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Length: 33792 (0x8400)
Types: Ada Source
Notes: 03_class, FILE, R1k_Segment, e3_tag, package body Desassembleur, seg_00f4d9
└─⟦8527c1e9b⟧ Bits:30000544 8mm tape, Rational 1000, Arrival backup of disks in PAM's R1000
└─ ⟦5a81ac88f⟧ »Space Info Vol 1«
└─⟦this⟧
with Erreur;
with Octet;
with Z80_Defs;
use Z80_Defs;
package body Desassembleur is
-- TYPES ----------------------------------------------------------------
type Code_Instruction is
record
Mnemo : Mnemonic;
Op_Gauche : Operande;
Op_Droit : Operande;
end record;
-- CONSTANTES -----------------------------------------------------------
Table_Primaire : constant array (0 .. 255) of Code_Instruction :=
(16#00# => (Nop, Aucun, Aucun),
16#01# => (Ld, Bc, Nn),
16#02# => (Ld, Bc_Indirect, A),
16#03# => (Inc, Bc, Aucun),
16#04# => (Inc, B, Aucun),
16#05# => (Dec, B, Aucun),
16#06# => (Ld, B, N),
16#07# => (Rlca, A, Aucun),
16#08# => (Ex, Af, Af_Prime),
16#09# => (Add, Hl, Bc),
16#0A# => (Ld, A, Bc_Indirect),
16#0B# => (Dec, Bc, Aucun),
16#0C# => (Inc, C, Aucun),
16#0D# => (Dec, C, Aucun),
16#0E# => (Ld, C, N),
16#0F# => (Rrca, A, Aucun),
16#10# => (Djnz, Offset_E, Aucun),
16#11# => (Ld, De, Nn),
16#12# => (Ld, De_Indirect, A),
16#13# => (Inc, De, Aucun),
16#14# => (Inc, D, Aucun),
16#15# => (Dec, D, Aucun),
16#16# => (Ld, D, N),
16#17# => (Rla, A, Aucun),
16#18# => (Jr, Offset_E, Aucun),
16#19# => (Add, Hl, De),
16#1A# => (Ld, A, De_Indirect),
16#1B# => (Dec, De, Aucun),
16#1C# => (Inc, E, Aucun),
16#1D# => (Dec, E, Aucun),
16#1E# => (Ld, E, N),
16#1F# => (Rra, A, Aucun),
16#20# => (Jr, Nz, Offset_E),
16#21# => (Ld, Hl, Nn),
16#22# => (Ld, Nn_Indirect, Hl),
16#23# => (Inc, Hl, Aucun),
16#24# => (Inc, H, Aucun),
16#25# => (Dec, H, Aucun),
16#26# => (Ld, H, N),
16#27# => (Daa, Aucun, Aucun),
16#28# => (Jr, Z, Offset_E),
16#29# => (Add, Hl, Hl),
16#2A# => (Ld, Hl, Nn_Indirect),
16#2B# => (Dec, Hl, Aucun),
16#2C# => (Inc, L, Aucun),
16#2D# => (Dec, L, Aucun),
16#2E# => (Ld, L, N),
16#2F# => (Cpl, Aucun, Aucun),
16#30# => (Jr, Nc, Offset_E),
16#31# => (Ld, Sp, Nn),
16#32# => (Ld, Nn_Indirect, A),
16#33# => (Inc, Sp, Aucun),
16#34# => (Inc, Hl_Indirect, Aucun),
16#35# => (Dec, Hl_Indirect, Aucun),
16#36# => (Ld, Hl_Indirect, N),
16#37# => (Scf, Aucun, Aucun),
16#38# => (Jr, Cy, Offset_E),
16#39# => (Add, Hl, Sp),
16#3A# => (Ld, A, Nn_Indirect),
16#3B# => (Dec, Sp, Aucun),
16#3C# => (Inc, A, Aucun),
16#3D# => (Dec, A, Aucun),
16#3E# => (Ld, A, N),
16#3F# => (Ccf, Aucun, Aucun),
16#40# => (Ld, B, B),
16#41# => (Ld, B, C),
