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REveProjections.hxx
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1// @(#)root/eve7:$Id$
2// Authors: Matevz Tadel & Alja Mrak-Tadel: 2006, 2007
3
4/*************************************************************************
5 * Copyright (C) 1995-2019, 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#ifndef ROOT7_REveProjections
13#define ROOT7_REveProjections
14
15#include <ROOT/REveVector.hxx>
16
17#include <vector>
18#include <string>
19
20namespace ROOT {
21namespace Experimental {
22
23class REveTrans;
24
25///////////////////////////////////////////////////////////////////////////////
26/// REveProjection
27/// Base for specific classes that implement non-linear projections.
28///////////////////////////////////////////////////////////////////////////////
29
30class REveProjection {
31public:
32 enum EPType_e { kPT_Unknown, kPT_RhoZ, kPT_RPhi,
33 kPT_XZ, kPT_YZ, kPT_ZX, kPT_ZY, kPT_3D, kPT_End }; // projection type
34 enum EPProc_e { kPP_Plane, kPP_Distort, kPP_Full }; // projection procedure
35 enum EGeoMode_e { kGM_Unknown, kGM_Polygons, kGM_Segments }; // strategy for geometry projections
36
37 struct PreScaleEntry_t {
38 Float_t fMin{0}, fMax{0};
39 Float_t fOffset{0};
40 Float_t fScale{1};
41
42 PreScaleEntry_t() = default;
43
44 PreScaleEntry_t(Float_t min, Float_t max, Float_t off, Float_t scale)
45 : fMin(min), fMax(max), fOffset(off), fScale(scale)
46 {
47 }
48 };
49
50 typedef std::vector<PreScaleEntry_t> vPreScale_t;
51
52protected:
53 EPType_e fType; // type
54 EGeoMode_e fGeoMode; // strategy of polygon projection (what to try first)
55 std::string fName; // name
56
57 REveVector fCenter; // center of distortion
58
59 bool fDisplaceOrigin; // displace point before projection
60
61 Bool_t fUsePreScale; // use pre-scaling
62 vPreScale_t fPreScales[3]; // scaling before the distortion
63
64 Float_t fDistortion; // distortion
65 Float_t fFixR; // radius from which scaling remains constant
66 Float_t fFixZ; // z-coordinate from which scaling remains constant
67 Float_t fPastFixRFac; // relative scaling factor beyond fFixR as 10^x
68 Float_t fPastFixZFac; // relative scaling factor beyond fFixZ as 10^x
69 Float_t fScaleR; // scale factor to keep projected radius at fFixR fixed
70 Float_t fScaleZ; // scale factor to keep projected z-coordinate at fFixZ fixed
71 Float_t fPastFixRScale; // relative scaling beyond fFixR
72 Float_t fPastFixZScale; // relative scaling beyond fFixZ
73 Float_t fMaxTrackStep; // maximum distance between two points on a track
74
75 void PreScaleVariable(Int_t dim, Float_t &v);
76
77public:
78 REveProjection();
79 virtual ~REveProjection() {}
80
81 virtual Bool_t Is2D() const = 0;
82 virtual Bool_t Is3D() const = 0;
83
84 virtual void ProjectPoint(Float_t &x, Float_t &y, Float_t &z, Float_t d, EPProc_e p = kPP_Full) = 0;
85
86 void ProjectPointfv(Float_t *v, Float_t d);
87 void ProjectPointdv(Double_t *v, Float_t d);
88 void ProjectVector(REveVector &v, Float_t d);
89
90 void ProjectPointfv(const REveTrans *t, const Float_t *p, Float_t *v, Float_t d);
91 void ProjectPointdv(const REveTrans *t, const Double_t *p, Double_t *v, Float_t d);
92 void ProjectVector(const REveTrans *t, REveVector &v, Float_t d);
93
94 const char *GetName() const { return fName.c_str(); }
95 void SetName(const char *txt) { fName = txt; }
96
97 const REveVector &RefCenter() const { return fCenter; }
98 virtual void SetCenter(REveVector &v) { fCenter = v; }
99 virtual Float_t *GetProjectedCenter();
100
101 void SetDisplaceOrigin(bool);
102 Bool_t GetDisplaceOrigin() const { return fDisplaceOrigin; }
103
104 void SetType(EPType_e t) { fType = t; }
105 EPType_e GetType() const { return fType; }
106
107 void SetGeoMode(EGeoMode_e m) { fGeoMode = m; }
108 EGeoMode_e GetGeoMode() const { return fGeoMode; }
109
110 Bool_t GetUsePreScale() const { return fUsePreScale; }
