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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 <sal/config.h>
#include <rtl/math.hxx>
#include <svx/framelink.hxx>
#include <editeng/borderline.hxx>
#include <o3tl/hash_combine.hxx>
using namespace ::com::sun::star;
using namespace editeng;
namespace svx::frame
{
Style::Style( double nP, double nD, double nS, SvxBorderLineStyle nType, double fScale )
{
Clear();
mnType = nType;
mfPatternScale = fScale;
Set( nP, nD, nS );
}
Style::Style( const Color& rColorPrim, const Color& rColorSecn, const Color& rColorGap, bool bUseGapColor, double nP, double nD, double nS, SvxBorderLineStyle nType, double fScale )
{
Clear();
mnType = nType;
mfPatternScale = fScale;
Set( rColorPrim, rColorSecn, rColorGap, bUseGapColor, nP, nD, nS );
}
Style::Style( const editeng::SvxBorderLine* pBorder, double fScale )
{
Clear();
if(nullptr != pBorder)
{
mfPatternScale = fScale;
Set( pBorder, fScale );
}
}
void Style::Clear()
{
maColorPrim = Color();
maColorSecn = Color();
maColorGap = Color();
mbUseGapColor = false;
meRefMode = RefMode::Centered;
mfPrim = 0.0;
mfDist = 0.0;
mfSecn = 0.0;
mfPatternScale = 1.0;
mnType = SvxBorderLineStyle::SOLID;
mbWordTableCell = false;
}
void Style::Set( double nP, double nD, double nS )
{
/* nP nD nS -> mfPrim mfDist mfSecn
--------------------------------------
any any 0 nP 0 0
0 any >0 nS 0 0
>0 0 >0 nP 0 0
>0 >0 >0 nP nD nS
*/
mfPrim = rtl::math::round(nP ? nP : nS, 2);
mfDist = rtl::math::round((nP && nS) ? nD : 0, 2);
mfSecn = rtl::math::round((nP && nD) ? nS : 0, 2);
}
void Style::Set( const Color& rColorPrim, const Color& rColorSecn, const Color& rColorGap, bool bUseGapColor, double nP, double nD, double nS )
{
maColorPrim = rColorPrim;
maColorSecn = rColorSecn;
maColorGap = rColorGap;
mbUseGapColor = bUseGapColor;
Set( nP, nD, nS );
}
void Style::Set( const SvxBorderLine* pBorder, double fScale, sal_uInt16 nMaxWidth )
{
if(nullptr == pBorder)
{
Clear();
return;
}
maColorPrim = pBorder->GetColorOut();
maColorSecn = pBorder->GetColorIn();
maColorGap = pBorder->GetColorGap();
mbUseGapColor = pBorder->HasGapColor();
const sal_uInt16 nPrim(pBorder->GetOutWidth());
const sal_uInt16 nDist(pBorder->GetDistance());
const sal_uInt16 nSecn(pBorder->GetInWidth());
mnType = pBorder->GetBorderLineStyle();
mfPatternScale = fScale;
if( !nSecn ) // no or single frame border
{
Set( std::min<double>(nPrim * fScale, nMaxWidth), 0, 0 );
}
else
{
Set(std::min<double>(nPrim * fScale, nMaxWidth), std::min<double>(nDist * fScale, nMaxWidth), std::min<double>(nSecn * fScale, nMaxWidth));
// Enlarge the style if distance is too small due to rounding losses.
double nPixWidth = std::min<double>((nPrim + nDist + nSecn) * fScale, nMaxWidth);
if( nPixWidth > GetWidth() )
{
mfDist = nPixWidth - mfPrim - mfSecn;
}
// Shrink the style if it is too thick for the control.
while( GetWidth() > nMaxWidth )
{
// First decrease space between lines.
if (mfDist)
{
--mfDist;
continue;
}
// Still too thick? Decrease the line widths.
if (mfPrim != 0.0 && rtl::math::approxEqual(mfPrim, mfSecn))
{
// Both lines equal - decrease both to keep symmetry.
--mfPrim;
--mfSecn;
continue;
}
// Decrease each line for itself
if (mfPrim)
--mfPrim;
if ((GetWidth() > nMaxWidth) && mfSecn != 0.0)
--mfSecn;
}
}
}
Style& Style::MirrorSelf()
{
if (mfSecn)
{
std::swap( mfPrim, mfSecn );
// also need to swap colors
std::swap( maColorPrim, maColorSecn );
}
if( meRefMode != RefMode::Centered )
{
meRefMode = (meRefMode == RefMode::Begin) ? RefMode::End : RefMode::Begin;
}
return *this;
}
bool Style::operator==( const Style& rOther) const
{
if (this == &rOther)
// ptr compare (same instance)
return true;
return (Prim() == rOther.Prim()
&& Dist() == rOther.Dist()
&& Secn() == rOther.Secn()
&& GetColorPrim() == rOther.GetColorPrim()
&& GetColorSecn() == rOther.GetColorSecn()
&& GetColorGap() == rOther.GetColorGap()
&& GetRefMode() == rOther.GetRefMode()
&& UseGapColor() == rOther.UseGapColor()
&& Type() == rOther.Type());
}
size_t Style::hashCode() const
{
std::size_t seed = 0;
o3tl::hash_combine(seed, Prim());
o3tl::hash_combine(seed, Dist());
o3tl::hash_combine(seed, Secn());
o3tl::hash_combine(seed, static_cast<sal_Int32>(GetColorPrim()));
o3tl::hash_combine(seed, static_cast<sal_Int32>(GetColorSecn()));
o3tl::hash_combine(seed, static_cast<sal_Int32>(GetColorGap()));
o3tl::hash_combine(seed, GetRefMode());
o3tl::hash_combine(seed, UseGapColor());
o3tl::hash_combine(seed, Type());
return seed;
}
namespace
{
/**
* Gets the weight of rStyle, according to [MS-OI29500] v20171130, 2.1.168 Part 1 Section 17.4.66,
* tcBorders (Table Cell Borders).
