:option:::insn-bit-size:16 :option:::hi-bit-nr:15 :option:::format-names:I,II,III,IV,V,VI,VII,VIII,IX,X :option:::format-names:XI,XII,XIII :option:::format-names:XIV,XV :option:::format-names:Z :model:::v850:v850: :option:::multi-sim:true :model:::v850e:v850e: :option:::multi-sim:true :model:::v850e1:v850e1: // Cache macros :cache:::unsigned:reg1:RRRRR:(RRRRR) :cache:::unsigned:reg2:rrrrr:(rrrrr) :cache:::unsigned:reg3:wwwww:(wwwww) :cache:::unsigned:disp4:dddd:(dddd) :cache:::unsigned:disp5:dddd:(dddd << 1) :cache:::unsigned:disp7:ddddddd:ddddddd :cache:::unsigned:disp8:ddddddd:(ddddddd << 1) :cache:::unsigned:disp8:dddddd:(dddddd << 2) :cache:::unsigned:disp9:ddddd,ddd:SEXT32 ((ddddd << 4) + (ddd << 1), 9 - 1) :cache:::unsigned:disp16:dddddddddddddddd:EXTEND16 (dddddddddddddddd) :cache:::unsigned:disp16:ddddddddddddddd: EXTEND16 (ddddddddddddddd << 1) :cache:::unsigned:disp22:dddddd,ddddddddddddddd: SEXT32 ((dddddd << 16) + (ddddddddddddddd << 1), 22 - 1) :cache:::unsigned:imm5:iiiii:SEXT32 (iiiii, 4) :cache:::unsigned:imm6:iiiiii:iiiiii :cache:::unsigned:imm9:iiiii,IIII:SEXT ((IIII << 5) + iiiii, 9 - 1) :cache:::unsigned:imm5:iiii:(32 - (iiii << 1)) :cache:::unsigned:simm16:iiiiiiiiiiiiiiii:EXTEND16 (iiiiiiiiiiiiiiii) :cache:::unsigned:uimm16:iiiiiiiiiiiiiiii:iiiiiiiiiiiiiiii :cache:::unsigned:imm32:iiiiiiiiiiiiiiii,IIIIIIIIIIIIIIII:(iiiiiiiiiiiiiiii < 16 + IIIIIIIIIIIIIIII) :cache:::unsigned:uimm32:iiiiiiiiiiiiiiii,dddddddddddddddd:((iiiiiiiiiiiiiiii << 16) + dddddddddddddddd) :cache:::unsigned:vector:iiiii:iiiii :cache:::unsigned:list12:L,LLLLLLLLLLL:((L << 11) + LLLLLLLLLLL) :cache:::unsigned:list18:LLLL,LLLLLLLLLLLL:((LLLL << 12) + LLLLLLLLLLLL) :cache:::unsigned:bit3:bbb:bbb // What do we do with an illegal instruction? :internal::::illegal: { sim_io_eprintf (SD, "Illegal instruction at address 0x%lx\n", (unsigned long) cia); sim_engine_halt (SD, CPU, NULL, cia, sim_signalled, SIM_SIGILL); } // Add rrrrr,001110,RRRRR:I:::add "add r, r" { COMPAT_1 (OP_1C0 ()); } rrrrr,010010,iiiii:II:::add "add ,r" { COMPAT_1 (OP_240 ()); } // ADDI rrrrr,110000,RRRRR + iiiiiiiiiiiiiiii:VI:::addi "addi , r, r" { COMPAT_2 (OP_600 ()); } // AND rrrrr,001010,RRRRR:I:::and "and r, r" { COMPAT_1 (OP_140 ()); } // ANDI rrrrr,110110,RRRRR + iiiiiiiiiiiiiiii:VI:::andi "andi , r, r" { COMPAT_2 (OP_6C0 ()); } // Map condition code to a string :%s::::cccc:int cccc { switch (cccc) { case 0xf: return "gt"; case 0xe: return "ge"; case 0x6: return "lt"; case 0x7: return "le"; case 0xb: return "h"; case 0x9: return "nl"; case 