16#42# => (Ld, B, D),
16#43# => (Ld, B, E),
16#44# => (Ld, B, H),
16#45# => (Ld, B, L),
16#46# => (Ld, B, Hl_Indirect),
16#47# => (Ld, B, A),
16#48# => (Ld, C, B),
16#49# => (Ld, C, C),
16#4A# => (Ld, C, D),
16#4B# => (Ld, C, E),
16#4C# => (Ld, C, H),
16#4D# => (Ld, C, L),
16#4E# => (Ld, C, Hl_Indirect),
16#4F# => (Ld, C, A),
16#50# => (Ld, D, B),
16#51# => (Ld, D, C),
16#52# => (Ld, D, D),
16#53# => (Ld, D, E),
16#54# => (Ld, D, H),
16#55# => (Ld, D, L),
16#56# => (Ld, D, Hl_Indirect),
16#57# => (Ld, D, A),
16#58# => (Ld, E, B),
16#59# => (Ld, E, C),
16#5A# => (Ld, E, D),
16#5B# => (Ld, E, E),
16#5C# => (Ld, E, H),
16#5D# => (Ld, E, L),
16#5E# => (Ld, E, Hl_Indirect),
16#5F# => (Ld, E, A),
16#60# => (Ld, H, B),
16#61# => (Ld, H, C),
16#62# => (Ld, H, D),
16#63# => (Ld, H, E),
16#64# => (Ld, H, H),
16#65# => (Ld, H, L),
16#66# => (Ld, H, Hl_Indirect),
16#67# => (Ld, H, A),
16#68# => (Ld, L, B),
16#69# => (Ld, L, C),
16#6A# => (Ld, L, D),
16#6B# => (Ld, L, E),
16#6C# => (Ld, L, H),
16#6D# => (Ld, L, L),
16#6E# => (Ld, L, Hl_Indirect),
16#6F# => (Ld, L, A),
16#70# => (Ld, Hl_Indirect, B),
16#71# => (Ld, Hl_Indirect, C),
16#72# => (Ld, Hl_Indirect, D),
16#73# => (Ld, Hl_Indirect, E),
16#74# => (Ld, Hl_Indirect, H),
16#75# => (Ld, Hl_Indirect, L),
16#76# => (Halt, Aucun, Aucun),
16#77# => (Ld, Hl_Indirect, A),
16#78# => (Ld, A, B),
16#79# => (Ld, A, C),
16#7A# => (Ld, A, D),
16#7B# => (Ld, A, E),
16#7C# => (Ld, A, H),
16#7D# => (Ld, A, L),
16#7E# => (Ld, A, Hl_Indirect),
16#7F# => (Ld, A, A),
16#80# => (Add, A, B),
16#81# => (Add, A, C),
16#82# => (Add, A, D),
16#83# => (Add, A, E),
16#84# => (Add, A, H),
16#85# => (Add, A, L),
16#86# => (Add, A, Hl_Indirect),
16#87# => (Add, A, A),
16#88# => (Adc, A, B),
16#89# => (Adc, A, C),
16#8A# => (Adc, A, D),
16#8B# => (Adc, A, E),
16#8C# => (Adc, A, H),
16#8D# => (Adc, A, L),
16#8E# => (Adc, A, Hl_Indirect),
16#8F# => (Adc, A, A),
16#90# => (Sub, B, Aucun),
16#91# => (Sub, C, Aucun),
16#92# => (Sub, D, Aucun),
16#93# => (Sub, E, Aucun),
16#94# => (Sub, H, Aucun),
16#95# => (Sub, L, Aucun),
16#96# => (Sub, Hl_Indirect, Aucun),
16#97# => (Sub, A, Aucun),
16#98# => (Sbc, A, B),
16#99# => (Sbc, A, C),
16#9A# => (Sbc, A, D),
16#9B# => (Sbc, A, E),
16#9C# => (Sbc, A, H),
16#9D# => (Sbc, A, L),
16#9E# => (Sbc, A, Hl_Indirect),
16#9F# => (Sbc, A, A),
16#A0# => (Z80_And, B, Aucun),
16#A1# => (Z80_And, C, Aucun),
16#A2# => (Z80_And, D, Aucun),
16#A3# => (Z80_And, E, Aucun),
16#A4# => (Z80_And, H, Aucun),
16#A5# => (Z80_And, L, Aucun),
16#A6# => (Z80_And, Hl_Indirect, Aucun),
