#include typedef struct { unsigned int id, refs; char *a, *b; } Rule; static unsigned char rmin = 0xff, rmax = 0x00; static int flip, quiet, debug, cycles = 0x10000; static Rule rules[0x1000], *rules_ = rules, lambda; static char dict[0x8000], *dict_ = dict, empty; static char bank_a[0x4000], *src_ = bank_a; static char bank_b[0x4000], *dst_ = bank_b; static char *regs[0x100]; #define spacer(c) (c <= ' ' || c == '(' || c == ')') static char * walk(char *s) { char c; int depth = 0; if(*s == '(') { while((c = *s++)) { if(c == '(') depth++; if(c == ')') --depth; if(!depth) return s; } } while((c = *s) && !spacer(c)) s++; return s; } static void device_write(char *s) { char c, *cap = walk(s); if(*s == '(') s++, --cap; while(s < cap) { c = *s++; if(c == '\\') { switch(*s++) { case 't': putc(0x09, stdout); break; case 'n': putc(0x0a, stdout); break; case 's': putc(0x20, stdout); break; } } else putc(c, stdout); } } static void device_read(char *s) { char c; while(fread(&c, 1, 1, stdin) && c >= ' ') *dst_++ = c; if(feof(stdin)) *dst_++ = 'E', *dst_++ = 'O', *dst_++ = 'F'; } static void write_reg(char r, char *reg) { char c, *cap = walk(reg); switch(r) { case '>': /* op: output */ case ':': device_write(reg); return; case '<': /* op: input */ case '~': device_read(reg); return; case '^': /* op: join */ if(*reg == '(') reg++, --cap; while(reg < cap && (c = *reg++)) if(!spacer(c)) *dst_++ = c; return; case '.': /* op: unwrap */ if(*reg == '(') reg++, --cap; while(reg < cap) *dst_++ = *reg++; return; case '*': { /* op: explode */ int i, depth = 0; if(*reg == '(' && reg[1] != ')') { /* tuple */ reg++; while(reg < cap) { while((c = *reg) && !spacer(c)) *dst_++ = c, reg++; *dst_++ = ' '; *dst_++ = '(', reg++, depth++; } } else /* token */ while((c = *reg++) && !spacer(c)) *dst_++ = c, *dst_++ = ' ', *dst_++ = '(', depth++; for(i = 0; i < depth; i++) *dst_++ = ')'; return; } default: while(reg < cap) *dst_++ = *reg++; return; } } static int write_tail(char *s) { while((*dst_++ = *s++)) ; *dst_ = 0; if((flip = !flip)) src_ = bank_b, dst_ = bank_a; else src_ = bank_a, dst_ = bank_b; return 1; } static int apply_rule(Rule *r, char *s) { unsigned char i, rid; char c, *a = r->a, *b = r->b, *origin = dst_, *reg; /* phase: clean regs */ if(rmax) { for(i = 0; i <= rmax; i++) regs[i] = 0; rmin = 0xff, rmax = 0x00; } /* phase: match rule */ while((c = *a++)) { if(c == '?') { char *pcap = walk(s); rid = *a++; if((reg = regs[rid])) { /* reg cmp */ char *rcap = walk(reg), *pp = s; while(reg < rcap || pp < pcap) if(*reg++ != *pp++) return 0; } else { /* reg set */ regs[rid] = s; if(rid < rmin) rmin = rid; if(rid > rmax) rmax = rid; } s = pcap; } else if(c != *s++) return 0; } c = *s; if(!spacer(c)) return 0; /* phase: write rule */ while((c = *b++)) { if(c == '?') { rid = *b; if((reg = regs[rid])) b++, write_reg(rid, reg); else *dst_++ = c; } else *dst_++ = c; } if(dst_ == origin) { while(*s == ' ') s++; if(*s == ')' && *(dst_ - 1) == ' ') dst_--; } if(!quiet && r) fprintf(stderr, "%02d %s\n", r->id, src_), ++r->refs; return