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cxMemoryTester.cpp
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1 /*=========================================================================
2 This file is part of CustusX, an Image Guided Therapy Application.
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32 
33 #include "cxMemoryTester.h"
34 #include <vtkImageData.h>
35 #include <vtkUnsignedCharArray.h>
36 #include <vtkPointData.h>
37 
38 namespace cx
39 {
40 
41 vtkImageDataPtr MemHolder::generateVtkImageData()
42 {
43  int dim[3];
44  dim[0] = 1024;
45  dim[1] = 768;
46  dim[2] = 1;
47  int numComp = 3;
48 
49  vtkImageDataPtr data = vtkImageDataPtr::New();
50  data->SetSpacing(1, 1, 1);
51  data->SetExtent(0, dim[0]-1, 0, dim[1]-1, 0, dim[2]-1);
52 // data->SetScalarTypeToUnsignedChar();
53 // data->SetScalarType(VTK_UNSIGNED_CHAR, 3);
54 // data->SetNumberOfScalarComponents(numComp);
55 
56  int scalarSize = dim[0]*dim[1]*dim[2]*numComp;
57 
58  unsigned char *rawchars = (unsigned char*)malloc(scalarSize+1);
59  char initValue = 1;
60  std::fill(rawchars,rawchars+scalarSize, initValue);
61 
62  vtkUnsignedCharArrayPtr array = vtkUnsignedCharArrayPtr::New();
63  array->SetNumberOfComponents(1);
64  //TODO: Whithout the +1 the volume is black
65  array->SetArray(rawchars, scalarSize+1, 0); // take ownership
66  data->GetPointData()->SetScalars(array);
67 
68  // A trick to get a full LUT in Image (automatic LUT generation)
69  // Can't seem to fix this by calling Image::resetTransferFunctions() after volume is modified
70  rawchars[0] = 255;
71  data->GetScalarRange();// Update internal data in vtkImageData. Seems like it is not possible to update this data after the volume has been changed.
72  rawchars[0] = 0;
73 
74  return data;
75 }
76 
78 {
79  int N = 500;
80 
81  std::vector<vtkImageDataPtr> storage;
82  for (unsigned i=0; i<N; ++i)
83  {
84  vtkImageDataPtr data = generateVtkImageData();
85  storage.push_back(data);
86  }
87  std::cout << "generated leak for images=" << N << std::endl;
88 
89 // vtkImageDataPtr temp = vtkImageDataPtr::New();
90 // temp->DeepCopy(mRedirecter->GetOutput());
91 // mTestStorage.push_back(temp);
92 //
93 // if (mTestStorage.size()==500)
94 // {
95 // mTestStorage.clear();
96 // mTestStorageCleared = true;
97 // std::cout << "cleared test storage for vtkImageData leak" << std::endl;
98 // }
99 
100 }
101 
102 //vtkImageDataPtr generateVtkImageData()
103 //{
104 // int dimension = 100; // generate 100^3 = 1Mb volume.
105 //
106 // vtkImageDataPtr data = vtkImageDataPtr::New();
107 // data->SetSpacing(1, 1, 1);
108 // data->SetExtent(0, dimension-1, 0, dimension-1, 0, dimension-1);
109 // data->SetScalarTypeToUnsignedChar();
110 // data->SetNumberOfScalarComponents(1);
111 //
112 // int scalarSize = dimension*dimension*dimension;
113 //
114 // unsigned char *rawchars = (unsigned char*)malloc(scalarSize+1);
115 // char initValue = 1;
116 // std::fill(rawchars,rawchars+scalarSize, initValue);
117 //
118 // vtkUnsignedCharArrayPtr array = vtkUnsignedCharArrayPtr::New();
119 // array->SetNumberOfComponents(1);
120 // //TODO: Whithout the +1 the volume is black
121 // array->SetArray(rawchars, scalarSize+1, 0); // take ownership
122 // data->GetPointData()->SetScalars(array);
123 //
124 // // A trick to get a full LUT in Image (automatic LUT generation)
125 // // Can't seem to fix this by calling Image::resetTransferFunctions() after volume is modified
126 // rawchars[0] = 255;
127 // data->GetScalarRange();// Update internal data in vtkImageData. Seems like it is not possible to update this data after the volume has been changed.
