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# include "isodriver.h"
# include "isobuffer.h"
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# include "isobuffer_file.h"
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# include "platformspecific.h"
# include <math.h>
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# include "daqloadprompt.h"
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isoDriver : : isoDriver ( QWidget * parent ) : QLabel ( parent )
{
this - > hide ( ) ;
internalBuffer375_CH1 = new isoBuffer ( this , MAX_WINDOW_SIZE * ADC_SPS / 20 * 21 , this , 1 ) ;
internalBuffer375_CH2 = new isoBuffer ( this , MAX_WINDOW_SIZE * ADC_SPS / 20 * 21 , this , 1 ) ;
internalBuffer750 = new isoBuffer ( this , MAX_WINDOW_SIZE * ADC_SPS / 10 * 21 , this , 1 ) ;
isoTemp = ( char * ) malloc ( TIMER_PERIOD * ADC_SPF + 8 ) ; //8-byte header contains (unsigned long) length
char volts [ 2 ] = " V " ;
char seconds [ 2 ] = " s " ;
char hertz [ 3 ] = " Hz " ;
v0 = new siprint ( volts , 1234 ) ;
v1 = new siprint ( volts , 0 ) ;
dv = new siprint ( volts , 0 ) ;
t0 = new siprint ( seconds , 0 ) ;
t1 = new siprint ( seconds , 0 ) ;
dt = new siprint ( seconds , 0 ) ;
f = new siprint ( hertz , 0 ) ;
startTimer ( ) ;
slowTimer = new QTimer ;
slowTimer - > setTimerType ( Qt : : PreciseTimer ) ;
slowTimer - > start ( MULTIMETER_PERIOD ) ;
connect ( slowTimer , SIGNAL ( timeout ( ) ) , this , SLOT ( slowTimerTick ( ) ) ) ;
}
void isoDriver : : setDriver ( genericUsbDriver * newDriver ) {
driver = newDriver ;
qDebug ( ) < < " driver = " < < driver ;
}
void isoDriver : : setAxes ( QCustomPlot * newAxes ) {
axes = newAxes ;
qDebug ( ) < < " axes = " < < axes ;
}
void isoDriver : : setWindow ( int newWindow ) {
window = pow ( ( double ) 10 , ( ( double ) newWindow / 10 ) ) ;
windowAtPause = window ;
qDebug ( ) < < " window = " < < window ;
}
void isoDriver : : timerTick ( void ) {
//qDebug() << "isoDriver SEZ Tick!";
if ( firstFrame ) {
autoGain ( ) ;
firstFrame = false ;
}
isoTemp = driver - > isoRead ( & length ) ;
//qDebug() << length << "read in!!";
total_read + = length ;
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if ( fileModeEnabled ) {
qDebug ( ) < < " File mode is active. Abort live refresh " ;
return ;
}
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if ( length = = 0 ) {
//Zero length packet means something's gone wrong. Probably a disconnect.
qDebug ( ) < < " Zero length iso packet! " ;
//driver->killMe();
return ;
}
switch ( driver - > deviceMode ) {
case 0 :
frameActionGeneric ( 1 , 0 ) ;
break ;
case 1 :
internalBuffer375_CH2 - > channel = 1 ;
frameActionGeneric ( 1 , 2 ) ;
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if ( serialDecodeEnabled_CH1 & & serialType = = 0 ) {
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internalBuffer375_CH2 - > serialManage ( baudRate_CH1 , 0 ) ;
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}
break ;
case 2 :
frameActionGeneric ( 1 , 1 ) ;
break ;
case 3 :
frameActionGeneric ( 2 , 0 ) ;
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if ( serialDecodeEnabled_CH1 & & serialType = = 0 ) {
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internalBuffer375_CH1 - > serialManage ( baudRate_CH1 , 0 ) ;
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}
break ;
case 4 :
internalBuffer375_CH2 - > channel = 2 ;
frameActionGeneric ( 2 , 2 ) ;
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if ( serialDecodeEnabled_CH1 & & serialType = = 0 ) {
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internalBuffer375_CH1 - > serialManage ( baudRate_CH1 , 0 ) ;
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}
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if ( serialDecodeEnabled_CH2 & & serialType = = 0 ) {
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internalBuffer375_CH2 - > serialManage ( baudRate_CH2 , 0 ) ;
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}
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if ( serialDecodeEnabled_CH1 & & serialType = = 1 )
twoWire - > run ( ) ;
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break ;
case 5 :
break ;
case 6 :
frameActionGeneric ( - 1 , 0 ) ;
break ;
case 7 :
multimeterAction ( ) ;
break ;
default :
qFatal ( " Error in isoDriver::timerTick. Invalid device mode. " ) ;
}
//free(isoTemp);
}
void isoDriver : : analogConvert ( short * shortPtr , QVector < double > * doublePtr , int TOP , bool AC , int channel ) {
double scope_gain = ( double ) ( driver - > scopeGain ) ;
double accumulated = 0 ;
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double accumulated_square = 0 ;
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currentVmax = - 20 ;
currentVmin = 20 ;
double ref = ( channel = = 1 ? ch1_ref : ch2_ref ) ;
double frontendGain = ( channel = = 1 ? frontendGain_CH1 : frontendGain_CH2 ) ;
double * data = doublePtr - > data ( ) ;
for ( int i = 0 ; i < GRAPH_SAMPLES ; i + + ) {
data [ i ] = ( shortPtr [ i ] * ( vcc / 2 ) ) / ( frontendGain * scope_gain * TOP ) ;
if ( driver - > deviceMode ! = 7 ) data [ i ] + = ref ;
# ifdef INVERT_MM
if ( driver - > deviceMode = = 7 ) data [ i ] * = - 1 ;
# endif
accumulated + = data [ i ] ;
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accumulated_square + = data [ i ] * data [ i ] ;
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if ( data [ i ] > currentVmax ) currentVmax = data [ i ] ;
if ( data [ i ] < currentVmin ) currentVmin = data [ i ] ;
}
currentVmean = accumulated / GRAPH_SAMPLES ;
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currentVRMS = sqrt ( accumulated_square / GRAPH_SAMPLES ) ;
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if ( AC ) {
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//Previous measurments are wrong, edit and redo.
