modal/src/modal.c

#include <stdio.h>

typedef struct {
	unsigned int id, refs, ptr;
	char *a, *b, key[0x10];
} Rule;

static int flip, quiet, cycles = 0x10000;
static Rule rules[0x1000], *rules_ = rules, lambda;
static char dict[0x8000], *dict_ = dict;
static char bank_a[0x4000], *src_ = bank_a;
static char bank_b[0x4000], *dst_ = bank_b;

#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 int
write_reg(char r, char *reg)
{
	char c, *cap = walk(reg);
	switch(r) {
	case ':': /* op: output */
		if(*reg == '(') reg++, --cap;
		while(reg < cap) {
			c = *reg++;
			if(c == '\\') {
				switch(*reg++) {
				case 't': putc(0x09, stdout); break;
				case 'n': putc(0x0a, stdout); break;
				case 's': putc(0x20, stdout); break;
				}
			} else
				putc(c, stdout);
		}
		return 0;
	case '~': /* op: input */
		while(fread(&c, 1, 1, stdin) && c >= ' ')
			*dst_++ = c;
		return 1;
	case '^': /* op: join */
		if(*reg == '(') reg++, --cap;
		while(reg < cap && (c = *reg++))
			if(!spacer(c)) *dst_++ = c;
		return 1;
	case '.': /* op: unwrap */
		if(*reg == '(') reg++, --cap;
		while(reg < cap) *dst_++ = *reg++;
		return 1;
	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 1;
	}
	default:
		while(reg < cap) *dst_++ = *reg++;
		return 1;
	}
}

static int
write_rule(Rule *r, char *s, int create)
{
	while((*dst_++ = *s++))
		;
	*dst_++ = 0;
	if((flip = !flip))
		src_ = bank_b, dst_ = bank_a;
	else
		src_ = bank_a, dst_ = bank_b;
	if(!quiet) {
		if(create)
			fprintf(stderr, "<> (%s) (%s)\n", r->a, r->b);
		else
			fprintf(stderr, "%02d %s\n", r->id, src_), ++r->refs;
	}
	return 1;
}

static int
apply_rule(Rule *r, char *s)
{
	char c, *a = r->a, *regs[0x08] = {NULL}, *reg;
	/* phase: match rule */
	while((c = *a)) {
		if(c == '?') {
			char *pcap = walk(s);
			unsigned int id = *(++a) - '0';
			if((reg = regs[id])) { /* reg cmp */
				char *rcap = walk(reg), *pp = s;
				while(reg < rcap || pp < pcap)
					if(*reg++ != *pp++) return 0;
			} else /* reg set */
				regs[id] = s;
			a++, s = pcap;
			if(!spacer(*a))
				while((c = *a) && !spacer(c)) a++;
			continue;
		}
		if(c != *s) return 0;
		a++, s++;
	}
	/* phase: write rule */
	if(!(c = *s) || spacer(c)) {
		char *b = r->b, *origin = dst_;
		while((c = *b++)) {
			if(c == '?') {
				unsigned int id = *b - '0';
				if(id < 9 && (reg = regs[id])) {
					b++;
					if(!write_reg(r->key[id], reg) && dst_ != origin) dst_--;
				} else
					*dst_++ = c;
			} else
				*dst_++ = c;
		}
		if(dst_ == origin) {
			while(*s == ' ') s++;
			if(*s == ')' && *(dst_ - 1) == ' ') dst_--;
		}
		return write_rule(r, s, 0);
	}
	return 0;
}

static int
find_register(Rule *r, char reg)
{
	int i;
	for(i = 0; i < (int)r->ptr; i++)
		if(r->key[i] == reg)
			return i;
	return -1;
}

static char *
compile_rule(Rule *r, int id, char *src)
{
	int wrapped;
	char c, *cap, *s, *s2;
	r->id = id, r->ptr = 0;

