source: flair-src/trunk/lib/FlairMeta/src/MetaVrpnObject.cpp@ 468

Last change on this file since 468 was 432, checked in by Sanahuja Guillaume, 3 years ago

add AltitudeSensor class
failsafe altitude sensor in changeable

File size: 4.1 KB
RevLine 
[10]1// %flair:license{
[15]2// This file is part of the Flair framework distributed under the
3// CECILL-C License, Version 1.0.
[10]4// %flair:license}
[7]5// created: 2013/04/08
6// filename: MetaVrpnObject.cpp
7//
8// author: Guillaume Sanahuja
9// Copyright Heudiasyc UMR UTC/CNRS 7253
10//
11// version: $Id: $
12//
13// purpose: objet integrant objet vrpn et une dérivée
14// d'euler
15//
16//
17/*********************************************************************/
18
19#include "MetaVrpnObject.h"
20#include <EulerDerivative.h>
21#include <LowPassFilter.h>
22#include <IODevice.h>
23#include <GridLayout.h>
24#include <DataPlot1D.h>
25#include <DataPlot2D.h>
26#include <Tab.h>
27#include <TabWidget.h>
[214]28#include <Matrix.h>
[432]29#include <AltitudeSensor.h>
[7]30
[15]31using std::string;
[7]32using namespace flair::core;
33using namespace flair::gui;
34using namespace flair::sensor;
35using namespace flair::filter;
36
[15]37namespace flair {
[432]38namespace sensor {
39class MetaVrpnObjectAltitudeSensor : public AltitudeSensor {
40 public:
41 MetaVrpnObjectAltitudeSensor(meta::MetaVrpnObject* parent,std::string name): AltitudeSensor(parent,name) {
42 this->parent=parent;
43 }
44 ~MetaVrpnObjectAltitudeSensor() {
45 }
46
47 //z and dz must be in uav's frame
48 float z(void) const {
49 Vector3Df uav_pos;
50 parent->GetPosition(uav_pos);
51 return -uav_pos.z;
52 }
53 float Vz(void) const {
54 Vector3Df uav_vel;
55 parent->GetSpeed(uav_vel);
56 return -uav_vel.z;
57 }
58
59 private:
60 meta::MetaVrpnObject* parent;
61
62};
63}// end namespace sensor
64}// end namespace flair
65
66namespace flair {
[15]67namespace meta {
68
[286]69MetaVrpnObject::MetaVrpnObject(string name,VrpnClient *client)
70 : VrpnObject( name, client->GetTabWidget(),client) {
71 ConstructorCommon(name,client);
[7]72}
73
[310]74MetaVrpnObject::MetaVrpnObject(string name,uint8_t id,VrpnClient *client)
[286]75 : VrpnObject(name, id, client->GetTabWidget(),client) {
76 ConstructorCommon( name,client);
[7]77}
78
[286]79void MetaVrpnObject::ConstructorCommon(string name,VrpnClient *client) {
[318]80 MatrixDescriptor *desc = new MatrixDescriptor(7, 1);
[135]81 for (int i = 0; i < desc->Rows(); i++) {
[15]82 desc->SetElementName(i, 0, Output()->Name(i, 0));
83 }
[214]84 Matrix *prev_value = new Matrix(this, desc, floatType, name);
[148]85 delete desc;
[7]86
[286]87 pbas = new LowPassFilter(this, client->GetLayout()->NewRow(),
[15]88 name + " Passe bas", prev_value);
[147]89 delete prev_value;
[7]90
[318]91 desc = new MatrixDescriptor(7, 1);
[135]92 for (int i = 0; i < desc->Rows(); i++) {
[15]93 desc->SetElementName(i, 0, "d" + Output()->Name(i, 0));
94 }
[214]95 prev_value = new Matrix(this, desc, floatType, name);
[148]96 delete desc;
[7]97
[286]98 euler = new EulerDerivative(pbas, client->GetLayout()->NewRow(),
[15]99 name + "_euler", prev_value);
[147]100 delete prev_value;
[7]101
[15]102 vx_opti_plot = new DataPlot1D(GetPlotTab()->NewRow(), "vx", -3, 3);
[214]103 vx_opti_plot->AddCurve(euler->GetMatrix()->Element(4));
[15]104 vy_opti_plot = new DataPlot1D(GetPlotTab()->LastRowLastCol(), "vy", -3, 3);
[214]105 vy_opti_plot->AddCurve(euler->GetMatrix()->Element(5));
[15]106 vz_opti_plot = new DataPlot1D(GetPlotTab()->LastRowLastCol(), "vz", -2, 2);
[214]107 vz_opti_plot->AddCurve(euler->GetMatrix()->Element(6));
[7]108
[286]109 plot_tab = new Tab(client->GetTabWidget(), "Mesures (xy) " + name);
[15]110 xy_plot = new DataPlot2D(plot_tab->NewRow(), "xy", "y", -5, 5, "x", -5, 5);
[135]111 xy_plot->AddCurve(Output()->Element(5, 0), Output()->Element(4, 0));
[432]112
113 altitudeSensor=new MetaVrpnObjectAltitudeSensor(this,name);
[7]114}
115
[432]116sensor::AltitudeSensor *MetaVrpnObject::GetAltitudeSensor(void) const {
117 return altitudeSensor;
118}
119
[15]120MetaVrpnObject::~MetaVrpnObject() { delete plot_tab; }
[7]121
[15]122DataPlot1D *MetaVrpnObject::VxPlot(void) const { return vx_opti_plot; }
[7]123
[15]124DataPlot1D *MetaVrpnObject::VyPlot(void) const { return vy_opti_plot; }
[7]125
[15]126DataPlot1D *MetaVrpnObject::VzPlot(void) const { return vz_opti_plot; }
[7]127
[15]128DataPlot2D *MetaVrpnObject::XyPlot(void) const { return xy_plot; }
[7]129
[167]130void MetaVrpnObject::GetSpeed(Vector3Df &speed) const {
[135]131 speed.x = euler->Output(4, 0);
132 speed.y = euler->Output(5, 0);
133 speed.z = euler->Output(6, 0);
[7]134}
135
[420]136EulerDerivative* MetaVrpnObject::GetEulerDerivative(void) const {
137 return euler;
138}
139
[432]140} // end namespace meta
[170]141} // end namespace flair
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