16#A7# => (Z80_And, A, Aucun),
16#A8# => (Z80_Xor, B, Aucun),
16#A9# => (Z80_Xor, C, Aucun),
16#AA# => (Z80_Xor, D, Aucun),
16#AB# => (Z80_Xor, E, Aucun),
16#AC# => (Z80_Xor, H, Aucun),
16#AD# => (Z80_Xor, L, Aucun),
16#AE# => (Z80_Xor, Hl_Indirect, Aucun),
16#AF# => (Z80_Xor, A, Aucun),
16#B0# => (Z80_Or, B, Aucun),
16#B1# => (Z80_Or, C, Aucun),
16#B2# => (Z80_Or, D, Aucun),
16#B3# => (Z80_Or, E, Aucun),
16#B4# => (Z80_Or, H, Aucun),
16#B5# => (Z80_Or, L, Aucun),
16#B6# => (Z80_Or, Hl_Indirect, Aucun),
16#B7# => (Z80_Or, A, Aucun),
16#B8# => (Cp, B, Aucun),
16#B9# => (Cp, C, Aucun),
16#BA# => (Cp, D, Aucun),
16#BB# => (Cp, E, Aucun),
16#BC# => (Cp, H, Aucun),
16#BD# => (Cp, L, Aucun),
16#BE# => (Cp, Hl_Indirect, Aucun),
16#BF# => (Cp, A, Aucun),
16#C0# => (Ret, Nz, Aucun),
16#C1# => (Pop, Bc, Aucun),
16#C2# => (Jp, Nz, Nn),
16#C3# => (Jp, Nn, Aucun),
16#C4# => (Call, Nz, Nn),
16#C5# => (Push, Bc, Aucun),
16#C6# => (Add, A, N),
16#C7# => (Rst, Z80_00h, Aucun),
16#C8# => (Ret, Z, Aucun),
16#C9# => (Ret, Aucun, Aucun),
16#CA# => (Jp, Z, Nn),
16#CB# => (Inconnu, Aucun, Aucun), -- 16#cb# 16#CC# => (Call, Z, Nn),
16#CD# => (Call, Nn, Aucun),
16#CE# => (Adc, A, N),
16#CF# => (Rst, Z80_08h, Aucun),
16#D0# => (Ret, Nc, Aucun),
16#D1# => (Pop, De, Aucun),
16#D2# => (Jp, Nc, Nn),
16#D3# => (Z80_Out, N_Indirect, A),
16#D4# => (Call, Nc, Nn),
16#D5# => (Push, De, Aucun),
16#D6# => (Sub, N, Aucun),
16#D7# => (Rst, Z80_10h, Aucun),
16#D8# => (Ret, Cy, Aucun),
16#D9# => (Exx, Aucun, Aucun),
16#DA# => (Jp, Cy, Nn),
16#DB# => (Z80_In, A, N_Indirect),
16#DC# => (Call, Cy, Nn),
16#DD# => (Inconnu, Aucun, Aucun), --16#dd#
16#DE# => (Sbc, A, N),
16#DF# => (Rst, Z80_18h, Aucun),
16#E0# => (Ret, Po, Aucun),
16#E1# => (Pop, Hl, Aucun),
16#E2# => (Jp, Po, Nn),
16#E3# => (Ex, Sp_Indirect, Hl),
16#E4# => (Call, Po, Nn),
16#E5# => (Push, Hl, Aucun),
16#E6# => (Z80_And, N, Aucun),
16#E7# => (Rst, Z80_20h, Aucun),
16#E8# => (Ret, Pe, Aucun),
16#E9# => (Jp, Hl, Aucun),
16#EA# => (Jp, Pe, Nn),
16#EB# => (Ex, De, Hl),
16#EC# => (Call, Pe, Nn),
16#ED# => (Inconnu, Aucun, Aucun), --16#ed#
16#EE# => (Z80_Xor, N, Aucun),
16#EF# => (Rst, Z80_28h, Aucun),
16#F0# => (Ret, P, Aucun),
16#F1# => (Pop, Af, Aucun),
16#F2# => (Jp, P, Nn),
16#F3# => (Di, Aucun, Aucun),
16#F4# => (Call, P, Nn),
16#F5# => (Push, Af, Aucun),
16#F6# => (Z80_Or, N, Aucun),
16#F7# => (Rst, Z80_30h, Aucun),
16#F8# => (Ret, M, Aucun),
16#F9# => (Ld, Sp, Hl),
16#FA# => (Jp, M, Nn),
16#FB# => (Ei, Aucun, Aucun),
16#FC# => (Call, M, Nn),
16#FD# => (Inconnu, Aucun, Aucun), --16#fd#
