1, bits, FRAG(6,20), FRAG(36,1), 0); break; case ASM_FMT_F1: asm_sf(i); operand(i, 1, ASM_OPER_FREG, bits, 6, 7); operand(i, 2, ASM_OPER_FREG, bits, 13, 7); operand(i, 3, ASM_OPER_FREG, bits, 20, 7); operand(i, 4, ASM_OPER_FREG, bits, 27, 7); break; case ASM_FMT_F2: operand(i, 1, ASM_OPER_FREG, bits, 6, 7); operand(i, 2, ASM_OPER_FREG, bits, 13, 7); operand(i, 3, ASM_OPER_FREG, bits, 20, 7); operand(i, 4, ASM_OPER_FREG, bits, 27, 7); break; case ASM_FMT_F3: operand(i, 1, ASM_OPER_FREG, bits, 6, 7); operand(i, 2, ASM_OPER_FREG, bits, 13, 7); operand(i, 3, ASM_OPER_FREG, bits, 20, 7); operand(i, 4, ASM_OPER_FREG, bits, 27, 7); break; case ASM_FMT_F4: /* 2 dst */ if (FIELD(bits, 33, 1)) { /* ra */ if (FIELD(bits, 36, 1)) /* rb */ asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_UNORD); else asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_LE); } else { if (FIELD(bits, 36, 1)) /* rb */ asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_LT); else asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_EQ); } if (FIELD(bits, 12, 1)) /* ta */ asm_cmpltr_add(i, ASM_CC_FCTYPE, ASM_CT_UNC); else asm_cmpltr_add(i, ASM_CC_FCTYPE, ASM_CT_NONE); asm_sf(i); operand(i, 1, ASM_OPER_PREG, bits, 6, 6); operand(i, 2, ASM_OPER_PREG, bits, 27, 6); operand(i, 3, ASM_OPER_FREG, bits, 13, 7); operand(i, 4, ASM_OPER_FREG, bits, 20, 7); i->i_srcidx++; break; case ASM_FMT_F5: /* 2 dst */ operand(i, 1, ASM_OPER_PREG, bits, 6, 6); operand(i, 2, ASM_OPER_PREG, bits, 27, 6); operand(i, 3, ASM_OPER_FREG, bits, 13, 7); u_immf(i, 4, bits, FRAG(33,2), FRAG(20,7), 0); i->i_srcidx++; break; case ASM_FMT_F6: /* 2 dst */ asm_sf(i); operand(i, 1, ASM_OPER_FREG, bits, 6, 7); operand(i, 2, ASM_OPER_PREG, bits, 27, 6); operand(i, 3, ASM_OPER_FREG, bits, 13, 7); operand(i, 4, ASM_OPER_FREG, bits, 20, 7); i->i_srcidx++; break; case ASM_FMT_F7: /* 2 dst */ asm_sf(i); operand(i, 1, ASM_OPER_FREG, bits, 6, 7); operand(i, 2, ASM_OPER_PREG, bits, 27, 6); operand(i, 3, ASM_OPER_FREG, bits, 20, 7); i->i_srcidx++; break; case ASM_FMT_F8: asm_sf(i); operand(i, 1, ASM_OPER_FREG, bits, 6, 7); operand(i, 2, ASM_OPER_FREG, bits, 13, 7); operand(i, 3, ASM_OPER_FREG, bits, 20, 7); break; case ASM_FMT_F9: operand(i, 1, ASM_OPER_FREG, bits, 6, 7); operand(i, 2, ASM_OPER_FREG, bits, 13, 7); operand(i, 3, ASM_OPER_FREG, bits, 20, 7); break; case ASM_FMT_F10: asm_sf(i); operand(i, 1, ASM_OPER_FREG, bits, 6, 7); operand(i, 2, ASM_OPER_FREG, bits, 13, 7); break; case ASM_FMT_F11: operand(i, 1, ASM_OPER_FREG, bits, 6, 7); operand(i, 2, ASM_OPER_FREG, bits, 13, 7); break; case ASM_FMT_F12: /* 0 dst */ asm_sf(i); u_imm(i, 1, bits, 13, 7); u_imm(i, 2, bits, 20, 7); i->i_srcidx--; break; case ASM_FMT_F13: asm_sf(i); /* no operands */ break; case ASM_FMT_F14: /* 0 dst */ asm_sf(i); disp(i, 1, bits, FRAG(6,20), FRAG(36,1), 0); break; case ASM_FMT_F15: /* 0 dst */ u_imm(i, 1, bits, 6, 20); break; case ASM_FMT_F16: /* 0 dst */ u_imm(i, 1, bits, 6, 20); break; case ASM_FMT_I1: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); operand(i, 3, ASM_OPER_GREG, bits, 20, 7); switch (FIELD(bits, 30, 2)) { case 0: op_imm(i, 4, 0LL); break; case 1: op_imm(i, 4, 7LL); break; case 2: op_imm(i, 4, 15LL); break; case 3: op_imm(i, 4, 16LL); break; } break; case ASM_FMT_I2: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); operand(i, 3, ASM_OPER_GREG, bits, 20, 7); break; case ASM_FMT_I3: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); u_imm(i, 3, bits, 20, 4); break; case ASM_FMT_I4: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); u_imm(i, 3, bits, 20, 8); break; case ASM_FMT_I5: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_GREG, bits, 20, 7); operand(i, 3, ASM_OPER_GREG, bits, 13, 7); break; case ASM_FMT_I6: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_GREG, bits, 20, 7); u_imm(i, 3, bits, 14, 5); break; case ASM_FMT_I7: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); operand(i, 3, ASM_OPER_GREG, bits, 20, 7); break; case ASM_FMT_I8: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); op_imm(i, 3, 31LL - FIELD(bits, 20, 5)); break; case ASM_FMT_I9: if (FIELD(bits, 13, 7) != 0) return (0); operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_GREG, bits, 20, 7); break; case ASM_FMT_I10: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); operand(i, 3, ASM_OPER_GREG, bits, 20, 7); u_imm(i, 4, bits, 27, 6); break; case ASM_FMT_I11: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_GREG, bits, 20, 7); u_imm(i, 3, bits, 14, 6); op_imm(i, 4, 1LL + FIELD(bits, 27, 6)); break; case ASM_FMT_I12: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); op_imm(i, 3, 63LL - FIELD(bits, 20, 6)); op_imm(i, 4, 1LL + FIELD(bits, 27, 6)); break; case ASM_FMT_I13: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); s_immf(i, 2, bits, FRAG(13,7), FRAG(36,1), 0); op_imm(i, 3, 63LL - FIELD(bits, 20, 6)); op_imm(i, 4, 1LL + FIELD(bits, 27, 6)); break; case ASM_FMT_I14: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); s_imm(i, 2, bits, 36, 1); operand(i, 3, ASM_OPER_GREG, bits, 20, 7); op_imm(i, 4, 63LL - FIELD(bits, 14, 6)); op_imm(i, 5, 1LL + FIELD(bits, 27, 6)); break; case ASM_FMT_I15: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); operand(i, 3, ASM_OPER_GREG, bits, 20, 7); op_imm(i, 4, 63LL - FIELD(bits, 31, 6)); op_imm(i, 5, 1LL + FIELD(bits, 27, 4)); break; case ASM_FMT_I16: /* 2 dst */ operand(i, 1, ASM_OPER_PREG, bits, 6, 6); operand(i, 2, ASM_OPER_PREG, bits, 27, 6); operand(i, 3, ASM_OPER_GREG, bits, 20, 7); u_imm(i, 4, bits, 14, 6); i->i_srcidx++; break; case ASM_FMT_I17: /* 2 dst */ operand(i, 1, ASM_OPER_PREG, bits, 6, 6); operand(i, 2, ASM_OPER_PREG, bits, 27, 6); operand(i, 3, ASM_OPER_GREG, bits, 20, 7); i->i_srcidx++; break; case ASM_FMT_I18: u_immf(i, 1, bits, FRAG(6,20), FRAG(36,1), 0); break; case ASM_FMT_I19: u_immf(i, 1, bits, FRAG(6,20), FRAG(36,1), 0); break; case ASM_FMT_I20: /* 0 dst */ operand(i, 1, ASM_OPER_GREG, bits, 13, 7); disp(i, 2, bits, FRAG(6,7), FRAG(20,13), FRAG(36,1), 0); i->i_srcidx--; break; case ASM_FMT_I21: switch (FIELD(bits, 20, 2)) { /* wh */ case 0: asm_cmpltr_add(i, ASM_CC_MWH, ASM_CT_SPTK); break; case 1: asm_cmpltr_add(i, ASM_CC_MWH, ASM_CT_NONE); break; case 2: asm_cmpltr_add(i, ASM_CC_MWH, ASM_CT_DPTK); break; case 3: return (0); } if (FIELD(bits, 23, 1)) /* ih */ asm_cmpltr_add(i, ASM_CC_IH, ASM_CT_IMP); else asm_cmpltr_add(i, ASM_CC_IH, ASM_CT_NONE); operand(i, 1, ASM_OPER_BREG, bits, 