	/* left ==================================== */

	r->a = dict_;
	s2 = src;
	while((c = *s2) && c == ' ') s2++;
	if(c != ')' && !(c == '<' && s2[1] == '>')) {
		cap = walk(s2);
		wrapped = c == '(';
		if(wrapped) s2++, cap--;
		while(s2 < cap) *dict_++ = *s2++;
		s2 += wrapped;
	}
	*dict_++ = 0;
	src = s2;

	s = r->a;
	while((c = *s++)) { /* left */
		if(c == '?') {
			int reg = find_register(r, *s);
			if(reg < 0 && *s != '(')
				r->key[r->ptr] = *s, reg = r->ptr++;
			*s = '0' + reg;
		}
	}

	/* right ==================================== */

	r->b = dict_;
	s2 = src;
	while((c = *s2) && c == ' ') s2++;
	if(c != ')' && !(c == '<' && s2[1] == '>')) {
		cap = walk(s2);
		wrapped = c == '(';
		if(wrapped) s2++, cap--;
		while(s2 < cap) *dict_++ = *s2++;
		s2 += wrapped;
	}
	*dict_++ = 0;
	src = s2;

	s = r->b;
	while((c = *s++)) { /* right */
		if(c == '?') {
			int reg = find_register(r, *s);
			if(reg >= 0)
				*s = '0' + reg;
		}
	}
	return src;
}

static int
rewrite(void)
{
	char c, last = 0, *cap, *s = src_;
	while(*s == ' ') s++;
	while((c = *s)) {
		if(spacer(last)) {
			Rule *r = NULL;
			if(c == '<' && s[1] == '>') { /* rule */
				r = rules_++;
				s = compile_rule(r, rules_ - rules - 1, s + 2);
				while(*s == ' ') s++;
				return write_rule(r, s, 1);
			}
			if(c == '?' && s[1] == '(') { /* lambda */
				cap = walk(s + 1);
				compile_rule(&lambda, -1, s + 2);
				s = cap;
				while(*s == ' ') s++;
				return apply_rule(&lambda, s);
			}
			for(r = rules; r < rules_; r++)
				if(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;
	char c, *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, 24 Apr 2024.\n");
		case 'q': /* quiet */ quiet = 1; break;
		case 'n': /* infinite */ cycles = 0xffffffff; break;
		}
	}
	if(!(f = fopen(argv[i], "r")))
		return !fprintf(stdout, "Modal file invalid: %s.\n", argv[i]);
	while(fread(&c, 1, 1, f)) {
		c = c <= 0x20 ? 0x20 : c;
		if(w > bank_a) {
			if(c == ' ' && *(w - 1) == '(') continue;
			if(c == ')' && *(w - 1) == ' ') w--;
			if(c == ' ' && *(w - 1) == ' ') w--;
		}
		if(c == '(') pl++;
		if(c == ')') pr++;
		*w++ = c;
	}
	while(*(--w) <= ' ') *w = 0;
	fclose(f);
	if(pr != pl)
		return !fprintf(stdout, "Modal program imbalanced.\n");
	while(rewrite())
		if(!cycles--) return !fprintf(stdout, "Modal rewrites exceeded.\n");
	while(rules_-- > rules && !quiet)
		if(!rules_->refs) printf("-- Unused rule: %d <> (%s) (%s)\n", rules_->refs, rules_->a, rules_->b);
	return 0;
}
Trying a c parser 2024-04-04 12:04:27 -04:00			`#include <stdio.h>`

Starting tokenizer 2024-04-04 12:29:36 -04:00			`typedef struct {`
Compile rules 2024-04-24 13:31:46 -04:00			`unsigned int id, refs, ptr;`
			`char a, b, key[0x10];`
Starting tokenizer 2024-04-04 12:29:36 -04:00			`} Rule;`

