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[/] [z80control/] [trunk/] [DE1/] [rtl/] [VHDL/] [t80/] [T80_MCode.vhd] - Rev 12
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-- **** -- T80(b) core. In an effort to merge and maintain bug fixes .... -- -- -- Ver 300 started tidyup -- MikeJ March 2005 -- Latest version from www.fpgaarcade.com (original www.opencores.org) -- -- **** -- -- Z80 compatible microprocessor core -- -- Version : 0242 -- -- Copyright (c) 2001-2002 Daniel Wallner (jesus@opencores.org) -- -- All rights reserved -- -- Redistribution and use in source and synthezised forms, with or without -- modification, are permitted provided that the following conditions are met: -- -- Redistributions of source code must retain the above copyright notice, -- this list of conditions and the following disclaimer. -- -- Redistributions in synthesized 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. -- -- Neither the name of the author nor the names of other contributors may -- be used to endorse or promote products derived from this software without -- specific prior written permission. -- -- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "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 OR CONTRIBUTORS 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. -- -- Please report bugs to the author, but before you do so, please -- make sure that this is not a derivative work and that -- you have the latest version of this file. -- -- The latest version of this file can be found at: -- http://www.opencores.org/cvsweb.shtml/t80/ -- -- Limitations : -- -- File history : -- -- 0208 : First complete release -- -- 0211 : Fixed IM 1 -- -- 0214 : Fixed mostly flags, only the block instructions now fail the zex regression test -- -- 0235 : Added IM 2 fix by Mike Johnson -- -- 0238 : Added NoRead signal -- -- 0238b: Fixed instruction timing for POP and DJNZ -- -- 0240 : Added (IX/IY+d) states, removed op-codes from mode 2 and added all remaining mode 3 op-codes -- 0240mj1 fix for HL inc/dec for INI, IND, INIR, INDR, OUTI, OUTD, OTIR, OTDR -- -- 0242 : Fixed I/O instruction timing, cleanup -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.numeric_std.all; use work.T80_Pack.all; entity T80_MCode is generic( Mode : integer := 0; Flag_C : integer := 0; Flag_N : integer := 1; Flag_P : integer := 2; Flag_X : integer := 3; Flag_H : integer := 4; Flag_Y : integer := 5; Flag_Z : integer := 6; Flag_S : integer := 7 ); port( IR : in std_logic_vector(7 downto 0); ISet : in std_logic_vector(1 downto 0); MCycle : in std_logic_vector(2 downto 0); F : in std_logic_vector(7 downto 0); NMICycle : in std_logic; IntCycle : in std_logic; MCycles : out std_logic_vector(2 downto 0); TStates : out std_logic_vector(2 downto 0); Prefix : out std_logic_vector(1 downto 0); -- None,BC,ED,DD/FD Inc_PC : out std_logic; Inc_WZ : out std_logic; IncDec_16 : out std_logic_vector(3 downto 0); -- BC,DE,HL,SP 0 is inc Read_To_Reg : out std_logic; Read_To_Acc : out std_logic; Set_BusA_To : out std_logic_vector(3 downto 0); -- B,C,D,E,H,L,DI/DB,A,SP(L),SP(M),0,F Set_BusB_To : out std_logic_vector(3 downto 0); -- B,C,D,E,H,L,DI,A,SP(L),SP(M),1,F,PC(L),PC(M),0 ALU_Op : out std_logic_vector(3 downto 0); -- ADD, ADC, SUB, SBC, AND, XOR, OR, CP, ROT, BIT, SET, RES, DAA, RLD, RRD, None Save_ALU : out std_logic; PreserveC : out std_logic; Arith16 : out std_logic; Set_Addr_To : out std_logic_vector(2 downto 0); -- aNone,aXY,aIOA,aSP,aBC,aDE,aZI IORQ : out std_logic; Jump : out std_logic; JumpE : out std_logic; JumpXY : out std_logic; Call : out std_logic; RstP : out std_logic; LDZ : out std_logic; LDW : out std_logic; LDSPHL : out std_logic; Special_LD : out std_logic_vector(2 downto 0); -- A,I;A,R;I,A;R,A;None ExchangeDH : out std_logic; ExchangeRp : out std_logic; ExchangeAF : out std_logic; ExchangeRS : out std_logic; I_DJNZ : out std_logic; I_CPL : out std_logic; I_CCF : out std_logic; I_SCF : out std_logic; I_RETN : out std_logic; I_BT : out std_logic; I_BC : out std_logic; I_BTR : out std_logic; I_RLD : out std_logic; I_RRD : out std_logic; I_INRC : out std_logic; SetDI : out std_logic; SetEI : out std_logic; IMode : out std_logic_vector(1 downto 0); Halt : out std_logic; NoRead : out std_logic; Write : out std_logic ); end T80_MCode; architecture rtl of T80_MCode is constant aNone : std_logic_vector(2 downto 0) := "111"; constant aBC : std_logic_vector(2 downto 0) := "000"; constant aDE : std_logic_vector(2 downto 0) := "001"; constant aXY : std_logic_vector(2 downto 0) := "010"; constant aIOA : std_logic_vector(2 downto 0) := "100"; constant aSP : std_logic_vector(2 downto 0) := "101"; constant aZI : std_logic_vector(2 downto 0) := "110"; function is_cc_true( F : std_logic_vector(7 downto 0); cc : bit_vector(2 downto 0) ) return boolean is begin if Mode = 3 then case cc is when "000" => return F(7) = '0'; -- NZ when "001" => return F(7) = '1'; -- Z when "010" => return F(4) = '0'; -- NC when "011" => return F(4) = '1'; -- C when "100" => return false; when "101" => return false; when "110" => return false; when "111" => return false; end case; else case cc is when "000" => return F(6) = '0'; -- NZ when "001" => return F(6) = '1'; -- Z when "010" => return F(0) = '0'; -- NC when "011" => return F(0) = '1'; -- C