Fixed issue with empty plode register

examples/multiply.modal

@@ -0,0 +1,199 @@
+<> (-- ?x) ()
+-- ( little endian binary integers )
+
+-- ( constants )
+<> zero ((0 ()))
+<> one ((1 ()))
+<> ten ((0 (1 (0 (1 ())))))
+
+-- ( decimal digit to binary )
+<> ((binary 0)) ((0 ()))
+<> ((binary 1)) ((1 ()))
+<> ((binary 2)) ((0 (1 ())))
+<> ((binary 3)) ((1 (1 ())))
+<> ((binary 4)) ((0 (0 (1 ()))))
+<> ((binary 5)) ((1 (0 (1 ()))))
+<> ((binary 6)) ((0 (1 (1 ()))))
+<> ((binary 7)) ((1 (1 (1 ()))))
+<> ((binary 8)) ((0 (0 (0 (1 ())))))
+<> ((binary 9)) ((1 (0 (0 (1 ())))))
+
+-- ( binary to decimal digit )
+<> ((decimal (0 ()))) (0)
+<> ((decimal (1 ()))) (1)
+<> ((decimal (0 (1 ())))) (2)
+<> ((decimal (1 (1 ())))) (3)
+<> ((decimal (0 (0 (1 ()))))) (4)
+<> ((decimal (1 (0 (1 ()))))) (5)
+<> ((decimal (0 (1 (1 ()))))) (6)
+<> ((decimal (1 (1 (1 ()))))) (7)
+<> ((decimal (0 (0 (0 (1 ())))))) (8)
+<> ((decimal (1 (0 (0 (1 ())))))) (9)
+
+-- reverse ()-terminated list
+<> (reverse ?x) (reverse1 () ?x)
+<> (reverse1 ?a ()) (?a)
+<> (reverse1 ?a (?h ?t)) (reverse1 (?h ?a) ?t)
+
+-- ( to integer )
+<> ((int ?*)) ((sum f (one) g reverse (?*)))
+<> (g ()) (())
+<> (g (?h ?t)) (((binary ?h) g ?t))
+<> (f (?u) ()) (()) 
+<> (f (?u) (?h ?t)) (((mul ?h ?u) f ((mul ?u ten)) ?t))
+
+-- ( to binary str )
+-- ( <> ((bstr ?x)) (emit force (0 (b  ?x))) )
+-- ( <> ((bstr ?x)) ((bstr1 () ?x)) )
+<> ((bstr ?x)) ((bstr1 force ?x ()))
+<> ((bstr1 force/r () ?a)) (emit force/r (0 (b ?a)))
+<> ((bstr1 force/r (?h ?t) ?a)) ((bstr1 force/r ?t (?h ?a)))
+
+-- ( to string: TODO, need division for this one )
+<> ((str ?x)) ((str1 ?x ()))
+<> ((str1 (0 ()) ?a)) (emit force ?a)
+<> ((str1 (?h ?t) ?a)) ((str2 (divmod (?h ?t) ten) ?a))
+<> ((str2 (?q ?r) ?a)) ((str1 ?q ((decimal ?r) ?a)))
+
+-- ( force a list to evaluate to digits/letters )
+<> ((?h force/r ?t)) (force/r (?h ?t))
+<> (force ()) (force/r ())
+<> (force (0 ?t)) ((0 force ?t))
+<> (force (1 ?t)) ((1 force ?t))
+<> (force (2 ?t)) ((2 force ?t))
+<> (force (3 ?t)) ((3 force ?t))
+<> (force (4 ?t)) ((4 force ?t))
+<> (force (5 ?t)) ((5 force ?t))
+<> (force (6 ?t)) ((6 force ?t))
+<> (force (7 ?t)) ((7 force ?t))
+<> (force (8 ?t)) ((8 force ?t))
+<> (force (9 ?t)) ((9 force ?t))
+<> (force (a ?t)) ((a force ?t))
