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path: root/asmmon.h
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#include "opcode.h"
#include <ctype.h>
#include <string.h>

#define MAX_TOK 0x1000

typedef struct tok token;
typedef struct ln line;
typedef struct sym symbol;
typedef struct fix fixup;
typedef struct inst instruction;
typedef struct expr expr;


struct tok {
	token *next;		/* Pointer to the next token. */
	uint8_t id;		/* Token ID.      */
	uint8_t type;		/* Token type ID. */
	uint8_t subtype;	/* Token subtype ID. */

	uint8_t tab;		/* Number of tabs.        */
	uint8_t space;		/* Number of spaces.      */

	uint8_t subtab;		/* Number of sub-token tabs.    */
	uint8_t subspace;	/* Number of sub-token spaces.  */

	uint8_t digits;		/* Number of digits. */

	/* Token value(s). */
	union {
		expr *expr;
		symbol *sym;
		char *str;
		uint8_t  byte ;
		uint16_t word ;
		uint32_t dword;
		uint64_t qword;
	};
};

struct ln {
	line  *next;		/* Pointer to the next line.   */
	token *tok;		/* The token(s) for this line. */
	uint16_t count;		/* Total tokens for this line. */
	uint16_t bline;		/* Number of blank lines.      */
	uint32_t linenum;	/* Line number.                */
	uint64_t addr;		/* The address of this line.   */
};



struct fix {
	fixup *next;
	symbol *s;
	token *t;
	uint64_t adr;
};

struct sym {
	symbol *next;
	symbol *prev;
	symbol *down;
	symbol *up;
	int depth;
	uint16_t count;
	uint64_t val;
	uint8_t isstruct : 1;
	uint8_t isanon : 1;
	uint8_t def : 1;
	char *name;
	uint16_t id;
};

struct inst {
	uint32_t am;	/* Addressing modes. */
	uint8_t op;	/* Base value used to get the actual opcode. */
};

struct expr {
	int type;	/* Expression type. */

	expr *left;	/* Left side of expression. */
	expr *right;	/* Right side of expression. */

	/* Expression value. */
	union {
		uint64_t val;
		symbol *sym;
	} value;
};


extern char lexeme[];
extern char *string[];
extern char *comment[];
extern uint16_t incl[];
extern line *lines;
extern line *last_line;
extern token *tokens;
extern token *last_tok;
extern symbol *symbols;
extern symbol *last_sym;
extern symbol *locals;
extern symbol *last_loc;
extern fixup *fixups;
extern fixup *last_fix;

extern uint8_t lex_type;

enum dir {
	DIR_ORG,
	DIR_BYTE,
	DIR_WORD,
	DIR_DWORD,
	DIR_QWORD,
	DIR_INCLUDE,
	DIR_RES,
	DIR_STRUCT,
	DIR_UNION,
	DIR_ENDSTRUCT,
	DIR_ENDUNION
};

enum token {
	TOK_DIR,
	TOK_LOCAL,
	TOK_LABEL,
	TOK_SYM,
	TOK_EXPR,
	TOK_CSV,
	TOK_STRING,
	TOK_CHAR,
	TOK_IND,
	TOK_IMM,
	TOK_BREG,
	TOK_OPCODE,
	TOK_EXTOP,
	TOK_ORTHO,
	TOK_REG,
	TOK_MEM,
	TOK_CC,
	TOK_OS,
	TOK_RS,
	TOK_OF,
	TOK_COMMENT,
	TOK_HEX,
	TOK_DEC,
	TOK_BIN,
	TOK_INCLUDE,
	TOK_STRUCT,
	TOK_UNION,
	TOK_MEMBER
};

enum pre_token {
	PTOK_DOT,
	PTOK_AT,
	PTOK_COLON,
	PTOK_EQU,
	PTOK_PLUS,
	PTOK_MINUS,
	PTOK_GT,
	PTOK_LT,
	PTOK_PIPE,
	PTOK_LBRACK,
	PTOK_RBRACK,
	PTOK_COMMA,
	PTOK_B,
	PTOK_E,
	PTOK_X,
	PTOK_Y,
	PTOK_S,
	PTOK_P,
	PTOK_A,
	PTOK_C,
	PTOK_D,
	PTOK_F,
	PTOK_R,
	PTOK_DQUOTE,
	PTOK_SQUOTE,
	PTOK_HASH,
	PTOK_SCOLON,
	PTOK_DOLLAR,
	PTOK_PERCENT,
	PTOK_NUMBER,
	PTOK_ALPHA,
	PTOK_OTHER
};

