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/***************************************************************************
knutvardata.cpp - description
-------------------
begin : Tue Aug 21 2001
copyright : (C) 2001 by Daniel Prynych
email : [email protected]
***************************************************************************/
/***************************************************************************
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
***************************************************************************/
#include "knutvardata.h"
#include "knutnet.h"
#include <tdelocale.h>
#include <tdemessagebox.h>
#include <tqcolor.h>
//#include <iostream>
const char *nameUpsVars1[] = {
"NONE", "UTILITY", "BATTPCT", "UPSTEMP", "ACFREQ", "LOADPCT", "AMBTEMP", "AMBHUMID","BATTVOLT","OUTVOLT","CURRENT","NONE","BATT_TEMP","BATT_CURRENT"};
const char *nameUpsVars2[] = {
"none", "input.voltage", "battery.charge", "ups.temperature", "input.frequency", "ups.load", "ambient.temperature", "ambient.humidity","battery.voltage","output.voltage","output.current","output.frequency","battery.temperature","battery.current"};
/*
* Nic,Vstupni Napeti,Baterie,Teplota UPSky,
* Vstupni frekvence,Zatizeni,Vnejsi teplota,
* Vnejsi vlhkost,Napeti baterie, Vystupni napeti
* Vystupni proud, Teplota baterie, Proud baterie
*/
KNutVarData::KNutVarData(){
m_upsVarNameAnalog[0] = i18n("None");
m_upsVarNameAnalog[1] = i18n("Input Voltage");
m_upsVarNameAnalog[2] = i18n("Battery Charge");
m_upsVarNameAnalog[3] = i18n("UPS Temperature");
m_upsVarNameAnalog[4] = i18n("Input Frequency");
m_upsVarNameAnalog[5] = i18n("UPS Load");
m_upsVarNameAnalog[6] = i18n("Outside Temperature");
m_upsVarNameAnalog[7] = i18n("Outside Humidity");
m_upsVarNameAnalog[8] = i18n("Battery Voltage");
m_upsVarNameAnalog[9] = i18n("Output Voltage");
m_upsVarNameAnalog[10] = i18n("Output Current");
m_upsVarNameAnalog[11] = i18n("Output Frequency");
m_upsVarNameAnalog[12] = i18n("Battery Temperature");
m_upsVarNameAnalog[13] = i18n("Battery Current");
static const TQString upsVarNameUnit[] = {"", "V", "%", "C", "Hz", "%", "C", "%", "V", "V", "A","Hz","C", "A"};
static const int upsVarType[] = {0,3,2,1,1,2,1,1,3,3,2,1,1,2}; //typ panelu
static const int upsVarItem[] = {5,4,5,5,6,6,5,5,5,4,5,6,5,5}; // pocet velkych policek na stupnici
static const int upsVarInItem[] = {0,3,0,0,4,0,0,0,0,3,5,4,0,5}; // pocet malych policek ve velkem policku na stupnici
static const int upsVarStart[] = {0,170,0,-10,20,0,-10,0,0,170,0,20,-10,-15};
static const int upsVarEnd[] = {0,290,100,90,80,120,70,100,10,290,5,80,90,10};
static const int upsVarScaleStart[ knc::NumberOfTypes ][5] = {{0,0,0,0,0},{0,210,0,0,0},{50,0,40,0,0},{-100,50,0,0,0},{0,40,45,0,0},{0,80,100,0,0},{-100,50,0,0,0},{0,0,0,0,0},{0,0,0,0,0},{210,0,250,0,0},{0,0,0,0,0},{0,40,45,0,0},{-100,50,0,0,0},{0,0,0,0,0}};
static const int upsVarScaleEnd[ knc::NumberOfTypes ][5] = {{0,0,0,0,0},{400,250,0,0,0},{120,40,50,0,0},{50,100,0,0,0},{90,60,55,0,0},{80,100,120,0,0},{50,70,0,0,0},{0,0,0,0,0},{0,0,0,0,0},{250,210,400,0,0},{0,0,0,0,0},{90,60,55,0,0},{50,100,0,0,0},{0,0,0,0,0}};
int upsVarScaleColor[ knc::NumberOfTypes ][5] = {{aRegWhite,aRegWhite,aRegWhite,aRegWhite,aRegWhite},
{aRegRed,aRegGreen,aRegWhite,aRegWhite,aRegWhite},
{aRegGreen,aRegRed,aRegYellow,aRegWhite,aRegWhite},
