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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-27 16:51:28 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-27 16:51:28 +0000
commit940b4d1848e8c70ab7642901a68594e8016caffc (patch)
treeeb72f344ee6c3d9b80a7ecc079ea79e9fba8676d /tools/source/generic/fract.cxx
parentInitial commit. (diff)
downloadlibreoffice-upstream.tar.xz
libreoffice-upstream.zip
Adding upstream version 1:7.0.4.upstream/1%7.0.4upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to '')
-rw-r--r--tools/source/generic/fract.cxx519
1 files changed, 519 insertions, 0 deletions
diff --git a/tools/source/generic/fract.cxx b/tools/source/generic/fract.cxx
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+++ b/tools/source/generic/fract.cxx
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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 .
+ */
+
+#include <tools/fract.hxx>
+#include <tools/debug.hxx>
+#include <tools/stream.hxx>
+#include <o3tl/safeint.hxx>
+#include <sal/log.hxx>
+#include <osl/diagnose.h>
+
+#include <algorithm>
+#include <cmath>
+
+#include <boost/version.hpp>
+#if BOOST_VERSION >= 106700
+#include <boost/integer/common_factor_rt.hpp>
+#else
+#include <boost/math/common_factor_rt.hpp>
+#endif
+#include <boost/rational.hpp>
+
+static boost::rational<sal_Int32> rational_FromDouble(double dVal);
+
+static void rational_ReduceInaccurate(boost::rational<sal_Int32>& rRational, unsigned nSignificantBits);
+
+static boost::rational<sal_Int32> toRational(sal_Int32 n, sal_Int32 d)
+{
+ return boost::rational<sal_Int32>(n, d);
+}
+
+// Initialized by setting nNum as nominator and nDen as denominator
+// Negative values in the denominator are invalid and cause the
+// inversion of both nominator and denominator signs
+// in order to return the correct value.
+Fraction::Fraction( sal_Int64 nNum, sal_Int64 nDen ) : mnNumerator(nNum), mnDenominator(nDen)
+{
+ assert( nNum >= std::numeric_limits<sal_Int32>::min() );
+ assert( nNum <= std::numeric_limits<sal_Int32>::max( ));
+ assert( nDen >= std::numeric_limits<sal_Int32>::min() );
+ assert( nDen <= std::numeric_limits<sal_Int32>::max( ));
+ if ( nDen == 0 )
+ {
+ mbValid = false;
+ SAL_WARN( "tools.fraction", "'Fraction(" << nNum << ",0)' invalid fraction created" );
+ return;
+ }
+}
+
+/**
+ * only here to prevent passing of NaN
+ */
+Fraction::Fraction( double nNum, double nDen ) : mnNumerator(sal_Int64(nNum)), mnDenominator(sal_Int64(nDen))
+{
+ assert( !std::isnan(nNum) );
+ assert( !std::isnan(nDen) );
+ assert( nNum >= std::numeric_limits<sal_Int32>::min() );
+ assert( nNum <= std::numeric_limits<sal_Int32>::max( ));
+ assert( nDen >= std::numeric_limits<sal_Int32>::min() );
+ assert( nDen <= std::numeric_limits<sal_Int32>::max( ));
+ if ( nDen == 0 )
+ {
+ mbValid = false;
+ SAL_WARN( "tools.fraction", "'Fraction(" << nNum << ",0)' invalid fraction created" );
+ return;
+ }
+}
+
+Fraction::Fraction( double dVal )
+{
+ try
+ {
+ boost::rational<sal_Int32> v = rational_FromDouble( dVal );
+ mnNumerator = v.numerator();
+ mnDenominator = v.denominator();
+ }
+ catch (const boost::bad_rational&)
+ {
+ mbValid = false;
+ SAL_WARN( "tools.fraction", "'Fraction(" << dVal << ")' invalid fraction created" );
+ }
+}
+
+Fraction::operator double() const
+{
+ if (!mbValid)
+ {
+ SAL_WARN( "tools.fraction", "'double()' on invalid fraction" );
+ return 0.0;
+ }
+
+ // https://github.com/boostorg/boost/issues/335 when these are std::numeric_limits<sal_Int32>::min
+ if (mnNumerator == mnDenominator)
+ return 1.0;
+
+ return boost::rational_cast<double>(toRational(mnNumerator, mnDenominator));
+}
+
+// This methods first validates both values.
+// If one of the arguments is invalid, the whole operation is invalid.