accumulated = 0 ;
accumulated_square = 0 ;
currentVmax = - 20 ;
currentVmin = 20 ;
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for ( int i = 0 ; i < GRAPH_SAMPLES ; i + + ) {
data [ i ] - = currentVmean ;
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accumulated + = data [ i ] ;
accumulated_square + = ( data [ i ] * data [ i ] ) ;
if ( data [ i ] > currentVmax ) currentVmax = data [ i ] ;
if ( data [ i ] < currentVmin ) currentVmin = data [ i ] ;
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}
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currentVmean = accumulated / GRAPH_SAMPLES ;
currentVRMS = sqrt ( accumulated_square / GRAPH_SAMPLES ) ;
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}
//cool_waveform = cool_waveform - AC_offset;
}
void isoDriver : : digitalConvert ( short * shortPtr , QVector < double > * doublePtr ) {
double * data = doublePtr - > data ( ) ;
double top = topRange - ( topRange - botRange ) / 10 ;
double bot = botRange + ( topRange - botRange ) / 10 ;
for ( int i = 0 ; i < GRAPH_SAMPLES ; i + + ) {
data [ i ] = shortPtr [ i ] ? top : bot ;
}
//cool_waveform = cool_waveform - AC_offset;
}
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void isoDriver : : fileStreamConvert ( float * floatPtr , QVector < double > * doublePtr ) {
double * data = doublePtr - > data ( ) ;
for ( int i = 0 ; i < GRAPH_SAMPLES ; i + + ) {
data [ i ] = floatPtr [ i ] ;
}
}
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void isoDriver : : startTimer ( ) {
/*if (isoTimer!=NULL){
delete isoTimer ;
isoTimer = NULL ;
}
isoTimer = new QTimer ( ) ;
isoTimer - > setTimerType ( Qt : : PreciseTimer ) ;
isoTimer - > start ( TIMER_PERIOD ) ;
connect ( isoTimer , SIGNAL ( timeout ( ) ) , this , SLOT ( timerTick ( ) ) ) ;
//qFatal("ISO TIMER STARTED");*/
}
void isoDriver : : clearBuffers ( bool ch3751 , bool ch3752 , bool ch750 ) {
if ( ch3751 ) internalBuffer375_CH1 - > clearBuffer ( ) ;
if ( ch3752 ) internalBuffer375_CH2 - > clearBuffer ( ) ;
if ( ch750 ) internalBuffer750 - > clearBuffer ( ) ;
}
void isoDriver : : setVisible_CH2 ( bool visible ) {
axes - > graph ( 1 ) - > setVisible ( visible ) ;
}
void isoDriver : : setVoltageRange ( QWheelEvent * event ) {
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if ( doNotTouchGraph & & ! fileModeEnabled ) return ;
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if ( ! ( event - > modifiers ( ) = = Qt : : ControlModifier ) ) {
double c = ( topRange - botRange ) / ( double ) 400 ;
QCPRange range = axes - > yAxis - > range ( ) ;
double pixPct = ( double ) 100 - ( ( double ) 100 * ( ( ( double ) axes - > yAxis - > pixelToCoord ( event - > y ( ) ) - range . lower ) / ( double ) ( range . upper - range . lower ) ) ) ;
if ( pixPct < 0 ) pixPct = 0 ;
if ( pixPct > 100 ) pixPct = 100 ;
qDebug ( ) < < " WHEEL @ " < < pixPct < < " % " ;
qDebug ( ) < < range . upper ;
//qDebug() << event->delta();
if ( event - > delta ( ) = = 120 ) {
topRange - = c * ( ( double ) pixPct ) ;
botRange + = c * ( ( double ) 100 - ( double ) pixPct ) ;
}
else {
topRange + = c * ( ( double ) pixPct ) ;
botRange - = c * ( ( double ) 100 - ( double ) pixPct ) ;
}
if ( topRange > ( double ) 20 ) topRange = ( double ) 20 ;
if ( botRange < - ( double ) 20 ) botRange = ( double ) - 20 ;
if ( autoGainEnabled & & ! properlyPaused ( ) ) autoGain ( ) ;
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topRangeUpdated ( topRange ) ;
botRangeUpdated ( botRange ) ;
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}
else if ( properlyPaused ( ) ) {
double c = ( window ) / ( double ) 200 ;
QCPRange range = axes - > xAxis - > range ( ) ;
double pixPct = ( double ) 100 * ( ( ( double ) axes - > xAxis - > pixelToCoord ( event - > x ( ) ) - range . lower ) / ( double ) ( range . upper - range . lower ) ) ;
if ( pixPct < 0 ) pixPct = 0 ;
if ( pixPct > 100 ) pixPct = 100 ;
qDebug ( ) < < " WHEEL @ " < < pixPct < < " % " ;
qDebug ( ) < < event - > delta ( ) ;
if ( event - > delta ( ) = = 120 ) {
window - = c * ( ( double ) pixPct ) ;
delay + = c * ( ( double ) 100 - ( double ) pixPct ) * pixPct / 100 ;
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delayUpdated ( delay ) ;
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}
else {
window + = c * ( ( double ) pixPct ) ;
delay - = c * ( ( double ) 100 - ( double ) pixPct ) * pixPct / 100 ;
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delayUpdated ( delay ) ;
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}
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double mws = fileModeEnabled ? daq_maxWindowSize : ( ( double ) MAX_WINDOW_SIZE ) ;
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if ( window > mws )
{
window = mws ;
timeWindowUpdated ( window ) ;
}
if ( ( window + delay ) > mws )
{
delay - = window + delay - mws ;
delayUpdated ( delay ) ;
}
if ( delay < 0 )
{
delay = 0 ;
delayUpdated ( delay ) ;
}
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qDebug ( ) < < window < < delay ;
} else {
qDebug ( ) < < " TIGGERED " ;
double c = ( window ) / ( double ) 200 ;
QCPRange range = axes - > xAxis - > range ( ) ;
double pixPct = ( double ) 100 * ( ( ( double ) axes - > xAxis - > pixelToCoord ( event - > x ( ) ) - range . lower ) / ( double ) ( window ) ) ;
if ( pixPct < 0 ) pixPct = 0 ;
if ( pixPct > 100 ) pixPct = 100 ;
qDebug ( ) < < " WHEEL @ " < < pixPct < < " % " ;
qDebug ( ) < < event - > delta ( ) ;
qDebug ( ) < < " upper = " < < range . upper < < " lower = " < < range . lower ;
qDebug ( ) < < " triggerDelay = " < < triggerDelay ;
qDebug ( ) < < " window = " < < window ;
qDebug ( ) < < c * ( ( double ) pixPct ) ;
qDebug ( ) < < c * ( ( double ) 100 - ( double ) pixPct ) * pixPct / 100 ;
if ( event - > delta ( ) = = 120 ) {
window - = c * ( ( double ) pixPct ) ;
delay + = c * ( ( double ) 100 - ( double ) pixPct ) * pixPct / 100 ;
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delayUpdated ( delay ) ;
timeWindowUpdated ( window ) ;
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}
else {
window + = c * ( ( double ) pixPct ) ;
delay - = c * ( ( double ) 100 - ( double ) pixPct ) * pixPct / 100 ;
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delayUpdated ( delay ) ;
timeWindowUpdated ( window ) ;
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}
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double mws = fileModeEnabled ? daq_maxWindowSize : ( ( double ) MAX_WINDOW_SIZE ) ;
if ( window > mws ) window = mws ;
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if ( ( window + delay ) > mws )
{
delay - = window + delay - mws ;
delayUpdated ( delay ) ;
}
if ( delay < 0 )
{
delay = 0 ;
delayUpdated ( delay ) ;
}
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windowAtPause = window ;
qDebug ( ) < < window < < delay ;
}
//changeTimeAxis(event->delta()==-120);
//qDebug() << window;
}
bool isoDriver : : properlyPaused ( ) {
if ( paused_CH1 & paused_CH2 ) {
qDebug ( ) < < " Properly paused " ;
return true ;
}
if ( ( driver - > deviceMode = = 0 ) | | ( driver - > deviceMode = = 3 ) | | ( driver - > deviceMode = = 6 ) ) {
if ( paused_CH1 ) qDebug ( ) < < " Properly paused " ; else qDebug ( ) < < " Not properly paused " ;
return paused_CH1 ;
}
if ( paused_multimeter ) {
qDebug ( ) < < " Properly paused " ;
return true ;
}
qDebug ( ) < < " Not properly paused " ;
return false ;
}
void isoDriver : : pauseEnable_CH1 ( bool enabled ) {
paused_CH1 = enabled ;
if ( ! properlyPaused ( ) ) {
delay = 0 ;
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delayUpdated ( delay ) ;
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if ( autoGainEnabled ) autoGain ( ) ;
//window = windowAtPause;
}
if ( ! enabled ) clearBuffers ( 1 , 0 , 1 ) ;
qDebug ( ) < < " pauseEnable_CH1 " < < enabled ;
}
void isoDriver : : pauseEnable_CH2 ( bool enabled ) {
paused_CH2 = enabled ;
if ( ! properlyPaused ( ) ) {
delay = 0 ;
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delayUpdated ( delay ) ;
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if ( autoGainEnabled ) autoGain ( ) ;
//window = windowAtPause;
}
if ( ! enabled ) clearBuffers ( 0 , 1 , 0 ) ;
}
void isoDriver : : pauseEnable_multimeter ( bool enabled ) {
paused_multimeter = enabled ;
if ( ! properlyPaused ( ) ) {
delay = 0 ;
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delayUpdated ( delay ) ;
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//window = windowAtPause;
}
if ( ! enabled ) clearBuffers ( 1 , 0 , 0 ) ;
qDebug ( ) < < " pauseEnable_multimeter " < < enabled ;
}
void isoDriver : : autoGain ( ) {
double maxgain = vcc / ( 2 * ( ( double ) topRange - vref ) * R4 / ( R3 + R4 ) ) ;
double mingain = vcc / ( 2 * ( ( double ) botRange - vref ) * R4 / ( R3 + R4 ) ) ;
maxgain = fmin ( fabs ( mingain ) * 0.98 , fabs ( maxgain ) * 0.98 ) ;
double snap [ 8 ] = { 64 , 32 , 16 , 8 , 4 , 2 , 1 , 0.5 } ;
for ( int i = 0 ; i < 8 ; i + + ) {
if ( maxgain > snap [ i ] ) {
setGain ( snap [ i ] ) ;
return ;
}
}
}
void isoDriver : : gainBuffers ( double multiplier ) {
multi = multiplier ;
QTimer : : singleShot ( TIMER_PERIOD * 4 , this , SLOT ( gainTick ( ) ) ) ;
