src/lisp/lisp.c - bluejay - Git - code.swisschili.sh

 #include "lisp.h"
 #include "error.h"
 #include "plat/plat.h"

 #include <ctype.h>
 #include <stdbool.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
 #include <stdarg.h>

 struct alloc *first_a = NULL, *last_a = NULL;

 value_t nil = 0b00101111; // magic ;)
 value_t t = 1 << 3;

 unsigned char max_pool = 0, current_pool = 0;

 value_t intval(int i)
 {
 	i <<= 2;
 	i |= INT_TAG;
 	return i;
 }

 void add_this_alloc(struct alloc *a, int tag)
 {
 	a->type_tag = tag;
 	a->pool = current_pool;

 	if (last_a)
 	{
 		a->prev = last_a;
 		last_a->next = a;
 		a->next = NULL;
 		last_a = a;
 	}
 	else
 	{
 		a->prev = a->next = NULL;
 		first_a = last_a = a;
 	}
 }

 value_t cons(value_t car, value_t cdr)
 {
 	struct cons_alloc *item = malloc_aligned(sizeof(struct cons_alloc));
 	struct cons *c = &item->cons;

 	c->car = car;
 	c->cdr = cdr;
 	c->line = 0;
 	c->name = NULL;

 	value_t v = (value_t)c;
 	v |= CONS_TAG;

 	add_this_alloc(&item->alloc, CONS_TAG);

 	return v;
 }

 void skipws(struct istream *is)
 {
 start:
 	while (isspace(is->peek(is)))
 		is->get(is);

 	if (is->peek(is) == ';')
 	{
 		while (is->get(is) != '\n')
 		{
 		}

 		// Only time I ever use labels is for stuff like this. Compiler would
 		// probably optimize this if I used recursion but I don't want to
 		// bother.
 		goto start;
 	}
 }

 bool isallowedchar(char c)
 {
 	return (c >= '#' && c <= '\'') || (c >= '*' && c <= '/') ||
 	       (c >= '<' && c <= '@');
 }

 bool issymstart(char c)
 {
 	return isalpha(c) || isallowedchar(c);
 }

 bool issym(char c)
 {
 	return isalpha(c) || isallowedchar(c) || isdigit(c);
 }

 struct error readsym(struct istream *is, value_t *val)
 {
 	E_INIT();

 	skipws(is);

 	if (!issymstart(is->peek(is)))
 		THROWSAFE(EEXPECTED);

 	int size = 8;
 	struct alloc *a = malloc_aligned(size + sizeof(struct alloc));

 	char *s = (char *)(a + 1);

 	s[0] = is->get(is);

 	for (int i = 1;; i++)
 	{
 		if (i >= size)
 		{
 			size *= 2;
 			a = realloc_aligned(a, size + sizeof(struct alloc));
 			s = (char *)(a + 1);
 		}

 		if (issym(is->peek(is)))
 		{
 			s[i] = is->get(is);
 		}
 		else
 		{
 			s[i] = 0;
 			*val = (value_t)s;
 			*val |= SYMBOL_TAG;

 			add_this_alloc(a, SYMBOL_TAG);

 			OKAY();
 		}
 	}
 }

 struct error readstr(struct istream *is, value_t *val)
 {
 	E_INIT();

 	skipws(is);

 	if (is->peek(is) != '"')
 		THROWSAFE(EEXPECTED);

 	bool escape = false;
 	int size = 8;

 	struct alloc *a = malloc_aligned(size + sizeof(struct alloc));

 	char *s = (char *)(a + 1);

 	(void)is->get(is);

 	for (int i = 0;; i++)
 	{
 		if (is->peek(is) != '"')
 		{
 			if (i >= size)
 			{
 				size *= 2;
 				a = realloc_aligned(a, size + sizeof(struct alloc));
 				s = (char *)(a + 1);
 			}

 			char c = is->get(is);

 			if (escape && c == 'n')
 				c = '\n';
 			else if (escape && c == '\\')
 				c = '\\';

 			if (c == '\\' && !escape)
 			{
 				escape = true;
 				i--; // will be incremented again, UGLY.
 			}
 			else
 			{
 				escape = false;
 				s[i] = c;
 			}
 		}
 		else
 		{
 			s[i] = '\0';
 			is->get(is);

 			*val = (value_t)s;
 			*val |= STRING_TAG;

 			add_this_alloc(a, STRING_TAG);

