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Reference Guide
TEveBox.cxx
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1// @(#)root/eve:$Id$
2// Author: Matevz Tadel, 2010
3
4/*************************************************************************
5 * Copyright (C) 1995-2007, Rene Brun and Fons Rademakers. *
6 * All rights reserved. *
7 * *
8 * For the licensing terms see $ROOTSYS/LICENSE. *
9 * For the list of contributors see $ROOTSYS/README/CREDITS. *
10 *************************************************************************/
11
12#include "TEveBox.h"
14
15/** \class TEveBox
16\ingroup TEve
173D box with arbitrary vertices (cuboid).
18Vertices 0-3 specify the "bottom" rectangle in clockwise direction and
19vertices 4-7 the "top" rectangle so that 4 is above 0, 5 above 1 and so on.
20
21If vertices are provided some local coordinates the transformation matrix
22of the element should also be set (but then the memory usage is increased
23by the size of the TEveTrans object).
24
25Currently only supports 3D -> 2D projections.
26*/
27
29
30////////////////////////////////////////////////////////////////////////////////
31/// Constructor.
32
33TEveBox::TEveBox(const char* n, const char* t) :
34 TEveShape(n, t)
35{
36}
37
38////////////////////////////////////////////////////////////////////////////////
39/// Destructor.
40
42{
43}
44
45////////////////////////////////////////////////////////////////////////////////
46/// Set vertex 'i'.
47
49{
50 fVertices[i][0] = x;
51 fVertices[i][1] = y;
52 fVertices[i][2] = z;
53 ResetBBox();
54}
55
56////////////////////////////////////////////////////////////////////////////////
57/// Set vertex 'i'.
58
60{
61 fVertices[i][0] = v[0];
62 fVertices[i][1] = v[1];
63 fVertices[i][2] = v[2];
64 ResetBBox();
65}
66
67////////////////////////////////////////////////////////////////////////////////
68/// Set vertices.
69
71{
72 memcpy(fVertices, vs, sizeof(fVertices));
73 ResetBBox();
74}
75
76
77////////////////////////////////////////////////////////////////////////////////
78/// Compute bounding-box of the data.
79
81{
83
84 BBoxInit();
85 for (Int_t i=0; i<8; ++i)
86 {
88 }
89}
90
91////////////////////////////////////////////////////////////////////////////////
92/// Virtual from TEveProjectable, return TEveBoxProjected class.
93
95{
97}
98
99
100/** \class TEveBoxProjected
101\ingroup TEve
102Projection of TEveBox.
103*/
104
106
108
109////////////////////////////////////////////////////////////////////////////////
110/// Constructor.
111
112TEveBoxProjected::TEveBoxProjected(const char* n, const char* t) :
113 TEveShape(n, t),
114 fBreakIdx(0)
115{
116}
117
118////////////////////////////////////////////////////////////////////////////////
119/// Destructor.
120
122{
123}
124
125////////////////////////////////////////////////////////////////////////////////
126/// Compute bounding-box, virtual from TAttBBox.
127
129{
130 BBoxInit();
131 for (vVector2_i i = fPoints.begin(); i != fPoints.end(); ++i)
132 {
133 BBoxCheckPoint(i->fX, i->fY, fDepth);
134 }
135}
136
137////////////////////////////////////////////////////////////////////////////////
138/// This is virtual method from base-class TEveProjected.
139
141{
142 SetDepthCommon(d, this, fBBox);
143}
144
145////////////////////////////////////////////////////////////////////////////////
146/// This is virtual method from base-class TEveProjected.
147
149{
151 CopyVizParams(dynamic_cast<TEveElement*>(model));
152}
153
154////////////////////////////////////////////////////////////////////////////////
155/// Re-project the box. Projects all points and finds 2D convex-hull.
156///
157/// The only issue is with making sure that initial conditions for
158/// hull-search are reasonable -- that is, there are no overlaps with the
159/// first point.
160
162{
163 TEveBox *box = dynamic_cast<TEveBox*>(fProjectable);
164
165 fDebugPoints.clear();
166
167 // Project points in global CS, remove overlaps.
168 vVector2_t pp[2];
169 {
170 TEveProjection *projection = fManager->GetProjection();
171 TEveTrans *trans = box->PtrMainTrans(kFALSE);
172
173 TEveVector pbuf;
174 for (Int_t i = 0; i < 8; ++i)
175 {
176 projection->ProjectPointfv(trans, box->GetVertex(i), pbuf, fDepth);
177 vVector2_t& ppv = pp[projection->SubSpaceId(pbuf)];
178
179 TEveVector2 p(pbuf);
180 Bool_t overlap = kFALSE;
181 for (vVector2_i j = ppv.begin(); j != ppv.end(); ++j)
182 {
184 {
185 overlap = kTRUE;
186 break;
187 }
188 }
189 if (! overlap)
190 {
191 ppv.push_back(p);
193 fDebugPoints.push_back(p);
194 }
195 }
196 }
197
198 fPoints.clear();
199 fBreakIdx = 0;
200
201 if ( ! pp[0].empty())
202 {
203 FindConvexHull(pp[0], fPoints, this);
204 }
205 if ( ! pp[1].empty())
206 {
207 fBreakIdx = fPoints.size();
208 FindConvexHull(pp[1], fPoints, this);
209 }
210}
211
212////////////////////////////////////////////////////////////////////////////////
213/// Get state of fgDebugCornerPoints static.
