/*************************************************************************** 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 #include #include #include #include #include extern const char *nameUpsVars1[]; extern const char *nameUpsVars2[]; KNutPanelMeter::KNutPanelMeter(QPalette taPanelPalette, struct upsInfo* tActiveUpsInfo, SettingDataDef* tSettingData, KNutVarData* tAnalogRecords, QWidget *parent, const char *name ) : QScrollView(parent,name,Qt::WResizeNoErase|Qt::WStaticContents) { settingData = tSettingData; activeUpsInfo = tActiveUpsInfo; analogRecords = tAnalogRecords; aPanelPalette = taPanelPalette; analogArea = new QLabel(this->viewport()); addChild(analogArea); setResizePolicy ( QScrollView::AutoOneFit ) ; ////NUTNO PAK UPRAVIT ACTIVATE A DEAKTIVATE ANALOGS analogPanels = new analogPanelsRecord; for (int i=0; i< knc::NumberOfVars; i++) analogPanels->upsAnalogs[i]=0L; widthArea =0; heightArea =0; } KNutPanelMeter::~KNutPanelMeter(){ deActivateAnalogs(); delete analogPanels; analogPanels=0L; } void KNutPanelMeter::deActivateAnalogs (void) { if (analogPanels) { for (int i=0; i< knc::NumberOfVars; i++) { if (analogPanels->upsAnalogs[i] != 0) { delete analogPanels->upsAnalogs[i]; // uvolnime meraky } analogPanels->upsAnalogs[i]=0L; } } widthArea =0; heightArea =0; } void KNutPanelMeter::activateAnalogs (void) { VarStrucDef analogMemberData; int ii =0; // vyjmeme promene ktere ups nepodporuje //// nasledujici radka neni nutna for (int i=0; i< knc::NumberOfVars; i++) analogPanels->upsAnalogs[i]=0L; for (int i=0; i< knc::NumberOfVars; i++) { // otestujeme zda dane UPS podporuje tuto promenou // pokud existuje vrati 1 switch (activeUpsInfo->nutVariables) { case 1: if (!activeUpsInfo->upsNet->existName(nameUpsVars1[activeUpsInfo->record.upsVarCode[i]])) activeUpsInfo->record.upsVarCode[ii++] = activeUpsInfo->record.upsVarCode[i]; break; case 2: if (!activeUpsInfo->upsNet->existName(nameUpsVars2[activeUpsInfo->record.upsVarCode[i]])) activeUpsInfo->record.upsVarCode[ii++] = activeUpsInfo->record.upsVarCode[i]; break; } } for (int i=ii; i< knc::NumberOfVars; i++) activeUpsInfo->record.upsVarCode[i]=0;// doplnime zbytek nulami to znamena zadna promena for (int i=0; i< knc::NumberOfVars; i++) { if (activeUpsInfo->record.upsVarCode[i] != 0) { analogRecords->getData (activeUpsInfo->record.upsVarCode[i], analogMemberData); analogPanels->scaleEnd[i]=analogMemberData.end; analogPanels->scaleStart[i]=analogMemberData.start; QColor analogFingerColor, analogScaleColor, analogFontColor; if (settingData->customOAnalogColor) { analogFingerColor = settingData->analogFingerColor; analogScaleColor = settingData->analogScaleColor; analogFontColor = settingData->analogFontColor; } else { analogFingerColor = DEFAULT_FINGER_COLOR; analogScaleColor = DEFAULT_SCALE_COLOR; analogFontColor = DEFAULT_FONT_COLOR; } if (settingData->customFont) analogPanels->upsAnalogs[i] = new KAnalog( analogArea,0L,analogMemberData.start,analogMemberData.end,analogMemberData.typeAnalog,analogMemberData.numberItem,analogMemberData.numberInItem,analogFingerColor,analogScaleColor,analogFontColor,&(settingData->aPanelFont)); else analogPanels->upsAnalogs[i] = new KAnalog( analogArea,0L,analogMemberData.start,analogMemberData.end,analogMemberData.typeAnalog,analogMemberData.numberItem,analogMemberData.numberInItem,analogFingerColor,analogScaleColor,analogFontColor,&(settingData->systemFont)); //nastavime barvu mezikruzi if (settingData->customOAnalogColor) { analogPanels->upsAnalogs[i]->setArcColor(1,settingData->analogOKColor); analogPanels->upsAnalogs[i]->setArcColor(2,settingData->analogWarnningColor); analogPanels->upsAnalogs[i]->setArcColor(3,settingData->analogErrorColor); } // po vygenerovani panelu jsou standartni barvy nastaveny automaticky //nastavime mezikruzi for (int j = 0; j < 5; j++ ) { if (!