 			OKAY();
 		}
 	}
 }

 void printval(value_t v, int depth)
 {
 	for (int i = 0; i < depth; i++)
 		printf("  ");

 	if (symbolp(v))
 	{
 		printf("'%s\n", (char *)(v ^ SYMBOL_TAG));
 	}
 	else if (stringp(v))
 	{
 		printf("\"%s\"\n", (char *)(v ^ STRING_TAG));
 	}
 	else if (integerp(v))
 	{
 		printf("%d\n", v >> 2);
 	}
 	else if (consp(v))
 	{
 		if (listp(v))
 		{
 			printf("list:\n");

 			for (value_t n = v; !nilp(n); n = cdr(n))
 			{
 				printval(car(n), depth + 1);
 			}
 		}
 		else
 		{
 			printf("cons:\n");
 			printval(car(v), depth + 1);
 			printval(cdr(v), depth + 1);
 		}
 	}
 	else if (nilp(v))
 	{
 		printf("nil\n");
 	}
 	else if (closurep(v))
 	{
 		struct closure *c = (void *)(v ^ CLOSURE_TAG);
 		printf("closure %p taking %d argument(s) and capturing %d value(s)\n",
 		       c->function, c->args->num_required, c->num_captured);
 	}
 	else
 	{
 		printf("<unknown %d>\n", v);
 	}
 }

 struct error readlist(struct istream *is, value_t *val)
 {
 	E_INIT();
 	NEARIS(is);

 	skipws(is);

 	if (is->peek(is) != '(')
 		THROWSAFE(EEXPECTED);

 	is->get(is);

 	*val = readn(is);

 	skipws(is);

 	if (is->peek(is) != ')')
 	{
 		NEARIS(is);
 		THROW(EEXPECTED, "Unterminated list");
 	}
 	is->get(is);

 	OKAY();
 }

 struct error readint(struct istream *is, value_t *val)
 {
 	E_INIT();

 	skipws(is);

 	int number = 0;

 	if (!isdigit(is->peek(is)))
 		THROWSAFE(EEXPECTED);

 	while (isdigit(is->peek(is)))
 	{
 		number *= 10;
 		number += is->get(is) - '0';
 	}

 	*val = intval(number);
 	OKAY();
 }

 struct error readquote(struct istream *is, value_t *val)
 {
 	E_INIT();

 	skipws(is);

 	char c = is->peek(is);

 	if (c == '\'' || c == '`' || c == ',' || c == '#')
 	{
 		is->get(is);

 		if (c == ',' && is->peek(is) == '@')
 		{
 			// This is actually a splice
 			is->get(is);
 			c = '@';
 		}
 		else if (c == '#' && is->peek(is) == '\'')
 		{
 			is->get(is);
 		}

 		// Read the next form and wrap it in the appropriate function

 		value_t wrapped;
 		NEARIS(is);

 		struct error read_error = read1(is, &wrapped);
 		TRY_ELSE(read_error, EEXPECTED, "Expected a form after reader macro char %c", c);

 		value_t symbol = nil;

 		switch (c)
 		{
 		case '\'':
 			symbol = symval("quote");
 			break;
 		case '`':
 			symbol = symval("backquote");
 			break;
 		case ',':
 			symbol = symval("unquote");
 			break;
 		case '@':
 			symbol = symval("unquote-splice");
 			break;
 		case '#':
 			symbol = symval("function");
 			break;
 		default:
 			NEARIS(is);
 			THROW(EINVALID, "Invalid reader macro char %c", c);
 		}

 		*val = cons(symbol, cons(wrapped, nil));

 		OKAY();
 	}
 	else
 	{
 		THROWSAFE(EEXPECTED);
 	}
 }

 struct error read1(struct istream *is, value_t *val)
 {
 	E_INIT();

 	NEARIS(is);

 	OKAY_IF(readquote(is, val));
 	OKAY_IF(readsym(is, val));
 	OKAY_IF(readstr(is, val));
 	OKAY_IF(readint(is, val));
 	OKAY_IF(readlist(is, val));

