From 5dd788d5a1acc7f23835882420d50e9f020728ac Mon Sep 17 00:00:00 2001
From: mrb0nk500 <b0nk@b0nk.xyz>
Date: Mon, 18 May 2020 13:14:08 -0400
Subject: Did alot of stuff while I was up at the family trailer.

- Moved the large enums, and large tables into separate
  header files.
- Added enums for implementing the base extension
- Fixed a bug in the assembler.
- Worked more on SuBAsm.
---
 opcode.h | 391 ++-------------------------------------------------------------
 1 file changed, 9 insertions(+), 382 deletions(-)

(limited to 'opcode.h')

diff --git a/opcode.h b/opcode.h
index cd7a59b..1fb06ff 100644
--- a/opcode.h
+++ b/opcode.h
@@ -1,207 +1,24 @@
+
 #include <inttypes.h>
 #include <stdint.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <unistd.h>
 
+#include "tables.h"
+
 #define getclk 0
 #define keypoll 0
 
-#define CPS	0x00 /* Clear Processor Status. */
-#define ADC	0x01 /* ADd with Carry. */
-#define AAB	0x02 /* Add Accumulator with carry by B register. */
-#define ADC_AB	0x04 /* ADC Absolute. */
-#define LDA_IN	0x05 /* LDA Indirect. */
-#define ADC_Z	0x06 /* ADC Zero Matrix. */
-#define PHP	0x08 /* PusH Processor status to stack. */
-#define CPB	0x09 /* ComPare B register. */
-#define PHB	0x0A /* PusH B register to stack. */
-#define DEC_AB	0x0C /* DEC Absolute. */
-#define DEC_Z	0x0D /* DEC Zero Matrix. */
-#define JMP_Z	0x0E /* JuMP to memory location. */
-#define JMP	0x10 /* JMP Absolute. */
-#define SBC	0x11 /* SuBtract with Carry. */
-#define SAB	0x12 /* Subtract Accumulator with carry by B register. */
-#define SBC_AB	0x14 /* SBC Absolute. */
-#define STA_IN	0x15 /* STA Indirect. */
-#define SBC_Z	0x16 /* SBC Zero Matrix. */
-#define ENT	0x18 /* ENd Threads. */
-#define CPY	0x19 /* ComPare Y register. */
-#define PLB	0x1A /* PuLl B register to stack. */
-#define INC_AB	0x1C /* INC Absolute. */
-#define INC_Z	0x1D /* INC Zero Matrix. */
-#define JSR	0x1E /* Jump to SubRoutine. */
-#define JSL	0x20 /* Jump to Subroutine Long. */
-#define AND	0x21 /* bitwise AND with accumulator. */
-#define ABA	0x22 /* bitwise And with Accumulator, and B register. */
-#define AND_AB	0x24 /* AND Absolute. */
-#define CMP_IN	0x25 /* CMP Indirect. */
-#define AND_Z	0x26 /* AND Zero Matrix. */
-#define PLP	0x28 /* PuLl Processor status from stack. */
-#define CPX	0x29 /* ComPare X register. */
-#define PHY	0x2A /* PusH Y register to stack. */
-#define CPB_AB	0x2C /* CPB Absolute. */
-#define CPB_Z	0x2D /* CPB Zero Matrix. */
-#define BPO_Z	0x2E /* Branch if POsitive. */
-#define BPO	0x30 /* BPO Absolute. */
-#define ORA	0x31 /* bitwise OR with Accumulator. */
-#define OAB	0x32 /* bitwise Or with Accumulator, and B register. */
-#define ORA_AB	0x34 /* ORA Absolute. */
-#define LDB_IN	0x35 /* LDB Indirect. */
-#define ORA_Z	0x36 /* ORA Zero Matrix. */
-#define STT	0x38 /* STart Threads. */
-#define LDA_ZY	0x39 /* LDA Zero Matrix, indexed with Y. */
-#define PLY	0x3A /* PuLl Y register from stack. */
-#define CPX_AB	0x3C /* CPX Absolute. */
-#define CPY_Z	0x3D /* CPY Zero Matrix. */
-#define BNG_Z	0x3E /* Branch if NeGative. */
-#define BNG	0x40 /* BNG Absolute. */
-#define XOR	0x41 /* bitwise XOR with accumulator. */