+<> (force (b ?t)) ((b force ?t))
+<> (force (c ?t)) ((c force ?t))
+<> (force (d ?t)) ((d force ?t))
+<> (force (e ?t)) ((e force ?t))
+<> (force (f ?t)) ((f force ?t))
+<> (force (x ?t)) ((x force ?t))
+
+-- ( emit )
+<> (emit force/r ?*) (?*)
+
+-- ( comparison operartions )
+<> ((cmp ?x ?y)) ((cmpc #eq ?x ?y))
+<> ((cmpc ?e () ())) (?e)
+<> ((cmpc ?e (1 ?x) ())) (#gt)
+<> ((cmpc ?e (0 ?x) ())) ((cmpc ?e ?x ()))
+<> ((cmpc ?e () (1 ?y))) (#lt)
+<> ((cmpc ?e () (0 ?y))) ((cmpc ?e () ?y))
+<> ((cmpc ?e (0 ?x) (0 ?y))) ((cmpc ?e ?x ?y))
+<> ((cmpc ?e (1 ?x) (0 ?y))) ((cmpc #gt ?x ?y))
+<> ((cmpc ?e (0 ?x) (1 ?y))) ((cmpc #lt ?x ?y))
+<> ((cmpc ?e (1 ?x) (1 ?y))) ((cmpc ?e ?x ?y))
+
+-- ( addition )
+<> ((add ?x ?y)) ((addc 0 ?x ?y))
+<> ((addc 0 () ())) (())
+<> ((addc 1 () ())) ((1 ()))
+-- ( <> ((addc ?c ?x ())) ((addc ?c ?x (0 ()))) )
+-- ( <> ((addc ?c () ?y)) ((addc ?c (0 ()) ?y)) )
+<> ((addc 0 ?x ())) (?x)
+<> ((addc 0 () ?y)) (?y)
+<> ((addc 1 ?x ())) ((addc 1 ?x (0 ())))
+<> ((addc 1 () ?y)) ((addc 1 (0 ()) ?y))
+<> ((addc 0 (0 ?x) (0 ?y))) ((0 (addc 0 ?x ?y)))
+<> ((addc 0 (0 ?x) (1 ?y))) ((1 (addc 0 ?x ?y)))
+<> ((addc 0 (1 ?x) (0 ?y))) ((1 (addc 0 ?x ?y)))
+<> ((addc 0 (1 ?x) (1 ?y))) ((0 (addc 1 ?x ?y)))
+<> ((addc 1 (0 ?x) (0 ?y))) ((1 (addc 0 ?x ?y)))
+<> ((addc 1 (0 ?x) (1 ?y))) ((0 (addc 1 ?x ?y)))
+<> ((addc 1 (1 ?x) (0 ?y))) ((0 (addc 1 ?x ?y)))
+<> ((addc 1 (1 ?x) (1 ?y))) ((1 (addc 1 ?x ?y)))
+
+-- ( summation )
+<> ((sum ())) ((0 ()))
+<> ((sum (?a ()))) (?a)
+<> ((sum (?a (?b ?c)))) ((sum ((add ?a ?b) ?c)))
+
+-- ( multiplication )
+<> ((mul ?x ?y)) ((mulc () ?x ?y))
+<> ((mulc ?t () ?y)) ((sum ?t))
+<> ((mulc ?t (0 ?x) ?y)) ((mulc ?t ?x (0 ?y)))
+<> ((mulc ?t (1 ?x) ?y)) ((mulc (?y ?t) ?x (0 ?y)))
+
+-- ( subtraction )
+<> ((sub ?x ?y)) (sub1 0 ?x ?y ())
+<> (sub1 0 () () ?s) (())
+<> (sub1 1 () () ?s) (#err)
+<> (sub1 ?c ?x () ?s) (sub1 ?c ?x (0 ()) ?s)
+<> (sub1 ?c () ?y ?s) (sub1 ?c (0 ()) ?y ?s)
+<> (sub1 0 (0 ?x) (0 ?y) ?s) (sub1 0 ?x ?y (0 ?s))
+<> (sub1 0 (0 ?x) (1 ?y) ?s) (sub2 1 ?x ?y ?s)
+<> (sub1 0 (1 ?x) (0 ?y) ?s) (sub2 0 ?x ?y ?s)
+<> (sub1 0 (1 ?x) (1 ?y) ?s) (sub1 0 ?x ?y (0 ?s))
+<> (sub1 1 (0 ?x) (0 ?y) ?s) (sub2 1 ?x ?y ?s)
+<> (sub1 1 (0 ?x) (1 ?y) ?s) (sub1 1 ?x ?y (0 ?s))
+<> (sub1 1 (1 ?x) (0 ?y) ?s) (sub1 0 ?x ?y (0 ?s))
