source: src/Actions/AnalysisAction/PairCorrelationAction.cpp@ cd8e55

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Last change on this file since cd8e55 was edb454, checked in by Frederik Heber <heber@…>, 15 years ago

MEMFIX: correlationmap was not free'd correctly in AnalysisPairCorrelationAction.

  • correlationmap pointer was instantiated before the ifs and inside, hence after them the wrong pointer (containing NULL) was free'd.
  • surfacemap (type == S) was not free'd at all.
  • Property mode set to 100644
File size: 6.4 KB
Line 
1/*
2 * PairCorrelationAction.cpp
3 *
4 * Created on: May 9, 2010
5 * Author: heber
6 */
7
8#include "Helpers/MemDebug.hpp"
9
10#include "Actions/AnalysisAction/PairCorrelationAction.hpp"
11#include "analysis_correlation.hpp"
12#include "boundary.hpp"
13#include "linkedcell.hpp"
14#include "log.hpp"
15#include "element.hpp"
16#include "molecule.hpp"
17#include "periodentafel.hpp"
18#include "vector.hpp"
19#include "World.hpp"
20
21#include <iostream>
22#include <string>
23
24using namespace std;
25
26#include "UIElements/UIFactory.hpp"
27#include "UIElements/Dialog.hpp"
28#include "Actions/MapOfActions.hpp"
29
30const char AnalysisPairCorrelationAction::NAME[] = "pair-correlation";
31
32AnalysisPairCorrelationAction::AnalysisPairCorrelationAction() :
33 Action(NAME)
34{}
35
36AnalysisPairCorrelationAction::~AnalysisPairCorrelationAction()
37{}
38
39Action::state_ptr AnalysisPairCorrelationAction::performCall() {
40 Dialog *dialog = UIFactory::getInstance().makeDialog();
41 int ranges[3] = {1, 1, 1};
42 double BinEnd = 0.;
43 double BinStart = 0.;
44 double BinWidth = 0.;
45 molecule *Boundary = NULL;
46 string outputname;
47 string binoutputname;
48 bool periodic;
49 ofstream output;
50 ofstream binoutput;
51 std::vector< element *> elements;
52 string type;
53 Vector Point;
54 BinPairMap *binmap = NULL;
55 MoleculeListClass *molecules = World::getInstance().getMolecules();
56
57 // first dialog: Obtain which type of correlation
58 dialog->queryString(NAME, &type, MapOfActions::getInstance().getDescription(NAME));
59 if(dialog->display()) {
60 delete dialog;
61 } else {
62 delete dialog;
63 return Action::failure;
64 }
65
66 // second dialog: Obtain parameters specific to this type
67 dialog = UIFactory::getInstance().makeDialog();
68 if (type == "P")
69 dialog->queryVector("position", &Point, World::getInstance().getDomain(), false, MapOfActions::getInstance().getDescription("position"));
70 if (type == "S")
71 dialog->queryMolecule("molecule-by-id", &Boundary, MapOfActions::getInstance().getDescription("molecule-by-id"));
72 dialog->queryElement("elements", &elements, MapOfActions::getInstance().getDescription("elements"));
73 dialog->queryDouble("bin-start", &BinStart, MapOfActions::getInstance().getDescription("bin-start"));
74 dialog->queryDouble("bin-width", &BinWidth, MapOfActions::getInstance().getDescription("bin-width"));
75 dialog->queryDouble("bin-end", &BinEnd, MapOfActions::getInstance().getDescription("bin-end"));
76 dialog->queryString("output-file", &outputname, MapOfActions::getInstance().getDescription("output-file"));
77 dialog->queryString("bin-output-file", &binoutputname, MapOfActions::getInstance().getDescription("bin-output-file"));
78 dialog->queryBoolean("periodic", &periodic, MapOfActions::getInstance().getDescription("periodic"));
79
80 if(dialog->display()) {
81 output.open(outputname.c_str());
82 binoutput.open(binoutputname.c_str());
83 if (type == "E") {
84 PairCorrelationMap *correlationmap = NULL;
85 if (periodic)