6, 3); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); disp(i, 3, bits, FRAG(24,9), 0); break; case ASM_FMT_I22: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_BREG, bits, 13, 3); break; case ASM_FMT_I23: op_type(i, 1, ASM_OPER_PR); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); u_immf(i, 3, bits, FRAG(6,7), FRAG(24,8), FRAG(36,1), 0); i->i_oper[3].o_value <<= 1; break; case ASM_FMT_I24: op_type(i, 1, ASM_OPER_PR_ROT); s_immf(i, 2, bits, FRAG(6,27), FRAG(36,1), 0); break; case ASM_FMT_I25: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); op_type(i, 2, ot); break; case ASM_FMT_I26: operand(i, 1, ASM_OPER_AREG, bits, 20, 7); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); break; case ASM_FMT_I27: operand(i, 1, ASM_OPER_AREG, bits, 20, 7); s_immf(i, 2, bits, FRAG(13,7), FRAG(36,1), 0); break; case ASM_FMT_I28: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_AREG, bits, 20, 7); break; case ASM_FMT_I29: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_GREG, bits, 20, 7); break; case ASM_FMT_I30: /* 2 dst */ operand(i, 1, ASM_OPER_PREG, bits, 6, 6); operand(i, 2, ASM_OPER_PREG, bits, 27, 6); op_imm(i, 3, 32LL + FIELD(bits, 14, 5)); i->i_srcidx++; break; case ASM_FMT_M1: asm_hint(i, ASM_CC_LDHINT); operand(i, 1, ASM_OPER_GREG, bits, 6, 7); if (i->i_op == ASM_OP_LD16) { op_type(i, 2, ASM_OPER_AREG); op_value(i, 2, AR_CSD); i->i_srcidx++; } operand(i, i->i_srcidx, ASM_OPER_MEM, bits, 20, 7); break; case ASM_FMT_M2: asm_hint(i, ASM_CC_LDHINT); operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_MEM, bits, 20, 7); operand(i, 3, ASM_OPER_GREG, bits, 13, 7); break; case ASM_FMT_M3: asm_hint(i, ASM_CC_LDHINT); operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_MEM, bits, 20, 7); s_immf(i, 3, bits, FRAG(13,7), FRAG(27,1), FRAG(36,1), 0); break; case ASM_FMT_M4: asm_hint(i, ASM_CC_STHINT); operand(i, 1, ASM_OPER_MEM, bits, 20, 7); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); if (i->i_op == ASM_OP_ST16) { op_type(i, 3, ASM_OPER_AREG); op_value(i, 3, AR_CSD); } break; case ASM_FMT_M5: asm_hint(i, ASM_CC_STHINT); operand(i, 1, ASM_OPER_MEM, bits, 20, 7); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); s_immf(i, 3, bits, FRAG(6,7), FRAG(27,1), FRAG(36,1), 0); break; case ASM_FMT_M6: asm_hint(i, ASM_CC_LDHINT); operand(i, 1, ASM_OPER_FREG, bits, 6, 7); operand(i, 2, ASM_OPER_MEM, bits, 20, 7); break; case ASM_FMT_M7: asm_hint(i, ASM_CC_LDHINT); operand(i, 1, ASM_OPER_FREG, bits, 6, 7); operand(i, 2, ASM_OPER_MEM, bits, 20, 7); operand(i, 3, ASM_OPER_GREG, bits, 13, 7); break; case ASM_FMT_M8: asm_hint(i, ASM_CC_LDHINT); operand(i, 1, ASM_OPER_FREG, bits, 6, 7); operand(i, 2, ASM_OPER_MEM, bits, 20, 7); s_immf(i, 3, bits, FRAG(13,7), FRAG(27,1), FRAG(36,1), 0); break; case ASM_FMT_M9: asm_hint(i, ASM_CC_STHINT); operand(i, 1, ASM_OPER_MEM, bits, 20, 7); operand(i, 2, ASM_OPER_FREG, bits, 13, 7); break; case ASM_FMT_M10: asm_hint(i, ASM_CC_STHINT); operand(i, 1, ASM_OPER_MEM, bits, 20, 7); operand(i, 2, ASM_OPER_FREG, bits, 13, 7); s_immf(i, 3, bits, FRAG(6,7), FRAG(27,1), FRAG(36,1), 0); break; case ASM_FMT_M11: /* 2 dst */ asm_hint(i, ASM_CC_LDHINT); operand(i, 1, ASM_OPER_FREG, bits, 6, 