enum expression {
	EXPR_PLUS,
	EXPR_MINUS,
	EXPR_LOW,
	EXPR_HIGH,
	EXPR_OR,
	EXPR_LSHFT,
	EXPR_RSHFT,
	EXPR_MUL,
	EXPR_HEX,
	EXPR_DEC,
	EXPR_BIN,
	EXPR_CHAR,
	EXPR_SYM,
	EXPR_REG,
	EXPR_NONE
};

enum addrmode {
	AM_IMM    = (1 <<  0),
	AM_ZM     = (1 <<  1),
	AM_ZMX    = (1 <<  2),
	AM_ZMY    = (1 <<  3),
	AM_IND    = (1 <<  4),
	AM_INDX   = (1 <<  5),
	AM_INDY   = (1 <<  6),
	AM_ABS    = (1 <<  7),
	AM_REL    = (1 <<  8),
	AM_BREG   = (1 <<  9),
	AM_IMPL   = (1 << 10),
	AM_INDX2  = (1 << 11),
	AM_ZM2    = (1 << 12),
	AM_EIND   = (1 << 13),
	AM_EIND2  = (1 << 14),
	AM_ABY    = (1 << 15),
	AM_ABX    = (1 << 16),
	AM_AIND   = (1 << 17),
	AM_AINDY  = (1 << 18),
	AM_AINDX  = (1 << 19),
	AM_ORTHO  = (1 << 20),
	AM_ORTHO2 = (1 << 21)
};

enum ind {
	CMP_IND =  0,
	CMP_IDY =  1,
	CMP_IDX =  2,
	CPB_IND =  3,
	CPB_IDY =  4,
	CPB_IDX =  5,
	JMP_IND =  6,
	JSR_IND =  7,
	LDA_IND =  8,
	LDA_IDY =  9,
	LDB_IND = 10,
	LDB_IDY = 11,
	LDX_IND = 12,
	LDY_IND = 13,
	STA_IND = 14,
	STA_IDY = 15,
	STB_IND = 16,
	STB_IDY = 17,
	STX_IND = 18,
	STY_IND = 19
};

enum eind {
	DEC_EIND,
	INC_EIND,
	STY_EIND,
	STA_EIND,
	STB_EIND,
	LDX_EIND,
	STX_EIND,
	CPB_EIND,
	CPX_EIND,
	CPY_EIND
};

enum baseext_ortho {
	OP_LEA,
	OP_PEA,
	OP_ADD,
	OP_SUB,
	OP_NOT,
	OP_CLZ,
	OP_CLO,
	OP_SWP,
        OP_PCN
};

static const uint8_t ext_ortho_ops[9] = {
	[OP_LEA] = 0x63,
	[OP_PEA] = 0x0C,
	[OP_ADD] = 0x03,
	[OP_SUB] = 0x23,
	[OP_NOT] = 0x44,
	[OP_CLZ] = 0xC4,
	[OP_CLO] = 0xE4,
	[OP_SWP] = 0x2C,
	[OP_PCN] = 0x43
};

static const uint8_t ind_ops[20] = {
	[CMP_IND] = CMP_IN,
	[CMP_IDY] = CMP_IY,
	[CMP_IDX] = CMP_IX,
	[CPB_IND] = CPB_IN,
	[CPB_IDY] = CPB_IY,
	[CPB_IDX] = CPB_IX,
	[JMP_IND] = JMP_IN,
	[JSR_IND] = JSR_IN,
	[LDA_IND] = LDA_IN,
	[LDA_IDY] = LDA_IY,
	[LDB_IND] = LDB_IN,
	[LDB_IDY] = LDB_IY,
	[LDX_IND] = LDX_IN,
	[LDY_IND] = LDY_IN,
	[STA_IND] = STA_IN,
	[STA_IDY] = STA_IY,
	[STB_IND] = STB_IN,
	[STB_IDY] = STB_IY,
	[STX_IND] = STX_IN,
	[STY_IND] = STY_IN
};

static const uint8_t eind_base_ops[10] = {
	[DEC_EIND] = DEC_E,
	[INC_EIND] = INC_E,
	[STY_EIND] = STY_E,
	[STA_EIND] = STA_E,
	[STB_EIND] = STB_E,
	[LDX_EIND] = LDX_E,
	[STX_EIND] = STX_E,
	[CPB_EIND] = CPB_E,
	[CPX_EIND] = CPX_E,
	[CPY_EIND] = CPY_E
};

