src/third_party/mozjs/js/src/jsnum.h - cobalt - Git at Google

 /* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
  * vim: set ts=8 sts=4 et sw=4 tw=99:
  * This Source Code Form is subject to the terms of the Mozilla Public
  * License, v. 2.0. If a copy of the MPL was not distributed with this
  * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

 #ifndef jsnum_h
 #define jsnum_h

 #include "mozilla/FloatingPoint.h"

 #include "jscntxt.h"

 #include "vm/NumericConversions.h"

 extern double js_PositiveInfinity;
 extern double js_NegativeInfinity;

 namespace js {

 extern bool
 InitRuntimeNumberState(JSRuntime *rt);

 #if !ENABLE_INTL_API
 extern void
 FinishRuntimeNumberState(JSRuntime *rt);
 #endif

 } /* namespace js */

 /* Initialize the Number class, returning its prototype object. */
 extern JSObject *
 js_InitNumberClass(JSContext *cx, js::HandleObject obj);

 /*
  * String constants for global function names, used in jsapi.c and jsnum.c.
  */
 extern const char js_isNaN_str[];
 extern const char js_isFinite_str[];
 extern const char js_parseFloat_str[];
 extern const char js_parseInt_str[];

 class JSString;

 /*
  * When base == 10, this function implements ToString() as specified by
  * ECMA-262-5 section 9.8.1; but note that it handles integers specially for
  * performance.  See also js::NumberToCString().
  */
 template <js::AllowGC allowGC>
 extern JSString *
 js_NumberToString(JSContext *cx, double d);

 namespace js {

 template <AllowGC allowGC>
 extern JSFlatString *
 Int32ToString(JSContext *cx, int32_t i);

 /*
  * Convert an integer or double (contained in the given value) to a string and
  * append to the given buffer.
  */
 extern bool JS_FASTCALL
 NumberValueToStringBuffer(JSContext *cx, const Value &v, StringBuffer &sb);

 /* Same as js_NumberToString, different signature. */
 extern JSFlatString *
 NumberToString(JSContext *cx, double d);

 extern JSFlatString *
 IndexToString(JSContext *cx, uint32_t index);

 /*
  * Usually a small amount of static storage is enough, but sometimes we need
  * to dynamically allocate much more.  This struct encapsulates that.
  * Dynamically allocated memory will be freed when the object is destroyed.
  */
 struct ToCStringBuf
 {
     /*
      * The longest possible result that would need to fit in sbuf is
      * (-0x80000000).toString(2), which has length 33.  Longer cases are
      * possible, but they'll go in dbuf.
      */
     static const size_t sbufSize = 34;
     char sbuf[sbufSize];
     char *dbuf;

     ToCStringBuf();
     ~ToCStringBuf();
 };

 /*
  * Convert a number to a C string.  When base==10, this function implements
  * ToString() as specified by ECMA-262-5 section 9.8.1.  It handles integral
  * values cheaply.  Return NULL if we ran out of memory.  See also
  * js_NumberToCString().
  */
 extern char *
 NumberToCString(JSContext *cx, ToCStringBuf *cbuf, double d, int base = 10);

 /*
  * The largest positive integer such that all positive integers less than it
  * may be precisely represented using the IEEE-754 double-precision format.
  */
 const double DOUBLE_INTEGRAL_PRECISION_LIMIT = uint64_t(1) << 53;

 /*
  * Parse a decimal number encoded in |chars|.  The decimal number must be
  * sufficiently small that it will not overflow the integrally-precise range of
  * the double type -- that is, the number will be smaller than
  * DOUBLE_INTEGRAL_PRECISION_LIMIT
  */
 extern double
 ParseDecimalNumber(const JS::TwoByteChars chars);

 /*
  * Compute the positive integer of the given base described immediately at the
  * start of the range [start, end) -- no whitespace-skipping, no magical
  * leading-"0" octal or leading-"0x" hex behavior, no "+"/"-" parsing, just
  * reading the digits of the integer.  Return the index one past the end of the
  * digits of the integer in *endp, and return the integer itself in *dp.  If
  * base is 10 or a power of two the returned integer is the closest possible
  * double; otherwise extremely large integers may be slightly inaccurate.
  *
  * If [start, end) does not begin with a number with the specified base,
  * *dp == 0 and *endp == start upon return.
  */
 extern bool
 GetPrefixInteger(JSContext *cx, const jschar *start, const jschar *end, int base,
                  const jschar **endp, double *dp);

