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cebix |
1.1 |
/* |
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* mon_8080.cpp - 8080 disassembler |
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* |
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cebix |
1.3 |
* mon (C) 1997-2000 Christian Bauer, Marc Hellwig |
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cebix |
1.2 |
* |
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* This program is free software; you can redistribute it and/or modify |
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* it under the terms of the GNU General Public License as published by |
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* the Free Software Foundation; either version 2 of the License, or |
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* (at your option) any later version. |
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* |
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* This program is distributed in the hope that it will be useful, |
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* but WITHOUT ANY WARRANTY; without even the implied warranty of |
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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* GNU General Public License for more details. |
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* |
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* You should have received a copy of the GNU General Public License |
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* along with this program; if not, write to the Free Software |
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* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA |
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cebix |
1.1 |
*/ |
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cebix |
1.2 |
#include "sysdeps.h" |
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cebix |
1.1 |
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#include "mon.h" |
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#include "mon_8080.h" |
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// Addressing modes |
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enum { |
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A_IMPL, |
| 30 |
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A_BC, // bc |
| 31 |
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A_DE, // de |
| 32 |
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A_HL, // hl |
| 33 |
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A_SP, // sp |
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A_PSW, // psw |
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A_REG1, // register (bits 0..2 of opcode) |
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A_REG2, // register (bits 3..5 of opcode) |
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A_2REG, // register (bits 3..5 of opcode),register (bits 0..2 of opcode) |
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A_RST, // restart |
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A_BYTE, // xx |
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A_R2_B, // register (bits 3..5 of opcode),xx |
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A_WORD, // xxxx |
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A_BC_W, // bc,xxxx |
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A_DE_W, // de,xxxx |
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A_HL_W, // hl,xxxx |
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A_SP_W // sp,xxxx |
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}; |
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// Mnemonics |
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enum { |
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M_ACI, M_ADC, M_ADD, M_ADI, M_ANA, M_ANI, M_CALL, M_CC, M_CM, M_CMA, M_CMC, |
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M_CMP, M_CNC, M_CNZ, M_CP, M_CPE, M_CPI, M_CPO, M_CZ, M_DAA, M_DAD, M_DCR, |
| 52 |
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M_DCX, M_DI, M_EI, M_HLT, M_IN, M_INR, M_INX, M_JMP, M_JC, M_JM, M_JNC, M_JNZ, |
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M_JP, M_JPE, M_JPO, M_JZ, M_LDA, M_LDAX, M_LHLD, M_LXI, M_MOV, M_MVI, M_NOP, |
| 54 |
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M_ORA, M_ORI, M_OUT, M_PCHL, M_POP, M_PUSH, M_RAL, M_RAR, M_RET, M_RC, M_RM, |
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M_RNC, M_RNZ, M_RP, M_RPE, M_RPO, M_RZ, M_RLC, M_RRC, M_RST, M_SBB, M_SBI, |
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M_SHLD, M_SPHL, M_STA, M_STAX, M_STC, M_SUB, M_SUI, M_XCHG, M_XRA, M_XRI, M_XTHL, |
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M_ILLEGAL, |
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M_MAXIMUM // Highest element |
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}; |
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// Mnemonic for each opcode |
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static const char mnemonic[256] = { |
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M_NOP , M_LXI , M_STAX, M_INX , M_INR, M_DCR , M_MVI, M_RLC, // 00 |
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M_ILLEGAL, M_DAD , M_LDAX, M_DCX , M_INR, M_DCR , M_MVI, M_RRC, |
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M_ILLEGAL, M_LXI , M_STAX, M_INX , M_INR, M_DCR , M_MVI, M_RAL, // 10 |