}
void isoDriver : : gainTick ( void ) {
# ifdef PLATFORM_ANDROID
# warning: "gainTick does nothing on Android!!"
# else
qDebug ( ) < < " Multiplying by " < < multi ;
if ( driver - > deviceMode < 5 ) internalBuffer375_CH1 - > gainBuffer ( log2 ( multi ) ) ;
if ( ( driver - > deviceMode = = 1 ) | ( driver - > deviceMode = = 2 ) | ( driver - > deviceMode = = 4 ) ) internalBuffer375_CH2 - > gainBuffer ( log2 ( multi ) ) ;
if ( ( driver - > deviceMode = = 6 ) | ( driver - > deviceMode = = 7 ) ) internalBuffer750 - > gainBuffer ( log2 ( multi ) ) ;
# endif
}
void isoDriver : : setAutoGain ( bool enabled ) {
autoGainEnabled = enabled ;
if ( enabled ) {
autoGain ( ) ;
}
}
void isoDriver : : graphMousePress ( QMouseEvent * event ) {
qDebug ( ) < < event - > button ( ) ;
if ( horiCursorEnabled & & ( event - > button ( ) = = Qt : : LeftButton ) ) {
placingHoriAxes = true ;
y0 = axes - > yAxis - > pixelToCoord ( event - > y ( ) ) ;
# ifndef PLATFORM_ANDROID
} else if ( vertCursorEnabled & & ( event - > button ( ) = = Qt : : RightButton ) ) {
# else
} if ( vertCursorEnabled ) {
# endif
placingVertAxes = true ;
x0 = axes - > xAxis - > pixelToCoord ( event - > x ( ) ) ;
}
qDebug ( ) < < " x0 = " < < x0 < < " x1 = " < < x1 < < " y0 = " < < y0 < < " y1 = " < < y1 ;
}
void isoDriver : : graphMouseRelease ( QMouseEvent * event ) {
if ( horiCursorEnabled & & placingHoriAxes & & ( event - > button ( ) = = Qt : : LeftButton ) ) {
placingHoriAxes = false ;
# ifndef PLATFORM_ANDROID
} else if ( vertCursorEnabled & & placingVertAxes & & ( event - > button ( ) = = Qt : : RightButton ) ) {
# else
} if ( vertCursorEnabled & & placingVertAxes ) {
# endif
placingVertAxes = false ;
}
qDebug ( ) < < " x0 = " < < x0 < < " x1 = " < < x1 < < " y0 = " < < y0 < < " y1 = " < < y1 ;
}
void isoDriver : : graphMouseMove ( QMouseEvent * event ) {
if ( horiCursorEnabled & & placingHoriAxes ) {
y1 = axes - > yAxis - > pixelToCoord ( event - > y ( ) ) ;
# ifndef PLATFORM_ANDROID
} else if ( vertCursorEnabled & & placingVertAxes ) {
# else
} if ( vertCursorEnabled & & placingVertAxes ) {
# endif
x1 = axes - > xAxis - > pixelToCoord ( event - > x ( ) ) ;
}
}
void isoDriver : : cursorEnableHori ( bool enabled ) {
horiCursorEnabled = enabled ;
axes - > graph ( 4 ) - > setVisible ( enabled ) ;
axes - > graph ( 5 ) - > setVisible ( enabled ) ;
}
void isoDriver : : cursorEnableVert ( bool enabled ) {
vertCursorEnabled = enabled ;
axes - > graph ( 2 ) - > setVisible ( enabled ) ;
axes - > graph ( 3 ) - > setVisible ( enabled ) ;
}
void isoDriver : : udateCursors ( void ) {
if ( ! ( vertCursorEnabled | | horiCursorEnabled ) ) {
# if QCP_VER == 1
cursorTextPtr - > setVisible ( 0 ) ;
# endif
return ;
}
QVector < double > vert0x ( 2 ) , vert1x ( 2 ) , hori0x ( 2 ) , hori1x ( 2 ) , vert0y ( 2 ) , vert1y ( 2 ) , hori0y ( 2 ) , hori1y ( 2 ) ;
vert0x [ 0 ] = x0 ;
vert0x [ 1 ] = x0 ;
vert0y [ 0 ] = botRange ;
vert0y [ 1 ] = topRange ;
vert1x [ 0 ] = x1 ;
vert1x [ 1 ] = x1 ;
vert1y [ 0 ] = botRange ;
vert1y [ 1 ] = topRange ;
hori0x [ 0 ] = - window - delay ;
hori0x [ 1 ] = - delay ;
hori0y [ 0 ] = y0 ;
hori0y [ 1 ] = y0 ;
hori1x [ 0 ] = - window - delay ;
hori1x [ 1 ] = - delay ;
hori1y [ 0 ] = y1 ;
hori1y [ 1 ] = y1 ;
if ( vertCursorEnabled ) {
axes - > graph ( 2 ) - > setData ( vert0x , vert0y ) ;
axes - > graph ( 3 ) - > setData ( vert1x , vert1y ) ;
}
if ( horiCursorEnabled ) {
axes - > graph ( 4 ) - > setData ( hori0x , hori0y ) ;
axes - > graph ( 5 ) - > setData ( hori1x , hori1y ) ;
}
# if QCP_VER == 1
cursorTextPtr - > setVisible ( cursorStatsEnabled ) ;
# endif
if ( ! cursorStatsEnabled ) return ;
QString * cursorStatsString = new QString ( ) ;
v0 - > value = y0 ;
v1 - > value = y1 ;
dv - > value = y0 - y1 ;
t0 - > value = x0 ;
t1 - > value = x1 ;
dt - > value = fabs ( x0 - x1 ) ;
f - > value = 1 / ( x1 - x0 ) ;
char temp_hori [ 64 ] ;
char temp_vert [ 64 ] ;
char temp_separator [ 2 ] ;
sprintf ( temp_hori , " V0=%s, V1=%s, ΔV=%s " , v0 - > printVal ( ) , v1 - > printVal ( ) , dv - > printVal ( ) ) ;
sprintf ( temp_vert , " t0=%s, t1=%s, Δt=%s, f=%s " , t0 - > printVal ( ) , t1 - > printVal ( ) , dt - > printVal ( ) , f - > printVal ( ) ) ;
sprintf ( temp_separator , " \n " ) ;
//sprintf(temp, "hello!");
if ( horiCursorEnabled ) cursorStatsString - > append ( temp_hori ) ;
if ( horiCursorEnabled & & vertCursorEnabled ) cursorStatsString - > append ( temp_separator ) ;
if ( vertCursorEnabled ) cursorStatsString - > append ( temp_vert ) ;
//qDebug() << temp;
# if QCP_VER == 1
cursorTextPtr - > setText ( * ( cursorStatsString ) ) ;
# endif
delete cursorStatsString ;
}
int isoDriver : : trigger ( void ) {
if ( driver - > deviceMode > 2 & & driver - > deviceMode < 6 ) { //No scope
return - 2 ;
}
if ( triggerType > 1 & & driver - > deviceMode ! = 2 ) { //No CH2!
