LCOV - code coverage report
Current view: top level - slideshow/source/engine/activities - activitybase.cxx (source / functions) Hit Total Coverage
Test: commit 10e77ab3ff6f4314137acd6e2702a6e5c1ce1fae Lines: 1 64 1.6 %
Date: 2014-11-03 Functions: 2 12 16.7 %
Legend: Lines: hit not hit

          Line data    Source code
       1             : /* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
       2             : /*
       3             :  * This file is part of the LibreOffice project.
       4             :  *
       5             :  * This Source Code Form is subject to the terms of the Mozilla Public
       6             :  * License, v. 2.0. If a copy of the MPL was not distributed with this
       7             :  * file, You can obtain one at http://mozilla.org/MPL/2.0/.
       8             :  *
       9             :  * This file incorporates work covered by the following license notice:
      10             :  *
      11             :  *   Licensed to the Apache Software Foundation (ASF) under one or more
      12             :  *   contributor license agreements. See the NOTICE file distributed
      13             :  *   with this work for additional information regarding copyright
      14             :  *   ownership. The ASF licenses this file to you under the Apache
      15             :  *   License, Version 2.0 (the "License"); you may not use this file
      16             :  *   except in compliance with the License. You may obtain a copy of
      17             :  *   the License at http://www.apache.org/licenses/LICENSE-2.0 .
      18             :  */
      19             : 
      20             : 
      21             : // must be first
      22             : #include <canvas/debug.hxx>
      23             : #include <tools/diagnose_ex.h>
      24             : #include <canvas/verbosetrace.hxx>
      25             : #include <canvas/canvastools.hxx>
      26             : 
      27             : #include <activitybase.hxx>
      28             : 
      29             : 
      30             : namespace slideshow
      31             : {
      32             :     namespace internal
      33             :     {
      34             :         // TODO(P1): Elide some virtual function calls, by templifying this
      35             :         // static hierarchy
      36             : 
      37           0 :         ActivityBase::ActivityBase( const ActivityParameters& rParms ) :
      38             :             mpEndEvent( rParms.mrEndEvent ),
      39             :             mrEventQueue( rParms.mrEventQueue ),
      40             :             mpShape(),
      41             :             mpAttributeLayer(),
      42             :             maRepeats( rParms.mrRepeats ),
      43             :             mnAccelerationFraction( rParms.mnAccelerationFraction ),
      44             :             mnDecelerationFraction( rParms.mnDecelerationFraction ),
      45             :             mbAutoReverse( rParms.mbAutoReverse ),
      46             :             mbFirstPerformCall( true ),
      47           0 :             mbIsActive( true ) {}
      48             : 
      49           0 :         void ActivityBase::dispose()
      50             :         {
      51             :             // deactivate
      52           0 :             mbIsActive = false;
      53             : 
      54             :             // dispose event
      55           0 :             if( mpEndEvent )
      56           0 :                 mpEndEvent->dispose();
      57             : 
      58             :             // release references
      59           0 :             mpEndEvent.reset();
      60           0 :             mpShape.reset();
      61           0 :             mpAttributeLayer.reset();
      62           0 :         }
      63             : 
      64           0 :         double ActivityBase::calcTimeLag() const
      65             :         {
      66             :             // TODO(Q1): implement different init process!
      67           0 :             if (isActive() && mbFirstPerformCall)
      68             :             {
      69           0 :                 mbFirstPerformCall = false;
      70             : 
      71             :                 // notify derived classes that we're
      72             :                 // starting now
      73           0 :                 const_cast<ActivityBase *>(this)->startAnimation();
      74             :             }
      75           0 :             return 0.0;
      76             :         }
      77             : 
      78           0 :         bool ActivityBase::perform()
      79             :         {
      80             :             // still active?
      81           0 :             if( !isActive() )
      82           0 :                 return false; // no, early exit.
      83             : 
      84             :             OSL_ASSERT( ! mbFirstPerformCall );
      85             : 
      86           0 :             return true;
      87             :         }
      88             : 
      89           0 :         bool ActivityBase::isActive() const
      90             :         {
      91           0 :             return mbIsActive;
      92             :         }
      93             : 
      94           0 :         void ActivityBase::setTargets( const AnimatableShapeSharedPtr&      rShape,
      95             :                                        const ShapeAttributeLayerSharedPtr&  rAttrLayer )
      96             :         {
      97           0 :             ENSURE_OR_THROW( rShape,
      98             :                               "ActivityBase::setTargets(): Invalid shape" );
      99           0 :             ENSURE_OR_THROW( rAttrLayer,
     100             :                               "ActivityBase::setTargets(): Invalid attribute layer" );
     101             : 
     102           0 :             mpShape = rShape;
     103           0 :             mpAttributeLayer = rAttrLayer;
     104           0 :         }
     105             : 
     106           0 :         void ActivityBase::endActivity()
     107             :         {
     108             :             // this is a regular activity end
     109           0 :             mbIsActive = false;
     110             : 
     111             :             // Activity is ending, queue event, then
     112           0 :             if( mpEndEvent )
     113           0 :                 mrEventQueue.addEvent( mpEndEvent );
     114             : 
     115             :             // release references
     116           0 :             mpEndEvent.reset();
     117           0 :         }
     118             : 
     119           0 :         void ActivityBase::dequeued()
     120             :         {
     121             :             // xxx todo:
     122             : //             // ignored here, if we're still active. Discrete
     123             : //             // activities are dequeued after every perform() call,
     124             : //             // thus, the call is only significant when isActive() ==
     125             : //             // false.