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M_ILLEGAL, M_DAD , M_LDAX, M_DCX , M_INR, M_DCR , M_MVI, M_RAR, |
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M_ILLEGAL, M_LXI , M_SHLD, M_INX , M_INR, M_DCR , M_MVI, M_DAA, // 20 |
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M_ILLEGAL, M_DAD , M_LHLD, M_DCX , M_INR, M_DCR , M_MVI, M_CMA, |
| 70 |
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M_ILLEGAL, M_LXI , M_STA , M_INX , M_INR, M_DCR , M_MVI, M_STC, // 30 |
| 71 |
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M_ILLEGAL, M_DAD , M_LDA , M_DCX , M_INR, M_DCR , M_MVI, M_CMC, |
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M_MOV , M_MOV , M_MOV , M_MOV , M_MOV, M_MOV , M_MOV, M_MOV, // 40 |
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M_MOV , M_MOV , M_MOV , M_MOV , M_MOV, M_MOV , M_MOV, M_MOV, |
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M_MOV , M_MOV , M_MOV , M_MOV , M_MOV, M_MOV , M_MOV, M_MOV, // 50 |
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M_MOV , M_MOV , M_MOV , M_MOV , M_MOV, M_MOV , M_MOV, M_MOV, |
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M_MOV , M_MOV , M_MOV , M_MOV , M_MOV, M_MOV , M_MOV, M_MOV, // 60 |
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M_MOV , M_MOV , M_MOV , M_MOV , M_MOV, M_MOV , M_MOV, M_MOV, |
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M_MOV , M_MOV , M_MOV , M_MOV , M_MOV, M_MOV , M_HLT, M_MOV, // 70 |
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M_MOV , M_MOV , M_MOV , M_MOV , M_MOV, M_MOV , M_MOV, M_MOV, |
| 80 |
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M_ADD , M_ADD , M_ADD , M_ADD , M_ADD, M_ADD , M_ADD, M_ADD, // 80 |
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M_ADC , M_ADC , M_ADC , M_ADC , M_ADC, M_ADC , M_ADC, M_ADC, |
| 82 |
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M_SUB , M_SUB , M_SUB , M_SUB , M_SUB, M_SUB , M_SUB, M_SUB, // 90 |
| 83 |
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M_SBB , M_SBB , M_SBB , M_SBB , M_SBB, M_SBB , M_SBB, M_SBB, |
| 84 |
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M_ANA , M_ANA , M_ANA , M_ANA , M_ANA, M_ANA , M_ANA, M_ANA, // a0 |
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M_XRA , M_XRA , M_XRA , M_XRA , M_XRA, M_XRA , M_XRA, M_XRA, |
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M_ORA , M_ORA , M_ORA , M_ORA , M_ORA, M_ORA , M_ORA, M_ORA, // b0 |
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M_CMP , M_CMP , M_CMP , M_CMP , M_CMP, M_CMP , M_CMP, M_CMP, |
| 88 |
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M_RNZ , M_POP , M_JNZ , M_JMP , M_CNZ, M_PUSH , M_ADI, M_RST, // c0 |
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M_RZ , M_RET , M_JZ , M_ILLEGAL, M_CZ , M_CALL , M_ACI, M_RST, |
| 90 |
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M_RNC , M_POP , M_JNC , M_OUT , M_CNC, M_PUSH , M_SUI, M_RST, // d0 |
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M_RC , M_ILLEGAL, M_JC , M_IN , M_CC , M_ILLEGAL, M_SBI, M_RST, |
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M_RPO , M_POP , M_JPO , M_XTHL , M_CPO, M_PUSH , M_ANI, M_RST, // e0 |
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M_RPE , M_PCHL , M_JPE , M_XCHG , M_CPE, M_ILLEGAL, M_XRI, M_RST, |
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M_RP , M_POP , M_JP , M_DI , M_CP , M_PUSH , M_ORI, M_RST, // f0 |
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M_RM , M_SPHL , M_JM , M_EI , M_CM , M_ILLEGAL, M_CPI, M_RST |
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}; |
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// Addressing mode for each opcode |
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static const char adr_mode[256] = { |
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A_IMPL, A_BC_W, A_BC , A_BC , A_REG2, A_REG2, A_R2_B, A_IMPL, // 00 |
| 101 |
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A_IMPL, A_BC , A_BC , A_BC , A_REG2, A_REG2, A_R2_B, A_IMPL, |
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A_IMPL, A_DE_W, A_DE , A_DE , A_REG2, A_REG2, A_R2_B, A_IMPL, // 10 |
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A_IMPL, A_DE , A_DE , A_DE , A_REG2, A_REG2, A_R2_B, A_IMPL, |
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A_IMPL, A_HL_W, A_WORD, A_HL , A_REG2, A_REG2, A_R2_B, A_IMPL, // 20 |
| 105 |
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A_IMPL, A_HL , A_WORD, A_HL , A_REG2, A_REG2, A_R2_B, A_IMPL, |
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A_IMPL, A_SP_W, A_WORD, A_SP , A_REG2, A_REG2, A_R2_B, A_IMPL, // 30 |
| 107 |
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A_IMPL, A_SP , A_WORD, A_SP , A_REG2, A_REG2, A_R2_B, A_IMPL, |
| 108 |
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A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, // 40 |
| 109 |
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A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, |
| 110 |
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A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, // 50 |
| 111 |
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A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, |
| 112 |
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A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, // 60 |
| 113 |
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A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, |
| 114 |
