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cxSliceProxy.cpp
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1 /*=========================================================================
2 This file is part of CustusX, an Image Guided Therapy Application.
3 
4 Copyright (c) 2008-2014, SINTEF Department of Medical Technology
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32 
33 
34 #include "cxSliceProxy.h"
35 
36 #include <math.h>
37 #include "cxTypeConversions.h"
38 #include "cxPatientModelService.h"
39 #include "cxSliceComputer.h"
40 #include "cxTool.h"
41 
42 namespace cx
43 {
44 
46 {
47  SliceProxyPtr retval(new SliceProxy(dataManager));
48  return retval;
49 }
50 
51 SliceProxy::SliceProxy(PatientModelServicePtr dataManager) :
52  mCutplane(new SliceComputer())
53 {
54  mDataManager = dataManager;
55  mAlwaysUseDefaultCenter = false;
56  mUseTooltipOffset = true;
57  connect(mDataManager.get(), SIGNAL(centerChanged()),this, SLOT(centerChangedSlot()) ) ;
58  connect(mDataManager.get(), SIGNAL(clinicalApplicationChanged()), this, SLOT(clinicalApplicationChangedSlot()));
59  //TODO connect to toolmanager rMpr changed
60  mDefaultCenter = mDataManager->getCenter();
61  this->centerChangedSlot();
62 
63  this->initCutplane();
64 }
65 
67 {
68 }
69 
70 void SliceProxy::initCutplane()
71 {
72  mCutplane->setFixedCenter(mDefaultCenter);
73  mCutplane->setToolPosition(getSyntheticToolPos(mDefaultCenter));
74 }
75 
77 {
78  if (mTool)
79  {
80  disconnect(mTool.get(), SIGNAL(toolTransformAndTimestamp(Transform3D,double)), this, SLOT(toolTransformAndTimestampSlot(Transform3D,double)));
81  disconnect(mTool.get(), SIGNAL(toolVisible(bool)), this, SLOT(toolVisibleSlot(bool)));
82  disconnect(mTool.get(), SIGNAL(tooltipOffset(double)), this, SLOT(tooltipOffsetSlot(double)));
83  disconnect(mTool.get(), SIGNAL(toolProbeSector()), this, SLOT(changed()));
84  }
85 
86  mTool = tool;
87 
88  if (mTool)
89  {
90  connect(mTool.get(), SIGNAL(toolTransformAndTimestamp(Transform3D,double)), this, SLOT(toolTransformAndTimestampSlot(Transform3D,double)));
91  connect(mTool.get(), SIGNAL(toolVisible(bool)), this, SLOT(toolVisibleSlot(bool)));
92  connect(mTool.get(), SIGNAL(tooltipOffset(double)), this, SLOT(tooltipOffsetSlot(double)));
93  connect(mTool.get(), SIGNAL(toolProbeSector()), this, SLOT(changed()));
94 
95  emit toolVisible(mTool->getVisible());
96  toolTransformAndTimestampSlot(mTool->get_prMt(), 0); // initial values
97  tooltipOffsetSlot(mTool->getTooltipOffset());
98  }
99 
100  this->centerChangedSlot(); // force center update for tool==0
101  this->changed();
102 }
103 
104 void SliceProxy::toolTransformAndTimestampSlot(Transform3D prMt, double timestamp)
105 {
106  //std::cout << "proxy get transform" << std::endl;
107  Transform3D rMpr = mDataManager->get_rMpr();
108  Transform3D rMt = rMpr*prMt;
109 // if (similar(rMt, mCutplane->getToolPosition()))
110 // {
111 // return;
112 // }
113  mCutplane->setToolPosition(rMt);
114  this->changed();
115  emit toolTransformAndTimestamp(prMt, timestamp);
116 
117 }
118 
119 void SliceProxy::tooltipOffsetSlot(double val)
120 {
121  if (mUseTooltipOffset)
122  {
123  mCutplane->setToolOffset(val);
124  this->changed();
125  }
126 }
127 
129 {
130  if (!use)
131  {
132  tooltipOffsetSlot(0);
133  }
134  mUseTooltipOffset = use;
135  if (use)
136  {
137  tooltipOffsetSlot(mTool->getTooltipOffset());
138  }
139 }
140 
141 void SliceProxy::toolVisibleSlot(bool visible)
142 {
143 
144 }
145 
148 Transform3D SliceProxy::getSyntheticToolPos(const Vector3D& center) const
149 {
152  return T_c * R_tq;
153 }
154 
156 {
157  mDefaultCenter = c;
158  this->centerChangedSlot();
159 }
160 
162 {
163  mAlwaysUseDefaultCenter = on;
164  this->centerChangedSlot();
165 }
166 
167 void SliceProxy::centerChangedSlot()
168 {
169  if (mAlwaysUseDefaultCenter)
170  {
171  mCutplane->setFixedCenter(mDefaultCenter);
172  }
173  else if (mTool)
174  {
175  Vector3D c = mDataManager->getCenter();
176  mCutplane->setFixedCenter(c);
177  //std::cout << "center changed: " + string_cast(c) << std::endl;
178  }
179 
180  changed();
181 }
182 
183 void SliceProxy::clinicalApplicationChangedSlot()
184 {
185  mCutplane->setClinicalApplication(mDataManager->getClinicalApplication());
186  changed();
187 }
188 
191 void SliceProxy::initializeFromPlane(PLANE_TYPE plane, bool useGravity, const Vector3D& gravityDir, bool useViewOffset, double viewportHeight, double toolViewOffset, bool useConstrainedViewOffset)
192 {
193  mCutplane->initializeFromPlane(plane,
194  useGravity, gravityDir,
195  useViewOffset, viewportHeight, toolViewOffset,
196  mDataManager->getClinicalApplication(),
197  useConstrainedViewOffset);
198  changed();
199 // setPlane(plane);