return - 1 ;
}
bool AC = ( triggerType > 1 ) ? AC_CH2 : AC_CH1 ;
double offsetMean = AC ? currentVmean : 0 ;
short target = ( triggerType % 2 ) ? reverseFrontEnd ( triggerLevel * 1.1 + offsetMean ) : reverseFrontEnd ( triggerLevel + offsetMean ) ;
short lowThresh = ( triggerType % 2 ) ? reverseFrontEnd ( triggerLevel + offsetMean ) : reverseFrontEnd ( triggerLevel * 0.9 + offsetMean ) ;
int location = - 1 ;
if ( driver - > deviceMode = = 7 ) {
for ( unsigned int i = 0 ; i < length / 2 ; i + + ) {
if ( i % 750 > = VALID_DATA_PER_750 ) continue ; //Not a valid sample
//A bit of thresholding...
//Gives DAT STABILITY
//qDebug() << isoTemp_short[i+4];
if ( isoTemp_short [ i ] > = target ) {
triggerCountSeeking = ( triggerType % 2 ) ? 0 : triggerCountSeeking + 1 ;
triggerCountNotSeeking = ( triggerType % 2 ) ? triggerCountNotSeeking + 1 : 0 ;
}
else if ( isoTemp_short [ i ] < lowThresh ) {
triggerCountNotSeeking = ( triggerType % 2 ) ? 0 : triggerCountNotSeeking + 1 ;
triggerCountSeeking = ( triggerType % 2 ) ? triggerCountSeeking + 1 : 0 ;
}
else {
triggerCountSeeking = 0 ;
triggerCountNotSeeking = 0 ;
}
//Check for found
if ( triggerSeeking & & ( triggerCountSeeking > TRIGGER_COUNT_THRESH ) ) {
if ( location = = - 1 ) location = i ;
triggerSeeking = false ;
}
//Check for lost
if ( ( ! triggerSeeking ) & & ( triggerCountNotSeeking > TRIGGER_COUNT_THRESH ) ) {
triggerSeeking = true ;
}
}
}
else {
for ( unsigned int i = 0 ; i < length ; i + + ) {
if ( driver - > deviceMode ! = 6 ) {
if ( ( ( i % 750 > VALID_DATA_PER_375 ) & & ( triggerType < 2 ) ) | | ( ( ( i % 750 < 375 ) | | ( i % 750 = = VALID_DATA_PER_750 ) ) & & ( triggerType > 1 ) ) ) continue ; //Not a valid sample
}
//A bit of thresholding...
//Gives DAT STABILITY
if ( isoTemp [ i ] > = target ) {
triggerCountSeeking = ( triggerType % 2 ) ? 0 : triggerCountSeeking + 1 ;
triggerCountNotSeeking = ( triggerType % 2 ) ? triggerCountNotSeeking + 1 : 0 ;
}
else if ( isoTemp [ i ] < lowThresh ) {
triggerCountNotSeeking = ( triggerType % 2 ) ? 0 : triggerCountNotSeeking + 1 ;
triggerCountSeeking = ( triggerType % 2 ) ? triggerCountSeeking + 1 : 0 ;
}
else {
triggerCountSeeking = 0 ;
triggerCountNotSeeking = 0 ;
}
//Check for found
if ( triggerSeeking & & ( triggerCountSeeking > TRIGGER_COUNT_THRESH ) ) {
if ( location = = - 1 ) location = i ;
triggerSeeking = false ;
}
//Check for lost
if ( ( ! triggerSeeking ) & & ( triggerCountNotSeeking > TRIGGER_COUNT_THRESH ) ) {
triggerSeeking = true ;
}
}
}
if ( singleShotEnabled & & ( location ! = - 1 ) ) {
delay = triggerDelay ;
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delayUpdated ( delay ) ;
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singleShotTriggered ( 1 ) ;
}
return location ;
}
short isoDriver : : reverseFrontEnd ( double voltage ) {
//qFatal("reverseFrontEnd driver mode 7");
# ifdef INVERT_MM
if ( driver - > deviceMode = = 7 ) voltage * = - 1 ;
# endif
double vn = vcc * ( R2 / ( R1 + R2 ) ) ;
double vx = vn + ( voltage - vn ) * ( R4 / ( R3 + R4 ) ) ;
double TOP = ( driver - > deviceMode = = 7 ) ? 2048 : 128 ;
if ( driver - > deviceMode = = 7 ) {
qDebug ( ) < < " SEEEKING " ;
qDebug ( ) < < ( ( vx - vn ) / vref * ( double ) driver - > scopeGain * ( double ) TOP + ( double ) 0.5 ) ;
qDebug ( ) < < " SEEEKING " ;
return ( ( vx - vn ) / vref * ( double ) driver - > scopeGain * ( double ) TOP + ( double ) 0.5 ) ;
}
//qDebug() << "seeking" << voltage << "V";
return ( ( vx - vn ) / vref * ( double ) driver - > scopeGain * ( double ) TOP + ( double ) 0.5 ) ;
}
void isoDriver : : setTriggerEnabled ( bool enabled ) {
triggerEnabled = enabled ;
}
void isoDriver : : setTriggerLevel ( double level ) {
triggerLevel = level ;
}
void isoDriver : : setSingleShotEnabled ( bool enabled ) {
singleShotEnabled = enabled ;
}
void isoDriver : : setTriggerMode ( int newMode ) {
triggerType = ( triggerType_enum ) newMode ;
}
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void isoDriver : : frameActionGeneric ( char CH1_mode , char CH2_mode ) //0 for off, 1 for ana, 2 for dig, -1 for ana750, -2 for file
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{
//qDebug() << "made it to frameActionGeneric";
if ( ! paused_CH1 & & CH1_mode = = - 1 ) {
for ( unsigned int i = 0 ; i < ( length / ADC_SPF ) ; i + + ) {
internalBuffer750 - > writeBuffer_char ( & isoTemp [ ADC_SPF * i ] , VALID_DATA_PER_750 ) ;
}
}
if ( ! paused_CH1 & & CH1_mode > 0 ) {
for ( unsigned int i = 0 ; i < ( length / ADC_SPF ) ; i + + ) {
internalBuffer375_CH1 - > writeBuffer_char ( & isoTemp [ ADC_SPF * i ] , VALID_DATA_PER_375 ) ;
}
}
if ( ! paused_CH2 & & CH2_mode > 0 ) {
for ( unsigned int i = 0 ; i < ( length / ADC_SPF ) ; i + + ) {
internalBuffer375_CH2 - > writeBuffer_char ( & isoTemp [ ADC_SPF * i + ADC_SPF / 2 ] , VALID_DATA_PER_375 ) ; //+375 to get the second half of the packet
}
}
if ( ! paused_CH1 ) {
int offset = - 2 ; //No trigger!
if ( triggerEnabled & & ( triggerWaiting = = 0 ) ) {
offset = trigger ( ) ;
}
if ( offset = = - 1 ) { //Trigger is active but nothing found!