+<> (sub1 1 (1 ?x) (1 ?y) ?s) (sub2 1 ?x ?y ?s)
+<> (sub2 ?c ?x ?y ()) ((1 sub1 ?c ?x ?y ()))
+<> (sub2 ?c ?x ?y (?h ?t)) ((0 sub2 ?c ?x ?y ?t))
+
+<> (dec (0 ())) (#err)
+<> (dec (1 ())) ((0 ()))
+<> (dec (1 ?t)) ((0 ?t))
+<> (dec (0 ?t)) (dec1 (0 ?t))
+<> (dec1 (1 ())) (())
+<> (dec1 (1 ?t)) ((0 ?t))
+<> (dec1 (0 ?t)) ((1 dec1 ?t))
+
+-- ( inc )
+<> ((inc ())) ((1 ()))
+<> ((inc (0 ?t))) ((1 ?t))
+<> ((inc (1 ?t))) ((0 (inc ?t)))
+
+-- ( left shift; lshift x b means x<<b )
+<> ((lshift ?x (0 ()))) (?x)
+<> ((lshift ?x (1 ()))) ((0 ?x))
+<> ((lshift ?x (0 (?a ?b)))) ((lshift (0 ?x) dec (0 (?a ?b))))
+<> ((lshift ?x (1 (?a ?b)))) ((lshift (0 ?x) (0 (?a ?b))))
+
+<> ((rshift1 (?a ()))) ((0 ()))
+<> ((rshift1 (?a (?b ?c)))) ((?b ?c))
+
+-- ( divmod, i.e. quotient and remainder )
+-- ( x is the dividend, or what's left of it )
+-- ( y is the divisor )
+-- ( s is the number of bits to shift, so far )
+-- ( o is the next valuet o add to the quotient )
+-- ( m is the next multiple of y to work with )
+-- ( d is the quotient, so far )
+<> ((divmod ?x ?y)) ((divmod1 ?x ?y (cmp ?x ?y)))
+<> ((divmod1 ?x ?y #lt)) ((zero ?x))
+<> ((divmod1 ?x ?y #eq)) ((one zero))
+<> ((divmod1 ?x ?y #gt)) ((divmod2 ?x ?y zero ?y))
+
+<> ((divmod2 ?x ?y ?s ?m)) ((divmod3 ?x ?y ?s ?m (cmp ?x (0 ?m))))
+<> ((divmod3 ?x ?y ?s ?m #gt)) ((divmod2 ?x ?y (inc ?s) (0 ?m)))
+<> ((divmod3 ?x ?y ?s ?m #eq)) ((divmod4 ?x ?y (inc ?s) (0 ?m) zero))
+<> ((divmod3 ?x ?y ?s ?m #lt)) ((divmod4 ?x ?y ?s ?m zero))
+
+<> ((divmod4 ?x ?y (0 ()) ?m ?d)) (((add ?d one) (sub ?x ?y)))
+<> ((divmod4 ?x ?y ?s ?m ?d)) ((divmod5 (sub ?x ?m) ?y dec ?s (rshift1 ?m) (add ?d (lshift one ?s))))
+
+<> ((divmod5 (0 ()) ?y ?s ?m ?d)) ((?d (0 ())))
+<> ((divmod5 ?x ?y ?s ?m ?d)) ((divmod6 ?x ?y ?s ?m ?d (cmp ?x ?m)))
+
+<> ((divmod6 ?x ?y (0 ()) ?m ?d #lt)) ((?d ?x))
+<> ((divmod6 ?x ?y ?s ?m ?d #lt)) ((divmod5 ?x ?y dec ?s (rshift1 ?m) ?d))
+<> ((divmod6 ?x ?y ?s ?m ?d #eq)) ((divmod4 ?x ?y ?s ?m ?d))
+<> ((divmod6 ?x ?y ?s ?m ?d #gt)) ((divmod4 ?x ?y ?s ?m ?d))
+
+-- ( floor divison )
+<> ((div ?x ?y)) ((div1 (divmod ?x ?y)))
+<> ((div1 (?q ?r))) (?q)
+
+-- ( remainder )
+<> ((mod ?x ?y)) ((mod1 (divmod ?x ?y)))
+<> ((mod1 (?q ?r))) (?r)
+
+(bstr (mul (int 123456789) (int 987654321)))

