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ddstats.cc
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14 
15 #include <map>
16 #include <string>
17 #include <utility>
18 #include <vector>
19 
20 struct DDPosData;
21 
22 void ddstats(std::ostream& os) {
23  os << "DDD in memory stats:" << std::endl << "====================" << std::endl << std::endl;
24  DDCompactView cpv;
25 
26  // What we will count:
27  // ----------------------
28 
29  int noEdges(0); // number of graph-multi-edges
30  int noNodes(0); // number of graph-nodes
31  int noExpNodes(1); // number of expanded-nodes
32 
33  // number of Logical- and PosParts, Solids, Materials
34  int noLog(0), noSol(0), noMat(0), noRot(0);
35 
36  // accumulative number of name-characters (logparts,solids,rotation,materials)
37  int noCLog(0), noCSol(0), noCMat(0), noCRot(0);
38 
39  int noSolidP(0); // accumulative number of solid-parameters
40 
41  // fetch the acyclic multigraph
42  const auto& g = cpv.graph();
43 
44  DDExpandedView exv(cpv);
45  while (exv.next())
46  ++noExpNodes;
47 
48  // iterate over the adjacency-list
49  auto it = g.begin();
50  for (; it != g.end(); ++it) {
51  ++noNodes;
52  noEdges += it->size();
53  }
54 
55  typedef DDLogicalPart::StoreT::value_type lpst_type;
56  lpst_type& lpst = DDLogicalPart::StoreT::instance();
57  lpst_type::iterator lpstit = lpst.begin();
58  for (; lpstit != lpst.end(); ++lpstit) {
59  noCLog += lpstit->first.name().size();
60  ++noLog;
61  }
62 
63  typedef DDMaterial::StoreT::value_type mast_type;
64  mast_type& mast = DDMaterial::StoreT::instance();
65  mast_type::iterator mastit = mast.begin();
66  for (; mastit != mast.end(); ++mastit) {
67  noCMat += mastit->first.name().size();
68  ++noMat;
69  }
70 
71  typedef DDSolid::StoreT::value_type sost_type;
72  sost_type& sost = DDSolid::StoreT::instance();
73  sost_type::iterator sostit = sost.begin();
74  for (; sostit != sost.end(); ++sostit) {
75  noCSol += sostit->first.name().size();
76  DDSolid s(sostit->first);
77  noSolidP += s.parameters().size();
78  ++noSol;
79  }
80 
81  typedef DDRotation::StoreT::value_type rost_type;
82  rost_type& rost = DDRotation::StoreT::instance();
83  rost_type::iterator rostit = rost.begin();
84  for (; rostit != rost.end(); ++rostit) {
85  noCRot += rostit->first.name().size();
86  ++noRot;
87  }
88 
89  // derived quantities
90  std::cout << "sizeof(void*)=" << sizeof(void*) << std::endl;
91  std::cout << "sizeof(DDLogicalPart)=" << sizeof(DDLogicalPart) << std::endl;
92  std::cout << "sizeof(DDTranslation)=" << sizeof(DDTranslation) << std::endl;
93  std::cout << "sizeof(DDRotationMatrix)=" << sizeof(DDRotationMatrix) << std::endl;
94  int store = 4 * sizeof(void*); // overhead for data-management (est.)
95  int byRot = noRot * (sizeof(DDRotationMatrix) + store); // bytes in rotations
96  int bySol = noSolidP * sizeof(double) + noSol * store; // bytes in solids
97  int byMat = noMat * (5 * sizeof(double) + store); // bytes in materials
98  int byPos = noEdges * (sizeof(DDTranslation) + sizeof(DDRotation) + sizeof(int));
99  int byNam = noCLog + noCSol + noCMat + noCRot; // bytes in strings for names
100  int byLog = noLog * (sizeof(DDMaterial) + sizeof(DDSolid) + store); // LogicalPart
101  int byGra = (noEdges + noNodes) * store; // est. graph structure
102  int bytes = byRot + bySol + byMat + byPos + byNam + byLog + byGra;
103  bytes += noNodes * sizeof(DDLogicalPart) + noEdges * sizeof(DDPosData*);
104  double mb = 1024. * 1024.;
105 
106  os << "noNodes=" << noNodes << std::endl
107  << "noEdges=" << noEdges << std::endl
108  << "noExNod=" << noExpNodes << std::endl
109  << std::endl;
110  os << "noLog=" << noLog << std::endl
111  << "noSol=" << noSol << " noSolidP=" << noSolidP << std::endl
112  << "noMat=" << noMat << std::endl
113  << "noRot=" << noRot << std::endl
114  << std::endl;
115  os << "noCLog=" << noCLog << std::endl
116  << "noCSol=" << noCSol << std::endl
117  << "noCMat=" << noCMat << std::endl
118  << "noCRot=" << noCRot << std::endl
119  << " --------" << std::endl
120  << " " << byNam << " chars used for naming." << std::endl
121  << std::endl;
122  os << "byLog = " << byLog / mb << " logicalparts " << std::endl
123  << "byNam = " << byNam / mb << " string for names " << std::endl
124  << "byRot = " << byRot / mb << " rotations " << std::endl
125  << "bySol = " << bySol / mb << " solids " << std::endl
126  << "byMat = " << byMat / mb << " materials " << std::endl
127  << "byPos = " << byPos / mb << " posparts " << std::endl
128  << "byGra = " << byGra / mb << " graph-struct " << std::endl
129  << "-----------------------" << std::endl
130  << "OVERALL: " << bytes / mb << " MByte" << std::endl;
131 }
ddstats.h
DDBase.h
DDTransform.h
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Definition: DDRotationMatrix.h:8
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Definition: DDMaterial.h:45
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Definition: DDCompactView.h:80
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Definition: DDExpandedView.h:41
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Definition: DDSolid.h:39
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Definition: DDTransform.h:57
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DDRotationMatrix.h