Converted regs array to stack 2024-04-23 22:36:49 -04:00			`static int flip, quiet, cycles = 0x10000;`
Moved lambda from rules[0] to its own memory 2024-04-22 23:15:33 -04:00			`static Rule rules[0x1000], *rules_ = rules, lambda;`
Starting rewrite 2024-04-04 14:54:31 -04:00			`static char dict[0x8000], *dict_ = dict;`
Use stored pointer for src_ 2024-04-14 22:36:16 -04:00			`static char bank_a[0x4000], *src_ = bank_a;`
			`static char bank_b[0x4000], *dst_ = bank_b;`
Converted regs array to stack 2024-04-23 22:36:49 -04:00
Housekeeping 2024-04-11 12:26:55 -04:00			`#define spacer(c) (c <= ' ' \|\| c == '(' \|\| c == ')')`
* 2024-04-04 19:52:09 -04:00
Walk over wildcards 2024-04-04 13:59:00 -04:00			`static char *`
			`walk(char *s)`
			`{`
			`char c;`
Faster walk 2024-04-04 22:40:16 -04:00			`int depth = 0;`
Allow for empty right-hand side rules 2024-04-12 13:30:59 -04:00			`if(*s == '(') {`
Better walk() 2024-04-04 22:37:03 -04:00			`while((c = *s++)) {`
			`if(c == '(') depth++;`
			`if(c == ')') --depth;`
			`if(!depth) return s;`
Fixed issue with wrapped cells 2024-04-04 20:26:16 -04:00			`}`
* 2024-04-04 14:35:58 -04:00			`}`
Minor change 2024-04-08 18:08:22 -04:00			`while((c = *s) && !spacer(c)) s++;`
More robust walking 2024-04-04 20:15:16 -04:00			`return s;`
Walk over wildcards 2024-04-04 13:59:00 -04:00			`}`

Special registers that are non-emitting should erase themselves 2024-04-23 00:37:40 -04:00			`static int`
Housekeeping 2024-04-22 20:54:17 -04:00			`write_reg(char r, char *reg)`
Writing registers 2024-04-04 15:20:06 -04:00			`{`
Only check for register value once 2024-04-21 12:13:30 -04:00			`char c, *cap = walk(reg);`
Use switch case for special registers 2024-04-22 23:22:54 -04:00			`switch(r) {`
			`case ':': /* op: output */`
Only check for register value once 2024-04-21 12:13:30 -04:00			`if(*reg == '(') reg++, --cap;`
			`while(reg < cap) {`
			`c = *reg++;`
?~ register now takes in an argument 2024-04-14 20:33:42 -04:00			`if(c == '\\') {`
Only check for register value once 2024-04-21 12:13:30 -04:00			`switch(*reg++) {`
?~ register now takes in an argument 2024-04-14 20:33:42 -04:00			`case 't': putc(0x09, stdout); break;`
			`case 'n': putc(0x0a, stdout); break;`
			`case 's': putc(0x20, stdout); break;`
			`}`
			`} else`
			`putc(c, stdout);`
			`}`
Special registers that are non-emitting should erase themselves 2024-04-23 00:37:40 -04:00			`return 0;`
Use switch case for special registers 2024-04-22 23:22:54 -04:00			`case '~': /* op: input */`
			`while(fread(&c, 1, 1, stdin) && c >= ' ')`
			`*dst_++ = c;`
Special registers that are non-emitting should erase themselves 2024-04-23 00:37:40 -04:00			`return 1;`
Use switch case for special registers 2024-04-22 23:22:54 -04:00			`case '^': /* op: join */`
			`if(*reg == '(') reg++, --cap;`
			`while(reg < cap && (c = *reg++))`
			`if(!spacer(c)) *dst_++ = c;`
Special registers that are non-emitting should erase themselves 2024-04-23 00:37:40 -04:00			`return 1;`
Use switch case for special registers 2024-04-22 23:22:54 -04:00			`case '.': /* op: unwrap */`
			`if(*reg == '(') reg++, --cap;`
Only check for register value once 2024-04-21 12:13:30 -04:00			`while(reg < cap) dst_++ = reg++;`
Special registers that are non-emitting should erase themselves 2024-04-23 00:37:40 -04:00			`return 1;`
Use switch case for special registers 2024-04-22 23:22:54 -04:00			`case '': { / op: explode */`
			`int i, depth = 0;`
Exploding empty list -> identity 2024-04-23 16:51:25 -04:00			`if(reg == '(' && reg[1] != ')') { / tuple */`
Use switch case for special registers 2024-04-22 23:22:54 -04:00			`reg++;`
			`while(reg < cap) {`
			`while((c = *reg) && !spacer(c))`
			`*dst_++ = c, reg++;`
			`*dst_++ = ' ';`
			`*dst_++ = '(', reg++, depth++;`
			`}`
Housekeeping 2024-04-23 23:20:31 -04:00			`} else /* token */`
Use switch case for special registers 2024-04-22 23:22:54 -04:00			`while((c = *reg++) && !spacer(c))`
			`dst_++ = c, dst_++ = ' ', *dst_++ = '(', depth++;`
			`for(i = 0; i < depth; i++) *dst_++ = ')';`
Special registers that are non-emitting should erase themselves 2024-04-23 00:37:40 -04:00			`return 1;`
Use switch case for special registers 2024-04-22 23:22:54 -04:00			`}`
			`default:`
			`while(reg < cap) dst_++ = reg++;`
Special registers that are non-emitting should erase themselves 2024-04-23 00:37:40 -04:00			`return 1;`
Use switch case for special registers 2024-04-22 23:22:54 -04:00			`}`
Writing registers 2024-04-04 15:20:06 -04:00			`}`

