mirror of
https://github.com/KolibriOS/kolibrios.git
synced 2024-12-22 22:56:53 +03:00
b2ba8d7766
git-svn-id: svn://kolibrios.org@1814 a494cfbc-eb01-0410-851d-a64ba20cac60
902 lines
28 KiB
C
902 lines
28 KiB
C
/*====================================================================/*
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opcodes.c -> This file executes the single-byte Z80 opcodes.
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The CPU fetchs the byte pointed by the PC register (Program Counter)
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into de IR (Instruction Register) and decodes it. The value of this
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fetched byte (opcode) determines what operation the CPU must do.
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On Z80 (which uses 8 bit for the IW register) this means that we
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can have 256 (2^8) different opcodes. The z80 uses a simple trick
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called PREFIXES to obtain more opcodes by using more than one byte
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in the decoding (see opcodes_cb.c to know how it does it).
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This file executes the whole list of single-byte opcodes.
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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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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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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., 675 Mass Ave, Cambridge, MA 02139, USA.
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Copyright (c) 2000 Santiago Romero Iglesias.
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Email: sromero@escomposlinux.org
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=====================================================================*/
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/* About the AddCycles(4) -> Remember that reading from memory
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takes 3 cycles plus 1 of the decoding.
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Add 3 cycles for each operand fetch, and
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3 more for each memory write/read. */
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case NOP : AddCycles( 4 ); break;
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case LD_BC_NN : LD_rr_nn(r_BC); AddCycles( 4+3+3 ); break;
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case LD_xBC_A : STORE_r(r_BC, r_A); AddCycles( 4+3 ); break;
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case INC_BC : r_BC++; AddCycles( 4+2 ); break;
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case INC_B : INC(r_B); AddCycles( 4 ); break;
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case DEC_B : DEC(r_B); AddCycles( 4 ); break;
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case LD_B_N : LD_r_n(r_B);
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AddCycles( 4+3 );
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break;
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case EX_AF_AF : EX_WORD(r_AF, r_AFs);
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AddCycles( 4 );
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break;
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case LD_A_xBC : LOAD_r(r_A, r_BC);
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AddCycles( 4+3 );
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break;
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case DEC_BC : r_BC--;
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AddCycles( 4+2 );
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break;
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case INC_C : INC(r_C);
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AddCycles( 4 );
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break;
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case DEC_C : DEC(r_C);
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AddCycles( 4 );
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break;
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case LD_C_N : LD_r_n(r_C);
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AddCycles( 4+3 );
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break;
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case LD_DE_NN : LD_rr_nn(r_DE);
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AddCycles( 4+3+3 );
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break;
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case LD_xDE_A : STORE_r(r_DE, r_A);
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AddCycles( 4+3 );
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break;
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case INC_DE : r_DE++;
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AddCycles( 4+2 );