((analogMemberData.scaleData[j].start == 0) && (analogMemberData.scaleData[j].end ==0 ))) { analogPanels->upsAnalogs[i]->addArc (analogMemberData.scaleData[j].start,analogMemberData.scaleData[j].end,analogMemberData.scaleData[j].scaleColor, false); } } analogPanels->upsAnalogs[i]->setText(analogMemberData.nameAnalog,analogMemberData.nameUnit); analogPanels->upsAnalogs[i]->setPalette(aPanelPalette); } } analogArea->repaint(); /// analogSV->resizeContents(sizeHint().width(),sizeHint().height()); } void KNutPanelMeter::setSize (bool showPanels) { int row =0; int col=0; int maxCols =0; int maxRows =0; if (!activeUpsInfo->netError) { for (int i=0; i< knc::NumberOfVars; i++) { if (activeUpsInfo->record.upsVarCode[i] != 0) { if (maxCols < settingData->countCols) maxCols++; maxRows = row+1; // jestlize upsAnalogs =0 nejsou aktivovany if (analogPanels->upsAnalogs[i]) { analogPanels->upsAnalogs[i]->move (SpacePanels + (SpacePanels)+(col*(KAnalog::AnalogWidth+SpacePanels)),SpacePanels+(row*(KAnalog::AnalogWidth+SpacePanels))); if (showPanels) analogPanels->upsAnalogs[i]->show(); } col++; if (col > (settingData->countCols-1) ) {col=0; row++;}; // prechod na dalsi radku } } } // musime nastavit velikost widthArea = (KAnalog::AnalogWidth + SpacePanels)*maxCols +2*SpacePanels; // sirka heightArea = (KAnalog::AnalogWidth + SpacePanels)*(maxRows) + SpacePanels; // minimalni velikost podle mericich panelu analogArea->setMinimumSize (widthArea,heightArea); adjustSize(); resizeContents(widthArea,heightArea); repaint(); } void KNutPanelMeter::repaintScaleAnalogPanel (int panelNumber, float value) { if (analogPanels->upsAnalogs[panelNumber] != 0L){ switch (activeUpsInfo->record.upsVarCode[panelNumber]) { case knc::VarCurrent : // output.current if (analogPanels->scaleEnd[panelNumber] < MaxCurrent) { if (analogPanels->scaleEnd[panelNumber] < value) { analogPanels->scaleEnd[panelNumber]=(static_cast(floor((value+1)/5)))*5 +5; if (analogPanels->scaleEnd[panelNumber] > MaxCurrent) analogPanels->scaleEnd[panelNumber]=MaxCurrent; analogPanels->upsAnalogs[panelNumber]->setRange(analogPanels->scaleStart[panelNumber],analogPanels->scaleEnd[panelNumber],true); } } break; case knc::VarBattVolt : // battery.voltage if (analogPanels->scaleEnd[panelNumber] < MaxBattVolt) { if (analogPanels->scaleEnd[panelNumber] < value) { analogPanels->scaleEnd[panelNumber]=(static_cast(floor((value+1)/10)))*10 +10; if (analogPanels->scaleEnd[panelNumber] > MaxBattVolt) analogPanels->scaleEnd[panelNumber]=MaxBattVolt; analogPanels->upsAnalogs[panelNumber]->setRange(analogPanels->scaleStart[panelNumber],analogPanels->scaleEnd[panelNumber],true); } } break; case knc::VarBattCurrent : // battery.current if (analogPanels->scaleEnd[panelNumber] < MaxBattCurrent) { if ((analogPanels->scaleEnd[panelNumber] < value) || (analogPanels->scaleStart[panelNumber] > value)) { if ((value >10) || (value <- 15)) { if ((value >20) || (value < -30)) { analogPanels->scaleEnd[panelNumber]=30; analogPanels->scaleStart[panelNumber]=-45; } else { analogPanels->scaleEnd[panelNumber]=20; analogPanels->scaleStart[panelNumber]=-30; } analogPanels->upsAnalogs[panelNumber]->setFinger(value); // jistota pokud by nam to nekde propadlo analogPanels->upsAnalogs[panelNumber]->hide();// schovame analogovy panel hides analog panel analogPanels->upsAnalogs[panelNumber]->setRange (analogPanels->scaleStart[panelNumber],analogPanels->scaleEnd[panelNumber]); analogPanels->upsAnalogs[panelNumber]->repaint(); // prekreslime , repaints panel analogPanels->upsAnalogs[panelNumber]->show(); //zobrazime merak shows analog panel } } } break; } // end switch } } void KNutPanelMeter::repaintAnalogFinger (int panelNumber, float value) { if (analogPanels->upsAnalogs[panelNumber] != 0L) analogPanels->upsAnalogs[panelNumber]->setFinger (value); // nastavi hodnotu rucicky } void KNutPanelMeter::setAnalogBG(QPalette taPanelPalette) { aPanelPalette = taPanelPalette; for (int i=0; i< knc::NumberOfVars; i++) { if ((activeUpsInfo->record.upsVarCode[i]) && (analogPanels->upsAnalogs[i])) analogPanels->upsAnalogs[i]->setPalette(aPanelPalette); } } void KNutPanelMeter::repaintAnalogPanels (bool repaintFrequencyPanels, bool repaintVoltagePanels, bool repaintAllPanels) { VarStrucDef analogMemberData; if (analogPanels == 0) return; // pregenerovani panelu slouzi pro settingMain a setting Analog for (int i=0; i< knc::NumberOfVars; i++) { if ((activeUpsInfo->record.upsVarCode[i]) && (analogPanels->upsAnalogs[i])) { if (((activeUpsInfo->record.upsVarCode[i] == knc::VarAcfreq) && (repaintFrequencyPanels)) || (((activeUpsInfo->record.upsVarCode[i] == knc::VarUtility) || (activeUpsInfo->record.upsVarCode[i] == knc::VarOutVolt)) && (repaintVoltagePanels))) { analogRecords->getData (activeUpsInfo->record.upsVarCode[i], analogMemberData); // nacteme data analogPanels->upsAnalogs[i]->hide();// schovame analogovy panel analogPanels->upsAnalogs[i]->delArc(); //zrusime segmenty analogPanels->upsAnalogs[i]->setRange (analogMemberData.start,analogMemberData.end); for (int j = 0; j < 5; j++ ) { if (!((analogMemberData.scaleData[j].start == 0) && (analogMemberData.scaleData[j].end ==0 ))) { analogPanels->upsAnalogs[i]->addArc (analogMemberData.scaleData[j].start,analogMemberData.scaleData[j].end,analogMemberData.scaleData[j].scaleColor, false); } // end if (! }// end for (int i=0 analogPanels->upsAnalogs[i]->repaint(); // prekreslime analogPanels->upsAnalogs[i]->show(); //zobrazime merak } // end if (((activeUpsInfo if (repaintAllPanels) { if (settingData->customOAnalogColor) { analogPanels->upsAnalogs[i]->setFingerColor(settingData->analogFingerColor); analogPanels->upsAnalogs[i]->setArcColor(1,settingData->analogOKColor); analogPanels->upsAnalogs[i]->setArcColor(2,settingData->analogWarnningColor); analogPanels->upsAnalogs[i]->setArcColor(3,settingData->analogErrorColor); analogPanels->upsAnalogs[i]->setScaleColor(settingData->analogScaleColor); analogPanels->upsAnalogs[i]->setFontColor(settingData->analogFontColor); } else { analogPanels->upsAnalogs[i]->setFingerColor (DEFAULT_FINGER_COLOR); analogPanels->upsAnalogs[i]->setDefaultArcColor(); analogPanels->upsAnalogs[i]->setScaleColor (DEFAULT_SCALE_COLOR); analogPanels->upsAnalogs[i]->setFontColor (DEFAULT_FONT_COLOR); } analogPanels->upsAnalogs[i]->repaintAll(); } } } // end for } void KNutPanelMeter::zeroingPanels (void) { if (analogPanels) { for (int i=0; i< knc::NumberOfVars; i++) { if ((analogPanels->upsAnalogs[i] != 0L) && (activeUpsInfo->record.upsVarCode[i] != 0)) // jistota pokud by nam to nekde propadlo analogPanels->upsAnalogs[i]->setFinger (0); // nastavi hodnotu rucicky } } } QSize KNutPanelMeter::sizeHint (void){ return QSize(widthArea,heightArea); } void KNutPanelMeter::slotSetPanelsFont(QFont newFont) { for (int i=0; i< knc::NumberOfVars; i++) { if ((activeUpsInfo->record.upsVarCode[i]) && (analogPanels->upsAnalogs[i])) { analogPanels->upsAnalogs[i]->slotSetAllFont(newFont); } } } #include "knutpanelmeter.moc"