     126           0 :             if( !isActive() )
     127           0 :                 endAnimation();
     128           0 :         }
     129             : 
     130           0 :         void ActivityBase::end()
     131             :         {
     132           0 :             if (!isActive() || isDisposed())
     133           0 :                 return;
     134             :             // assure animation is started:
     135           0 :             if (mbFirstPerformCall) {
     136           0 :                 mbFirstPerformCall = false;
     137             :                 // notify derived classes that we're starting now
     138           0 :                 this->startAnimation();
     139             :             }
     140             : 
     141           0 :             performEnd(); // calling private virtual
     142           0 :             endAnimation();
     143           0 :             endActivity();
     144             :         }
     145             : 
     146           0 :         double ActivityBase::calcAcceleratedTime( double nT ) const
     147             :         {
     148             :             // Handle acceleration/deceleration
     149             :             // ================================
     150             : 
     151             :             // clamp nT to permissible [0,1] range
     152           0 :             nT = ::basegfx::clamp( nT, 0.0, 1.0 );
     153             : 
     154             :             // take acceleration/deceleration into account. if the sum
     155             :             // of mnAccelerationFraction and mnDecelerationFraction
     156             :             // exceeds 1.0, ignore both (that's according to SMIL spec)
     157           0 :             if( (mnAccelerationFraction > 0.0 ||
     158           0 :                  mnDecelerationFraction > 0.0) &&
     159           0 :                 mnAccelerationFraction + mnDecelerationFraction <= 1.0 )
     160             :             {
     161             :                 /*
     162             :                 // calc accelerated/decelerated time.
     163             : 
     164             :                 // We have three intervals:
     165             :                 // 1 [0,a]
     166             :                 // 2 [a,d]
     167             :                 // 3 [d,1] (with a and d being acceleration/deceleration
     168             :                 // fraction, resp.)
     169             : 
     170             :                 // The change rate during interval 1 is constantly
     171             :                 // increasing, reaching 1 at a. It then stays at 1,
     172             :                 // starting a linear decrease at d, ending with 0 at
     173             :                 // time 1. The integral of this function is the
     174             :                 // required new time nT'.
     175             : 
     176             :                 // As we arbitrarily assumed 1 as the upper value of
     177             :                 // the change rate, the integral must be normalized to
     178             :                 // reach nT'=1 at the end of the interval. This
     179             :                 // normalization constant is:
     180             : 
     181             :                 // c = 1 - 0.5a - 0.5d
     182             : 
     183             :                 // The integral itself then amounts to:
     184             : 
     185             :                 // 0.5 nT^2 / a + (nT-a) + (nT - 0.5 nT^2 / d)
     186             : 
     187             :                 // (where each of the three summands correspond to the
     188             :                 // three intervals above, and are applied only if nT
     189             :                 // has reached the corresponding interval)
     190             : 
     191             :                 // The graph of the change rate is a trapezoid:
     192             : 
     193             :                 //   |
     194             :                 //  1|      /--------------\
     195             :                 //   |     /                \
     196             :                 //   |    /                  \
     197             :                 //   |   /                    \
     198             :                 //   -----------------------------
     199             :                 //      0   a              d  1
     200             : 
     201             :                 //*/
     202           0 :                 const double nC( 1.0 - 0.5*mnAccelerationFraction - 0.5*mnDecelerationFraction );
     203             : 
     204             :                 // this variable accumulates the new time value
     205           0 :                 double nTPrime(0.0);
     206             : 
     207           0 :                 if( nT < mnAccelerationFraction )
     208             :                 {
     209           0 :                     nTPrime += 0.5*nT*nT/mnAccelerationFraction; // partial first interval
     210             :                 }
     211             :                 else
     212             :                 {
     213           0 :                     nTPrime += 0.5*mnAccelerationFraction; // full first interval
     214             : 
     215           0 :                     if( nT <= 1.0-mnDecelerationFraction )
     216             :                     {
     217           0 :                         nTPrime += nT-mnAccelerationFraction; // partial second interval
     218             :                     }
     219             :                     else
     220             :                     {
     221           0 :                         nTPrime += 1.0 - mnAccelerationFraction - mnDecelerationFraction; // full second interval
     222             : 
     223           0 :                         const double nTRelative( nT - 1.0 + mnDecelerationFraction );
     224             : 
     225           0 :                         nTPrime += nTRelative - 0.5*nTRelative*nTRelative / mnDecelerationFraction;
     226             :                     }
     227             :                 }
     228             : 
     229             :                 // normalize, and assign to work variable
     230           0 :                 nT = nTPrime / nC;
     231             :             }
     232             : 
     233           0 :             return nT;
     234             :         }
     235             :     }
     236           6 : }
     237             : 
     238             : /* vim:set shiftwidth=4 softtabstop=4 expandtab: */

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