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break;
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case INC_D : INC(r_D);
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AddCycles( 4 );
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break;
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case DEC_D : DEC(r_D);
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AddCycles( 4 );
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break;
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case LD_D_N : LD_r_n(r_D);
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AddCycles( 4+3 );
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break;
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case ADD_HL_BC : ADD_WORD(r_HL, r_BC); AddCycles( 4+3+3+1 ); break;
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case ADD_HL_DE : ADD_WORD(r_HL, r_DE); AddCycles( 4+3+3+1 ); break;
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case ADD_HL_HL : ADD_WORD(r_HL, r_HL); AddCycles( 4+3+3+1 ); break;
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case ADD_HL_SP : ADD_WORD(r_HL, r_SP); AddCycles( 4+3+3+1 ); break;
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case LD_A_xDE : LOAD_r(r_A, r_DE);
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AddCycles( 4+3 );
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break;
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case DEC_DE : r_DE--;
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AddCycles( 4+2 );
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break;
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case INC_E : INC(r_E);
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AddCycles( 4 );
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break;
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case DEC_E : DEC(r_E);
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AddCycles( 4 );
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break;
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case LD_E_N : LD_r_n(r_E);
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AddCycles( 4+3 );
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break;
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case LD_HL_NN : LD_rr_nn(r_HL);
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AddCycles( 4+3+3 );
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break;
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case LD_xNN_HL : STORE_nn_rr(r_HL);
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AddCycles( 4+3+3+3+3 );
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break;
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case INC_HL : r_HL++;
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AddCycles( 4+2 );
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break;
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case INC_H : INC(r_H);
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AddCycles( 4 );
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break;
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case DEC_H : DEC(r_H);
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AddCycles( 4 );
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break;
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case LD_H_N : LD_r_n(r_H);
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AddCycles( 4+3 );
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break;
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case LD_HL_xNN : LOAD_rr_nn(r_HL);
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AddCycles( 4+3+3+3+3 );
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break;
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case DEC_HL : r_HL--;
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AddCycles( 4+2 );
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break;
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case INC_L : INC(r_L);
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AddCycles( 4 );
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break;
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case DEC_L : DEC(r_L);
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AddCycles( 4 );
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break;
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case LD_L_N : LD_r_n(r_L);
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AddCycles( 4+3 );
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break;
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case LD_SP_NN : LD_rr_nn(r_SP);
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AddCycles( 10 );
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break;
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case LD_xNN_A : STORE_nn_r(r_A);
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AddCycles( 13 );
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break;
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case INC_SP : r_SP++;
