/*
* Title: PupeSimulateWin.cpp
* Author: M.Thomas BEAM Ltd
* Date: 2007-02-13
*
* Contents: Status Display
*
* Mod Rec:
*
*/
#include <PupeSimulateWin.h>
#include <qlayout.h>
#include <qpushbutton.h>
#include <qvgroupbox.h>
#include <qmessagebox.h>
#include <qlabel.h>
#include <qfiledialog.h>
#include <qcheckbox.h>
#include <BFile.h>
#include <qgroupbox.h>
#include <qvbox.h>
#include <Globals.h>
#include <qgrid.h>
#include <TmsLib.h>
using namespace Tms;
PupeSimulateWin::PupeSimulateWin(QWidget* parent,Control& c) : ocontrol(c) {
QGridLayout* grid;
QButton* fileSelectButton;
QVGroupBox* channelGroup;
QVGroupBox* testDataGroup;
QVGroupBox* internalTimingsGroup;
QGroupBox* tmsGroup;
QWidget* w;
QGridLayout* v;
BString s;
int row = 0;
setFixedWidth(600);
grid = new QGridLayout(this, 5, 3);
grid->setMargin(20);
grid->setSpacing(20);
channelGroup = new QVGroupBox("Pupe Channel", this, "channelGroup");
w = new QWidget(channelGroup, "");
v = new QGridLayout(w);
v->setSpacing(10);
row = 0;
v->addWidget(new QLabel("All Channels", w), row, 0);
v->addWidget(oallChannels = new QCheckBox("", w), row, 1);
row++;
v->addWidget(new QLabel("Channel Number", w), row, 0);
v->addWidget(ochannel = new QSpinBox(1, 60, 1, w, ""), row, 1);
ochannel->setWrapping(true);
internalTimingsGroup = new QVGroupBox("Internal Timing Control", channelGroup, "internalTimings");
w = new QWidget(internalTimingsGroup,"internalTimingsW");
v = new QGridLayout(w);
v->setSpacing(10);
row = 0;
v->addMultiCellWidget(oadcSysclkSync = new QCheckBox("ADC Clock synchronised to SYSCLK",w,""),row,row,0,1);
v->addMultiCellWidget(odisableBlr = new QCheckBox("Disable Blr",w,""),row,row,2,3);
row++;
row++;
v->addWidget(oFref = new QCheckBox("Fref",w,""),row,0);
v->addWidget(oHChange = new QCheckBox("H Change",w,""),row,1);
v->addWidget(oInjection = new QCheckBox("Injection",w,""),row,2);
v->addWidget(oCalStop = new QCheckBox("Cal Stop",w,""),row,3);
row++;
v->addWidget(oCalStart = new QCheckBox("Cal Start",w,""),row,0);
v->addWidget(oCycleStop = new QCheckBox("Cycle Stop",w,""),row,1);
v->addWidget(oCycleStart = new QCheckBox("Cycle Start",w,""),row,2);
v->addWidget(oClock = new QCheckBox("Clock",w,""),row,3);
row++;
oiApply = new QPushButton("Apply", internalTimingsGroup,"");
oiApply->setMaximumWidth(200);
testDataGroup = new QVGroupBox("Internal Test Data", channelGroup, "testData");
w = new QWidget(testDataGroup, "testDataW");
v = new QGridLayout(w);
v->setSpacing(10);
row = 0;
v->addWidget(new QLabel("Test Data file",w), row, 0);
v->addWidget(osimulationRamFilename = new QLineEdit(w,"ramfilename"), row, 1);
v->addWidget(fileSelectButton = new QPushButton("Select",w,""), row,2);
row++;
v->addWidget(oloadSimulationRam = new QPushButton("Load Test Data",w,""), row, 0);
v->addWidget(oclearSimulationRam = new QPushButton("Clear Test Data",w,""), row, 1);
tmsGroup = new QVGroupBox("TMS Control", this, "tmsControl");
w = new QWidget(tmsGroup, "tmsControlW");
v = new QGridLayout(w);
v->setSpacing(10);
row = 0;
v->addWidget(new QLabel("Initialse TMS System", w), row, 0);
v->addWidget(oInitialise = new QPushButton("Initialise TMS",w), row, 1);
oInitialise->setMaximumWidth(200);
row++;
v->addWidget(new QLabel("Current Cycletype", w), row, 0);
v->addWidget(ocycleType = new BQComboBox(w), row, 1);