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A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, A_IMPL, A_2REG, // 70 |
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A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, A_2REG, |
| 116 |
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A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, // 80 |
| 117 |
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A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, |
| 118 |
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A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, // 90 |
| 119 |
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A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, |
| 120 |
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A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, // a0 |
| 121 |
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A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, |
| 122 |
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A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, // b0 |
| 123 |
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A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, A_REG1, |
| 124 |
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A_IMPL, A_BC , A_WORD, A_WORD, A_WORD, A_BC , A_BYTE, A_RST , // c0 |
| 125 |
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A_IMPL, A_IMPL, A_WORD, A_IMPL, A_WORD, A_WORD, A_BYTE, A_RST , |
| 126 |
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A_IMPL, A_DE , A_WORD, A_BYTE, A_WORD, A_DE , A_BYTE, A_RST , // d0 |
| 127 |
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A_IMPL, A_IMPL, A_WORD, A_BYTE, A_WORD, A_IMPL, A_BYTE, A_RST , |
| 128 |
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A_IMPL, A_HL , A_WORD, A_IMPL, A_WORD, A_HL , A_BYTE, A_RST , // e0 |
| 129 |
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A_IMPL, A_IMPL, A_WORD, A_IMPL, A_WORD, A_IMPL, A_BYTE, A_RST , |
| 130 |
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A_IMPL, A_PSW , A_WORD, A_IMPL, A_WORD, A_PSW , A_BYTE, A_RST , // f0 |
| 131 |
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A_IMPL, A_IMPL, A_WORD, A_IMPL, A_WORD, A_IMPL, A_BYTE, A_RST |
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}; |
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// Chars for each mnemonic |
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static const char mnem_1[] = "aaaaaacccccccccccccdddddehiiijjjjjjjjjllllmmnoooppprrrrrrrrrrrrrrsssssssssxxxx?"; |
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static const char mnem_2[] = "cdddnnacmmmmnnppppzaacciilnnnmcmnnpppzddhxovorrucouaaecmnnpppzlrsbbhptttuucrrt "; |
| 137 |
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static const char mnem_3[] = "icdiail acpcz eio adrx t rxp cz eo aalivipaithpslrt cz eo cctbilhaacbihaih "; |
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static const char mnem_4[] = " l xd l h dl x g l "; |
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// Register names |
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static const char reg_name[] = {"bcdehlma"}; |
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| 143 |
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// Instruction length for each addressing mode |
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static const char adr_length[] = {1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 2, 2, 3, 3, 3, 3, 3}; |
| 145 |
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| 146 |
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| 147 |
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/* |
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* Disassemble one instruction, return number of bytes |
| 149 |
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*/ |
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int disass_8080(FILE *f, uint32 adr, uint8 op, uint8 lo, uint8 hi) |
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{ |
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char mode = adr_mode[op], mnem = mnemonic[op]; |
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// Display instruction bytes in hex |
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switch (adr_length[mode]) { |
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case 1: |
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fprintf(f, "%02x\t\t", op); |
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break; |
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| 161 |
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case 2: |
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fprintf(f, "%02x %02x\t\t", op, lo); |
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break; |
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| 165 |
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case 3: |
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fprintf(f, "%02x %02x %02x\t", op, lo, hi); |
| 167 |
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break; |
| 168 |
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} |
| 169 |
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| 170 |
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// Print mnemonic |
| 171 |
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fprintf(f, "%c%c%c%c ", mnem_1[mnem], mnem_2[mnem], mnem_3[mnem], mnem_4[mnem]); |
| 172 |
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| 173 |