write_tail(s); } static char * parse_frag(char **side, char *src) { int wrapped; char c, *cap; while((c = *src) && c == ' ') src++; if(c == ')' || (c == '<' && src[1] == '>')) { *side = ∅ return src; } *side = dict_, cap = walk(src), wrapped = c == '('; if(wrapped) src++, cap--; while(src < cap) c = *src, *dict_++ = *src++; src += wrapped, *dict_++ = 0; return src; } static Rule * find_rule(char *s, char *cap) { Rule *r = rules; if(*s == '(') s++, cap--; while(r < rules_) { char *ss = s, *a = r->a; if(a) while(*ss++ == *a++) if(!*a && ss == cap) return r; r++; } return NULL; } static int rewrite(void) { char c, last = 0, *cap, *s = src_; while(*s == ' ') s++; while((c = *s)) { if(c == '(' || spacer(last)) { Rule *r = NULL; /* phase: undefine */ if(c == '>' && s[1] == '<') { s += 2; while(*s == ' ') s++; cap = walk(s), r = find_rule(s, cap); if(r != NULL) { if(!quiet) fprintf(stderr, ">< (%s) (%s)\n", r->a, r->b); r->a = 0; } while(*cap == ' ') cap++; return write_tail(cap); } /* phase: define */ if(c == '<' && s[1] == '>') { r = rules_, r->id = rules_ - rules - 1; s = parse_frag(&r->b, parse_frag(&r->a, s + 2)); if(*r->a) { if(!quiet) fprintf(stderr, "<> (%s) (%s)\n", r->a, r->b); rules_++; } while(*s == ' ') s++; return write_tail(s); } /* phase: lambda */ if(c == '?' && s[1] == '(') { cap = walk(s + 1); r = &lambda, r->id = -1; parse_frag(&r->b, parse_frag(&r->a, s + 2)); s = cap; while(*s == ' ') s++; if(!apply_rule(&lambda, s)) write_tail(s); return 1; } /* phase: match */ for(r = rules; r < rules_; r++) if(r->a && apply_rule(r, s)) return 1; } *dst_++ = last = c; s++; } *dst_++ = 0; return 0; } int main(int argc, char **argv) { FILE *f; int i, pl = 0, pr = 0, rw = 0; char c, last = 0, *w = bank_a; if(argc < 2) return !printf("usage: modal [-vqn] source.modal\n"); for(i = 1; i < argc && *argv[i] == '-'; i++) { switch(argv[i][1]) { case 'v': /* version */ return !printf("Modal Interpreter, 28 Apr 2024.\n"); case 'q': /* quiet */ quiet = 1; break; case 'p': /* debug */ debug = 1; break; case 'n': /* infinite */ cycles = 0xffffffff; break; } } if(!(f = fopen(argv[i], "r"))) return !printf("Modal file invalid: %s.\n", argv[i]); while(fread(&c, 1, 1, f)) { c = c <= 0x20 ? 0x20 : c; if(c == ' ' && last == '(') continue; if(c == ')' && last == ' ') w--; if(c == ' ' && last == ' ') w--; if(c == '(') pl++; if(c == ')') pr++; if(c == '(' && last != '?' && !spacer(last)) *w++ = ' '; if(last == ')' && !spacer(c)) *w++ = ' '; *w++ = last = c; } while(*(--w) <= ' ') *w = 0; fclose(f); if(pr != pl) return !fprintf(stderr, "Modal program imbalanced.\n"); while(rewrite() && ++rw) if(!cycles--) return !fprintf(stderr, "Modal rewrites exceeded.\n"); if(!quiet) { while(rules_-- > rules) { if(!rules_->refs && rules_->a) fprintf(stderr, "-- Unused rule: %d <> (%s) (%s)\n", rules_->id, rules_->a, rules_->b); if(debug && rules_->a) fprintf(stderr, " (%s) (%s), %d times.\n", rules_->a, rules_->b, rules_->refs); } fprintf(stderr, ".. %s\nCompleted in %d rewrites.\n", src_, rw); } return 0; }