TDE
/
knutclient
mirror of https://mirror.git.trinitydesktop.org/gitea/TDE/knutclient
0
0
Fork 0
Code Issues Releases Wiki Activity
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
Branches Tags
${ item.name }
Create tag ${ searchTerm }
Create branch ${ searchTerm }
from 'ffae7fcec1'
${ noResults }
knutclient/src/knutpanelmeter.cpp

354 lines
15 KiB
Raw Blame History

/***************************************************************************
knutpanelmeter.cpp - description
-------------------
begin : Út b?e 16 2004
copyright : (C) 2004 by Daniel Prynych
email : Daniel.Prynych@alo.cz
***************************************************************************/
/***************************************************************************
* *
* 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 "knutpanelmeter.h"
#include <kdebug.h>
#include <tqlayout.h>
#include <tqlabel.h>
#include <tqfont.h>
#include <math.h>
#include <stdlib.h>
#include <unistd.h>
//#include <iostream>
extern const char *nameUpsVars1[];
extern const char *nameUpsVars2[];
KNutPanelMeter::KNutPanelMeter(TQPalette aPanelPalette, KNutVarData::upsInfoDef* activeUpsInfo, KNutVarData::SettingDataDef* settingData, KNutVarData* analogRecords, TQWidget *parent, const char *name ) : TQScrollView(parent,name,TQt::WResizeNoErase|TQt::WStaticContents) {
m_settingData = settingData;
m_activeUpsInfo = activeUpsInfo;
m_analogRecords = analogRecords;
m_aPanelPalette = aPanelPalette;
m_analogArea = new TQLabel(this->viewport());
addChild(m_analogArea);
setResizePolicy ( TQScrollView::AutoOneFit ) ;
////NUTNO PAK UPRAVIT ACTIVATE A DEAKTIVATE ANALOGS
m_analogPanels = new analogPanelRecordsDef;
for (int i=0; i< knc::NumberOfVars; i++)
m_analogPanels->upsAnalogs[i]=0L;
m_widthArea =0;
m_heightArea =0;
}
KNutPanelMeter::~KNutPanelMeter(){
deActivateAnalogs();
delete m_analogPanels;
m_analogPanels=0L;
}
void KNutPanelMeter::deActivateAnalogs (void) {
//std::cout << "KNutPanelMeter::deActivateAnalogs" << std::endl;
if (m_analogPanels) {
for (int i=0; i< knc::NumberOfVars; i++) {
if (m_analogPanels->upsAnalogs[i] != 0) {
delete m_analogPanels->upsAnalogs[i]; // uvolnime meraky
}
m_analogPanels->upsAnalogs[i]=0L;
}
}
m_widthArea =0;
m_heightArea =0;
}
void KNutPanelMeter::activateAnalogs (void) {
//tqDebug ("KNutPanelMeter::activateAnalogs start");
KNutVarData::VarStrucDef analogMemberData;
int ii =0;
// deletes vatiables which ups doeasn't support
// vyjmeme promene ktere ups nepodporuje
//// nasledujici radka neni nutna
for (int i=0; i< knc::NumberOfVars; i++) m_analogPanels->upsAnalogs[i]=0L;
for (int i=0; i< knc::NumberOfVars; i++) {
// otestujeme zda dane UPS podporuje tuto promenou
// pokud existuje vrati 1
switch (m_activeUpsInfo->nutVariables) {
case 1:
if (!m_activeUpsInfo->upsNet->existName(nameUpsVars1[m_activeUpsInfo->record.upsVarCode[i]]))
m_activeUpsInfo->record.upsVarCode[ii++] = m_activeUpsInfo->record.upsVarCode[i];
break;
case 2:
if (!m_activeUpsInfo->upsNet->existName(nameUpsVars2[m_activeUpsInfo->record.upsVarCode[i]]))
m_activeUpsInfo->record.upsVarCode[ii++] = m_activeUpsInfo->record.upsVarCode[i];
break;
}
}
for (int i=ii; i< knc::NumberOfVars; i++) m_activeUpsInfo->record.upsVarCode[i]=0;// doplnime zbytek nulami to znamena zadna promena
for (int i=0; i< knc::NumberOfVars; i++) {
if (m_activeUpsInfo->record.upsVarCode[i] != 0) {