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AddCycles( 6 );
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break;
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case LD_xHL_N : r_meml = Z80ReadMem(r_PC); r_PC++;
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STORE_r( r_HL, r_meml );
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AddCycles( 10 );
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break;
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case LD_A_xNN : LOAD_r_nn( r_A );
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AddCycles( 13 );
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break;
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case DEC_SP : r_SP--;
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AddCycles( 6 );
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break;
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case INC_A : INC(r_A);
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AddCycles( 4 );
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break;
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case DEC_A : DEC(r_A);
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AddCycles( 4 );
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break;
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case LD_A_N : LD_r_n(r_A);
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AddCycles( 4+3 );
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break;
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case LD_B_B : LD_r_r( r_B, r_B );
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AddCycles( 4 );
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break;
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case LD_B_C : LD_r_r( r_B, r_C );
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AddCycles( 4 );
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break;
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case LD_B_D : LD_r_r( r_B, r_D );
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AddCycles( 4 );
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break;
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case LD_B_E : LD_r_r( r_B, r_E );
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AddCycles( 4 );
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break;
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case LD_B_H : LD_r_r( r_B, r_H );
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AddCycles( 4 );
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break;
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case LD_B_L : LD_r_r( r_B, r_L );
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AddCycles( 4 );
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break;
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case LD_B_xHL : LOAD_r(r_B, r_HL);
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AddCycles( 4+3 );
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break;
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case LD_B_A : LD_r_r( r_B, r_A );
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AddCycles( 4 );
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break;
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case LD_C_B : LD_r_r( r_C, r_B );
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AddCycles( 4 );
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break;
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case LD_C_C : LD_r_r( r_C, r_C );
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AddCycles( 4 );
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break;
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case LD_C_D : LD_r_r( r_C, r_D );
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AddCycles( 4 );
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break;
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case LD_C_E : LD_r_r( r_C, r_E );
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AddCycles( 4 );
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break;
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case LD_C_H : LD_r_r( r_C, r_H );
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AddCycles( 4 );
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break;
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case LD_C_L : LD_r_r( r_C, r_L );
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AddCycles( 4 );
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break;
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case LD_C_xHL : LOAD_r(r_C, r_HL);
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AddCycles( 4+3 );
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break;
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case LD_C_A : LD_r_r( r_C, r_A );
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AddCycles( 4 );
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break;
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case LD_D_B : LD_r_r( r_D, r_B );
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AddCycles( 4 );