7); operand(i, 2, ASM_OPER_FREG, bits, 13, 7); operand(i, 3, ASM_OPER_MEM, bits, 20, 7); i->i_srcidx++; break; case ASM_FMT_M12: /* 2 dst */ asm_hint(i, ASM_CC_LDHINT); operand(i, 1, ASM_OPER_FREG, bits, 6, 7); operand(i, 2, ASM_OPER_FREG, bits, 13, 7); operand(i, 3, ASM_OPER_MEM, bits, 20, 7); op_imm(i, 4, 8LL << FIELD(bits, 30, 1)); i->i_srcidx++; break; case ASM_FMT_M13: asm_hint(i, ASM_CC_LFHINT); operand(i, 1, ASM_OPER_MEM, bits, 20, 7); break; case ASM_FMT_M14: /* 0 dst */ asm_hint(i, ASM_CC_LFHINT); operand(i, 1, ASM_OPER_MEM, bits, 20, 7); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); i->i_srcidx--; break; case ASM_FMT_M15: /* 0 dst */ asm_hint(i, ASM_CC_LFHINT); operand(i, 1, ASM_OPER_MEM, bits, 20, 7); s_immf(i, 2, bits, FRAG(13,7), FRAG(27,1), FRAG(36,1), 0); i->i_srcidx--; break; case ASM_FMT_M16: asm_hint(i, ASM_CC_LDHINT); operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_MEM, bits, 20, 7); operand(i, 3, ASM_OPER_GREG, bits, 13, 7); if (i->i_op == ASM_OP_CMP8XCHG16) { op_type(i, 4, ASM_OPER_AREG); op_value(i, 4, AR_CSD); op_type(i, 5, ASM_OPER_AREG); op_value(i, 5, AR_CCV); } else { if (FIELD(bits, 30, 6) < 8) { op_type(i, 4, ASM_OPER_AREG); op_value(i, 4, AR_CCV); } } break; case ASM_FMT_M17: asm_hint(i, ASM_CC_LDHINT); operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_MEM, bits, 20, 7); switch (FIELD(bits, 13, 2)) { case 0: op_imm(i, 3, 1LL << 4); break; case 1: op_imm(i, 3, 1LL << 3); break; case 2: op_imm(i, 3, 1LL << 2); break; case 3: op_imm(i, 3, 1LL); break; } if (FIELD(bits, 15, 1)) i->i_oper[3].o_value *= -1LL; break; case ASM_FMT_M18: operand(i, 1, ASM_OPER_FREG, bits, 6, 7); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); break; case ASM_FMT_M19: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_FREG, bits, 13, 7); break; case ASM_FMT_M20: /* 0 dst */ operand(i, 1, ASM_OPER_GREG, bits, 13, 7); disp(i, 2, bits, FRAG(6,7), FRAG(20,13), FRAG(36,1), 0); i->i_srcidx--; break; case ASM_FMT_M21: /* 0 dst */ operand(i, 1, ASM_OPER_FREG, bits, 13, 7); disp(i, 2, bits, FRAG(6,7), FRAG(20,13), FRAG(36,1), 0); i->i_srcidx--; break; case ASM_FMT_M22: /* 0 dst */ operand(i, 1, ASM_OPER_GREG, bits, 6, 7); disp(i, 2, bits, FRAG(13,20), FRAG(36,1), 0); i->i_srcidx--; break; case ASM_FMT_M23: /* 0 dst */ operand(i, 1, ASM_OPER_FREG, bits, 6, 7); disp(i, 2, bits, FRAG(13,20), FRAG(36,1), 0); i->i_srcidx--; break; case ASM_FMT_M24: /* no operands */ break; case ASM_FMT_M25: if (FIELD(bits, 0, 6) != 0) return (0); /* no operands */ break; case ASM_FMT_M26: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); break; case ASM_FMT_M27: operand(i, 1, ASM_OPER_FREG, bits, 6, 7); break; case ASM_FMT_M28: operand(i, 1, ASM_OPER_GREG, bits, 20, 7); break; case ASM_FMT_M29: operand(i, 1, ASM_OPER_AREG, bits, 20, 7); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); break; case ASM_FMT_M30: operand(i, 1, ASM_OPER_AREG, bits, 20, 7); s_immf(i, 2, bits, FRAG(13,7), FRAG(36,1), 0); break; case ASM_FMT_M31: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_AREG, bits, 20, 7); break; case ASM_FMT_M32: operand(i, 1, ASM_OPER_CREG, bits, 20, 7); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); break; case