/* -*- 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 void SetFieldUnit( MetricField& rField, FieldUnit eUnit, bool bAll ) { sal_Int64 nFirst = rField.Denormalize( rField.GetFirst( FUNIT_TWIP ) ); sal_Int64 nLast = rField.Denormalize( rField.GetLast( FUNIT_TWIP ) ); sal_Int64 nMin = rField.Denormalize( rField.GetMin( FUNIT_TWIP ) ); sal_Int64 nMax = rField.Denormalize( rField.GetMax( FUNIT_TWIP ) ); if ( !bAll ) { switch ( eUnit ) { case FUNIT_M: case FUNIT_KM: eUnit = FUNIT_CM; break; case FUNIT_FOOT: case FUNIT_MILE: eUnit = FUNIT_INCH; break; default: ;//prevent warning } } rField.SetUnit( eUnit ); switch( eUnit ) { // _CHAR and _LINE sets the step of "char" and "line" unit, they are same as FUNIT_MM case FUNIT_CHAR: case FUNIT_LINE: case FUNIT_MM: rField.SetSpinSize( 50 ); break; case FUNIT_INCH: rField.SetSpinSize( 2 ); break; default: rField.SetSpinSize( 10 ); } if ( FUNIT_POINT == eUnit ) { if( rField.GetDecimalDigits() > 1 ) rField.SetDecimalDigits( 1 ); } else rField.SetDecimalDigits( 2 ); if ( !bAll ) { rField.SetFirst( rField.Normalize( nFirst ), FUNIT_TWIP ); rField.SetLast( rField.Normalize( nLast ), FUNIT_TWIP ); rField.SetMin( rField.Normalize( nMin ), FUNIT_TWIP ); rField.SetMax( rField.Normalize( nMax ), FUNIT_TWIP ); } } void SetFieldUnit( MetricBox& rBox, FieldUnit eUnit, bool bAll ) { sal_Int64 nMin = rBox.Denormalize( rBox.GetMin( FUNIT_TWIP ) ); sal_Int64 nMax = rBox.Denormalize( rBox.GetMax( FUNIT_TWIP ) ); if ( !bAll ) { switch ( eUnit ) { case FUNIT_M: case FUNIT_KM: eUnit = FUNIT_CM; break; case FUNIT_FOOT: case FUNIT_MILE: eUnit = FUNIT_INCH; break; default: ;//prevent warning } } rBox.SetUnit( eUnit ); if ( FUNIT_POINT == eUnit && rBox.GetDecimalDigits() > 1 ) rBox.SetDecimalDigits( 1 ); else rBox.SetDecimalDigits( 2 ); if ( !bAll ) { rBox.SetMin( rBox.Normalize( nMin ), FUNIT_TWIP ); rBox.SetMax( rBox.Normalize( nMax ), FUNIT_TWIP ); } } void SetMetricValue( MetricField& rField, long nCoreValue, SfxMapUnit eUnit ) { sal_Int64 nVal = OutputDevice::LogicToLogic( nCoreValue, (MapUnit)eUnit, MAP_100TH_MM ); nVal = rField.Normalize( nVal ); rField.SetValue( nVal, FUNIT_100TH_MM ); } long GetCoreValue( const MetricField& rField, SfxMapUnit eUnit ) { sal_Int64 nVal = rField.GetValue( FUNIT_100TH_MM ); // avoid rounding issues const sal_Int64 nSizeMask = 0xffffffffff000000LL; bool bRoundBefore = true; if( nVal >= 0 ) { if( (nVal & nSizeMask) == 0 ) bRoundBefore = false; } else { if( ((-nVal) & nSizeMask ) == 0 ) bRoundBefore = false; } if( bRoundBefore ) nVal = rField.Denormalize( nVal ); sal_Int64 nUnitVal = OutputDevice::LogicToLogic( static_cast(nVal), MAP_100TH_MM, (MapUnit)eUnit ); if( ! bRoundBefore ) nUnitVal = rField.Denormalize( nUnitVal ); return static_cast(nUnitVal); } long CalcToUnit( float nIn, SfxMapUnit eUnit ) { // nIn ist in Points DBG_ASSERT( eUnit == SFX_MAPUNIT_TWIP || eUnit == SFX_MAPUNIT_100TH_MM || eUnit == SFX_MAPUNIT_10TH_MM || eUnit == SFX_MAPUNIT_MM || eUnit == SFX_MAPUNIT_CM, "this unit is not implemented" ); float nTmp = nIn; if ( SFX_MAPUNIT_TWIP != eUnit ) nTmp = nIn * 10 / 567; switch ( eUnit ) { case SFX_MAPUNIT_100TH_MM: nTmp *= 100; break; case SFX_MAPUNIT_10TH_MM: nTmp *= 10; break; case SFX_MAPUNIT_MM: break; case SFX_MAPUNIT_CM: nTmp /= 10; break; default: ;//prevent warning } nTmp *= 20; long nRet = (long)nTmp; return nRet; //! return (long)(nTmp * 20); } long ItemToControl( long nIn, SfxMapUnit eItem, SfxFieldUnit eCtrl ) { long nOut = 0; switch ( eItem ) { case SFX_MAPUNIT_100TH_MM: case SFX_MAPUNIT_10TH_MM: case SFX_MAPUNIT_MM: { if ( eItem == SFX_MAPUNIT_10TH_MM ) nIn /= 10; else if ( eItem == SFX_MAPUNIT_100TH_MM ) nIn /= 100; nOut = TransformMetric( nIn, FUNIT_MM, (FieldUnit)eCtrl ); } break; case SFX_MAPUNIT_CM: { nOut = TransformMetric( nIn, FUNIT_CM, (FieldUnit)eCtrl ); } break; case SFX_MAPUNIT_1000TH_INCH: case SFX_MAPUNIT_100TH_INCH: case SFX_MAPUNIT_10TH_INCH: case SFX_MAPUNIT_INCH: { if ( eItem == SFX_MAPUNIT_10TH_INCH ) nIn /= 10; else if ( eItem == SFX_MAPUNIT_100TH_INCH ) nIn /= 100; else if ( eItem == SFX_MAPUNIT_1000TH_INCH ) nIn /= 1000; nOut = TransformMetric( nIn, FUNIT_INCH, (FieldUnit)eCtrl ); } break; case SFX_MAPUNIT_POINT: { nOut = TransformMetric( nIn, FUNIT_POINT, (FieldUnit)eCtrl ); } break; case SFX_MAPUNIT_TWIP: { nOut = TransformMetric( nIn, FUNIT_TWIP, (FieldUnit)eCtrl ); } break; default: ;//prevent warning } return nOut; } long ControlToItem( long nIn, SfxFieldUnit eCtrl, SfxMapUnit eItem ) { return ItemToControl( nIn, eItem, eCtrl ); } FieldUnit MapToFieldUnit( const SfxMapUnit eUnit ) { switch ( eUnit ) { case SFX_MAPUNIT_100TH_MM: case SFX_MAPUNIT_10TH_MM: case SFX_MAPUNIT_MM: return FUNIT_MM; case SFX_MAPUNIT_CM: return FUNIT_CM; case SFX_MAPUNIT_1000TH_INCH: case SFX_MAPUNIT_100TH_INCH: case SFX_MAPUNIT_10TH_INCH: case SFX_MAPUNIT_INCH: return FUNIT_INCH; case SFX_MAPUNIT_POINT: return FUNIT_POINT; case SFX_MAPUNIT_TWIP: return FUNIT_TWIP; default: ;//prevent warning } return FUNIT_NONE; } long CalcToPoint( long nIn, SfxMapUnit eUnit, sal_uInt16 nFactor ) { DBG_ASSERT( eUnit == SFX_MAPUNIT_TWIP || eUnit == SFX_MAPUNIT_100TH_MM || eUnit == SFX_MAPUNIT_10TH_MM || eUnit == SFX_MAPUNIT_MM || eUnit == SFX_MAPUNIT_CM, "this unit is not implemented" ); long nRet = 0; if ( SFX_MAPUNIT_TWIP == eUnit ) nRet = nIn; else nRet = nIn * 567; switch ( eUnit ) { case SFX_MAPUNIT_100TH_MM: nRet /= 