static const instruction inst[OPNUM] = {
	[ADC] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG|AM_EIND|AM_ORTHO), 0x01},
	[AND] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG|AM_EIND|AM_ORTHO), 0x41},
	[ASR] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG|AM_EIND|AM_ORTHO), 0x62},
	[BCC] = {(AM_REL), 0xA0},
	[BCS] = {(AM_REL), 0x90},
	[BEQ] = {(AM_REL), 0xB0},
	[BNE] = {(AM_REL), 0xC0},
	[BNG] = {(AM_REL), 0x80},
	[BPO] = {(AM_REL), 0x70},
	[BRA] = {(AM_REL), 0xF0},
	[BRK] = {(AM_IMPL), 0x69},
	[BVC] = {(AM_REL), 0xE0},
	[BVS] = {(AM_REL), 0xD0},
	[CLC] = {(AM_IMPL), 0x09},
	[CLI] = {(AM_IMPL), 0x29},
	[CLV] = {(AM_IMPL), 0x49},
	[CMP] = {(AM_IMM|AM_ZM|AM_IND|AM_INDY|AM_ABS|AM_BREG|AM_INDX2|AM_EIND|AM_ORTHO), 0x82},
	[CPB] = {(AM_IMM|AM_ZM|AM_IND|AM_INDY|AM_ABS|AM_INDX2|AM_EIND2), 0x04},
	[CPS] = {(AM_IMPL), 0x00},
	[CPX] = {(AM_IMM|AM_ZM|AM_IND|AM_ABS|AM_EIND2), 0x24},
	[CPY] = {(AM_IMM|AM_ZM|AM_IND|AM_ABS|AM_EIND2), 0x44},
	[DEB] = {(AM_IMPL), 0x99},
	[DEC] = {(AM_IMPL|AM_ZM|AM_ABS|AM_EIND2|AM_ORTHO2), 0x84},
	[DEX] = {(AM_IMPL), 0xB9},
	[DEY] = {(AM_IMPL), 0x79},
	[DIV] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG|AM_EIND|AM_ORTHO), 0x42},
	[INB] = {(AM_IMPL), 0xA9},
	[INC] = {(AM_IMPL|AM_ZM|AM_ABS|AM_EIND2|AM_ORTHO2), 0xA4},
	[INX] = {(AM_IMPL), 0xC9},
	[INY] = {(AM_IMPL), 0x89},
	[JMP] = {(AM_ABS|AM_IND|AM_ZM2|AM_EIND), 0x00},
	[JSR] = {(AM_ABS|AM_IND|AM_ZM2|AM_EIND), 0x20},
	[LDA] = {(AM_IMM|AM_ZM|AM_ZMX|AM_ZMY|AM_IND|AM_INDX|AM_INDY|AM_ABS|AM_EIND), 0xC2},
	[LDB] = {(AM_IMM|AM_ZM|AM_ZMX|AM_ZMY|AM_IND|AM_INDX|AM_INDY|AM_ABS|AM_EIND), 0xE2},
	[LDX] = {(AM_IMM|AM_ZM|AM_IND|AM_ABS|AM_EIND2), 0x64},
	[LDY] = {(AM_IMM|AM_ZM|AM_IND|AM_ABS|AM_EIND), 0xA2},
	[LSL] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG|AM_EIND|AM_ORTHO), 0xA1},
	[LSR] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG|AM_EIND|AM_ORTHO), 0xC1},
	[MUL] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG|AM_EIND|AM_ORTHO), 0x22},
	[NOP] = {(AM_IMPL), 0xEA},
	[ORA] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG|AM_EIND), 0x61},
	[PHA] = {(AM_IMPL), 0x8E},
	[PHB] = {(AM_IMPL), 0xAE},
	[PHP] = {(AM_IMPL), 0x6E},
	[PHX] = {(AM_IMPL), 0xEE},
	[PHY] = {(AM_IMPL), 0xCE},
	[PLA] = {(AM_IMPL), 0x9E},
	[PLB] = {(AM_IMPL), 0xBE},
	[PLP] = {(AM_IMPL), 0x7E},
	[PLX] = {(AM_IMPL), 0xFE},
	[PLY] = {(AM_IMPL), 0xDE},
	[ROL] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG|AM_EIND|AM_ORTHO), 0xE1},
	[ROR] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG|AM_EIND|AM_ORTHO), 0x02},
	[RTI] = {(AM_IMPL), 0x60},
	[RTS] = {(AM_IMPL), 0x50},
	[SBC] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG|AM_EIND|AM_ORTHO), 0x21},
	[SEC] = {(AM_IMPL), 0x19},
	[SEI] = {(AM_IMPL), 0x39},
	[STA] = {(AM_ZM|AM_ZMX|AM_ZMY|AM_IND|AM_INDX|AM_INDY|AM_ABS|AM_EIND2), 0x28},
	[STB] = {(AM_ZM|AM_ZMX|AM_ZMY|AM_IND|AM_INDX|AM_INDY|AM_ABS|AM_EIND2), 0x48},
	[STX] = {(AM_ZM|AM_IND|AM_ABS|AM_EIND2), 0x68},
	[STY] = {(AM_ZM|AM_IND|AM_ABS|AM_EIND2), 0x08},
	[TAB] = {(AM_IMPL), 0x0A},
	[TAX] = {(AM_IMPL), 0x4A},
	[TAY] = {(AM_IMPL), 0x2A},
	[TBA] = {(AM_IMPL), 0x1A},
	[TSX] = {(AM_IMPL), 0x8A},
	[TXA] = {(AM_IMPL), 0x5A},
	[TXS] = {(AM_IMPL), 0x9A},
	[TXY] = {(AM_IMPL), 0x7A},
	[TYA] = {(AM_IMPL), 0x3A},
	[TYX] = {(AM_IMPL), 0x6A},
	[WAI] = {(AM_IMPL), 0x59},
	[XOR] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG|AM_EIND|AM_ORTHO), 0x81}
};