Let save handle the rest of the string 2024-04-07 17:55:55 -04:00			`static int`
Housekeeping 2024-04-22 20:54:17 -04:00			`write_rule(Rule r, char s, int create)`
Skip empty rules 2024-04-04 17:55:51 -04:00			`{`
Use stored pointer for src_ 2024-04-14 22:36:16 -04:00			`while((dst_++ = s++))`
Let save handle the rest of the string 2024-04-07 17:55:55 -04:00			`;`
Use stored pointer for src_ 2024-04-14 22:36:16 -04:00			`*dst_++ = 0;`
			`if((flip = !flip))`
			`src_ = bank_b, dst_ = bank_a;`
Removed copy after rewriting 2024-04-06 11:36:10 -04:00			`else`
Use stored pointer for src_ 2024-04-14 22:36:16 -04:00			`src_ = bank_a, dst_ = bank_b;`
Print unused rules 2024-04-22 18:29:54 -04:00			`if(!quiet) {`
			`if(create)`
			`fprintf(stderr, "<> (%s) (%s)\n", r->a, r->b);`
			`else`
			`fprintf(stderr, "%02d %s\n", r->id, src_), ++r->refs;`
			`}`
Let save handle the rest of the string 2024-04-07 17:55:55 -04:00			`return 1;`
Skip empty rules 2024-04-04 17:55:51 -04:00			`}`