200 // //Logger::log("vm.log"," set plane to proxy ");
201 // if (plane == ptSAGITTAL || plane == ptCORONAL || plane == ptAXIAL )
202 // {
203 // setOrientation(otORTHOGONAL);
204 // setFollowType(ftFIXED_CENTER);
205 // }
206 // else if (plane == ptANYPLANE || plane==ptRADIALPLANE || plane==ptSIDEPLANE)
207 // {
208 // setOrientation(otOBLIQUE);
209 // setFollowType(ftFOLLOW_TOOL);
210 //
211 // setGravity(useGravity, gravityDir);
212 // setToolViewOffset(useViewOffset, viewportHeight, toolViewOffset); // TODO finish this one
213 // }
214 }
215 
217 {
218  return *mCutplane;
219 }
220 
222 {
223  mCutplane.reset(new SliceComputer(val));
224  changed();
225 }
226 
227 void SliceProxy::setOrientation(ORIENTATION_TYPE orientation)
228 {
229  mCutplane->setOrientationType(orientation);
230  changed();
231 }
232 
233 void SliceProxy::setPlane(PLANE_TYPE plane)
234 {
235  mCutplane->setPlaneType(plane);
236  changed();
237 }
238 
239 void SliceProxy::setFollowType(FOLLOW_TYPE followType)
240 {
241  mCutplane->setFollowType(followType);
242  changed();
243 }
244 
245 void SliceProxy::setGravity(bool use, const Vector3D& dir)
246 {
247  mCutplane->setGravity(use, dir);
248  this->changed();
249 }
250 void SliceProxy::setToolViewOffset(bool use, double viewportHeight, double toolViewOffset, bool useConstrainedViewOffset)
251 {
252  mCutplane->setToolViewOffset(use, viewportHeight, toolViewOffset, useConstrainedViewOffset);
253  this->changed();
254 }
255 
256 void SliceProxy::setToolViewportHeight(double viewportHeight)
257 {
258  mCutplane->setToolViewportHeight(viewportHeight);
259  this->changed();
260 }
261 
263 {
264  return mTool;
265 }
266 
268 {
269  SlicePlane plane = mCutplane->getPlane();
270  //std::cout << "---" << " proxy get transform.c : " << plane.c << std::endl;
271  //std::cout << "proxy get transform -" << getName() <<":\n" << plane << std::endl;
272  return createTransformIJC(plane.i, plane.j, plane.c).inv();
273 }
274 
275 void SliceProxy::changed()
276 {
277  emit transformChanged(get_sMr());
278 }
279 
280 void SliceProxy::printSelf(std::ostream & os, Indent indent)
281 {
282  os << indent << "sliceproxy" << std::endl;
283  os << indent << "sMr: " << std::endl;
284  get_sMr().put(os, indent.getIndent()+3);
285  os << std::endl;
286 }
287 
288 } // namespace cx
void setTool(ToolPtr tool)
Vector3D j
defines the second axis of the plane. unit vector
Provides a slice matrix based on definition and tool.
Definition: cxSliceProxy.h:102
Transform3D createTransformRotateY(const double angle)
static SliceProxyPtr create(PatientModelServicePtr dataManager)
int getIndent() const
Definition: cxIndent.cpp:44
A 2D slice plane in 3D. i,j are perpendicular unit vectors.
void setToolViewportHeight(double viewportHeight)
virtual void printSelf(std::ostream &os, Indent indent)
void setPlane(PLANE_TYPE plane)
Transform3D Transform3D
Transform3D is a representation of an affine 3D transform.
boost::shared_ptr< class SliceProxy > SliceProxyPtr
void setComputer(const SliceComputer &val)
void setAlwaysUseDefaultCenter(bool on)
void setGravity(bool use, const Vector3D &dir)
void initializeFromPlane(PLANE_TYPE plane, bool useGravity, const Vector3D &gravityDir, bool useViewOffset, double viewportHeight, double toolViewOffset, bool useConstrainedViewOffset=false)
SliceComputer getComputer() const
void setUseTooltipOffset(bool)
Enable or disable usage of the tools tool tip offset for this slice proxy.
void toolVisible(bool visible)
forwarding of visible in tool
Transform3D createTransformIJC(const Vector3D &ivec, const Vector3D &jvec, const Vector3D &center)
Vector3D c
defines the center of the plane
void transformChanged(Transform3D sMr)
emitted when transform is changed.
virtual Transform3D get_sMr()
get slice transform, i.e. the matrix sMr transforming a point p in ref to slice space.
void setFollowType(FOLLOW_TYPE followType)
boost::shared_ptr< class PatientModelService > PatientModelServicePtr
Formatting class for debug printing of the ssc library.
Definition: cxIndent.h:49
Transform3D createTransformTranslate(const Vector3D &translation)
virtual ~SliceProxy()
void setToolViewOffset(bool use, double viewportHeight, double toolViewOffset, bool useConstrainedViewOffset=false)
Eigen::Vector3d Vector3D
Vector3D is a representation of a point or vector in 3D.
Definition: cxVector3D.h:63
ToolPtr getTool()
Vector3D i
defines the first axis of the plane. unit vector
Calculates a slice plane given a definition.
void setOrientation(ORIENTATION_TYPE orientation)
Transform3D createTransformRotateZ(const double angle)
void setDefaultCenter(const Vector3D &c)
void toolTransformAndTimestamp(Transform3D prMt, double timestamp)
forwarded from tool
#define M_PI
boost::shared_ptr< class Tool > ToolPtr