analogMemberData=m_analogRecords->getData (m_activeUpsInfo->record.upsVarCode[i]);
m_analogPanels->scaleEnd[i]=analogMemberData.end;
m_analogPanels->scaleStart[i]=analogMemberData.start;
TQColor analogFingerColor, analogScaleColor, analogFontColor;
if (m_settingData->customOAnalogColor) {
analogFingerColor = m_settingData->analogFingerColor;
analogScaleColor = m_settingData->analogScaleColor;
analogFontColor = m_settingData->analogFontColor;
}
else {
analogFingerColor = DEFAULT_FINGER_COLOR;
analogScaleColor = DEFAULT_SCALE_COLOR;
analogFontColor = DEFAULT_FONT_COLOR;
}
if (m_settingData->customFont)
// doesn't make background
m_analogPanels->upsAnalogs[i] = new KNutAnalog( m_analogArea,0L,analogMemberData.start,analogMemberData.end,analogMemberData.typeAnalog,analogMemberData.numberItem,analogMemberData.numberInItem,analogFingerColor,analogScaleColor,analogFontColor,&(m_settingData->aPanelFont),m_settingData->typeDigitalProcessing);
else
m_analogPanels->upsAnalogs[i] = new KNutAnalog( m_analogArea,0L,analogMemberData.start,analogMemberData.end,analogMemberData.typeAnalog,analogMemberData.numberItem,analogMemberData.numberInItem,analogFingerColor,analogScaleColor,analogFontColor,&(m_settingData->systemFont),m_settingData->typeDigitalProcessing);
//nastavime barvu mezikruzi
if (m_settingData->customOAnalogColor) {
m_analogPanels->upsAnalogs[i]->setArcColor(1,m_settingData->analogOKColor); // doesn't make background
m_analogPanels->upsAnalogs[i]->setArcColor(2,m_settingData->analogWarnningColor); // doesn't make background
m_analogPanels->upsAnalogs[i]->setArcColor(3,m_settingData->analogErrorColor); // doesn't make background
}
// po vygenerovani panelu jsou standartni barvy nastaveny automaticky
//nastavime mezikruzi
for (int j = 0; j < 5; j++ ) {
if (!((analogMemberData.scaleStruct[j].start == 0) && (analogMemberData.scaleStruct[j].end ==0 ))) {
m_analogPanels->upsAnalogs[i]->addArc (analogMemberData.scaleStruct[j].start,analogMemberData.scaleStruct[j].end,analogMemberData.scaleStruct[j].scaleColor, false); // doesn't make background
}
}
m_analogPanels->upsAnalogs[i]->setText(analogMemberData.nameAnalog,analogMemberData.nameUnit);
m_analogPanels->upsAnalogs[i]->setPalette(m_aPanelPalette);
m_analogPanels->upsAnalogs[i]->makeBackground(false); // makes background of analog panel
}
}
//tqDebug ( "KNutPanelMeter::activateAnalogs 1" );
m_analogArea->repaint(); //repaint all analog panels, background was made already
//tqDebug ("KNutPanelMeter::activateAnalogs - end");
// analogSV->resizeContents(sizeHint().width(),sizeHint().height());
}
void KNutPanelMeter::setSize (bool showPanels) {
int row =0;
int col=0;
int maxCols =0;
int maxRows =0;
if (!m_activeUpsInfo->netError) {
for (int i=0; i< knc::NumberOfVars; i++) {
if (m_activeUpsInfo->record.upsVarCode[i] != 0) {
if (maxCols < m_settingData->countCols) maxCols++;
maxRows = row+1;
// jestlize upsAnalogs =0 nejsou aktivovany
if (m_analogPanels->upsAnalogs[i]) {
m_analogPanels->upsAnalogs[i]->move (SpacePanels + (SpacePanels)+(col*(KNutAnalog::AnalogWidth+SpacePanels)),SpacePanels+(row*(KNutAnalog::AnalogWidth+SpacePanels)));
if (showPanels) m_analogPanels->upsAnalogs[i]->show();
}
col++;
if (col > (m_settingData->countCols-1) ) {col=0; row++;}; // prechod na dalsi radku
}
}
}
// musime nastavit velikost
m_widthArea = (KNutAnalog::AnalogWidth + SpacePanels)*maxCols +2*SpacePanels; // sirka