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break;
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case LD_D_C : LD_r_r( r_D, r_C );
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AddCycles( 4 );
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break;
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case LD_D_D : LD_r_r( r_D, r_D );
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AddCycles( 4 );
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break;
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case LD_D_E : LD_r_r( r_D, r_E );
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AddCycles( 4 );
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break;
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case LD_D_H : LD_r_r( r_D, r_H );
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AddCycles( 4 );
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break;
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case LD_D_L : LD_r_r( r_D, r_L );
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AddCycles( 4 );
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break;
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case LD_D_xHL : LOAD_r(r_D, r_HL);
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AddCycles( 4+3 );
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break;
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case LD_D_A : LD_r_r( r_D, r_A );
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AddCycles( 4 );
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break;
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case LD_E_B : LD_r_r( r_E, r_B );
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AddCycles( 4 );
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break;
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case LD_E_C : LD_r_r( r_E, r_C );
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AddCycles( 4 );
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break;
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case LD_E_D : LD_r_r( r_E, r_D );
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AddCycles( 4 );
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break;
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case LD_E_E : LD_r_r( r_E, r_E );
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AddCycles( 4 );
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break;
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case LD_E_H : LD_r_r( r_E, r_H );
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AddCycles( 4 );
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break;
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case LD_E_L : LD_r_r( r_E, r_L );
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AddCycles( 4 );
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break;
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case LD_E_xHL : LOAD_r(r_E, r_HL);
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AddCycles( 4+3 );
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break;
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case LD_E_A : LD_r_r( r_E, r_A );
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AddCycles( 4 );
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break;
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case LD_H_B : LD_r_r( r_H, r_B );
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AddCycles( 4 );
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break;
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case LD_H_C : LD_r_r( r_H, r_C );
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AddCycles( 4 );
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break;
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case LD_H_D : LD_r_r( r_H, r_D );
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AddCycles( 4 );
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break;
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case LD_H_E : LD_r_r( r_H, r_E );
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AddCycles( 4 );
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break;
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case LD_H_H : LD_r_r( r_H, r_H );
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AddCycles( 4 );
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break;
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case LD_H_L : LD_r_r( r_H, r_L );
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AddCycles( 4 );
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break;
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case LD_H_xHL : LOAD_r(r_H, r_HL);
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AddCycles( 4+3 );
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break;
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case LD_H_A : LD_r_r( r_H, r_A );
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AddCycles( 4 );
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break;
