source: pacpusframework/branches/2.0-beta1/src/TestComponents/Lidar/dbt/DbtPlyAlascaManager.cpp@ 95

Last change on this file since 95 was 89, checked in by morasjul, 12 years ago

PACPUS 2.0 Beta deployed in new branch

Major changes:
-Add communication interface between components
-Add examples for communications interface (TestComponents)
-Move to Qt5 support

  • Property svn:executable set to *
File size: 6.9 KB
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1// *********************************************************************
2// created: 2007/11/13 - 16:49
3// filename: DbtPlyAlascaManager.cpp
4//
5// author: Gerald Dherbomez
6// Copyright Heudiasyc UMR UTC/CNRS 6599
7//
8// version: $Id: DbtPlyAlascaManager.cpp 1199 2012-08-01 08:51:24Z kurdejma $
9//
10// purpose:
11// *********************************************************************
12
13#include "DbtPlyAlascaManager.h"
14
15//#include <boost/assert.hpp>
16#include <iostream>
17#include <string>
18#include <math.h>
19
20#include "kernel/Log.h"
21#include "PacpusTools/ShMem.h"
22#include "Pacpus/kernel/inputOutputInterface.h"
23
24#define CENTIMETER_TO_METER 100
25
26namespace pacpus {
27
28using namespace std;
29
30DECLARE_STATIC_LOGGER("pacpus.base.DbtPlyAlascaManager");
31
32/// Construction de la fabrique de composant DbtPlyAlascaManager
33static ComponentFactory<DbtPlyAlascaManager> sFactory("DbtPlyAlascaManager");
34
35static const char * kAlaskaMemoryName = "alasca";
36
37void DbtPlyAlascaManager::addInputOutput()
38{
39 output.insert("scan",new OutputInterface<LidarScan,DbtPlyAlascaManager> ("scan",this));
40 output.insert("raw",new OutputInterface<ScanAlascaData,DbtPlyAlascaManager> ("raw",this));
41}
42
43//////////////////////////////////////////////////////////////////////////
44/// Constructor.
45DbtPlyAlascaManager::DbtPlyAlascaManager(QString name)
46 : DbtPlyFileManager(name)
47{
48 LOG_TRACE("constructor(" << name << ")");
49
50 mShMem = new ShMem(kAlaskaMemoryName, sizeof(ScanAlascaData));
51
52 addInputOutput();
53}
54
55//////////////////////////////////////////////////////////////////////////
56/// Destructor.
57DbtPlyAlascaManager::~DbtPlyAlascaManager()
58{
59 LOG_TRACE("destructor");
60 delete mShMem;
61}
62
63//////////////////////////////////////////////////////////////////////////
64/// Configure the component.
65ComponentBase::COMPONENT_CONFIGURATION DbtPlyAlascaManager::configureComponent(XmlComponentConfig config)
66{
67 DbtPlyFileManager::configureComponent(config);
68 mDataFilename = param.getProperty("binFile");
69
70 return ComponentBase::CONFIGURED_OK;
71}
72
73//////////////////////////////////////////////////////////////////////////
74/// Starts the component.
75void DbtPlyAlascaManager::startActivity()
76{
77 mDataFilename = mEngine->getDataDir() + mDataFilename;
78
79 mDataFile.open(mDataFilename.toLatin1().data(),std::ios_base::in|std::ios_base::binary);
80 if (!mDataFile) {
81 LOG_ERROR("cannot open file '" << mDataFilename << "'");
82 return;
83 }
84 DbtPlyFileManager::startActivity();
85}
86
87//////////////////////////////////////////////////////////////////////////
88/// Stops the component.
89void DbtPlyAlascaManager::stopActivity()
90{
91 DbtPlyFileManager::stopActivity();
92 mDataFile.close();
93}
94
95//////////////////////////////////////////////////////////////////////////
96/// processData
97void DbtPlyAlascaManager::processData(road_time_t t, road_timerange_t tr, void * buffer)
98{
99 if (!buffer) {
100 LOG_DEBUG("no data available: NULL buffer");
101 return;
102 }
103
104 LOG_TRACE("sizeof(AlascaXT) = " << sizeof(AlascaXT));
105 Q_ASSERT(24 == sizeof(AlascaXT));
106 AlascaXT * alascaXT = static_cast<AlascaXT *>(buffer);
107
108 // copy the values contained in the dbt file
