#include /* Copyright (c) 2021-2024 Devine Lu Linvega, Andrew Alderwick 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. */ /* clang-format off */ #define PAGE 0x0100 typedef unsigned char Uint8; typedef signed char Sint8; typedef unsigned short Uint16; typedef struct { char *name, rune, *content; Uint16 addr, refs; } Item; typedef struct { int line; char *path; } Context; static int ptr, length; static char token[0x40], scope[0x40], lambda[0x05]; static char dict[0x4000], *dictnext = dict; static Uint8 data[0x10000], lambda_stack[0x100], lambda_ptr, lambda_len; static Uint16 labels_len, refs_len, macro_len; static Item labels[0x400], refs[0x1000], macros[0x100]; static char *runes = "|$@&,_.-;=!?#\"%~"; static char *hexad = "0123456789abcdef"; 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 find(char *s, char t) { int i = 0; char c; while((c = *s++)) { if(c == t) return i; i++; } return -1; } /* chr in str */ static int shex(char *s) { int n = 0; char c; while((c = *s++)) { if(find(hexad, c) < 0) return -1; n = n << 4, n |= find(hexad, c); } return n; } /* str to hex */ 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; } /* str compare */ 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; } /* str copy */ static char *save(char *s, char c) { char *o = dictnext; while((*dictnext++ = *s++) && *s); *dictnext++ = c; return o; } /* save to dict */ static char *join(char *a, char j, char *b) { char *res = dictnext; save(a, j), save(b, 0); return res; } /* join two str */ #define ishex(x) (shex(x) >= 0) #define isopc(x) (findopcode(x) || scmp(x, "BRK", 4)) #define isinvalid(x) (!x[0] || ishex(x) || isopc(x) || find(runes, x[0]) >= 0) #define writeshort(x) (writebyte(x >> 8, ctx) && writebyte(x & 0xff, ctx)) #define findlabel(x) finditem(x, labels, labels_len) #define findmacro(x) finditem(x, macros, macro_len) #define error_top(name, msg) !fprintf(stderr, "%s: %s\n", name, msg) #define error_asm(name) !fprintf(stderr, "%s: %s in @%s, %s:%d.\n", name, token, scope, ctx->path, ctx->line) /* clang-format on */ static int parse(char *w, FILE *f, Context *ctx); static char * push(char *s, char c) { char *d = dict; for(d = dict; d < dictnext; d++) { char *ss = s, *dd = d, a, b; while((a = *dd++) == (b = *ss++)) if(!a && !b) return d; } return save(s, c); } static Item * finditem(char *name, Item *list, int len) { int i; if(name[0] == '&') name = join(scope, '/', name + 1); for(i = 0; i < len; i++) if(scmp(list[i].name, name, 0x40)) return &list[i]; return NULL; } static Uint8 findopcode(char *s) { int i; for(i = 0; i < 0x20; i++) { int m = 3; if(!scmp(ops[i], s, 3)) continue; if(!i) i |= (1 << 7); while(s[m]) { if(s[m] == '2') i |= (1 << 5); else if(s[m] == 'r') i |= (1 << 6); else if(s[m] == 'k') i |= (1 << 7); else return 0; m++; } return i; } return 0; } static int walkcomment(FILE *f, Context *ctx) { char c; int depth = 1; while(f && fread(&c, 1, 1, f)) { if(c == 0xa) ctx->line += 1; if(c == '(') depth++; if(c == ')' && --depth < 1) return 1; } return 0; } static int walkmacro(Item *m, Context *ctx) { char c, *contentptr = m->content, *cptr = token; while((c = *contentptr++)) { if(c < 0x21) { *cptr++ = 0x00; if(token[0] && !parse(token, NULL, ctx)) return 0; cptr = token; } else *cptr++ = c; } return 1; } static int walkfile(FILE *f, Context *ctx) { char c, *cptr = token; while(f && fread(&c, 1, 1, f)) { if(c == 0xa) ctx->line += 1; if(c < 0x21) { *cptr++ = 