Base::Base(){
nombre_obj = "Base";
Tupla3f a(-1,0,1), b(-1,0,-1), c(1,0,-1), d(1,0,1), e(-1,0.5,1), f(-1,0.5,-1), g(1,0.5,-1), h(1,0.5,1);
vertices.push_back(a);
vertices.push_back(b);
vertices.push_back(c);
vertices.push_back(d);
vertices.push_back(e);
vertices.push_back(f);
vertices.push_back(g);
vertices.push_back(h);
Tupla3i i1(0,7,4), i2(0,3,7), i3(3,6,7), i4(3,2,6), i5(2,5,6), i6(2,1,5), i7(1,4,5), i8(1,0,4), i9(4,6,7), i10(4,6,5),
i11(0,2,1),i12(0,3,2);
caras.push_back(i1);
caras.push_back(i2);
caras.push_back(i3);
caras.push_back(i4);
caras.push_back(i5);
caras.push_back(i6);
caras.push_back(i7);
caras.push_back(i8);
caras.push_back(i9);
caras.push_back(i10);
caras.push_back(i11);
caras.push_back(i12);
}
static void TestInteger32()
{
// constructors
SnmpInt32 i1;
ACE_ASSERT(i1 == def);
SnmpInt32 i2(l);
ACE_ASSERT(i2 == l);
SnmpInt32 i3(nl);
ACE_ASSERT(i3 == nl);
SnmpInt32 i4(ul);
ACE_ASSERT(i4 == ul);
SnmpInt32 i5(i);
ACE_ASSERT(i5 == i);
SnmpInt32 i6(ni);
ACE_ASSERT(i6 == ni);
SnmpInt32 i7(ui);
ACE_ASSERT(i7 == ui);
SnmpInt32 *i8 = new SnmpInt32(i5);
ACE_ASSERT(i8 != 0);
delete i8;
ACE_DEBUG ((LM_DEBUG, "(%P|%t) i1(\"\") [%u]\n",
(unsigned long)i1));
ACE_DEBUG ((LM_DEBUG, "(%P|%t) i2(\"%u\") [%u]\n",
l, (unsigned long)i2));
ACE_DEBUG ((LM_DEBUG, "(%P|%t) i3(\"%u\") [%u]\n",
nl, (unsigned long)i3));
ACE_DEBUG ((LM_DEBUG, "(%P|%t) i4(\"%u\") [%u]\n",
ul, (unsigned long)i4));
ACE_DEBUG ((LM_DEBUG, "(%P|%t) i5(\"%u\") [%u]\n",
i, (unsigned long)i5));
ACE_DEBUG ((LM_DEBUG, "(%P|%t) i6(\"%u\") [%u]\n",
ni, (unsigned long)i6));
ACE_DEBUG ((LM_DEBUG, "(%P|%t) i7(\"%u\") [%u]\n",
ui, (unsigned long)i7));
// assignent
i1 = i2; // obj
ACE_ASSERT(i1 == i2);
i1 = i1; // self
ACE_ASSERT(i1 == i1);
i1 = def; // unsigned long
ACE_ASSERT(i1 == def);
i1 = us; // unsigned short
ACE_ASSERT(i1 == us);
i1 = si; // unsigned short
ACE_ASSERT(i1 == si);
}
void MarchingCubeTriangulator::Triangulate(ScalarFieldBuilders::ScalarFieldCreator& inData,const SpatialDiscretization::weight_t& volId, progressOperation& mainProcess)
{
weigh_parameters_t weigh_parameters;
weigh_parameters.volId=volId;
BeginFeedingFaces();
ivec3 coordinates;
long cellCount_m_one(inData.GetDomainSize()-1);
ivec3 i1(1,0,0),
i2(1,0,1),
i3(0,0,1),
i4(0,1,0),
i5(1,1,0),
i6(1,1,1),
i7(0,1,1);
PolygoniseAlgo::GRIDCELL grid;
PolygoniseAlgo::TRIANGLE triList[5];
int nbtri;
progressOperation thisProcess(&mainProcess, (unsigned int) (cellCount_m_one * cellCount_m_one));
for(coordinates.x=0;coordinates.x<cellCount_m_one;coordinates.x++)
{
for(coordinates.y=0;coordinates.y<cellCount_m_one;coordinates.y++)
{
progressOperation thisSubProcess(&thisProcess,1);
if(VariationWithinFourZ(ivec2(coordinates.x,coordinates.y),inData))
{
grid.p[3] = inData.GetCenterCellCoordinates(coordinates+i3);
grid.p[2] = inData.GetCenterCellCoordinates(coordinates+i2);
grid.p[7] = inData.GetCenterCellCoordinates(coordinates+i7);