static const instruction ext_inst[EXT_OPNUM] = {
	[LEA] = {(AM_ZM|AM_ZMX|AM_ZMY|AM_IND|AM_INDX|AM_INDY|AM_ABS|AM_ABX|AM_ABY|AM_AIND|AM_AINDX|AM_AINDY|AM_ORTHO), 0x03},
	[PEA] = {(AM_ZM|AM_ZMX|AM_ZMY|AM_IND|AM_INDX|AM_INDY|AM_ABS|AM_ABX|AM_ABY|AM_AIND|AM_AINDX|AM_AINDY|AM_ORTHO2), 0x23},
	[ADD] = {(AM_IMM|AM_ZM|AM_ABS|AM_EIND|AM_ORTHO), 0x06},
	[SUB] = {(AM_IMM|AM_ZM|AM_ABS|AM_EIND|AM_ORTHO), 0x26},
	[ADE] = {(AM_IMM|AM_ZM|AM_ABS), 0x46},
	[SBE] = {(AM_IMM|AM_ZM|AM_ABS), 0x66},
	[ADS] = {(AM_IMM|AM_ZM|AM_ABS|AM_EIND), 0x86},
	[SBS] = {(AM_IMM|AM_ZM|AM_ABS|AM_EIND), 0xA6},
	[NOT] = {(AM_IMPL|AM_ZM|AM_ABS|AM_EIND|AM_ORTHO2), 0xC6},
	[LLM] = {(AM_ZM|AM_ABS|AM_EIND), 0x48},
	[LRM] = {(AM_ZM|AM_ABS|AM_EIND), 0x68},
	[RLM] = {(AM_ZM|AM_ABS|AM_EIND), 0x88},
	[RRM] = {(AM_ZM|AM_ABS|AM_EIND), 0xA8},
	[ARM] = {(AM_ZM|AM_ABS|AM_EIND), 0xC8},
	[PHE] = {(AM_IMPL), 0x6B},
	[PLE] = {(AM_IMPL), 0x7B},
	[CPE] = {(AM_IMM|AM_ZM|AM_ABS|AM_EIND), 0x08},
	[ICE] = {(AM_ZM|AM_ABS|AM_EIND), 0x28},
	[LDS] = {(AM_IMM|AM_ZM|AM_ABS|AM_EIND), 0x40},
	[DEE] = {(AM_IMPL), 0x8B},
	[INE] = {(AM_IMPL), 0x9B},
	[DES] = {(AM_IMPL), 0xAB},
	[INS] = {(AM_IMPL), 0xBB},
	[STS] = {(AM_ZM|AM_ABS|AM_EIND), 0xA0},
	[STE] = {(AM_ZM|AM_ABS), 0xC0},
	[STZ] = {(AM_ZM|AM_ABS|AM_EIND), 0xE0},
	[SCO] = {(AM_IMM|AM_ZM|AM_ABS|AM_EIND), 0x60},
	[ECO] = {(AM_ZM|AM_ABS|AM_EIND), 0x80},
	[CLZ] = {(AM_ZM|AM_ABS|AM_EIND|AM_ORTHO2), 0x05},
	[CLO] = {(AM_ZM|AM_ABS|AM_EIND|AM_ORTHO2), 0x25},
	[BIT] = {(AM_ZM|AM_ABS|AM_EIND), 0x45},
	[MMV] = {(AM_IMPL), 0xCB},
	[SWP] = {(AM_IMPL|AM_ZM|AM_ABS|AM_EIND|AM_ORTHO2), 0xE6},
	[PCN] = {(AM_ZM|AM_ABS|AM_EIND|AM_ORTHO), 0xE8},
	[REP] = {(AM_REL), 0xBD},
	[REQ] = {(AM_REL), 0xCD},
	[RNE] = {(AM_REL), 0xDD},
	[LNG] = {(AM_IMM|AM_EIND2), 0x0D},
	[LPO] = {(AM_IMM|AM_EIND2), 0x2D},
	[LCS] = {(AM_IMM|AM_EIND2), 0x4D},
	[LCC] = {(AM_IMM|AM_EIND2), 0x6D},
	[LEQ] = {(AM_IMM|AM_EIND2), 0x8D},
	[LNE] = {(AM_IMM|AM_EIND2), 0xAD},
	[SNG] = {(AM_EIND2), 0x1D},
	[SPO] = {(AM_EIND2), 0x3D},
	[SCS] = {(AM_EIND2), 0x5D},
	[SCC] = {(AM_EIND2), 0x7D},
	[SEQ] = {(AM_EIND2), 0x9D},
	[SNE] = {(AM_EIND2), 0xBD}
};