when "100" => return F(2) = '0'; -- PO when "101" => return F(2) = '1'; -- PE when "110" => return F(7) = '0'; -- P when "111" => return F(7) = '1'; -- M end case; end if; end; begin process (IR, ISet, MCycle, F, NMICycle, IntCycle) variable DDD : std_logic_vector(2 downto 0); variable SSS : std_logic_vector(2 downto 0); variable DPair : std_logic_vector(1 downto 0); variable IRB : bit_vector(7 downto 0); begin DDD := IR(5 downto 3); SSS := IR(2 downto 0); DPair := IR(5 downto 4); IRB := to_bitvector(IR); MCycles <= "001"; if MCycle = "001" then TStates <= "100"; else TStates <= "011"; end if; Prefix <= "00"; Inc_PC <= '0'; Inc_WZ <= '0'; IncDec_16 <= "0000"; Read_To_Acc <= '0'; Read_To_Reg <= '0'; Set_BusB_To <= "0000"; Set_BusA_To <= "0000"; ALU_Op <= "0" & IR(5 downto 3); Save_ALU <= '0'; PreserveC <= '0'; Arith16 <= '0'; IORQ <= '0'; Set_Addr_To <= aNone; Jump <= '0'; JumpE <= '0'; JumpXY <= '0'; Call <= '0'; RstP <= '0'; LDZ <= '0'; LDW <= '0'; LDSPHL <= '0'; Special_LD <= "000"; ExchangeDH <= '0'; ExchangeRp <= '0'; ExchangeAF <= '0'; ExchangeRS <= '0'; I_DJNZ <= '0'; I_CPL <= '0'; I_CCF <= '0'; I_SCF <= '0'; I_RETN <= '0'; I_BT <= '0'; I_BC <= '0'; I_BTR <= '0'; I_RLD <= '0'; I_RRD <= '0'; I_INRC <= '0'; SetDI <= '0'; SetEI <= '0'; IMode <= "11"; Halt <= '0'; NoRead <= '0'; Write <= '0'; case ISet is when "00" => ------------------------------------------------------------------------------ -- -- Unprefixed instructions -- ------------------------------------------------------------------------------ case IRB is -- 8 BIT LOAD GROUP when "01000000"|"01000001"|"01000010"|"01000011"|"01000100"|"01000101"|"01000111" |"01001000"|"01001001"|"01001010"|"01001011"|"01001100"|"01001101"|"01001111" |"01010000"|"01010001"|"01010010"|"01010011"|"01010100"|"01010101"|"01010111" |"01011000"|"01011001"|"01011010"|"01011011"|"01011100"|"01011101"|"01011111" |"01100000"|"01100001"|"01100010"|"01100011"|"01100100"|"01100101"|"01100111" |"01101000"|"01101001"|"01101010"|"01101011"|"01101100"|"01101101"|"01101111" |"01111000"|"01111001"|"01111010"|"01111011"|"01111100"|"01111101"|"01111111" => -- LD r,r' Set_BusB_To(2 downto 0) <= SSS; ExchangeRp <= '1'; Set_BusA_To(2 downto 0) <= DDD; Read_To_Reg <= '1'; when "00000110"|"00001110"|"00010110"|"00011110"|"00100110"|"00101110"|"00111110" => -- LD r,n MCycles <= "010"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; Set_BusA_To(2 downto 0) <= DDD; Read_To_Reg <= '1'; when others => null; end case; when "01000110"|"01001110"|"01010110"|"01011110"|"01100110"|"01101110"|"01111110" => -- LD r,(HL) MCycles <= "010"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_To <= aXY; when 2 => Set_BusA_To(2 downto 0) <= DDD; Read_To_Reg <= '1'; when others => null; end case; when "01110000"|"01110001"|"01110010"|"01110011"|"01110100"|"01110101"|"01110111" => -- LD (HL),r MCycles <= "010"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_To <= aXY; Set_BusB_To(2 downto 0) <= SSS; Set_BusB_To(3) <= '0'; when 2 => Write <= '1'; when others => null; end case; when "00110110" => -- LD (HL),n MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; Set_Addr_To <= aXY; Set_BusB_To(2 downto 0) <= SSS; Set_BusB_To(3) <= '0'; when 3 => Write <= '1'; when others => null; end case; when "00001010" => -- LD A,(BC) MCycles <= "010"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_To <= aBC; when 2 => Read_To_Acc <= '1'; when others => null; end case; when "00011010" => -- LD A,(DE) MCycles <= "010"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_To <= aDE; when 2 => Read_To_Acc <= '1'; when others => null; end case; when "00111010" => if Mode = 3 then -- LDD A,(HL) MCycles <= "010"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_To <= aXY; when 2 => Read_To_Acc <= '1'; IncDec_16 <= "1110"; when others => null; end case; else -- LD A,(nn) MCycles <= "100"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; LDZ <= '1'; when 3 => Set_Addr_To <= aZI; Inc_PC <= '1'; when 4 => Read_To_Acc <= '1'; when others => null; end case; end if; when "00000010" => -- LD (BC),A MCycles <= "010"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_To <= aBC; Set_BusB_To <= "0111"; when 2 => Write <= '1'; when others => null; end case; when "00010010" => -- LD (DE),A MCycles <= "010"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_To <= aDE; Set_BusB_To <= "0111"; when 2 => Write <= '1'; when others => null; end case; when "00110010" => if Mode = 3 then -- LDD (HL),A MCycles <= "010"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_To <= aXY; Set_BusB_To <= "0111"; when 2 => Write <= '1'; IncDec_16 <= "1110"; when others => null; end case; else -- LD (nn),A MCycles <= "100"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; LDZ <= '1'; when 3 => Set_Addr_To <= aZI; Inc_PC <= '1'; Set_BusB_To <= "0111"; when 4 => Write <= '1'; when others => null; end case; end if; -- 16 BIT LOAD GROUP when "00000001"|"00010001"|"00100001"|"00110001" => -- LD dd,nn MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; Read_To_Reg <= '1'; if DPAIR = "11" then Set_BusA_To(3 downto 0) <= "1000"; else Set_BusA_To(2 downto 1) <= DPAIR; Set_BusA_To(0) <= '1'; end if; when 3 => Inc_PC <= '1'; Read_To_Reg <= '1'; if DPAIR = "11" then Set_BusA_To(3 downto 0) <= "1001"; else Set_BusA_To(2 