0x1: return "l"; case 0x3: return "nh"; case 0x2: return "e"; case 0xa: return "ne"; case 0x0: return "v"; case 0x8: return "nv"; case 0x4: return "n"; case 0xc: return "p"; /* case 0x1: return "c"; */ /* case 0x9: return "nc"; */ /* case 0x2: return "z"; */ /* case 0xa: return "nz"; */ case 0x5: return "r"; /* always */ case 0xd: return "sa"; } return "(null)"; } // Bcond ddddd,1011,ddd,cccc:III:::Bcond "b%s " { int cond; if ((ddddd == 0x00) && (ddd == 0x00) && (cccc == 0x05)) { // Special case - treat "br *" like illegal instruction sim_engine_halt (SD, CPU, NULL, cia, sim_stopped, SIM_SIGTRAP); } else { cond = condition_met (cccc); if (cond) nia = cia + disp9; TRACE_BRANCH1 (cond); } } // BSH rrrrr,11111100000 + wwwww,01101000010:XII:::bsh *v850e *v850e1 "bsh r, r" { unsigned32 value; TRACE_ALU_INPUT1 (GR[reg2]); value = (MOVED32 (GR[reg2], 23, 16, 31, 24) | MOVED32 (GR[reg2], 31, 24, 23, 16) | MOVED32 (GR[reg2], 7, 0, 15, 8) | MOVED32 (GR[reg2], 15, 8, 7, 0)); GR[reg3] = value; PSW &= ~(PSW_Z | PSW_S | PSW_CY | PSW_OV); if (value == 0) PSW |= PSW_Z; if (value & 0x80000000) PSW |= PSW_S; if (((value & 0xff) == 0) || (value & 0x00ff) == 0) PSW |= PSW_CY; TRACE_ALU_RESULT (GR[reg3]); } // BSW rrrrr,11111100000 + wwwww,01101000000:XII:::bsw *v850e *v850e1 "bsw r, r" { #define WORDHASNULLBYTE(x) (((x) - 0x01010101) & ~(x)&0x80808080) unsigned32 value; TRACE_ALU_INPUT1 (GR[reg2]); value = GR[reg2]; value >>= 24; value |= (GR[reg2] << 24); value |= ((GR[reg2] << 8) & 0x00ff0000); value |= ((GR[reg2] >> 8) & 0x0000ff00); GR[reg3] = value; PSW &= ~(PSW_Z | PSW_S | PSW_CY | PSW_OV); if (value == 0) PSW |= PSW_Z; if (value & 0x80000000) PSW |= PSW_S; if (WORDHASNULLBYTE (value)) PSW |= PSW_CY; TRACE_ALU_RESULT (GR[reg3]); } // CALLT 0000001000,iiiiii:II:::callt *v850e *v850e1 "callt " { unsigned32 adr; unsigned32 off; CTPC = cia + 2; CTPSW = PSW; adr = (CTBP & ~1) + (imm6 << 1); off = load_mem (adr, 2) & ~1; /* Force alignment */ nia = (CTBP & ~1) + off; TRACE_BRANCH3 (adr, CTBP, off); } // CLR1 10,bbb,111110,RRRRR + dddddddddddddddd:VIII:::clr1 "clr1 , [r]" { COMPAT_2 (OP_87C0 ()); } rrrrr,111111,RRRRR + 0000000011100100:IX:::clr1 *v850e *v850e1 "clr1 r, [r]" { COMPAT_2 (OP_E407E0 ()); } // CTRET 0000011111100000 + 0000000101000100:X:::ctret *v850e *v850e1 "ctret" { nia = (CTPC & ~1); PSW = (CTPSW & (CPU)->psw_mask); TRACE_BRANCH1 (PSW); } // CMOV rrrrr,111111,RRRRR + wwwww,011001,cccc,0:XI:::cmov *v850e *v850e1 "cmov %s, r, r, r" { int cond = condition_met (cccc); TRACE_ALU_INPUT3 (cond, GR[reg1], GR[reg2]); GR[reg3] = cond ? GR[reg1] : GR[reg2]; TRACE_ALU_RESULT (GR[reg3]); } rrrrr,111111,iiiii + wwwww,011000,cccc,0:XII:::cmov *v850e *v850e1 "cmov %s, , r, r" { int cond = condition_met (cccc); TRACE_ALU_INPUT3 (cond, imm5, GR[reg2]); GR[reg3] = cond ? imm5 : GR[reg2]; TRACE_ALU_RESULT (GR[reg3]); } // CMP rrrrr,001111,RRRRR:I:::cmp "cmp r, r" { COMPAT_1 (OP_1E0 ()); } rrrrr,010011,iiiii:II:::cmp "cmp , r" { COMPAT_1 (OP_260 ()); } // DI 0000011111100000 + 0000000101100000:X:::di "di" { COMPAT_2 (OP_16007E0 ()); } // DISPOSE // 0000011001,iiiii,L + LLLLLLLLLLL,00000:XIII:::dispose // "dispose , " 0000011001,iiiii,L + LLLLLLLLLLL,RRRRR:XIII:::dispose *v850e *v850e1 "dispose , ":RRRRR == 0 "dispose , , [reg1]" { int i; SAVE_2; trace_input ("dispose", OP_PUSHPOP1, 0); SP += (OP[3] & 0x3e) << 1; /* Load the registers with lower number registers being retrieved from higher addresses. */ for (i = 12; i--;) if ((OP[3] & (1 << type1_regs[ i ]))) { State.regs[ 20 + i ] = load_mem (SP, 4); SP += 4; } if ((OP[3] & 0x1f0000) != 0) { nia = State.regs[ (OP[3] >> 16) & 0x1f]; } trace_output (OP_PUSHPOP1); } // DIV rrrrr,111111,RRRRR + wwwww,01011000000:XI:::div *v850e *v850e1 "div r, r, r" { COMPAT_2 (OP_2C007E0 ()); } // DIVH rrrrr!0,000010,RRRRR!0:I:::divh "divh r, r" { unsigned32 ov, s, z; signed long int op0, op1, result; trace_input ("divh", OP_REG_REG, 0); PC = cia; OP[0] = instruction_0 & 0x1f; OP[1] = (instruction_0 >> 11) & 0x1f; /* Compute the result. */ op0 = EXTEND16 (State.regs[OP[0]]); op1 = State.regs[OP[1]]; if (op0 == 0xffffffff && op1 == 0x80000000) { result = 0x80000000; ov = 1; } else if (op0 != 0) { result = op1 / op0; ov = 0; } else { result = 0x0; ov = 1; } /* Compute the condition codes. */ z = (result == 0); s = (result & 0x80000000); /* Store the result and condition codes. */ State.regs[OP[1]] = result; PSW &= ~(PSW_Z | PSW_S | PSW_OV); PSW |= ((z ? PSW_Z : 0) | (s ? PSW_S : 0) | (ov ? PSW_OV : 0)); trace_output (OP_REG_REG); PC += 2; nia = PC; } rrrrr,111111,RRRRR + wwwww,01010000000:XI:::divh *v850e *v850e1 "divh r, r, r" { COMPAT_2 (OP_28007E0 ()); } // DIVHU rrrrr,111111,RRRRR + wwwww,01010000010:XI:::divhu *v850e *v850e1 "divhu r, r, r" { COMPAT_2 (OP_28207E0 ()); } // DIVU rrrrr,111111,RRRRR + wwwww,01011000010:XI:::divu *v850e *v850e1 "divu r, r, r" { COMPAT_2 (OP_2C207E0 ()); } // EI 1000011111100000 + 0000000101100000:X:::ei "ei" { COMPAT_2 (OP_16087E0 ()); } // HALT 0000011111100000 + 0000000100100000:X:::halt "halt" { COMPAT_2 (OP_12007E0 ()); } // HSW rrrrr,11111100000 + wwwww,01101000100:XII:::hsw *v850e *v850e1 "hsw r, r" { unsigned32 value; TRACE_ALU_INPUT1 (GR[reg2]); value = GR[reg2]; value >>= 16; value |= (GR[reg2] << 16); GR[reg3] = value; PSW &= ~(PSW_Z | PSW_S | PSW_CY | PSW_OV); if (value == 0) PSW |= PSW_Z; if (value & 0x80000000) PSW |= PSW_S; if (((value & 0xffff) == 0) || (value & 0xffff0000) == 0) PSW |= PSW_CY; TRACE_ALU_RESULT (GR[reg3]); } // JARL rrrrr!0,11110,dddddd + ddddddddddddddd,0:V:::jarl "jarl , r" { GR[reg2] = nia; nia = cia + disp22; TRACE_BRANCH1 (GR[reg2]); } // JMP 00000000011,RRRRR:I:::jmp "jmp [r]" { nia = GR[reg1] & ~1; TRACE_BRANCH0 (); } // JR 0000011110,dddddd + ddddddddddddddd,0:V:::jr "jr " { nia = cia + disp22; TRACE_BRANCH0 (); } // LD rrrrr,111000,RRRRR + dddddddddddddddd:VII:::ld.b "ld.b [r], r" { COMPAT_2 (OP_700 ()); } rrrrr,111001,RRRRR + ddddddddddddddd,0:VII:::ld.h "ld.h [r], r" { COMPAT_2 (OP_720 ()); } rrrrr,111001,RRRRR + ddddddddddddddd,1:VII:::ld.w "ld.w [r], r" { COMPAT_2 (OP_10720 ()); } rrrrr!0,11110,b,RRRRR + ddddddddddddddd,1:VII:::ld.bu *v850e *v850e1 "ld.bu [r], r" { COMPAT_2 (OP_10780 ()); } rrrrr!0,111111,RRRRR + ddddddddddddddd,1:VII:::ld.hu *v850e *v850e1 "ld.hu [r], r" { COMPAT_2 (OP_107E0 ()); } // LDSR regID,111111,RRRRR + 0000000000100000:IX:::ldsr "ldsr r, s" { TRACE_ALU_INPUT1 (GR[reg1]); if (&PSW == &SR[regID]) PSW = (GR[reg1] & (CPU)->psw_mask); else SR[regID] = GR[reg1]; TRACE_ALU_RESULT (SR[regID]); } // MOV rrrrr!0,000000,RRRRR:I:::mov "mov r, r" { TRACE_ALU_INPUT0 (); GR[reg2] = GR[reg1]; TRACE_ALU_RESULT (GR[reg2]); } rrrrr!0,010000,iiiii:II:::mov "mov , r" { COMPAT_1 (OP_200 ()); } 00000110001,RRRRR + iiiiiiiiiiiiiiii + IIIIIIIIIIIIIIII:VI:::mov *v850e *v850e1 "mov , r" { SAVE_2; trace_input ("mov", OP_IMM_REG, 4); State.regs[ OP[0] ] = load_mem (PC + 2, 4); trace_output (OP_IMM_REG); } // MOVEA rrrrr!0,110001,RRRRR + iiiiiiiiiiiiiiii:VI:::movea "movea , r, r" { TRACE_ALU_INPUT2 (GR[reg1], simm16); GR[reg2] = GR[reg1] + simm16; TRACE_ALU_RESULT (GR[reg2]); } // MOVHI rrrrr!0,110010,RRRRR + iiiiiiiiiiiiiiii:VI:::movhi "movhi , r, r" { COMPAT_2 (OP_640 ()); } // MUL rrrrr,111111,RRRRR + wwwww,01000100000:XI:::mul *v850e *v850e1 "mul r, r, r" { COMPAT_2 (OP_22007E0 ()); } rrrrr,111111,iiiii + wwwww,01001,IIII,00:XII:::mul *v850e *v850e1 "mul , r, r" { COMPAT_2 (OP_24007E0 ()); } // MULH rrrrr!0,000111,RRRRR:I:::mulh "mulh r, r" { COMPAT_1 (OP_E0 ()); } rrrrr!0,010111,iiiii:II:::mulh "mulh , r" { COMPAT_1 (OP_2E0 ()); } // MULHI rrrrr!0,110111,RRRRR + iiiiiiiiiiiiiiii:VI:::mulhi "mulhi , r, r" { COMPAT_2 (OP_6E0 ()); } // MULU rrrrr,111111,RRRRR + wwwww,01000100010:XI:::mulu *v850e *v850e1 "mulu r, r, r" { COMPAT_2 (OP_22207E0 ()); } rrrrr,111111,iiiii + wwwww,01001,IIII,10:XII:::mulu *v850e *v850e1 "mulu , r, r" { COMPAT_2 (OP_24207E0 ()); } // NOP 0000000000000000:I:::nop "nop" { /* do nothing, trace nothing */ } // NOT rrrrr,000001,RRRRR:I:::not "not r, r" { COMPAT_1 (OP_20 ()); } // NOT1 01,bbb,111110,RRRRR + dddddddddddddddd:VIII:::not1 "not1 , [r]" { COMPAT_2 (OP_47C0 ()); } rrrrr,111111,RRRRR + 0000000011100010:IX:::not1 *v850e *v850e1 "not1 r, r" { COMPAT_2 (OP_E207E0 ()); } // OR rrrrr,001000,RRRRR:I:::or "or r, r" { COMPAT_1 (OP_100 ()); } // ORI rrrrr,110100,RRRRR + iiiiiiiiiiiiiiii:VI:::ori "ori , r, r" { COMPAT_2 (OP_680 ()); } // PREPARE 0000011110,iiiii,L + LLLLLLLLLLL,00001:XIII:::prepare *v850e *v850e1 "prepare , " { int i; SAVE_2; trace_input ("prepare", OP_PUSHPOP1, 0); /* Store the registers with lower number registers being placed at higher addresses. */ for (i = 0; i < 12; i++) if ((OP[3] & (1 << type1_regs[ i ]))) { SP -= 4; store_mem (SP, 4, State.regs[ 20 + i ]); } SP -= (OP[3] & 0x3e) << 1; trace_output (OP_PUSHPOP1); } 0000011110,iiiii,L + LLLLLLLLLLL,00011:XIII:::prepare00 *v850e *v850e1 "prepare , , sp" { COMPAT_2 (OP_30780 ()); } 0000011110,iiiii,L + LLLLLLLLLLL,01011 + iiiiiiiiiiiiiiii:XIII:::prepare01 *v850e *v850e1 "prepare , , " { COMPAT_2 (OP_B0780 ()); } 0000011110,iiiii,L + LLLLLLLLLLL,10011 + iiiiiiiiiiiiiiii:XIII:::prepare10 *v850e *v850e1 "prepare , , " { COMPAT_2 (OP_130780 ()); } 0000011110,iiiii,L + LLLLLLLLLLL,11011 + iiiiiiiiiiiiiiii + dddddddddddddddd:XIII:::prepare11 *v850e *v850e1 "prepare , , " { COMPAT_2 (OP_1B0780 ()); } // RETI 0000011111100000 + 0000000101000000:X:::reti "reti" { if ((PSW & PSW_EP)) { nia = (EIPC & ~1); PSW = EIPSW; } else if ((PSW & PSW_NP)) { nia = (FEPC & ~1); PSW = FEPSW; } else { nia = (EIPC & ~1); PSW = EIPSW; } TRACE_BRANCH1 (PSW); } // SAR rrrrr,111111,RRRRR + 0000000010100000:IX:::sar "sar r, r" { COMPAT_2 (OP_A007E0 ()); } rrrrr,010101,iiiii:II:::sar "sar , r" { COMPAT_1 (OP_2A0 ()); } // SASF rrrrr,1111110,cccc + 0000001000000000:IX:::sasf *v850e *v850e1 "sasf %s, r" { COMPAT_2 (OP_20007E0 ()); } // SATADD rrrrr!0,000110,RRRRR:I:::satadd "satadd r, r" { COMPAT_1 (OP_C0 ()); } rrrrr!0,010001,iiiii:II:::satadd "satadd , r" { COMPAT_1 (OP_220 ()); } // SATSUB rrrrr!0,000101,RRRRR:I:::satsub "satsub r, r" { COMPAT_1 (OP_A0 ()); } // SATSUBI rrrrr!0,110011,RRRRR + iiiiiiiiiiiiiiii:VI:::satsubi "satsubi , r, r" { COMPAT_2 (OP_660 ()); } // SATSUBR rrrrr!0,000100,RRRRR:I:::satsubr "satsubr r, r" { COMPAT_1 (OP_80 ()); } // SETF rrrrr,1111110,cccc + 0000000000000000:IX:::setf "setf %s, r" { COMPAT_2 (OP_7E0 ()); } // SET1 00,bbb,111110,RRRRR + dddddddddddddddd:VIII:::set1 "set1 , [r]" { COMPAT_2 (OP_7C0 ()); } rrrrr,111111,RRRRR + 0000000011100000:IX:::set1 *v850e *v850e1 "set1 r, [r]" { COMPAT_2 (OP_E007E0 ()); } // SHL rrrrr,111111,RRRRR + 0000000011000000:IX:::shl "shl r, r" { COMPAT_2 (OP_C007E0 ()); } rrrrr,010110,iiiii:II:::shl "shl , r" { COMPAT_1 (OP_2C0 ()); } // SHR rrrrr,111111,RRRRR + 0000000010000000:IX:::shr "shr r, r" { COMPAT_2 (OP_8007E0 ()); } rrrrr,010100,iiiii:II:::shr "shr , r" { COMPAT_1 (OP_280 ()); } // SLD rrrrr,0110,ddddddd:IV:::sld.b "sld.bu [ep], r":(PSW & PSW_US) "sld.b [ep], r" { unsigned32 addr = EP + disp7; unsigned32 result = load_mem (addr, 1); if (PSW & PSW_US) { GR[reg2] = result; TRACE_LD_NAME ("sld.bu", addr, result); } else { result = EXTEND8 (result); GR[reg2] = result; TRACE_LD (addr, result); } } rrrrr,1000,ddddddd:IV:::sld.h "sld.hu [ep], r":(PSW & PSW_US) "sld.h [ep], r" { unsigned32 addr = EP + disp8; unsigned32 result = load_mem (addr, 2); if (PSW & PSW_US) { GR[reg2] = result; TRACE_LD_NAME ("sld.hu", addr, result); } else { result = EXTEND16 (result); GR[reg2] = result; TRACE_LD (addr, result); } } rrrrr,1010,dddddd,0:IV:::sld.w "sld.w [ep], r" { unsigned32 addr = EP + disp8; unsigned32 result = load_mem (addr, 4); GR[reg2] = result; TRACE_LD (addr, result); } rrrrr!0,0000110,dddd:IV:::sld.bu *v850e *v850e1 "sld.b [ep], r":(PSW & PSW_US) "sld.bu [ep], r" { unsigned32 addr = EP + disp4; unsigned32 result = load_mem (addr, 1); if (PSW & PSW_US) { result = EXTEND8 (result); GR[reg2] = result; TRACE_LD_NAME ("sld.b", addr, result); } else { GR[reg2] = result; TRACE_LD (addr, result); } } rrrrr!0,0000111,dddd:IV:::sld.hu *v850e *v850e1 "sld.h [ep], r":(PSW & PSW_US) "sld.hu [ep], r" { unsigned32 addr = EP + disp5; unsigned32 result = load_mem (addr, 2); if (PSW & PSW_US) { result = EXTEND16 (result); GR[reg2] = result; TRACE_LD_NAME ("sld.h", addr, result); } else { GR[reg2] = result; TRACE_LD (addr, result); } } // SST rrrrr,0111,ddddddd:IV:::sst.b "sst.b r, [ep]" { COMPAT_1 (OP_380 ()); } rrrrr,1001,ddddddd:IV:::sst.h "sst.h r, [ep]" { COMPAT_1 (OP_480 ()); } rrrrr,1010,dddddd,1:IV:::sst.w "sst.w r, [ep]" { COMPAT_1 (OP_501 ()); } // ST rrrrr,111010,RRRRR + dddddddddddddddd:VII:::st.b "st.b r, [r]" { COMPAT_2 (OP_740 ()); } rrrrr,111011,RRRRR + ddddddddddddddd,0:VII:::st.h "st.h r, [r]" { COMPAT_2 (OP_760 ()); } rrrrr,111011,RRRRR + ddddddddddddddd,1:VII:::st.w "st.w r, [r]" { COMPAT_2 (OP_10760 ()); } // STSR rrrrr,111111,regID + 0000000001000000:IX:::stsr "stsr s, r" { TRACE_ALU_INPUT1 (SR[regID]); GR[reg2] = SR[regID]; TRACE_ALU_RESULT (GR[reg2]); } // SUB rrrrr,001101,RRRRR:I:::sub "sub r, r" { COMPAT_1 (OP_1A0 ()); } // SUBR rrrrr,001100,RRRRR:I:::subr "subr r, r" { COMPAT_1 (OP_180 ()); } // SWITCH 00000000010,RRRRR:I:::switch *v850e *v850e1 "switch r" { unsigned long adr; SAVE_1; trace_input ("switch", OP_REG, 0); adr = (cia + 2) + (State.regs[ reg1 ] << 1); nia = (cia + 2) + (EXTEND16 (load_mem (adr, 2)) << 1); trace_output (OP_REG); } // SXB 00000000101,RRRRR:I:::sxb *v850e *v850e1 "sxb r" { TRACE_ALU_INPUT1 (GR[reg1]); GR[reg1] = EXTEND8 (GR[reg1]); TRACE_ALU_RESULT (GR[reg1]); } // SXH 00000000111,RRRRR:I:::sxh *v850e *v850e1 "sxh r" { TRACE_ALU_INPUT1 (GR[reg1]); GR[reg1] = EXTEND16 (GR[reg1]); TRACE_ALU_RESULT (GR[reg1]); } // TRAP 00000111111,iiiii + 0000000100000000:X:::trap "trap " { COMPAT_2 (OP_10007E0 ()); } // TST rrrrr,001011,RRRRR:I:::tst "tst r, r" { COMPAT_1 (OP_160 ()); } // TST1 11,bbb,111110,RRRRR + dddddddddddddddd:VIII:::tst1 "tst1 , [r]" { COMPAT_2 (OP_C7C0 ()); } rrrrr,111111,RRRRR + 0000000011100110:IX:::tst1 *v850e *v850e1 "tst1 r, [r]" { COMPAT_2 (OP_E607E0 ()); } // XOR rrrrr,001001,RRRRR:I:::xor "xor r, r" { COMPAT_1 (OP_120 ()); } // XORI rrrrr,110101,RRRRR + iiiiiiiiiiiiiiii:VI:::xori "xori , r, r" { COMPAT_2 (OP_6A0 ()); } // ZXB 00000000100,RRRRR:I:::zxb *v850e *v850e1 "zxb r" { TRACE_ALU_INPUT1 (GR[reg1]); GR[reg1] = GR[reg1] & 0xff; TRACE_ALU_RESULT (GR[reg1]); } // ZXH 00000000110,RRRRR:I:::zxh *v850e *v850e1 "zxh r" { TRACE_ALU_INPUT1 (GR[reg1]); GR[reg1] = GR[reg1] & 0xffff; TRACE_ALU_RESULT (GR[reg1]); } // Right field must be zero so that it doesn't clash with DIVH // Left field must be non-zero so that it doesn't clash with SWITCH 11111,000010,00000:I:::break *v850 *v850e { sim_engine_halt (SD, CPU, NULL, cia, sim_stopped, SIM_SIGTRAP); } 11111,000010,00000:I:::dbtrap *v850e1 "dbtrap" { DBPC = cia + 2; DBPSW = PSW; PSW = PSW | (PSW_NP | PSW_EP | PSW_ID); PC = 0x00000060; nia = 0x00000060; TRACE_BRANCH0 (); } // New breakpoint: 0x7E0 0x7E0 00000,111111,00000 + 00000,11111,100000:X:::ilgop { sim_engine_halt (SD, CPU, NULL, cia, sim_stopped, SIM_SIGTRAP); } // Return from debug trap: 0x146007e0 0000011111100000 + 0000000101000110:X:::dbret *v850e1 "dbret" { nia = DBPC; PSW = DBPSW; TRACE_BRANCH1 (PSW); }