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case LD_L_B : LD_r_r( r_L, r_B );
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AddCycles( 4 );
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break;
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case LD_L_C : LD_r_r( r_L, r_C );
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AddCycles( 4 );
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break;
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case LD_L_D : LD_r_r( r_L, r_D );
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AddCycles( 4 );
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break;
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case LD_L_E : LD_r_r( r_L, r_E );
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AddCycles( 4 );
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break;
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case LD_L_H : LD_r_r( r_L, r_H );
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AddCycles( 4 );
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break;
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case LD_L_L : LD_r_r( r_L, r_L );
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AddCycles( 4 );
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break;
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case LD_L_xHL : LOAD_r(r_L, r_HL);
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AddCycles( 7 );
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break;
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case LD_L_A : LD_r_r( r_L, r_A );
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AddCycles( 4 );
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break;
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case LD_xHL_B : STORE_r( r_HL, r_B );
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AddCycles( 4+3 );
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break;
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case LD_xHL_C : STORE_r( r_HL, r_C );
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AddCycles( 4+3 );
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break;
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case LD_xHL_D : STORE_r( r_HL, r_D );
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AddCycles( 4+3 );
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break;
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case LD_xHL_E : STORE_r( r_HL, r_E );
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AddCycles( 4+3 );
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break;
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case LD_xHL_H : STORE_r( r_HL, r_H );
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AddCycles( 4+3 );
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break;
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case LD_xHL_L : STORE_r( r_HL, r_L );
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AddCycles( 4+3 );
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break;
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case LD_xHL_A : STORE_r(r_HL, r_A );
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AddCycles( 4+3 );
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break;
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case LD_A_B : LD_r_r( r_A, r_B );
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AddCycles( 4 );
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break;
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case LD_A_C : LD_r_r( r_A, r_C );
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AddCycles( 4 );
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break;
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case LD_A_D : LD_r_r( r_A, r_D );
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AddCycles( 4 );
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break;
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case LD_A_E : LD_r_r( r_A, r_E );
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AddCycles( 4 );
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break;
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case LD_A_H : LD_r_r( r_A, r_H );
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AddCycles( 4 );
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break;
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case LD_A_L : LD_r_r( r_A, r_L );
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AddCycles( 4 );
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break;
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case LD_A_xHL : LOAD_r( r_A, r_HL);
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AddCycles( 4+3 );
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break;
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case LD_A_A : LD_r_r( r_A, r_A );
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AddCycles( 4 );
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break;
