#include /* Copyright (c) 2021 Devine Lu Linvega Permission to use, copy, modify, and distribute this software for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies. THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE. */ #define TRIM 0x0100 typedef unsigned char Uint8; typedef signed char Sint8; typedef unsigned short Uint16; typedef struct { char name[64], items[256][64]; Uint8 len; } Macro; typedef struct { char name[64]; Uint16 addr, refs; } Label; typedef struct { Uint8 data[256 * 256], mlen; Uint16 ptr, length, llen; Label labels[512]; Macro macros[256]; } Program; Program p; static Uint16 addr = 0; /* clang-format off */ static char ops[][4] = { "LIT", "INC", "POP", "DUP", "NIP", "SWP", "OVR", "ROT", "EQU", "NEQ", "GTH", "LTH", "JMP", "JCN", "JSR", "STH", "LDZ", "STZ", "LDR", "STR", "LDA", "STA", "DEI", "DEO", "ADD", "SUB", "MUL", "DIV", "AND", "ORA", "EOR", "SFT" }; static int cpos(char *s, char a){ int i = 0; char c; while((c = s[i++])) if(c == a) return i; return -1; } static int scmp(char *a, char *b, int len) { int i = 0; while(a[i] == b[i]) if(!a[i] || ++i >= len) return 1; return 0; } /* string compare */ static int sihx(char *s) { int i = 0; char c; while((c = s[i++])) if(!(c >= '0' && c <= '9') && !(c >= 'a' && c <= 'f')) return 0; return i > 1; } /* string is hexadecimal */ static int shex(char *s) { int n = 0, i = 0; char c; while((c = s[i++])) if(c >= '0' && c <= '9') n = n * 16 + (c - '0'); else if(c >= 'a' && c <= 'f') n = n * 16 + 10 + (c - 'a'); return n; } /* string to num */ static int slen(char *s) { int i = 0; while(s[i] && s[++i]) ; return i; } /* string length */ static char *scpy(char *src, char *dst, int len) { int i = 0; while((dst[i] = src[i]) && i < len - 2) i++; dst[i + 1] = '\0'; return dst; } /* string copy */ static char *scat(char *dst, const char *src) { char *ptr = dst + slen(dst); while(*src) *ptr++ = *src++; *ptr = '\0'; return dst; } /* string cat */ #pragma mark - Helpers /* clang-format on */ #pragma mark - I/O static Macro * findmacro(char *name) { int i; for(i = 0; i < p.mlen; ++i) if(scmp(p.macros[i].name, name, 64)) return &p.macros[i]; return NULL; } static Label * findlabel(char *name) { int i; for(i = 0; i < p.llen; ++i) if(scmp(p.labels[i].name, name, 64)) return &p.labels[i]; return NULL; } static Uint8 findopcode(char *s) { int i; for(i = 0; i < 0x20; ++i) { int m = 0; if(!scmp(ops[i], s, 3)) continue; while(s[3 + m]) { if(s[3 + m] == '2') i |= (1 << 5); /* mode: short */ else if(s[3 + m] == 'r') i |= (1 << 6); /* mode: return */ else if(s[3 + m] == 'k') i |= (1 << 7); /* mode: keep */ else return 0; /* failed to match */ m++; } if(!i) i |= (1 << 7); /* force LIT nonzero (keep is ignored) */ return i; } return 0; } static void pushbyte(Uint8 b, int lit) { if(lit) pushbyte(findopcode("LIT"), 0); p.data[p.ptr++] = b; p.length = p.ptr; } static void pushshort(Uint16 s, int lit) { if(lit) pushbyte(findopcode("LIT2"), 0); pushbyte((s >> 8) & 0xff, 0); pushbyte(s & 0xff, 0); } static void pushword(char *s) { int i = 0; char c; while((c = s[i++])) pushbyte(c, 0); } static char * sublabel(char *src, char *scope, char *name) { return