 	THROWSAFE(EEXPECTED);
 }

 void set_cons_info(value_t cons, int line, char *name)
 {
 	if (!consp(cons))
 		return;

 	struct cons *ca = (void *)(cons ^ CONS_TAG);

 	ca->line = line;
 	ca->name = name;
 }

 value_t readn(struct istream *is)
 {
 	value_t first = nil;
 	value_t *last = &first;

 	value_t read_val;

 	while (IS_OKAY(read1(is, &read_val)))
 	{
 		int line;
 		char *file;

 		is->getpos(is, &line, &file);
 		*last = cons(read_val, nil);
 		set_cons_info(*last, line, file);

 		last = cdrref(*last);
 	}

 	return first;
 }

 bool startswith(struct istream *s, char *pattern)
 {
 	char *check = strdup(pattern);
 	s->read(s, check, strlen(pattern));

 	bool res = strcmp(check, pattern) == 0;
 	free(check);

 	return res;
 }

 static value_t strptrval(char *str, int tag)
 {
 	value_t v;

 	struct alloc *al = malloc_aligned(strlen(str) + 1 + sizeof(struct alloc));
 	add_this_alloc(al, SYMBOL_TAG);

 	char *a = (char *)(al + 1);

 	strcpy(a, str);
 	v = (value_t)a;
 	v |= tag;

 	return v;
 }

 value_t strval(char *str)
 {
 	return strptrval(str, STRING_TAG);
 }

 value_t symval(char *str)
 {
 	return strptrval(str, SYMBOL_TAG);
 }

 bool integerp(value_t v)
 {
 	return (v & INT_MASK) == INT_TAG;
 }

 bool symbolp(value_t v)
 {
 	return (v & HEAP_MASK) == SYMBOL_TAG;
 }

 bool stringp(value_t v)
 {
 	return (v & HEAP_MASK) == STRING_TAG;
 }

 bool consp(value_t v)
 {
 	return (v & HEAP_MASK) == CONS_TAG;
 }

 bool heapp(value_t v)
 {
 	return consp(v) || stringp(v) || symbolp(v) || closurep(v);
 }

 bool closurep(value_t v)
 {
 	return (v & HEAP_MASK) == CLOSURE_TAG;
 }

 bool listp(value_t v)
 {
 	value_t next = v;

 	while (consp(next))
 	{
 		next = cdr(next);
 	}

 	return nilp(next);
 }

 value_t car(value_t v)
 {
 	if (!consp(v))
 		return nil;

 	return *carref(v);
 }

 value_t cdr(value_t v)
 {
 	if (!consp(v))
 		return nil;

 	return *cdrref(v);
 }

 value_t *carref(value_t v)
 {
 	if (!consp(v))
 		return NULL;

 	struct cons *c = (void *)(v ^ CONS_TAG);
 	return &c->car;
 }

 value_t *cdrref(value_t v)
 {
 	if (!consp(v))
 		return NULL;

 	struct cons *c = (void *)(v ^ CONS_TAG);
 	return &c->cdr;
 }

 bool nilp(value_t v)
 {
 	return v == nil;
 }

 int length(value_t v)
 {
 	int i = 0;

 	for (; !nilp(v); v = cdr(v))
 		i++;

 	return i;
 }

 value_t elt(value_t v, int index)
 {
 	for (int i = 0; i < index; i++)
 	{
 		v = cdr(v);
 	}

 	return car(v);
 }

 bool symstreq(value_t sym, char *str)
 {
 	if ((sym & HEAP_MASK) != SYMBOL_TAG)
 		return false;

 	return strcmp((char *)(sym ^ SYMBOL_TAG), str) == 0;
 }

 unsigned char make_pool()
 {
 	return ++max_pool;
 }

 unsigned char push_pool(unsigned char pool)
 {
 	unsigned char old = current_pool;
 	current_pool = pool;
 	return old;
 }

 void pop_pool(unsigned char pool)
 {
 	current_pool = pool;
 }

 bool pool_alive(unsigned char pool)
 {
 	return pool != 0;
 }

 void add_to_pool(value_t form)
 {
 	if (!heapp(form))
 		return;

 	struct alloc *a = (void *)(form & ~0b111);
 	a[-1].pool = current_pool;
 }

 int cons_line(value_t val)
 {
 	if (!consp(val))
 		return 0;

 	struct cons *c = (void *)(val ^ CONS_TAG);

 	return c->line;
 }

 char *cons_file(value_t val)
 {
 	if (!consp(val))
 		return NULL;

 	struct cons *c = (void *)(val ^ CONS_TAG);

 	return c->name;
 }

 value_t create_closure(void *code, struct args *args, int ncaptures)
 {
 	struct closure_alloc *ca = malloc_aligned(sizeof(struct closure_alloc) +
 	                                          ncaptures * sizeof(value_t));

 	ca->closure.function = code;
 	ca->closure.args = args;
 	ca->closure.num_captured = ncaptures;

 	add_this_alloc(&ca->alloc, CLOSURE_TAG);

 	return (value_t)(&ca->closure) | CLOSURE_TAG;
 }

 void set_closure_capture_variable(int index, value_t value, value_t closure)
 {
 	if (!closurep(closure))
 		return;

 	struct closure *c = (void *)(closure ^ CLOSURE_TAG);

 	c->data[index] = value;
 }

 value_t cxdr(value_t v, int index)
 {
 	if (!listp(v) || index >= length(v))
 		return nil;

 	for (int i = 0; i < index; i++)
 	{
 		v = cdr(v);
 	}

 	return v;
 }

 value_t *cxdrref(value_t *v, int index)
 {
 	if (!listp(*v) || index >= length(*v))
 		return NULL;

 	value_t *p = v;

 	for (int i = 0; i < index; i++)
 	{
 		p = cdrref(*p);
 	}

 	return p;
 }

 value_t deep_copy(value_t val)
 {
 	if (integerp(val) || val == nil || val == t)
 	{
 		return val;
 	}
 	else if (symbolp(val))
 	{
 		return symval((char *)(val ^ SYMBOL_TAG));
 	}
 	else if (stringp(val))
 	{
 		return strval((char *)(val ^ STRING_TAG));
 	}
 	else if (consp(val))
 	{
 		return cons(deep_copy(car(val)), deep_copy(cdr(val)));
 	}
 	else if (closurep(val))
 	{
 		struct closure *c = (void *)(val ^ CLOSURE_TAG);
 		value_t new = create_closure(c->function, c->args, c->num_captured);
 		struct closure *new_c = (void *)(new ^ CLOSURE_TAG);

 		for (int i = 0; i < c->num_captured; i++)
 		{
 			new_c->data[i] = deep_copy(c->data[i]);
 		}

 		return new;
 	}
 	else
 	{
 		fprintf(stderr, "Don't know how to deep copy this, sorry... please report this bug :)");
 		return nil;
 	}
 }

 value_t *nilptr(value_t val)
 {
 	if (!listp(val))
 		return NULL;

 	if (nilp(val))
 		return NULL;

 	value_t *p;

 	for (p = cdrref(val); !nilp(*p); p = cdrref(*p))
 	{
 	}

 	return p;
 }

 value_t merge2(value_t front, value_t back)
 {
 	if (!listp(front) && listp(back))
 		return cons(front, back);

 	if (listp(front) && !listp(back))
 		back = cons(back, nil);

 	*nilptr(front) = back;

 	return front;
 }
	#include "lisp.h"
	#include "error.h"
	#include "plat/plat.h"

	#include <ctype.h>
	#include <stdbool.h>
	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>
	#include <stdarg.h>

	struct alloc first_a = NULL, last_a = NULL;

	value_t nil = 0b00101111; // magic ;)
	value_t t = 1 << 3;

	unsigned char max_pool = 0, current_pool = 0;

	value_t intval(int i)
	{
	i <<= 2;
	i \|= INT_TAG;
	return i;
	}

	void add_this_alloc(struct alloc *a, int tag)
	{
	a->type_tag = tag;
	a->pool = current_pool;

	if (last_a)
	{
	a->prev = last_a;
	last_a->next = a;
	a->next = NULL;
	last_a = a;
	}
	else
	{
	a->prev = a->next = NULL;
	first_a = last_a = a;
	}
	}

	value_t cons(value_t car, value_t cdr)
	{
	struct cons_alloc *item = malloc_aligned(sizeof(struct cons_alloc));
	struct cons *c = &item->cons;

	c->car = car;
	c->cdr = cdr;
	c->line = 0;
	c->name = NULL;

	value_t v = (value_t)c;
	v \|= CONS_TAG;

	add_this_alloc(&item->alloc, CONS_TAG);

	return v;
	}

	void skipws(struct istream *is)
	{
	start:
	while (isspace(is->peek(is)))
	is->get(is);

	if (is->peek(is) == ';')
	{
	while (is->get(is) != '\n')
	{
	}

	// Only time I ever use labels is for stuff like this. Compiler would
	// probably optimize this if I used recursion but I don't want to
	// bother.
	goto start;
	}
	}