v->addWidget(oapplyCycleType = new QPushButton("Apply",w), row, 2);
oapplyCycleType->setMaximumWidth(200);
row = 0;
grid->addWidget(channelGroup, row, 0); row++;
grid->addWidget(tmsGroup, row, 0); row++;
connect(fileSelectButton,SIGNAL(clicked()),this,SLOT(selectFile()));
connect(oloadSimulationRam,SIGNAL(clicked()),this,SLOT(loadRam()));
connect(oclearSimulationRam,SIGNAL(clicked()),this,SLOT(clearRam()));
connect(oInitialise,SIGNAL(clicked()),this,SLOT(initialiseTMS()));
connect(oiApply,SIGNAL(clicked()),this,SLOT(applyInternalTimings()));
connect(oapplyCycleType,SIGNAL(clicked()),this,SLOT(applyCycleType()));
connect(oallChannels, SIGNAL(stateChanged(int)), this, SLOT(updateMaxChannels()));
connect(ochannel,SIGNAL(valueChanged(int)),this,SLOT(updateTimingMask()));
connect(&ocontrol,SIGNAL(newConnection()),this,SLOT(update()));
}
PupeSimulateWin::~PupeSimulateWin() {}
void PupeSimulateWin::selectFile() {
QString s = QFileDialog::getOpenFileName(
"/usr/tms/data",
"Tms Channel Test Data File (*.psd)",
this,
"open file dialog",
"Choose a file" );
osimulationRamFilename->setText(s);
}
void PupeSimulateWin::show() {
QWidget::show();
update();
}
void PupeSimulateWin::update() {
if (! isVisible())
return;
if (updateMaxChannels())
return;
if (updateTimingMask())
return;
if (updateControlList())
return;
}
BError PupeSimulateWin::updateMaxChannels() {
BError err;
Tms::ConfigInfo info;
if(oallChannels->isChecked()){
ochannel->setEnabled(false);
}
else {
ochannel->setEnabled(true);
if (err = ocontrol.getConfiguration(info)) {
return err;
}
ochannel->setMaxValue(info.puReferences.size());
}
return err;
}
BError PupeSimulateWin::updateTimingMask() {
BError err;
Tms::PuChannel puChannel;
Tms::PupeConfig pupeConfig;
if(err = ocontrol.getPuChannel(ochannel->value(), puChannel)){
warningDialog("Pupe Update Timing Mask - ",err);
return err;
}
if(err = ocontrol.getPupeConfig(puChannel, pupeConfig)){
warningDialog("Pupe Update Timing Mask - ",err);
return err;
}
oadcSysclkSync->setChecked(pupeConfig.adcSysclkSync);
odisableBlr->setChecked(pupeConfig.disableBlr);
UInt32 mask = pupeConfig.internalTimingMask;
oClock->setChecked(mask & TimingSigClock);
oCycleStart->setChecked(mask & TimingSigCycleStart);
oCycleStop->setChecked(mask & TimingSigCycleStop);
oCalStart->setChecked(mask & TimingSigCalStart);
oCalStop->setChecked(mask & TimingSigCalStop);
oInjection->setChecked(mask & TimingSigInjection);
oHChange->setChecked(mask & TimingSigHChange);
oFref->setChecked(mask & TimingSigFRef);
return err;
}
BError PupeSimulateWin::updateControlList() {
BError err;
BIter i;
int n = 0;
UInt32 cycleNumber;
BString cycleType;
BList<CycleParamItem> l;
if (err = ocontrol.getControlList(l)) {
warningDialog("Pupe Get Control List - ",err);
return err;
}
if (err = ocontrol.getCycleInfo(cycleNumber,cycleType)) {
warningDialog("Pupe Get Control Info -",err);
return err;
}
ocycleType->clear();
for (l.start(i);! l.isEnd(i);l.next(i)) {
ocycleType->insertItem(l[i].cycleType.retStr());
if (l[i].cycleType == cycleType) {
ocycleType->setCurrentItem(n);
}
n++;
}
return err;
}
void PupeSimulateWin::loadRam() {
BError err;
BFile f;
BString fname;
Tms::PuChannel puChannel;
BArray< UInt32 > data;
int nb;
unsigned int c;
unsigned int cmax;
if(oallChannels->isChecked()){
c = 1;