Abstracted match/write rule 2024-04-22 20:39:39 -04:00			`static int`
Added comments 2024-04-22 23:50:39 -04:00			`apply_rule(Rule r, char s)`
Abstracted match/write rule 2024-04-22 20:39:39 -04:00			`{`
Walk over incompiled registers 2024-04-24 14:18:06 -04:00			`char c, a = r->a, regs[0x08] = {NULL}, *reg;`
Limit matches queries 2024-04-24 14:12:57 -04:00			`/* phase: match rule */`
			`while((c = *a)) {`
Merged all regs needing functions 2024-04-22 20:43:35 -04:00			`if(c == '?') {`
Walk over incompiled registers 2024-04-24 14:18:06 -04:00			`char *pcap = walk(s);`
Houeskeeping 2024-04-24 13:39:14 -04:00			`unsigned int id = *(++a) - '0';`
Limit matches queries 2024-04-24 14:12:57 -04:00			`if((reg = regs[id])) { /* reg cmp */`
Removed unecessary assign 2024-04-22 23:32:42 -04:00			`char rcap = walk(reg), pp = s;`
Merged all regs needing functions 2024-04-22 20:43:35 -04:00			`while(reg < rcap \|\| pp < pcap)`
			`if(reg++ != pp++) return 0;`
Houeskeeping 2024-04-24 13:39:14 -04:00			`} else /* reg set */`
			`regs[id] = s;`
Removed unecessary assign 2024-04-22 23:32:42 -04:00			`a++, s = pcap;`
Merged all regs needing functions 2024-04-22 20:43:35 -04:00			`if(!spacer(*a))`
			`while((c = *a) && !spacer(c)) a++;`
			`continue;`
			`}`
Removed unecessary assign 2024-04-22 23:32:42 -04:00			`if(c != *s) return 0;`
			`a++, s++;`
Merged all regs needing functions 2024-04-22 20:43:35 -04:00			`}`
Limit matches queries 2024-04-24 14:12:57 -04:00			`/* phase: write rule */`
			`if(!(c = *s) \|\| spacer(c)) {`
Converted regs array to stack 2024-04-23 22:36:49 -04:00			`char b = r->b, origin = dst_;`
			`while((c = *b++)) {`
Only get reg id once 2024-04-24 14:20:34 -04:00			`if(c == '?') {`
Houeskeeping 2024-04-24 13:39:14 -04:00			`unsigned int id = *b - '0';`
Only get reg id once 2024-04-24 14:20:34 -04:00			`if(id < 9 && (reg = regs[id])) {`
Compile rules 2024-04-24 13:31:46 -04:00			`b++;`
Houeskeeping 2024-04-24 13:39:14 -04:00			`if(!write_reg(r->key[id], reg) && dst_ != origin) dst_--;`
Converted regs array to stack 2024-04-23 22:36:49 -04:00			`} else`
			`*dst_++ = c;`
Special registers that are non-emitting should erase themselves 2024-04-23 00:37:40 -04:00			`} else`
Housekeeping 2024-04-22 20:54:17 -04:00			`*dst_++ = c;`
Converted regs array to stack 2024-04-23 22:36:49 -04:00			`}`
Rewind 2024-04-22 23:08:29 -04:00			`if(dst_ == origin) {`
Removed unecessary assign 2024-04-22 23:32:42 -04:00			`while(*s == ' ') s++;`
			`if(s == ')' && (dst_ - 1) == ' ') dst_--;`
Housekeeping 2024-04-22 20:54:17 -04:00			`}`
Removed unecessary assign 2024-04-22 23:32:42 -04:00			`return write_rule(r, s, 0);`
Housekeeping 2024-04-22 20:54:17 -04:00			`}`
			`return 0;`
			`}`

Abstracted reg lookup 2024-04-24 16:35:12 -04:00			`static int`
			`find_register(Rule *r, char reg)`
			`{`
			`int i;`
			`for(i = 0; i < (int)r->ptr; i++)`
			`if(r->key[i] == reg)`
			`return i;`
			`return -1;`
			`}`

Road to merging frag parsing and rule compilation 2024-04-24 16:41:09 -04:00			`static char *`
Progress in merging parsers 2024-04-24 16:45:08 -04:00			`compile_rule(Rule r, int id, char src)`
Compile rules 2024-04-24 13:31:46 -04:00			`{`
Progress on rules compilation 2024-04-24 17:22:23 -04:00			`int wrapped;`
Inlined parse_frag 2024-04-24 17:03:14 -04:00			`char c, cap, s, *s2;`
Progress in merging parsers 2024-04-24 16:45:08 -04:00			`r->id = id, r->ptr = 0;`
Inlined parse_frag 2024-04-24 17:03:14 -04:00
Progress on rules compilation 2024-04-24 17:22:23 -04:00			`/* left ==================================== */`

Inlined parse_frag 2024-04-24 17:03:14 -04:00			`r->a = dict_;`
			`s2 = src;`
			`while((c = *s2) && c == ' ') s2++;`
			`if(c != ')' && !(c == '<' && s2[1] == '>')) {`
			`cap = walk(s2);`
Progress on rules compilation 2024-04-24 17:22:23 -04:00			`wrapped = c == '(';`
			`if(wrapped) s2++, cap--;`
			`while(s2 < cap) dict_++ = s2++;`
			`s2 += wrapped;`
Inlined parse_frag 2024-04-24 17:03:14 -04:00			`}`
			`*dict_++ = 0;`
			`src = s2;`