*/
double GetWordTableCellBorderWeight(const Style& rStyle)
{
double fWidth = rStyle.GetWidth();
int nBorderNumber = 0;
// See lcl_convertBorderStyleFromToken() in writerfilter/ and ConvertBorderStyleFromWord() in
// editeng/, this is the opposite of the combination of those functions.
switch (rStyle.Type())
{
case SvxBorderLineStyle::NONE:
return 0.0;
case SvxBorderLineStyle::DOTTED:
case SvxBorderLineStyle::DASHED:
return 1.0;
case SvxBorderLineStyle::SOLID:
// single = 1
// thick = 2
// wave = 20
nBorderNumber = 1;
break;
case SvxBorderLineStyle::DOUBLE:
case SvxBorderLineStyle::DOUBLE_THIN:
// double = 3
// triple = 10
// doubleWave = 21
// dashDotStroked = 23
nBorderNumber = 3;
break;
case SvxBorderLineStyle::DASH_DOT:
// dotDash = 8
nBorderNumber = 8;
break;
case SvxBorderLineStyle::DASH_DOT_DOT:
// dotDotDash = 9
nBorderNumber = 9;
break;
case SvxBorderLineStyle::THINTHICK_SMALLGAP:
// thinThickSmallGap = 11
nBorderNumber = 11;
break;
case SvxBorderLineStyle::THICKTHIN_SMALLGAP:
// thickThinSmallGap = 12
// thinThickThinSmallGap = 13
nBorderNumber = 12;
break;
case SvxBorderLineStyle::THINTHICK_MEDIUMGAP:
// thinThickMediumGap = 14
nBorderNumber = 14;
break;
case SvxBorderLineStyle::THICKTHIN_MEDIUMGAP:
// thickThinMediumGap = 15
// thinThickThinMediumGap = 16
nBorderNumber = 15;
break;
case SvxBorderLineStyle::THINTHICK_LARGEGAP:
// thinThickLargeGap = 17
nBorderNumber = 17;
break;
case SvxBorderLineStyle::THICKTHIN_LARGEGAP:
// thickThinLargeGap = 18
// thinThickThinLargeGap = 19
nBorderNumber = 18;
break;
case SvxBorderLineStyle::FINE_DASHED:
// dashSmallGap = 22
nBorderNumber = 22;
break;
case SvxBorderLineStyle::EMBOSSED:
// threeDEmboss = 24
nBorderNumber = 24;
break;
case SvxBorderLineStyle::ENGRAVED:
// threeDEngrave = 25
nBorderNumber = 25;
break;
case SvxBorderLineStyle::OUTSET:
// outset = 26
nBorderNumber = 25;
break;
case SvxBorderLineStyle::INSET:
// inset = 27
nBorderNumber = 27;
break;
}
return nBorderNumber * fWidth;
}
}
bool Style::operator<( const Style& rOther) const
{
if (mbWordTableCell)
{
// The below code would first compare based on the border width, Word compares based on its
// calculated weight, do that in the compat case.
double fLW = GetWordTableCellBorderWeight(*this);
double fRW = GetWordTableCellBorderWeight(rOther);
if (!rtl::math::approxEqual(fLW, fRW))
{
return fLW < fRW;
}
}
// different total widths -> this<rOther, if this is thinner
double nLW = GetWidth();
double nRW = rOther.GetWidth();
if( !rtl::math::approxEqual(nLW, nRW) ) return nLW < nRW;
// one line double, the other single -> this<rOther, if this is single
if( (Secn() == 0) != (rOther.Secn() == 0) ) return Secn() == 0;
// both lines double with different distances -> this<rOther, if distance of this greater
if( (Secn() && rOther.Secn()) && !rtl::math::approxEqual(Dist(), rOther.Dist()) ) return Dist() > rOther.Dist();
// both lines single and 1 unit thick, only one is dotted -> this<rOther, if this is dotted
if ((nLW == 1) && !Secn() && !rOther.Secn() && (Type() != rOther.Type())) return Type() > rOther.Type();
// seem to be equal
return false;
}
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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