109 mAlascaData.startAngle = alascaXT->startAngle;
110 mAlascaData.endAngle = alascaXT->endAngle;
111 mAlascaData.nbPoint = alascaXT->nbPoint;
112 mAlascaData.scannertype = alascaXT->scannertype;
113 mAlascaData.timeStart = alascaXT->timeStart;
114 mAlascaData.time = t;
115 mAlascaData.timerange = tr;
116
117 // set the get pointer to the correct place
118 mDataFile.seekg(alascaXT->dataPos);
119
120 // then copy the data contained in the binary file
121 for (size_t i = 0; i < mAlascaData.nbPoint; ++i) {
122 mDataFile.read(reinterpret_cast<char *>(&(mAlascaData.point[i].scannerId)), sizeof(uint8_t));
123 mDataFile.read(reinterpret_cast<char *>(&(mAlascaData.point[i].layerNumber)), sizeof(uint8_t));
124 mDataFile.read(reinterpret_cast<char *>(&(mAlascaData.point[i].echoNumber)), sizeof(uint8_t));
125 mDataFile.read(reinterpret_cast<char *>(&(mAlascaData.point[i].pointStatus)), sizeof(uint8_t));
126 mDataFile.read(reinterpret_cast<char *>(&(mAlascaData.point[i].x)), sizeof(int16_t));
127 mDataFile.read(reinterpret_cast<char *>(&(mAlascaData.point[i].y)), sizeof(int16_t));
128 mDataFile.read(reinterpret_cast<char *>(&(mAlascaData.point[i].z)), sizeof(int16_t));
129 mDataFile.read(reinterpret_cast<char *>(&(mAlascaData.point[i].width)), sizeof(uint16_t));
130 }
131
132 lidarScan = LidarScan(4);
133 int layer;
134
135 lidarScan.nbPoint = mAlascaData.nbPoint;
136 lidarScan.time = mAlascaData.time;
137 lidarScan.timerange = mAlascaData.timerange;
138 lidarScan.scannerId;
139 lidarScan.scannerType = mAlascaData.scannertype;
140 lidarScan.nbLayer = 4;
141
142 for (int i = 0; i < mAlascaData.nbPoint; ++i) {
143 LidarPoint point;
144
145 layer = mAlascaData.point[i].layerNumber;
146 point.echo = mAlascaData.point[i].echoNumber;
147
148 point.x = (float)mAlascaData.point[i].x / CENTIMETER_TO_METER;
149 point.y = (float)mAlascaData.point[i].y / CENTIMETER_TO_METER;
150 point.z = (float)mAlascaData.point[i].z / CENTIMETER_TO_METER;
151 point.intensity = mAlascaData.point[i].width;
152 point.d = (sqrt(point.x*point.x+point.y*point.y+point.z*point.z) * CENTIMETER_TO_METER);
153
154 lidarScan.layers[layer].nbPoint++;
155 lidarScan.layers[layer].points.append(point);
156 }
157
158 // verify that the last value is the UTC magic word
159 int32_t utcMagicWord = 0;
160 mDataFile.read(reinterpret_cast<char *>(&(utcMagicWord)), sizeof(utcMagicWord));
161 if (UTC_MAGIC_WORD != utcMagicWord) {
162 LOG_WARN("corrupted data, do not use them!");
163 LOG_DEBUG("wrong magic word: EXPECTED=" << UTC_MAGIC_WORD << ", ACTUAL=" << utcMagicWord);
164 } else {
165 LOG_TRACE("writing scan");
166 mShMem->write(&mAlascaData, sizeof(ScanAlascaData));
167
168 OutputInterface<LidarScan,DbtPlyAlascaManager> * out = static_cast<OutputInterface<LidarScan,DbtPlyAlascaManager> *> (output.value("scan"));
169 OutputInterface<ScanAlascaData,DbtPlyAlascaManager> * outraw = static_cast<OutputInterface<ScanAlascaData,DbtPlyAlascaManager> *> (output.value("raw"));
170 out->send(lidarScan);
171 outraw->send(mAlascaData);
172 }
173
174 if (mVerbose) {
175 cout << "[ALASCA]:\t"
176 << "#points=" << mAlascaData.nbPoint << "\t"
177 << "timeStart=" << mAlascaData.timeStart << endl
178 ;
179 }
180 if (mVerbose >= 2) {
181 cout << "[ALASCA]:\t"
182 << "scannertype=" << (int) mAlascaData.scannertype << "\t"
183 << "startAngle=" << mAlascaData.startAngle << "\t"
184 << "endAngle=" << mAlascaData.endAngle << endl
185 ;
186 }
187}
188
189//////////////////////////////////////////////////////////////////////////
190/// Displays the graphical user interface (GUI)
191void DbtPlyAlascaManager::displayUI()
192{
193 LOG_WARN("GUI not implemented");
194
195 // TODO
196}
197
198} // namespace pacpus
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