static const instruction ortho_inst[ORTHO_OPNUM] = {
	[MNG] = {(AM_ORTHO), 0x00},
	[MPO] = {(AM_ORTHO), 0x20},
	[MCS] = {(AM_ORTHO), 0x40},
	[MCC] = {(AM_ORTHO), 0x60},
	[MEQ] = {(AM_ORTHO), 0x80},
	[MNE] = {(AM_ORTHO), 0xA0},
	[MVS] = {(AM_ORTHO), 0xC0},
	[MVC] = {(AM_ORTHO), 0xE0},
	[OR ] = {(AM_ORTHO), 0x61},
	[MOV] = {(AM_ORTHO), 0xA2},
	[IML] = {(AM_ORTHO), 0xC2},
	[IDV] = {(AM_ORTHO), 0xE2},
	[PSH] = {(AM_ORTHO2), 0x04},
	[PUL] = {(AM_ORTHO2), 0x24},
	[NEG] = {(AM_ORTHO2), 0x64},
	[SET] = {(AM_ORTHO2), 0x05}
};

static const char *dir_t[11] = {
	[ 0] = "org",
	[ 1] = "byte",
	[ 2] = "word",
	[ 3] = "dword",
	[ 4] = "qword",
	[ 5] = "include",
	[ 6] = "res",
	[ 7] = "struct",
	[ 8] = "union",
	[ 9] = "endstruct",
	[10] = "endunion"
};

static const char *rs_t[4] = {
	[0] = "",
	[1] = ".w",
	[2] = ".d",
	[3] = ".q"
};

static const char *lex_tok[] = {
	[TOK_DIR    ] = "TOK_DIR",
	[TOK_LOCAL  ] = "TOK_LOCAL",
	[TOK_LABEL  ] = "TOK_LABEL",
	[TOK_SYM    ] = "TOK_SYM",
	[TOK_EXPR   ] = "TOK_EXPR",
	[TOK_CSV    ] = "TOK_CSV",
	[TOK_STRING ] = "TOK_STRING",
	[TOK_CHAR   ] = "TOK_CHAR",
	[TOK_IND    ] = "TOK_IND",
	[TOK_IMM    ] = "TOK_IMM",
	[TOK_BREG   ] = "TOK_BREG",
	[TOK_OPCODE ] = "TOK_OPCODE",
	[TOK_EXTOP  ] = "TOK_EXTOP",
	[TOK_ORTHO  ] = "TOK_ORTHO",
	[TOK_REG    ] = "TOK_REG",
	[TOK_MEM    ] = "TOK_MEM",
	[TOK_CC     ] = "TOK_CC",
	[TOK_OS     ] = "TOK_OS",
	[TOK_RS     ] = "TOK_RS",
	[TOK_OF     ] = "TOK_OF",
	[TOK_COMMENT] = "TOK_COMMENT",
	[TOK_HEX    ] = "TOK_HEX",
	[TOK_DEC    ] = "TOK_DEC",
	[TOK_BIN    ] = "TOK_BIN",
	[TOK_INCLUDE] = "TOK_INCLUDE",
	[TOK_STRUCT ] = "TOK_STRUCT",
	[TOK_UNION  ] = "TOK_UNION",
	[TOK_MEMBER ] = "TOK_MEMBER"
};

