C/C++ Interactive Reference Guide

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Text File | 1989-01-13 | 13KB | 493 lines

/* HEADER: CUG219; TITLE: 6502 Cross-Assembler (Portable); FILENAME: A65UTIL.C; VERSION: 0.1; DATE: 08/27/1988; DESCRIPTION: "This program lets you use your computer to assemble code for the MOS Technology 6502 microprocessors. The program is written in portable C rather than BDS C. All assembler features are supported except relocation linkage, and macros."; KEYWORDS: Software Development, Assemblers, Cross-Assemblers, MOS Technology, 6502; SYSTEM: CP/M-80, CP/M-86, HP-UX, MSDOS, PCDOS, QNIX; COMPILERS: Aztec C86, Aztec CII, CI-C86, Eco-C, Eco-C88, HP-UX, Lattice C, Microsoft C, QNIX C; WARNINGS: "This program is written in as portable C as possible. A port to BDS C would be extremely difficult, but see volume CUG113. A port to Toolworks C is untried." AUTHORS: William C. Colley III; */ /* 6502 Cross-Assembler in Portable C Copyright (c) 1986 William C. Colley, III Revision History: Ver Date Description 0.0 NOV 1986 Derived from my 6800/6801 cross-assembler. WCC3. 0.1 AUG 1988 Fixed a bug in the command line parser that puts it into a VERY long loop if the user types a command line like "A65 FILE.ASM -L". WCC3 per Alex Cameron. This module contains the following utility packages: 1) symbol table building and searching 2) opcode and operator table searching 3) listing file output 4) hex file output 5) error flagging */ /* Get global goodies: */ #include "a65.h" /* Make sure that MSDOS compilers using the large memory model know */ /* that calloc() returns pointer to char as an MSDOS far pointer is */ /* NOT compatible with the int type as is usually the case. */ char *calloc(); /* Get access to global mailboxes defined in A65.C: */ extern char errcode, line[], title[]; extern int eject, listhex; extern unsigned address, bytes, errors, listleft, obj[], pagelen; /* The symbol table is a binary tree of variable-length blocks drawn */ /* from the heap with the calloc() function. The root pointer lives */ /* here: */ static SYMBOL *sroot = NULL; /* Add new symbol to symbol table. Returns pointer to symbol even if */ /* the symbol already exists. If there's not enough memory to store */ /* the new symbol, a fatal error occurs. */ SYMBOL *new_symbol(nam) char *nam; { SCRATCH int i; SCRATCH SYMBOL **p, *q; void fatal_error(); for (p = &sroot; (q = *p) && (i = strcmp(nam,q -> sname)); ) p = i < 0 ? &(q -> left) : &(q -> right); if (!q) { if (!(*p = q = (SYMBOL *)calloc(1,sizeof(SYMBOL) + strlen(nam)))) fatal_error(SYMBOLS); strcpy(q -> sname,nam); } return q; } /* Look up symbol in symbol table. Returns pointer to symbol or NULL */ /* if symbol not found. */ SYMBOL *find_symbol(nam) char *nam; { SCRATCH int i; SCRATCH SYMBOL *p; for (p = sroot; p && (i = strcmp(nam,p -> sname)); p = i < 0 ? p -> left : p -> right); return p; } /* Opcode table search routine. This routine pats down the opcode */ /* table for a given opcode and returns either a pointer to it or */ /* NULL if the opcode doesn't exist. */ OPCODE *find_code(nam) char *nam; { OPCODE *bsearch(); static OPCODE opctbl[] = { { TWOOP, 0x61, "ADC" }, { TWOOP, 0x21, "AND" }, { LOGOP, 0x06, "ASL" }, { INHOP, 0x0a, "ASLA" }, { RELBR, 0x90, "BCC" }, { RELBR, 0xb0, "BCS" }, { RELBR, 0xf0, "BEQ" }, { BITOP, 0x24, "BIT" }, { RELBR, 0x30, "BMI" }, { RELBR, 0xd0, "BNE" }, { RELBR, 0x10, "BPL" }, { INHOP, 0x00, "BRK" }, { RELBR, 0x50, "BVC" }, { RELBR, 0x70, "BVS" }, { INHOP, 0x18, "CLC" }, { INHOP, 0xd8, "CLD" }, { INHOP, 0x58, "CLI" }, { INHOP, 0xb8, "CLV" }, { TWOOP, 0xc1, "CMP" }, { CPXY, 0xe0, "CPX" }, { CPXY, 0xc0, "CPY" }, { INCOP, 0xc6, "DEC" }, { INHOP, 0xca, "DEX" }, { INHOP, 0x88, "DEY" }, { PSEUDO + ISIF, ELSE, "ELSE" }, { PSEUDO, END, "END" }, { PSEUDO + ISIF, ENDI, "ENDI" }, { TWOOP, 0x41, "EOR" }, { PSEUDO, EQU, "EQU" }, { PSEUDO, FCB, "FCB" }, { PSEUDO, FCC, "FCC" }, { PSEUDO, FDB, "FDB" }, { PSEUDO + ISIF, IF, "IF" }, { INCOP, 0xe6, "INC" }, { PSEUDO, INCL, "INCL" }, { INHOP, 0xe8, "INX" }, { INHOP, 0xc8, "INY" }, { JUMP, 0x4c, "JMP" }, { CALL, 0x20, "JSR" }, { TWOOP, 0xa1, "LDA" }, { LDXY, 0xa2, "LDX" }, { LDXY, 0xa0, "LDY" }, { LOGOP, 0x46, "LSR" }, { INHOP, 0x4a, "LSRA" }, { INHOP, 0xea, "NOP" }, { TWOOP, 0x01, "ORA" }, { PSEUDO, ORG, "ORG" }, { PSEUDO, PAGE, "PAGE" }, { INHOP, 0x48, "PHA" }, { INHOP, 0x08, "PHP" }, { INHOP, 0x68, "PLA" }, { INHOP, 0x28, "PLP" }, { PSEUDO, RMB, "RMB" }, { LOGOP, 0x26, "ROL" }, { INHOP, 0x2a, "ROLA" }, { LOGOP, 0x66, "ROR" }, { INHOP, 0x6a, "RORA" }, { INHOP, 0x40, "RTI" }, { INHOP, 0x60, "RTS" }, { TWOOP, 0xe1, "SBC" }, { INHOP, 0x38, "SEC" }, { INHOP, 0xf8, "SED" }, { INHOP, 0x78, "SEI" }, { PSEUDO, SET, "SET" }, { TWOOP, 0x81, "STA" }, { STXY, 0x86, "STX" }, { STXY, 0x84, "STY" }, { INHOP, 0xaa, "TAX" }, { INHOP, 0xa8, "TAY" }, { PSEUDO, TITL, "TITL" }, { INHOP, 0xba, "TSX" }, { INHOP, 0x8a, "TXA" }, { INHOP, 0x9a, "TXS" }, { INHOP, 0x98, "TYA" } }; return bsearch(opctbl,opctbl + (sizeof(opctbl) / sizeof(OPCODE)),nam); } /* Operator table search routine. This routine pats down the */ /* operator table for a given operator and returns either a pointer */ /* to it or NULL if the opcode doesn't exist. */ OPCODE *find_operator(nam) char *nam; { OPCODE *bsearch(); static OPCODE oprtbl[] = { { REG, 'A', "A" }, { BINARY + LOG1 + OPR, AND, "AND" }, { BINARY + RELAT + OPR, '=', "EQ" }, { BINARY + RELAT + OPR, GE, "GE" }, { BINARY + RELAT + OPR, '>', "GT" }, { UNARY + UOP3 + OPR, HIGH, "HIGH" }, { BINARY + RELAT + OPR, LE, "LE" }, { UNARY + UOP3 + OPR, LOW, "LOW" }, { BINARY + RELAT + OPR, '<', "LT" }, { BINARY + MULT + OPR, MOD, "MOD" }, { BINARY + RELAT + OPR, NE, "NE" }, { UNARY + UOP2 + OPR, NOT, "NOT" }, { BINARY + LOG2 + OPR, OR, "OR" }, { BINARY + MULT + OPR, SHL, "SHL" }, { BINARY + MULT + OPR, SHR, "SHR" }, { REG, 'X', "X" }, { BINARY + LOG2 + OPR, XOR, "XOR" }, { REG, 'Y', "Y" }, }; return bsearch(oprtbl,oprtbl + (sizeof(oprtbl) / sizeof(OPCODE)),nam); } static OPCODE *bsearch(lo,hi,nam) OPCODE *lo, *hi; char *nam; { SCRATCH int i; SCRATCH OPCODE *chk; for (;;) { chk = lo + (hi - lo) / 2; if (!(i = ustrcmp(chk -> oname,nam))) return chk; if (chk == lo) return NULL; if (i < 0) lo = chk; else hi = chk; } } static int ustrcmp(s,t) char *s, *t; { SCRATCH int i; while (!(i = toupper(*s++) - toupper(*t)) && *t++); return i; } /* Buffer storage for line listing routine. This allows the listing */ /* output routines to do all operations without the main routine */ /* having to fool with it. */ static FILE *list = NULL; /* Listing file open routine. If a listing file is already open, a */ /* warning occurs. If the listing file doesn't open correctly, a */ /* fatal error occurs. If no listing file is open, all calls to */ /* lputs() and lclose() have no effect. */ void lopen(nam) char *nam; { FILE *fopen(); void fatal_error(), warning(); if (list) warning(TWOLST); else if (!(list = fopen(nam,"w"))) fatal_error(LSTOPEN); return; } /* Listing file line output routine. This routine processes the */ /* source line saved by popc() and the output of the line assembler in */ /* buffer obj into a line of the listing. If the disk fills up, a */ /* fatal error occurs. */ void lputs() { SCRATCH int i, j; SCRATCH unsigned *o; void check_page(), fatal_error(); if (list) { i = bytes; o = obj; do { fprintf(list,"%c ",errcode); if (listhex) { fprintf(list,"%04x ",address); for (j = 4; j; --j) { if (i) { --i; ++address; fprintf(list," %02x",*o++); } else fprintf(list," "); } } else fprintf(list,"%18s",""); fprintf(list," %s",line); strcpy(line,"\n"); check_page(); if (ferror(list)) fatal_error(DSKFULL); } while (listhex && i); } return; } /* Listing file close routine. The symbol table is appended to the */ /* listing in alphabetic order by symbol name, and the listing file is */ /* closed. If the disk fills up, a fatal error occurs. */ static int col = 0; void lclose() { void fatal_error(), list_sym(); if (list) { if (sroot) { list_sym(sroot); if (col) fprintf(list,"\n"); } fprintf(list,"\f"); if (ferror(list) || fclose(list) == EOF) fatal_error(DSKFULL); } return; } static void list_sym(sp) SYMBOL *sp; { void check_page(); if (sp) { list_sym(sp -> left); fprintf(list,"%04x %-10s",sp -> valu,sp -> sname); if (col = ++col % SYMCOLS) fprintf(list," "); else { fprintf(list,"\n"); if (sp -> right) check_page(); } list_sym(sp -> right); } return; } static void check_page() { if (pagelen && !--listleft) eject = TRUE; if (eject) { eject = FALSE; listleft = pagelen; fprintf(list,"\f"); if (title[0]) { listleft -= 2; fprintf(list,"%s\n\n",title); } } return; } /* Buffer storage for hex output file. This allows the hex file */ /* output routines to do all of the required buffering and record */ /* forming without the main routine having to fool with it. */ static FILE *hex = NULL; static unsigned cnt = 0; static unsigned addr = 0; static unsigned sum = 0; static unsigned buf[HEXSIZE]; /* Hex file open routine. If a hex file is already open, a warning */ /* occurs. If the hex file doesn't open correctly, a fatal error */ /* occurs. If no hex file is open, all calls to hputc(), hseek(), and */ /* hclose() have no effect. */ void hopen(nam) char *nam; { FILE *fopen(); void fatal_error(), warning(); if (hex) warning(TWOHEX); else if (!(hex = fopen(nam,"w"))) fatal_error(HEXOPEN); return; } /* Hex file write routine. The data byte is appended to the current */ /* record. If the record fills up, it gets written to disk. If the */ /* disk fills up, a fatal error occurs. */ void hputc(c) unsigned c; { void record(); if (hex) { buf[cnt++] = c; if (cnt == HEXSIZE) record(0); } return; } /* Hex file address set routine. The specified address becomes the */ /* load address of the next record. If a record is currently open, */ /* it gets written to disk. If the disk fills up, a fatal error */ /* occurs. */ void hseek(a) unsigned a; { void record(); if (hex) { if (cnt) record(0); addr = a; } return; } /* Hex file close routine. Any open record is written to disk, the */ /* EOF record is added, and file is closed. If the disk fills up, a */ /* fatal error occurs. */ void hclose() { void fatal_error(), record(); if (hex) { if (cnt) record(0); record(1); if (fclose(hex) == EOF) fatal_error(DSKFULL); } return; } static void record(typ) unsigned typ; { SCRATCH unsigned i; void fatal_error(), putb(); putc(':',hex); putb(cnt); putb(high(addr)); putb(low(addr)); putb(typ); for (i = 0; i < cnt; ++i) putb(buf[i]); putb(low(-sum)); putc('\n',hex); addr += cnt; cnt = 0; if (ferror(hex)) fatal_error(DSKFULL); return; } static void putb(b) unsigned b; { static char digit[] = "0123456789ABCDEF"; putc(digit[b >> 4],hex); putc(digit[b & 0x0f],hex); sum += b; return; } /* Error handler routine. If the current error code is non-blank, */ /* the error code is filled in and the number of lines with errors */ /* is adjusted. */ void error(code) char code; { if (errcode == ' ') { errcode = code; ++errors; } return; } /* Fatal error handler routine. A message gets printed on the stderr */ /* device, and the program bombs. */ void fatal_error(msg) char *msg; { printf("Fatal Error -- %s\n",msg); exit(-1); } /* Non-fatal error handler routine. A message gets printed on the */ /* stderr device, and the routine returns. */ void warning(msg) char *msg; { printf("Warning -- %s\n",msg); return; }