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

 #include "std.h"
 #include "classes.h"
 #include "../gc.h"
 #include "../compiler.h"
 #include "../plat/plat.h"
 #include <stdlib.h>
 #include <string.h>

 value_t l_plus(value_t a, value_t b)
 {
 	if (!integerp(a) || !integerp(b))
 		return nil;

 	return (((a >> 2) + (b >> 2)) << 2) | INT_TAG;
 }

 value_t l_minus(value_t a, value_t b)
 {
 	if (!integerp(a) || !integerp(b))
 		return nil;

 	return (((a >> 2) - (b >> 2)) << 2) | INT_TAG;
 }

 value_t l_times(value_t a, value_t b)
 {
 	if (!integerp(a) || !integerp(b))
 		return nil;

 	return (((a >> 2) * (b >> 2)) << 2) | INT_TAG;
 }

 value_t l_divide(value_t a, value_t b)
 {
 	if (!integerp(a) || !integerp(b))
 		return nil;

 	return (((a >> 2) / (b >> 2)) << 2) | INT_TAG;
 }

 value_t l_printval(value_t val)
 {
 	printval(val, 0);
 	return nil;
 }

 value_t l_apply(value_t func, value_t args)
 {
 	if (!closurep(func))
 		return nil;

 	if (!listp(args))
 		return nil;

 	return call_list_closure((struct closure *)(func ^ CLOSURE_TAG), args);
 }

 value_t l_nilp(value_t val)
 {
 	return nilp(val) ? t : nil;
 }

 void add_function(struct environment *env, char *name, void *func, struct args *args, enum namespace ns)
 {
 	struct function *last, *new = malloc(sizeof(struct function));

 	last = env->first;
 	new->prev = last;
 	new->name = name;
 	new->args = args;
 	new->code_ptr = func;
 	new->namespace = ns;

 	env->first = new;
 }

 void add_c_varargs(struct environment *env, char *name, void *func, int nargs)
 {
 	struct args *args = new_args();
 	args->num_required = nargs;
 	args->variadic = true;

 	add_function(env, name, func, args, NS_FUNCTION);
 }

 void add_c_function(struct environment *env, char *name, void *func, int nargs)
 {
 	struct args *args = new_args();
 	args->num_required = nargs;

 	add_function(env, name, func, args, NS_FUNCTION);
 }

 value_t l_elt(value_t seq, value_t i)
 {
 	if (!listp(seq) || !integerp(i))
 		return nil;

 	return elt(seq, i >> 2);
 }

 value_t l_read_stdin()
 {
 	char *string = read_input_line("lisp> ");
 	if (!string)
 		return nil;

 	struct istream *is = new_stristream_nt(string);

 	value_t val = nil;
 	struct error err = { 0 };

 	if (!IS_OKAY((err = read1(is, &val))))
 	{
 		ereport(err);

 		del_stristream(is);
 		free(string);
 		// tail recursion, yay!
 		return l_read_stdin();
 	}

 	del_stristream(is);
 	free(string);

 	return val;
 }

 value_t l_num_eq(value_t a, value_t b)
 {
 	if (!integerp(a) || !integerp(b))
 	{
 		return nil;
 	}

 	return (a >> 2) == (b >> 2) ? t : nil;
 }

 value_t l_num_gt(value_t a, value_t b)
 {
 	if (!integerp(a) || !integerp(b))
 		return nil;

 	return (a >> 2) > (b >> 2) ? t : nil;
 }

 value_t l_num_lt(value_t a, value_t b)
 {
 	if (!integerp(a) || !integerp(b))
 		return nil;

 	return (a >> 2) < (b >> 2) ? t : nil;
 }

 value_t l_append(value_t l)
 {
 	if (nilp(l))
 		return l;

 	value_t first = nil;
 	value_t *last = NULL;

 	for (value_t item = l; !nilp(item); item = cdr(item))
 	{
 		value_t a = car(item);

 		if (!listp(a))
 		{
 			value_t new = cons(a, nil);
 			*last = new;
 			last = cdrref(new);
 			continue;
 		}

 		for (value_t i = a; !nilp(i); i = cdr(i))
 		{
 			value_t b = car(i);

 			if (!last)
 			{
 				first = cons(b, nil);
 				last = cdrref(first);
 			}
 			else
 			{
 				value_t new = cons(b, nil);
 				*last = new;
 				last = cdrref(new);
 			}
 		}
 	}

 	return first;
 }

 value_t l_gc_stats()
 {
 	struct gc_stats stats = gc_get_stats();

 	return cons(intval(stats.total_allocs),
 				cons(intval(stats.gc_runs),
 					 nil));
 }

 value_t l_list_functions(value_t env)
 {
 	if (!integerp(env))
 		return nil;

 	struct environment *e = (void *)env;
 	value_t list = nil;