	bool isallowedchar(char c)
	{
	return (c >= '#' && c <= '\'') \|\| (c >= '*' && c <= '/') \|\|
	(c >= '<' && c <= '@');
	}

	bool issymstart(char c)
	{
	return isalpha(c) \|\| isallowedchar(c);
	}

	bool issym(char c)
	{
	return isalpha(c) \|\| isallowedchar(c) \|\| isdigit(c);
	}

	struct error readsym(struct istream is, value_t val)
	{
	E_INIT();

	skipws(is);

	if (!issymstart(is->peek(is)))
	THROWSAFE(EEXPECTED);

	int size = 8;
	struct alloc *a = malloc_aligned(size + sizeof(struct alloc));

	char s = (char )(a + 1);

	s[0] = is->get(is);

	for (int i = 1;; i++)
	{
	if (i >= size)
	{
	size *= 2;
	a = realloc_aligned(a, size + sizeof(struct alloc));
	s = (char *)(a + 1);
	}

	if (issym(is->peek(is)))
	{
	s[i] = is->get(is);
	}
	else
	{
	s[i] = 0;
	*val = (value_t)s;
	*val \|= SYMBOL_TAG;

	add_this_alloc(a, SYMBOL_TAG);

	OKAY();
	}
	}
	}

	struct error readstr(struct istream is, value_t val)
	{
	E_INIT();

	skipws(is);

	if (is->peek(is) != '"')
	THROWSAFE(EEXPECTED);

	bool escape = false;
	int size = 8;

	struct alloc *a = malloc_aligned(size + sizeof(struct alloc));

	char s = (char )(a + 1);

	(void)is->get(is);

	for (int i = 0;; i++)
	{
	if (is->peek(is) != '"')
	{
	if (i >= size)
	{
	size *= 2;
	a = realloc_aligned(a, size + sizeof(struct alloc));
	s = (char *)(a + 1);
	}

	char c = is->get(is);

	if (escape && c == 'n')
	c = '\n';
	else if (escape && c == '\\')
	c = '\\';

	if (c == '\\' && !escape)
	{
	escape = true;
	i--; // will be incremented again, UGLY.
	}
	else
	{
	escape = false;
	s[i] = c;
	}
	}
	else
	{
	s[i] = '\0';
	is->get(is);

	*val = (value_t)s;
	*val \|= STRING_TAG;

	add_this_alloc(a, STRING_TAG);

	OKAY();
	}
	}
	}

	void printval(value_t v, int depth)
	{
	for (int i = 0; i < depth; i++)
	printf(" ");

	if (symbolp(v))
	{
	printf("'%s\n", (char *)(v ^ SYMBOL_TAG));
	}
	else if (stringp(v))
	{
	printf("\"%s\"\n", (char *)(v ^ STRING_TAG));
	}
	else if (integerp(v))
	{
	printf("%d\n", v >> 2);
	}
	else if (consp(v))
	{
	if (listp(v))
	{
	printf("list:\n");

	for (value_t n = v; !nilp(n); n = cdr(n))
	{
	printval(car(n), depth + 1);
	}
	}
	else
	{
	printf("cons:\n");
	printval(car(v), depth + 1);
	printval(cdr(v), depth + 1);
	}
	}
	else if (nilp(v))
	{
	printf("nil\n");
	}
	else if (closurep(v))
	{
	struct closure c = (void )(v ^ CLOSURE_TAG);
	printf("closure %p taking %d argument(s) and capturing %d value(s)\n",
	c->function, c->args->num_required, c->num_captured);
	}
	else
	{
	printf("<unknown %d>\n", v);
	}
	}

	struct error readlist(struct istream is, value_t val)
	{
	E_INIT();
	NEARIS(is);

	skipws(is);

	if (is->peek(is) != '(')
	THROWSAFE(EEXPECTED);

	is->get(is);

	*val = readn(is);

	skipws(is);

	if (is->peek(is) != ')')
	{
	NEARIS(is);
	THROW(EEXPECTED, "Unterminated list");
	}
	is->get(is);