111 void SetUsePreScale(Bool_t x) { fUsePreScale = x; }
112
113 void PreScalePoint(Float_t &x, Float_t &y);
114 void PreScalePoint(Float_t &x, Float_t &y, Float_t &z);
115 void AddPreScaleEntry(Int_t coord, Float_t max_val, Float_t scale);
116 void ChangePreScaleEntry(Int_t coord, Int_t entry, Float_t new_scale);
117 void ClearPreScales();
118
119 void SetDistortion(Float_t d);
120 Float_t GetDistortion() const { return fDistortion; }
121 Float_t GetFixR() const { return fFixR; }
122 Float_t GetFixZ() const { return fFixZ; }
123 void SetFixR(Float_t x);
124 void SetFixZ(Float_t x);
125 Float_t GetPastFixRFac() const { return fPastFixRFac; }
126 Float_t GetPastFixZFac() const { return fPastFixZFac; }
127 void SetPastFixRFac(Float_t x);
128 void SetPastFixZFac(Float_t x);
129 Float_t GetMaxTrackStep() const { return fMaxTrackStep; }
130 void SetMaxTrackStep(Float_t x) { fMaxTrackStep = TMath::Max(x, 1.0f); }
131
132 virtual Bool_t HasSeveralSubSpaces() const { return kFALSE; }
133 virtual Bool_t AcceptSegment(REveVector &, REveVector &, Float_t /*tolerance*/) const { return kTRUE; }
134 virtual Int_t SubSpaceId(const REveVector &) const { return 0; }
135 virtual Bool_t IsOnSubSpaceBoundrary(const REveVector &) const { return kFALSE; }
136 virtual void BisectBreakPoint(REveVector &vL, REveVector &vR, Float_t eps_sqr);
137 virtual void BisectBreakPoint(REveVector &vL, REveVector &vR, Bool_t project_result = kFALSE, Float_t depth = 0);
138 virtual void SetDirectionalVector(Int_t screenAxis, REveVector &vec);
139
140 // utils to draw axis
141 REveVector GetOrthogonalCenter(int idx, REveVector &out);
142 virtual Float_t GetValForScreenPos(Int_t ax, Float_t value);
143 virtual Float_t GetScreenVal(Int_t ax, Float_t value);
144 Float_t GetScreenVal(Int_t i, Float_t x, REveVector &dirVec, REveVector &oCenter);
145 Float_t GetLimit(Int_t i, Bool_t pos);
146
147 static Float_t fgEps; // resolution of projected points
148 static Float_t fgEpsSqr; // square of resolution of projected points
149};
150
151//==============================================================================
152// REveRhoZProjection
153// Rho/Z non-linear projection.
154//==============================================================================
155
156class REveRhoZProjection : public REveProjection {
157private:
158 REveVector fProjectedCenter; // projected center of distortion.
159
160public:
161 REveRhoZProjection();
162 virtual ~REveRhoZProjection() {}
163
164 Bool_t Is2D() const override { return kTRUE; }
165 Bool_t Is3D() const override { return kFALSE; }
166
167 void ProjectPoint(Float_t &x, Float_t &y, Float_t &z, Float_t d, EPProc_e proc = kPP_Full) override;
168
169 void SetCenter(REveVector &v) override;
170 Float_t *GetProjectedCenter() override { return fProjectedCenter.Arr(); }
171
172 Bool_t HasSeveralSubSpaces() const override { return kTRUE; }
173 Bool_t AcceptSegment(REveVector &v1, REveVector &v2, Float_t tolerance) const override;
174 Int_t SubSpaceId(const REveVector &v) const override;
175 Bool_t IsOnSubSpaceBoundrary(const REveVector &v) const override;
176 void SetDirectionalVector(Int_t screenAxis, REveVector &vec) override;
177};
178
179//==============================================================================
180// REveRPhiProjection
181// XY non-linear projection.
182//==============================================================================
183
184class REveRPhiProjection : public REveProjection {
185public:
186 REveRPhiProjection();
187 virtual ~REveRPhiProjection() {}
188
189 Bool_t Is2D() const override { return kTRUE; }
190 Bool_t Is3D() const override { return kFALSE; }
191
192 void ProjectPoint(Float_t &x, Float_t &y, Float_t &z, Float_t d, EPProc_e proc = kPP_Full) override;
193};
194
195//==============================================================================
196// REveXZProjection
197// XZ non-linear projection.