100; break; case SFX_MAPUNIT_10TH_MM: nRet /= 10; break; case SFX_MAPUNIT_MM: break; case SFX_MAPUNIT_CM: nRet *= 10; break; default: ;//prevent warning } // ggf. aufrunden if ( SFX_MAPUNIT_TWIP != eUnit ) { long nMod = 10; long nTmp = nRet % nMod; if ( nTmp >= 4 ) nRet += 10 - nTmp; nRet /= 10; } return nRet * nFactor / 20; } long CMToTwips( long nIn ) { long nRet = 0; if ( nIn <= ( LONG_MAX / 567 ) && nIn >= ( LONG_MIN / 567 ) ) nRet = nIn * 567; return nRet; } long MMToTwips( long nIn ) { long nRet = 0; if ( nIn <= ( LONG_MAX / 567 ) && nIn >= ( LONG_MIN / 567 ) ) nRet = nIn * 567 / 10; return nRet; } long InchToTwips( long nIn ) { long nRet = 0; if ( nIn <= ( LONG_MAX / 1440 ) && nIn >= ( LONG_MIN / 1440 ) ) nRet = nIn * 1440; return nRet; } long PointToTwips( long nIn ) { long nRet = 0; if ( nIn <= ( LONG_MAX / 20 ) && nIn >= ( LONG_MIN / 20 ) ) nRet = nIn * 20; return nRet; } long PicaToTwips( long nIn ) { long nRet = 0; if ( nIn <= ( LONG_MAX / 240 ) && nIn >= ( LONG_MIN / 240 ) ) nRet = nIn * 240; return nRet; } long TwipsToCM( long nIn ) { long nRet = nIn / 567; return nRet; } long InchToCM( long nIn ) { long nRet = 0; if ( nIn <= ( LONG_MAX / 254 ) && nIn >= ( LONG_MIN / 254 ) ) nRet = nIn * 254 / 100; return nRet; } long MMToCM( long nIn ) { long nRet = nIn / 10; return nRet; } long PointToCM( long nIn ) { long nRet = 0; if ( nIn <= ( LONG_MAX / 20 ) && nIn >= ( LONG_MIN / 20 ) ) nRet = nIn * 20 / 567; return nRet; } long PicaToCM( long nIn) { long nRet = 0; if ( nIn <= ( LONG_MAX / 12 / 20 ) && nIn >= ( LONG_MIN / 12 / 20 ) ) nRet = nIn * 12 * 20 / 567; return nRet; } long TwipsToMM( long nIn ) { long nRet = 0; if ( nIn <= ( LONG_MAX / 10 ) && nIn >= ( LONG_MIN / 10 ) ) nRet = nIn * 10 / 566; return nRet; } long CMToMM( long nIn ) { long nRet = 0; if ( nIn <= ( LONG_MAX / 10 ) && nIn >= ( LONG_MIN / 10 ) ) nRet = nIn * 10; return nRet; } long InchToMM( long nIn ) { long nRet = 0; if ( nIn <= ( LONG_MAX / 254 ) && nIn >= ( LONG_MIN / 254 ) ) nRet = nIn * 254 / 10; return nRet; } long PointToMM( long nIn ) { long nRet = 0; if ( nIn <= ( LONG_MAX / 200 ) && nIn >= ( LONG_MIN / 200 ) ) nRet = nIn * 200 / 567; return nRet; } long PicaToMM( long nIn ) { long nRet = 0; if ( nIn <= ( LONG_MAX / 12 / 200 ) && nIn >= ( LONG_MIN / 12 / 200 ) ) nRet = nIn * 12 * 200 / 567; return nRet; } long TwipsToInch( long nIn ) { long nRet = nIn / 1440; return nRet; } long CMToInch( long nIn ) { long nRet = 0; if ( nIn <= ( LONG_MAX / 100 ) && nIn >= ( LONG_MIN / 100 ) ) nRet = nIn * 100 / 254; return nRet; } long MMToInch( long nIn ) { long nRet = 0; if ( nIn <= ( LONG_MAX / 10 ) && nIn >= ( LONG_MIN / 10 ) ) nRet = nIn * 10 / 254; return nRet; } long