 /* ES5 9.3 ToNumber, overwriting *vp with the appropriate number value. */
 JS_ALWAYS_INLINE bool
 ToNumber(JSContext *cx, Value *vp)
 {
 #ifdef DEBUG
     {
         SkipRoot skip(cx, vp);
         MaybeCheckStackRoots(cx);
     }
 #endif

     if (vp->isNumber())
         return true;
     double d;
     extern bool ToNumberSlow(JSContext *cx, js::Value v, double *dp);
     if (!ToNumberSlow(cx, *vp, &d))
         return false;

     vp->setNumber(d);
     return true;
 }

 JSBool
 num_parseInt(JSContext *cx, unsigned argc, Value *vp);

 }  /* namespace js */

 /*
  * Similar to strtod except that it replaces overflows with infinities of the
  * correct sign, and underflows with zeros of the correct sign.  Guaranteed to
  * return the closest double number to the given input in dp.
  *
  * Also allows inputs of the form [+|-]Infinity, which produce an infinity of
  * the appropriate sign.  The case of the "Infinity" string must match exactly.
  * If the string does not contain a number, set *ep to s and return 0.0 in dp.
  * Return false if out of memory.
  */
 extern JSBool
 js_strtod(JSContext *cx, const jschar *s, const jschar *send,
           const jschar **ep, double *dp);

 extern JSBool
 js_num_valueOf(JSContext *cx, unsigned argc, js::Value *vp);

 namespace js {

 static JS_ALWAYS_INLINE bool
 ValueFitsInInt32(const Value &v, int32_t *pi)
 {
     if (v.isInt32()) {
         *pi = v.toInt32();
         return true;
     }
     return v.isDouble() && mozilla::DoubleIsInt32(v.toDouble(), pi);
 }

 /*
  * Returns true if the given value is definitely an index: that is, the value
  * is a number that's an unsigned 32-bit integer.
  *
  * This method prioritizes common-case speed over accuracy in every case.  It
  * can produce false negatives (but not false positives): some values which are
  * indexes will be reported not to be indexes by this method.  Users must
  * consider this possibility when using this method.
  */
 static JS_ALWAYS_INLINE bool
 IsDefinitelyIndex(const Value &v, uint32_t *indexp)
 {
     if (v.isInt32() && v.toInt32() >= 0) {
         *indexp = v.toInt32();
         return true;
     }

     int32_t i;
     if (v.isDouble() && mozilla::DoubleIsInt32(v.toDouble(), &i) && i >= 0) {
         *indexp = uint32_t(i);
         return true;
     }

     return false;
 }

 /* ES5 9.4 ToInteger. */
 static inline bool
 ToInteger(JSContext *cx, const js::Value &v, double *dp)
 {
 #ifdef DEBUG
     {
         SkipRoot skip(cx, &v);
         MaybeCheckStackRoots(cx);
     }
 #endif

     if (v.isInt32()) {
         *dp = v.toInt32();
         return true;
     }
     if (v.isDouble()) {
         *dp = v.toDouble();
     } else {
         extern bool ToNumberSlow(JSContext *cx, Value v, double *dp);
         if (!ToNumberSlow(cx, v, dp))
             return false;
     }
     *dp = ToInteger(*dp);
     return true;
 }

 inline bool
 SafeAdd(int32_t one, int32_t two, int32_t *res)
 {
     *res = one + two;
     int64_t ores = (int64_t)one + (int64_t)two;
     return ores == (int64_t)*res;
 }

 inline bool
 SafeSub(int32_t one, int32_t two, int32_t *res)
 {
     *res = one - two;
     int64_t ores = (int64_t)one - (int64_t)two;
     return ores == (int64_t)*res;
 }

 inline bool
 SafeMul(int32_t one, int32_t two, int32_t *res)
 {
     *res = one * two;
     int64_t ores = (int64_t)one * (int64_t)two;
     return ores == (int64_t)*res;
 }