downto 1) <= DPAIR; Set_BusA_To(0) <= '0'; end if; when others => null; end case; when "00101010" => if Mode = 3 then -- LDI A,(HL) MCycles <= "010"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_To <= aXY; when 2 => Read_To_Acc <= '1'; IncDec_16 <= "0110"; when others => null; end case; else -- LD HL,(nn) MCycles <= "101"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; LDZ <= '1'; when 3 => Set_Addr_To <= aZI; Inc_PC <= '1'; LDW <= '1'; when 4 => Set_BusA_To(2 downto 0) <= "101"; -- L Read_To_Reg <= '1'; Inc_WZ <= '1'; Set_Addr_To <= aZI; when 5 => Set_BusA_To(2 downto 0) <= "100"; -- H Read_To_Reg <= '1'; when others => null; end case; end if; when "00100010" => if Mode = 3 then -- LDI (HL),A MCycles <= "010"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_To <= aXY; Set_BusB_To <= "0111"; when 2 => Write <= '1'; IncDec_16 <= "0110"; when others => null; end case; else -- LD (nn),HL MCycles <= "101"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; LDZ <= '1'; when 3 => Set_Addr_To <= aZI; Inc_PC <= '1'; LDW <= '1'; Set_BusB_To <= "0101"; -- L when 4 => Inc_WZ <= '1'; Set_Addr_To <= aZI; Write <= '1'; Set_BusB_To <= "0100"; -- H when 5 => Write <= '1'; when others => null; end case; end if; when "11111001" => -- LD SP,HL TStates <= "110"; LDSPHL <= '1'; when "11000101"|"11010101"|"11100101"|"11110101" => -- PUSH qq MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 1 => TStates <= "101"; IncDec_16 <= "1111"; Set_Addr_TO <= aSP; if DPAIR = "11" then Set_BusB_To <= "0111"; else Set_BusB_To(2 downto 1) <= DPAIR; Set_BusB_To(0) <= '0'; Set_BusB_To(3) <= '0'; end if; when 2 => IncDec_16 <= "1111"; Set_Addr_To <= aSP; if DPAIR = "11" then Set_BusB_To <= "1011"; else Set_BusB_To(2 downto 1) <= DPAIR; Set_BusB_To(0) <= '1'; Set_BusB_To(3) <= '0'; end if; Write <= '1'; when 3 => Write <= '1'; when others => null; end case; when "11000001"|"11010001"|"11100001"|"11110001" => -- POP qq MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_To <= aSP; when 2 => IncDec_16 <= "0111"; Set_Addr_To <= aSP; Read_To_Reg <= '1'; if DPAIR = "11" then Set_BusA_To(3 downto 0) <= "1011"; else Set_BusA_To(2 downto 1) <= DPAIR; Set_BusA_To(0) <= '1'; end if; when 3 => IncDec_16 <= "0111"; Read_To_Reg <= '1'; if DPAIR = "11" then Set_BusA_To(3 downto 0) <= "0111"; else Set_BusA_To(2 downto 1) <= DPAIR; Set_BusA_To(0) <= '0'; end if; when others => null; end case; -- EXCHANGE, BLOCK TRANSFER AND SEARCH GROUP when "11101011" => if Mode /= 3 then -- EX DE,HL ExchangeDH <= '1'; end if; when "00001000" => if Mode = 3 then -- LD (nn),SP MCycles <= "101"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; LDZ <= '1'; when 3 => Set_Addr_To <= aZI; Inc_PC <= '1'; LDW <= '1'; Set_BusB_To <= "1000"; when 4 => Inc_WZ <= '1'; Set_Addr_To <= aZI; Write <= '1'; Set_BusB_To <= "1001"; when 5 => Write <= '1'; when others => null; end case; elsif Mode < 2 then -- EX AF,AF' ExchangeAF <= '1'; end if; when "11011001" => if Mode = 3 then -- RETI MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_TO <= aSP; when 2 => IncDec_16 <= "0111"; Set_Addr_To <= aSP; LDZ <= '1'; when 3 => Jump <= '1'; IncDec_16 <= "0111"; I_RETN <= '1'; SetEI <= '1'; when others => null; end case; elsif Mode < 2 then -- EXX ExchangeRS <= '1'; end if; when "11100011" => if Mode /= 3 then -- EX (SP),HL MCycles <= "101"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_To <= aSP; when 2 => Read_To_Reg <= '1'; Set_BusA_To <= "0101"; Set_BusB_To <= "0101"; Set_Addr_To <= aSP; when 3 => IncDec_16 <= "0111"; Set_Addr_To <= aSP; TStates <= "100"; Write <= '1'; when 4 => Read_To_Reg <= '1'; Set_BusA_To <= "0100"; Set_BusB_To <= "0100"; Set_Addr_To <= aSP; when 5 => IncDec_16 <= "1111"; TStates <= "101"; Write <= '1'; when others => null; end case; end if; -- 8 BIT ARITHMETIC AND LOGICAL GROUP when "10000000"|"10000001"|"10000010"|"10000011"|"10000100"|"10000101"|"10000111" |"10001000"|"10001001"|"10001010"|"10001011"|"10001100"|"10001101"|"10001111" |"10010000"|"10010001"|"10010010"|"10010011"|"10010100"|"10010101"|"10010111" |"10011000"|"10011001"|"10011010"|"10011011"|"10011100"|"10011101"|"10011111" |"10100000"|"10100001"|"10100010"|"10100011"|"10100100"|"10100101"|"10100111" |"10101000"|"10101001"|"10101010"|"10101011"|"10101100"|"10101101"|"10101111" |"10110000"|"10110001"|"10110010"|"10110011"|"10110100"|"10110101"|"10110111" |"10111000"|"10111001"|"10111010"|"10111011"|"10111100"|"10111101"|"10111111" => -- ADD A,r -- ADC A,r -- SUB A,r -- SBC A,r -- AND A,r -- OR A,r -- XOR A,r -- CP A,r Set_BusB_To(2 downto 0) <= SSS; Set_BusA_To(2 downto 0) <= "111"; Read_To_Reg <= '1'; Save_ALU <= '1'; when "10000110"|"10001110"|"10010110"|"10011110"|"10100110"|"10101110"|"10110110"|"10111110" => -- ADD A,(HL) -- ADC A,(HL) -- SUB A,(HL) -- SBC A,(HL) -- AND A,(HL) -- OR A,(HL) -- XOR A,(HL) -- CP A,(HL) MCycles <= "010"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_To <= aXY; when 2 => Read_To_Reg <= '1'; Save_ALU <= '1'; Set_BusB_To(2 downto 0) <= SSS; Set_BusA_To(2 downto 0) <= "111"; when others => null; end case; when "11000110"|"11001110"|"11010110"|"11011110"|"11100110"|"11101110"|"11110110"|"11111110" => -- ADD A,n -- ADC A,n -- SUB A,n -- SBC A,n -- AND A,n -- OR A,n -- XOR A,n -- CP A,n MCycles <= "010"; if MCycle = "010" then