Compile rules 2024-04-24 13:31:46 -04:00			`s = r->a;`
			`while((c = s++)) { / left */`
			`if(c == '?') {`
Abstracted reg lookup 2024-04-24 16:35:12 -04:00			`int reg = find_register(r, *s);`
Compile rules 2024-04-24 13:31:46 -04:00			`if(reg < 0 && *s != '(')`
			`r->key[r->ptr] = *s, reg = r->ptr++;`
			`*s = '0' + reg;`
			`}`
			`}`
Inlined parse_frag 2024-04-24 17:03:14 -04:00
Progress on rules compilation 2024-04-24 17:22:23 -04:00			`/* right ==================================== */`

Inlined parse_frag 2024-04-24 17:03:14 -04:00			`r->b = dict_;`
			`s2 = src;`
			`while((c = *s2) && c == ' ') s2++;`
			`if(c != ')' && !(c == '<' && s2[1] == '>')) {`
			`cap = walk(s2);`
Progress on rules compilation 2024-04-24 17:22:23 -04:00			`wrapped = c == '(';`
			`if(wrapped) s2++, cap--;`
			`while(s2 < cap) dict_++ = s2++;`
			`s2 += wrapped;`
Inlined parse_frag 2024-04-24 17:03:14 -04:00			`}`
			`*dict_++ = 0;`
			`src = s2;`

Compile rules 2024-04-24 13:31:46 -04:00			`s = r->b;`
			`while((c = s++)) { / right */`
			`if(c == '?') {`
Abstracted reg lookup 2024-04-24 16:35:12 -04:00			`int reg = find_register(r, *s);`
			`if(reg >= 0)`
			`*s = '0' + reg;`
Compile rules 2024-04-24 13:31:46 -04:00			`}`
			`}`
Road to merging frag parsing and rule compilation 2024-04-24 16:41:09 -04:00			`return src;`
Compile rules 2024-04-24 13:31:46 -04:00			`}`

* 2024-04-04 13:07:49 -04:00			`static int`
Removed argument queue 2024-04-07 19:16:33 -04:00			`rewrite(void)`
* 2024-04-04 13:07:49 -04:00			`{`
Abstracted match/write rule 2024-04-22 20:39:39 -04:00			`char c, last = 0, cap, s = src_;`
Only check for register value once 2024-04-21 12:13:30 -04:00			`while(*s == ' ') s++;`
Housekeeping 2024-04-11 12:40:04 -04:00			`while((c = *s)) {`
Faster rewrite 2024-04-08 13:32:06 -04:00			`if(spacer(last)) {`
Compile rules 2024-04-24 13:31:46 -04:00			`Rule *r = NULL;`
Store lambda in rules[0] 2024-04-22 20:27:34 -04:00			`if(c == '<' && s[1] == '>') { /* rule */`
Progress in merging parsers 2024-04-24 16:45:08 -04:00			`r = rules_++;`
Housekeeping 2024-04-24 16:49:21 -04:00			`s = compile_rule(r, rules_ - rules - 1, s + 2);`
Only check for register value once 2024-04-21 12:13:30 -04:00			`while(*s == ' ') s++;`
Housekeeping 2024-04-22 20:54:17 -04:00			`return write_rule(r, s, 1);`
Initial lambda support 2024-04-10 15:19:44 -04:00			`}`
Store lambda in rules[0] 2024-04-22 20:27:34 -04:00			`if(c == '?' && s[1] == '(') { /* lambda */`
Road to merging frag parsing and rule compilation 2024-04-24 16:41:09 -04:00			`cap = walk(s + 1);`
Housekeeping 2024-04-24 16:49:21 -04:00			`compile_rule(&lambda, -1, s + 2);`
Road to merging frag parsing and rule compilation 2024-04-24 16:41:09 -04:00			`s = cap;`
Only check for register value once 2024-04-21 12:13:30 -04:00			`while(*s == ' ') s++;`
Added comments 2024-04-22 23:50:39 -04:00			`return apply_rule(&lambda, s);`
Do not continue after lambda rewrite 2024-04-22 23:13:19 -04:00			`}`
Moved lambda from rules[0] to its own memory 2024-04-22 23:15:33 -04:00			`for(r = rules; r < rules_; r++)`
Added comments 2024-04-22 23:50:39 -04:00			`if(apply_rule(r, s)) return 1;`
First replacement 2024-04-04 15:09:47 -04:00			`}`
Use stored pointer for src_ 2024-04-14 22:36:16 -04:00			`*dst_++ = last = c;`
Housekeeping 2024-04-11 12:40:04 -04:00			`s++;`
Basic match 2024-04-04 13:30:31 -04:00			`}`
Use stored pointer for src_ 2024-04-14 22:36:16 -04:00			`*dst_++ = 0;`
Exit after match in rewrite 2024-04-04 22:55:05 -04:00			`return 0;`
* 2024-04-04 13:07:49 -04:00			`}`