return ;
}
//qDebug() << "offset =" << offset;
int backLength = length / 750 ;
backLength * = ( CH1_mode = = - 1 ) ? VALID_DATA_PER_750 : VALID_DATA_PER_375 ;
if ( offset > 0 ) {
int temp_offset = offset % 750 ;
offset / = 750 ;
offset * = ( CH1_mode = = - 1 ) ? VALID_DATA_PER_750 : VALID_DATA_PER_375 ;
offset + = temp_offset ;
}
//qDebug() << "Now offset = " << offset;
if ( ( ! paused_CH1 ) & & triggerEnabled & & ( triggerWaiting = = 0 ) ) {
triggerDelay = backLength - offset ;
triggerDelay / = ( CH1_mode = = - 1 ) ? ( VALID_DATA_PER_750 * 1000 ) : ( VALID_DATA_PER_375 * 1000 ) ;
triggerDelay + = delay ;
triggerWaiting = ( triggerDelay < ( window / 2 ) ) * 2 ;
}
//qDebug() << "triggerDelay = " << triggerDelay;
//qDebug() << "triggerWaiting =" << triggerWaiting;
if ( triggerWaiting = = 1 ) triggerWaiting = 0 ;
//qDebug() << "triggerWaiting =" << triggerWaiting;
if ( triggerEnabled & & triggerWaiting ) {
triggerDelay + = ( double ) TIMER_PERIOD / ( double ) 1000 ;
triggerWaiting = ( triggerDelay < ( window / 2 ) ) + 1 ;
return ;
}
}
readData375_CH1 = internalBuffer375_CH1 - > readBuffer ( window , GRAPH_SAMPLES , CH1_mode = = 2 , delay + ( ( triggerEnabled & & ! paused_CH1 ) ? triggerDelay + window / 2 : 0 ) ) ;
if ( CH2_mode ) readData375_CH2 = internalBuffer375_CH2 - > readBuffer ( window , GRAPH_SAMPLES , CH2_mode = = 2 , delay + ( triggerEnabled ? triggerDelay + window / 2 : 0 ) ) ;
if ( CH1_mode = = - 1 ) readData750 = internalBuffer750 - > readBuffer ( window , GRAPH_SAMPLES , false , delay + ( triggerEnabled ? triggerDelay + window / 2 : 0 ) ) ;
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if ( CH1_mode = = - 2 ) readDataFile = internalBufferFile - > readBuffer ( window , GRAPH_SAMPLES , false , delay ) ;
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//qDebug() << "Trigger Delay =" << triggerDelay;
QVector < double > x ( GRAPH_SAMPLES ) , CH1 ( GRAPH_SAMPLES ) , CH2 ( GRAPH_SAMPLES ) ;
if ( CH1_mode = = 1 ) {
analogConvert ( readData375_CH1 , & CH1 , 128 , AC_CH1 , 1 ) ;
xmin = ( currentVmin < xmin ) ? currentVmin : xmin ;
xmax = ( currentVmax > xmax ) ? currentVmax : xmax ;
broadcastStats ( 0 ) ;
}
if ( CH1_mode = = 2 ) digitalConvert ( readData375_CH1 , & CH1 ) ;
if ( CH2_mode = = 1 ) {
analogConvert ( readData375_CH2 , & CH2 , 128 , AC_CH2 , 2 ) ;
ymin = ( currentVmin < ymin ) ? currentVmin : ymin ;
ymax = ( currentVmax > ymax ) ? currentVmax : ymax ;
broadcastStats ( 1 ) ;
}
if ( CH2_mode = = 2 ) digitalConvert ( readData375_CH2 , & CH2 ) ;
if ( CH1_mode = = - 1 ) {
analogConvert ( readData750 , & CH1 , 128 , AC_CH1 , 1 ) ;
xmin = ( currentVmin < xmin ) ? currentVmin : xmin ;
xmax = ( currentVmax > xmax ) ? currentVmax : xmax ;
broadcastStats ( 0 ) ;
}
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if ( CH1_mode = = - 2 ) {
fileStreamConvert ( readDataFile , & CH1 ) ;
}
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for ( double i = 0 ; i < GRAPH_SAMPLES ; i + + ) {
x [ i ] = - ( window * i ) / ( ( double ) ( GRAPH_SAMPLES - 1 ) ) - delay ;
if ( x [ i ] > 0 ) {
CH1 [ i ] = 0 ;
CH2 [ i ] = 0 ;
}
}
udateCursors ( ) ;
if ( XYmode ) {
axes - > graph ( 0 ) - > setData ( CH1 , CH2 ) ;
axes - > xAxis - > setRange ( xmin , xmax ) ;
axes - > yAxis - > setRange ( ymin , ymax ) ;
} else {
axes - > graph ( 0 ) - > setData ( x , CH1 ) ;
if ( CH2_mode ) axes - > graph ( 1 ) - > setData ( x , CH2 ) ;
axes - > xAxis - > setRange ( - window - delay , - delay ) ;
axes - > yAxis - > setRange ( topRange , botRange ) ;
}
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if ( snapshotEnabled_CH1 ) {
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snapshotFile_CH1 - > open ( QIODevice : : WriteOnly ) ;
snapshotFile_CH1 - > write ( " t, v \n " ) ;
char tempchar [ 32 ] ;
for ( int i = 0 ; i < GRAPH_SAMPLES ; i + + ) {
sprintf ( tempchar , " %f, %f \n " , x . at ( i ) , CH1 . at ( i ) ) ;
snapshotFile_CH1 - > write ( tempchar ) ;
}
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snapshotEnabled_CH1 = false ;
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snapshotFile_CH1 - > close ( ) ;
delete ( snapshotFile_CH1 ) ;
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}
if ( snapshotEnabled_CH2 ) {
snapshotFile_CH2 - > open ( QIODevice : : WriteOnly ) ;
snapshotFile_CH2 - > write ( " t, v \n " ) ;
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char tempchar [ 32 ] ;
for ( int i = 0 ; i < GRAPH_SAMPLES ; i + + ) {
sprintf ( tempchar , " %f, %f \n " , x . at ( i ) , CH2 . at ( i ) ) ;
snapshotFile_CH2 - > write ( tempchar ) ;
}
snapshotEnabled_CH2 = false ;
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snapshotFile_CH2 - > close ( ) ;
delete ( snapshotFile_CH2 ) ;
}
axes - > replot ( ) ;
}
void isoDriver : : multimeterAction ( ) {
isoTemp_short = ( short * ) isoTemp ;
if ( ! paused_multimeter ) {
for ( unsigned int i = 0 ; i < ( length / ADC_SPF ) ; i + + ) {
internalBuffer375_CH1 - > writeBuffer_short ( & isoTemp_short [ ADC_SPF / 2 * i ] , ADC_SPF / 2 - 1 ) ; //Offset because the first 8 bytes of the array contain the length (no samples!!)!
}
}
if ( ! paused_multimeter ) {
int offset = - 2 ; //No trigger!
if ( triggerEnabled & & ( triggerWaiting = = 0 ) ) {
offset = trigger ( ) ;
}
if ( offset = = - 1 ) { //Trigger is active but nothing found!
return ;
}
//qDebug() << "offset =" << offset;
int backLength = length / 750 ;
backLength * = VALID_DATA_PER_375 ;
if ( offset > 0 ) {
int temp_offset = offset % 750 ;
offset / = 750 ;
offset * = VALID_DATA_PER_375 ;
offset + = temp_offset ;
}
//qDebug() << "Now offset = " << offset;
if ( ( ! paused_CH1 ) & & triggerEnabled & & ( triggerWaiting = = 0 ) ) {
triggerDelay = backLength - offset ;
triggerDelay / = ( VALID_DATA_PER_375 * 1000 ) ;
triggerDelay + = delay ;
triggerWaiting = ( triggerDelay < ( window / 2 ) ) * 2 ;
}
//qDebug() << "triggerDelay = " << triggerDelay;
//qDebug() << "triggerWaiting =" << triggerWaiting;
if ( triggerWaiting = = 1 ) triggerWaiting = 0 ;
//qDebug() << "triggerWaiting =" << triggerWaiting;
if ( triggerEnabled & & triggerWaiting ) {
triggerDelay + = ( double ) TIMER_PERIOD / ( double ) 1000 ;
triggerWaiting = ( triggerDelay < ( window / 2 ) ) + 1 ;
return ;
}
}
//qDebug() << triggerEnabled;
//qDebug() << !paused_multimeter;
//qDebug() << (triggerEnabled&&!paused_multimeter);
//qDebug() << ((triggerEnabled&&!paused_multimeter) ? triggerDelay + window/2 : 0);
readData375_CH1 = internalBuffer375_CH1 - > readBuffer ( window , GRAPH_SAMPLES , false , delay + ( ( triggerEnabled & & ! paused_multimeter ) ? triggerDelay + window / 2 : 0 ) ) ;
QVector < double > x ( GRAPH_SAMPLES ) , CH1 ( GRAPH_SAMPLES ) ;
analogConvert ( readData375_CH1 , & CH1 , 2048 , 0 , 1 ) ; //No AC coupling!