static const char *adrmode[] = {
	[IMM  ] = "IMM",
	[ZM   ] = "ZM",
	[ZMX  ] = "ZMX",
	[ZMY  ] = "ZMY",
	[IND  ] = "IND",
	[INDX ] = "INDX",
	[INDY ] = "INDY",
	[ABS  ] = "ABS",
	[REL  ] = "REL",
	[BREG ] = "BREG",
	[IMPL ] = "IMPL",
	[ABSX ] = "ABSX",
	[ABSY ] = "ABSY",
	[AIND ] = "AIND",
	[AINDX] = "AINDX",
	[AINDY] = "AINDY",
	[EIND ] = "EIND"
/*	[ZMR  ] = "ZMR",
	[ZINDR] = "ZINDR",
	[ZRIND] = "ZRIND",
	[AINDR] = "AINDR",
	[AINDY] = "ARIND",*/
};

static const char *mne[OPNUM] = {
	[ADC] = "ADC",
	[AND] = "AND",
	[ASR] = "ASR",
	[BCC] = "BCC",
	[BCS] = "BCS",
	[BEQ] = "BEQ",
	[BNE] = "BNE",
	[BNG] = "BNG",
	[BPO] = "BPO",
	[BRA] = "BRA",
	[BRK] = "BRK",
	[BVC] = "BVC",
	[BVS] = "BVS",
	[CLC] = "CLC",
	[CLI] = "CLI",
	[CLV] = "CLV",
	[CMP] = "CMP",
	[CPB] = "CPB",
	[CPS] = "CPS",
	[CPX] = "CPX",
	[CPY] = "CPY",
	[DEB] = "DEB",
	[DEC] = "DEC",
	[DEX] = "DEX",
	[DEY] = "DEY",
	[DIV] = "DIV",
	[INB] = "INB",
	[INC] = "INC",
	[INX] = "INX",
	[INY] = "INY",
	[JMP] = "JMP",
	[JSR] = "JSR",
	[LDA] = "LDA",
	[LDB] = "LDB",
	[LDX] = "LDX",
	[LDY] = "LDY",
	[LSL] = "LSL",
	[LSR] = "LSR",
	[MUL] = "MUL",
	[NOP] = "NOP",
	[ORA] = "ORA",
	[PHA] = "PHA",
	[PHB] = "PHB",
	[PHP] = "PHP",
	[PHX] = "PHX",
	[PHY] = "PHY",
	[PLA] = "PLA",
	[PLB] = "PLB",
	[PLP] = "PLP",
	[PLX] = "PLX",
	[PLY] = "PLY",
	[ROL] = "ROL",
	[ROR] = "ROR",
	[RTI] = "RTI",
	[RTS] = "RTS",
	[SBC] = "SBC",
	[SEC] = "SEC",
	[SEI] = "SEI",
	[STA] = "STA",
	[STB] = "STB",
	[STX] = "STX",
	[STY] = "STY",
	[TAB] = "TAB",
	[TAX] = "TAX",
	[TAY] = "TAY",
	[TBA] = "TBA",
	[TSX] = "TSX",
	[TXA] = "TXA",
	[TXS] = "TXS",
	[TXY] = "TXY",
	[TYA] = "TYA",
	[TYX] = "TYX",
	[WAI] = "WAI",
	[XOR] = "XOR"
};