Inlined load 2024-04-07 13:58:39 -04:00			`int`
			`main(int argc, char **argv)`
Compress program on load 2024-04-07 13:56:43 -04:00			`{`
Inlined load 2024-04-07 13:58:39 -04:00			`FILE *f;`
Warn on imbalance 2024-04-21 12:46:53 -04:00			`int i, pl = 0, pr = 0;`
Compress program on load 2024-04-07 13:56:43 -04:00			`char c, *w = bank_a;`
Inlined load 2024-04-07 13:58:39 -04:00			`if(argc < 2)`
Added quiet/infinite flags 2024-04-18 14:33:23 -04:00			`return !printf("usage: modal [-vqn] source.modal\n");`
			`for(i = 1; i < argc && *argv[i] == '-'; i++) {`
			`switch(argv[i][1]) {`
Compile rules 2024-04-24 13:31:46 -04:00			`case 'v': /* version */ return !printf("Modal Interpreter, 24 Apr 2024.\n");`
Print unused rules 2024-04-22 18:29:54 -04:00			`case 'q': /* quiet */ quiet = 1; break;`
Added quiet/infinite flags 2024-04-18 14:33:23 -04:00			`case 'n': /* infinite */ cycles = 0xffffffff; break;`
			`}`
			`}`
			`if(!(f = fopen(argv[i], "r")))`
Warn on imbalance 2024-04-21 12:46:53 -04:00			`return !fprintf(stdout, "Modal file invalid: %s.\n", argv[i]);`
Compress program on load 2024-04-07 13:56:43 -04:00			`while(fread(&c, 1, 1, f)) {`
Fixed space leak 2024-04-12 11:54:07 -04:00			`c = c <= 0x20 ? 0x20 : c;`
Strip double spaces 2024-04-07 16:09:58 -04:00			`if(w > bank_a) {`
Added basic compression on input 2024-04-07 18:32:53 -04:00			`if(c == ' ' && *(w - 1) == '(') continue;`
			`if(c == ')' && *(w - 1) == ' ') w--;`
Compress program on load 2024-04-07 13:56:43 -04:00			`if(c == ' ' && *(w - 1) == ' ') w--;`
			`}`
Fixed bug with counting parens 2024-04-23 12:35:58 -04:00			`if(c == '(') pl++;`
			`if(c == ')') pr++;`
Removed padding of curlies and square brackets 2024-04-13 22:28:39 -04:00			`*w++ = c;`
Compress program on load 2024-04-07 13:56:43 -04:00			`}`
Trim program end 2024-04-08 18:26:53 -04:00			`while((--w) <= ' ') w = 0;`
Compress program on load 2024-04-07 13:56:43 -04:00			`fclose(f);`
Warn on imbalance 2024-04-21 12:46:53 -04:00			`if(pr != pl)`
			`return !fprintf(stdout, "Modal program imbalanced.\n");`
Removed argument queue 2024-04-07 19:16:33 -04:00			`while(rewrite())`
Added quiet/infinite flags 2024-04-18 14:33:23 -04:00			`if(!cycles--) return !fprintf(stdout, "Modal rewrites exceeded.\n");`
Print unused rules 2024-04-22 18:29:54 -04:00			`while(rules_-- > rules && !quiet)`
			`if(!rules_->refs) printf("-- Unused rule: %d <> (%s) (%s)\n", rules_->refs, rules_->a, rules_->b);`
Starting rewrite 2024-04-04 14:54:31 -04:00			`return 0;`
Trying a c parser 2024-04-04 12:04:27 -04:00			`}`