for ( double i = 0 ; i < GRAPH_SAMPLES ; i + + ) {
x [ i ] = - ( window * i ) / ( ( double ) ( GRAPH_SAMPLES - 1 ) ) - delay ;
if ( x [ i ] > 0 ) {
CH1 [ i ] = 0 ;
}
}
axes - > graph ( 0 ) - > setData ( x , CH1 ) ;
udateCursors ( ) ;
axes - > xAxis - > setRange ( - window - delay , - delay ) ;
axes - > yAxis - > setRange ( topRange , botRange ) ;
axes - > replot ( ) ;
multimeterStats ( ) ;
}
void isoDriver : : setAC_CH1 ( bool enabled ) {
AC_CH1 = enabled ;
}
void isoDriver : : setAC_CH2 ( bool enabled ) {
AC_CH2 = enabled ;
}
void isoDriver : : setMultimeterType ( int type ) {
multimeterType = ( multimeterType_enum ) type ;
switch ( type ) {
case R :
multimeterREnabled ( multimeterRsource ) ;
break ;
case C :
multimeterREnabled ( 254 ) ;
break ;
default :
multimeterREnabled ( 255 ) ;
}
qDebug ( ) < < " multimeterType = " < < multimeterType ;
}
void isoDriver : : setSeriesResistance ( double resistance ) {
seriesResistance = resistance ;
qDebug ( ) < < " seriesResistance = " < < seriesResistance ;
}
void isoDriver : : multimeterStats ( ) {
//qDebug() << "Entering isoDriver::multimeterStats()";
if ( ! multimeterShow ) return ;
QTimer : : singleShot ( MULTIMETER_PERIOD , this , SLOT ( enableMM ( ) ) ) ;
multimeterShow = false ;
bool mvMax , mvMin , mvMean , mvRMS , maMax , maMin , maMean , maRMS , kOhms , uFarads ; //We'll let the compiler work out this one.
if ( autoMultimeterV ) {
mvMax = currentVmax < 1 ;
mvMin = currentVmin < 1 ;
mvMean = currentVmean < 1 ;
mvRMS = currentVRMS < 1 ;
}
if ( autoMultimeterI ) {
maMax = ( currentVmax / seriesResistance ) < 1 ;
maMin = ( currentVmin / seriesResistance ) < 1 ;
maMean = ( currentVmean / seriesResistance ) < 1 ;
maRMS = ( currentVRMS / seriesResistance ) < 1 ;
}
if ( forceMillivolts ) {
mvMax = true ;
mvMin = true ;
mvMean = true ;
mvRMS = true ;
}
if ( forceMilliamps ) {
maMax = true ;
maMin = true ;
maMean = true ;
maRMS = true ;
}
if ( forceKiloOhms ) {
kOhms = true ;
}
if ( forceUFarads ) {
uFarads = true ;
}
if ( forceVolts ) {
mvMax = false ;
mvMin = false ;
mvMean = false ;
mvRMS = false ;
}
if ( forceAmps ) {
maMax = false ;
maMin = false ;
maMean = false ;
maRMS = false ;
}
if ( forceOhms ) {
kOhms = false ;
}
if ( forceNFarads ) {
uFarads = false ;
}
if ( multimeterType = = V ) {
if ( mvMax ) {
currentVmax * = 1000 ;
sendMultimeterLabel1 ( " Max (mV) " ) ;
} else sendMultimeterLabel1 ( " Max (V) " ) ;
if ( mvMin ) {
currentVmin * = 1000 ;
sendMultimeterLabel2 ( " Min (mV) " ) ;
} else sendMultimeterLabel2 ( " Min (V) " ) ;
if ( mvMean ) {
currentVmean * = 1000 ;
sendMultimeterLabel3 ( " Mean (mV) " ) ;
} else sendMultimeterLabel3 ( " Mean (V) " ) ;
if ( mvRMS ) {
currentVRMS * = 1000 ;
sendMultimeterLabel4 ( " RMS (mV) " ) ;
} else sendMultimeterLabel4 ( " RMS (V) " ) ;
multimeterMax ( currentVmax ) ;
multimeterMin ( currentVmin ) ;
multimeterMean ( currentVmean ) ;
multimeterRMS ( currentVRMS ) ;
return ;
}
if ( multimeterType = = I ) {
if ( maMax ) {
currentVmax * = 1000 ;
sendMultimeterLabel1 ( " Max (mA) " ) ;
} else sendMultimeterLabel1 ( " Max (A) " ) ;
if ( maMin ) {
currentVmin * = 1000 ;
sendMultimeterLabel2 ( " Min (mA) " ) ;
} else sendMultimeterLabel2 ( " Min (A) " ) ;
if ( maMean ) {
currentVmean * = 1000 ;
sendMultimeterLabel3 ( " Mean (mA) " ) ;
} else sendMultimeterLabel3 ( " Mean (A) " ) ;
if ( maRMS ) {
currentVRMS * = 1000 ;
sendMultimeterLabel4 ( " RMS (mA) " ) ;
} else sendMultimeterLabel4 ( " RMS (A) " ) ;
multimeterMax ( currentVmax / seriesResistance ) ;
multimeterMin ( currentVmin / seriesResistance ) ;
multimeterMean ( currentVmean / seriesResistance ) ;
multimeterRMS ( currentVRMS / seriesResistance ) ;
return ;
}
if ( multimeterType = = R ) {
if ( estimated_resistance ! = estimated_resistance ) {
estimated_resistance = 0 ; //Reset resistance if it's NaN
}
double Vm = meanVoltageLast ( ( double ) MULTIMETER_PERIOD / ( double ) 1000 , 1 , 2048 ) ;
double rtest_para_r = 1 / ( 1 / seriesResistance + 1 / estimated_resistance ) ;
double perturbation = ch2_ref * ( rtest_para_r / ( R3 + R4 + rtest_para_r ) ) ;
Vm = Vm - perturbation ;
double Vin = ( multimeterRsource * 2 ) + 3 ;
double Vrat = ( Vin - Vm ) / Vin ;
double Rp = 1 / ( 1 / seriesResistance + 1 / ( R3 + R4 ) ) ;
estimated_resistance = ( ( 1 - Vrat ) / Vrat ) * Rp ; //Perturbation term on V2 ignored. V1 = Vin. V2 = Vin(Rp/(R+Rp)) + Vn(Rtest||R / (R34 + (Rtest||R34));
//qDebug() << "Vm = " << Vm;
//qDebug() << "Vin = " << Vin;
//qDebug() << "perturbation = " << perturbation;
//qDebug() << "Vrat = " << Vrat;
//qDebug() << "Rp = " << Rp;
//qDebug() << "estimated_resistance = " << estimated_resistance;
multimeterMax ( 0 ) ;
multimeterMin ( 0 ) ;
multimeterMean ( 0 ) ;
if ( autoMultimeterR ) {
kOhms = ( estimated_resistance ) > 1000 ;
}
if ( kOhms ) {
estimated_resistance / = 1000 ;
sendMultimeterLabel4 ( " Resistance (kΩ) " ) ;
} else sendMultimeterLabel4 ( " Resistance (Ω) " ) ;
multimeterRMS ( estimated_resistance ) ;
}
if ( multimeterType = = C ) {
double cap_vbot = 0.8 ;
double cap_vtop = 2.5 ;
int cap_x0 = internalBuffer375_CH1 - > cap_x0fromLast ( 1 , cap_vbot ) ;
if ( cap_x0 = = - 1 ) {
qDebug ( ) < < " cap_x0 == -1 " ;
return ;
}
int cap_x1 = internalBuffer375_CH1 - > cap_x1fromLast ( 1 , cap_x0 , cap_vbot ) ;
if ( cap_x1 = = - 1 ) {
qDebug ( ) < < " cap_x1 == -1 " ;
return ;
}
int cap_x2 = internalBuffer375_CH1 - > cap_x2fromLast ( 1 , cap_x1 , cap_vtop ) ;
if ( cap_x2 = = - 1 ) {
qDebug ( ) < < " cap_x2 == -1 " ;
return ;
}
qDebug ( ) < < " x0 = " < < cap_x0 ;
qDebug ( ) < < " x1 = " < < cap_x1 ;
qDebug ( ) < < " x2 = " < < cap_x2 ;
qDebug ( ) < < " dt = " < < cap_x2 - cap_x1 ;
double dt = ( double ) ( cap_x2 - cap_x1 ) / internalBuffer375_CH1 - > samplesPerSecond ;
double Cm = - dt / ( seriesResistance * log ( ( vcc - cap_vtop ) / ( vcc - cap_vbot ) ) ) ;
qDebug ( ) < < " Cm = " < < Cm ;
if ( autoMultimeterC ) {
uFarads = ( Cm ) > 1e-6 ;
}
if ( uFarads ) {
sendMultimeterLabel4 ( " Capacitance (μF) " ) ;
Cm = Cm * 1000000 ;
} else {
sendMultimeterLabel4 ( " Capacitance (nF) " ) ;
Cm = Cm * 1000000000 ;
}
multimeterRMS ( Cm ) ;
}
}
void isoDriver : : enableMM ( ) {
multimeterShow = true ;
}
void isoDriver : : setAutoMultimeterV ( bool enabled ) {
autoMultimeterV = enabled ;
}
void isoDriver : : setAutoMultimeterI ( bool enabled ) {
autoMultimeterI = enabled ;
}
void isoDriver : : setAutoMultimeterR ( bool enabled ) {