	OKAY();
	}

	struct error readint(struct istream is, value_t val)
	{
	E_INIT();

	skipws(is);

	int number = 0;

	if (!isdigit(is->peek(is)))
	THROWSAFE(EEXPECTED);

	while (isdigit(is->peek(is)))
	{
	number *= 10;
	number += is->get(is) - '0';
	}

	*val = intval(number);
	OKAY();
	}

	struct error readquote(struct istream is, value_t val)
	{
	E_INIT();

	skipws(is);

	char c = is->peek(is);

	if (c == '\'' \|\| c == '`' \|\| c == ',' \|\| c == '#')
	{
	is->get(is);

	if (c == ',' && is->peek(is) == '@')
	{
	// This is actually a splice
	is->get(is);
	c = '@';
	}
	else if (c == '#' && is->peek(is) == '\'')
	{
	is->get(is);
	}

	// Read the next form and wrap it in the appropriate function

	value_t wrapped;
	NEARIS(is);

	struct error read_error = read1(is, &wrapped);
	TRY_ELSE(read_error, EEXPECTED, "Expected a form after reader macro char %c", c);

	value_t symbol = nil;

	switch (c)
	{
	case '\'':
	symbol = symval("quote");
	break;
	case '`':
	symbol = symval("backquote");
	break;
	case ',':
	symbol = symval("unquote");
	break;
	case '@':
	symbol = symval("unquote-splice");
	break;
	case '#':
	symbol = symval("function");
	break;
	default:
	NEARIS(is);
	THROW(EINVALID, "Invalid reader macro char %c", c);
	}

	*val = cons(symbol, cons(wrapped, nil));

	OKAY();
	}
	else
	{
	THROWSAFE(EEXPECTED);
	}
	}

	struct error read1(struct istream is, value_t val)
	{
	E_INIT();

	NEARIS(is);

	OKAY_IF(readquote(is, val));
	OKAY_IF(readsym(is, val));
	OKAY_IF(readstr(is, val));
	OKAY_IF(readint(is, val));
	OKAY_IF(readlist(is, val));

	THROWSAFE(EEXPECTED);
	}

	void set_cons_info(value_t cons, int line, char *name)
	{
	if (!consp(cons))
	return;

	struct cons ca = (void )(cons ^ CONS_TAG);

	ca->line = line;
	ca->name = name;
	}

	value_t readn(struct istream *is)
	{
	value_t first = nil;
	value_t *last = &first;

	value_t read_val;

	while (IS_OKAY(read1(is, &read_val)))
	{
	int line;
	char *file;

	is->getpos(is, &line, &file);
	*last = cons(read_val, nil);
	set_cons_info(*last, line, file);

	last = cdrref(*last);
	}

	return first;
	}

	bool startswith(struct istream s, char pattern)
	{
	char *check = strdup(pattern);
	s->read(s, check, strlen(pattern));

	bool res = strcmp(check, pattern) == 0;
	free(check);

	return res;
	}

	static value_t strptrval(char *str, int tag)
	{
	value_t v;

	struct alloc *al = malloc_aligned(strlen(str) + 1 + sizeof(struct alloc));
	add_this_alloc(al, SYMBOL_TAG);

	char a = (char )(al + 1);

	strcpy(a, str);
	v = (value_t)a;
	v \|= tag;

	return v;
	}

	value_t strval(char *str)
	{
	return strptrval(str, STRING_TAG);
	}

	value_t symval(char *str)
	{
	return strptrval(str, SYMBOL_TAG);
	}

	bool integerp(value_t v)
	{
	return (v & INT_MASK) == INT_TAG;
	}

	bool symbolp(value_t v)
	{
	return (v & HEAP_MASK) == SYMBOL_TAG;
	}

	bool stringp(value_t v)
	{
	return (v & HEAP_MASK) == STRING_TAG;
	}

	bool consp(value_t v)
	{
	return (v & HEAP_MASK) == CONS_TAG;
	}

	bool heapp(value_t v)
	{
	return consp(v) \|\| stringp(v) \|\| symbolp(v) \|\| closurep(v);
	}

	bool closurep(value_t v)
	{
	return (v & HEAP_MASK) == CLOSURE_TAG;
	}

	bool listp(value_t v)
	{
	value_t next = v;

	while (consp(next))
	{
	next = cdr(next);
	}

	return nilp(next);
	}

	value_t car(value_t v)
	{
	if (!consp(v))
	return nil;

	return *carref(v);
	}

	value_t cdr(value_t v)
	{
	if (!consp(v))
	return nil;

	return *cdrref(v);
	}

	value_t *carref(value_t v)
	{
	if (!consp(v))
	return NULL;