Inc_PC <= '1'; Read_To_Reg <= '1'; Save_ALU <= '1'; Set_BusB_To(2 downto 0) <= SSS; Set_BusA_To(2 downto 0) <= "111"; end if; when "00000100"|"00001100"|"00010100"|"00011100"|"00100100"|"00101100"|"00111100" => -- INC r Set_BusB_To <= "1010"; Set_BusA_To(2 downto 0) <= DDD; Read_To_Reg <= '1'; Save_ALU <= '1'; PreserveC <= '1'; ALU_Op <= "0000"; when "00110100" => -- INC (HL) MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_To <= aXY; when 2 => TStates <= "100"; Set_Addr_To <= aXY; Read_To_Reg <= '1'; Save_ALU <= '1'; PreserveC <= '1'; ALU_Op <= "0000"; Set_BusB_To <= "1010"; Set_BusA_To(2 downto 0) <= DDD; when 3 => Write <= '1'; when others => null; end case; when "00000101"|"00001101"|"00010101"|"00011101"|"00100101"|"00101101"|"00111101" => -- DEC r Set_BusB_To <= "1010"; Set_BusA_To(2 downto 0) <= DDD; Read_To_Reg <= '1'; Save_ALU <= '1'; PreserveC <= '1'; ALU_Op <= "0010"; when "00110101" => -- DEC (HL) MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_To <= aXY; when 2 => TStates <= "100"; Set_Addr_To <= aXY; ALU_Op <= "0010"; Read_To_Reg <= '1'; Save_ALU <= '1'; PreserveC <= '1'; Set_BusB_To <= "1010"; Set_BusA_To(2 downto 0) <= DDD; when 3 => Write <= '1'; when others => null; end case; -- GENERAL PURPOSE ARITHMETIC AND CPU CONTROL GROUPS when "00100111" => -- DAA Set_BusA_To(2 downto 0) <= "111"; Read_To_Reg <= '1'; ALU_Op <= "1100"; Save_ALU <= '1'; when "00101111" => -- CPL I_CPL <= '1'; when "00111111" => -- CCF I_CCF <= '1'; when "00110111" => -- SCF I_SCF <= '1'; when "00000000" => if NMICycle = '1' then -- NMI MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 1 => TStates <= "101"; IncDec_16 <= "1111"; Set_Addr_To <= aSP; Set_BusB_To <= "1101"; when 2 => TStates <= "100"; Write <= '1'; IncDec_16 <= "1111"; Set_Addr_To <= aSP; Set_BusB_To <= "1100"; when 3 => TStates <= "100"; Write <= '1'; when others => null; end case; elsif IntCycle = '1' then -- INT (IM 2) MCycles <= "101"; case to_integer(unsigned(MCycle)) is when 1 => LDZ <= '1'; TStates <= "101"; IncDec_16 <= "1111"; Set_Addr_To <= aSP; Set_BusB_To <= "1101"; when 2 => TStates <= "100"; Write <= '1'; IncDec_16 <= "1111"; Set_Addr_To <= aSP; Set_BusB_To <= "1100"; when 3 => TStates <= "100"; Write <= '1'; when 4 => Inc_PC <= '1'; LDZ <= '1'; when 5 => Jump <= '1'; when others => null; end case; else -- NOP end if; when "01110110" => -- HALT Halt <= '1'; when "11110011" => -- DI SetDI <= '1'; when "11111011" => -- EI SetEI <= '1'; -- 16 BIT ARITHMETIC GROUP when "00001001"|"00011001"|"00101001"|"00111001" => -- ADD HL,ss MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 2 => NoRead <= '1'; ALU_Op <= "0000"; Read_To_Reg <= '1'; Save_ALU <= '1'; Set_BusA_To(2 downto 0) <= "101"; case to_integer(unsigned(IR(5 downto 4))) is when 0|1|2 => Set_BusB_To(2 downto 1) <= IR(5 downto 4); Set_BusB_To(0) <= '1'; when others => Set_BusB_To <= "1000"; end case; TStates <= "100"; Arith16 <= '1'; when 3 => NoRead <= '1'; Read_To_Reg <= '1'; Save_ALU <= '1'; ALU_Op <= "0001"; Set_BusA_To(2 downto 0) <= "100"; case to_integer(unsigned(IR(5 downto 4))) is when 0|1|2 => Set_BusB_To(2 downto 1) <= IR(5 downto 4); when others => Set_BusB_To <= "1001"; end case; Arith16 <= '1'; when others => end case; when "00000011"|"00010011"|"00100011"|"00110011" => -- INC ss TStates <= "110"; IncDec_16(3 downto 2) <= "01"; IncDec_16(1 downto 0) <= DPair; when "00001011"|"00011011"|"00101011"|"00111011" => -- DEC ss TStates <= "110"; IncDec_16(3 downto 2) <= "11"; IncDec_16(1 downto 0) <= DPair; -- ROTATE AND SHIFT GROUP when "00000111" -- RLCA |"00010111" -- RLA |"00001111" -- RRCA |"00011111" => -- RRA Set_BusA_To(2 downto 0) <= "111"; ALU_Op <= "1000"; Read_To_Reg <= '1'; Save_ALU <= '1'; -- JUMP GROUP when "11000011" => -- JP nn MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; LDZ <= '1'; when 3 => Inc_PC <= '1'; Jump <= '1'; when others => null; end case; when "11000010"|"11001010"|"11010010"|"11011010"|"11100010"|"11101010"|"11110010"|"11111010" => if IR(5) = '1' and Mode = 3 then case IRB(4 downto 3) is when "00" => -- LD ($FF00+C),A MCycles <= "010"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_To <= aBC; Set_BusB_To <= "0111"; when 2 => Write <= '1'; IORQ <= '1'; when others => end case; when "01" => -- LD (nn),A MCycles <= "100"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; LDZ <= '1'; when 3 => Set_Addr_To <= aZI; Inc_PC <= '1'; Set_BusB_To <= "0111"; when 4 => Write <= '1'; when others => null; end case; when "10" => -- LD A,($FF00+C) MCycles <= "010"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_To <= aBC; when 2 => Read_To_Acc <= '1'; IORQ <= '1'; when others => end case; when "11" => -- LD A,(nn) MCycles <= "100"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; LDZ <= '1'; when 3 => Set_Addr_To <= aZI; Inc_PC <= '1'; when 4 => Read_To_Acc <= '1'; when others => null; end case; end case; else -- JP cc,nn MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; LDZ <= '1'; when 3 => Inc_PC <= '1'; if is_cc_true(F, to_bitvector(IR(5 downto 3))) then Jump <= '1'; end if; when others => null; end case; end if; when "00011000" => if Mode /= 2 then -- JR e MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; when 3 => NoRead <= '1'; JumpE <= '1'; TStates <= "101"; when others => null; end