198//==============================================================================
199
200class REveXZProjection : public REveProjection {
201private:
202 REveVector fProjectedCenter; // projected center of distortion.
203
204public:
205 REveXZProjection();
206 virtual ~REveXZProjection() {}
207
208 Bool_t Is2D() const override { return kTRUE; }
209 Bool_t Is3D() const override { return kFALSE; }
210
211 void ProjectPoint(Float_t& x, Float_t& y, Float_t& z, Float_t d, EPProc_e proc = kPP_Full) override;
212
213 void SetCenter(REveVector& v) override;
214 Float_t* GetProjectedCenter() override { return fProjectedCenter.Arr(); }
215
216 void SetDirectionalVector(Int_t screenAxis, REveVector& vec) override;
217};
218
219//==============================================================================
220// REveYZProjection
221// YZ non-linear projection.
222//==============================================================================
223
224class REveYZProjection : public REveProjection {
225private:
226 REveVector fProjectedCenter; // projected center of distortion.
227
228public:
229 REveYZProjection();
230 virtual ~REveYZProjection() {}
231
232 Bool_t Is2D() const override { return kTRUE; }
233 Bool_t Is3D() const override { return kFALSE; }
234
235 void ProjectPoint(Float_t& x, Float_t& y, Float_t& z, Float_t d, EPProc_e proc = kPP_Full) override;
236
237 void SetCenter(REveVector& v) override;
238 Float_t* GetProjectedCenter() override { return fProjectedCenter.Arr(); }
239
240 void SetDirectionalVector(Int_t screenAxis, REveVector& vec) override;
241};
242
243//==============================================================================
244// REveZXProjection
245// ZX non-linear projection.
246//==============================================================================
247
248class REveZXProjection : public REveProjection {
249private:
250 REveVector fProjectedCenter; // projected center of distortion.
251
252public:
253 REveZXProjection();
254 virtual ~REveZXProjection() {}
255
256 Bool_t Is2D() const override { return kTRUE; }
257 Bool_t Is3D() const override { return kFALSE; }
258
259 void ProjectPoint(Float_t& x, Float_t& y, Float_t& z, Float_t d, EPProc_e proc = kPP_Full) override;
260
261 void SetCenter(REveVector& v) override;
262 Float_t* GetProjectedCenter() override { return fProjectedCenter.Arr(); }
263
264 void SetDirectionalVector(Int_t screenAxis, REveVector& vec) override;
265};
266
267//==============================================================================
268// REveZYProjection
269// ZY non-linear projection.
270//==============================================================================
271
272class REveZYProjection : public REveProjection {
273private:
274 REveVector fProjectedCenter; // projected center of distortion.
275
276public:
277 REveZYProjection();
278 virtual ~REveZYProjection() {}
279
280 Bool_t Is2D() const override { return kTRUE; }
281 Bool_t Is3D() const override { return kFALSE; }
282
283 void ProjectPoint(Float_t& x, Float_t& y, Float_t& z, Float_t d, EPProc_e proc = kPP_Full) override;
284
285 void SetCenter(REveVector& v) override;
286 Float_t* GetProjectedCenter() override { return fProjectedCenter.Arr(); }
287
288 void SetDirectionalVector(Int_t screenAxis, REveVector& vec) override;
289};
290
291//==============================================================================
292// REve3DProjection
293// 3D scaling "projection"
294//==============================================================================
295
296class REve3DProjection : public REveProjection {
297public:
298 REve3DProjection();
299 virtual ~REve3DProjection() {}
300
301 Bool_t Is2D() const override { return kFALSE; }
302 Bool_t Is3D() const override { return kTRUE; }
303
304 void ProjectPoint(Float_t &x, Float_t &y, Float_t &z, Float_t d, EPProc_e proc = kPP_Full) override;
305};
306
307} // namespace Experimental
308} // namespace ROOT
309
310#endif
d
#define d(i)
Definition RSha256.hxx:102
Bool_t
bool Bool_t
Definition RtypesCore.h:63
Float_t
float Float_t
Definition RtypesCore.h:57
kFALSE
constexpr Bool_t kFALSE
Definition RtypesCore.h:101
kTRUE
constexpr Bool_t kTRUE
Definition RtypesCore.h:100
p
winID h TVirtualViewer3D TVirtualGLPainter p
Definition TGWin32VirtualGLProxy.cxx:51
value
Option_t Option_t TPoint TPoint const char GetTextMagnitude GetFillStyle GetLineColor GetLineWidth GetMarkerStyle GetTextAlign GetTextColor GetTextSize void value
Definition TGWin32VirtualXProxy.cxx:142
REveTrans
REveTrans is a 4x4 transformation matrix for homogeneous coordinates stored internally in a column-ma...