	struct cons c = (void )(v ^ CONS_TAG);
	return &c->car;
	}

	value_t *cdrref(value_t v)
	{
	if (!consp(v))
	return NULL;

	struct cons c = (void )(v ^ CONS_TAG);
	return &c->cdr;
	}

	bool nilp(value_t v)
	{
	return v == nil;
	}

	int length(value_t v)
	{
	int i = 0;

	for (; !nilp(v); v = cdr(v))
	i++;

	return i;
	}

	value_t elt(value_t v, int index)
	{
	for (int i = 0; i < index; i++)
	{
	v = cdr(v);
	}

	return car(v);
	}

	bool symstreq(value_t sym, char *str)
	{
	if ((sym & HEAP_MASK) != SYMBOL_TAG)
	return false;

	return strcmp((char *)(sym ^ SYMBOL_TAG), str) == 0;
	}

	unsigned char make_pool()
	{
	return ++max_pool;
	}

	unsigned char push_pool(unsigned char pool)
	{
	unsigned char old = current_pool;
	current_pool = pool;
	return old;
	}

	void pop_pool(unsigned char pool)
	{
	current_pool = pool;
	}

	bool pool_alive(unsigned char pool)
	{
	return pool != 0;
	}

	void add_to_pool(value_t form)
	{
	if (!heapp(form))
	return;

	struct alloc a = (void )(form & ~0b111);
	a[-1].pool = current_pool;
	}

	int cons_line(value_t val)
	{
	if (!consp(val))
	return 0;

	struct cons c = (void )(val ^ CONS_TAG);

	return c->line;
	}

	char *cons_file(value_t val)
	{
	if (!consp(val))
	return NULL;

	struct cons c = (void )(val ^ CONS_TAG);

	return c->name;
	}

	value_t create_closure(void code, struct args args, int ncaptures)
	{
	struct closure_alloc *ca = malloc_aligned(sizeof(struct closure_alloc) +
	ncaptures * sizeof(value_t));

	ca->closure.function = code;
	ca->closure.args = args;
	ca->closure.num_captured = ncaptures;

	add_this_alloc(&ca->alloc, CLOSURE_TAG);

	return (value_t)(&ca->closure) \| CLOSURE_TAG;
	}

	void set_closure_capture_variable(int index, value_t value, value_t closure)
	{
	if (!closurep(closure))
	return;

	struct closure c = (void )(closure ^ CLOSURE_TAG);

	c->data[index] = value;
	}

	value_t cxdr(value_t v, int index)
	{
	if (!listp(v) \|\| index >= length(v))
	return nil;

	for (int i = 0; i < index; i++)
	{
	v = cdr(v);
	}

	return v;
	}

	value_t cxdrref(value_t v, int index)
	{
	if (!listp(v) \|\| index >= length(v))
	return NULL;

	value_t *p = v;

	for (int i = 0; i < index; i++)
	{
	p = cdrref(*p);
	}

	return p;
	}

	value_t deep_copy(value_t val)
	{
	if (integerp(val) \|\| val == nil \|\| val == t)
	{
	return val;
	}
	else if (symbolp(val))
	{
	return symval((char *)(val ^ SYMBOL_TAG));
	}
	else if (stringp(val))
	{
	return strval((char *)(val ^ STRING_TAG));
	}
	else if (consp(val))
	{
	return cons(deep_copy(car(val)), deep_copy(cdr(val)));
	}
	else if (closurep(val))
	{
	struct closure c = (void )(val ^ CLOSURE_TAG);
	value_t new = create_closure(c->function, c->args, c->num_captured);
	struct closure new_c = (void )(new ^ CLOSURE_TAG);

	for (int i = 0; i < c->num_captured; i++)
	{
	new_c->data[i] = deep_copy(c->data[i]);
	}

	return new;
	}
	else
	{
	fprintf(stderr, "Don't know how to deep copy this, sorry... please report this bug :)");
	return nil;
	}
	}

	value_t *nilptr(value_t val)
	{
	if (!listp(val))
	return NULL;

	if (nilp(val))
	return NULL;

	value_t *p;

	for (p = cdrref(val); !nilp(p); p = cdrref(p))
	{
	}

	return p;
	}

	value_t merge2(value_t front, value_t back)
	{
	if (!listp(front) && listp(back))
	return cons(front, back);

	if (listp(front) && !listp(back))
	back = cons(back, nil);

	*nilptr(front) = back;

	return front;
	}