-#define XAB	0x42 /* bitwise Xor with Accumulator, and B register. */
-#define XOR_AB	0x44 /* XOR Absolute. */
-#define STB_IN	0x45 /* STB Indirect. */
-#define XOR_Z	0x46 /* XOR Zero Matrix. */
-#define PHA	0x48 /* PusH Accumulator to stack. */
-#define STA_ZY	0x49 /* STA Zero Matrix, indexed with Y. */
-#define PHX	0x4A /* PusH X register to stack. */
-#define CPY_AB	0x4C /* CPY Absolute. */
-#define CPX_Z	0x4D /* CPX Zero Matrix. */
-#define BCS_Z	0x4E /* Branch if Carry Set. */
-#define BCS	0x50 /* BCS Absolute. */
-#define LSL	0x51 /* Logical Shift Left. */
-#define LLB	0x52 /* Logical shift Left accumulator by B. */
-#define LSL_AB	0x54 /* LSL Absolute. */
-#define CPB_IN	0x55 /* CPB Indirect. */
-#define LSL_Z	0x56 /* LSL Zero Matrix. */
-#define CLC	0x58 /* CLear Carry flag. */
-#define LDB_ZY	0x59 /* LDB Zero Matrix, indexed with Y. */
-#define PLX	0x5A /* PuLl X register from stack. */
-#define LDA_IY	0x5C /* LDA Indirect Indexed. */
-#define LDA_IX	0x5D /* LDA Indexed Indirect. */
-#define BCC_Z	0x5E /* Branch if Carry Clear. */
-#define BCC	0x60 /* BCC Absolute. */
-#define LSR	0x61 /* Logical Shift Right. */
-#define LRB	0x62 /* Logical shift Right accumulator by B. */
-#define LSR_AB	0x64 /* LSR Absolute. */
-#define LDY_IN	0x65 /* LDY Indirect. */
-#define LSR_Z	0x66 /* LSR Zero Matrix. */
-#define PLA	0x68 /* PuLl Accumulator from stack. */
-#define STB_ZY	0x69 /* STB Zero Matrix, indexed with Y. */
-#define TAB	0x6A /* Transfer Accumulator to B.  */
-#define STA_IY	0x6C /* STA Indirect Indexed. */
-#define STA_IX	0x6D /* STA Indexed Indirect. */
-#define BEQ_Z	0x6E /* Branch if EQual. */
-#define BEQ	0x70 /* BEQ Absolute. */
-#define ROL	0x71 /* ROtate Left. */
-#define RLB	0x72 /* Rotate Left accumulator by B. */
-#define ROL_AB	0x74 /* ROL Absolute. */
-#define STY_IN	0x75 /* STY Indirect. */
-#define ROL_Z	0x76 /* ROL Zero Matrix. */
-#define SEC	0x78 /* SEt Carry flag. */
-#define LDA_ZX	0x79 /* LDA Zero Matrix, indexed with X. */
-#define TBA	0x7A /* Transfer B to Accumulator.  */
-#define CMP_IY	0x7C /* CMP Indirect Indexed. */
-#define CMP_IX	0x7D /* CMP Indexed Indirect. */
-#define BNE_Z	0x7E /* Branch if Not Equal. */
-#define BNE	0x80 /* BNE Absolute. */
-#define ROR	0x81 /* ROtate Right. */
-#define RRB	0x82 /* Rotate Right accumulator by B. */
-#define ROR_AB	0x84 /* ROR Absolute. */
-#define CPY_IN	0x85 /* CPY Indirect. */
-#define ROR_Z	0x86 /* ROR Zero Matrix. */
-#define DEY	0x88 /* DEcrement Y register. */
-#define STA_ZX	0x89 /* STA Zero Matrix, indexed with X. */
-#define TAY	0x8A /* Transfer Accumulator to Y. */
-#define LDB_IY	0x8C /* LDB Indirect Indexed. */
-#define LDB_IX	0x8D /* LDB Indexed Indirect. */
-#define BVS_Z	0x8E /* Branch if oVerflow Set. */
-#define BVS	0x90 /* BVS Absolute. */
-#define MUL	0x91 /* MULtiply accumulator. */
-#define MAB	0x92 /* Multiply Accumulator by B. */
-#define MUL_AB	0x94 /* MUL Absolute. */
-#define LDX_IN	0x95 /* LDX Indirect. */
-#define MUL_Z	0x96 /* MUL Zero Matrix. */
-#define CLI	0x98 /* CLear Interupt flag. */
-#define LDB_ZX	0x99 /* LDB Zero Matrix, indexed with X. */