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case LD_SP_HL : LD_r_r( r_SP, r_HL );
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AddCycles( 6 ); break;
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case ADD_B : ADD(r_B); AddCycles( 4 ); break;
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case ADD_C : ADD(r_C); AddCycles( 4 ); break;
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case ADD_D : ADD(r_D); AddCycles( 4 ); break;
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case ADD_E : ADD(r_E); AddCycles( 4 ); break;
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case ADD_H : ADD(r_H); AddCycles( 4 ); break;
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case ADD_L : ADD(r_L); AddCycles( 4 ); break;
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case ADD_xHL : r_meml = Z80ReadMem(r_HL);
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ADD(r_meml);
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AddCycles( 4+3 );
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break;
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case ADD_A : ADD(r_A); AddCycles( 4 ); break;
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case ADC_B : ADC(r_B); AddCycles( 4 ); break;
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case ADC_C : ADC(r_C); AddCycles( 4 ); break;
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case ADC_D : ADC(r_D); AddCycles( 4 ); break;
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case ADC_E : ADC(r_E); AddCycles( 4 ); break;
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case ADC_H : ADC(r_H); AddCycles( 4 ); break;
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case ADC_L : ADC(r_L); AddCycles( 4 ); break;
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case ADC_xHL : r_meml = Z80ReadMem(r_HL);
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ADC(r_meml);
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AddCycles( 4+3 );
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break;
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case ADC_A : ADC(r_A); AddCycles( 4 ); break;
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case ADC_N : r_meml = Z80ReadMem(r_PC); r_PC++;
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ADC(r_meml);
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AddCycles( 4+3 );
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break;
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case SUB_A : SUB(r_A); AddCycles( 4 ); break;
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case SUB_B : SUB(r_B); AddCycles( 4 ); break;
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case SUB_C : SUB(r_C); AddCycles( 4 ); break;
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case SUB_D : SUB(r_D); AddCycles( 4 ); break;
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case SUB_E : SUB(r_E); AddCycles( 4 ); break;
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case SUB_H : SUB(r_H); AddCycles( 4 ); break;
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case SUB_L : SUB(r_L); AddCycles( 4 ); break;
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case SUB_xHL : r_meml = Z80ReadMem(r_HL);
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SUB(r_meml);
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AddCycles( 4+3 );
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break;
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case SUB_N : r_meml = Z80ReadMem(r_PC); r_PC++;
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SUB(r_meml);
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AddCycles( 4+3 );
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break;
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case SBC_A : SBC(r_A); AddCycles( 4 ); break;
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case SBC_B : SBC(r_B); AddCycles( 4 ); break;
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case SBC_C : SBC(r_C); AddCycles( 4 ); break;
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case SBC_D : SBC(r_D); AddCycles( 4 ); break;
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case SBC_E : SBC(r_E); AddCycles( 4 ); break;
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case SBC_H : SBC(r_H); AddCycles( 4 ); break;
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case SBC_L : SBC(r_L); AddCycles( 4 ); break;
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case SBC_xHL : r_meml = Z80ReadMem(r_HL);
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SBC(r_meml);
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AddCycles( 4+3 );
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break;
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case SBC_N : r_meml = Z80ReadMem(r_PC); r_PC++;
|
|
SBC(r_meml);
|
|
AddCycles( 4 );
|
|
break;
|
|
|
|
case AND_B : AND( r_B ); AddCycles( 4 ); break;
|
|
case AND_C : AND( r_C ); AddCycles( 4 ); break;
|
|
case AND_D : AND( r_D ); AddCycles( 4 ); break;
|
|
case AND_E : AND( r_E ); AddCycles( 4 ); break;
|
|
case AND_H : AND( r_H ); AddCycles( 4 ); break;