 	for (struct function *fun = e->first; fun; fun = fun->prev)
 	{
 		list = cons(symval(fun->name), list);
 	}

 	return list;
 }

 value_t l_string_to_symbol(value_t string)
 {
 	if (!stringp(string))
 		return nil;

 	return symval((char *)(string ^ STRING_TAG));
 }

 value_t l_symbol_to_string(value_t string)
 {
 	if (!symbolp(string))
 		return nil;

 	return strval((char *)(string ^ SYMBOL_TAG));
 }

 value_t l_string_length(value_t string)
 {
 	if (!stringp(string))
 		return intval(0);

 	return intval(strlen((char *)(string ^ STRING_TAG)));
 }

 value_t l_concat(value_t strings)
 {
 	struct alloc *string_alloc = malloc_aligned(sizeof(struct alloc));
 	int lengths = 0;

 	for (value_t str = strings; !nilp(str); str = cdr(str))
 	{
 		if (!stringp(car(str)))
 			continue;

 		int len = strlen((char *)(car(str) ^ STRING_TAG));
 		string_alloc = realloc_aligned(string_alloc,
 									   sizeof(struct alloc) + lengths + len);

 		memcpy((void *)string_alloc + sizeof(struct alloc) + lengths,
 			   (char *)(car(str) ^ STRING_TAG),
 			   len);

 		lengths += len;
 	}

 	add_this_alloc(string_alloc, STRING_TAG);

 	return (value_t)(string_alloc + 1) | STRING_TAG;
 }

 value_t l_gensym()
 {
 	static int symcnt = 0;
 	char buffer[32] = {0};
 	snprintf(buffer, 32, "-sym-%d", symcnt++);
 	return symval(buffer);
 }

 #define LISP_PREDICATE(name) value_t l_##name(value_t v) { return name(v) ? t : nil; }

 LISP_PREDICATE(listp)
 LISP_PREDICATE(integerp)
 LISP_PREDICATE(symbolp)
 LISP_PREDICATE(closurep)
 LISP_PREDICATE(consp)
 LISP_PREDICATE(classp)

 #undef LISP_PREDICATE

 struct error load_std(struct environment *env)
 {
 	E_INIT();

 	add_c_function(env, "+", l_plus, 2);
 	add_c_function(env, "-", l_minus, 2);
 	add_c_function(env, "*", l_times, 2);
 	add_c_function(env, "/", l_divide, 2);
 	add_c_function(env, "=", l_num_eq, 2);
 	add_c_function(env, "<", l_num_lt, 2);
 	add_c_function(env, ">", l_num_gt, 2);

 	add_c_function(env, "car", car, 1);
 	add_c_function(env, "cdr", cdr, 1);
 	add_c_function(env, "cons", cons, 2);

 	add_c_function(env, "print", l_printval, 1);
 	add_c_function(env, "read-stdin", l_read_stdin, 0);
 	add_c_function(env, "apply", l_apply, 2);
 	add_c_varargs(env,  "append", l_append, 0);

 	add_c_function(env, "nilp", l_nilp, 1);
 	add_c_function(env, "listp", l_listp, 1);
 	add_c_function(env, "integerp", l_integerp, 1);
 	add_c_function(env, "symbolp", l_symbolp, 1);
 	add_c_function(env, "closurep", l_closurep, 1);
 	add_c_function(env, "functionp", l_closurep, 1);
 	add_c_function(env, "consp", l_consp, 1);

 	add_c_function(env, "elt", l_elt, 2);

 	add_c_function(env, "gc-stats", l_gc_stats, 0);
 	add_c_function(env, "env-functions", l_list_functions, 1);

 	add_c_varargs(env, "concat", l_concat, 0);
 	add_c_function(env, "string-length", l_string_length, 1);
 	add_c_function(env, "string->symbol", l_string_to_symbol, 1);
 	add_c_function(env, "symbol->string", l_symbol_to_string, 1);
 	add_c_function(env, "gensym", l_gensym, 0);

 	load_classes(env);

 	if (!load_library(env, "std"))
 	{
 		fprintf(stderr, "Not found std\n");
 		THROW(ENOTFOUND, "Could not load library `std`, make sure your $LISP_LIBRARY_PATH is correct.");
 	}

