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Mozilla/mozilla/js2/src/js2math.cpp
gerv%gerv.net 912583b021 Bug 236613: change to MPL/LGPL/GPL tri-license. 
git-svn-id: svn://10.0.0.236/trunk@155485 18797224-902f-48f8-a5cc-f745e15eee43
2004-04-25 15:37:13 +00:00

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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-
*
* ***** BEGIN LICENSE BLOCK *****
* Version: MPL 1.1/GPL 2.0/LGPL 2.1
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the
* License.
*
* The Original Code is the JavaScript 2 Prototype.
*
* The Initial Developer of the Original Code is
* Netscape Communications Corporation.
* Portions created by the Initial Developer are Copyright (C) 1998
* the Initial Developer. All Rights Reserved.
*
* Contributor(s):
*
* Alternatively, the contents of this file may be used under the terms of
* either the GNU General Public License Version 2 or later (the "GPL"), or
* the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
* in which case the provisions of the GPL or the LGPL are applicable instead
* of those above. If you wish to allow use of your version of this file only
* under the terms of either the GPL or the LGPL, and not to allow others to
* use your version of this file under the terms of the MPL, indicate your
* decision by deleting the provisions above and replace them with the notice
* and other provisions required by the GPL or the LGPL. If you do not delete
* the provisions above, a recipient may use your version of this file under
* the terms of any one of the MPL, the GPL or the LGPL.
*
* ***** END LICENSE BLOCK ***** */
#ifdef _WIN32
#include "msvc_pragma.h"
#endif
#include <algorithm>
#include <list>
#include <map>
#include <stack>
#include "world.h"
#include "utilities.h"
#include "js2value.h"
#include "jslong.h"
#include "prmjtime.h"
#include "numerics.h"
#include "reader.h"
#include "parser.h"
#include "regexp.h"
#include "js2engine.h"
#include "bytecodecontainer.h"
#include "js2metadata.h"
#include "fdlibm_ns.h"
namespace JavaScript {
namespace MetaData {
#ifndef M_E
#define M_E 2.7182818284590452354
#endif
#ifndef M_LOG2E
#define M_LOG2E 1.4426950408889634074
#endif
#ifndef M_LOG10E
#define M_LOG10E 0.43429448190325182765
#endif
#ifndef M_LN2
#define M_LN2 0.69314718055994530942
#endif
#ifndef M_LN10
#define M_LN10 2.30258509299404568402
#endif
#ifndef M_PI
#define M_PI 3.14159265358979323846
#endif
#ifndef M_SQRT2
#define M_SQRT2 1.41421356237309504880
#endif
#ifndef M_SQRT1_2
#define M_SQRT1_2 0.70710678118654752440
#endif
#define M_CONSTANTS_COUNT 8
static js2val Math_abs(JS2Metadata *meta, const js2val /*thisValue*/, js2val *argv, uint32 argc)
{
if (argc == 0)
return meta->engine->nanValue;
else
return meta->engine->allocNumber(fd::fabs(meta->toFloat64(argv[0])));
}
static js2val Math_acos(JS2Metadata *meta, const js2val /*thisValue*/, js2val *argv, uint32 argc)
{
if (argc == 0)
return meta->engine->nanValue;
return meta->engine->allocNumber(fd::acos(meta->toFloat64(argv[0])));
}
static js2val Math_asin(JS2Metadata *meta, const js2val /*thisValue*/, js2val *argv, uint32 argc)
{
if (argc == 0)
return meta->engine->nanValue;
return meta->engine->allocNumber(fd::asin(meta->toFloat64(argv[0])));
}
static js2val Math_atan(JS2Metadata *meta, const js2val /*thisValue*/, js2val *argv, uint32 argc)
{
if (argc == 0)
return meta->engine->nanValue;
return meta->engine->allocNumber(fd::atan(meta->toFloat64(argv[0])));
}
static js2val Math_atan2(JS2Metadata *meta, const js2val /*thisValue*/, js2val *argv, uint32 argc)
{
if (argc <= 1)
return meta->engine->nanValue;
float64 y = meta->toFloat64(argv[0]);
float64 x = meta->toFloat64(argv[1]);