examples/sierpinski.modal

@@ -0,0 +1,50 @@
+<> (written by) (capital)
+<> (?: print) (?:)
+
+<> (?* explode) ((List (?*)))
+<> ((List ?*) implode)  (?*)
+
+<> (MkEmpty) (_________________________________ explode)
+
+<> ((List (?1 (?2 ?l))) MkWindow) ((Window (?1 ?2) ?l))
+
+<> ((Window (?1 ?2) (     )) roll) ((WindowExhausted))
+<> ((Window (?1 ?2) (?3   )) roll) ((Window (?1 ?2 ?3) ()))
+<> ((Window (?1 ?2) (?3 ?l)) roll) ((Window (?1 ?2 ?3) ?l))
+
+<> ((Window (?1 ?2 ?3) (     )) roll) ((Window (?2 ?3   ) ()))
+<> ((Window (?1 ?2 ?3) (?4   )) roll) ((Window (?2 ?3 ?4) ()))
+<> ((Window (?1 ?2 ?3) (?4 ?l)) roll) ((Window (?2 ?3 ?4) ?l))
+
+
+<> (?p apply-rule) ((Rule (?p explode MkWindow MkEmpty apply-rule)) implode)
+<> ((Window (?1 ?2 ?3) ()) (List (?h ?t)) apply-rule) ((?1 ?2 ?3) cell-state ((?2 ?3) cell-state (Rule')))
+<> ((Window     ?v     ?l) (List (?h ?t)) apply-rule) (    ?v     cell-state ((Window ?v ?l) roll (List ?t) apply-rule))
+
+<> (Rule (Rule' ?l)) (List ?l)
+<> (?y   (Rule'   )) (Rule' (?y))
+<> (?x   (Rule' ?y)) (Rule' (?x ?y))
+
+<> ((* * *) cell-state) (_)
+<> ((* * _) cell-state) (*)
+<> ((* _ *) cell-state) (_)
+<> ((* _ _) cell-state) (*)
+<> ((_ * *) cell-state) (*)
+<> ((_ * _) cell-state) (_)
+<> ((_ _ *) cell-state) (*)
+<> ((_ _ _) cell-state) (_)
+
+<> ((* _) cell-state) (*)
+<> ((_ *) cell-state) (*)
+<> ((_ _) cell-state) (_)
+
+<> ((Gas ?f) ?p (?r) MkTriangle) ((Triangle ((Gas ?f) ?p (?r) build)))
+<> ((Gas (?g ?f)) ?p (?r) build) (?p ((Gas ?f) ?p ?r (?r) build))
+<> ((Gas (Empty)) ?p ?r build) (?p (Triangle'))
+
+<> (Triangle (Triangle' ?l)) (List (\n ?l))
+<> (?y       (Triangle'   )) (Triangle' (?y (\n (\n))))
+<> (?x       (Triangle' ?y)) (Triangle' (?x (\n ?y)))
+
+
+(Gas (* (* (* (* (* (* (* (* (* (* (* (* (* (* (* (Empty))))))))))))))))) ________________*________________ (apply-rule) MkTriangle implode print

makefile

@@ -8,11 +8,11 @@ all: dest
 dest:
 	@ mkdir -p bin
 run: all bin/modal
-	@ bin/modal examples/hello.modal 2> /dev/null
+	@ bin/modal examples/hello.modal 
 test: bin/modal-debug bin/modal
 	@ bin/modal -v
 	@ bin/modal-debug examples/test.modal "(arg1) (arg2 (arg3))"
-	@ bin/modal examples/test.modal
+	@ bin/modal examples/test.modal 2> /dev/null
 install: bin/modal
 	cp bin/modal ~/bin/
 uninstall:

src/modal.c

@@ -30,27 +30,6 @@ walk(char *s)
 	return s;
 }
 
-static char *
-plode(char *s)
-{
-	int i, depth = 0;
-	char c, *ss;
-	/* implode */
-	if(*s == '(') {
-		ss = walk(s);
-		while(s < ss && (c = *s++))
-			if(!spacer(c)) *outp_++ = c;
-	}
-	/* explode */
-	else {
-		while((c = *s++) && !spacer(c))
-			*outp_++ = c, *outp_++ = ' ', *outp_++ = '(', depth++;
-		for(i = 0; i < depth; i++)
-			*outp_++ = ')';
-	}
-	return s;
-}
-
 static int
 set_reg(int r, char *b)
 {
@@ -66,19 +45,32 @@ set_reg(int r, char *b)
 static void
 put_reg(char r)
 {
-	char *s = regs[(int)r];
-	if(r == '*')
-		s = plode(s);
-	else if(r == '~') {
+	char c, *s = regs[(int)r];
+	if(r == '~') {
 		char buf;
 		while(fread(&buf, 1, 1, stdin) && buf >= ' ')
 			*outp_++ = buf;
 	} else if(s) {
 		char *ss = walk(s);
-		if(r == ':') {
+		if(r == '*') {
+			/* implode */
+			if(*s == '(') {
+				ss = walk(s);
+				while(s < ss && (c = *s++))
+					if(!spacer(c)) *outp_++ = c;
+			}
+			/* explode */
+			else {
+				int i, depth = 0;
+				while((c = *s++) && !spacer(c))
+					*outp_++ = c, *outp_++ = ' ', *outp_++ = '(', depth++;
+				for(i = 0; i < depth; i++)
+					*outp_++ = ')';
+			}
+		} else if(r == ':') {
 			if(*s == '(') s++, --ss;
 			while(s < ss) {
-				char c = *s++;
+				c = *s++;
 				if(c == '\\') {
 					switch(*s++) {
 					case 't': putc(0x09, stdout); break;