0x00; if(token[0] && !parse(token, f, ctx)) return 0; cptr = token; } else if(cptr - token < 0x3f) *cptr++ = c; else return error_asm("Token too long"); } return 1; } static char * makelambda(int id) { lambda[0] = (char)0xce; lambda[1] = (char)0xbb; lambda[2] = hexad[id >> 0x4]; lambda[3] = hexad[id & 0xf]; return lambda; } static int makemacro(char *name, FILE *f, Context *ctx) { char c; Item *m; if(macro_len >= 0x100) return error_asm("Macros limit exceeded"); if(isinvalid(name)) return error_asm("Macro is invalid"); if(findmacro(name)) return error_asm("Macro is duplicate"); m = ¯os[macro_len++]; m->name = push(name, 0); m->content = dictnext; while(f && fread(&c, 1, 1, f) && c != '{') if(c == 0xa) ctx->line += 1; while(f && fread(&c, 1, 1, f) && c != '}') { if(c == 0xa) ctx->line += 1; if(c == '%') return 0; if(c == '(') walkcomment(f, ctx); else *dictnext++ = c; } *dictnext++ = 0; return 1; } static int makelabel(char *name, int setscope, Context *ctx) { Item *l; if(name[0] == '&') name = join(scope, '/', name + 1); if(labels_len >= 0x400) return error_asm("Labels limit exceeded"); if(isinvalid(name)) return error_asm("Label is invalid"); if(findlabel(name)) return error_asm("Label is duplicate"); l = &labels[labels_len++]; l->name = push(name, 0); l->addr = ptr; l->refs = 0; if(setscope) { int i = 0; while(name[i] != '/' && i < 0x3e && (scope[i] = name[i])) i++; scope[i] = '\0'; } return 1; } static int makeref(char *label, char rune, Uint16 addr) { Item *r; if(refs_len >= 0x1000) return error_top("References limit exceeded", label); r = &refs[refs_len++]; if(label[0] == '{') { lambda_stack[lambda_ptr++] = lambda_len; r->name = push(makelambda(lambda_len++), 0); } else if(label[0] == '&' || label[0] == '/') { r->name = join(scope, '/', label + 1); } else r->name = push(label, 0); r->rune = rune; r->addr = addr; return 1; } static int writepad(char *w) { Item *l; int rel = w[0] == '$' ? ptr : 0; if(ishex(w + 1)) { ptr = shex(w + 1) + rel; return 1; } if((l = findlabel(w + 1))) { ptr = l->addr + rel; return 1; } return 0; } static int writebyte(Uint8 b, Context *ctx) { if(ptr < PAGE) return error_asm("Writing in zero-page"); else if(ptr >= 0x10000) return error_asm("Writing outside memory"); else if(ptr < length) return error_asm("Writing rewind"); data[ptr++] = b; if(b) length = ptr; return 1; } static int writehex(char *w, Context *ctx) { if(*w == '#') writebyte(findopcode("LIT") | !!(++w)[2] << 5, ctx); if(!w[2]) return writebyte(shex(w), ctx); else if(!w[4]) return writeshort(shex(w)); else return 0; } static int writestring(char *w, Context *ctx) { char c; while((c = *(w++))) if(!writebyte(c, ctx)) return 0; return 1; } static int assemble(char *filename) { FILE *f; int res = 0; Context ctx; ctx.line = 0; ctx.path = push(filename, 0); if(!(f = fopen(filename, "r"))) return error_top("Invalid source", filename); res = walkfile(f, &ctx); fclose(f); return res; } static int parse(char *w, FILE *f, Context *ctx) { Item *m; switch(w[0]) { case '(': return !walkcomment(f, ctx) ? error_asm("Invalid comment") : 1; case '%': return !makemacro(w + 1, f, ctx) ? error_asm("Invalid macro") : 1; case '@': return !makelabel(w + 1, 1, ctx) ? error_asm("Invalid label") : 1; case '&': return !makelabel(w, 0, ctx) ? error_asm("Invalid sublabel") : 1; case '}': return !makelabel(makelambda(lambda_stack[--lambda_ptr]), 0, ctx) ? error_asm("Invalid label") : 1; case '#': return !ishex(w + 1) || !writehex(w, ctx) ? error_asm("Invalid hexadecimal") : 1; case '_': return makeref(w + 1, w[0], ptr) && writebyte(0xff, ctx); case ',': return makeref(w + 1, w[0], ptr + 1) && writebyte(findopcode("LIT"), ctx) && writebyte(0xff, ctx); case '-': return makeref(w + 1, w[0], ptr) && writebyte(0xff, ctx); case '.': return makeref(w + 1, w[0], ptr + 1) && writebyte(findopcode("LIT"), ctx) && writebyte(0xff, ctx); case ':': fprintf(stderr, "Deprecated rune %s, use =%s\n", w, w + 1); /* fall-through */ case '=': return makeref(w + 1, w[0], ptr) && writeshort(0xffff); case ';': return makeref(w + 1, w[0], ptr + 1) && writebyte(findopcode("LIT2"), ctx) && writeshort(0xffff); case '?': return makeref(w + 1, w[0], ptr + 1) && writebyte(0x20, ctx) && writeshort(0xffff); case '!': return makeref(w + 1, w[0], ptr + 1) && writebyte(0x40, ctx) && writeshort(0xffff); case '"': return !writestring(w + 1, ctx) ? error_asm("Invalid string") : 1; case '~': return !assemble(w + 1) ? error_asm("Invalid include") : 1; case '$': case '|': return !writepad(w) ? error_asm("Invalid padding") : 1; case '[': case ']': return 1; } if(ishex(w)) return writehex(w, ctx); if(isopc(w)) return writebyte(findopcode(w), ctx); if((m = findmacro(w))) return walkmacro(m, ctx); return makeref(w, ' ', ptr + 1) && writebyte(0x60, ctx) && writeshort(0xffff); } static int resolve(void) { int i, rel; if(!length) return error_top("Assembly", "Output rom is empty."); for(i = 0; i < refs_len; i++) { Item *r = &refs[i], *l = findlabel(r->name); Uint8 *rom = data + r->addr; if(!l) return 0; switch(r->rune) { case '_': case ',': *rom = rel = l->addr - r->addr - 2; if((Sint8)data[r->addr] != rel) return error_top("Relative reference is too far", r->name); break; case '-': case '.': *rom = l->addr; break; case ':': case '=': case ';': *rom++ = l->addr >> 8, *rom = l->addr; break; case '?': case '!': default: rel = l->addr - r->addr - 2; *rom++ = rel >> 8, *rom = rel; break; } l->refs++; } return 1; } static int build(char *rompath) { int i; FILE *dst, *dstsym; char *sympath = join(rompath, '.', "sym"); /* rom */ if(!(dst = fopen(rompath, "wb"))) return !error_top("Invalid output file", rompath); for(i = 0; i < labels_len; i++) if(labels[i].name[0] - 'A' > 25 && !labels[i].refs) fprintf(stdout, "-- Unused label: %s\n", labels[i].name); fwrite(data + PAGE, length - PAGE, 1, dst); fprintf(stdout, "Assembled %s in %d bytes(%.2f%% used), %d labels, %d macros.\n", rompath, length - PAGE, (length - PAGE) / 652.80, labels_len, macro_len); /* sym */ if(!(dstsym = fopen(sympath, "w"))) return !error_top("Invalid symbols file", sympath); for(i = 0; i < labels_len; i++) { Uint8 hb = labels[i].addr >> 8, lb = labels[i].addr; char c, d = 0, *name = labels[i].name; fwrite(&hb, 1, 1, dstsym); fwrite(&lb, 1, 1, dstsym); while((c = *name++)) fwrite(&c, 1, 1, dstsym); fwrite(&d, 1, 1, dstsym); } fclose(dst), fclose(dstsym); return 1; } int main(int argc, char *argv[]) { ptr = PAGE; scpy("on-reset", scope, 0x40); if(argc == 1) return error_top("usage", "uxnasm [-v] input.tal output.rom"); if(scmp(argv[1], "-v", 2)) return !fprintf(stdout, "Uxnasm - Uxntal Assembler, 28 Mar 2024.\n"); if(!assemble(argv[1]) || !length) return !error_top("Assembly", "Failed to assemble rom."); if(!resolve()) return !error_top("Assembly", "Failed to resolve symbols."); if(!build(argv[2])) return !error_top("Assembly", "Failed to build rom."); return 0; }