case; end if; when "00111000" => if Mode /= 2 then -- JR C,e MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; if F(Flag_C) = '0' then MCycles <= "010"; end if; when 3 => NoRead <= '1'; JumpE <= '1'; TStates <= "101"; when others => null; end case; end if; when "00110000" => if Mode /= 2 then -- JR NC,e MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; if F(Flag_C) = '1' then MCycles <= "010"; end if; when 3 => NoRead <= '1'; JumpE <= '1'; TStates <= "101"; when others => null; end case; end if; when "00101000" => if Mode /= 2 then -- JR Z,e MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; if F(Flag_Z) = '0' then MCycles <= "010"; end if; when 3 => NoRead <= '1'; JumpE <= '1'; TStates <= "101"; when others => null; end case; end if; when "00100000" => if Mode /= 2 then -- JR NZ,e MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; if F(Flag_Z) = '1' then MCycles <= "010"; end if; when 3 => NoRead <= '1'; JumpE <= '1'; TStates <= "101"; when others => null; end case; end if; when "11101001" => -- JP (HL) JumpXY <= '1'; when "00010000" => if Mode = 3 then I_DJNZ <= '1'; elsif Mode < 2 then -- DJNZ,e MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 1 => TStates <= "101"; I_DJNZ <= '1'; Set_BusB_To <= "1010"; Set_BusA_To(2 downto 0) <= "000"; Read_To_Reg <= '1'; Save_ALU <= '1'; ALU_Op <= "0010"; when 2 => I_DJNZ <= '1'; Inc_PC <= '1'; when 3 => NoRead <= '1'; JumpE <= '1'; TStates <= "101"; when others => null; end case; end if; -- CALL AND RETURN GROUP when "11001101" => -- CALL nn MCycles <= "101"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; LDZ <= '1'; when 3 => IncDec_16 <= "1111"; Inc_PC <= '1'; TStates <= "100"; Set_Addr_To <= aSP; LDW <= '1'; Set_BusB_To <= "1101"; when 4 => Write <= '1'; IncDec_16 <= "1111"; Set_Addr_To <= aSP; Set_BusB_To <= "1100"; when 5 => Write <= '1'; Call <= '1'; when others => null; end case; when "11000100"|"11001100"|"11010100"|"11011100"|"11100100"|"11101100"|"11110100"|"11111100" => if IR(5) = '0' or Mode /= 3 then -- CALL cc,nn MCycles <= "101"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; LDZ <= '1'; when 3 => Inc_PC <= '1'; LDW <= '1'; if is_cc_true(F, to_bitvector(IR(5 downto 3))) then IncDec_16 <= "1111"; Set_Addr_TO <= aSP; TStates <= "100"; Set_BusB_To <= "1101"; else MCycles <= "011"; end if; when 4 => Write <= '1'; IncDec_16 <= "1111"; Set_Addr_To <= aSP; Set_BusB_To <= "1100"; when 5 => Write <= '1'; Call <= '1'; when others => null; end case; end if; when "11001001" => -- RET MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 1 => TStates <= "101"; Set_Addr_TO <= aSP; when 2 => IncDec_16 <= "0111"; Set_Addr_To <= aSP; LDZ <= '1'; when 3 => Jump <= '1'; IncDec_16 <= "0111"; when others => null; end case; when "11000000"|"11001000"|"11010000"|"11011000"|"11100000"|"11101000"|"11110000"|"11111000" => if IR(5) = '1' and Mode = 3 then case IRB(4 downto 3) is when "00" => -- LD ($FF00+nn),A MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; Set_Addr_To <= aIOA; Set_BusB_To <= "0111"; when 3 => Write <= '1'; when others => null; end case; when "01" => -- ADD SP,n MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 2 => ALU_Op <= "0000"; Inc_PC <= '1'; Read_To_Reg <= '1'; Save_ALU <= '1'; Set_BusA_To <= "1000"; Set_BusB_To <= "0110"; when 3 => NoRead <= '1'; Read_To_Reg <= '1'; Save_ALU <= '1'; ALU_Op <= "0001"; Set_BusA_To <= "1001"; Set_BusB_To <= "1110"; -- Incorrect unsigned !!!!!!!!!!!!!!!!!!!!! when others => end case; when "10" => -- LD A,($FF00+nn) MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; Set_Addr_To <= aIOA; when 3 => Read_To_Acc <= '1'; when others => null; end case; when "11" => -- LD HL,SP+n -- Not correct !!!!!!!!!!!!!!!!!!! MCycles <= "101"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; LDZ <= '1'; when 3 => Set_Addr_To <= aZI; Inc_PC <= '1'; LDW <= '1'; when 4 => Set_BusA_To(2 downto 0) <= "101"; -- L Read_To_Reg <= '1'; Inc_WZ <= '1'; Set_Addr_To <= aZI; when 5 => Set_BusA_To(2 downto 0) <= "100"; -- H Read_To_Reg <= '1'; when others => null; end case; end case; else -- RET cc MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 1 => if is_cc_true(F, to_bitvector(IR(5 downto 3))) then Set_Addr_TO <= aSP; else MCycles <= "001"; end if; TStates <= "101"; when 2 => IncDec_16 <= "0111"; Set_Addr_To <= aSP; LDZ <= '1'; when 3 => Jump <= '1'; IncDec_16 <= "0111"; when others => null; end case; end if; when "11000111"|"11001111"|"11010111"|"11011111"|"11100111"|"11101111"|"11110111"|"11111111" => -- RST p MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 1 => TStates <= "101"; IncDec_16 <= "1111"; Set_Addr_To <= aSP; Set_BusB_To <= "1101"; when 2 => Write <= '1'; IncDec_16 <= "1111"; Set_Addr_To <= aSP; Set_BusB_To <= "1100"; when 3 => Write <= '1'; RstP <= '1'; when others => null; end case; -- INPUT AND OUTPUT GROUP when "11011011" => if Mode /= 3 then -- IN A,(n) MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; Set_Addr_To <= aIOA; when 3 => Read_To_Acc <= '1'; IORQ <= '1'; when others => null; end case; end if; when "11010011" => if Mode /= 3 then -- OUT (n),A MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; Set_Addr_To <= aIOA; Set_BusB_To <= "0111"; when 3 => Write <= '1'; IORQ <= '1'; when others => null; end case; end