ROOT::Experimental::REve3DProjection::ProjectPoint
void ProjectPoint(Float_t &x, Float_t &y, Float_t &z, Float_t d, EPProc_e proc=kPP_Full) override
Project point.
Definition REveProjections.cxx:1209
ROOT::Experimental::REveProjection
REveProjection Base for specific classes that implement non-linear projections.
Definition REveProjections.hxx:30
ROOT::Experimental::REveProjection::GetValForScreenPos
virtual Float_t GetValForScreenPos(Int_t ax, Float_t value)
Inverse projection.
Definition REveProjections.cxx:420
ROOT::Experimental::REveProjection::GetScreenVal
virtual Float_t GetScreenVal(Int_t ax, Float_t value)
Project point on given axis and return projected value.
Definition REveProjections.cxx:522
ROOT::Experimental::REveProjection::vPreScale_t
std::vector< PreScaleEntry_t > vPreScale_t
Definition REveProjections.hxx:50
ROOT::Experimental::REveProjection::GetOrthogonalCenter
REveVector GetOrthogonalCenter(int idx, REveVector &out)
Get center ortogonal to given axis index.
Definition REveProjections.cxx:404
ROOT::Experimental::REveProjection::ProjectPointfv
void ProjectPointfv(Float_t *v, Float_t d)
Project float array.
Definition REveProjections.cxx:55
ROOT::Experimental::REveProjection::Is3D
virtual Bool_t Is3D() const =0
ROOT::Experimental::REveProjection::ProjectPointdv
void ProjectPointdv(Double_t *v, Float_t d)
Project double array.
Definition REveProjections.cxx:64
ROOT::Experimental::REveProjection::ProjectVector
void ProjectVector(REveVector &v, Float_t d)
Project REveVector.
Definition REveProjections.cxx:74
ROOT::Experimental::REveProjection::PreScaleVariable
void PreScaleVariable(Int_t dim, Float_t &v)
Pre-scale single variable with pre-scale entry dim.
Definition REveProjections.cxx:130
ROOT::Experimental::REveProjection::ProjectPoint
virtual void ProjectPoint(Float_t &x, Float_t &y, Float_t &z, Float_t d, EPProc_e p=kPP_Full)=0
ROOT::Experimental::REveProjection::SetCenter
virtual void SetCenter(REveVector &v)
Definition REveProjections.hxx:98
ROOT::Experimental::REveProjection::GetLimit
Float_t GetLimit(Int_t i, Bool_t pos)
ROOT::Experimental::REveProjection::Is2D
virtual Bool_t Is2D() const =0
ROOT::Experimental::REveProjection::SetDistortion
void SetDistortion(Float_t d)
Set distortion.
Definition REveProjections.cxx:258
ROOT::Experimental::REveProjection::RefCenter
const REveVector & RefCenter() const
Definition REveProjections.hxx:97
ROOT::Experimental::REveProjection::SetDirectionalVector
virtual void SetDirectionalVector(Int_t screenAxis, REveVector &vec)
Get vector for axis in a projected space.
Definition REveProjections.cxx:393
ROOT::Experimental::REveProjection::ChangePreScaleEntry
void ChangePreScaleEntry(Int_t coord, Int_t entry, Float_t new_scale)
Change scale for given entry and coordinate.
Definition REveProjections.cxx:222
ROOT::Experimental::REveProjection::HasSeveralSubSpaces
virtual Bool_t HasSeveralSubSpaces() const
Definition REveProjections.hxx:132
ROOT::Experimental::REveProjection::PreScalePoint
void PreScalePoint(Float_t &x, Float_t &y)
Pre-scale point (x, y) in projected coordinates for 2D projections:
Definition REveProjections.cxx:153
ROOT::Experimental::REveProjection::SetPastFixRFac
void SetPastFixRFac(Float_t x)
Set 2's-exponent for relative scaling beyond FixR.