return meta->engine->allocNumber(fd::atan2(y, x));
}
static js2val Math_ceil(JS2Metadata *meta, const js2val /*thisValue*/, js2val *argv, uint32 argc)
{
if (argc == 0)
return meta->engine->nanValue;
return meta->engine->allocNumber(fd::ceil(meta->toFloat64(argv[0])));
}
static js2val Math_cos(JS2Metadata *meta, const js2val /*thisValue*/, js2val *argv, uint32 argc)
{
if (argc == 0)
return meta->engine->nanValue;
return meta->engine->allocNumber(fd::cos(meta->toFloat64(argv[0])));
}
static js2val Math_exp(JS2Metadata *meta, const js2val /*thisValue*/, js2val *argv, uint32 argc)
{
if (argc == 0)
return meta->engine->nanValue;
float64 x = meta->toFloat64(argv[0]);
#ifdef _WIN32
if (!JSDOUBLE_IS_NaN(x)) {
if (x == positiveInfinity) {
return meta->engine->posInfValue;
}
if (x == negativeInfinity) {
return JS2VAL_ZERO;
}
}
#endif
return meta->engine->allocNumber(fd::exp(x));
}
static js2val Math_floor(JS2Metadata *meta, const js2val /*thisValue*/, js2val *argv, uint32 argc)
{
if (argc == 0)
return meta->engine->nanValue;
else
return meta->engine->allocNumber(fd::floor(meta->toFloat64(argv[0])));
}
static js2val Math_log(JS2Metadata *meta, const js2val /*thisValue*/, js2val *argv, uint32 argc)
{
if (argc == 0)
return meta->engine->nanValue;
return meta->engine->allocNumber(fd::log(meta->toFloat64(argv[0])));
}
static js2val Math_max(JS2Metadata *meta, const js2val /*thisValue*/, js2val *argv, uint32 argc)
{
if (argc == 0)
return meta->engine->negInfValue;
float64 result = meta->toFloat64(argv[0]);
if (JSDOUBLE_IS_NaN(result)) return meta->engine->nanValue;
for (uint32 i = 1; i < argc; ++i) {
float64 arg = meta->toFloat64(argv[i]);
if (JSDOUBLE_IS_NaN(arg)) return meta->engine->nanValue;
if (arg > result)
result = arg;
}
return meta->engine->allocNumber(result);
}
static js2val Math_min(JS2Metadata *meta, const js2val /*thisValue*/, js2val *argv, uint32 argc)
{
if (argc == 0)
return meta->engine->posInfValue;
float64 result = meta->toFloat64(argv[0]);
if (JSDOUBLE_IS_NaN(result)) return meta->engine->nanValue;
for (uint32 i = 1; i < argc; ++i) {
float64 arg = meta->toFloat64(argv[i]);
if (JSDOUBLE_IS_NaN(arg)) return meta->engine->nanValue;
if ((arg < result) || (JSDOUBLE_IS_POSZERO(result) && JSDOUBLE_IS_NEGZERO(arg)))
result = arg;
}
return meta->engine->allocNumber(result);
}
static js2val Math_pow(JS2Metadata *meta, const js2val /*thisValue*/, js2val *argv, uint32 argc)
{
if (argc < 1)
return meta->engine->nanValue;
return meta->engine->allocNumber(fd::pow(meta->toFloat64(argv[0]), meta->toFloat64(argv[1])));
}
/*
* Math.random() support, lifted from java.util.Random.java.
*/
static void random_setSeed(JS2Metadata *meta, int64 seed)
{
int64 tmp;
JSLL_I2L(tmp, 1000);
JSLL_DIV(seed, seed, tmp);
JSLL_XOR(tmp, seed, meta->rngMultiplier);
JSLL_AND(meta->rngSeed, tmp, meta->rngMask);
}
static void random_init(JS2Metadata *meta)
{
int64 tmp, tmp2;
/* Do at most once. */
if (meta->rngInitialized)
return;
meta->rngInitialized = true;
/* meta->rngMultiplier = 0x5DEECE66DL */
JSLL_ISHL(tmp, 0x5, 32);
JSLL_UI2L(tmp2, 0xDEECE66DL);
JSLL_OR(meta->rngMultiplier, tmp, tmp2);
/* meta->rngAddend = 0xBL */
JSLL_I2L(meta->rngAddend, 0xBL);
/* meta->rngMask = (1L << 48) - 1 */
JSLL_I2L(tmp, 1);
JSLL_SHL(tmp2, tmp, 48);
JSLL_SUB(meta->rngMask, tmp2, tmp);
/* meta->rngDscale = (jsdouble)(1L << 53) */
JSLL_SHL(tmp2, tmp, 53);
JSLL_L2D(meta->rngDscale, tmp2);
/* Finally, set the seed from current time. */
random_setSeed(meta, PRMJ_Now());
}
static uint32 random_next(JS2Metadata *meta, int bits)
{
int64 nextseed, tmp;
uint32 retval;
JSLL_MUL(nextseed, meta->rngSeed, meta->rngMultiplier);
JSLL_ADD(nextseed, nextseed, meta->rngAddend);
JSLL_AND(nextseed, nextseed, meta->rngMask);