16#FE# => (Cp, N, Aucun),
16#FF# => (Rst, Z80_38h, Aucun));
Table_Ed : constant array (0 .. 255) of Code_Instruction :=
(16#00# .. 16#3F# => (Inconnu, Aucun, Aucun),
16#40# => (Z80_In, B, C_Indirect),
16#41# => (Z80_Out, C_Indirect, B),
16#42# => (Sbc, Hl, Bc),
16#43# => (Ld, Nn_Indirect, Bc),
16#44# => (Neg, Aucun, Aucun),
16#45# => (Retn, Aucun, Aucun),
16#46# => (Im, Z80_0, Aucun),
16#47# => (Ld, I, A),
16#48# => (Z80_In, C, C_Indirect),
16#49# => (Z80_Out, C_Indirect, C),
16#4A# => (Adc, Hl, Bc),
16#4B# => (Ld, Bc, Nn_Indirect),
16#4C# => (Inconnu, Aucun, Aucun),
16#4D# => (Reti, Aucun, Aucun),
16#4E# => (Inconnu, Aucun, Aucun),
16#4F# => (Ld, R, A),
16#50# => (Z80_In, D, C_Indirect),
16#51# => (Z80_Out, C_Indirect, D),
16#52# => (Sbc, Hl, De),
16#53# => (Ld, Nn_Indirect, De),
16#54# => (Inconnu, Aucun, Aucun),
16#55# => (Inconnu, Aucun, Aucun),
16#56# => (Im, Z80_1, Aucun),
16#57# => (Ld, A, I),
16#58# => (Z80_In, E, C_Indirect),
16#59# => (Z80_Out, C_Indirect, E),
16#5A# => (Adc, Hl, De),
16#5B# => (Ld, De, Nn_Indirect),
16#5C# => (Inconnu, Aucun, Aucun),
16#5D# => (Inconnu, Aucun, Aucun),
16#5E# => (Im, Z80_2, Aucun),
16#5F# => (Ld, A, R),
16#60# => (Z80_In, H, C_Indirect),
16#61# => (Z80_Out, C_Indirect, H),
16#62# => (Sbc, Hl, Hl),
16#63# => (Inconnu, Aucun, Aucun),
16#64# => (Inconnu, Aucun, Aucun),
16#65# => (Inconnu, Aucun, Aucun),
16#66# => (Inconnu, Aucun, Aucun),
16#67# => (Rrd, A, Hl_Indirect),
16#68# => (Z80_In, L, C_Indirect),
16#69# => (Z80_Out, C_Indirect, L),
16#6A# => (Adc, Hl, Hl),
16#6B# => (Inconnu, Aucun, Aucun),
16#6C# => (Inconnu, Aucun, Aucun),
16#6D# => (Inconnu, Aucun, Aucun),
16#6E# => (Inconnu, Aucun, Aucun),
16#6F# => (Rld, A, Hl_Indirect),
16#70# => (Inconnu, Aucun, Aucun),
16#71# => (Inconnu, Aucun, Aucun),
16#72# => (Sbc, Hl, Sp),
16#73# => (Ld, Nn_Indirect, Sp),
16#74# => (Inconnu, Aucun, Aucun),
16#75# => (Inconnu, Aucun, Aucun),
16#76# => (Inconnu, Aucun, Aucun),
16#77# => (Inconnu, Aucun, Aucun),
16#78# => (Z80_In, A, C_Indirect),
16#79# => (Z80_Out, C_Indirect, A),
16#7A# => (Adc, Hl, Sp),
16#7B# => (Ld, Sp, Nn_Indirect),
16#7C# => (Inconnu, Aucun, Aucun),
16#7D# => (Inconnu, Aucun, Aucun),
16#7E# => (Inconnu, Aucun, Aucun),
16#7F# => (Inconnu, Aucun, Aucun),
16#80# .. 16#9F# => (Inconnu, Aucun, Aucun),
16#A0# => (Ldi, De_Indirect, Hl_Indirect),
16#A1# => (Cpi, Hl_Indirect, Aucun),
16#A2# => (Ini, Hl_Indirect, C_Indirect),
16#A3# => (Outi, C_Indirect, Hl_Indirect),
16#A4# => (Inconnu, Aucun, Aucun),
16#A5# => (Inconnu, Aucun, Aucun),
16#A6# => (Inconnu, Aucun, Aucun),