+// After computation detect if result overflows a sal_Int32 value
+// which cause the operation to be marked as invalid
+Fraction& Fraction::operator += ( const Fraction& rVal )
+{
+ if ( !rVal.mbValid )
+ mbValid = false;
+
+ if ( !mbValid )
+ {
+ SAL_WARN( "tools.fraction", "'operator +=' with invalid fraction" );
+ return *this;
+ }
+
+ boost::rational<sal_Int32> a = toRational(mnNumerator, mnDenominator);
+ a += toRational(rVal.mnNumerator, rVal.mnDenominator);
+ mnNumerator = a.numerator();
+ mnDenominator = a.denominator();
+
+ return *this;
+}
+
+Fraction& Fraction::operator -= ( const Fraction& rVal )
+{
+ if ( !rVal.mbValid )
+ mbValid = false;
+
+ if ( !mbValid )
+ {
+ SAL_WARN( "tools.fraction", "'operator -=' with invalid fraction" );
+ return *this;
+ }
+
+ boost::rational<sal_Int32> a = toRational(mnNumerator, mnDenominator);
+ a -= toRational(rVal.mnNumerator, rVal.mnDenominator);
+ mnNumerator = a.numerator();
+ mnDenominator = a.denominator();
+
+ return *this;
+}
+
+namespace
+{
+ template<typename T> bool checked_multiply_by(boost::rational<T>& i, const boost::rational<T>& r)
+ {
+ // Protect against self-modification
+ T num = r.numerator();
+ T den = r.denominator();
+
+ // Avoid overflow and preserve normalization
+#if BOOST_VERSION >= 106700
+ T gcd1 = boost::integer::gcd(i.numerator(), den);
+ T gcd2 = boost::integer::gcd(num, i.denominator());
+#else
+ T gcd1 = boost::math::gcd(i.numerator(), den);
+ T gcd2 = boost::math::gcd(num, i.denominator());
+#endif
+
+ bool fail = false;
+ fail |= o3tl::checked_multiply(i.numerator() / gcd1, num / gcd2, num);
+ fail |= o3tl::checked_multiply(i.denominator() / gcd2, den / gcd1, den);
+
+ if (!fail)
+ i.assign(num, den);
+
+ return fail;
+ }
+}
+
+Fraction& Fraction::operator *= ( const Fraction& rVal )
+{
+ if ( !rVal.mbValid )
+ mbValid = false;
+
+ if ( !mbValid )
+ {
+ SAL_WARN( "tools.fraction", "'operator *=' with invalid fraction" );
+ return *this;
+ }
+
+ boost::rational<sal_Int32> a = toRational(mnNumerator, mnDenominator);
+ boost::rational<sal_Int32> b = toRational(rVal.mnNumerator, rVal.mnDenominator);
+ bool bFail = checked_multiply_by(a, b);
+ mnNumerator = a.numerator();
+ mnDenominator = a.denominator();
+
+ if (bFail)
+ {
+ mbValid = false;
+ }
+
+ return *this;
+}
+
+Fraction& Fraction::operator /= ( const Fraction& rVal )
+{
+ if ( !rVal.mbValid )
+ mbValid = false;
+
+ if ( !mbValid )
+ {
+ SAL_WARN( "tools.fraction", "'operator /=' with invalid fraction" );
+ return *this;
+ }
+
+ boost::rational<sal_Int32> a = toRational(mnNumerator, mnDenominator);
+ a /= toRational(rVal.mnNumerator, rVal.mnDenominator);
+ mnNumerator = a.numerator();
+ mnDenominator = a.denominator();
+
+ return *this;
+}
+
+/** Inaccurate cancellation for a fraction.
+
+ Clip both nominator and denominator to said number of bits. If
+ either of those already have equal or less number of bits used,
+ this method does nothing.
+
+ @param nSignificantBits denotes, how many significant binary
+ digits to maintain, in both nominator and denominator.
+
+ @example ReduceInaccurate(8) has an error <1% [1/2^(8-1)] - the
+ largest error occurs with the following pair of values:
+
+ binary 1000000011111111111111111111111b/1000000000000000000000000000000b
+ = 1082130431/1073741824
+ = approx. 1.007812499
+
+ A ReduceInaccurate(8) yields 1/1.