ASM_FMT_M33: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_CREG, bits, 20, 7); break; case ASM_FMT_M34: { uint64_t loc, out; operand(i, 1, ASM_OPER_GREG, bits, 6, 7); op_type(i, 2, ASM_OPER_AREG); op_value(i, 2, AR_PFS); loc = FIELD(bits, 20, 7); out = FIELD(bits, 13, 7) - loc; op_imm(i, 3, 0); op_imm(i, 4, loc); op_imm(i, 5, out); op_imm(i, 6, (uint64_t)FIELD(bits, 27, 4) << 3); break; } case ASM_FMT_M35: if (FIELD(bits, 27, 6) == 0x2D) op_type(i, 1, ASM_OPER_PSR_L); else op_type(i, 1, ASM_OPER_PSR_UM); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); break; case ASM_FMT_M36: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); if (FIELD(bits, 27, 6) == 0x25) op_type(i, 2, ASM_OPER_PSR); else op_type(i, 2, ASM_OPER_PSR_UM); break; case ASM_FMT_M37: u_immf(i, 1, bits, FRAG(6,20), FRAG(36,1), 0); break; case ASM_FMT_M38: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_GREG, bits, 20, 7); operand(i, 3, ASM_OPER_GREG, bits, 13, 7); break; case ASM_FMT_M39: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_GREG, bits, 20, 7); u_imm(i, 3, bits, 13, 2); break; case ASM_FMT_M40: /* 0 dst */ operand(i, 1, ASM_OPER_GREG, bits, 20, 7); u_imm(i, 2, bits, 13, 2); i->i_srcidx--; break; case ASM_FMT_M41: operand(i, 1, ASM_OPER_GREG, bits, 13, 7); break; case ASM_FMT_M42: operand(i, 1, ot, bits, 20, 7); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); break; case ASM_FMT_M43: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ot, bits, 20, 7); break; case ASM_FMT_M44: u_immf(i, 1, bits, FRAG(6,21), FRAG(31,2), FRAG(36,1), 0); break; case ASM_FMT_M45: /* 0 dst */ operand(i, 1, ASM_OPER_GREG, bits, 20, 7); operand(i, 2, ASM_OPER_GREG, bits, 13, 7); i->i_srcidx--; break; case ASM_FMT_M46: operand(i, 1, ASM_OPER_GREG, bits, 6, 7); operand(i, 2, ASM_OPER_GREG, bits, 20, 7); break; case ASM_FMT_M47: operand(i, 1, ASM_OPER_GREG, bits, 20, 7); break; case ASM_FMT_M48: u_immf(i, 1, bits, FRAG(6,20), FRAG(36,1), 0); break; case ASM_FMT_X1: KASSERT(slot == 2, ("foo")); u_immf(i, 1, bits, FRAG(6,20), FRAG(36,1), 0); combine(&i->i_oper[1].o_value, 21, b->b_inst[1].i_bits, 41, 0); break; case ASM_FMT_X2: KASSERT(slot == 2, ("foo")); operand(i, 1, ASM_OPER_GREG, bits, 6, 7); u_immf(i, 2, bits, FRAG(13,7), FRAG(27,9), FRAG(22,5), FRAG(21,1), 0); combine(&i->i_oper[2].o_value, 22, b->b_inst[1].i_bits, 41, 0); combine(&i->i_oper[2].o_value, 63, bits, 1, 36); break; case ASM_FMT_X3: KASSERT(slot == 2, ("foo")); asm_brhint(i); u_imm(i, 1, bits, 13, 20); combine(&i->i_oper[1].o_value, 20, b->b_inst[1].i_bits, 39, 2); combine(&i->i_oper[1].o_value, 59, bits, 1, 36); i->i_oper[1].o_value <<= 4; i->i_oper[1].o_type = ASM_OPER_DISP; break; case ASM_FMT_X4: KASSERT(slot == 2, ("foo")); asm_brhint(i); operand(i, 1, ASM_OPER_BREG, bits, 6, 3); u_imm(i, 2, bits, 13, 20); combine(&i->i_oper[2].o_value, 20, b->b_inst[1].i_bits, 39, 2); combine(&i->i_oper[2].o_value, 59, bits, 1, 36); i->i_oper[2].o_value <<= 4; i->i_oper[2].o_type = ASM_OPER_DISP; break; case ASM_FMT_X5: KASSERT(slot == 2, ("foo")); u_immf(i, 1, bits, FRAG(6,20), FRAG(36,1), 0); combine(&i->i_oper[1].o_value, 21, b->b_inst[1].i_bits, 41, 0); break; default: KASSERT(fmt == ASM_FMT_NONE, ("foo")); return (0); } return (1); }