autoMultimeterR = enabled ;
}
void isoDriver : : setAutoMultimeterC ( bool enabled ) {
autoMultimeterC = enabled ;
}
void isoDriver : : setForceMillivolts ( bool enabled ) {
forceMillivolts = enabled ;
}
void isoDriver : : setForceMilliamps ( bool enabled ) {
forceMilliamps = enabled ;
}
void isoDriver : : setForceKiloOhms ( bool enabled ) {
forceKiloOhms = enabled ;
}
void isoDriver : : setForceUFarads ( bool enabled ) {
forceUFarads = enabled ;
}
void isoDriver : : setForceVolts ( bool enabled ) {
forceVolts = enabled ;
}
void isoDriver : : setForceAmps ( bool enabled ) {
forceAmps = enabled ;
}
void isoDriver : : setForceOhms ( bool enabled ) {
forceOhms = enabled ;
}
void isoDriver : : setForceNFarads ( bool enabled ) {
forceNFarads = enabled ;
}
void isoDriver : : setSerialDecodeEnabled_CH1 ( bool enabled ) {
serialDecodeEnabled_CH1 = enabled ;
}
void isoDriver : : setSerialDecodeEnabled_CH2 ( bool enabled ) {
serialDecodeEnabled_CH2 = enabled ;
}
void isoDriver : : setXYmode ( bool enabled ) {
XYmode = enabled ;
if ( ! enabled ) {
xmin = 20 ;
xmax = - 20 ;
ymin = 20 ;
ymax = - 20 ;
}
axes - > graph ( 1 ) - > setVisible ( ! enabled ) ;
}
void isoDriver : : triggerGroupStateChange ( bool enabled ) {
if ( enabled ) sendTriggerValue ( ( currentVmax - currentVmin ) * 0.85 + currentVmin ) ;
}
void isoDriver : : broadcastStats ( bool CH2 ) {
if ( CH2 ) {
if ( ! update_CH2 ) return ;
update_CH2 = false ;
sendVmax_CH2 ( currentVmax ) ;
sendVmin_CH2 ( currentVmin ) ;
sendVmean_CH2 ( currentVmean ) ;
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sendVRMS_CH2 ( currentVRMS ) ;
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} else {
if ( ! update_CH1 ) return ;
update_CH1 = false ;
sendVmax_CH1 ( currentVmax ) ;
sendVmin_CH1 ( currentVmin ) ;
sendVmean_CH1 ( currentVmean ) ;
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sendVRMS_CH1 ( currentVRMS ) ;
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}
}
void isoDriver : : slowTimerTick ( ) {
update_CH1 = true ;
update_CH2 = true ;
}
void isoDriver : : setTopRange ( double newTop ) {
topRange = newTop ;
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topRangeUpdated ( topRange ) ;
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}
void isoDriver : : setBotRange ( double newBot ) {
botRange = newBot ;
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botRangeUpdated ( botRange ) ;
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}
void isoDriver : : setTimeWindow ( double newWindow ) {
window = newWindow ;
windowAtPause = window ;
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timeWindowUpdated ( window ) ;
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}
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void isoDriver : : setDelay ( double newDelay ) {
delay = newDelay ;
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delayUpdated ( delay ) ;
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}
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void isoDriver : : takeSnapshot ( QString * fileName , unsigned char channel ) {
if ( channel = = 1 ) {
snapshotEnabled_CH1 = true ;
QString fname_CH1 = * ( fileName ) ;
snapshotFile_CH1 = new QFile ( fname_CH1 ) ;
qDebug ( ) < < fname_CH1 ;
} else if ( channel = = 2 ) {
snapshotEnabled_CH2 = true ;
QString fname_CH2 = * ( fileName ) ;
snapshotFile_CH2 = new QFile ( fname_CH2 ) ;
qDebug ( ) < < fname_CH2 ;
}
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}
double isoDriver : : meanVoltageLast ( double seconds , unsigned char channel , int TOP ) {
isoBuffer * currentBuffer ;
switch ( channel ) {
case 1 :
currentBuffer = internalBuffer375_CH1 ;
break ;
case 2 :
currentBuffer = internalBuffer375_CH2 ;
break ;
case 3 :
currentBuffer = internalBuffer750 ;
break ;
}
short * tempBuffer = currentBuffer - > readBuffer ( seconds , 1024 , 0 , 0 ) ;
double sum = 0 ;
double temp ;
for ( int i = 0 ; i < 1024 ; i + + ) {
temp = currentBuffer - > sampleConvert ( tempBuffer [ i ] , TOP , 0 ) ;
sum + = temp ;
}
return sum / 1024 ;
}
void isoDriver : : rSourceChanged ( int newSource ) {
multimeterRsource = newSource ;
}
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void isoDriver : : serialNeedsDisabling ( int channel ) {
qDebug ( " isoDriver acknowledges disconnect from channel %d " , channel ) ;
mainWindowPleaseDisableSerial ( channel ) ;
}
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//Thank you https://stackoverflow.com/questions/27318631/parsing-through-a-csv-file-in-qt
void isoDriver : : loadFileBuffer ( QFile * fileToLoad ) {
//Delete the current buffer if it exists
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disableFileMode ( ) ;
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if ( internalBufferFile ! = NULL ) {
delete internalBufferFile ;
}
//Load the file
if ( ! fileToLoad - > open ( QIODevice : : ReadOnly ) ) {
qDebug ( ) < < fileToLoad - > errorString ( ) ;
return ;
}
QByteArray currentLine ;
QList < QByteArray > tempList ;
//First Header line
currentLine = fileToLoad - > readLine ( ) ;
qDebug ( ) < < currentLine ;
//Averaging line
currentLine = fileToLoad - > readLine ( ) ;
qDebug ( ) < < currentLine ;
tempList . append ( currentLine . split ( ' \n ' ) ) ;
tempList . append ( currentLine . split ( ' \r ' ) ) ;
tempList . append ( tempList . first ( ) . split ( ' ' ) ) ;
qDebug ( ) < < tempList ;
int averages = tempList . back ( ) . toInt ( ) ;
qDebug ( ) < < averages ;
//Mode line
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tempList . clear ( ) ;
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currentLine = fileToLoad - > readLine ( ) ;
qDebug ( ) < < currentLine ;
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tempList . append ( currentLine . split ( ' \n ' ) ) ;
tempList . append ( currentLine . split ( ' \r ' ) ) ;
tempList . append ( tempList . first ( ) . split ( ' ' ) ) ;
qDebug ( ) < < tempList ;
int mode = tempList . back ( ) . toInt ( ) ;
qDebug ( ) < < mode ;
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tempList . clear ( ) ;
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//Count the number of elements
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qulonglong numel = 0 ;
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while ( ! fileToLoad - > atEnd ( ) ) {