+*/
+void Fraction::ReduceInaccurate( unsigned nSignificantBits )
+{
+ if ( !mbValid )
+ {
+ SAL_WARN( "tools.fraction", "'ReduceInaccurate' on invalid fraction" );
+ return;
+ }
+
+ if ( !mnNumerator )
+ return;
+
+ auto a = toRational(mnNumerator, mnDenominator);
+ rational_ReduceInaccurate(a, nSignificantBits);
+ mnNumerator = a.numerator();
+ mnDenominator = a.denominator();
+}
+
+sal_Int32 Fraction::GetNumerator() const
+{
+ if ( !mbValid )
+ {
+ SAL_WARN( "tools.fraction", "'GetNumerator()' on invalid fraction" );
+ return 0;
+ }
+ return mnNumerator;
+}
+
+sal_Int32 Fraction::GetDenominator() const
+{
+ if ( !mbValid )
+ {
+ SAL_WARN( "tools.fraction", "'GetDenominator()' on invalid fraction" );
+ return -1;
+ }
+ return mnDenominator;
+}
+
+Fraction::operator sal_Int32() const
+{
+ if ( !mbValid )
+ {
+ SAL_WARN( "tools.fraction", "'operator sal_Int32()' on invalid fraction" );
+ return 0;
+ }
+ return boost::rational_cast<sal_Int32>(toRational(mnNumerator, mnDenominator));
+}
+
+Fraction operator+( const Fraction& rVal1, const Fraction& rVal2 )
+{
+ Fraction aErg( rVal1 );
+ aErg += rVal2;
+ return aErg;
+}
+
+Fraction operator-( const Fraction& rVal1, const Fraction& rVal2 )
+{
+ Fraction aErg( rVal1 );
+ aErg -= rVal2;
+ return aErg;
+}
+
+Fraction operator*( const Fraction& rVal1, const Fraction& rVal2 )
+{
+ Fraction aErg( rVal1 );
+ aErg *= rVal2;
+ return aErg;
+}
+
+Fraction operator/( const Fraction& rVal1, const Fraction& rVal2 )
+{
+ Fraction aErg( rVal1 );
+ aErg /= rVal2;
+ return aErg;
+}
+
+bool operator !=( const Fraction& rVal1, const Fraction& rVal2 )
+{
+ return !(rVal1 == rVal2);
+}
+
+bool operator <=( const Fraction& rVal1, const Fraction& rVal2 )
+{
+ return !(rVal1 > rVal2);
+}
+
+bool operator >=( const Fraction& rVal1, const Fraction& rVal2 )
+{
+ return !(rVal1 < rVal2);
+}
+
+bool operator == ( const Fraction& rVal1, const Fraction& rVal2 )
+{
+ if ( !rVal1.mbValid || !rVal2.mbValid )
+ {
+ SAL_WARN( "tools.fraction", "'operator ==' with an invalid fraction" );
+ return false;
+ }
+
+ return toRational(rVal1.mnNumerator, rVal1.mnDenominator) == toRational(rVal2.mnNumerator, rVal2.mnDenominator);
+}
+
+bool operator < ( const Fraction& rVal1, const Fraction& rVal2 )
+{
+ if ( !rVal1.mbValid || !rVal2.mbValid )
+ {
+ SAL_WARN( "tools.fraction", "'operator <' with an invalid fraction" );
+ return false;
+ }
+
+ return toRational(rVal1.mnNumerator, rVal1.mnDenominator) < toRational(rVal2.mnNumerator, rVal2.mnDenominator);
+}
+
+bool operator > ( const Fraction& rVal1, const Fraction& rVal2 )
+{
+ if ( !rVal1.mbValid || !rVal2.mbValid )
+ {
+ SAL_WARN( "tools.fraction", "'operator >' with an invalid fraction" );
+ return false;
+ }
+
+ return toRational(rVal1.mnNumerator, rVal1.mnDenominator) > toRational(rVal2.mnNumerator, rVal2.mnDenominator);
+}
+
+SvStream& ReadFraction( SvStream& rIStream, Fraction & rFract )
+{
+ sal_Int32 num(0), den(0);
+ rIStream.ReadInt32( num );
+ rIStream.ReadInt32( den );
+ if ( den <= 0 )
+ {
+ SAL_WARN( "tools.fraction", "'ReadFraction()' read an invalid fraction" );
+ rFract.mbValid = false;
+ }
+ else
+ {
+ rFract.mnNumerator = num;
+ rFract.mnDenominator = den;
+ rFract.mbValid = true;
+ }
+ return rIStream;
+}
+
+SvStream& WriteFraction( SvStream& rOStream, const Fraction& rFract )
+{
+ if ( !rFract.mbValid )
+ {
+ SAL_WARN( "tools.fraction", "'WriteFraction()' write an invalid fraction" );
+ rOStream.WriteInt32( 0 );
+ rOStream.WriteInt32( -1 );
+ } else {
+ rOStream.WriteInt32( rFract.mnNumerator );
+ rOStream.WriteInt32( rFract.mnDenominator );
+ }
+ return rOStream;
+}
+
+// If dVal > LONG_MAX or dVal < LONG_MIN, the rational throws a boost::bad_rational.
+// Otherwise, dVal and denominator are multiplied by 10, until one of them
+// is larger than (LONG_MAX / 10).
+//
+// NOTE: here we use 'sal_Int32' due that only values in sal_Int32 range are valid.
