#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 #define LENGTH 0x10000 typedef unsigned char Uint8; typedef signed char Sint8; typedef unsigned short Uint16; typedef struct { char name[0x40], items[0x40][0x40]; Uint8 len; } Macro; typedef struct { char name[0x40]; Uint16 addr, refs; } Label; typedef struct { char name[0x40], rune; Uint16 addr; } Reference; typedef struct { Uint8 data[LENGTH]; unsigned int ptr, length; Uint16 llen, mlen, rlen; Label labels[0x400]; Macro macros[0x100]; Reference refs[0x800]; char scope[0x40]; } Program; Program p; /* clang-format off */ static char ops[][4] = { "LIT", "INC", "POP", "NIP", "SWP", "ROT", "DUP", "OVR", "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 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]) i++; return i; } /* string length */ static int spos(char *s, char c) { Uint8 i = 0, j; while((j = s[i++])) if(j == c) return i; return -1; } /* character position */ 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 */ /* clang-format on */ static int parse(char *w, FILE *f); static int error(const char *name, const char *msg) { fprintf(stderr, "%s: %s\n", name, msg); return 0; } static char * sublabel(char *src, char *scope, char *name) { return scat(scat(scpy(scope, src, 0x40), "/"), name); } static Macro * findmacro(char *name) { int i; for(i = 0; i < p.mlen; i++) if(scmp(p.macros[i].name, name, 0x40)) 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, 0x40)) 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; if(!i) i |= (1 << 7); /* force keep for LIT */ 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++; } return i; } return 0; } static int makemacro(char *name, FILE *f) { Macro *m; char word[0x40]; 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)) return error("Macro name is invalid", name); if(p.mlen == 0x100) return error("Macros limit exceeded", name); m = &p.macros[p.mlen++]; scpy(name, m->name, 0x40); while(fscanf(f, "%63s", word) == 1) { if(word[0] == '{') continue; if(word[0] == '}') break; if(word[0] == '%') return error("Macro error", name); if(m->len >= 0x40) return error("Macro size exceeded", name); scpy(word, m->items[m->len++], 0x40); } return 1; } static int makelabel(char *name) { Label *l; if(findlabel(name)) return error("Label duplicate", name); if(sihx(name) && (slen(name) == 2 || slen(name) == 4)) return error("Label name is hex number", name); if(findopcode(name) || scmp(name, "BRK", 4) || !slen(name)) return error("Label name is invalid", name); if(p.llen == 0x400) return error("Labels limit exceeded", name); l = &p.labels[p.llen++]; l->addr = p.ptr; l->refs = 0; scpy(name, l->name, 0x40); return 1; } static int makereference(char *scope, char *label, Uint16 addr) { char subw[0x40], parent[0x40]; Reference *r; if(p.rlen == 0x800) return error("References limit exceeded", label); r = &p.refs[p.rlen++]; if(label[1] == '&') scpy(sublabel(subw, scope, label + 2), r->name, 0x40); else { int pos = spos(label + 1, '/'); if(pos > 0) { Label *l; if((l = findlabel(scpy(label + 1, parent, pos)))) l->refs++; } scpy(label + 1, r->name, 0x40); } r->rune = label[0]; r->addr = addr; return 1; } static int writebyte(Uint8 b) { if(p.ptr < TRIM) return error("Writing in zero-page", ""); else if(p.ptr > 0xffff) return error("Writing after the end of RAM", ""); else if(p.ptr < p.length) return error("Memory overwrite", ""); p.data[p.ptr++] = b; p.length = p.ptr; return 1; } static int writeopcode(char *w) { Uint8 res; res = writebyte(findopcode(w)); return res; } static int writeshort(Uint16 s, int lit) { if(lit) if(!writebyte(findopcode("LIT2"))) return 0; return writebyte(s >> 8) && writebyte(s & 0xff); } static int writelitbyte(Uint8 b) { if(!writebyte(findopcode("LIT"))) return 0; if(!writebyte(b)) return 0; return 1; } static int doinclude(const char *filename) { FILE *f; char w[0x40]; if(!(f = fopen(filename, "r"))) return error("Include missing", filename); while(fscanf(f, "%63s", w) == 1) if(!parse(w, f)) return error("Unknown token", w); fclose(f); return 1; } static int parse(char *w, FILE *f) { int i; char word[0x40], subw[0x40], c; Macro *m; if(slen(w) >= 63) return error("Invalid token", w); switch(w[0]) { case '(': /* comment */ if(slen(w) != 1) fprintf(stderr, "-- Malformed comment: %s\n", w); i = 1; /* track nested comment depth */ while(fscanf(f, "%63s", word) == 1) { if(slen(word) != 1) continue; else if(word[0] == '(') i++; else if(word[0] == ')' && --i < 1) break; } break; case '~': /* include */ if(!doinclude(w + 1)) return error("Invalid include", w); break; case '%': /* macro */ if(!makemacro(w + 1, f)) return error("Invalid macro", w); break; case '|': /* pad-absolute */ if(!sihx(w + 1)) return error("Invalid padding", w); p.ptr = shex(w + 1); break; case '$': /* pad-relative */ if(!sihx(w + 1)) return error("Invalid padding", w); p.ptr += shex(w + 1); break; case '@': /* label */ if(!makelabel(w + 1)) return error("Invalid label", w); scpy(w + 1, p.scope, 0x40); break; case '&': /* sublabel */ if(!makelabel(sublabel(subw, p.scope, w + 1))) return error("Invalid sublabel", w); break; case '#': /* literals hex */ if(!sihx(w + 1) || (slen(w) != 3 && slen(w) != 5)) return error("Invalid hex literal", w); if(slen(w) == 3) { if(!writelitbyte(shex(w + 1))) return 0; } else if(slen(w) == 5) { if(!writeshort(shex(w + 1), 1)) return 0; } break; case '_': /* raw byte relative */ makereference(p.scope, w, p.ptr); if(!writebyte(0xff)) return 0; break; case ',': /* literal byte relative */ makereference(p.scope, w, p.ptr); if(!writelitbyte(0xff)) return 0; break; case '-': /* raw byte absolute */ makereference(p.scope, w, p.ptr); if(!writebyte(0xff)) return 0; break; case '.': /* literal byte zero-page */ makereference(p.scope, w, p.ptr); if(!writelitbyte(0xff)) return 0; break; case ':': /* raw short absolute */ case '=': makereference(p.scope, w, p.ptr); if(!writeshort(0xffff, 0)) return 0; break; case ';': /* literal short absolute */ makereference(p.scope, w, p.ptr); if(!writeshort(0xffff, 1)) return 0; break; case '"': /* raw string */ i = 0; while((c = w[++i])) if(!writebyte(c)) return 0; break; case '[': case ']': if(slen(w) == 1) break; /* else fallthrough */ default: /* opcode */ if(findopcode(w) || scmp(w, "BRK", 4)) { if(!writeopcode(w)) return 0; } /* raw byte */ else if(sihx(w) && slen(w) == 2) { if(!writebyte(shex(w))) return 0; } /* raw short */ else if(sihx(w) && slen(w) == 4) { if(!writeshort(shex(w), 0)) return 0; } /* macro */ else if((m = findmacro(w))) { for(i = 0; i < m->len; i++) if(!parse(m->items[i], f)) return 0; return 1; } else return error("Unknown token", w); } return 1; } static int resolve(void) { Label *l; int i; for(i = 0; i < p.rlen; i++) { Reference *r = &p.refs[i]; switch(r->rune) { case '_': if(!(l = findlabel(r->name))) return error("Unknown relative reference", r->name); p.data[r->addr] = (Sint8)(l->addr - r->addr - 2); if((Sint8)p.data[r->addr] != (l->addr - r->addr - 2)) return error("Relative reference is too far", r->name); l->refs++; break; case ',': if(!(l = findlabel(r->name))) return error("Unknown relative reference", r->name); p.data[r->addr + 1] = (Sint8)(l->addr - r->addr - 3); if((Sint8)p.data[r->addr + 1] != (l->addr - r->addr - 3)) return error("Relative reference is too far", r->name); l->refs++; break; case '-': if(!(l = findlabel(r->name))) return error("Unknown absolute reference", r->name); p.data[r->addr] = l->addr & 0xff; l->refs++; break; case '.': if(!(l = findlabel(r->name))) return error("Unknown zero-page reference", r->name); p.data[r->addr + 1] = l->addr & 0xff; l->refs++; break; case ':': case '=': if(!(l = findlabel(r->name))) return error("Unknown absolute reference", r->name); p.data[r->addr] = l->addr >> 0x8; p.data[r->addr + 1] = l->addr & 0xff; l->refs++; break; case ';': if(!(l = findlabel(r->name))) return error("Unknown absolute reference", r->name); p.data[r->addr + 1] = l->addr >> 0x8; p.data[r->addr + 2] = l->addr & 0xff; l->refs++; break; default: return error("Unknown reference", r->name); } } return 1; } static int assemble(FILE *f) { char w[0x40]; scpy("on-reset", p.scope, 0x40); while(fscanf(f, "%63s", w) == 1) if(!parse(w, f)) return error("Unknown token", w); return resolve(); } static void review(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); fprintf(stderr, "Assembled %s in %d bytes(%.2f%% used), %d labels, %d macros.\n", filename, p.length - TRIM, (p.length - TRIM) / 652.80, p.llen, p.mlen); } static void writesym(char *filename) { char symdst[0x40]; FILE *fp = fopen(scat(scpy(filename, symdst, slen(filename) + 1), ".sym"), "w"); int i; if(fp != NULL) { for(i = 0; i < p.llen; i++) { fwrite(&p.labels[i].addr + 1, 1, 1, fp); fwrite(&p.labels[i].addr, 1, 1, fp); fwrite(p.labels[i].name, slen(p.labels[i].name) + 1, 1, fp); } } fclose(fp); } int main(int argc, char *argv[]) { FILE *src, *dst; if(argc < 3) return !error("usage", "input.tal output.rom"); if(!(src = fopen(argv[1], "r"))) return !error("Invalid input", argv[1]); if(!assemble(src)) return !error("Assembly", "Failed to assemble rom."); if(!(dst = fopen(argv[2], "wb"))) return !error("Invalid Output", argv[2]); if(p.length <= TRIM) return !error("Assembly", "Output rom is empty."); fwrite(p.data + TRIM, p.length - TRIM, 1, dst); review(argv[2]); writesym(argv[2]); return 0; }