grid.p[6] = inData.GetCenterCellCoordinates(coordinates+i6);
grid.val[3]=WeightEvaluation(inData.GetMatrixValue(coordinates),weigh_parameters);
grid.val[2]=WeightEvaluation(inData.GetMatrixValue(coordinates+i1),weigh_parameters);
grid.val[7]=WeightEvaluation(inData.GetMatrixValue(coordinates+i4),weigh_parameters);
grid.val[6]=WeightEvaluation(inData.GetMatrixValue(coordinates+i5),weigh_parameters);
for(coordinates.z=0;coordinates.z<cellCount_m_one;coordinates.z++)
{
//TODO Computation on x,y loop
grid.p[0] = grid.p[3];
grid.p[1] = grid.p[2];
grid.p[4]= grid.p[7];
grid.p[5] = grid.p[6];
grid.p[2] = inData.GetCenterCellCoordinates(coordinates+i2);
grid.p[3] = inData.GetCenterCellCoordinates(coordinates+i3);
grid.p[6] = inData.GetCenterCellCoordinates(coordinates+i6);
grid.p[7] = inData.GetCenterCellCoordinates(coordinates+i7);
grid.val[0]=grid.val[3];
grid.val[1]=grid.val[2];
grid.val[4]=grid.val[7];
grid.val[5]=grid.val[6];
grid.val[2]=WeightEvaluation(inData.GetMatrixValue(coordinates+i2),weigh_parameters);
grid.val[3]=WeightEvaluation(inData.GetMatrixValue(coordinates+i3),weigh_parameters);
grid.val[6]=WeightEvaluation(inData.GetMatrixValue(coordinates+i6),weigh_parameters);
grid.val[7]=WeightEvaluation(inData.GetMatrixValue(coordinates+i7),weigh_parameters);
nbtri=PolygoniseAlgo::Polygonise(grid,0,triList);
if(nbtri>0)
{
for(int idtri=0;idtri<nbtri;idtri++)
{
AddFace((const decimal *)&(triList[idtri].p[2]),
(const decimal *)&(triList[idtri].p[1]),
(const decimal *)&(triList[idtri].p[0]));
}
}
}
}
}
}
FinishFeedingFaces();
}
void t()
{
i7(0,1,2,3,4,5,6);
}
//-----------------------------------------------------------------------------
//!
//-----------------------------------------------------------------------------
tApTurnSelectWidgetAC1242AC7080::tApTurnSelectWidgetAC1242AC7080( tPilotController& pilotDevice, QWidget* parent )
: tApWidget( pilotDevice, parent ),
m_RequestedTurn( tPilotCommandInterface::PILOT_MODE_STANDBY )
{
m_pGridMenu = new tGridMenu( 3, 3, this, false );
m_pGridMenu->SetIndexing( true );
setFocusProxy( m_pGridMenu );
QFont f = font();
f.setPixelSize( style()->pixelMetric( NPM( tNOSStyle::NPM_FontSizeSmallest ) ) );
m_pGridMenu->setFont( f );
QAction* pUTurnAction = new QAction( this );
QIcon i( QPixmap( tPath::ResourceFile( "simrad/autopilot/uturn.png" ) ) );
pUTurnAction->setText( m_PilotDevice.GetCommandInterface()->ModeAbbreviation( tPilotCommandInterface::PILOT_MODE_U_TURN ) );
pUTurnAction->setIcon( i );
pUTurnAction->setProperty( "turnID", (int)tPilotCommandInterface::PILOT_MODE_U_TURN );
m_pGridMenu->AddAction( pUTurnAction, true );
Connect( pUTurnAction, SIGNAL( triggered() ), this, SLOT( OnTurnAction() ) );
QAction* pCTurnAction = new QAction( this );
QIcon i2( QPixmap( tPath::ResourceFile( "simrad/autopilot/cturn.png" ) ) );
pCTurnAction->setText( m_PilotDevice.GetCommandInterface()->ModeAbbreviation( tPilotCommandInterface::PILOT_MODE_C_TURN ) );
pCTurnAction->setIcon( i2 );