+static boost::rational<sal_Int32> rational_FromDouble(double dVal)
+{
+ if ( dVal > std::numeric_limits<sal_Int32>::max() ||
+ dVal < std::numeric_limits<sal_Int32>::min() ||
+ std::isnan(dVal) )
+ throw boost::bad_rational();
+
+ const sal_Int32 nMAX = std::numeric_limits<sal_Int32>::max() / 10;
+ sal_Int32 nDen = 1;
+ while ( std::abs( dVal ) < nMAX && nDen < nMAX ) {
+ dVal *= 10;
+ nDen *= 10;
+ }
+ return boost::rational<sal_Int32>( sal_Int32(dVal), nDen );
+}
+
+// Similar to clz_table that can be googled
+const char nbits_table[32] =
+{
+ 32, 1, 23, 2, 29, 24, 14, 3,
+ 30, 27, 25, 18, 20, 15, 10, 4,
+ 31, 22, 28, 13, 26, 17, 19, 9,
+ 21, 12, 16, 8, 11, 7, 6, 5
+};
+
+static int impl_NumberOfBits( sal_uInt32 nNum )
+{
+ // http://en.wikipedia.org/wiki/De_Bruijn_sequence
+ // background paper: Using de Bruijn Sequences to Index a 1 in a
+ // Computer Word (1998) Charles E. Leiserson,
+ // Harald Prokop, Keith H. Randall
+ // (e.g. http://citeseer.ist.psu.edu/leiserson98using.html)
+ const sal_uInt32 nDeBruijn = 0x7DCD629;
+
+ if ( nNum == 0 )
+ return 0;
+
+ // Get it to form like 0000001111111111b
+ nNum |= ( nNum >> 1 );
+ nNum |= ( nNum >> 2 );
+ nNum |= ( nNum >> 4 );
+ nNum |= ( nNum >> 8 );
+ nNum |= ( nNum >> 16 );
+
+ sal_uInt32 nNumber;
+ int nBonus;
+
+ nNumber = nNum;
+ nBonus = 0;
+
+ // De facto shift left of nDeBruijn using multiplication (nNumber
+ // is all ones from topmost bit, thus nDeBruijn + (nDeBruijn *
+ // nNumber) => nDeBruijn * (nNumber+1) clears all those bits to
+ // zero, sets the next bit to one, and thus effectively shift-left
+ // nDeBruijn by lg2(nNumber+1). This generates a distinct 5bit
+ // sequence in the msb for each distinct position of the last
+ // leading 0 bit - that's the property of a de Bruijn number.
+ nNumber = nDeBruijn + ( nDeBruijn * nNumber );
+
+ // 5-bit window indexes the result
+ return ( nbits_table[nNumber >> 27] ) + nBonus;
+}
+
+/** Inaccurate cancellation for a fraction.
+
+ Clip both nominator and denominator to said number of bits. If
+ either of those already have equal or less number of bits used,
+ this method does nothing.
+
+ @param nSignificantBits denotes, how many significant binary
+ digits to maintain, in both nominator and denominator.
+
+ @example ReduceInaccurate(8) has an error <1% [1/2^(8-1)] - the
+ largest error occurs with the following pair of values:
+
+ binary 1000000011111111111111111111111b/1000000000000000000000000000000b
+ = 1082130431/1073741824
+ = approx. 1.007812499
+
+ A ReduceInaccurate(8) yields 1/1.
+*/
+static void rational_ReduceInaccurate(boost::rational<sal_Int32>& rRational, unsigned nSignificantBits)
+{
+ if ( !rRational )
+ return;
+
+ // http://www.boost.org/doc/libs/release/libs/rational/rational.html#Internal%20representation
+ const bool bNeg = ( rRational.numerator() < 0 );
+ sal_Int32 nMul = bNeg? -rRational.numerator(): rRational.numerator();
+ sal_Int32 nDiv = rRational.denominator();
+
+ DBG_ASSERT(nSignificantBits<65, "More than 64 bit of significance is overkill!");
+
+ // How much bits can we lose?
+ const int nMulBitsToLose = std::max( ( impl_NumberOfBits( nMul ) - int( nSignificantBits ) ), 0 );
+ const int nDivBitsToLose = std::max( ( impl_NumberOfBits( nDiv ) - int( nSignificantBits ) ), 0 );
+
+ const int nToLose = std::min( nMulBitsToLose, nDivBitsToLose );
+
+ // Remove the bits
+ nMul >>= nToLose;
+ nDiv >>= nToLose;
+
+ if ( !nMul || !nDiv ) {
+ // Return without reduction
+ OSL_FAIL( "Oops, we reduced too much..." );
+ return;
+ }
+
+ rRational.assign( bNeg ? -nMul : nMul, nDiv );
+}
+
+/* vim:set shiftwidth=4 softtabstop=4 expandtab: */