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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* 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/.
*
* This file incorporates work covered by the following license notice:
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed
* with this work for additional information regarding copyright
* ownership. The ASF licenses this file to you under the Apache
* License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0 .
*/
#ifndef INCLUDED_RTL_MATH_H
#define INCLUDED_RTL_MATH_H
#include <sal/config.h>
#include <rtl/ustring.h>
#include <sal/saldllapi.h>
#include <sal/types.h>
#if defined __cplusplus
extern "C" {
#endif /* __cplusplus */
/** Formatting modes for rtl_math_doubleToString and rtl_math_doubleToUString
and rtl_math_doubleToUStringBuffer.
*/
enum rtl_math_StringFormat
{
/** Like sprintf() %E.
*/
rtl_math_StringFormat_E,
/** Like sprintf() %f.
*/
rtl_math_StringFormat_F,
/** Like sprintf() %G, 'F' or 'E' format is used depending on which one is
more compact.
*/
rtl_math_StringFormat_G,
/** Automatic, 'F' or 'E' format is used depending on the numeric value to
be formatted.
*/
rtl_math_StringFormat_Automatic,
/** Same 'E', but with only 1 minimum digits in exponent.
@since LibreOffice 5.0
*/
rtl_math_StringFormat_E1,
/** Same 'E', but with only 2 minimum digits in exponent.
@since LibreOffice 5.0
*/
rtl_math_StringFormat_E2,
/** Same 'G', but with only 1 minimum digits in exponent.
@since LibreOffice 5.0
*/
rtl_math_StringFormat_G1,
/** Same 'G', but with only 2 minimum digits in exponent.
@since LibreOffice 5.0
*/
rtl_math_StringFormat_G2,
/** @cond INTERNAL */
rtl_math_StringFormat_FORCE_EQUAL_SIZE = SAL_MAX_ENUM
/** @endcond */
};
/** Status for rtl_math_stringToDouble and rtl_math_uStringToDouble.
*/
enum rtl_math_ConversionStatus
{
/** Conversion was successful.
*/
rtl_math_ConversionStatus_Ok,
/** Conversion caused overflow or underflow.
*/
rtl_math_ConversionStatus_OutOfRange,
/** @cond INTERNAL */
rtl_math_ConversionStatus_FORCE_EQUAL_SIZE = SAL_MAX_ENUM
/** @endcond */
};
/** Rounding modes for rtl_math_round.
*/
enum rtl_math_RoundingMode
{
/** Like HalfUp, but corrects roundoff errors, preferred.
*/
rtl_math_RoundingMode_Corrected,
/** Floor of absolute value, signed return (commercial).
*/
rtl_math_RoundingMode_Down,
/** Ceil of absolute value, signed return (commercial).
*/
rtl_math_RoundingMode_Up,
/** Floor of signed value.
*/
rtl_math_RoundingMode_Floor,
/** Ceil of signed value.
*/
rtl_math_RoundingMode_Ceiling,
/** Frac <= 0.5 ? floor of abs : ceil of abs, signed return.
*/
rtl_math_RoundingMode_HalfDown,
/** Frac < 0.5 ? floor of abs : ceil of abs, signed return (mathematical).
*/
rtl_math_RoundingMode_HalfUp,
/** IEEE rounding mode (statistical).
*/
rtl_math_RoundingMode_HalfEven,
/** @cond INTERNAL */
rtl_math_RoundingMode_FORCE_EQUAL_SIZE = SAL_MAX_ENUM
/** @endcond */
};
/** Special decimal places constants for rtl_math_doubleToString and
rtl_math_doubleToUString and rtl_math_doubleToUStringBuffer.
*/
enum rtl_math_DecimalPlaces
{
/** Value to be used with rtl_math_StringFormat_Automatic.
*/
rtl_math_DecimalPlaces_Max = 0x7ffffff,
/** Value to be used with rtl_math_StringFormat_G.
In fact the same value as rtl_math_DecimalPlaces_Max, just an alias for
better understanding.
*/
rtl_math_DecimalPlaces_DefaultSignificance = rtl_math_DecimalPlaces_Max
};
/** Conversions analogous to sprintf() using internal rounding.
+/-HUGE_VAL are converted to "INF" and "-INF", NAN values are
converted to "NaN".
