Beispiel #1
0
KeyFrame Curve::setKeyFrameInterpolation(Natron::KeyframeType interp,int index,int* newIndex)
{
    
    bool evaluateAnimation = false;
    KeyFrame ret;
    {
        QWriteLocker l(&_imp->_lock);
        KeyFrameSet::iterator it = atIndex(index);
        assert(it != _imp->keyFrames.end());
        
        ///if the curve is a string_curve or bool_curve the interpolation is bound to be constant.
        if ((_imp->type == CurvePrivate::STRING_CURVE || _imp->type == CurvePrivate::BOOL_CURVE ||
             _imp->type == CurvePrivate::INT_CURVE_CONSTANT_INTERP) && interp != Natron::KEYFRAME_CONSTANT) {
            return *it;
        }
        
        
        if (interp != it->getInterpolation()) {
            it = setKeyframeInterpolation_internal(it, interp);
        }
        if (newIndex) {
            *newIndex = std::distance(_imp->keyFrames.begin(),it);
        }
        ret = *it;
    }
    if (evaluateAnimation && _imp->owner) {
        _imp->owner->evaluateAnimationChange();
    }
    return ret;
}
Beispiel #2
0
void Curve::setCurveInterpolation(Natron::KeyframeType interp)
{
    bool evaluateAnimation = false;

    {
        QWriteLocker l(&_imp->_lock);
        ///if the curve is a string_curve or bool_curve the interpolation is bound to be constant.
        if ((_imp->type == CurvePrivate::STRING_CURVE || _imp->type == CurvePrivate::BOOL_CURVE ||
             _imp->type == CurvePrivate::INT_CURVE_CONSTANT_INTERP) && interp != Natron::KEYFRAME_CONSTANT) {
            return;
        }
        for (int i = 0; i < (int)_imp->keyFrames.size(); ++i)
        {
            KeyFrameSet::iterator it = _imp->keyFrames.begin();
            std::advance(it, i);
            if (interp != it->getInterpolation()) {
                it = setKeyframeInterpolation_internal(it, interp);
                evaluateAnimation = true;
            }
        }
    }
    if (evaluateAnimation && _imp->owner) {
        _imp->owner->evaluateAnimationChange();
    }
}
Beispiel #3
0
KeyFrameSet::iterator Curve::evaluateCurveChanged(CurveChangedReason reason, KeyFrameSet::iterator key)
{
    // PRIVATE - should not lock
    assert(key!=_imp->keyFrames.end());

    if (key->getInterpolation()!= Natron::KEYFRAME_BROKEN && key->getInterpolation() != Natron::KEYFRAME_FREE
        && reason != DERIVATIVES_CHANGED ) {
        key = refreshDerivatives(DERIVATIVES_CHANGED,key);
    }
    KeyFrameSet::iterator prev = key;
    if (key != _imp->keyFrames.begin()) {
        --prev;
        if(prev->getInterpolation()!= Natron::KEYFRAME_BROKEN &&
           prev->getInterpolation()!= Natron::KEYFRAME_FREE &&
           prev->getInterpolation()!= Natron::KEYFRAME_NONE){
            prev = refreshDerivatives(DERIVATIVES_CHANGED,prev);
        }
    }
    KeyFrameSet::iterator next = key;
    ++next;
    if (next != _imp->keyFrames.end()) {
        if(next->getInterpolation()!= Natron::KEYFRAME_BROKEN &&
           next->getInterpolation()!= Natron::KEYFRAME_FREE &&
           next->getInterpolation()!= Natron::KEYFRAME_NONE){
            next = refreshDerivatives(DERIVATIVES_CHANGED,next);
        }
    }
	return key;
}
Beispiel #4
0
KeyFrameSet::iterator Curve::refreshDerivatives(Curve::CurveChangedReason reason, KeyFrameSet::iterator key)
{
    // PRIVATE - should not lock
    double tcur = key->getTime();
    double vcur = key->getValue();
    
    double tprev, vprev, tnext, vnext, vprevDerivRight, vnextDerivLeft;
    Natron::KeyframeType prevType, nextType;
    if (key == _imp->keyFrames.begin()) {
        tprev = tcur;
        vprev = vcur;
        vprevDerivRight = 0.;
        prevType = Natron::KEYFRAME_NONE;
    } else {
        KeyFrameSet::const_iterator prev = key;
        --prev;
        tprev = prev->getTime();
        vprev = prev->getValue();
        vprevDerivRight = prev->getRightDerivative();
        prevType = prev->getInterpolation();
        
        //if prev is the first keyframe, and not edited by the user then interpolate linearly
        if (prev == _imp->keyFrames.begin() && prevType != Natron::KEYFRAME_FREE &&
            prevType != Natron::KEYFRAME_BROKEN) {
            prevType = Natron::KEYFRAME_LINEAR;
        }
    }
    
    KeyFrameSet::const_iterator next = key;
    ++next;
    if (next == _imp->keyFrames.end()) {
        tnext = tcur;
        vnext = vcur;
        vnextDerivLeft = 0.;
        nextType = Natron::KEYFRAME_NONE;
    } else {
        tnext = next->getTime();
        vnext = next->getValue();
        vnextDerivLeft = next->getLeftDerivative();
        nextType = next->getInterpolation();
        
        KeyFrameSet::const_iterator nextnext = next;
        ++nextnext;
        //if next is thelast keyframe, and not edited by the user then interpolate linearly
        if (nextnext == _imp->keyFrames.end() && nextType != Natron::KEYFRAME_FREE &&
            nextType != Natron::KEYFRAME_BROKEN) {
            nextType = Natron::KEYFRAME_LINEAR;
        }
    }
    
    double vcurDerivLeft,vcurDerivRight;

    assert(key->getInterpolation() != Natron::KEYFRAME_NONE &&
            key->getInterpolation() != Natron::KEYFRAME_BROKEN &&
            key->getInterpolation() != Natron::KEYFRAME_FREE);
    Natron::autoComputeDerivatives(prevType,
                                   key->getInterpolation(),
                                   nextType,
                                   tprev, vprev,
                                   tcur, vcur,
                                   tnext, vnext,
                                   vprevDerivRight,
                                   vnextDerivLeft,
                                   &vcurDerivLeft, &vcurDerivRight);


    KeyFrame newKey(*key);
    newKey.setLeftDerivative(vcurDerivLeft);
    newKey.setRightDerivative(vcurDerivRight);

    std::pair<KeyFrameSet::iterator,bool> newKeyIt = _imp->keyFrames.insert(newKey);

    // keyframe at this time exists, erase and insert again
    if (!newKeyIt.second) {
        _imp->keyFrames.erase(newKeyIt.first);
        newKeyIt = _imp->keyFrames.insert(newKey);
        assert(newKeyIt.second);
    }
    key = newKeyIt.first;
    
    if (reason != DERIVATIVES_CHANGED) {
        key = evaluateCurveChanged(DERIVATIVES_CHANGED,key);
    }
    return key;
}