m_heightArea = (KNutAnalog::AnalogWidth + SpacePanels)*(maxRows) + SpacePanels; // minimalni velikost podle mericich panelu
m_analogArea->setMinimumSize (m_widthArea,m_heightArea);
adjustSize();
resizeContents(m_widthArea,m_heightArea);
repaint();
}
void KNutPanelMeter::repaintScaleAnalogPanel (int panelNumber, float value) {
if (m_analogPanels->upsAnalogs[panelNumber] != 0L){
switch (m_activeUpsInfo->record.upsVarCode[panelNumber]) {
case knc::VarCurrent : // output.current
if (m_analogPanels->scaleEnd[panelNumber] < MaxCurrent) {
if (m_analogPanels->scaleEnd[panelNumber] < value) {
m_analogPanels->scaleEnd[panelNumber]=(static_cast<int>(floor((value+1)/5)))*5 +5;
if (m_analogPanels->scaleEnd[panelNumber] > MaxCurrent) m_analogPanels->scaleEnd[panelNumber]=MaxCurrent;
m_analogPanels->upsAnalogs[panelNumber]->setRange(m_analogPanels->scaleStart[panelNumber],m_analogPanels->scaleEnd[panelNumber],true);
}
}
break;
case knc::VarBattVolt : // battery.voltage
if (m_analogPanels->scaleEnd[panelNumber] < MaxBattVolt) {
if (m_analogPanels->scaleEnd[panelNumber] < value) {
m_analogPanels->scaleEnd[panelNumber]=(static_cast<int>(floor((value+1)/10)))*10 +10;
if (m_analogPanels->scaleEnd[panelNumber] > MaxBattVolt) m_analogPanels->scaleEnd[panelNumber]=MaxBattVolt;
m_analogPanels->upsAnalogs[panelNumber]->setRange(m_analogPanels->scaleStart[panelNumber],m_analogPanels->scaleEnd[panelNumber],true);
}
}
break;
case knc::VarBattCurrent : // battery.current
if (m_analogPanels->scaleEnd[panelNumber] < MaxBattCurrent) {
if ((m_analogPanels->scaleEnd[panelNumber] < value) || (m_analogPanels->scaleStart[panelNumber] > value)) {
if ((value >10) || (value <- 15)) {
if ((value >20) || (value < -30)) {
m_analogPanels->scaleEnd[panelNumber]=30;
m_analogPanels->scaleStart[panelNumber]=-45;
}
else {
m_analogPanels->scaleEnd[panelNumber]=20;
m_analogPanels->scaleStart[panelNumber]=-30;
}
m_analogPanels->upsAnalogs[panelNumber]->setPointer(value); // jistota pokud by nam to nekde propadlo
m_analogPanels->upsAnalogs[panelNumber]->hide();// schovame analogovy panel hides analog panel
m_analogPanels->upsAnalogs[panelNumber]->setRange (m_analogPanels->scaleStart[panelNumber],m_analogPanels->scaleEnd[panelNumber]);
m_analogPanels->upsAnalogs[panelNumber]->repaint(); // prekreslime , repaints panel
m_analogPanels->upsAnalogs[panelNumber]->show(); //zobrazime merak shows analog panel
}
}
}
break;
} // end switch
}
}
void KNutPanelMeter::repaintAnalogPointer (int panelNumber, float value, bool run) {
if (m_analogPanels->upsAnalogs[panelNumber] != 0L)
m_analogPanels->upsAnalogs[panelNumber]->setPointer (value,run); // nastavi hodnotu rucicky
}
void KNutPanelMeter::setAnalogBG(TQPalette aPanelPalette) {
m_aPanelPalette = aPanelPalette;
for (int i=0; i< knc::NumberOfVars; i++) {
if ((m_activeUpsInfo->record.upsVarCode[i]) && (m_analogPanels->upsAnalogs[i]))
m_analogPanels->upsAnalogs[i]->setPalette(m_aPanelPalette);
}
}
void KNutPanelMeter::changeAnalogPanelsDigProcessing (void) {
if (m_analogPanels == 0) return;
for (int i=0; i< knc::NumberOfVars; i++) {
if (m_analogPanels->upsAnalogs[i] != 0L) m_analogPanels->upsAnalogs[i]->setDigitalProcesing(m_settingData->typeDigitalProcessing,true);
}
}
void KNutPanelMeter::repaintAnalogPanels (bool repaintFrequencyPanels, bool repaintVoltagePanels, bool repaintAllPanels) {