 	OKAY();
 }

 bool load_library(struct environment *env, char *name)
 {
 	char *lib_paths = getenv("LISP_LIBRARY_PATH");

 	if (!lib_paths)
 		lib_paths = "/lib/lisp";

 	for (char *p = strtok(lib_paths, ":"); p; p = strtok(NULL, ":"))
 	{
 		static char path[512];
 		snprintf(path, 512, "%s/%s.lisp", p, name);

 		if (file_exists(path))
 		{
 			// fprintf(stderr, "loading path: %s\n", path);
 			return load(env, path);
 		}

 		snprintf(path, 512, "%s/%s/%s.lisp", p, name, name);

 		if (file_exists(path))
 		{
 			// fprintf(stderr, "loading path: %s\n", path);
 			return load(env, path);
 		}
 	}

 	return false;
 }
	#include "std.h"
	#include "classes.h"
	#include "../gc.h"
	#include "../compiler.h"
	#include "../plat/plat.h"
	#include <stdlib.h>
	#include <string.h>

	value_t l_plus(value_t a, value_t b)
	{
	if (!integerp(a) \|\| !integerp(b))
	return nil;

	return (((a >> 2) + (b >> 2)) << 2) \| INT_TAG;
	}

	value_t l_minus(value_t a, value_t b)
	{
	if (!integerp(a) \|\| !integerp(b))
	return nil;

	return (((a >> 2) - (b >> 2)) << 2) \| INT_TAG;
	}

	value_t l_times(value_t a, value_t b)
	{
	if (!integerp(a) \|\| !integerp(b))
	return nil;

	return (((a >> 2) * (b >> 2)) << 2) \| INT_TAG;
	}

	value_t l_divide(value_t a, value_t b)
	{
	if (!integerp(a) \|\| !integerp(b))
	return nil;

	return (((a >> 2) / (b >> 2)) << 2) \| INT_TAG;
	}

	value_t l_printval(value_t val)
	{
	printval(val, 0);
	return nil;
	}

	value_t l_apply(value_t func, value_t args)
	{
	if (!closurep(func))
	return nil;

	if (!listp(args))
	return nil;

	return call_list_closure((struct closure *)(func ^ CLOSURE_TAG), args);
	}

	value_t l_nilp(value_t val)
	{
	return nilp(val) ? t : nil;
	}

	void add_function(struct environment env, char name, void func, struct args args, enum namespace ns)
	{
	struct function last, new = malloc(sizeof(struct function));

	last = env->first;
	new->prev = last;
	new->name = name;
	new->args = args;
	new->code_ptr = func;
	new->namespace = ns;

	env->first = new;
	}

	void add_c_varargs(struct environment env, char name, void *func, int nargs)
	{
	struct args *args = new_args();
	args->num_required = nargs;
	args->variadic = true;

	add_function(env, name, func, args, NS_FUNCTION);
	}

	void add_c_function(struct environment env, char name, void *func, int nargs)
	{
	struct args *args = new_args();
	args->num_required = nargs;

	add_function(env, name, func, args, NS_FUNCTION);
	}

	value_t l_elt(value_t seq, value_t i)
	{
	if (!listp(seq) \|\| !integerp(i))
	return nil;

	return elt(seq, i >> 2);
	}

	value_t l_read_stdin()
	{
	char *string = read_input_line("lisp> ");
	if (!string)
	return nil;

	struct istream *is = new_stristream_nt(string);

	value_t val = nil;
	struct error err = { 0 };

	if (!IS_OKAY((err = read1(is, &val))))
	{
	ereport(err);

	del_stristream(is);
	free(string);
	// tail recursion, yay!
	return l_read_stdin();
	}

	del_stristream(is);
	free(string);

	return val;
	}

	value_t l_num_eq(value_t a, value_t b)
	{
	if (!integerp(a) \|\| !integerp(b))
	{
	return nil;
	}

	return (a >> 2) == (b >> 2) ? t : nil;
	}

	value_t l_num_gt(value_t a, value_t b)
	{
	if (!integerp(a) \|\| !integerp(b))
	return nil;

	return (a >> 2) > (b >> 2) ? t : nil;
	}

	value_t l_num_lt(value_t a, value_t b)
	{
	if (!integerp(a) \|\| !integerp(b))
	return nil;

	return (a >> 2) < (b >> 2) ? t : nil;
	}

	value_t l_append(value_t l)
	{
	if (nilp(l))
	return l;

	value_t first = nil;
	value_t *last = NULL;

	for (value_t item = l; !nilp(item); item = cdr(item))
	{
	value_t a = car(item);

	if (!listp(a))
	{
	value_t new = cons(a, nil);
	*last = new;
	last = cdrref(new);
	continue;
	}

	for (value_t i = a; !nilp(i); i = cdr(i))
	{
	value_t b = car(i);

	if (!last)
	{
	first = cons(b, nil);
	last = cdrref(first);
	}
	else
	{
	value_t new = cons(b, nil);
	*last = new;
	last = cdrref(new);
	}
	}
	}

	return first;
	}

	value_t l_gc_stats()
	{
	struct gc_stats stats = gc_get_stats();

	return cons(intval(stats.total_allocs),
	cons(intval(stats.gc_runs),
	nil));
	}

	value_t l_list_functions(value_t env)
	{
	if (!integerp(env))
	return nil;

	struct environment e = (void )env;
	value_t list = nil;