{aRegGreen,aRegRed,aRegWhite,aRegWhite,aRegWhite},
{aRegRed,aRegYellow,aRegGreen,aRegWhite,aRegWhite},
{aRegGreen,aRegYellow,aRegRed,aRegWhite,aRegWhite},
{aRegGreen,aRegRed,aRegWhite,aRegWhite,aRegWhite},
{aRegWhite,aRegWhite,aRegWhite,aRegWhite,aRegWhite},
{aRegGreen,aRegRed,aRegRed,aRegWhite,aRegWhite},
{aRegGreen,aRegRed,aRegRed,aRegWhite,aRegWhite},
{aRegWhite,aRegWhite,aRegWhite,aRegWhite,aRegWhite},
{aRegRed,aRegYellow,aRegGreen,aRegWhite,aRegWhite},
{aRegGreen,aRegRed,aRegWhite,aRegWhite,aRegWhite},
{aRegWhite,aRegWhite,aRegWhite,aRegWhite,aRegWhite}};
for (int i=0;i < knc::NumberOfTypes; i++) {
m_dataVar[i].nameAnalog = m_upsVarNameAnalog[i];
m_dataVar[i].nameUnit = upsVarNameUnit[i];
m_dataVar[i].typeAnalog = upsVarType[i];
m_dataVar[i].numberItem = upsVarItem[i];
m_dataVar[i].numberInItem = upsVarInItem[i];
m_dataVar[i].start = upsVarStart[i];
m_dataVar[i].end = upsVarEnd[i];
for (int j=0; j< 5; j++) {
m_dataVar[i].scaleStruct[j].start=upsVarScaleStart[i][j];
m_dataVar[i].scaleStruct[j].end=upsVarScaleEnd[i][j];
m_dataVar[i].scaleStruct[j].scaleColor=upsVarScaleColor[i][j];
}
}
m_dataVarVoltage[U230V]=m_dataVar[knc::VarUtility];
m_dataVarVoltage[U120V]=m_dataVar[knc::VarUtility];
m_dataVarVoltage[U120V].start=90;
m_dataVarVoltage[U120V].end=150;
m_dataVarVoltage[U120V].scaleStruct[0].start=0;
m_dataVarVoltage[U120V].scaleStruct[1].start=110;
m_dataVarVoltage[U120V].scaleStruct[0].end=200;
m_dataVarVoltage[U120V].scaleStruct[1].end=130;
m_dataVarFrequence[F50HZ]=m_dataVar[knc::VarAcfreq];
m_dataVarFrequence[F60HZ]=m_dataVar[knc::VarAcfreq];
m_dataVarFrequence[F60HZ].start=30;
m_dataVarFrequence[F60HZ].end=90;
m_dataVarFrequence[F60HZ].scaleStruct[0].start=0;
m_dataVarFrequence[F60HZ].scaleStruct[1].start=50;
m_dataVarFrequence[F60HZ].scaleStruct[2].start=55;
m_dataVarFrequence[F60HZ].scaleStruct[0].end=100;
m_dataVarFrequence[F60HZ].scaleStruct[1].end=70;
m_dataVarFrequence[F60HZ].scaleStruct[2].end=65;
}
KNutVarData::~KNutVarData(){
}
KNutVarData::VarStrucDef KNutVarData::getData (const int seqNumber) const {
int i = seqNumber;
if (i < 1) i = 1;
else {if (i > (knc::NumberOfTypes-1)) i = knc::NumberOfTypes - 1;};
return m_dataVar[i];
}
TQString KNutVarData::getNameAnalogData (const int seqNumber) {
if ((seqNumber >= 0) && (seqNumber < knc::NumberOfTypes))
return m_upsVarNameAnalog[seqNumber];
else
return "";
}
void KNutVarData::putData (const int seqNumber, VarStrucDef& varStruc) {
if (seqNumber > 0 && seqNumber < knc::NumberOfTypes) m_dataVar[seqNumber] = varStruc;
}
void KNutVarData::setVoltage (const int typeVoltage) {
if (typeVoltage == 230) {
m_dataVar[knc::VarUtility] = m_dataVarVoltage[U230V];
m_dataVar[knc::VarOutVolt] = m_dataVarVoltage[U230V];
// m_dataVar[knc::VarOutVolt].nameAnalog = upsVarNameAnalog[knc::VarOutVolt]; // je nutno nastavit nazev
}
if (typeVoltage == 120) {
m_dataVar[knc::VarUtility] = m_dataVarVoltage[U120V];
m_dataVar[knc::VarOutVolt] = m_dataVarVoltage[U120V];
// dataVar[knc::VarOutVolt].nameAnalog = upsVarNameAnalog[knc::VarOutVolt]; // je nutno nastavit nazev
}
m_dataVar[knc::VarOutVolt].nameAnalog = m_upsVarNameAnalog[knc::VarOutVolt]; // je nutno nastavit nazev
}
void KNutVarData::setFrequency (const int typeFrequence) {
if (typeFrequence == 50) {
m_dataVar[knc::VarAcfreq] = m_dataVarFrequence[F50HZ];
m_dataVar[knc::VarOutFreq] = m_dataVarFrequence[F50HZ];
}
if (typeFrequence == 60) {