214
216{
217 return fgDebugCornerPoints;
218}
219
220////////////////////////////////////////////////////////////////////////////////
221/// Set state of fgDebugCornerPoints static.
222/// When this is true, points will be drawn at the corners of
223/// computed convex hull.
224
226{
228}
void Class()
Definition: Class.C:29
SVector< double, 2 > v
Definition: Dict.h:5
#define d(i)
Definition: RSha256.hxx:102
int Int_t
Definition: RtypesCore.h:41
const Bool_t kFALSE
Definition: RtypesCore.h:88
bool Bool_t
Definition: RtypesCore.h:59
float Float_t
Definition: RtypesCore.h:53
const Bool_t kTRUE
Definition: RtypesCore.h:87
#define ClassImp(name)
Definition: Rtypes.h:365
void BBoxCheckPoint(Float_t x, Float_t y, Float_t z)
Definition: TAttBBox.h:58
void ResetBBox()
Definition: TAttBBox.h:46
void BBoxInit(Float_t infinity=1e6)
Dynamic Float_t[6] X(min,max), Y(min,max), Z(min,max)
Definition: TAttBBox.cxx:29
Float_t * fBBox
Definition: TAttBBox.h:20
TClass instances represent classes, structs and namespaces in the ROOT type system.
Definition: TClass.h:75
Projection of TEveBox.
Definition: TEveBox.h:58
virtual void SetProjection(TEveProjectionManager *mng, TEveProjectable *model)
This is virtual method from base-class TEveProjected.
Definition: TEveBox.cxx:148
static Bool_t GetDebugCornerPoints()
Get state of fgDebugCornerPoints static.
Definition: TEveBox.cxx:215
static void SetDebugCornerPoints(Bool_t d)
Set state of fgDebugCornerPoints static.
Definition: TEveBox.cxx:225
virtual void ComputeBBox()
Compute bounding-box, virtual from TAttBBox.
Definition: TEveBox.cxx:128
static Bool_t fgDebugCornerPoints
Definition: TEveBox.h:72
Int_t fBreakIdx
Definition: TEveBox.h:67
TEveBoxProjected(const TEveBoxProjected &)
virtual void SetDepthLocal(Float_t d)
This is virtual method from base-class TEveProjected.
Definition: TEveBox.cxx:140
virtual ~TEveBoxProjected()
Destructor.
Definition: TEveBox.cxx:121
virtual void UpdateProjection()
Re-project the box.
Definition: TEveBox.cxx:161
vVector2_t fDebugPoints
Definition: TEveBox.h:68
vVector2_t fPoints
Definition: TEveBox.h:66
3D box with arbitrary vertices (cuboid).
Definition: TEveBox.h:22
TEveBox(const TEveBox &)
void SetVertices(const Float_t *vs)
Set vertices.
Definition: TEveBox.cxx:70
virtual ~TEveBox()
Destructor.
Definition: TEveBox.cxx:41
void SetVertex(Int_t i, Float_t x, Float_t y, Float_t z)
Set vertex 'i'.
Definition: TEveBox.cxx:48
Float_t fVertices[8][3]
Definition: TEveBox.h:30
virtual TClass * ProjectedClass(const TEveProjection *p) const
Virtual from TEveProjectable, return TEveBoxProjected class.
Definition: TEveBox.cxx:94
virtual void ComputeBBox()
Compute bounding-box of the data.
Definition: TEveBox.cxx:80
Base class for TEveUtil visualization elements, providing hierarchy management, rendering control and...
Definition: TEveElement.h:34
Abstract base-class for non-linear projectable objects.
TEveProjectable * fProjectable
TEveProjectionManager * fManager
virtual void SetProjection(TEveProjectionManager *mng, TEveProjectable *model)
Sets projection manager and reference in the projectable object.
void SetDepthCommon(Float_t d, TEveElement *el, Float_t *bbox)
Utility function to update the z-values of the bounding-box.
Manager class for steering of projections and managing projected objects.
TEveProjection * GetProjection()
Base-class for non-linear projections.
virtual Int_t SubSpaceId(const TEveVector &) const
static Float_t fgEpsSqr
void ProjectPointfv(Float_t *v, Float_t d)
Project float array.
Abstract base-class for 2D/3D shapes.
Definition: TEveShape.h:25
static Int_t FindConvexHull(const vVector2_t &pin, vVector2_t &pout, TEveElement *caller=0)
Determines the convex-hull of points in pin.
Definition: TEveShape.cxx:117
virtual void CopyVizParams(const TEveElement *el)
Copy visualization parameters from element el.
Definition: TEveShape.cxx:70
std::vector< TEveVector2 >::iterator vVector2_i
Definition: TEveShape.h:34
static void CheckAndFixBoxOrientationFv(Float_t box[8][3])
Make sure box orientation is consistent with standard arrangement.
Definition: TEveShape.cxx:261
std::vector< TEveVector2 > vVector2_t
Definition: TEveShape.h:33
TEveTrans is a 4x4 transformation matrix for homogeneous coordinates stored internally in a column-ma...
Definition: TEveTrans.h:27
Minimal, templated two-vector.
Definition: TEveVector.h:310
TT SquareDistance(const TEveVector2T &v) const
Definition: TEveVector.h:385
void box(Int_t pat, Double_t x1, Double_t y1, Double_t x2, Double_t y2)
Definition: fillpatterns.C:1
Double_t y[n]
Definition: legend1.C:17
Double_t x[n]
Definition: legend1.C:17
const Int_t n
Definition: legend1.C:16