16#A7# => (Inconnu, Aucun, Aucun),
16#A8# => (Ldd, De_Indirect, Hl_Indirect),
16#A9# => (Cpd, Hl_Indirect, Aucun),
16#AA# => (Ind, Hl_Indirect, C_Indirect),
16#AB# => (Outd, C_Indirect, Hl_Indirect),
16#AC# => (Inconnu, Aucun, Aucun),
16#AD# => (Inconnu, Aucun, Aucun),
16#AE# => (Inconnu, Aucun, Aucun),
16#AF# => (Inconnu, Aucun, Aucun),
16#B0# => (Ldir, De_Indirect, Hl_Indirect),
16#B1# => (Cpir, Hl_Indirect, Aucun),
16#B2# => (Inir, Hl_Indirect, C_Indirect),
16#B3# => (Otir, C_Indirect, Hl_Indirect),
16#B4# => (Inconnu, Aucun, Aucun),
16#B5# => (Inconnu, Aucun, Aucun),
16#B6# => (Inconnu, Aucun, Aucun),
16#B7# => (Inconnu, Aucun, Aucun),
16#B8# => (Lddr, De_Indirect, Hl_Indirect),
16#B9# => (Cpdr, Hl_Indirect, Aucun),
16#BA# => (Indr, Hl_Indirect, C_Indirect),
16#BB# => (Otdr, C_Indirect, Hl_Indirect),
16#BC# => (Inconnu, Aucun, Aucun),
16#BD# => (Inconnu, Aucun, Aucun),
16#BE# => (Inconnu, Aucun, Aucun),
16#BF# => (Inconnu, Aucun, Aucun),
16#C0# .. 16#FF# => (Inconnu, Aucun, Aucun)
);
-- VARIABLES ------------------------------------------------------------
Ed : Boolean := False;
Cb : Boolean := False;
Dd : Boolean := False;
Fd : Boolean := False;
Decodage_Complet : Boolean := False;
Donnee_Lue : Boolean := False;
Nb_Octet_Donnee : Natural range 0 .. 2 := 0;
Instruction_Decodee : Instruction := (Inconnu, Aucun, Aucun, 0);
-- PROCEDURES -----------------------------------------------------------
function Decode_Avec_Table_Ed (Code : Octet.T_Octet) return Boolean;
function Decode_Cb (Code : Octet.T_Octet) return Boolean;
function Decode_Avec_Table_Primaire (Code : Octet.T_Octet) return Boolean;
function Test_Operande (Op_Gauche_Ou_Droit : Operande) return Operande;
function Test_Operande_Cb (Op_Entree : Operande) return Operande;
---------------------------------------
function Instruction_Trouvee return Instruction is
begin
if Decodage_Complet then
return Instruction_Decodee;
else
Erreur.Detectee (1);
end if;
end Instruction_Trouvee;
---------------------------------------
function Traiter_Code (Code : Octet.T_Octet) return Boolean is
begin
if Decodage_Complet then
Decodage_Complet := False;
Ed := False;
Cb := False;
Dd := False;
Fd := False;
Nb_Octet_Donnee := 0;
Donnee_Lue := False;
Instruction_Decodee := (Inconnu, Aucun, Aucun, 0);
end if;
case Nb_Octet_Donnee is
when 0 =>
case Code is
when 16#ED# =>
if Cb then
Decodage_Complet := Decode_Cb (Code);
else
Ed := True;
end if;
when 16#CB# =>
if Cb then
Decodage_Complet := Decode_Cb (Code);
end if;
Cb := True;
when 16#DD# =>
if Cb then
Decodage_Complet := Decode_Cb (Code);