|
|
case AND_L : AND( r_L ); AddCycles( 4 ); break;
|
|
case AND_xHL : AND_mem( r_HL ); AddCycles( 4+3 ); break;
|
|
case AND_A : AND( r_A ); AddCycles( 4 ); break;
|
|
case XOR_B : XOR( r_B ); AddCycles( 4 ); break;
|
|
case XOR_C : XOR( r_C ); AddCycles( 4 ); break;
|
|
case XOR_D : XOR( r_D ); AddCycles( 4 ); break;
|
|
case XOR_E : XOR( r_E ); AddCycles( 4 ); break;
|
|
case XOR_H : XOR( r_H ); AddCycles( 4 ); break;
|
|
case XOR_L : XOR( r_L ); AddCycles( 4 ); break;
|
|
case XOR_xHL : XOR_mem( r_HL ); AddCycles( 4+3 ); break;
|
|
case XOR_A : XOR( r_A ); AddCycles( 4 ); break;
|
|
case OR_B : OR( r_B ); AddCycles( 4 ); break;
|
|
case OR_C : OR( r_C ); AddCycles( 4 ); break;
|
|
case OR_D : OR( r_D ); AddCycles( 4 ); break;
|
|
case OR_E : OR( r_E ); AddCycles( 4 ); break;
|
|
case OR_H : OR( r_H ); AddCycles( 4 ); break;
|
|
case OR_L : OR( r_L ); AddCycles( 4 ); break;
|
|
case OR_xHL : OR_mem( r_HL ); AddCycles( 4+3 ); break;
|
|
case OR_A : OR( r_A ); AddCycles( 4 ); break;
|
|
case CP_A : CP(r_A); AddCycles( 4 ); break;
|
|
case CP_B : CP(r_B); AddCycles( 4 ); break;
|
|
case CP_C : CP(r_C); AddCycles( 4 ); break;
|
|
case CP_D : CP(r_D); AddCycles( 4 ); break;
|
|
case CP_E : CP(r_E); AddCycles( 4 ); break;
|
|
case CP_H : CP(r_H); AddCycles( 4 ); break;
|
|
case CP_L : CP(r_L); AddCycles( 4 ); break;
|
|
case CP_xHL : r_meml = Z80ReadMem( r_HL );
|
|
CP(r_meml); AddCycles( 4+3 ); break;
|
|
case CP_N : r_meml = Z80ReadMem(r_PC); r_PC++;
|
|
CP(r_meml);
|
|
AddCycles( 4+3);
|
|
break;
|
|
|
|
case RET_Z : if( TEST_FLAG(Z_FLAG) )
|
|
{ RET_nn(); AddCycles( 4+1+3+3 ); }
|
|
else { AddCycles( 4+1 ); }
|
|
break;
|
|
|
|
case RET_C : if( TEST_FLAG(C_FLAG) )
|
|
{ RET_nn(); AddCycles( 4+1+3+3 ); }
|
|
else { AddCycles( 4+1 ); }
|
|
break;
|
|
|
|
case RET_M : if( TEST_FLAG(S_FLAG) )
|
|
{ RET_nn(); AddCycles( 4+1+3+3 ); }
|
|
else { AddCycles( 4+1 ); }
|
|
break;
|
|
|
|
case RET_PE : if( TEST_FLAG(P_FLAG) )
|
|
{ RET_nn(); AddCycles( 4+1+3+3 ); }
|
|
else { AddCycles( 4+1 ); }
|
|
break;
|
|
|
|
case RET_PO : if( TEST_FLAG(P_FLAG) )
|
|
{ AddCycles( 4+1 ); }
|
|
else { RET_nn(); AddCycles( 4+1+3+3 ); }
|
|
break;
|
|
|
|
case RET_P : if( TEST_FLAG(S_FLAG) )
|
|
{ AddCycles( 4+1 ); }
|
|
else { RET_nn(); AddCycles( 4+1+3+3 ); }
|
|
break;
|
|
|
|
case RET : RET_nn();
|
|
AddCycles( 4+3+3 );
|
|
break;
|
|
|
|
case RET_NZ : if( TEST_FLAG(Z_FLAG) )
|
|
{ AddCycles( 4+1 ); }
|
|
else { RET_nn(); AddCycles( 4+1+3+3 ); }
|
|
break;
|
|
|
|
case RET_NC : if( TEST_FLAG(C_FLAG) )
|
|
{ AddCycles( 4+1 ); }
|
|
else { RET_nn(); AddCycles( 4+1+3+3 ); }
|
|
break;
|
|
|
|
case ADD_N : r_meml = Z80ReadMem(r_PC); r_PC++;
|
|
ADD(r_meml);
|
|
AddCycles( 4+3 );
|
|
break;
|
|
|
|
case JR : JR_n();
|
|
AddCycles( 4+3+3+2 );
|
|
break;
|
|
|
|
case JR_NZ : if( TEST_FLAG(Z_FLAG) )
|
|
{ r_PC++; AddCycles( 4+3 ); }
|
|
else
|
|
{ JR_n(); AddCycles( 4+8 ); }
|
|
break;
|
|
|
|
case JR_Z : if( TEST_FLAG(Z_FLAG) )
|
|
{ JR_n(); AddCycles( 4+8 ); }
|
|
else
|
|
{ r_PC++; AddCycles( 4+3 ); }
|
|
break;
|
|
|
|
case JR_NC : if( TEST_FLAG(C_FLAG) )
|
|
{ r_PC++; AddCycles( 4+3 ); }
|
|
else
|
|
{ JR_n(); AddCycles( 4+8 ); }
|
|
break;
|
|
|
|
case JR_C : if( TEST_FLAG(C_FLAG) )
|
|
{ JR_n(); AddCycles( 4+8 ); }
|
|
else
|
|
{ r_PC++; AddCycles( 4+3 ); }
|
|
break;
|
|
|
|
case JP_NZ : if( TEST_FLAG(Z_FLAG) ) { r_PC += 2; }
|
|
else { JP_nn(); }
|
|
AddCycles( 4+3+3 );
|
|
break;
|
|
|
|
case JP : JP_nn();
|
|
AddCycles( 4+3+3 );
|
|
break;
|
|
|
|
case JP_Z : if( TEST_FLAG(Z_FLAG) ) { JP_nn(); }
|
|
else { r_PC += 2; }
|
|
AddCycles( 4+3+3 );
|
|
break;
|
|
|
|
case JP_NC : if( TEST_FLAG(C_FLAG) ) { r_PC += 2; }
|
|
else { JP_nn(); }
|
|
AddCycles( 4+3+3 );
|
|
break;
|
|
|
|
case JP_C : if( TEST_FLAG(C_FLAG) ) { JP_nn(); }
|
|
else { r_PC += 2; }
|
|
AddCycles( 4+3+3 );
|
|
break;
|
|
|
|
case JP_PO : if( TEST_FLAG(P_FLAG) ) { r_PC += 2; }
|
|
else { JP_nn(); }
|
|
AddCycles( 4+3+3 );
|
|
break;
|
|
|
|
case JP_PE : if( TEST_FLAG(P_FLAG) ) { JP_nn(); }
|
|
else { r_PC += 2; }
|
|
AddCycles( 4+3+3 );
|
|
break;
|
|
|
|
case JP_P : if( TEST_FLAG(S_FLAG) ) { r_PC += 2; }
|
|
else { JP_nn(); }
|
|
AddCycles( 4+3+3 );
|
|
break;
|
|
|
|
|
|
case JP_M : if( TEST_FLAG(S_FLAG) ) { JP_nn(); }
|
|
else { r_PC += 2; }
|
|
AddCycles( 4+3+3 );
|
|
break;
|
|
|
|
case JP_xHL : r_PC = r_HL; AddCycles( 4 ); break;
|
|
|
|
case CPL : r_A ^= 0xFF;
|
|
r_F = ( r_F & (FLAG_C|FLAG_P|FLAG_Z|FLAG_S)) |
|
|
( r_A & (FLAG_3|FLAG_5))|(FLAG_N|FLAG_H);
|
|
AddCycles( 4 ); break;
|
|
|
|
case INC_xHL : r_meml = Z80ReadMem( r_HL );
|
|
INC(r_meml);
|
|
Z80WriteMem( r_HL, r_meml, regs );
|
|
AddCycles( 4+3+3+1 ); break;
|
|
|
|
case DEC_xHL : r_meml = Z80ReadMem( r_HL );
|
|
DEC(r_meml);
|
|
Z80WriteMem( r_HL, r_meml, regs );
|
|
AddCycles( 4+3+3+1 ); break;
|
|
|
|
case SCF : r_F = r_F | FLAG_C;
|
|
r_F &= FLAG_Z | FLAG_S | FLAG_P;
|
|
if(r_F & FLAG_H) r_F ^= FLAG_H;
|
|
r_F |= FLAG_C;
|
|
AddCycles( 4 ); break;
|
|
|
|
case CCF : r_F = (r_F & (FLAG_P|FLAG_Z|FLAG_S) ) |
|
|
((r_F & FLAG_C) ? FLAG_H : FLAG_C) |