m_dataVar[knc::VarAcfreq] = m_dataVarFrequence[F60HZ];
m_dataVar[knc::VarOutFreq] = m_dataVarFrequence[F60HZ];
}
m_dataVar[knc::VarOutFreq].nameAnalog = m_upsVarNameAnalog[knc::VarOutFreq]; // je nutno nastavit nazev
}
void KNutVarData::setXfer (const float lowXfer, const float highXfer) {
m_dataVar[knc::VarUtility].scaleStruct[1].start=(int)lowXfer;
m_dataVar[knc::VarUtility].scaleStruct[1].end=(int)highXfer;
m_dataVar[knc::VarOutVolt].scaleStruct[1].start=(int)lowXfer;
m_dataVar[knc::VarOutVolt].scaleStruct[1].end=(int)highXfer;
}
const TQString KNutVarData::errorToText (const int error) {
switch (error) {
// knutclient error
case KNutNet::LowMem: return i18n("No memory.");
case KNutNet::NullAddress: return i18n("No address.");
case KNutNet::NoSuchHost: return i18n("Unknown address.");
case KNutNet::SocketReadErr: // socket
case KNutNet::ConnectErr: // connect
return i18n("Error of connection.");
case KNutNet::CantConnect:
return i18n("No connection with server.");
case KNutNet::NutProtocolVarErr: return i18n("Server-client protocol or variables of NUT are unknown.");
case KNutNet::NoUpsHere: return i18n("No UPS on this address.");
case KNutNet::ConnectionRefused: return i18n("Connection was refused by server.");
case KNutNet::SendErr: return i18n("Server doesn't receive data.");
case KNutNet::RecvErr: return i18n("Server doesn't send data.");
case KNutNet::NoServerData: return i18n("Server doesn't answer.");
case KNutNet::UnknownFormat: return i18n("Server returns data with unknown format.");
case KNutNet::UnknownAnswer: return i18n("Server returns unknown data.");
case KNutNet::UnknownFormatVer: return i18n("Command VER returns data with unknown format.");
case KNutNet::NoData: return i18n("No data.");
case KNutNet::NotConnection: return i18n("Connection doesn't exist.");
// server error
case KNutNet::AccessDenied: return i18n("Access denied. Failed password ?");
case KNutNet::DataStale: return i18n("UPS doesn't sent data to server (Data Stale).");
case KNutNet::UnknownCommand: return i18n("Server doesn't know this command.");
// driver error
case KNutNet::DriverNotConnected: return i18n("UPS's driver isn't connected.");
case KNutNet::PasswordRequired: return i18n("Server required password.");
case KNutNet::PasswordIncorrect: return i18n("Incorrect password.");
case KNutNet::NoResponse: return i18n("UPS doesn't response.");
case KNutNet::CommandFailed: return i18n("Command failed.");
case KNutNet::UnknownInstCmd: return i18n("UPS doesn't know this instant command.");
case KNutNet::CmdNotSupported: return i18n("UPS doesn't support this instant command.");
case KNutNet::VarUnknown: return i18n("UPS doesn't known this variable.");
case KNutNet::VarNotSupported: return i18n("UPS doesn't support this variable.");
case KNutNet::InvalidValue: return i18n("UPS doesn't support this value in this variable.");
case KNutNet::UnknownUps: return i18n("Name of UPS is unknown.");
case KNutNet::AlreadySetUsername: return i18n("Username has been already entered.");
case KNutNet::AlreadySetPassword: return i18n("Password has been already entered.");
case KNutNet::NoListVars: return i18n("Server doesn't send list of variables.");
//default
default: return i18n("Unknown error.");
}
}
void KNutVarData::showError (const int error) {
KMessageBox::sorry (0,errorToText(error));
}
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