meta->rngSeed = nextseed;
JSLL_USHR(tmp, nextseed, 48 - bits);
JSLL_L2I(retval, tmp);
return retval;
}
static float64 random_nextDouble(JS2Metadata *meta)
{
int64 tmp, tmp2;
float64 d;
JSLL_ISHL(tmp, random_next(meta, 26), 27);
JSLL_UI2L(tmp2, random_next(meta, 27));
JSLL_ADD(tmp, tmp, tmp2);
JSLL_L2D(d, tmp);
return d / meta->rngDscale;
}
static js2val Math_random(JS2Metadata *meta, const js2val /*thisValue*/, js2val * /* argv */, uint32 /*argc*/)
{
random_init(meta);
return meta->engine->allocNumber(random_nextDouble(meta));
}
static js2val Math_round(JS2Metadata *meta, const js2val /*thisValue*/, js2val *argv, uint32 argc)
{
if (argc == 0)
return meta->engine->nanValue;
float64 x = meta->toFloat64(argv[0]);
return meta->engine->allocNumber( fd::copysign( fd::floor(x + 0.5), x ) );
}
static js2val Math_sin(JS2Metadata *meta, const js2val /*thisValue*/, js2val *argv, uint32 argc)
{
if (argc == 0)
return meta->engine->nanValue;
return meta->engine->allocNumber(fd::sin(meta->toFloat64(argv[0])));
}
static js2val Math_sqrt(JS2Metadata *meta, const js2val /*thisValue*/, js2val *argv, uint32 argc)
{
if (argc == 0)
return meta->engine->nanValue;
return meta->engine->allocNumber(fd::sqrt(meta->toFloat64(argv[0])));
}
static js2val Math_tan(JS2Metadata *meta, const js2val /*thisValue*/, js2val *argv, uint32 argc)
{
if (argc == 0)
return meta->engine->nanValue;
return meta->engine->allocNumber(fd::tan(meta->toFloat64(argv[0])));
}
void initMathObject(JS2Metadata *meta, SimpleInstance *mathObject)
{
struct {
char *name;
float64 value;
} MathObjectConstants[M_CONSTANTS_COUNT] = {
{ "E", M_E },
{ "LOG2E", M_LOG2E },
{ "LOG10E", M_LOG10E },
{ "LN2", M_LN2 },
{ "LN10", M_LN10 },
{ "PI", M_PI },
{ "SQRT2", M_SQRT2 },
{ "SQRT1_2",M_SQRT1_2 }
};
uint32 i;
for (i = 0; i < M_CONSTANTS_COUNT; i++)
{
// Variable *v = new Variable(meta->numberClass, meta->engine->allocNumber(MathObjectConstants[i].value), true);
// meta->defineLocalMember(meta->env, &meta->world.identifiers[MathObjectConstants[i].name], NULL, Attribute::NoOverride, false, ReadWriteAccess, v, 0, false);
meta->createDynamicProperty(mathObject, meta->world.identifiers[MathObjectConstants[i].name], meta->engine->allocNumber(MathObjectConstants[i].value), ReadAccess, true, false);
}
FunctionData prototypeFunctions[] =
{
{ "abs", 1, Math_abs },
{ "acos", 1, Math_acos },
{ "asin", 1, Math_asin },
{ "atan", 1, Math_atan },
{ "atan2", 2, Math_atan2 },
{ "ceil", 1, Math_ceil },
{ "cos", 1, Math_cos },
{ "exp", 1, Math_exp },
{ "floor", 1, Math_floor },
{ "log", 1, Math_log },
{ "max", 2, Math_max },
{ "min", 2, Math_min },
{ "pow", 2, Math_pow },
{ "random", 1, Math_random },
{ "round", 1, Math_round },
{ "sin", 1, Math_sin },
{ "sqrt", 1, Math_sqrt },
{ "tan", 1, Math_tan },
{ NULL },
};
FunctionData *pf = &prototypeFunctions[0];
while (pf->name) {
FunctionInstance *callInst = new (meta) FunctionInstance(meta, meta->functionClass->prototype, meta->functionClass);
callInst->fWrap = new FunctionWrapper(meta, true, new (meta) ParameterFrame(JS2VAL_INACCESSIBLE, true), pf->code, meta->env);
callInst->fWrap->length = pf->length;
meta->createDynamicProperty(mathObject, meta->world.identifiers[pf->name], OBJECT_TO_JS2VAL(callInst), ReadAccess, true, false);
// Variable *v = new Variable(meta->functionClass, OBJECT_TO_JS2VAL(callInst), true);
// meta->defineLocalMember(meta->env, &meta->world.identifiers[pf->name], NULL, Attribute::NoOverride, false, ReadWriteAccess, v, 0, false);
// XXX add 'length' as a dynamic property of the method
meta->createDynamicProperty(callInst, meta->engine->length_StringAtom, INT_TO_JS2VAL(pf->length), ReadAccess, true, false);
pf++;
}
}
}
}
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