else
Dd := True;
end if;
when 16#FD# =>
if Cb then
Decodage_Complet := Decode_Cb (Code);
else
Fd := True;
end if;
when others =>
if Ed then
Decodage_Complet := Decode_Avec_Table_Ed (Code);
elsif Cb then
Decodage_Complet := Decode_Cb (Code);
else
Decodage_Complet :=
Decode_Avec_Table_Primaire (Code);
end if;
end case;
when 1 =>
Instruction_Decodee.Donnee :=
Instruction_Decodee.Donnee + Mot.T_Mot (Code);
Nb_Octet_Donnee := 0;
Decodage_Complet := True;
when 2 =>
Instruction_Decodee.Donnee := Mot.T_Mot (Code) * 256;
Nb_Octet_Donnee := 1;
end case;
return Decodage_Complet;
end Traiter_Code;
---------------------------------
function Decode_Avec_Table_Ed (Code : Octet.T_Octet) return Boolean is
begin
Instruction_Decodee.Mnemo := Table_Ed (Code).Mnemo;
Instruction_Decodee.Op_Gauche :=
Test_Operande (Table_Ed (Code).Op_Gauche);
Instruction_Decodee.Op_Droit :=
Test_Operande (Table_Ed (Code).Op_Droit);
return (Nb_Octet_Donnee = 0);
end Decode_Avec_Table_Ed;
---------------------------------
function Decode_Cb (Code : Octet.T_Octet) return Boolean is
-- constantes -------------------------
Tab_Registre : constant array (0 .. 7) of Operande :=
(B, C, D, E, H, L, Hl_Indirect, A);
Tab_Decalage : constant array (0 .. 7) of Mnemonic :=
(Rlc, Rrc, Rl, Rr, Sla, Sra, Inconnu, Srl);
Tab_Bit : constant array (0 .. 7) of Operande :=
(Bit_0, Bit_1, Bit_2, Bit_3, Bit_4, Bit_5, Bit_6, Bit_7);
Tab_Mnemo : constant array (0 .. 3) of Mnemonic :=
(Inconnu, Bit, Res, Set);
begin
if ((Dd or Fd) and (not Donnee_Lue)) then -- reste donnee + code a lire
Instruction_Decodee.Donnee := Mot.T_Mot (Code);
Donnee_Lue := True;
else
if (Code <= 16#3F#) then
Instruction_Decodee.Mnemo := Tab_Decalage (Code / 8);
Instruction_Decodee.Op_Gauche :=
Test_Operande_Cb (Tab_Registre (Code mod 8));
else
Instruction_Decodee.Mnemo := Tab_Mnemo (Code / 64);
Instruction_Decodee.Op_Gauche := Tab_Bit ((Code mod 64) / 8);
Instruction_Decodee.Op_Droit :=
Test_Operande_Cb (Tab_Registre (Code mod 8));
end if;
Decodage_Complet := True;
end if;
return Decodage_Complet;
end Decode_Cb;
---------------------------------
function Decode_Avec_Table_Primaire (Code : Octet.T_Octet) return Boolean is
begin
Instruction_Decodee.Mnemo := Table_Primaire (Code).Mnemo;
Instruction_Decodee.Op_Gauche := Test_Operande
(Table_Primaire (Code).Op_Gauche);
Instruction_Decodee.Op_Droit := Test_Operande
(Table_Primaire (Code).Op_Droit);
return (Nb_Octet_Donnee = 0);
end Decode_Avec_Table_Primaire;
---------------------------------
function Test_Operande (Op_Gauche_Ou_Droit : Operande) return Operande is