 } /* namespace js */

 #endif /* jsnum_h */
	/* -- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 --
	* vim: set ts=8 sts=4 et sw=4 tw=99:
	* This Source Code Form is subject to the terms of the Mozilla Public
	* License, v. 2.0. If a copy of the MPL was not distributed with this
	* file, You can obtain one at http://mozilla.org/MPL/2.0/. */

	#ifndef jsnum_h
	#define jsnum_h

	#include "mozilla/FloatingPoint.h"

	#include "jscntxt.h"

	#include "vm/NumericConversions.h"

	extern double js_PositiveInfinity;
	extern double js_NegativeInfinity;

	namespace js {

	extern bool
	InitRuntimeNumberState(JSRuntime *rt);

	#if !ENABLE_INTL_API
	extern void
	FinishRuntimeNumberState(JSRuntime *rt);
	#endif

	} /* namespace js */

	/* Initialize the Number class, returning its prototype object. */
	extern JSObject *
	js_InitNumberClass(JSContext *cx, js::HandleObject obj);

	/*
	* String constants for global function names, used in jsapi.c and jsnum.c.
	*/
	extern const char js_isNaN_str[];
	extern const char js_isFinite_str[];
	extern const char js_parseFloat_str[];
	extern const char js_parseInt_str[];

	class JSString;

	/*
	* When base == 10, this function implements ToString() as specified by
	* ECMA-262-5 section 9.8.1; but note that it handles integers specially for
	* performance. See also js::NumberToCString().
	*/
	template <js::AllowGC allowGC>
	extern JSString *
	js_NumberToString(JSContext *cx, double d);

	namespace js {

	template <AllowGC allowGC>
	extern JSFlatString *
	Int32ToString(JSContext *cx, int32_t i);

	/*
	* Convert an integer or double (contained in the given value) to a string and
	* append to the given buffer.
	*/
	extern bool JS_FASTCALL
	NumberValueToStringBuffer(JSContext *cx, const Value &v, StringBuffer &sb);

	/* Same as js_NumberToString, different signature. */
	extern JSFlatString *
	NumberToString(JSContext *cx, double d);

	extern JSFlatString *
	IndexToString(JSContext *cx, uint32_t index);

	/*
	* Usually a small amount of static storage is enough, but sometimes we need
	* to dynamically allocate much more. This struct encapsulates that.
	* Dynamically allocated memory will be freed when the object is destroyed.
	*/
	struct ToCStringBuf
	{
	/*
	* The longest possible result that would need to fit in sbuf is
	* (-0x80000000).toString(2), which has length 33. Longer cases are
	* possible, but they'll go in dbuf.
	*/
	static const size_t sbufSize = 34;
	char sbuf[sbufSize];
	char *dbuf;

	ToCStringBuf();
	~ToCStringBuf();
	};

	/*
	* Convert a number to a C string. When base==10, this function implements
	* ToString() as specified by ECMA-262-5 section 9.8.1. It handles integral
	* values cheaply. Return NULL if we ran out of memory. See also
	* js_NumberToCString().
	*/
	extern char *
	NumberToCString(JSContext cx, ToCStringBuf cbuf, double d, int base = 10);

	/*
	* The largest positive integer such that all positive integers less than it
	* may be precisely represented using the IEEE-754 double-precision format.
	*/
	const double DOUBLE_INTEGRAL_PRECISION_LIMIT = uint64_t(1) << 53;

	/*
	* Parse a decimal number encoded in \|chars\|. The decimal number must be
	* sufficiently small that it will not overflow the integrally-precise range of
	* the double type -- that is, the number will be smaller than
	* DOUBLE_INTEGRAL_PRECISION_LIMIT
	*/
	extern double
	ParseDecimalNumber(const JS::TwoByteChars chars);

	/*
	* Compute the positive integer of the given base described immediately at the
	* start of the range [start, end) -- no whitespace-skipping, no magical
	* leading-"0" octal or leading-"0x" hex behavior, no "+"/"-" parsing, just
	* reading the digits of the integer. Return the index one past the end of the
	* digits of the integer in endp, and return the integer itself in dp. If
	* base is 10 or a power of two the returned integer is the closest possible
	* double; otherwise extremely large integers may be slightly inaccurate.
	*
	* If [start, end) does not begin with a number with the specified base,
	* dp == 0 and endp == start upon return.
	*/
	extern bool
	GetPrefixInteger(JSContext cx, const jschar start, const jschar *end, int base,
	const jschar *endp, double dp);