static const char *ext_mne[EXT_OPNUM] = {
	[LEA] = "LEA",
        [PEA] = "PEA",
        [ADD] = "ADD",
        [SUB] = "SUB",
        [ADE] = "ADE",
        [SBE] = "SBE",
        [ADS] = "ADS",
        [SBS] = "SBS",
        [NOT] = "NOT",
        [LLM] = "LLM",
        [LRM] = "LRM",
        [RLM] = "RLM",
        [RRM] = "RRM",
        [ARM] = "ARM",
        [PHE] = "PHE",
        [PLE] = "PLE",
        [CPE] = "CPE",
        [ICE] = "ICE",
        [LDS] = "LDS",
        [DEE] = "DEE",
        [INE] = "INE",
        [DES] = "DES",
        [INS] = "INS",
        [STS] = "STS",
        [STE] = "STE",
        [STZ] = "STZ",
        [SCO] = "SCO",
        [ECO] = "ECO",
        [CLZ] = "CLZ",
        [CLO] = "CLO",
        [BIT] = "BIT",
        [MMV] = "MMV",
        [SWP] = "SWP",
        [PCN] = "PCN",
        [REP] = "REP",
        [REQ] = "REQ",
        [RNE] = "RNE",
        [LNG] = "LNG",
        [LPO] = "LPO",
        [LCS] = "LCS",
        [LCC] = "LCC",
        [LEQ] = "LEQ",
        [LNE] = "LNE",
        [SNG] = "SNG",
        [SPO] = "SPO",
        [SCS] = "SCS",
        [SCC] = "SCC",
        [SEQ] = "SEQ",
        [SNE] = "SNE"
};

static const char *ortho_mne[ORTHO_OPNUM] = {
	[MNG] = "MNG",
	[MPO] = "MPO",
	[MCS] = "MCS",
	[MCC] = "MCC",
	[MEQ] = "MEQ",
	[MNE] = "MNE",
	[MVS] = "MVS",
	[MVC] = "MVC",
	[OR ] = "OR",
	[MOV] = "MOV",
	[IML] = "IML",
	[IDV] = "IDV",
	[PSH] = "PSH",
	[PUL] = "PUL",
	[NEG] = "NEG",
	[SET] = "SET"
};

static const char *set_cc[8] = {
	"NG",
	"PO",
	"CS",
	"CC",
	"EQ",
	"NE",
	"VS",
	"VC"
};

static const char *reg_name[16] = {
	[REG_A  ] = "A",
	[REG_B  ] = "B",
	[REG_X  ] = "X",
	[REG_Y  ] = "Y",
	[REG_E  ] = "E",
	[REG_C  ] = "C",
	[REG_D  ] = "D",
	[REG_S  ] = "S",
	[REG_F  ] = "F",
	[REG_SP ] = "SP",
	[REG_BP ] = "BP",
	[REG_R11] = "R11",
	[REG_R12] = "R12",
	[REG_R13] = "R13",
	[REG_R14] = "R14",
	[REG_R15] = "R15"
};