PointToInch( long nIn ) { long nRet = nIn / 72; return nRet; } long PicaToInch( long nIn ) { long nRet = nIn / 6; return nRet; } long TwipsToPoint( long nIn ) { long nRet = nIn / 20; return nRet; } long InchToPoint( long nIn ) { long nRet = 0; if ( nIn <= ( LONG_MAX / 72 ) && nIn >= ( LONG_MIN / 72 ) ) nRet = nIn * 72; return nRet; } long CMToPoint( long nIn ) { long nRet = 0; if ( nIn <= ( LONG_MAX / 567 ) && nIn >= ( LONG_MIN / 567 ) ) nRet = nIn * 567 / 20; return nRet; } long MMToPoint( long nIn ) { long nRet = 0; if ( nIn <= ( LONG_MAX / 567 ) && nIn >= ( LONG_MIN / 567 ) ) nRet = nIn * 567 / 200; return nRet; } long PicaToPoint( long nIn ) { long nRet = nIn / 12; return nRet; } long TwipsToPica( long nIn ) { long nRet = nIn / 240; return nRet; } long InchToPica( long nIn ) { long nRet = 0; if ( nIn <= ( LONG_MAX / 6 ) && nIn >= ( LONG_MIN / 6 ) ) nRet = nIn * 6; return nRet; } long PointToPica( long nIn ) { long nRet = 0; if ( nIn <= ( LONG_MAX / 12 ) && nIn >= ( LONG_MIN / 12 ) ) nRet = nIn * 12; return nRet; } long CMToPica( long nIn ) { long nRet = 0; if ( nIn <= ( LONG_MAX / 567 ) && nIn >= ( LONG_MIN / 567 ) ) nRet = nIn * 567 / 20 / 12; return nRet; } long MMToPica( long nIn ) { long nRet = 0; if ( nIn <= ( LONG_MAX / 567 ) && nIn >= ( LONG_MIN / 567 ) ) nRet = nIn * 567 / 200 / 12; return nRet; } long Nothing( long nIn ) { long nRet = nIn; return nRet; } FUNC_CONVERT ConvertTable[6][6] = { // CM, MM INCH POINT PICAS=32 TWIPS { Nothing, CMToMM, CMToInch, CMToPoint, CMToPica, CMToTwips }, { MMToCM, Nothing, MMToInch, MMToPoint, MMToPica, MMToTwips }, { InchToCM, InchToMM, Nothing, InchToPoint, InchToPica, InchToTwips }, { PointToCM, PointToMM, PointToInch, Nothing, PointToPica, PointToTwips }, { PicaToCM, PicaToMM, PicaToInch, PicaToPoint, Nothing, PicaToTwips }, { TwipsToCM, TwipsToMM, TwipsToInch, TwipsToPoint,TwipsToPica, Nothing } }; long TransformMetric( long nVal, FieldUnit aOld, FieldUnit aNew ) { if ( aOld == FUNIT_NONE || aNew == FUNIT_NONE || aOld == FUNIT_CUSTOM || aNew == FUNIT_CUSTOM ) { return nVal; } sal_uInt16 nOld = 0; sal_uInt16 nNew = 0; switch ( aOld ) { case FUNIT_CM: nOld = 0; break; case FUNIT_MM: nOld = 1; break; case FUNIT_INCH: nOld = 2; break; case FUNIT_POINT: nOld = 3; break; case FUNIT_PICA: nOld = 4; break; case FUNIT_TWIP: nOld = 5; break; default: ;//prevent warning } switch ( aNew ) { case FUNIT_CM: nNew = 0; break; case FUNIT_MM: nNew = 1; break; case FUNIT_INCH: nNew = 2; break; case FUNIT_POINT: nNew = 3; break; case FUNIT_PICA: nNew = 4; break; case FUNIT_TWIP: nNew = 5; break; default: ;//prevent warning } return ConvertTable[nOld][nNew]( nVal ); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */