kolibrios/programs/develop/kosjs/libmujs/jsnumber.c

#include "jsi.h"
#include "jsvalue.h"
#include "jsbuiltin.h"

#if defined(_MSC_VER) && (_MSC_VER < 1700) /* VS2012 has stdint.h */
typedef unsigned __int64 uint64_t;
#else
#include <stdint.h>
#endif

static void jsB_new_Number(js_State *J)
{
	js_newnumber(J, js_gettop(J) > 1 ? js_tonumber(J, 1) : 0);
}

static void jsB_Number(js_State *J)
{
	js_pushnumber(J, js_gettop(J) > 1 ? js_tonumber(J, 1) : 0);
}

static void Np_valueOf(js_State *J)
{
	js_Object *self = js_toobject(J, 0);
	if (self->type != JS_CNUMBER) js_typeerror(J, "not a number");
	js_pushnumber(J, self->u.number);
}

static void Np_toString(js_State *J)
{
	char buf[100];
	js_Object *self = js_toobject(J, 0);
	int radix = js_isundefined(J, 1) ? 10 : js_tointeger(J, 1);
	if (self->type != JS_CNUMBER)
		js_typeerror(J, "not a number");
	if (radix == 10) {
		js_pushstring(J, jsV_numbertostring(J, buf, self->u.number));
		return;
	}
	if (radix < 2 || radix > 36)
		js_rangeerror(J, "invalid radix");

	/* lame number to string conversion for any radix from 2 to 36 */
	{
		static const char digits[] = "0123456789abcdefghijklmnopqrstuvwxyz";
		double number = self->u.number;
		int sign = self->u.number < 0;
		js_Buffer *sb = NULL;
		uint64_t u, limit = ((uint64_t)1<<52);

		int ndigits, exp, point;

		if (number == 0) { js_pushstring(J, "0"); return; }
		if (isnan(number)) { js_pushstring(J, "NaN"); return; }
		if (isinf(number)) { js_pushstring(J, sign ? "-Infinity" : "Infinity"); return; }

		if (sign)
			number = -number;

		/* fit as many digits as we want in an int */
		exp = 0;
		while (number * pow(radix, exp) > limit)
			--exp;
		while (number * pow(radix, exp+1) < limit)
			++exp;
		u = number * pow(radix, exp) + 0.5;

		/* trim trailing zeros */
		while (u > 0 && (u % radix) == 0) {
			u /= radix;
			--exp;
		}

		/* serialize digits */
		ndigits = 0;
		while (u > 0) {
			buf[ndigits++] = digits[u % radix];
			u /= radix;
		}
		point = ndigits - exp;

		if (js_try(J)) {
			js_free(J, sb);
			js_throw(J);
		}

		if (sign)
			js_putc(J, &sb, '-');

		if (point <= 0) {
			js_putc(J, &sb, '0');
			js_putc(J, &sb, '.');
			while (point++ < 0)
				js_putc(J, &sb, '0');
			while (ndigits-- > 0)
				js_putc(J, &sb, buf[ndigits]);
		} else {
			while (ndigits-- > 0) {
				js_putc(J, &sb, buf[ndigits]);
				if (--point == 0 && ndigits > 0)
					js_putc(J, &sb, '.');
			}
			while (point-- > 0)
				js_putc(J, &sb, '0');
		}

		js_putc(J, &sb, 0);
		js_pushstring(J, sb->s);

		js_endtry(J);
		js_free(J, sb);
	}
}

/* Customized ToString() on a number */
static void numtostr(js_State *J, const char *fmt, int w, double n)
{
	/* buf needs to fit printf("%.20f", 1e20) */
	char buf[50], *e;
	sprintf(buf, fmt, w, n);
	e = strchr(buf, 'e');
	if (e) {
		int exp = atoi(e+1);
		sprintf(e, "e%+d", exp);
	}
	js_pushstring(J, buf);
}

static void Np_toFixed(js_State *J)
{
	js_Object *self = js_toobject(J, 0);
	int width = js_tointeger(J, 1);
	char buf[32];
	double x;
	if (self->type != JS_CNUMBER) js_typeerror(J, "not a number");
	if (width < 0) js_rangeerror(J, "precision %d out of range", width);
	if (width > 20) js_rangeerror(J, "precision %d out of range", width);
	x = self->u.number;
	if (isnan(x) || isinf(x) || x <= -1e21 || x >= 1e21)
		js_pushstring(J, jsV_numbertostring(J, buf, x));
	else
		numtostr(J, "%.*f", width, x);
}

static void Np_toExponential(js_State *J)
{
	js_Object *self = js_toobject(J, 0);
	int width = js_tointeger(J, 1);
	char buf[32];
	double x;
	if (self->type != JS_CNUMBER) js_typeerror(J, "not a number");
	if (width < 0) js_rangeerror(J, "precision %d out of range", width);
	if (width > 20) js_rangeerror(J, "precision %d out of range", width);
	x = self->u.number;
	if (isnan(x) || isinf(x))
		js_pushstring(J, jsV_numbertostring(J, buf, x));
	else
		numtostr(J, "%.*e", width, self->u.number);
}

static void Np_toPrecision(js_State *J)
{
	js_Object *self = js_toobject(J, 0);
	int width = js_tointeger(J, 1);
	char buf[32];
	double x;
	if (self->type != JS_CNUMBER) js_typeerror(J, "not a number");
	if (width < 1) js_rangeerror(J, "precision %d out of range", width);
	if (width > 21) js_rangeerror(J, "precision %d out of range", width);
	x = self->u.number;
	if (isnan(x) || isinf(x))
		js_pushstring(J, jsV_numbertostring(J, buf, x));
	else
		numtostr(J, "%.*g", width, self->u.number);
}

void jsB_initnumber(js_State *J)
{
	J->Number_prototype->u.number = 0;

	js_pushobject(J, J->Number_prototype);
	{
		jsB_propf(J, "Number.prototype.valueOf", Np_valueOf, 0);
		jsB_propf(J, "Number.prototype.toString", Np_toString, 1);
		jsB_propf(J, "Number.prototype.toLocaleString", Np_toString, 0);
		jsB_propf(J, "Number.prototype.toFixed", Np_toFixed, 1);
		jsB_propf(J, "Number.prototype.toExponential", Np_toExponential, 1);
		jsB_propf(J, "Number.prototype.toPrecision", Np_toPrecision, 1);
	}
	js_newcconstructor(J, jsB_Number, jsB_new_Number, "Number", 0); /* 1 */
	{
		jsB_propn(J, "MAX_VALUE", 1.7976931348623157e+308);
		jsB_propn(J, "MIN_VALUE", 5e-324);
		jsB_propn(J, "NaN", NAN);
		jsB_propn(J, "NEGATIVE_INFINITY", -INFINITY);
		jsB_propn(J, "POSITIVE_INFINITY", INFINITY);
	}
	js_defglobal(J, "Number", JS_DONTENUM);
}
kosjs: replace libmujs.a with sources; if argc = 0, see "usage" git-svn-id: svn://kolibrios.org@8456 a494cfbc-eb01-0410-851d-a64ba20cac60 2020-12-20 09:45:42 +01:00			`#include "jsi.h"`
			`#include "jsvalue.h"`
			`#include "jsbuiltin.h"`

			`#if defined(_MSC_VER) && (_MSC_VER < 1700) /* VS2012 has stdint.h */`
			`typedef unsigned __int64 uint64_t;`
			`#else`
			`#include <stdint.h>`
			`#endif`

			`static void jsB_new_Number(js_State *J)`
			`{`
			`js_newnumber(J, js_gettop(J) > 1 ? js_tonumber(J, 1) : 0);`
			`}`

			`static void jsB_Number(js_State *J)`
			`{`
			`js_pushnumber(J, js_gettop(J) > 1 ? js_tonumber(J, 1) : 0);`
			`}`

			`static void Np_valueOf(js_State *J)`
			`{`
			`js_Object *self = js_toobject(J, 0);`
			`if (self->type != JS_CNUMBER) js_typeerror(J, "not a number");`
			`js_pushnumber(J, self->u.number);`
			`}`

			`static void Np_toString(js_State *J)`
			`{`
			`char buf[100];`
			`js_Object *self = js_toobject(J, 0);`
			`int radix = js_isundefined(J, 1) ? 10 : js_tointeger(J, 1);`
			`if (self->type != JS_CNUMBER)`
			`js_typeerror(J, "not a number");`
			`if (radix == 10) {`
			`js_pushstring(J, jsV_numbertostring(J, buf, self->u.number));`
			`return;`
			`}`
			`if (radix < 2 \|\| radix > 36)`
			`js_rangeerror(J, "invalid radix");`

			`/* lame number to string conversion for any radix from 2 to 36 */`
			`{`
			`static const char digits[] = "0123456789abcdefghijklmnopqrstuvwxyz";`
			`double number = self->u.number;`
			`int sign = self->u.number < 0;`
			`js_Buffer *sb = NULL;`
			`uint64_t u, limit = ((uint64_t)1<<52);`

			`int ndigits, exp, point;`

			`if (number == 0) { js_pushstring(J, "0"); return; }`
			`if (isnan(number)) { js_pushstring(J, "NaN"); return; }`
			`if (isinf(number)) { js_pushstring(J, sign ? "-Infinity" : "Infinity"); return; }`

			`if (sign)`
			`number = -number;`

			`/* fit as many digits as we want in an int */`
			`exp = 0;`
			`while (number * pow(radix, exp) > limit)`
			`--exp;`
			`while (number * pow(radix, exp+1) < limit)`
			`++exp;`
			`u = number * pow(radix, exp) + 0.5;`

			`/* trim trailing zeros */`
			`while (u > 0 && (u % radix) == 0) {`
			`u /= radix;`
			`--exp;`
			`}`

			`/* serialize digits */`
			`ndigits = 0;`
			`while (u > 0) {`
			`buf[ndigits++] = digits[u % radix];`
			`u /= radix;`
			`}`
			`point = ndigits - exp;`

			`if (js_try(J)) {`
			`js_free(J, sb);`
			`js_throw(J);`
			`}`

			`if (sign)`
			`js_putc(J, &sb, '-');`

			`if (point <= 0) {`
			`js_putc(J, &sb, '0');`
			`js_putc(J, &sb, '.');`
			`while (point++ < 0)`
			`js_putc(J, &sb, '0');`
			`while (ndigits-- > 0)`
			`js_putc(J, &sb, buf[ndigits]);`
			`} else {`
			`while (ndigits-- > 0) {`
			`js_putc(J, &sb, buf[ndigits]);`
			`if (--point == 0 && ndigits > 0)`
			`js_putc(J, &sb, '.');`
			`}`
			`while (point-- > 0)`
			`js_putc(J, &sb, '0');`
			`}`

			`js_putc(J, &sb, 0);`
			`js_pushstring(J, sb->s);`

			`js_endtry(J);`
			`js_free(J, sb);`
			`}`
			`}`

			`/* Customized ToString() on a number */`
			`static void numtostr(js_State J, const char fmt, int w, double n)`
			`{`
			`/* buf needs to fit printf("%.20f", 1e20) */`
			`char buf[50], *e;`
			`sprintf(buf, fmt, w, n);`
			`e = strchr(buf, 'e');`
			`if (e) {`
			`int exp = atoi(e+1);`
			`sprintf(e, "e%+d", exp);`
			`}`
			`js_pushstring(J, buf);`
			`}`

			`static void Np_toFixed(js_State *J)`
			`{`
			`js_Object *self = js_toobject(J, 0);`
			`int width = js_tointeger(J, 1);`
			`char buf[32];`
			`double x;`
			`if (self->type != JS_CNUMBER) js_typeerror(J, "not a number");`
			`if (width < 0) js_rangeerror(J, "precision %d out of range", width);`
			`if (width > 20) js_rangeerror(J, "precision %d out of range", width);`
			`x = self->u.number;`
			`if (isnan(x) \|\| isinf(x) \|\| x <= -1e21 \|\| x >= 1e21)`
			`js_pushstring(J, jsV_numbertostring(J, buf, x));`
			`else`
			`numtostr(J, "%.*f", width, x);`
			`}`

			`static void Np_toExponential(js_State *J)`
			`{`
			`js_Object *self = js_toobject(J, 0);`
			`int width = js_tointeger(J, 1);`
			`char buf[32];`
			`double x;`
			`if (self->type != JS_CNUMBER) js_typeerror(J, "not a number");`
			`if (width < 0) js_rangeerror(J, "precision %d out of range", width);`
			`if (width > 20) js_rangeerror(J, "precision %d out of range", width);`
			`x = self->u.number;`
			`if (isnan(x) \|\| isinf(x))`
			`js_pushstring(J, jsV_numbertostring(J, buf, x));`
			`else`
			`numtostr(J, "%.*e", width, self->u.number);`
			`}`

			`static void Np_toPrecision(js_State *J)`
			`{`
			`js_Object *self = js_toobject(J, 0);`
			`int width = js_tointeger(J, 1);`
			`char buf[32];`
			`double x;`
			`if (self->type != JS_CNUMBER) js_typeerror(J, "not a number");`
			`if (width < 1) js_rangeerror(J, "precision %d out of range", width);`
			`if (width > 21) js_rangeerror(J, "precision %d out of range", width);`
			`x = self->u.number;`
			`if (isnan(x) \|\| isinf(x))`
			`js_pushstring(J, jsV_numbertostring(J, buf, x));`
			`else`
			`numtostr(J, "%.*g", width, self->u.number);`
			`}`

			`void jsB_initnumber(js_State *J)`
			`{`
			`J->Number_prototype->u.number = 0;`

			`js_pushobject(J, J->Number_prototype);`
			`{`
			`jsB_propf(J, "Number.prototype.valueOf", Np_valueOf, 0);`
			`jsB_propf(J, "Number.prototype.toString", Np_toString, 1);`
			`jsB_propf(J, "Number.prototype.toLocaleString", Np_toString, 0);`
			`jsB_propf(J, "Number.prototype.toFixed", Np_toFixed, 1);`
			`jsB_propf(J, "Number.prototype.toExponential", Np_toExponential, 1);`
			`jsB_propf(J, "Number.prototype.toPrecision", Np_toPrecision, 1);`
			`}`
			`js_newcconstructor(J, jsB_Number, jsB_new_Number, "Number", 0); /* 1 */`
			`{`
			`jsB_propn(J, "MAX_VALUE", 1.7976931348623157e+308);`
			`jsB_propn(J, "MIN_VALUE", 5e-324);`
			`jsB_propn(J, "NaN", NAN);`
			`jsB_propn(J, "NEGATIVE_INFINITY", -INFINITY);`
			`jsB_propn(J, "POSITIVE_INFINITY", INFINITY);`
			`}`
			`js_defglobal(J, "Number", JS_DONTENUM);`
			`}`