scat(scat(scpy(scope, src, 64), "/"), name); } #pragma mark - Parser static int error(char *name, char *msg) { fprintf(stderr, "%s: %s\n", name, msg); return 0; } static int makemacro(char *name, FILE *f) { Macro *m; char word[64]; if(findmacro(name)) return error("Macro duplicate", name); if(sihx(name) && slen(name) % 2 == 0) return error("Macro name is hex number", name); if(findopcode(name) || scmp(name, "BRK", 4) || !slen(name) || scmp(name, "include", 8)) return error("Macro name is invalid", name); m = &p.macros[p.mlen++]; scpy(name, m->name, 64); while(fscanf(f, "%63s", word) == 1) { if(word[0] == '{') continue; if(word[0] == '}') break; if(m->len > 64) return error("Macro too large", name); scpy(word, m->items[m->len++], 64); } return 1; } static int makelabel(char *name) { Label *l; if(findlabel(name)) return error("Label duplicate", name); if(sihx(name) && slen(name) % 2 == 0) return error("Label name is hex number", name); if(findopcode(name) || scmp(name, "BRK", 4) || !slen(name)) return error("Label name is invalid", name); l = &p.labels[p.llen++]; l->addr = addr; l->refs = 0; scpy(name, l->name, 64); return 1; } static int addref(Label *l, Uint8 rel) { if(rel) { int pos = cpos(l->name, '/'); if(pos != -1) { char root[64]; Label *rl = findlabel(scpy(l->name, root, pos)); ++rl->refs; } } return ++l->refs; } static int skipblock(char *w, int *cap, char a, char b) { if(w[0] == b) { *cap = 0; return 1; } if(w[0] == a) *cap = 1; if(*cap) return 1; return 0; } static int walktoken(char *w) { Macro *m; if(findopcode(w) || scmp(w, "BRK", 4)) return 1; switch(w[0]) { case '[': return 0; case ']': return 0; case '\'': return 1; case '.': return 2; /* zero-page: LIT addr-lb */ case ',': return 2; /* relative: LIT addr-rel */ case ':': return 2; /* absolute: addr-hb addr-lb */ case ';': return 3; /* absolute: LIT addr-hb addr-lb */ case '$': return shex(w + 1); case '#': return slen(w + 1) == 4 ? 3 : 2; case '"': return slen(w + 1); } if((m = findmacro(w))) { int i, res = 0; for(i = 0; i < m->len; ++i) res += walktoken(m->items[i]); return res; } return error("Invalid token", w); } static int parsetoken(char *w) { Label *l; Macro *m; if(w[0] == '.' && (l = findlabel(w + 1))) { /* zero-page */ if(l->addr > 0xff) return error("Address is not in zero page", w); pushbyte(l->addr, 1); return addref(l, 1); } else if(w[0] == ',' && (l = findlabel(w + 1))) { /* relative */ int off = l->addr - p.ptr - 3; if(off < -126 || off > 126) return error("Address is too far", w); pushbyte((Sint8)off, 1); return addref(l, 0); } else if(w[0] == ':' && (l = findlabel(w + 1))) { /* raw */ pushshort(l->addr, 0); return addref(l, 1); } else if(w[0] == ';' && (l = findlabel(w + 1))) { /* absolute */ pushshort(l->addr, 1); return addref(l, 1); } else if(findopcode(w) || scmp(w, "BRK", 4)) { /* opcode */ pushbyte(findopcode(w), 0); return 1; } else if(w[0] == '"') { /* string */ pushword(w + 1); return 1; } else if(w[0] == '\'') { /* char */ pushbyte((Uint8)w[1], 0); return 1; } else if(w[0] == '#') { /* immediate */ if(slen(w + 1) == 1) pushbyte((Uint8)w[1], 1); if(sihx(w + 1) && slen(w + 1) == 2) pushbyte(shex(w + 1), 1); else if(sihx(w + 1) && slen(w + 1) == 4) pushshort(shex(w + 1), 1); else return error("Invalid hexadecimal literal", w); return 1; } else if(sihx(w)) { /* raw */ if(slen(w) == 2) pushbyte(shex(w), 0); else if(slen(w) == 4) pushshort(shex(w), 0); else return error("Invalid hexadecimal value", w); return 1; } else if((m = findmacro(w))) { int i; for(i = 0; i < m->len; ++i) if(!parsetoken(m->items[i])) return error("Invalid macro", m->name); return 1; } return error("Invalid token", w); } static int doinclude(FILE *f, int (*pass)(FILE *)) { char word[64]; FILE *finc; int ret; if(fscanf(f, "%63s", word) != 1) return error("End of input", "include"); if(!(finc = fopen(word, "r"))) return error("Include failed to open", word); ret = pass(finc); fclose(finc); return ret; } static int pass1(FILE *f) { int ccmnt = 0; char w[64], scope[64], subw[64]; while(fscanf(f, "%63s", w) == 1) { if(skipblock(w, &ccmnt, '(', ')')) continue; if(slen(w) >= 63) return error("Pass 1 - Invalid token", w); if(w[0] == '|') { if(!sihx(w + 1)) return error("Pass 1 - Invalid padding", w); addr = shex(w + 1); } else if(w[0] == '%') { if(!makemacro(w + 1, f)) return error("Pass 1 - Invalid macro", w); } else if(w[0] == '@') { if(!makelabel(w + 1)) return error("Pass 1 - Invalid label", w); scpy(w + 1, scope, 64); } else if(w[0] == '&') { if(!makelabel(sublabel(subw, scope, w + 1))) return error("Pass 1 - Invalid sublabel", w); } else if(scmp(w, "include", 8)) { if(!doinclude(f, pass1)) return 0; } else if(sihx(w)) addr += slen(w) / 2; else addr += walktoken(w); } rewind(f); return 1; } static int pass2(FILE *f) { int ccmnt = 0, cmacr = 0; char w[64], scope[64], subw[64]; while(fscanf(f, "%63s", w) == 1) { if(w[0] == '%') continue; if(w[0] == '&') continue; if(w[0] == '[') continue; if(w[0] == ']') continue; if(skipblock(w, &ccmnt, '(', ')')) continue; if(skipblock(w, &cmacr, '{', '}')) continue; if(w[0] == '|') { if(p.length && shex(w + 1) < p.ptr) return error("Pass 2 - Memory overwrite", w); p.ptr = shex(w + 1); continue; } else if(w[0] == '$') { p.ptr += shex(w + 1); continue; } else if(w[0] == '@') { scpy(w + 1, scope, 64); continue; } else if(scmp(w, "include", 8)) { if(!doinclude(f, pass2)) return 0; continue; } if(w[1] == '&' && (w[0] == '.' || w[0] == ',' || w[0] == ';' || w[0] == ':')) scpy(sublabel(subw, scope, w + 2), w + 1, 64); if(!parsetoken(w)) return error("Pass 2 - Unknown label", w); } return 1; } static void cleanup(char *filename) { int i; for(i = 0; i < p.llen; ++i) if(p.labels[i].name[0] >= 'A' && p.labels[i].name[0] <= 'Z') continue; /* Ignore capitalized labels(devices) */ else if(!p.labels[i].refs) fprintf(stderr, "--- Unused label: %s\n", p.labels[i].name); printf("Assembled %s(%d bytes), %d labels, %d macros.\n", filename, (p.length - TRIM), p.llen, p.mlen); } int main(int argc, char *argv[]) { FILE *f; if(argc < 3) return !error("usage", "input.tal output.rom"); if(!(f = fopen(argv[1], "r"))) return !error("Load", "Failed to open source."); if(!pass1(f) || !pass2(f)) return !error("Assembly", "Failed to assemble rom."); fwrite(p.data + TRIM, p.length - TRIM, 1, fopen(argv[2], "wb")); fclose(f); cleanup(argv[2]); return 0; }