Definition REveProjections.cxx:290
ROOT::Experimental::REveProjection::AddPreScaleEntry
void AddPreScaleEntry(Int_t coord, Float_t max_val, Float_t scale)
Add new scaling range for given coordinate.
Definition REveProjections.cxx:180
ROOT::Experimental::REveProjection::SubSpaceId
virtual Int_t SubSpaceId(const REveVector &) const
Definition REveProjections.hxx:134
ROOT::Experimental::REveProjection::SetFixZ
void SetFixZ(Float_t x)
Set fixed radius.
Definition REveProjections.cxx:280
ROOT::Experimental::REveProjection::AcceptSegment
virtual Bool_t AcceptSegment(REveVector &, REveVector &, Float_t) const
Definition REveProjections.hxx:133
ROOT::Experimental::REveProjection::SetDisplaceOrigin
void SetDisplaceOrigin(bool)
Set flag to displace for center.
Definition REveProjections.cxx:315
ROOT::Experimental::REveProjection::BisectBreakPoint
virtual void BisectBreakPoint(REveVector &vL, REveVector &vR, Float_t eps_sqr)
Find break-point on both sides of the discontinuity.
Definition REveProjections.cxx:337
ROOT::Experimental::REveProjection::GetProjectedCenter
virtual Float_t * GetProjectedCenter()
Get projected center.
Definition REveProjections.cxx:299
ROOT::Experimental::REveProjection::IsOnSubSpaceBoundrary
virtual Bool_t IsOnSubSpaceBoundrary(const REveVector &) const
Definition REveProjections.hxx:135
ROOT::Experimental::REveProjection::SetPastFixZFac
void SetPastFixZFac(Float_t x)
Set 2's-exponent for relative scaling beyond FixZ.
Definition REveProjections.cxx:325
ROOT::Experimental::REveProjection::SetFixR
void SetFixR(Float_t x)
Set fixed radius.
Definition REveProjections.cxx:270
ROOT::Experimental::REveProjection::ClearPreScales
void ClearPreScales()
Clear all pre-scaling information.
Definition REveProjections.cxx:248
ROOT::Experimental::REveRPhiProjection::ProjectPoint
void ProjectPoint(Float_t &x, Float_t &y, Float_t &z, Float_t d, EPProc_e proc=kPP_Full) override
Project point.
Definition REveProjections.cxx:702
ROOT::Experimental::REveRhoZProjection::IsOnSubSpaceBoundrary
Bool_t IsOnSubSpaceBoundrary(const REveVector &v) const override
Checks if point is on sub-space boundary.
Definition REveProjections.cxx:678
ROOT::Experimental::REveRhoZProjection::GetProjectedCenter
Float_t * GetProjectedCenter() override
Get projected center.
Definition REveProjections.hxx:170
ROOT::Experimental::REveRhoZProjection::SetDirectionalVector
void SetDirectionalVector(Int_t screenAxis, REveVector &vec) override
Get direction in the unprojected space for axis index in the projected space.
Definition REveProjections.cxx:626
ROOT::Experimental::REveRhoZProjection::ProjectPoint
void ProjectPoint(Float_t &x, Float_t &y, Float_t &z, Float_t d, EPProc_e proc=kPP_Full) override
Project point.
Definition REveProjections.cxx:550
ROOT::Experimental::REveRhoZProjection::SubSpaceId
Int_t SubSpaceId(const REveVector &v) const override
Return sub-space id for the point.
Definition REveProjections.cxx:670
ROOT::Experimental::REveRhoZProjection::AcceptSegment
Bool_t AcceptSegment(REveVector &v1, REveVector &v2, Float_t tolerance) const override
Check if segment of two projected points is valid.
Definition REveProjections.cxx:641
ROOT::Experimental::REveRhoZProjection::SetCenter
void SetCenter(REveVector &v) override
Set center of distortion (virtual method).
Definition REveProjections.cxx:604
ROOT::Experimental::REveXZProjection::ProjectPoint
void ProjectPoint(Float_t &x, Float_t &y, Float_t &z, Float_t d, EPProc_e proc=kPP_Full) override
Project point.
Definition REveProjections.cxx:773
ROOT::Experimental::REveXZProjection::GetProjectedCenter
Float_t * GetProjectedCenter() override
Get projected center.
Definition REveProjections.hxx:214
ROOT::Experimental::REveXZProjection::SetCenter
void SetCenter(REveVector &v) override
Set center of distortion (virtual method).
