示例#1
0
//-*****************************************************************************
double XformOp::getZRotation() const
{
    ABCA_ASSERT( m_type == kRotateOperation || m_type == kRotateZOperation,
                 "Meaningless to get rotation angle from non-rotation op." );

    if ( m_type == kRotateZOperation )
    {
        return m_channels[0];
    }
    else
    {
        Abc::M44d m;
        Abc::V3d rot;
        m.makeIdentity();
        m.setAxisAngle( this->getVector(), DegreesToRadians( m_channels[3] ) );
        Imath::extractEulerXYZ( m, rot );
        return RadiansToDegrees( rot[2] );
    }
}
示例#2
0
//-*****************************************************************************
Abc::V3d XformSample::getTranslation() const
{
    Abc::M44d m = this->getMatrix();
    return m.translation();
}
示例#3
0
//-*****************************************************************************
Abc::M44d XformSample::getMatrix() const
{
    Abc::M44d ret;
    ret.makeIdentity();

    for ( std::size_t i = 0 ; i < m_ops.size() ; ++i )
    {
        Abc::M44d m;
        m.makeIdentity();

        XformOp op = m_ops[i];

        XformOperationType otype = op.getType();

        if ( otype == kMatrixOperation )
        {
            for ( std::size_t j = 0 ; j < 4 ; ++j )
            {
                for ( std::size_t k = 0 ; k < 4 ; ++k )
                {
                    m.x[j][k] = op.getChannelValue( ( 4 * j ) + k );
                }
            }
        }
        else if ( otype == kRotateXOperation )
        {
            m.setAxisAngle( Abc::V3d( 1.0, 0.0, 0.0 ),
                            DegreesToRadians( op.getChannelValue( 0 ) ) );
        }
        else if ( otype == kRotateYOperation )
        {
            m.setAxisAngle( Abc::V3d( 0.0, 1.0, 0.0 ),
                            DegreesToRadians( op.getChannelValue( 0 ) ) );
        }
        else if ( otype == kRotateZOperation )
        {
            m.setAxisAngle( Abc::V3d( 0.0, 0.0, 1.0 ),
                            DegreesToRadians( op.getChannelValue( 0 ) ) );
        }
        else
        {
            Abc::V3d vec( op.getChannelValue( 0 ),
                          op.getChannelValue( 1 ),
                          op.getChannelValue( 2 ) );

            if ( otype == kScaleOperation )
            {
                m.setScale( vec );
            }
            else if ( otype == kTranslateOperation )
            {
                m.setTranslation( vec );
            }
            else if ( otype == kRotateOperation )
            {
                m.setAxisAngle( vec,
                                DegreesToRadians( op.getChannelValue( 3 ) ) );
            }

        }
        ret = m * ret;
    }

    return ret;
}
//-*****************************************************************************
void xformOut()
{
    OArchive archive( Alembic::AbcCoreOgawa::WriteArchive(), "Xform1.abc" );

    OXform a( OObject( archive, kTop ), "a" );
    OXform b( a, "b" );
    OXform c( b, "c" );
    OXform d( c, "d" );
    OXform e( d, "e" );
    OXform f( e, "f" );
    OXform g( f, "g" );

    XformOp transop( kTranslateOperation, kTranslateHint );
    XformOp scaleop( kScaleOperation, kScaleHint );
    XformOp matrixop( kMatrixOperation, kMatrixHint );

    TESTING_ASSERT( a.getSchema().getNumSamples() == 0 );

    OBox3dProperty childBounds = a.getSchema().getChildBoundsProperty();

    XformSample asamp;
    for ( size_t i = 0; i < 20; ++i )
    {
        asamp.addOp( transop, V3d( 12.0, i + 42.0, 20.0 ) );

        if ( i >= 18 )
        {
            childBounds.set( Abc::Box3d( V3d( -1.0, -1.0, -1.0 ),
                                         V3d( 1.0, 1.0, 1.0 ) ) );
        }
        else
        {
            childBounds.set( Abc::Box3d() );
        }

        a.getSchema().set( asamp );
    }

    XformSample bsamp;
    for ( size_t i = 0 ; i < 20 ; ++i )
    {
        bsamp.setInheritsXforms( (bool)(i&1) );

        b.getSchema().set( bsamp );
    }

    // for c we write nothing

    XformSample dsamp;
    dsamp.addOp( scaleop, V3d( 3.0, 6.0, 9.0 ) );
    d.getSchema().set( dsamp );

    XformSample esamp;
    M44d identmat;
    identmat.makeIdentity();

    esamp.addOp( transop, V3d( 0.0, 0.0, 0.0 ) );
    esamp.addOp( XformOp( kMatrixOperation, kMatrixHint ), identmat );
    esamp.addOp( scaleop, V3d( 1.0, 1.0, 1.0 ) );
    e.getSchema().set( esamp );

    XformSample fsamp;
    fsamp.addOp( transop, V3d( 3.0, -4.0, 5.0 ) );
    f.getSchema().set( fsamp );