cmax = ochannel->maxValue();
}
else {
cmax = c = ochannel->value();
}
fname = osimulationRamFilename->text().ascii();
if (err = f.open(fname,"r")) {
warningDialog("Pupe Test Data - Loading",err);
return;
}
data.resize(1024);
if((nb = f.read(&data[0], 1024 * sizeof(UInt32))) <= 0){
err.set(1, BString("Error: Reading 1024 32bit data items from file: ") + fname);
warningDialog("Pupe Test Data",err);
return;
}
data.resize(nb / sizeof(UInt32));
for(; c <= cmax; c++){
if(err = ocontrol.getPuChannel(c, puChannel)){
warningDialog(BString("Pupe Load Test Data Channel: ") + c + " : ", err);
return;
}
if (err = ocontrol.setTestData(puChannel,true,data)) {
warningDialog(BString("Pupe Load Test Data Channel: ") + c + " : ", err);
return;
}
}
gstatusbar->message("Ram Loaded",2000);
}
void PupeSimulateWin::initialiseTMS() {
BError err;
if (err = ocontrol.initialiseServer()) {
warningDialog("Initialising Server",err);
return;
}
update();
gstatusbar->message("TMS initialised",2000);
}
void PupeSimulateWin::applyInternalTimings() {
BError err;
Tms::PuChannel puChannel;
Tms::PupeConfig pupeConfig;
unsigned int c;
unsigned int cmax;
if(oallChannels->isChecked()){
c = 1;
cmax = ochannel->maxValue();
}
else {
cmax = c = ochannel->value();
}
pupeConfig.internalTimingMask =
oClock->isChecked() << 0 |
oCycleStart->isChecked() << 1 |
oCycleStop->isChecked() << 2 |
oCalStart->isChecked() << 3 |
oCalStop->isChecked() << 4 |
oInjection->isChecked() << 5 |
oHChange->isChecked() << 6 |
oFref->isChecked() << 7;
pupeConfig.adcSysclkSync = oadcSysclkSync->isChecked();
pupeConfig.disableBlr = odisableBlr->isChecked();
for(; c <= cmax; c++){
if(err = ocontrol.getPuChannel(c, puChannel)){
warningDialog(BString("Pupe Apply Timings Channel: ") + c + " : ", err);
return;
}
if(err = ocontrol.setPupeConfig(puChannel, pupeConfig)){
warningDialog(BString("Pupe Apply Timings Channel: ") + c + " : ", err);
return;
}
}
gstatusbar->message("Internal Timings Applied",2000);
}
void PupeSimulateWin::applyCycleType() {
BError err;
BString ct;
BString msg;
UInt32 cycleNumber;
BString cycleType;
// Get current cycle info
if(err = ocontrol.getCycleInfo(cycleNumber,cycleType)){
warningDialog("Setting Cycle Type - GetCycleInfo",err);
return;
}
cycleType = ocycleType->currentText().ascii();
cycleNumber++;
// Set NextCycle type
if(err = ocontrol.setNextCycle(cycleNumber, cycleType)){
warningDialog("Setting Cycle Type - SetNextCycle",err);
return;
}
msg.printf("Next CycleType (%s)\n",cycleType.retStr());
gstatusbar->message(msg.retStr(),2000);
}
void PupeSimulateWin::clearRam() {
BError err;
Tms::PuChannel puChannel;
BArray< UInt32 > data;
unsigned int c;
unsigned int cmax;
if(oallChannels->isChecked()){
c = 1;
cmax = ochannel->maxValue();
}
else {
cmax = c = ochannel->value();
}
for(; c <= cmax; c++){
if(err = ocontrol.getPuChannel(c, puChannel)){
warningDialog(BString("Pupe Clear Test Data Channel: ") + c + " : ", err);
return;
}
if(err = ocontrol.setTestData(puChannel, 0, data)){
warningDialog(BString("Pupe Clear Test Data Channel: ") + c + " : ", err);
return;
}
}
gstatusbar->message("Ram Cleared",2000);
}
void PupeSimulateWin::warningDialog(BString title, BError err){
BString m;
m = BString("<h5>") + title + "</h5><p>" + err.getString() + "</p>";
QMessageBox::warning(this, "Warning", m.retStr());
}