Definition REveProjections.cxx:833
ROOT::Experimental::REveXZProjection::SetDirectionalVector
void SetDirectionalVector(Int_t screenAxis, REveVector &vec) override
Get direction in the unprojected space for axis index in the projected space.
Definition REveProjections.cxx:854
ROOT::Experimental::REveYZProjection::SetDirectionalVector
void SetDirectionalVector(Int_t screenAxis, REveVector &vec) override
Get direction in the unprojected space for axis index in the projected space.
Definition REveProjections.cxx:964
ROOT::Experimental::REveYZProjection::GetProjectedCenter
Float_t * GetProjectedCenter() override
Get projected center.
Definition REveProjections.hxx:238
ROOT::Experimental::REveYZProjection::ProjectPoint
void ProjectPoint(Float_t &x, Float_t &y, Float_t &z, Float_t d, EPProc_e proc=kPP_Full) override
Project point.
Definition REveProjections.cxx:882
ROOT::Experimental::REveYZProjection::SetCenter
void SetCenter(REveVector &v) override
Set center of distortion (virtual method).
Definition REveProjections.cxx:943
ROOT::Experimental::REveZXProjection::ProjectPoint
void ProjectPoint(Float_t &x, Float_t &y, Float_t &z, Float_t d, EPProc_e proc=kPP_Full) override
Project point.
Definition REveProjections.cxx:991
ROOT::Experimental::REveZXProjection::SetCenter
void SetCenter(REveVector &v) override
Set center of distortion (virtual method).
Definition REveProjections.cxx:1052
ROOT::Experimental::REveZXProjection::SetDirectionalVector
void SetDirectionalVector(Int_t screenAxis, REveVector &vec) override
Get direction in the unprojected space for axis index in the projected space.
Definition REveProjections.cxx:1073
ROOT::Experimental::REveZXProjection::GetProjectedCenter
Float_t * GetProjectedCenter() override
Get projected center.
Definition REveProjections.hxx:262
ROOT::Experimental::REveZYProjection::SetCenter
void SetCenter(REveVector &v) override
Set center of distortion (virtual method).
Definition REveProjections.cxx:1161
ROOT::Experimental::REveZYProjection::ProjectPoint
void ProjectPoint(Float_t &x, Float_t &y, Float_t &z, Float_t d, EPProc_e proc=kPP_Full) override
Project point.
Definition REveProjections.cxx:1101
ROOT::Experimental::REveZYProjection::GetProjectedCenter
Float_t * GetProjectedCenter() override
Get projected center.
Definition REveProjections.hxx:286
ROOT::Experimental::REveZYProjection::SetDirectionalVector
void SetDirectionalVector(Int_t screenAxis, REveVector &vec) override
Get direction in the unprojected space for axis index in the projected space.
Definition REveProjections.cxx:1182
y
Double_t y[n]
Definition legend1.C:17
x
Double_t x[n]
Definition legend1.C:17
ROOT
This file contains a specialised ROOT message handler to test for diagnostic in unit tests.
Definition EExecutionPolicy.hxx:4
TMath::Max
Short_t Max(Short_t a, Short_t b)
Returns the largest of a and b.
Definition TMathBase.h:250
v2
@ v2
Definition rootcling_impl.cxx:3664
v
@ v
Definition rootcling_impl.cxx:3661
v1
@ v1
Definition rootcling_impl.cxx:3663
ROOT::Experimental::REveProjection::PreScaleEntry_t
Definition REveProjections.hxx:37
ROOT::Experimental::REveProjection::PreScaleEntry_t::fMin
Float_t fMin
Definition REveProjections.hxx:38
ROOT::Experimental::REveProjection::PreScaleEntry_t::fMax
Float_t fMax
Definition REveProjections.hxx:38
ROOT::Experimental::REveProjection::PreScaleEntry_t::PreScaleEntry_t
PreScaleEntry_t(Float_t min, Float_t max, Float_t off, Float_t scale)
Definition REveProjections.hxx:44
ROOT::Experimental::REveProjection::PreScaleEntry_t::PreScaleEntry_t
PreScaleEntry_t()=default
ROOT::Experimental::REveProjection::PreScaleEntry_t::fScale
Float_t fScale
Definition REveProjections.hxx:40
ROOT::Experimental::REveProjection::PreScaleEntry_t::fOffset
Float_t fOffset
Definition REveProjections.hxx:39
m
TMarker m
Definition textangle.C:8