86 correlationmap = PeriodicPairCorrelation(World::getInstance().getMolecules(), elements, ranges);
87 else
88 correlationmap = PairCorrelation(World::getInstance().getMolecules(), elements);
89 OutputPairCorrelation(&output, correlationmap);
90 binmap = BinData( correlationmap, BinWidth, BinStart, BinEnd );
91 OutputCorrelation ( &binoutput, binmap );
92 delete(binmap);
93 delete(correlationmap);
94 } else if (type == "P") {
95 cout << "Point to correlate to is " << Point << endl;
96 CorrelationToPointMap *correlationmap = NULL;
97 if (periodic)
98 correlationmap = PeriodicCorrelationToPoint(molecules, elements, &Point, ranges);
99 else
100 correlationmap = CorrelationToPoint(molecules, elements, &Point);
101 OutputCorrelationToPoint(&output, correlationmap);
102 binmap = BinData( correlationmap, BinWidth, BinStart, BinEnd );
103 OutputCorrelation ( &binoutput, binmap );
104 delete(binmap);
105 delete(correlationmap);
106 } else if (type == "S") {
107 ASSERT(Boundary != NULL, "No molecule specified for SurfaceCorrelation.");
108 const double radius = 4.;
109 double LCWidth = 20.;
110 if (BinEnd > 0) {
111 if (BinEnd > 2.*radius)
112 LCWidth = BinEnd;
113 else
114 LCWidth = 2.*radius;
115 }
116
117 // get the boundary
118 class Tesselation *TesselStruct = NULL;
119 const LinkedCell *LCList = NULL;
120 // find biggest molecule
121 int counter = molecules->ListOfMolecules.size();
122 bool *Actives = new bool[counter];
123 counter = 0;
124 for (MoleculeList::iterator BigFinder = molecules->ListOfMolecules.begin(); BigFinder != molecules->ListOfMolecules.end(); BigFinder++) {
125 Actives[counter++] = (*BigFinder)->ActiveFlag;
126 (*BigFinder)->ActiveFlag = (*BigFinder == Boundary) ? false : true;
127 }
128 LCList = new LinkedCell(Boundary, LCWidth);
129 FindNonConvexBorder(Boundary, TesselStruct, LCList, radius, NULL);
130 CorrelationToSurfaceMap *surfacemap = NULL;
131 if (periodic)
132 surfacemap = PeriodicCorrelationToSurface( molecules, elements, TesselStruct, LCList, ranges);
133 else
134 surfacemap = CorrelationToSurface( molecules, elements, TesselStruct, LCList);
135 OutputCorrelationToSurface(&output, surfacemap);
136 // check whether radius was appropriate
137 {
138 double start; double end;
139 GetMinMax( surfacemap, start, end);
140 if (LCWidth < end)
141 DoeLog(1) && (eLog()<< Verbose(1) << "Linked Cell width is smaller than the found range of values! Bins can only be correct up to: " << radius << "." << endl);
142 }
143 binmap = BinData( surfacemap, BinWidth, BinStart, BinEnd );
144 OutputCorrelation ( &binoutput, binmap );
145 delete(binmap);
146 delete(surfacemap);
147 } else {
148 return Action::failure;
149 }
150 output.close();
151 binoutput.close();
152 delete dialog;
153 return Action::success;
154 } else {
155 delete dialog;
156 return Action::failure;
157 }
158}
159
160Action::state_ptr AnalysisPairCorrelationAction::performUndo(Action::state_ptr _state) {
161// ParserLoadXyzState *state = assert_cast<ParserLoadXyzState*>(_state.get());
162
163 return Action::failure;
164// string newName = state->mol->getName();
165// state->mol->setName(state->lastName);
166//
167// return Action::state_ptr(new ParserLoadXyzState(state->mol,newName));
168}
169
170Action::state_ptr AnalysisPairCorrelationAction::performRedo(Action::state_ptr _state){
171 return Action::failure;
172}
173
174bool AnalysisPairCorrelationAction::canUndo() {
175 return false;
176}
177
178bool AnalysisPairCorrelationAction::shouldUndo() {
179 return false;
180}
181
182const string AnalysisPairCorrelationAction::getName() {
183 return NAME;
184}
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