static const char *instdesc[OPNUM] = {
	[ADC] = "ADd accumulator, with operand, Carry if needed.",
	[AND] = "Bitwise AND accumulator, with operand.",
	[ASR] = "Arithmetic Shift Right accumulator, with operand.",
	[BCC] = "Branch if the Carry flag has been Cleared.",
	[BCS] = "Branch if the Carry flag is Set.",
	[BEQ] = "Branch if EQual (the zero flag has been set).",
	[BNE] = "Branch if Not Equal (the zero flag has been cleared)",
	[BNG] = "Branch if NeGative.",
	[BPO] = "Branch if POsitive.",
	[BRA] = "BRanch Always.",
	[BRK] = "BReaKpoint",
	[BVC] = "Branch if the oVerflow flag has been Cleared.",
	[BVS] = "Branch if the oVerflow flag is Set.",
	[CLC] = "CLear the Carry flag.",
	[CLI] = "CLear the Interrupt flag.",
	[CLV] = "CLear the oVerflow flag.",
	[CMP] = "CoMPare acumulator, with operand.",
	[CPB] = "ComPare the B register, with operand.",
	[CPS] = "Clears the Processor Status register.",
	[CPX] = "ComPare the X register, with operand.",
	[CPY] = "ComPare the Y register, with operand.",
	[DEB] = "DEcrement the B register.",
	[DEC] = "DECrement accumulator, or memory.",
	[DEX] = "DEcrement the X register.",
	[DEY] = "DEcrement the Y register.",
	[DIV] = "DIVide accumulator, with operand, and put the remainder into the B register.",
	[INB] = "INcrement the B register.",
	[INC] = "INCrement accumulator, or memory.",
	[INX] = "INcrement the X register.",
	[INY] = "INcrement the Y register.",
	[JMP] = "JuMP to the address specified.",
	[JSR] = "Jump to a SubRoutine.",
	[LDA] = "LoaD the value from the operand, to the Accumulator.",
	[LDB] = "LoaD the value from the operand, to the B register.",
	[LDX] = "LoaD the value from the operand, to the X register.",
	[LDY] = "LoaD the value from the operand, to the Y register.",
	[LSL] = "Logical Shift Left accumulator, with operand.",
	[LSR] = "Logical Shift Right accumulator, with operand.",
	[MUL] = "MULtiply accumulator, with operand.",
	[NOP] = "NO oPeration",
	[ORA] = "Bitwise OR Accumulator, with operand.",
	[PHA] = "PusH the number of bytes specified, from the Accumulator to the stack.",
	[PHB] = "PusH the number of bytes specified, from the B register to the stack.",
	[PHP] = "PusH the number of bytes specified, from the Processor status register to the stack.",
	[PHX] = "PusH the number of bytes specified, from the X register to the stack.",
	[PHY] = "PusH the number of bytes specified, from the Y register to the stack.",
	[PLA] = "PuLl the number of bytes specified, from the stack, to the Accumulator.",
	[PLB] = "PuLl the number of bytes specified, from the stack, to the B register.",
	[PLP] = "PuLl the number of bytes specified, from the stack, to the Processor status register.",
	[PLX] = "PuLl the number of bytes specified, from the stack, to the X register.",
	[PLY] = "PuLl the number of bytes specified, from the stack, to the Y register.",
	[ROL] = "ROtate Left accumulator, with operand.",
	[ROR] = "ROtate Right accumulator, with operand.",
	[RTI] = "ReTurn from an Interrupt.",
	[RTS] = "ReTurn from a Subroutine.",
	[SBC] = "SuBtract accumulator, with operand, Carry if needed",
	[SEC] = "SEt the Carry flag.",
	[SEI] = "SEt the Interrupt flag.",
	[STA] = "STore the value from the Accumulator, in memory.",
	[STB] = "STore the value from the B register, in memory.",
	[STX] = "STore the value from the X register, in memory.",
	[STY] = "STore the value from the Y register, in memory.",
	[TAB] = "Transfer the value from the Accumulator, to the B register.",
	[TAX] = "Transfer the value from the Accumulator, to the X register.",
	[TAY] = "Transfer the value from the Accumulator, to the Y register.",
	[TBA] = "Transfer the value from the Y register, to the Accumulator.",
	[TSX] = "Transfer the value from the Stack pointer, to the X register.",
	[TXA] = "Transfer the value from the X register, to the Accumulator.",
	[TXS] = "Transfer the value from the X register, to the Stack pointer.",
	[TXY] = "Transfer the value from the X register, to the Y register.",
	[TYA] = "Transfer the value from the Y register, to the Accumulator.",
	[TYX] = "Transfer the value from the Y register, to the X register.",
	[WAI] = "WAIt for an interrupt",
	[XOR] = "Bitwise XOR Accumulator, with operand."
};

static const uint8_t bitsize[4] = {
	[0] = 0x07,
	[1] = 0x0F,
	[2] = 0x1F,
	[3] = 0x3F
};

static const uint8_t amp[8] = {
	[0] = 0x00,
	[1] = 0x00,
	[2] = 0x07,
	[4] = 0x07,
	[5] = 0x0B,
	[6] = 0x0B,
	[3] = 0x0F,
	[7] = 0x0F
};


extern uint16_t linenum;
extern uint16_t lineidx;
extern uint16_t stridx;
extern uint16_t comidx;
extern uint16_t inc_file; /* Number of included files. */
extern uint16_t inc_count;

struct bc {
	uint64_t progsize;
	uint64_t datasize;
};

typedef struct bc bytecount;

extern uint8_t defined;
extern uint8_t isfixup;

extern line *find_line(uint32_t ln, uint8_t dbg);
extern uint64_t lex(char *str, uint64_t address, uint16_t bline, uint8_t dbg);
extern uint64_t get_val(expr *tree, uint64_t addr, uint8_t size, int depth, uint8_t dbg);
extern token *skip_expr(token *t, uint8_t end_expr, uint8_t stop_comma, uint8_t dbg);
extern uint64_t parse_tokens(token *tm, line **l, bytecount *bc, uint8_t isasm, uint64_t address, uint8_t dbg);
extern token *make_token(uint8_t id, uint8_t type, uint8_t space, uint8_t tab, uint64_t value, char *str, symbol *s, expr *e);
extern void assemble(line *ln, bytecount *bc, uint8_t dbg);
extern void fix_symtree(line *l);
extern void cleanup();