    // this will cause the Xform's values property to be an ArrayProperty,
    // since there will be 20 * 16 channels.
    XformSample gsamp;
    Abc::M44d gmatrix;
    gmatrix.makeIdentity();
    for ( size_t i = 0 ; i < 20 ; ++i )
    {
        gmatrix.x[0][1] = (double)i;
        gsamp.addOp( matrixop, gmatrix );
    }
    g.getSchema().set( gsamp );
}
//-*****************************************************************************
void xformIn()
{
    IArchive archive( Alembic::AbcCoreOgawa::ReadArchive(), "Xform1.abc" );

    Abc::M44d identity;
    XformSample xs;

    IXform a( IObject( archive, kTop ), "a" );
    std::cout << "'a' num samples: " << a.getSchema().getNumSamples() << std::endl;

    TESTING_ASSERT( a.getSchema().getNumOps() == 1 );
    TESTING_ASSERT( a.getSchema().getInheritsXforms() );
    for ( index_t i = 0; i < 20; ++i )
    {
        XformSample xs;
        a.getSchema().get( xs, Abc::ISampleSelector( i ) );
        TESTING_ASSERT( xs.getNumOps() == 1 );
        TESTING_ASSERT( xs[0].isTranslateOp() );
        TESTING_ASSERT( xs[0].isYAnimated() == true );
        TESTING_ASSERT( xs[0].isXAnimated() == false );
        TESTING_ASSERT( xs[0].isZAnimated() == false );

        TESTING_ASSERT( xs.getTranslation() == V3d( 12.0, i+42.0, 20.0 ) );
        TESTING_ASSERT( xs.getMatrix() ==
                        Abc::M44d().setTranslation( V3d(12.0, i+42.0, 20.0)) );
    }

    IXform b( a, "b" );
    b.getSchema().get( xs );
    TESTING_ASSERT( b.getSchema().getTimeSampling()->getTimeSamplingType().isUniform() );
    // the schema is not static, because set() was called 20 times on it.
    TESTING_ASSERT( !b.getSchema().isConstant() );
    TESTING_ASSERT( b.getSchema().getNumSamples() == 20 );
    TESTING_ASSERT( xs.getNumOps() == 0 );
    TESTING_ASSERT( b.getSchema().getNumOps() == 0 );
    TESTING_ASSERT( xs.getMatrix() == identity );
    for (size_t i = 0; i < 20; ++i)
    {
        AbcA::index_t j = i;
        TESTING_ASSERT( b.getSchema().getInheritsXforms( ISampleSelector( j ) )
                        == (i&1) );
    }

    IXform c( b, "c" );
    xs = c.getSchema().getValue();
    TESTING_ASSERT( xs.getNumOps() == 0 );
    TESTING_ASSERT( c.getSchema().getNumOps() == 0 );
    TESTING_ASSERT( xs.getMatrix() == identity );
    TESTING_ASSERT( c.getSchema().getInheritsXforms() );
    TESTING_ASSERT( c.getSchema().isConstantIdentity() );


    IXform d( c, "d" );
    xs = d.getSchema().getValue();
    TESTING_ASSERT( xs.getNumOps() == 1 );
    TESTING_ASSERT( d.getSchema().getNumOps() == 1 );
    TESTING_ASSERT( xs[0].isScaleOp() );
    TESTING_ASSERT( ! ( xs[0].isXAnimated() || xs[0].isYAnimated()
                        || xs[0].isZAnimated() ) );
    TESTING_ASSERT( xs.getScale().equalWithAbsError( V3d( 3.0, 6.0, 9.0 ),
                                                     VAL_EPSILON ) );
    TESTING_ASSERT( xs.getMatrix() ==
                    Abc::M44d().setScale( V3d(3.0, 6.0, 9.0)) );
    TESTING_ASSERT( d.getSchema().getInheritsXforms() );

    IXform e( d, "e" );
    TESTING_ASSERT( e.getSchema().isConstantIdentity() );
    TESTING_ASSERT( e.getSchema().isConstant() );
    TESTING_ASSERT( e.getSchema().getNumOps() == 3 );

    IXform f( e, "f" );
    TESTING_ASSERT( f.getSchema().isConstant() ); // is constant
    TESTING_ASSERT( ! f.getSchema().isConstantIdentity() ); // not identity

    IXform g( f, "g" );
    Abc::M44d gmatrix;
    gmatrix.makeIdentity();
    XformSample gsamp = g.getSchema().getValue();
    TESTING_ASSERT( gsamp.getNumOps() == 20 );
    TESTING_ASSERT( gsamp.getNumOpChannels() == 20 * 16 );
    TESTING_ASSERT( g.getSchema().getNumSamples() == 1 );
    TESTING_ASSERT( g.getSchema().isConstant() );
    TESTING_ASSERT( !g.getSchema().isConstantIdentity() );
    for ( size_t i = 0 ; i < 20 ; ++i )
    {
        TESTING_ASSERT( gsamp[i].getChannelValue( 1 ) == (double)i );
    }

    std::cout << "Tested all xforms in first test!" << std::endl;

}