if; ------------------------------------------------------------------------------ ------------------------------------------------------------------------------ -- MULTIBYTE INSTRUCTIONS ------------------------------------------------------------------------------ ------------------------------------------------------------------------------ when "11001011" => if Mode /= 2 then Prefix <= "01"; end if; when "11101101" => if Mode < 2 then Prefix <= "10"; end if; when "11011101"|"11111101" => if Mode < 2 then Prefix <= "11"; end if; end case; when "01" => ------------------------------------------------------------------------------ -- -- CB prefixed instructions -- ------------------------------------------------------------------------------ Set_BusA_To(2 downto 0) <= IR(2 downto 0); Set_BusB_To(2 downto 0) <= IR(2 downto 0); case IRB is when "00000000"|"00000001"|"00000010"|"00000011"|"00000100"|"00000101"|"00000111" |"00010000"|"00010001"|"00010010"|"00010011"|"00010100"|"00010101"|"00010111" |"00001000"|"00001001"|"00001010"|"00001011"|"00001100"|"00001101"|"00001111" |"00011000"|"00011001"|"00011010"|"00011011"|"00011100"|"00011101"|"00011111" |"00100000"|"00100001"|"00100010"|"00100011"|"00100100"|"00100101"|"00100111" |"00101000"|"00101001"|"00101010"|"00101011"|"00101100"|"00101101"|"00101111" |"00110000"|"00110001"|"00110010"|"00110011"|"00110100"|"00110101"|"00110111" |"00111000"|"00111001"|"00111010"|"00111011"|"00111100"|"00111101"|"00111111" => -- RLC r -- RL r -- RRC r -- RR r -- SLA r -- SRA r -- SRL r -- SLL r (Undocumented) / SWAP r if MCycle = "001" then ALU_Op <= "1000"; Read_To_Reg <= '1'; Save_ALU <= '1'; end if; when "00000110"|"00010110"|"00001110"|"00011110"|"00101110"|"00111110"|"00100110"|"00110110" => -- RLC (HL) -- RL (HL) -- RRC (HL) -- RR (HL) -- SRA (HL) -- SRL (HL) -- SLA (HL) -- SLL (HL) (Undocumented) / SWAP (HL) MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 1 | 7 => Set_Addr_To <= aXY; when 2 => ALU_Op <= "1000"; Read_To_Reg <= '1'; Save_ALU <= '1'; Set_Addr_To <= aXY; TStates <= "100"; when 3 => Write <= '1'; when others => end case; when "01000000"|"01000001"|"01000010"|"01000011"|"01000100"|"01000101"|"01000111" |"01001000"|"01001001"|"01001010"|"01001011"|"01001100"|"01001101"|"01001111" |"01010000"|"01010001"|"01010010"|"01010011"|"01010100"|"01010101"|"01010111" |"01011000"|"01011001"|"01011010"|"01011011"|"01011100"|"01011101"|"01011111" |"01100000"|"01100001"|"01100010"|"01100011"|"01100100"|"01100101"|"01100111" |"01101000"|"01101001"|"01101010"|"01101011"|"01101100"|"01101101"|"01101111" |"01110000"|"01110001"|"01110010"|"01110011"|"01110100"|"01110101"|"01110111" |"01111000"|"01111001"|"01111010"|"01111011"|"01111100"|"01111101"|"01111111" => -- BIT b,r if MCycle = "001" then Set_BusB_To(2 downto 0) <= IR(2 downto 0); ALU_Op <= "1001"; end if; when "01000110"|"01001110"|"01010110"|"01011110"|"01100110"|"01101110"|"01110110"|"01111110" => -- BIT b,(HL) MCycles <= "010"; case to_integer(unsigned(MCycle)) is when 1 | 7=> Set_Addr_To <= aXY; when 2 => ALU_Op <= "1001"; TStates <= "100"; when others => null; end case; when "11000000"|"11000001"|"11000010"|"11000011"|"11000100"|"11000101"|"11000111" |"11001000"|"11001001"|"11001010"|"11001011"|"11001100"|"11001101"|"11001111" |"11010000"|"11010001"|"11010010"|"11010011"|"11010100"|"11010101"|"11010111" |"11011000"|"11011001"|"11011010"|"11011011"|"11011100"|"11011101"|"11011111" |"11100000"|"11100001"|"11100010"|"11100011"|"11100100"|"11100101"|"11100111" |"11101000"|"11101001"|"11101010"|"11101011"|"11101100"|"11101101"|"11101111" |"11110000"|"11110001"|"11110010"|"11110011"|"11110100"|"11110101"|"11110111" |"11111000"|"11111001"|"11111010"|"11111011"|"11111100"|"11111101"|"11111111" => -- SET b,r if MCycle = "001" then ALU_Op <= "1010"; Read_To_Reg <= '1'; Save_ALU <= '1'; end if; when "11000110"|"11001110"|"11010110"|"11011110"|"11100110"|"11101110"|"11110110"|"11111110" => -- SET b,(HL) MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 1 | 7=> Set_Addr_To <= aXY; when 2 => ALU_Op <= "1010"; Read_To_Reg <= '1'; Save_ALU <= '1'; Set_Addr_To <= aXY; TStates <= "100"; when 3 => Write <= '1'; when others => null; end case; when "10000000"|"10000001"|"10000010"|"10000011"|"10000100"|"10000101"|"10000111" |"10001000"|"10001001"|"10001010"|"10001011"|"10001100"|"10001101"|"10001111" |"10010000"|"10010001"|"10010010"|"10010011"|"10010100"|"10010101"|"10010111" |"10011000"|"10011001"|"10011010"|"10011011"|"10011100"|"10011101"|"10011111" |"10100000"|"10100001"|"10100010"|"10100011"|"10100100"|"10100101"|"10100111" |"10101000"|"10101001"|"10101010"|"10101011"|"10101100"|"10101101"|"10101111" |"10110000"|"10110001"|"10110010"|"10110011"|"10110100"|"10110101"|"10110111" |"10111000"|"10111001"|"10111010"|"10111011"|"10111100"|"10111101"|"10111111" => -- RES b,r if MCycle = "001" then ALU_Op <= "1011"; Read_To_Reg <= '1'; Save_ALU <= '1'; end if; when "10000110"|"10001110"|"10010110"|"10011110"|"10100110"|"10101110"|"10110110"|"10111110" => -- RES b,(HL) MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 1 | 7 => Set_Addr_To <= aXY; when 2 => ALU_Op <= "1011"; Read_To_Reg <= '1'; Save_ALU <= '1'; Set_Addr_To <= aXY; TStates <= "100"; when 3 => Write <= '1'; when others => null; end case; end case; when others => ------------------------------------------------------------------------------ -- -- ED prefixed instructions -- ------------------------------------------------------------------------------ case IRB is when "00000000"|"00000001"|"00000010"|"00000011"|"00000100"|"00000101"|"00000110"|"00000111" |"00001000"|"00001001"|"00001010"|"00001011"|"00001100"|"00001101"|"00001110"|"00001111" |"00010000"|"00010001"|"00010010"|"00010011"|"00010100"|"00010101"|"00010110"|"00010111" |"00011000"|"00011001"|"00011010"|"00011011"|"00011100"|"00011101"|"00011110"|"00011111" |"00100000"|"00100001"|"00100010"|"00100011"|"00100100"|"00100101"|"00100110"|"00100111" |"00101000"|"00101001"|"00101010"|"00101011"|"00101100"|"00101101"|"00101110"|"00101111" |"00110000"|"00110001"|"00110010"|"00110011"|"00110100"|"00110101"|"00110110"|"00110111" |"00111000"|"00111001"|"00111010"|"00111011"|"00111100"|"00111101"|"00111110"|"00111111" |"10000000"|"10000001"|"10000010"|"10000011"|"10000100"|"10000101"|"10000110"|"10000111" |"10001000"|"10001001"|"10001010"|"10001011"|"10001100"|"10001101"|"10001110"|"10001111" |"10010000"|"10010001"|"10010010"|"10010011"|"10010100"|"10010101"|"10010110"|"10010111" |"10011000"|"10011001"|"10011010"|"10011011"|"10011100"|"10011101"|"10011110"|"10011111" | "10100100"|"10100101"|"10100110"|"10100111" | "10101100"|"10101101"|"10101110"|"10101111" | "10110100"|"10110101"|"10110110"|"10110111" | "10111100"|"10111101"|"10111110"|"10111111" |"11000000"|"11000001"|"11000010"|"11000011"|"11000100"|"11000101"|"11000110"|"11000111" |"11001000"|"11001001"|"11001010"|"11001011"|"11001100"|"11001101"|"11001110"|"11001111" |"11010000"|"11010001"|"11010010"|"11010011"|"11010100"|"11010101"|"11010110"|"11010111" |"11011000"|"11011001"|"11011010"|"11011011"|"11011100"|"11011101"|"11011110"|"11011111" |"11100000"|"11100001"|"11100010"|"11100011"|"11100100"|"11100101"|"11100110"|"11100111" |"11101000"|"11101001"|"11101010"|"11101011"|"11101100"|"11101101"|"11101110"|"11101111" |"11110000"|"11110001"|"11110010"|"11110011"|"11110100"|"11110101"|"11110110"|"11110111" |"11111000"|"11111001"|"11111010"|"11111011"|"11111100"|"11111101"|"11111110"|"11111111" => null; -- NOP, undocumented when "01111110"|"01111111" => -- NOP, undocumented null; -- 8 BIT LOAD GROUP when "01010111" => -- LD A,I Special_LD <= "100"; TStates <= "101"; when "01011111" => -- LD A,R Special_LD <= "101"; TStates <= "101"; when "01000111" => -- LD I,A Special_LD <= "110"; TStates <= "101"; when "01001111" => -- LD R,A Special_LD <= "111"; TStates <= "101"; -- 16 BIT LOAD GROUP when "01001011"|"01011011"|"01101011"|"01111011" => -- LD dd,(nn) MCycles <= "101"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; LDZ <= '1'; when 3 => Set_Addr_To <= aZI; Inc_PC <= '1'; LDW <= '1'; when 4 => Read_To_Reg <= '1'; if IR(5 downto 4) = "11" then Set_BusA_To <= "1000"; else Set_BusA_To(2 downto 1) <= IR(5 downto 4); Set_BusA_To(0) <= '1'; end if; Inc_WZ <= '1'; Set_Addr_To <= aZI; when 5 => Read_To_Reg <= '1'; if IR(5 downto 4) = "11" then Set_BusA_To <= "1001"; else Set_BusA_To(2 downto 1) <= IR(5 downto 4); Set_BusA_To(0) <= '0'; end if; when others => null; end case; when "01000011"|"01010011"|"01100011"|"01110011" => -- LD (nn),dd MCycles <= "101"; case to_integer(unsigned(MCycle)) is when 2 => Inc_PC <= '1'; LDZ <= '1'; when 3 => Set_Addr_To <= aZI; Inc_PC <= '1'; LDW <= '1'; if IR(5 downto 4) = "11" then Set_BusB_To <= "1000"; else Set_BusB_To(2 downto 1) <= IR(5 downto 4); Set_BusB_To(0) <= '1'; Set_BusB_To(3) <= '0'; end if; when 4 => Inc_WZ <= '1'; Set_Addr_To <= aZI; Write <= '1'; if IR(5 downto 4) = "11" then Set_BusB_To <= "1001"; else Set_BusB_To(2 downto 1) <= IR(5 downto 4); Set_BusB_To(0) <= '0'; Set_BusB_To(3) <= '0'; end if; when 5 => Write <= '1'; when others => null; end case; when "10100000" | "10101000" | "10110000" | "10111000" => -- LDI, LDD, LDIR, LDDR MCycles <= "100"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_To <= aXY; IncDec_16 <= "1100"; -- BC when 2 => Set_BusB_To <= "0110"; Set_BusA_To(2 downto 0) <= "111"; ALU_Op <= "0000"; Set_Addr_To <= aDE; if IR(3) = '0' then IncDec_16 <= "0110"; -- IX else IncDec_16 <= "1110"; end if; when 3 => I_BT <= '1'; TStates <= "101"; Write <= '1'; if IR(3) = '0' then IncDec_16 <= "0101"; -- DE else IncDec_16 <= "1101"; end if; when 4 => NoRead <= '1'; TStates <= "101"; when others => null; end case; when "10100001" | "10101001" | "10110001" | "10111001" => -- CPI, CPD, CPIR, CPDR MCycles <= "100"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_To <= aXY; IncDec_16 <= "1100"; -- BC when 2 => Set_BusB_To <= "0110"; Set_BusA_To(2 downto 0) <= "111"; ALU_Op <= "0111"; Save_ALU <= '1'; PreserveC <= '1'; if IR(3) = '0' then IncDec_16 <= "0110"; else IncDec_16 <= "1110"; end if; when 3 => NoRead <= '1'; I_BC <= '1'; TStates <= "101"; when 4 => NoRead <= '1'; TStates <= "101"; when others => null; end case; when "01000100"|"01001100"|"01010100"|"01011100"|"01100100"|"01101100"|"01110100"|"01111100" => -- NEG Alu_OP <= "0010"; Set_BusB_To <= "0111"; Set_BusA_To <= "1010"; Read_To_Acc <= '1'; Save_ALU <= '1'; when "01000110"|"01001110"|"01100110"|"01101110" => -- IM 0 IMode <= "00"; when "01010110"|"01110110" => -- IM 1 IMode <= "01"; when "01011110"|"01110111" => -- IM 2 IMode <= "10"; -- 16 bit arithmetic when "01001010"|"01011010"|"01101010"|"01111010" => -- ADC HL,ss MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 2 => NoRead <= '1'; ALU_Op <= "0001"; Read_To_Reg <= '1'; Save_ALU <= '1'; Set_BusA_To(2 downto 0) <= "101"; case to_integer(unsigned(IR(5 downto 4))) is when 0|1|2 => Set_BusB_To(2 downto 1) <= IR(5 downto 4); Set_BusB_To(0) <= '1'; when others => Set_BusB_To <= "1000"; end case; TStates <= "100"; when 3 => NoRead <= '1'; Read_To_Reg <= '1'; Save_ALU <= '1'; ALU_Op <= "0001"; Set_BusA_To(2 downto 0) <= "100"; case to_integer(unsigned(IR(5 downto 4))) is when 0|1|2 => Set_BusB_To(2 downto 1) <= IR(5 downto 4); Set_BusB_To(0) <= '0'; when others => Set_BusB_To <= "1001"; end case; when others => end case; when "01000010"|"01010010"|"01100010"|"01110010" => -- SBC HL,ss MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 2 => NoRead <= '1'; ALU_Op <= "0011"; Read_To_Reg <= '1'; Save_ALU <= '1'; Set_BusA_To(2 downto 0) <= "101"; case to_integer(unsigned(IR(5 downto 4))) is when 0|1|2 => Set_BusB_To(2 downto 1) <= IR(5 downto 4); Set_BusB_To(0) <= '1'; when others => Set_BusB_To <= "1000"; end case; TStates <= "100"; when 3 => NoRead <= '1'; ALU_Op <= "0011"; Read_To_Reg <= '1'; Save_ALU <= '1'; Set_BusA_To(2 downto 0) <= "100"; case to_integer(unsigned(IR(5 downto 4))) is when 0|1|2 => Set_BusB_To(2 downto 1) <= IR(5 downto 4); when others => Set_BusB_To <= "1001"; end case; when others => end case; when "01101111" => -- RLD MCycles <= "100"; case to_integer(unsigned(MCycle)) is when 2 => NoRead <= '1'; Set_Addr_To <= aXY; when 3 => Read_To_Reg <= '1'; Set_BusB_To(2 downto 0) <= "110"; Set_BusA_To(2 downto 0) <= "111"; ALU_Op <= "1101"; TStates <= "100"; Set_Addr_To <= aXY; Save_ALU <= '1'; when 4 => I_RLD <= '1'; Write <= '1'; when others => end case; when "01100111" => -- RRD MCycles <= "100"; case to_integer(unsigned(MCycle)) is when 2 => Set_Addr_To <= aXY; when 3 => Read_To_Reg <= '1'; Set_BusB_To(2 downto 0) <= "110"; Set_BusA_To(2 downto 0) <= "111"; ALU_Op <= "1110"; TStates <= "100"; Set_Addr_To <= aXY; Save_ALU <= '1'; when 4 => I_RRD <= '1'; Write <= '1'; when others => end case; when "01000101"|"01001101"|"01010101"|"01011101"|"01100101"|"01101101"|"01110101"|"01111101" => -- RETI, RETN MCycles <= "011"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_TO <= aSP; when 2 => IncDec_16 <= "0111"; Set_Addr_To <= aSP; LDZ <= '1'; when 3 => Jump <= '1'; IncDec_16 <= "0111"; I_RETN <= '1'; when others => null; end case; when "01000000"|"01001000"|"01010000"|"01011000"|"01100000"|"01101000"|"01110000"|"01111000" => -- IN r,(C) MCycles <= "010"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_To <= aBC; when 2 => IORQ <= '1'; if IR(5 downto 3) /= "110" then Read_To_Reg <= '1'; Set_BusA_To(2 downto 0) <= IR(5 downto 3); end if; I_INRC <= '1'; when others => end case; when "01000001"|"01001001"|"01010001"|"01011001"|"01100001"|"01101001"|"01110001"|"01111001" => -- OUT (C),r -- OUT (C),0 MCycles <= "010"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_To <= aBC; Set_BusB_To(2 downto 0) <= IR(5 downto 3); if IR(5 downto 3) = "110" then Set_BusB_To(3) <= '1'; end if; when 2 => Write <= '1'; IORQ <= '1'; when others => end case; when "10100010" | "10101010" | "10110010" | "10111010" => -- INI, IND, INIR, INDR -- note B is decremented AFTER being put on the bus MCycles <= "100"; case to_integer(unsigned(MCycle)) is when 1 => Set_Addr_To <= aBC; Set_BusB_To <= "1010"; Set_BusA_To <= "0000"; Read_To_Reg <= '1'; Save_ALU <= '1'; ALU_Op <= "0010"; when 2 => IORQ <= '1'; Set_BusB_To <= "0110"; Set_Addr_To <= aXY; when 3 => if IR(3) = '0' then --IncDec_16 <= "0010"; IncDec_16 <= "0110"; else --IncDec_16 <= "1010"; IncDec_16 <= "1110"; end if; TStates <= "100"; Write <= '1'; I_BTR <= '1'; when 4 => NoRead <= '1'; TStates <= "101"; when others => null; end case; when "10100011" | "10101011" | "10110011" | "10111011" => -- OUTI, OUTD, OTIR, OTDR -- note B is decremented BEFORE being put on the bus. -- mikej fix for hl inc MCycles <= "100"; case to_integer(unsigned(MCycle)) is when 1 => TStates <= "101"; Set_Addr_To <= aXY; Set_BusB_To <= "1010"; Set_BusA_To <= "0000"; Read_To_Reg <= '1'; Save_ALU <= '1'; ALU_Op <= "0010"; when 2 => Set_BusB_To <= "0110"; Set_Addr_To <= aBC; when 3 => if IR(3) = '0' then IncDec_16 <= "0110"; -- mikej else IncDec_16 <= "1110"; -- mikej end if; IORQ <= '1'; Write <= '1'; I_BTR <= '1'; when 4 => NoRead <= '1'; TStates <= "101"; when others => null; end case; end case; end case; if Mode = 1 then if MCycle = "001" then -- TStates <= "100"; else TStates <= "011"; end if; end if; if Mode = 3 then if MCycle = "001" then -- TStates <= "100"; else TStates <= "100"; end if; end if; if Mode < 2 then if MCycle = "110" then Inc_PC <= '1'; if Mode = 1 then Set_Addr_To <= aXY; TStates <= "100"; Set_BusB_To(2 downto 0) <= SSS; Set_BusB_To(3) <= '0'; end if; if IRB = "00110110" or IRB = "11001011" then Set_Addr_To <= aNone; end if; end if; if MCycle = "111" then if Mode = 0 then TStates <= "101"; end if; if ISet /= "01" then Set_Addr_To <= aXY; end if; Set_BusB_To(2 downto 0) <= SSS; Set_BusB_To(3) <= '0'; if IRB = "00110110" or ISet = "01" then -- LD (HL),n Inc_PC <= '1'; else NoRead <= '1'; end if; end if; end if; end process; end;