KNutVarData::VarStrucDef analogMemberData;
if (m_analogPanels == 0) return;
// pregenerovani panelu slouzi pro settingMain a setting Analog
for (int i=0; i< knc::NumberOfVars; i++) {
if ((m_activeUpsInfo->record.upsVarCode[i]) && (m_analogPanels->upsAnalogs[i])) {
//if upsAnalogs[x] is set to zero, this upsAnalog is not used
// record.upsVarCode contain list of code of analog meter
// 0 is code for none analog meter, 1 for Input Voltage, 2 for Battery Charge,
if (((m_activeUpsInfo->record.upsVarCode[i] == knc::VarAcfreq) && (repaintFrequencyPanels)) ||
((m_activeUpsInfo->record.upsVarCode[i] == knc::VarOutFreq) && (repaintFrequencyPanels)) ||
(((m_activeUpsInfo->record.upsVarCode[i] == knc::VarUtility) ||
(m_activeUpsInfo->record.upsVarCode[i] == knc::VarOutVolt)) && (repaintVoltagePanels))) {
analogMemberData=m_analogRecords->getData (m_activeUpsInfo->record.upsVarCode[i]); // nacteme data
m_analogPanels->upsAnalogs[i]->hide();// schovame analogovy panel
m_analogPanels->upsAnalogs[i]->delArc(); //zrusime segmenty
m_analogPanels->upsAnalogs[i]->setRange (analogMemberData.start,analogMemberData.end);
for (int j = 0; j < 5; j++ ) {
if (!((analogMemberData.scaleStruct[j].start == 0) && (analogMemberData.scaleStruct[j].end ==0 ))) {
m_analogPanels->upsAnalogs[i]->addArc (analogMemberData.scaleStruct[j].start,analogMemberData.scaleStruct[j].end,analogMemberData.scaleStruct[j].scaleColor, false);
} // end if (!
}// end for (int i=0
m_analogPanels->upsAnalogs[i]->makeBackground(false); // repaints analog meter
m_analogPanels->upsAnalogs[i]->repaintPointer(false); // repaints analog meter
m_analogPanels->upsAnalogs[i]->repaint(); // repaints analog meter
m_analogPanels->upsAnalogs[i]->show(); // shows analog meter
} // end if (((activeUpsInfo
if (repaintAllPanels) {
if (m_settingData->customOAnalogColor) {
m_analogPanels->upsAnalogs[i]->setPointerColor(m_settingData->analogFingerColor);
m_analogPanels->upsAnalogs[i]->setArcColor(1,m_settingData->analogOKColor);
m_analogPanels->upsAnalogs[i]->setArcColor(2,m_settingData->analogWarnningColor);
m_analogPanels->upsAnalogs[i]->setArcColor(3,m_settingData->analogErrorColor);
m_analogPanels->upsAnalogs[i]->setScaleColor(m_settingData->analogScaleColor);
m_analogPanels->upsAnalogs[i]->setFontColor(m_settingData->analogFontColor);
}
else {
m_analogPanels->upsAnalogs[i]->setPointerColor (DEFAULT_FINGER_COLOR);
m_analogPanels->upsAnalogs[i]->setDefaultArcColor();
m_analogPanels->upsAnalogs[i]->setScaleColor (DEFAULT_SCALE_COLOR);
m_analogPanels->upsAnalogs[i]->setFontColor (DEFAULT_FONT_COLOR);
}
m_analogPanels->upsAnalogs[i]->repaintAll();
}
}
} // end for
}
void KNutPanelMeter::zeroingPanels (void) {
if (m_analogPanels) {
for (int i=0; i< knc::NumberOfVars; i++) {
if ((m_analogPanels->upsAnalogs[i] != 0L) && (m_activeUpsInfo->record.upsVarCode[i] != 0)) // jistota pokud by nam to nekde propadlo
m_analogPanels->upsAnalogs[i]->setPointer (0); // nastavi hodnotu rucicky
}
}
}
TQSize KNutPanelMeter::sizeHint (void){
return TQSize(m_widthArea,m_heightArea);
}
void KNutPanelMeter::slotSetPanelsFont(TQFont newFont) {
for (int i=0; i< knc::NumberOfVars; i++) {
if ((m_activeUpsInfo->record.upsVarCode[i]) && (m_analogPanels->upsAnalogs[i])) {
m_analogPanels->upsAnalogs[i]->slotSetAllFont(newFont);
// je nutno prekresli i rucicku
}
}
}
#include "knutpanelmeter.moc"
View Git Blame Copy Permalink