-#define TYA	0x9A /* Transfer Y to Accumulator. */
-#define STB_IY	0x9C /* STB Indirect Indexed. */
-#define STB_IX	0x9D /* STB Indexed Indirect. */
-#define BVC_Z	0x9E /* Branch if oVerflow Clear. */
-#define BVC	0xA0 /* BVC Absolute. */
-#define DIV	0xA1 /* DIVide with accumulator. */
-#define DAB	0xA2 /* Divide Accumulator by B. */
-#define DIV_AB	0xA4 /* DIV Absolute. */
-#define STX_IN	0xA5 /* STX Indirect. */
-#define DIV_Z	0xA6 /* DIV Zero Matrix. */
-#define INY	0xA8 /* INcrement Y register. */
-#define STB_ZX	0xA9 /* STB Zero Matrix, indexed with X. */
-#define TAX	0xAA /* Transfer Accumulator to X. */
-#define CPB_IY	0xAC /* CPB Indirect Indexed. */
-#define CPB_IX	0xAD /* CPB Indexed Indirect. */
-#define RTS	0xAE /* ReTurn from Subroutine. */
-#define RTL	0xB0 /* ReTurn from subroutine Long. */
-#define CMP	0xB1 /* CoMPare accumulator. */
-#define CAB	0xB2 /* Compare Accumulator, and B. */
-#define CMP_AB	0xB4 /* CMP Absolute. */
-#define CPX_IN	0xB5 /* CPX Indirect. */
-#define CMP_Z	0xB6 /* CMP Zero Matrix. */
-#define SEI	0xB8 /* SEt Interupt flag. */
-#define LDX	0xB9 /* LoaD X register. */
-#define TXA	0xBA /* Transfer X to Accumulator. */
-#define LDX_AB	0xBC /* LDX Absolute. */
-#define LDX_Z	0xBD /* LDX Zero Matrix. */
-#define JSR_IN	0xBE /* JSR Indirect. */
-#define RTI	0xC0 /* ReTurn from Interrupt. */
-#define LDA	0xC1 /* LoaD Accumulator. */
-#define LDA_AB	0xC4 /* LDA Absolute. */
-#define DEX	0xC5 /* DEcrement X register. */
-#define LDA_Z	0xC6 /* LDA Zero Matrix. */
-#define CLV	0xC8 /* CLear oVerflow flag. */
-#define LDX_ZY	0xC9 /* LDX Zero Matrix, indexed with Y. */
-#define TYX	0xCA /* Transfer Y to X. */
-#define STA	0xCC /* STA Absolute. */
-#define STA_Z	0xCD /* STore Accumulator. */
-#define JMP_IN	0xCE /* JMP Indirect. */
-#define TSX	0xD0 /* Transfer Stack pointer to X. */
-#define LDB	0xD1 /* LoaD B register. */
-#define LDB_AB	0xD4 /* LDB Absolute. */
-#define INX	0xD5 /* INcrement X register. */
-#define LDB_Z	0xD6 /* LDB Zero Matrix. */
-#define WAI	0xD8 /* WAit for Interrupt. */
-#define STX_ZY	0xD9 /* STX Zero Matrix, indexed with Y. */
-#define TXY	0xDA /* Transfer X to Y. */
-#define STB	0xDC /* STB Absolute. */
-#define STB_Z	0xDD /* STore B register. */
-#define TXS	0xE0 /* Transfer X to Stack pointer. */
-#define LDY	0xE1 /* LoaD Y register. */
-#define LDY_AB	0xE4 /* LDY Absolute. */
-#define DEC	0xE5 /* DECrement accumulator. */
-#define LDY_Z	0xE6 /* LDY Zero Matrix. */
-#define BRK	0xE8 /* BReaK. */
-#define LDY_ZX	0xE9 /* LDY Zero Matrix, indexed with X. */
-#define NOP	0xEA /* No OPeration. */
-#define STY	0xEC /* STY Absolute. */
-#define STY_Z	0xED /* STore Y register. */
-#define DEB	0xEE /* Decrement B register. */
-#define ASR	0xF1 /* Arithmetic Shift Right. */
-#define ARB	0xF2 /* Arithmetic shift Right accumulator by B. */
-#define ASR_AB	0xF4 /* ASR Absolute. */
-#define INC	0xF5 /* INCrement accumulator. */
-#define ASR_Z	0xF6 /* ASR Zero Matrix. */
-#define STY_ZX	0xF9 /* STY Zero Matrix, indexed with X. */
-#define STX	0xFC /* STX Absolute. */
-#define STX_Z	0xFD /* STore X register. */
-#define INB	0xFE /* Increment B register. */
-
 #define OPNUM 90
 