pCTurnAction->setProperty( "turnID", (int)tPilotCommandInterface::PILOT_MODE_C_TURN );
m_pGridMenu->AddAction( pCTurnAction, true );
Connect( pCTurnAction, SIGNAL( triggered() ), this, SLOT( OnTurnAction() ) );
QAction* pSpiralAction = new QAction( this );
QIcon i3( QPixmap( tPath::ResourceFile( "simrad/autopilot/spiral.png" ) ) );
pSpiralAction->setText( m_PilotDevice.GetCommandInterface()->ModeAbbreviation( tPilotCommandInterface::PILOT_MODE_SPIRAL ) );
pSpiralAction->setIcon( i3 );
pSpiralAction->setProperty( "turnID", (int)tPilotCommandInterface::PILOT_MODE_SPIRAL );
m_pGridMenu->AddAction( pSpiralAction, true );
Connect( pSpiralAction, SIGNAL( triggered() ), this, SLOT( OnTurnAction() ) );
QAction* pZigzagAction = new QAction( this );
QIcon i4( QPixmap( tPath::ResourceFile( "simrad/autopilot/zigzag.png" ) ) );
pZigzagAction->setText( m_PilotDevice.GetCommandInterface()->ModeAbbreviation( tPilotCommandInterface::PILOT_MODE_ZIGZAG ) );
pZigzagAction->setIcon( i4 );
pZigzagAction->setProperty( "turnID", (int)tPilotCommandInterface::PILOT_MODE_ZIGZAG );
m_pGridMenu->AddAction( pZigzagAction, true );
Connect( pZigzagAction, SIGNAL( triggered() ), this, SLOT( OnTurnAction() ) );
QAction* pSquareAction = new QAction( this );
QIcon i5( QPixmap( tPath::ResourceFile( "simrad/autopilot/square.png" ) ) );
pSquareAction->setText( m_PilotDevice.GetCommandInterface()->ModeAbbreviation( tPilotCommandInterface::PILOT_MODE_SQUARE ) );
pSquareAction->setIcon( i5 );
pSquareAction->setProperty( "turnID", (int)tPilotCommandInterface::PILOT_MODE_SQUARE );
m_pGridMenu->AddAction( pSquareAction, true );
Connect( pSquareAction, SIGNAL( triggered() ), this, SLOT( OnTurnAction() ) );
QAction* pLazySAction = new QAction( this );
QIcon i6( QPixmap( tPath::ResourceFile( "simrad/autopilot/lazys.png" ) ) );
pLazySAction->setText( m_PilotDevice.GetCommandInterface()->ModeAbbreviation( tPilotCommandInterface::PILOT_MODE_LAZY_S ) );
pLazySAction->setIcon( i6 );
pLazySAction->setProperty( "turnID", (int)tPilotCommandInterface::PILOT_MODE_LAZY_S );
m_pGridMenu->AddAction( pLazySAction, true );
Connect( pLazySAction, SIGNAL( triggered() ), this, SLOT( OnTurnAction() ) );
QAction* pDCTAction = new QAction( this );
QIcon i7( QPixmap( tPath::ResourceFile( "simrad/autopilot/depth.png" ) ) );
pDCTAction->setText( m_PilotDevice.GetCommandInterface()->ModeAbbreviation( tPilotCommandInterface::PILOT_MODE_DEPTH_CONTOUR ) );
pDCTAction->setIcon( i7 );
pDCTAction->setProperty( "turnID", (int)tPilotCommandInterface::PILOT_MODE_DEPTH_CONTOUR );
m_pGridMenu->InsertAction( pDCTAction, 2, 1, true );
Connect( pDCTAction, SIGNAL( triggered() ), this, SLOT( OnTurnAction() ) );
QVBoxLayout* pMainLayout = new QVBoxLayout();
pMainLayout->setContentsMargins( 5, 5, 5, 5 );
pMainLayout->setSpacing( 5 );
pMainLayout->addWidget( m_pGridMenu, 0 );
setLayout( pMainLayout );
m_pGridMenu->SetSelectedItem( 1, 1 );
ShowCloseButton();
}