currentLine = fileToLoad - > readLine ( ) ;
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tempList . append ( currentLine . split ( ' , ' ) ) ;
numel + = tempList . count ( ) - 1 ;
tempList . clear ( ) ;
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}
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qDebug ( " There are %d elements! " , numel ) ;
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//Prompt user for start and end times
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double defaultSampleRate = 375000 ;
if ( mode = = 6 ) {
defaultSampleRate = 750000 ;
}
double minTime = ( ( double ) averages ) / defaultSampleRate ;
double maxTime = numel * ( ( double ) averages ) / defaultSampleRate ;
qDebug ( ) < < " maxTime = " < < maxTime ;
daqLoadPrompt dlp ( this , minTime , maxTime ) ;
connect ( & dlp , SIGNAL ( startTime ( double ) ) , this , SLOT ( daqLoad_startChanged ( double ) ) ) ;
connect ( & dlp , SIGNAL ( endTime ( double ) ) , this , SLOT ( daqLoad_endChanged ( double ) ) ) ;
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//Defaults
daqLoad_startTime = minTime ;
daqLoad_endTime = maxTime ;
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dlp . exec ( ) ;
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//Initialise the (modified) isoBuffer.
int bufferLen = ( int ) ( ( ( daqLoad_endTime - daqLoad_startTime ) / minTime ) * 1.1 ) + 1 ; //Add a bit on to account for rounding error. Int conversion rounds down, so we add 1.
qDebug ( ) < < " daqLoad_endTime " < < daqLoad_endTime ;
qDebug ( ) < < " daqLoad_startTime " < < daqLoad_startTime ;
qDebug ( ) < < " minTime " < < minTime ;
qDebug ( ) < < " bufferLen " < < bufferLen ;
double sampleRate_Hz = defaultSampleRate / averages ;
internalBufferFile = new isoBuffer_file ( this , bufferLen , sampleRate_Hz ) ;
//Go to start of data section
fileToLoad - > seek ( 0 ) ; //Return to start
currentLine = fileToLoad - > readLine ( ) ; //Chew up header
qDebug ( ) < < currentLine ;
currentLine = fileToLoad - > readLine ( ) ; //Chew up averages line
qDebug ( ) < < currentLine ;
currentLine = fileToLoad - > readLine ( ) ; //Chew up mode line
qDebug ( ) < < currentLine ;
tempList . clear ( ) ;
//Copy the data into the (modified) isoBuffer
float tempArray [ COLUMN_BREAK + 1 ] ; //751 elements per row with the old files; this just avoids a possible crash;
int temp_len ;
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qulonglong sampleCount = 0 ;
qulonglong minCount = ( daqLoad_startTime / minTime ) ;
qulonglong maxCount = ( daqLoad_endTime / minTime ) ;
qDebug ( ) < < " minCount " < < minCount ;
qDebug ( ) < < " maxCount " < < maxCount ;
int min_i ;
int tempCount ;
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qDebug ( ) < < " Loading data into isoBuffer_file " ;
while ( ! fileToLoad - > atEnd ( ) ) {
currentLine = fileToLoad - > readLine ( ) ;
tempList . append ( currentLine . split ( ' , ' ) ) ;
tempList . removeLast ( ) ; //Last element is a "\n", not a number.
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temp_len = 0 ;
tempCount = tempList . count ( ) ;
min_i = 2000000000 ; //Arbitrary big number.
for ( int i = 0 ; i < tempCount ; i + + ) {
if ( ( sampleCount > minCount ) & & ( sampleCount < maxCount ) ) {
if ( i < min_i ) {
min_i = i ;
}
tempArray [ i ] = tempList . at ( i ) . toFloat ( ) ;
temp_len + + ;
}
sampleCount + + ;
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}
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internalBufferFile - > writeBuffer_float ( & tempArray [ min_i ] , temp_len ) ;
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tempList . clear ( ) ;
}
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fileToLoad - > close ( ) ;
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qDebug ( ) < < " Initialising timer " ;
//Initialise the file timer.
if ( fileTimer ! = NULL ) {
delete fileTimer ;
}
fileTimer = new QTimer ( ) ;
fileTimer - > setTimerType ( Qt : : PreciseTimer ) ;
fileTimer - > start ( TIMER_PERIOD ) ;
connect ( fileTimer , SIGNAL ( timeout ( ) ) , this , SLOT ( fileTimerTick ( ) ) ) ;
qDebug ( ) < < " File Buffer loaded! " ;
enableFileMode ( ) ;
qDebug ( ) < < " File Mode Enabled " ;
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}
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void isoDriver : : daqLoad_startChanged ( double newStart ) {
qDebug ( ) < < " isoDriver::daqLoad_startChanged " < < newStart ;
daqLoad_startTime = newStart ;
}
void isoDriver : : daqLoad_endChanged ( double newEnd ) {
qDebug ( ) < < " isoDriver::daqLoad_endChanged " < < newEnd ;
daqLoad_endTime = newEnd ;
}
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void isoDriver : : fileTimerTick ( ) {
//qDebug() << "isoDriver::fileTimerTick()";
frameActionGeneric ( - 2 , 0 ) ;
}
void isoDriver : : enableFileMode ( ) {
fileModeEnabled = true ;
daq_maxWindowSize = daqLoad_endTime - daqLoad_startTime ;
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showRealtimeButton ( true ) ;
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}
void isoDriver : : disableFileMode ( ) {
fileModeEnabled = false ;
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showRealtimeButton ( false ) ;
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if ( fileTimer ! = NULL ) {
fileTimer - > stop ( ) ;
}
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//Shrink screen back, if necessary.
double mws = fileModeEnabled ? daq_maxWindowSize : ( ( double ) MAX_WINDOW_SIZE ) ;
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if ( window > mws )
{
window = mws ;
timeWindowUpdated ( window ) ;
}
if ( ( window + delay ) > mws )
{
delay - = window + delay - mws ;
delayUpdated ( delay ) ;
}
if ( delay < 0 )
{
delay = 0 ;
delayUpdated ( delay ) ;
}
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}
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void isoDriver : : setSerialType ( unsigned char type )
{
serialType = type ;
qDebug ( ) < < " Serial Type changed to " < < serialType ;
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if ( serialType = = 1 )
{
if ( twoWire )
delete twoWire ;
twoWire = new i2c : : i2cDecoder ( internalBuffer375_CH1 , internalBuffer375_CH2 , i2cClockRate ) ;
twoWire - > setStepSize ( 1000 , 1 ) ;
}
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}
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