-#define C ((uint64_t)1 << 0)
-#define Z ((uint64_t)1 << 1)
-#define I ((uint64_t)1 << 2)
-#define V ((uint64_t)1 << 6)
-#define N ((uint64_t)1 << 7)
+#define C (1 << 0) /* Carry flag. */
+#define Z (1 << 1) /* Zero flag. */
+#define I (1 << 2) /* Interrupt flag. */
+#define V (1 << 6) /* oVerflow flag. */
+#define N (1 << 7) /* Negative flag. */
 
-uint8_t *addr; /* Address Space. */
+extern uint8_t *addr; /* Address Space. */
 
 union reg {
 	uint8_t u8[8];
@@ -219,194 +36,4 @@ struct sux {
 	uint8_t crt; /* Current running threads. */
 };
 
-enum {IMM, ZM, ZMX, ZMY, IND, INDX, INDY, ABS, IMPL};
-
-static const uint8_t optype[0x100] = {
-	[0x00] = IMPL,
-	[0x01] = IMM,
-	[0x02] = IMPL,
-	[0x04] = ABS,
-	[0x05] = IND,
-	[0x06] = ZM,
-	[0x08] = IMM,
-	[0x09] = IMM,
-	[0x0A] = IMM,
-	[0x0C] = ABS,
-	[0x0D] = ZM,
-	[0x0E] = ZM,
-	[0x10] = ABS,
-	[0x11] = IMM,
-	[0x12] = IMPL,
-	[0x14] = ABS,
-	[0x15] = IND,
-	[0x16] = ZM,
-	[0x18] = IMM,
-	[0x19] = IMM,
-	[0x1A] = IMM,
-	[0x1C] = ABS,
-	[0x1D] = ZM,
-	[0x1E] = ZM,
-	[0x20] = ABS,
-	[0x21] = IMM,
-	[0x22] = IMPL,
-	[0x24] = ABS,
-	[0x25] = IND,
-	[0x26] = ZM,
-	[0x28] = IMM,
-	[0x29] = IMM,
-	[0x2A] = IMM,
-	[0x2C] = ABS,
-	[0x2D] = ZM,
-	[0x2E] = ZM,
-	[0x30] = ABS,
-	[0x31] = IMM,
-	[0x32] = IMPL,
-	[0x34] = ABS,
-	[0x35] = IND,
-	[0x36] = ZM,
-	[0x38] = IMM,
-	[0x39] = ZMY,
-	[0x3A] = IMM,
-	[0x3C] = ABS,
-	[0x3D] = ZM,
-	[0x3E] = ZM,
-	[0x40] = ABS,
-	[0x41] = IMM,
-	[0x42] = IMPL,
-	[0x44] = ABS,
-	[0x45] = IND,
-	[0x46] = ZM,
-	[0x48] = IMM,
-	[0x49] = ZMY,
-	[0x4A] = IMM,
-	[0x4C] = ABS,
-	[0x4D] = ZM,
-	[0x4E] = ZM,
-	[0x50] = ABS,
-	[0x51] = IMM,
-	[0x52] = IMPL,
-	[0x54] = ABS,
-	[0x55] = IND,
-	[0x56] = ZM,
-	[0x58] = IMPL,
-	[0x59] = ZMY,
-	[0x5A] = IMM,
-	[0x5C] = INDY,
-	[0x5D] = INDX,
-	[0x5E] = ZM,
-	[0x60] = ABS,
-	[0x61] = IMM,
-	[0x62] = IMPL,
-	[0x64] = ABS,