128 // rawchars[0] = 0;
129 //
130 // return data;
131 //}
132 
134 {
135  Block block;
136  int N = 100;
137  for (unsigned i=0; i<N; ++i)
138  {
139  block.mData.push_back(generateVtkImageData());
140  }
141 
142  mBlocks.push_back(block);
143  std::cout << QString("generated memory: %1 Mb, %2 blocks").arg(double(block.mData.front()->GetActualMemorySize() * N) / 1000.0).arg(mBlocks.size()).toStdString() << std::endl;
144  return N;
145 }
146 
148 {
149  mBlocks.pop_back();
150  std::cout << QString("removed one block, %1 left").arg(mBlocks.size()).toStdString() << std::endl;
151  return mBlocks.size();
152 }
153 
154 
155 
156 
157 
158 MemoryTester::MemoryTester(QWidget* parent) : QMainWindow(parent)
159 {
160  mMemory.reset(new MemHolder);
161 
162  this->setWindowTitle("QtSandbox");
163 
164 // mTextEdit = new QPlainTextEdit;
165 // setCentralWidget(mTextEdit);
166  this->setCentralWidget(new QPlainTextEdit);
167 
168  addActions();
169  addToolbar();
170  addMenu();
171  // play with this one:
172  //setUnifiedTitleAndToolBarOnMac(true);
173 
174  createStatusBar();
175 
176 // cx::LayoutEditor* editor = new cx::LayoutEditor(this);
177 // this->setCentralWidget(editor);
178 }
179 
180 void MemoryTester::addActions()
181 {
182  mAction1 = new QAction("Action1", this);
183  mAction1->setIcon(QIcon(":/images/go-home.png"));
184 // mAction1->setIcon(QIcon(":/images/workflow_state_navigation.png"));
185 
186  mAddMemAction = new QAction("AddMem", this);
187  mRemoveMemAction = new QAction("RemMem", this);
188  mLeakAction = new QAction("Leak", this);
189 
190  connect(mAddMemAction, SIGNAL(triggered()), mMemory.get(), SLOT(addBlock()));
191  connect(mRemoveMemAction, SIGNAL(triggered()), mMemory.get(), SLOT(removeBlock()));
192  connect(mLeakAction, SIGNAL(triggered()), mMemory.get(), SLOT(generateLeak()));
193 
194 // mAction2 = new QAction("Action2", this);
196 // mAction2->setIcon(QIcon(":/images/workflow_state_navigation2.png"));
197 
198 // mAction3 = new QAction("Action3", this);
199 // mAction3->setIcon(QIcon(":/images/workflow_state_patient_data.png"));
200 
201 // mAction4 = new QAction("Action4", this);
202 // mAction4->setIcon(QIcon(":/images/workflow_state_patient_data2.png"));
203 
204  mAboutQtAct = new QAction(tr("About &Qt"), this);
205  mAboutQtAct->setStatusTip(tr("Show the Qt library's About box"));
206  connect(mAboutQtAct, SIGNAL(triggered()), qApp, SLOT(aboutQt()));
207 
208  mAboutAct = new QAction(tr("About QtSandbox"), this);
209  mAboutAct->setStatusTip(tr("Show the Application's About box"));
210  connect(mAboutAct, SIGNAL(triggered()), this, SLOT(about()));
211 
212  mCrashAct = new QAction(tr("Color crash"), this);
213  connect(mCrashAct, SIGNAL(triggered()), this, SLOT(colorCrash()));
214 }
215 
216 void MemoryTester::addToolbar()
217 {
218  mToolbar = this->addToolBar("Mytoolbar");
219  mToolbar->addAction(mAction1);
220  mToolbar->addAction(mAddMemAction);
221  mToolbar->addAction(mLeakAction);
222  mToolbar->addAction(mRemoveMemAction);
223 // mToolbar->addAction(mCrashAct);
224 }
225 
226 void MemoryTester::addMenu()
227 {
228  QMenu* fileMenu = menuBar()->addMenu(tr("&File"));
229  fileMenu->addAction(mAction1);
230  fileMenu->addAction(mCrashAct);
231 
232  QMenu* helpMenu = menuBar()->addMenu(tr("&Help"));
233  helpMenu->addAction(mAboutQtAct);
234  helpMenu->addAction(mAboutAct);
235 }
236 
237 
238 void MemoryTester::about()
239 {
240  QMessageBox::about(this, tr("About QtSandbox"),
241  tr("The <b>QtSandbox</b> is a place where you can "
242  "test out nifty Qt features in a small app. Enjoy!"));
243 }
244 
245 void MemoryTester::createStatusBar()
246 {
247  statusBar()->showMessage(tr("Ready"));
248 }
249 
250 void MemoryTester::colorCrash()
251 {
252 #if QT_VERSION >= 0x040500
253  QColorDialog dialog(QColor("white"), this);
254  dialog.exec();
255 #else
256  QColor result = QColorDialog::getColor(QColor("white"), this);
257 #endif
258 }
259 }
std::vector< Block > mBlocks
vtkSmartPointer< class vtkUnsignedCharArray > vtkUnsignedCharArrayPtr
MemoryTester(QWidget *parent=0)
void fill(Eigen::Affine3d *self, vtkMatrix4x4Ptr m)
QToolBar * mToolbar
vtkSmartPointer< class vtkImageData > vtkImageDataPtr
std::vector< vtkImageDataPtr > mData