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// Print argument |
| 174 |
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switch (mode) { |
| 175 |
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case A_IMPL: |
| 176 |
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break; |
| 177 |
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| 178 |
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case A_BC: |
| 179 |
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fprintf(f, "bc"); |
| 180 |
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break; |
| 181 |
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| 182 |
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case A_DE: |
| 183 |
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fprintf(f, "de"); |
| 184 |
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break; |
| 185 |
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| 186 |
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case A_HL: |
| 187 |
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fprintf(f, "hl"); |
| 188 |
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break; |
| 189 |
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| 190 |
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case A_SP: |
| 191 |
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fprintf(f, "sp"); |
| 192 |
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break; |
| 193 |
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| 194 |
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case A_PSW: |
| 195 |
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fprintf(f, "psw"); |
| 196 |
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break; |
| 197 |
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| 198 |
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case A_REG1: |
| 199 |
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fprintf(f, "%c", reg_name[op & 7]); |
| 200 |
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break; |
| 201 |
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| 202 |
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case A_REG2: |
| 203 |
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fprintf(f, "%c", reg_name[(op >> 3) & 7]); |
| 204 |
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break; |
| 205 |
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| 206 |
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case A_2REG: |
| 207 |
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fprintf(f, "%c,%c", reg_name[(op >> 3) & 7], reg_name[op & 7]); |
| 208 |
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break; |
| 209 |
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| 210 |
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case A_RST: |
| 211 |
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fprintf(f, "$%02x", op & 0x38); |
| 212 |
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break; |
| 213 |
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| 214 |
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case A_BYTE: |
| 215 |
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fprintf(f, "$%02x", lo); |
| 216 |
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break; |
| 217 |
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| 218 |
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case A_R2_B: |
| 219 |
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fprintf(f, "%c,$%02x", reg_name[(op >> 3) & 7], lo); |
| 220 |
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break; |
| 221 |
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| 222 |
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case A_WORD: |
| 223 |
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fprintf(f, "$%04x", (hi << 8) | lo); |
| 224 |
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break; |
| 225 |
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| 226 |
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case A_BC_W: |
| 227 |
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fprintf(f, "bc,$%04x", (hi << 8) | lo); |
| 228 |
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break; |
| 229 |
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| 230 |
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case A_DE_W: |
| 231 |
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fprintf(f, "de,$%04x", (hi << 8) | lo); |
| 232 |
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break; |
| 233 |
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| 234 |
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case A_HL_W: |
| 235 |
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fprintf(f, "hl,$%04x", (hi << 8) | lo); |
| 236 |
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break; |
| 237 |
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| 238 |
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case A_SP_W: |
| 239 |
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fprintf(f, "sp,$%04x", (hi << 8) | lo); |
| 240 |
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break; |
| 241 |
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} |
| 242 |
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| 243 |
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fputc('\n', f); |
| 244 |
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return adr_length[mode]; |
| 245 |
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} |