	/* ES5 9.3 ToNumber, overwriting vp with the appropriate number value. /
	JS_ALWAYS_INLINE bool
	ToNumber(JSContext cx, Value vp)
	{
	#ifdef DEBUG
	{
	SkipRoot skip(cx, vp);
	MaybeCheckStackRoots(cx);
	}
	#endif

	if (vp->isNumber())
	return true;
	double d;
	extern bool ToNumberSlow(JSContext cx, js::Value v, double dp);
	if (!ToNumberSlow(cx, *vp, &d))
	return false;

	vp->setNumber(d);
	return true;
	}

	JSBool
	num_parseInt(JSContext cx, unsigned argc, Value vp);

	} /* namespace js */

	/*
	* Similar to strtod except that it replaces overflows with infinities of the
	* correct sign, and underflows with zeros of the correct sign. Guaranteed to
	* return the closest double number to the given input in dp.
	*
	* Also allows inputs of the form [+\|-]Infinity, which produce an infinity of
	* the appropriate sign. The case of the "Infinity" string must match exactly.
	* If the string does not contain a number, set *ep to s and return 0.0 in dp.
	* Return false if out of memory.
	*/
	extern JSBool
	js_strtod(JSContext cx, const jschar s, const jschar *send,
	const jschar *ep, double dp);

	extern JSBool
	js_num_valueOf(JSContext cx, unsigned argc, js::Value vp);

	namespace js {

	static JS_ALWAYS_INLINE bool
	ValueFitsInInt32(const Value &v, int32_t *pi)
	{
	if (v.isInt32()) {
	*pi = v.toInt32();
	return true;
	}
	return v.isDouble() && mozilla::DoubleIsInt32(v.toDouble(), pi);
	}

	/*
	* Returns true if the given value is definitely an index: that is, the value
	* is a number that's an unsigned 32-bit integer.
	*
	* This method prioritizes common-case speed over accuracy in every case. It
	* can produce false negatives (but not false positives): some values which are
	* indexes will be reported not to be indexes by this method. Users must
	* consider this possibility when using this method.
	*/
	static JS_ALWAYS_INLINE bool
	IsDefinitelyIndex(const Value &v, uint32_t *indexp)
	{
	if (v.isInt32() && v.toInt32() >= 0) {
	*indexp = v.toInt32();
	return true;
	}

	int32_t i;
	if (v.isDouble() && mozilla::DoubleIsInt32(v.toDouble(), &i) && i >= 0) {
	*indexp = uint32_t(i);
	return true;
	}

	return false;
	}

	/* ES5 9.4 ToInteger. */
	static inline bool
	ToInteger(JSContext cx, const js::Value &v, double dp)
	{
	#ifdef DEBUG
	{
	SkipRoot skip(cx, &v);
	MaybeCheckStackRoots(cx);
	}
	#endif

	if (v.isInt32()) {
	*dp = v.toInt32();
	return true;
	}
	if (v.isDouble()) {
	*dp = v.toDouble();
	} else {
	extern bool ToNumberSlow(JSContext cx, Value v, double dp);
	if (!ToNumberSlow(cx, v, dp))
	return false;
	}
	dp = ToInteger(dp);
	return true;
	}

	inline bool
	SafeAdd(int32_t one, int32_t two, int32_t *res)
	{
	*res = one + two;
	int64_t ores = (int64_t)one + (int64_t)two;
	return ores == (int64_t)*res;
	}

	inline bool
	SafeSub(int32_t one, int32_t two, int32_t *res)
	{
	*res = one - two;
	int64_t ores = (int64_t)one - (int64_t)two;
	return ores == (int64_t)*res;
	}

	inline bool
	SafeMul(int32_t one, int32_t two, int32_t *res)
	{
	res = one two;
	int64_t ores = (int64_t)one * (int64_t)two;
	return ores == (int64_t)*res;
	}

	} /* namespace js */

	#endif /* jsnum_h */