Op_Sortie : Operande := Op_Gauche_Ou_Droit;
begin
case Op_Gauche_Ou_Droit is
when Nn | Nn_Indirect =>
Nb_Octet_Donnee := 2;
when N | N_Indirect | Offset_E =>
Nb_Octet_Donnee := Nb_Octet_Donnee + 1;
when Hl =>
if Dd then
Op_Sortie := Ix;
elsif Fd then
Op_Sortie := Iy;
end if;
when Hl_Indirect =>
if Instruction_Decodee.Mnemo = Jp then
if Dd then
Op_Sortie := Ix_Indirect;
elsif Fd then
Op_Sortie := Iy_Indirect;
end if;
else
if Dd then
Op_Sortie := Ix_Plus_D_Indirect;
Nb_Octet_Donnee := Nb_Octet_Donnee + 1;
elsif Fd then
Op_Sortie := Iy_Plus_D_Indirect;
Nb_Octet_Donnee := Nb_Octet_Donnee + 1;
end if;
end if;
when others =>
null;
end case;
return Op_Sortie;
end Test_Operande;
---------------------------------
function Test_Operande_Cb (Op_Entree : Operande) return Operande is
Op_Sortie : Operande := Op_Entree;
begin
if Op_Entree = Hl_Indirect then
if Dd then
Op_Sortie := Ix_Plus_D_Indirect;
elsif Fd then
Op_Sortie := Iy_Plus_D_Indirect;
end if;
end if;
return Op_Sortie;
end Test_Operande_Cb;
end Desassembleur;
nblk1=20
nid=1b
hdr6=3c
[0x00] rec0=22 rec1=00 rec2=01 rec3=044
[0x01] rec0=01 rec1=00 rec2=08 rec3=008
[0x02] rec0=1d rec1=00 rec2=1c rec3=04c
[0x03] rec0=1f rec1=00 rec2=05 rec3=004
[0x04] rec0=22 rec1=00 rec2=1a rec3=000
[0x05] rec0=1f rec1=00 rec2=11 rec3=016
[0x06] rec0=1e rec1=00 rec2=15 rec3=038
[0x07] rec0=1c rec1=00 rec2=1e rec3=006
[0x08] rec0=1b rec1=00 rec2=0d rec3=002
[0x09] rec0=1b rec1=00 rec2=1f rec3=048
[0x0a] rec0=1b rec1=00 rec2=0f rec3=042
[0x0b] rec0=17 rec1=00 rec2=0b rec3=068
[0x0c] rec0=15 rec1=00 rec2=03 rec3=044
[0x0d] rec0=14 rec1=00 rec2=06 rec3=038
[0x0e] rec0=15 rec1=00 rec2=16 rec3=040
[0x0f] rec0=13 rec1=00 rec2=1d rec3=05c
[0x10] rec0=18 rec1=00 rec2=0c rec3=000
[0x11] rec0=05 rec1=00 rec2=20 rec3=022
[0x12] rec0=1b rec1=00 rec2=10 rec3=044
[0x13] rec0=03 rec1=00 rec2=17 rec3=03e
[0x14] rec0=1d rec1=00 rec2=04 rec3=02e
[0x15] rec0=1e rec1=00 rec2=0a rec3=000
[0x16] rec0=01 rec1=00 rec2=12 rec3=03e
[0x17] rec0=1c rec1=00 rec2=02 rec3=010
[0x18] rec0=00 rec1=00 rec2=18 rec3=01a
[0x19] rec0=1b rec1=00 rec2=07 rec3=06a
[0x1a] rec0=1e rec1=00 rec2=0e rec3=024
[0x1b] rec0=01 rec1=00 rec2=19 rec3=03a
[0x1c] rec0=20 rec1=00 rec2=09 rec3=020
[0x1d] rec0=0f rec1=00 rec2=14 rec3=000
[0x1e] rec0=0d rec1=00 rec2=13 rec3=000
[0x1f] rec0=03 rec1=44 rec2=dd rec3=062
tail 0x2150b563e822b4fe8f1c8 0x42a00088462062803
Free Block Chain:
0x1b: 0000 00 13 03 fc 00 35 20 20 20 20 20 20 20 20 31 36 ┆ 5 16┆
0x13: 0000 00 00 00 09 80 06 20 20 31 36 23 42 06 07 08 09 ┆ 16#B ┆