	for (struct function *fun = e->first; fun; fun = fun->prev)
	{
	list = cons(symval(fun->name), list);
	}

	return list;
	}

	value_t l_string_to_symbol(value_t string)
	{
	if (!stringp(string))
	return nil;

	return symval((char *)(string ^ STRING_TAG));
	}

	value_t l_symbol_to_string(value_t string)
	{
	if (!symbolp(string))
	return nil;

	return strval((char *)(string ^ SYMBOL_TAG));
	}

	value_t l_string_length(value_t string)
	{
	if (!stringp(string))
	return intval(0);

	return intval(strlen((char *)(string ^ STRING_TAG)));
	}

	value_t l_concat(value_t strings)
	{
	struct alloc *string_alloc = malloc_aligned(sizeof(struct alloc));
	int lengths = 0;

	for (value_t str = strings; !nilp(str); str = cdr(str))
	{
	if (!stringp(car(str)))
	continue;

	int len = strlen((char *)(car(str) ^ STRING_TAG));
	string_alloc = realloc_aligned(string_alloc,
	sizeof(struct alloc) + lengths + len);

	memcpy((void *)string_alloc + sizeof(struct alloc) + lengths,
	(char *)(car(str) ^ STRING_TAG),
	len);

	lengths += len;
	}

	add_this_alloc(string_alloc, STRING_TAG);

	return (value_t)(string_alloc + 1) \| STRING_TAG;
	}

	value_t l_gensym()
	{
	static int symcnt = 0;
	char buffer[32] = {0};
	snprintf(buffer, 32, "-sym-%d", symcnt++);
	return symval(buffer);
	}

	#define LISP_PREDICATE(name) value_t l_##name(value_t v) { return name(v) ? t : nil; }

	LISP_PREDICATE(listp)
	LISP_PREDICATE(integerp)
	LISP_PREDICATE(symbolp)
	LISP_PREDICATE(closurep)
	LISP_PREDICATE(consp)
	LISP_PREDICATE(classp)

	#undef LISP_PREDICATE

	struct error load_std(struct environment *env)
	{
	E_INIT();

	add_c_function(env, "+", l_plus, 2);
	add_c_function(env, "-", l_minus, 2);
	add_c_function(env, "*", l_times, 2);
	add_c_function(env, "/", l_divide, 2);
	add_c_function(env, "=", l_num_eq, 2);
	add_c_function(env, "<", l_num_lt, 2);
	add_c_function(env, ">", l_num_gt, 2);

	add_c_function(env, "car", car, 1);
	add_c_function(env, "cdr", cdr, 1);
	add_c_function(env, "cons", cons, 2);

	add_c_function(env, "print", l_printval, 1);
	add_c_function(env, "read-stdin", l_read_stdin, 0);
	add_c_function(env, "apply", l_apply, 2);
	add_c_varargs(env, "append", l_append, 0);

	add_c_function(env, "nilp", l_nilp, 1);
	add_c_function(env, "listp", l_listp, 1);
	add_c_function(env, "integerp", l_integerp, 1);
	add_c_function(env, "symbolp", l_symbolp, 1);
	add_c_function(env, "closurep", l_closurep, 1);
	add_c_function(env, "functionp", l_closurep, 1);
	add_c_function(env, "consp", l_consp, 1);

	add_c_function(env, "elt", l_elt, 2);

	add_c_function(env, "gc-stats", l_gc_stats, 0);
	add_c_function(env, "env-functions", l_list_functions, 1);

	add_c_varargs(env, "concat", l_concat, 0);
	add_c_function(env, "string-length", l_string_length, 1);
	add_c_function(env, "string->symbol", l_string_to_symbol, 1);
	add_c_function(env, "symbol->string", l_symbol_to_string, 1);
	add_c_function(env, "gensym", l_gensym, 0);

	load_classes(env);

	if (!load_library(env, "std"))
	{
	fprintf(stderr, "Not found std\n");
	THROW(ENOTFOUND, "Could not load library `std`, make sure your $LISP_LIBRARY_PATH is correct.");
	}

	OKAY();
	}

	bool load_library(struct environment env, char name)
	{
	char *lib_paths = getenv("LISP_LIBRARY_PATH");

	if (!lib_paths)
	lib_paths = "/lib/lisp";

	for (char *p = strtok(lib_paths, ":"); p; p = strtok(NULL, ":"))
	{
	static char path[512];
	snprintf(path, 512, "%s/%s.lisp", p, name);

	if (file_exists(path))
	{
	// fprintf(stderr, "loading path: %s\n", path);
	return load(env, path);
	}

	snprintf(path, 512, "%s/%s/%s.lisp", p, name, name);

	if (file_exists(path))
	{
	// fprintf(stderr, "loading path: %s\n", path);
	return load(env, path);
	}
	}

	return false;
	}