-	[0x65] = IND,
-	[0x66] = ZM,
-	[0x68] = IMM,
-	[0x69] = ZMY,
-	[0x6A] = IMPL,
-	[0x6C] = INDY,
-	[0x6D] = INDX,
-	[0x6E] = ZM,
-	[0x70] = ABS,
-	[0x71] = IMM,
-	[0x72] = IMPL,
-	[0x74] = ABS,
-	[0x75] = IND,
-	[0x76] = ZM,
-	[0x78] = IMPL,
-	[0x79] = ZMX,
-	[0x7A] = IMPL,
-	[0x7C] = INDY,
-	[0x7D] = INDX,
-	[0x7E] = ZM,
-	[0x80] = ABS,
-	[0x81] = IMM,
-	[0x82] = IMPL,
-	[0x84] = ABS,
-	[0x85] = IND,
-	[0x86] = ZM,
-	[0x88] = IMPL,
-	[0x89] = ZMX,
-	[0x8A] = IMPL,
-	[0x8C] = INDY,
-	[0x8D] = INDX,
-	[0x8E] = ZM,
-	[0x90] = ABS,
-	[0x91] = IMM,
-	[0x92] = IMPL,
-	[0x94] = ABS,
-	[0x95] = IND,
-	[0x96] = ZM,
-	[0x98] = IMPL,
-	[0x99] = ZMX,
-	[0x9A] = IMPL,
-	[0x9C] = INDY,
-	[0x9D] = INDX,
-	[0x9E] = ZM,
-	[0xA0] = ABS,
-	[0xA1] = IMM,
-	[0xA2] = IMPL,
-	[0xA4] = ABS,
-	[0xA5] = IND,
-	[0xA6] = ZM,
-	[0xA8] = IMPL,
-	[0xA9] = ZMX,
-	[0xAA] = IMPL,
-	[0xAC] = INDY,
-	[0xAD] = INDX,
-	[0xAE] = IMPL,
-	[0xB0] = IMPL,
-	[0xB1] = IMM,
-	[0xB2] = IMPL,
-	[0xB4] = ABS,
-	[0xB5] = IND,
-	[0xB6] = ZM,
-	[0xB8] = IMPL,
-	[0xB9] = IMM,
-	[0xBA] = IMPL,
-	[0xBC] = ABS,
-	[0xBD] = ZM,
-	[0xBE] = IND,
-	[0xC0] = IMPL,
-	[0xC1] = IMM,
-	[0xC4] = ABS,
-	[0xC5] = IMPL,
-	[0xC6] = ZM,
-	[0xC8] = IMPL,
-	[0xC9] = ZMY,
-	[0xCA] = IMPL,
-	[0xCC] = ABS,
-	[0xCD] = ZM,
-	[0xCE] = IND,
-	[0xD0] = IMPL,
-	[0xD1] = IMM,
-	[0xD4] = ABS,
-	[0xD5] = IMPL,
-	[0xD6] = ZM,
-	[0xD8] = IMPL,
-	[0xD9] = ZMY,
-	[0xDA] = IMPL,
-	[0xDC] = ABS,
-	[0xDD] = ZM,
-	[0xE0] = IMM,
-	[0xE1] = IMM,
-	[0xE4] = ABS,
-	[0xE5] = IMPL,
-	[0xE6] = ZM,
-	[0xE8] = IMPL,
-	[0xE9] = ZMX,
-	[0xEA] = IMPL,
-	[0xEC] = ABS,
-	[0xED] = ZM,
-	[0xEE] = IMPL,
-	[0xF1] = IMM,
-	[0xF2] = IMPL,
-	[0xF4] = ABS,
-	[0xF5] = IMPL,
-	[0xF6] = ZM,
-	[0xF9] = ZMX,
-	[0xFC] = ABS,
-	[0xFD] = ZM,
-	[0xFE] = IMPL
-};
-
 extern int asmmon();
-- 
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