|
|
( r_A & (FLAG_3 | FLAG_5) );
|
|
AddCycles( 4 ); break;
|
|
|
|
case HALT : regs->halted = 1;
|
|
AddCycles(4);
|
|
break;
|
|
|
|
case POP_BC : POP(BC); AddCycles( 10 ); break;
|
|
case PUSH_BC : PUSH(BC); AddCycles( 11 ); break;
|
|
case POP_HL : POP(HL); AddCycles( 10 ); break;
|
|
case PUSH_HL : PUSH(HL); AddCycles( 11 ); break;
|
|
case POP_AF : POP(AF); AddCycles( 10 ); break;
|
|
case PUSH_AF : PUSH(AF); AddCycles( 11 ); break;
|
|
case POP_DE : POP(DE); AddCycles( 10 ); break;
|
|
case PUSH_DE : PUSH(DE); AddCycles( 11 ); break;
|
|
|
|
case RLCA : r_A = (r_A << 1) | (r_A >> 7);
|
|
r_F = ( r_F & (FLAG_P|FLAG_Z|FLAG_S)) |
|
|
( r_A & (FLAG_C|FLAG_3|FLAG_5) );
|
|
AddCycles( 4 ); break;
|
|
|
|
case RRCA : r_F = ( r_F & (FLAG_P|FLAG_Z|FLAG_S)) |
|
|
( r_A & FLAG_C );
|
|
r_A = ( r_A >> 1) | ( r_A << 7 );
|
|
r_F |= ( r_A & ( FLAG_3 | FLAG_5 ) );
|
|
AddCycles( 4 ); break;
|
|
|
|
case DJNZ : r_B--;
|
|
if( r_B ) { JR_n(); AddCycles(13); }
|
|
else { r_PC++ ; AddCycles(8); }
|
|
break;
|
|
|
|
case RLA : r_meml = r_A;
|
|
r_A = ( r_A << 1 ) | ( r_F & FLAG_C );
|
|
r_F = ( r_F & ( FLAG_P | FLAG_Z | FLAG_S ) ) |
|
|
(r_A & ( FLAG_3 | FLAG_5 ) ) | ( r_meml >> 7);
|
|
AddCycles( 4 ); break;
|
|
|
|
case RRA : r_meml = r_A;
|
|
r_A = ( r_A >> 1 ) | ( r_F << 7 );
|
|
r_F = ( r_F & ( FLAG_P | FLAG_Z | FLAG_S ) ) |
|
|
( r_A & ( FLAG_3 | FLAG_5 ) ) | ( r_meml & FLAG_C );
|
|
AddCycles( 4 ); break;
|
|
|
|
case DAA : r_meml = 0;
|
|
r_memh = ( r_F & FLAG_C );
|
|
if( ( r_F & FLAG_H ) || ( (r_A & 0x0f)>9 ) ) r_meml=6;
|
|
if( r_memh || (r_A > 0x9f ) ) r_meml |= 0x60;
|
|
if( r_A > 0x99 ) r_memh=1;
|
|
if ( r_F & FLAG_N ) { SUB(r_meml); }
|
|
else
|
|
{
|
|
if( (r_A>0x90) && ( (r_A & 0x0f)>9) ) r_meml|=0x60;
|
|
ADD(r_meml);
|
|
}
|
|
r_F = ( r_F & ~( FLAG_C | FLAG_P) ) | r_memh |
|
|
parity_table[r_A];
|
|
AddCycles( 4 ); break;
|
|
|
|
case OUT_N_A : Z80OutPort( regs, Z80ReadMem( r_PC ), r_A ); r_PC++;
|
|
AddCycles( 11 ); break;
|
|
|
|
case IN_A_N : r_A = Z80InPort( Z80ReadMem( r_PC ) + (r_A << 8));
|
|
r_PC++; AddCycles( 11 ); break;
|
|
|
|
case EX_HL_xSP : r_meml = Z80ReadMem(r_SP);
|
|
r_memh = Z80ReadMem(r_SP+1);
|
|
Z80WriteMem(r_SP, r_L, regs);
|
|
Z80WriteMem(r_SP+1, r_H, regs);
|
|
r_L = r_meml;
|
|
r_H = r_memh;
|
|
AddCycles( 19 ); break;
|
|
|
|
case EXX : EX_WORD(r_BC, r_BCs); EX_WORD(r_DE, r_DEs);
|
|
EX_WORD(r_HL, r_HLs);
|
|
AddCycles( 4 ); break;
|
|
|
|
case EX_DE_HL : EX_WORD( r_DE, r_HL );
|
|
AddCycles( 4 );
|
|
break;
|
|
|
|
case AND_N : AND_mem( r_PC );
|
|
r_PC++;
|
|
AddCycles( 4+3 );
|
|
break;
|
|
|
|
case XOR_N : XOR_mem( r_PC );
|
|
r_PC++;
|
|
AddCycles( 4+3 );
|
|
break;
|
|
|
|
case OR_N : OR_mem( r_PC );
|
|
r_PC++;
|
|
AddCycles( 4+3 );
|
|
break;
|
|
|
|
case DI : r_IFF1 = r_IFF2 = 0;
|
|
AddCycles( 4 );
|
|
break;
|
|
|
|
case CALL :
|
|
CALL_nn();
|
|
AddCycles( 4+3+3+3+3+1 );
|
|
break;
|
|
|
|
case CALL_NZ : if( TEST_FLAG(Z_FLAG) )
|
|
{ r_PC += 2; AddCycles( 4+3+3 ); }
|
|
else
|
|
{
|
|
CALL_nn();
|
|
AddCycles( 4+3+3+3+3+1 );
|
|
}
|
|
break;
|
|
|
|
case CALL_NC : if( TEST_FLAG(C_FLAG) )
|
|
{ r_PC += 2; AddCycles( 4+3+3 ); }
|
|
else
|
|
{ CALL_nn();
|
|
AddCycles( 4+3+3+3+3+1 );
|
|
}
|
|
break;
|
|
|
|
case CALL_PO : if( TEST_FLAG(P_FLAG) )
|
|
{ r_PC += 2; AddCycles( 4+3+3 ); }
|
|
else
|
|
{ CALL_nn();
|
|
AddCycles( 4+3+3+ 3+3+1 );
|
|
}
|
|
break;
|
|
|
|
case CALL_P : if( TEST_FLAG(S_FLAG) )
|
|
{ r_PC += 2; AddCycles( 4+3+3 ); }
|
|
else
|
|
{ CALL_nn();
|
|
AddCycles( 4+3+3+3+3+1 );
|
|
}
|
|
break;
|
|
|
|
|
|
case CALL_Z : if( TEST_FLAG(Z_FLAG) )
|
|
{ CALL_nn();
|
|
AddCycles( 4+3+3+3+3+1 );
|
|
}
|
|
else
|
|
{ r_PC += 2; AddCycles( 4+3+3 ); }
|
|
break;
|
|
|
|
case CALL_C : if( TEST_FLAG(C_FLAG) )
|
|
{ CALL_nn();
|
|
AddCycles( 4+3+3+ 3+3+4 );
|
|
}
|
|
else
|
|
{ r_PC += 2; AddCycles( 4+3+3 ); }
|
|
break;
|
|
|
|
case CALL_PE : if( TEST_FLAG(P_FLAG) )
|
|
{ CALL_nn();
|
|
AddCycles( 4+3+3+3+3+1 );
|
|
}
|
|
else
|
|
{ r_PC += 2; AddCycles( 4+3+3 ); }
|
|
break;
|
|
|
|
case CALL_M : if( TEST_FLAG(S_FLAG) )
|
|
{ CALL_nn();
|
|
AddCycles( 4+3+3+3+3+1 );
|
|
}
|
|
else
|
|
{ r_PC += 2; AddCycles( 4+3+3 ); }
|
|
break;
|
|
|
|
case EI : r_IFF1 = r_IFF2 = 1;
|
|
/*
|
|
Why Marat Fayzullin does this? ->
|
|
|
|
regs->IFF2 |= 0x01;
|
|
if( regs->IRequest != INT_NOINT )
|
|
{
|
|
regs->IBackup = regs->ICount;
|
|
regs->ICount = 0x1;
|
|
r_IFF |= 0x20;
|
|
}*/
|
|
AddCycles( 4 );
|
|
break;
|
|
|
|
case RST_00 : RST(0x00); AddCycles( 11 ); break;
|
|
case RST_08 : RST(0x08); AddCycles( 11 ); break;
|
|
case RST_10 : RST(0x10); AddCycles( 11 ); break;
|
|
case RST_18 : RST(0x18); AddCycles( 11 ); break;
|
|
case RST_20 : RST(0x20); AddCycles( 11 ); break;
|
|
case RST_28 : RST(0x28); AddCycles( 11 ); break;
|
|
case RST_30 : RST(0x30); AddCycles( 11 ); break;
|
|
case RST_38 : RST(0x38); AddCycles( 11 ); break;
|
|
|
|
default:
|
|
// exit(1);
|
|
///!!! if( regs->DecodingErrors )
|
|
///!!! printf("z80 core: Unknown instruction: %02Xh at PC=%04Xh.\n",
|
|
///!!! Z80ReadMem(r_PC-1), r_PC-1 );
|
|
break;
|