@param pResult
Returns the resulting byte string. Must itself not be null, and must point
to either null or a valid string.
@param pResultCapacity
If null, pResult is considered to point to immutable strings, and a new
string will be allocated in pResult.
If non-null, it points to the current capacity of pResult, which is
considered to point to a string buffer (pResult must not itself be null in
this case, and must point to a string that has room for the given capacity).
The string representation of the given double value is inserted into pResult
at position nResultOffset. If pResult's current capacity is too small, a
new string buffer will be allocated in pResult as necessary, and
pResultCapacity will contain the new capacity on return.
@param nResultOffset
If pResult is used as a string buffer (i.e., pResultCapacity is non-null),
nResultOffset specifies the insertion offset within the buffer. Ignored
otherwise.
@param fValue
The value to convert.
@param eFormat
The format to use, one of rtl_math_StringFormat.
@param nDecPlaces
The number of decimals to be generated. Effectively fValue is rounded at
this position, specifying nDecPlaces <= 0 accordingly rounds the value
before the decimal point and fills with zeros.
If eFormat == rtl_math_StringFormat_Automatic and nDecPlaces ==
rtl_math_DecimalPlaces_Max, the highest number of significant decimals
possible is generated.
If eFormat == rtl_math_StringFormat_G, nDecPlaces specifies the number of
significant digits instead. If nDecPlaces ==
rtl_math_DecimalPlaces_DefaultSignificance, the default number (currently 6
as implemented by most libraries) of significant digits is generated.
According to the ANSI C90 standard the E style will be used only if the
exponent resulting from the conversion is less than -4 or greater than or
equal to the precision. However, as opposed to the ANSI standard, trailing
zeros are not necessarily removed from the fractional portion of the result
unless bEraseTrailingDecZeros == true was specified.
@param cDecSeparator
The decimal separator.
@param pGroups
Either null (no grouping is used), or a null-terminated list of group
lengths. Each group length must be strictly positive. If the number of
digits in a conversion exceeds the specified range, the last (highest) group
length is repeated as needed. Values are applied from right to left, for a
grouping of 1,00,00,000 you'd have to specify pGroups={3,2,0}.
@param cGroupSeparator
The group separator. Ignored if pGroups is null.
@param bEraseTrailingDecZeros
Trailing zeros in decimal places are erased.
*/
SAL_DLLPUBLIC void SAL_CALL rtl_math_doubleToString(rtl_String ** pResult,
sal_Int32 * pResultCapacity,
sal_Int32 nResultOffset, double fValue,
enum rtl_math_StringFormat eFormat,
sal_Int32 nDecPlaces,
sal_Char cDecSeparator,
sal_Int32 const * pGroups,
sal_Char cGroupSeparator,
sal_Bool bEraseTrailingDecZeros)
SAL_THROW_EXTERN_C();
/** Conversions analogous to sprintf() using internal rounding.
+/-HUGE_VAL are converted to "INF" and "-INF", NAN values are
converted to "NaN".
@param pResult
Returns the resulting Unicode string. Must itself not be null, and must
point to either null or a valid string.
@param pResultCapacity
If null, pResult is considered to point to immutable strings, and a new
string will be allocated in pResult.
If non-null, it points to the current capacity of pResult, which is
considered to point to a string buffer (pResult must not itself be null in
this case, and must point to a string that has room for the given capacity).
The string representation of the given double value is inserted into pResult
at position nResultOffset. If pResult's current capacity is too small, a
new string buffer will be allocated in pResult as necessary, and
pResultCapacity will contain the new capacity on return.
@param nResultOffset
If pResult is used as a string buffer (i.e., pResultCapacity is non-null),
nResultOffset specifies the insertion offset within the buffer. Ignored
otherwise.
@param fValue
The value to convert.
@param eFormat
The format to use, one of rtl_math_StringFormat.
@param nDecPlaces
The number of decimals to be generated. Effectively fValue is rounded at
this position, specifying nDecPlaces <= 0 accordingly rounds the value
before the decimal point and fills with zeros.
If eFormat == rtl_math_StringFormat_Automatic and nDecPlaces ==
rtl_math_DecimalPlaces_Max, the highest number of significant decimals
possible is generated.
