Converting Engineering Units: Difference between revisions
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{{ | [[Category:HowTo]] | ||
This How-to explains how to convert double values to QString with units and vice Versa. If you're working in the technical domain surely there will be situation where you need to convert double values like 0.0001V into QString units like 100uV for display purpose in a {{DocLink|QLineEdit}} or {{DocLink|QLabel}}. | |||
And again for actual calculation you need it as a double values. But it will be easy if you have a function to do this conversions. | |||
If | If you need to increment/decrement the 100mV, first you need to convert Qstring 100mV into double 0.1 (crop the 100 from 100mV, divide by 1000 to get 0.1) and then increment/decrement and again we need to convert into incremented 101mV (multiply 0.1 into 1000 and convert into Qstring and add ''mV'' unit to it). | ||
To make life easier, I created a code snippet with the functions <tt>convertToUnits</tt> and <tt>convertToValues</tt>. It can converts units from nano, micro, milli, deci, kilo and mega. | |||
<tt>convertToUnits</tt> takes double 0.1 as input and returns {{DocLink|QString}} 1000m. | |||
<tt>convertToValues</tt> takes a QString 1000m as input and returns double 0.1. | |||
<code> | |||
QString MainWindow::convertToUnits(double l_nvalue) { | |||
<code>QString | |||
QString unit; | QString unit; | ||
double value; | double value; | ||
if(l_nvalue<0){ | if(l_nvalue < 0) { | ||
value = l_nvalue * -1; | |||
}else | } else { | ||
value = l_nvalue; | |||
} | |||
if(value>=1000000& | if(value >= 1000000 && value < 1000000000) { | ||
value = value/1000000; | |||
unit = "M"; | |||
} | } | ||
else if(value>=1000& | else if(value>=1000 && value<1000000){ | ||
value = value/1000; | |||
unit = "K"; | |||
} | } | ||
else if | else if( value>=1 && value<1000) { | ||
value = value*1; | |||
} | } | ||
else if((value* | else if( (value*1000)>=1 && value<1000) { | ||
value = value*1000; | |||
unit = "m"; | |||
} | } | ||
else if((value* | else if((value*1000000)>=1 && value<1000000){ | ||
value = value*1000000; | |||
unit = QChar(0x00B5); | |||
} | } | ||
if(l_nvalue>0) | else if((value*1000000000)>=1 && value<1000000000){ | ||
value = value*1000000000; | |||
if(l_nvalue<0) | unit = "n"; | ||
} | |||
if(l_nvalue>0) { | |||
return (QString::number(value)+unit); | |||
} else | |||
if(l_nvalue<0) { | |||
return (QString::number(value*-1)+unit); | |||
} | |||
return QString::number(0); | |||
} | } | ||
</code> | |||
This is the function for converting the string representation of the value and unit to a double value: | |||
<code> | |||
double convertToValues(const QString& input) { | |||
QRegExp r = QRegExp("^(.+)([nµumKMG])$"); | |||
r.indexIn(input); | |||
if ( r.captureCount() == 2 ) { | |||
QString strValue = r.cap(1); | |||
QString unit = r.cap(2); | |||
bool ok = false; | |||
return( | double value = strValue.toDouble(&ok); | ||
if ( !ok ) { | |||
return input.toDouble(); | |||
} | } | ||
return( | if ( unit == "n" ) { | ||
return (value*1e-9); | |||
} else | |||
if ( unit == "u" || unit == "µ" ) { | |||
return (value*1e-6); | |||
} else | |||
if ( unit == "m" ) { | |||
return (value*1e-3); | |||
} else | |||
if ( unit == "K" ) { | |||
return (value*1e3); | |||
} else | |||
if ( unit == "M" ) { | |||
return (value*1e6); | |||
} else | |||
if ( unit == "G" ) { | |||
return (value*1e9); | |||
} | } | ||
return value; | |||
} | |||
return 0; | |||
} | } | ||
</code> | </code> | ||
As you can see here we use a regular expression for splitting the value and the unit. The value is then multiplied by the corresponding amount according to the unit prefix. Here we only cover a limited range of prefixes. For a full list see the [https://en.wikipedia.org/wiki/Unit_prefix Wikipedia entry]. In this context the difference between binary and metric prefixes might also be of interest. |
Latest revision as of 14:15, 29 February 2016
This How-to explains how to convert double values to QString with units and vice Versa. If you're working in the technical domain surely there will be situation where you need to convert double values like 0.0001V into QString units like 100uV for display purpose in a QLineEdit or QLabel.
And again for actual calculation you need it as a double values. But it will be easy if you have a function to do this conversions.
If you need to increment/decrement the 100mV, first you need to convert Qstring 100mV into double 0.1 (crop the 100 from 100mV, divide by 1000 to get 0.1) and then increment/decrement and again we need to convert into incremented 101mV (multiply 0.1 into 1000 and convert into Qstring and add mV unit to it).
To make life easier, I created a code snippet with the functions convertToUnits and convertToValues. It can converts units from nano, micro, milli, deci, kilo and mega.
convertToUnits takes double 0.1 as input and returns QString 1000m. convertToValues takes a QString 1000m as input and returns double 0.1.
QString MainWindow::convertToUnits(double l_nvalue) {
QString unit;
double value;
if(l_nvalue < 0) {
value = l_nvalue * -1;
} else {
value = l_nvalue;
}
if(value >= 1000000 && value < 1000000000) {
value = value/1000000;
unit = "M";
}
else if(value>=1000 && value<1000000){
value = value/1000;
unit = "K";
}
else if( value>=1 && value<1000) {
value = value*1;
}
else if( (value*1000)>=1 && value<1000) {
value = value*1000;
unit = "m";
}
else if((value*1000000)>=1 && value<1000000){
value = value*1000000;
unit = QChar(0x00B5);
}
else if((value*1000000000)>=1 && value<1000000000){
value = value*1000000000;
unit = "n";
}
if(l_nvalue>0) {
return (QString::number(value)+unit);
} else
if(l_nvalue<0) {
return (QString::number(value*-1)+unit);
}
return QString::number(0);
}
This is the function for converting the string representation of the value and unit to a double value:
double convertToValues(const QString& input) {
QRegExp r = QRegExp("^(.+)([nµumKMG])$");
r.indexIn(input);
if ( r.captureCount() == 2 ) {
QString strValue = r.cap(1);
QString unit = r.cap(2);
bool ok = false;
double value = strValue.toDouble(&ok);
if ( !ok ) {
return input.toDouble();
}
if ( unit == "n" ) {
return (value*1e-9);
} else
if ( unit == "u" || unit == "µ" ) {
return (value*1e-6);
} else
if ( unit == "m" ) {
return (value*1e-3);
} else
if ( unit == "K" ) {
return (value*1e3);
} else
if ( unit == "M" ) {
return (value*1e6);
} else
if ( unit == "G" ) {
return (value*1e9);
}
return value;
}
return 0;
}
As you can see here we use a regular expression for splitting the value and the unit. The value is then multiplied by the corresponding amount according to the unit prefix. Here we only cover a limited range of prefixes. For a full list see the Wikipedia entry. In this context the difference between binary and metric prefixes might also be of interest.