If eFormat == rtl_math_StringFormat_G, nDecPlaces specifies the number of
significant digits instead. If nDecPlaces ==
rtl_math_DecimalPlaces_DefaultSignificance, the default number (currently 6
as implemented by most libraries) of significant digits is generated.
According to the ANSI C90 standard the E style will be used only if the
exponent resulting from the conversion is less than -4 or greater than or
equal to the precision. However, as opposed to the ANSI standard, trailing
zeros are not necessarily removed from the fractional portion of the result
unless bEraseTrailingDecZeros == true was specified.
@param cDecSeparator
The decimal separator.
@param pGroups
Either null (no grouping is used), or a null-terminated list of group
lengths. Each group length must be strictly positive. If the number of
digits in a conversion exceeds the specified range, the last (highest) group
length is repeated as needed. Values are applied from right to left, for a
grouping of 1,00,00,000 you'd have to specify pGroups={3,2,0}.
@param cGroupSeparator
The group separator. Ignored if pGroups is null.
@param bEraseTrailingDecZeros
Trailing zeros in decimal places are erased.
*/
SAL_DLLPUBLIC void SAL_CALL rtl_math_doubleToUString(rtl_uString ** pResult,
sal_Int32 * pResultCapacity,
sal_Int32 nResultOffset, double fValue,
enum rtl_math_StringFormat eFormat,
sal_Int32 nDecPlaces,
sal_Unicode cDecSeparator,
sal_Int32 const * pGroups,
sal_Unicode cGroupSeparator,
sal_Bool bEraseTrailingDecZeros)
SAL_THROW_EXTERN_C();
/** Conversion analogous to strtod(), convert a string representing a
decimal number into a double value.
Leading tabs (0x09) and spaces (0x20) are eaten. Overflow returns
+/-HUGE_VAL, underflow 0. In both cases pStatus is set to
rtl_math_ConversionStatus_OutOfRange, otherwise to
rtl_math_ConversionStatus_Ok. "INF", "-INF" and "+/-1.#INF" are
recognized as +/-HUGE_VAL, pStatus is set to
rtl_math_ConversionStatus_OutOfRange. "NaN" and "+/-1.#NAN" are
recognized and the value is set to +/-NAN, pStatus is set to
rtl_math_ConversionStatus_Ok.
@param pBegin
Points to the start of the byte string to convert. Must not be null.
@param pEnd
Points one past the end of the byte string to convert. The condition
pEnd >= pBegin must hold.
@param cDecSeparator
The decimal separator.
@param cGroupSeparator
The group (aka thousands) separator.
@param pStatus
If non-null, returns the status of the conversion.
@param pParsedEnd
If non-null, returns one past the position of the last character parsed
away. Thus if [pBegin..pEnd) only contains the numerical string to be
parsed, *pParsedEnd == pEnd on return. If no numerical (sub-)string is
found, *pParsedEnd == pBegin on return, even if there was leading
whitespace.
*/
SAL_DLLPUBLIC double SAL_CALL rtl_math_stringToDouble(
sal_Char const * pBegin, sal_Char const * pEnd, sal_Char cDecSeparator,
sal_Char cGroupSeparator, enum rtl_math_ConversionStatus * pStatus,
sal_Char const ** pParsedEnd) SAL_THROW_EXTERN_C();
/** Conversion analogous to strtod(), convert a string representing a
decimal number into a double value.
Leading tabs (U+0009) and spaces (U+0020) are eaten. Overflow returns
+/-HUGE_VAL, underflow 0. In both cases pStatus is set to
rtl_math_ConversionStatus_OutOfRange, otherwise to
rtl_math_ConversionStatus_Ok. "INF", "-INF" and "+/-1.#INF" are
recognized as +/-HUGE_VAL, pStatus is set to
rtl_math_ConversionStatus_OutOfRange. "NaN" and "+/-1.#NAN" are
recognized and the value is set to +/-NAN, pStatus is set to
rtl_math_ConversionStatus_Ok.
@param pBegin
Points to the start of the Unicode string to convert. Must not be null.
@param pEnd
Points one past the end of the Unicode string to convert. The condition
pEnd >= pBegin must hold.
@param cDecSeparator
The decimal separator.
@param cGroupSeparator
The group (aka thousands) separator.
@param pStatus
If non-null, returns the status of the conversion.
@param pParsedEnd
If non-null, returns one past the position of the last character parsed
away. Thus if [pBegin..pEnd) only contains the numerical string to be
parsed, *pParsedEnd == pEnd on return. If no numerical (sub-)string is
found, *pParsedEnd == pBegin on return, even if there was leading
whitespace.
*/
SAL_DLLPUBLIC double SAL_CALL rtl_math_uStringToDouble(
sal_Unicode const * pBegin, sal_Unicode const * pEnd,
sal_Unicode cDecSeparator, sal_Unicode cGroupSeparator,
enum rtl_math_ConversionStatus * pStatus, sal_Unicode const ** pParsedEnd)
SAL_THROW_EXTERN_C();
/** Rounds a double value.
@param fValue
Specifies the value to be rounded.
@param nDecPlaces
Specifies the decimal place where rounding occurs. Must be in the range
-20 to +20, inclusive. Negative if rounding occurs before the decimal
point.
@param eMode
Specifies the rounding mode.
*/
SAL_DLLPUBLIC double SAL_CALL rtl_math_round(double fValue, int nDecPlaces,
enum rtl_math_RoundingMode eMode)
SAL_THROW_EXTERN_C();
/** Scales fVal to a power of 10 without calling pow() or div() for nExp values
between -16 and +16, providing a faster method.
@param fValue
The value to be raised.
@param nExp
The exponent.
@return
fVal * pow(10.0, nExp)
*/
SAL_DLLPUBLIC double SAL_CALL rtl_math_pow10Exp(double fValue, int nExp) SAL_THROW_EXTERN_C();
/** Rounds value to 15 significant decimal digits.
@param fValue
The value to be rounded.
*/
SAL_DLLPUBLIC double SAL_CALL rtl_math_approxValue(double fValue) SAL_THROW_EXTERN_C();
/** Returns more accurate e^x-1 for x near 0 than calculating directly.
expm1 is part of the C99 standard, but not provided by some compilers.
@param fValue
The value x in the term e^x-1.
*/
SAL_DLLPUBLIC double SAL_CALL rtl_math_expm1(double fValue) SAL_THROW_EXTERN_C();
/** Returns more accurate log(1+x) for x near 0 than calculating directly.
log1p is part of the C99 standard, but not provided by some compilers.
@param fValue
The value x in the term log(1+x).
*/
SAL_DLLPUBLIC double SAL_CALL rtl_math_log1p(double fValue) SAL_THROW_EXTERN_C();
/** Returns more accurate atanh(x) for x near 0 than calculating
0.5*log((1+x)/(1-x)).
atanh is part of the C99 standard, but not provided by some compilers.
@param fValue
The value x in the term atanh(x).
*/
SAL_DLLPUBLIC double SAL_CALL rtl_math_atanh(double fValue) SAL_THROW_EXTERN_C();
/** Returns values of the Errorfunction erf.
erf is part of the C99 standard, but not provided by some compilers.
@param fValue
The value x in the term erf(x).
*/
SAL_DLLPUBLIC double SAL_CALL rtl_math_erf(double fValue) SAL_THROW_EXTERN_C();
/** Returns values of the complement Errorfunction erfc.
erfc is part of the C99 standard, but not provided by some compilers.
@param fValue
The value x in the term erfc(x).
*/
SAL_DLLPUBLIC double SAL_CALL rtl_math_erfc(double fValue) SAL_THROW_EXTERN_C();
/** Returns values of the inverse hyperbolic sine.
asinh is part of the C99 standard, but not provided by some compilers.
@param fValue
The value x in the term asinh(x).
*/
SAL_DLLPUBLIC double SAL_CALL rtl_math_asinh(double fValue) SAL_THROW_EXTERN_C();
/** Returns values of the inverse hyperbolic cosine.
acosh is part of the C99 standard, but not provided by some compilers.
@param fValue
The value x in the term acosh(x).
*/
SAL_DLLPUBLIC double SAL_CALL rtl_math_acosh(double fValue) SAL_THROW_EXTERN_C();
#if defined __cplusplus
}
#endif /* __cplusplus */
#endif /* INCLUDED_RTL_MATH_H */
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
|