public IRouteComponent Account()
{
if (state.bridge.lookupModuleInfo(DATA_PROCESSOR).revision < DataProcessor.ENHANCED_STREAMING_REVISION)
{
throw new IllegalRouteOperationException("Current firmware does not support data accounting");
}
if (source.attributes.length() + 4 + 3 > MetaWearBoard.MAX_PACKET_LENGTH)
{
throw new IllegalRouteOperationException("Not enough space left in the ble packet to add accounter information");
}
const byte size = 4;
var config = new DataProcessorConfig.AccounterConfig(size);
var next = source.transform(config);
return(postCreate(next.Item2, new NullEditor(config.Build(), next.Item1, state.bridge)));
}
internal virtual Tuple <DataTypeBase, DataTypeBase> transform(DataProcessorConfig config)
{
switch (config.id)
{
case DataProcessorConfig.BufferConfig.ID:
return(Tuple.Create(
new IntegralDataType(this, DATA_PROCESSOR, DataProcessor.NOTIFY, new DataAttributes(new byte[] { }, 0, 0, false)) as DataTypeBase,
dataProcessorStateCopy(this, this.attributes)
));
case DataProcessorConfig.AccumulatorConfig.ID: {
DataProcessorConfig.AccumulatorConfig casted = (DataProcessorConfig.AccumulatorConfig)config;
DataAttributes attributes = new DataAttributes(new byte[] { casted.output }, 1, 0, !casted.counter && this.attributes.signed);
return(Tuple.Create(
casted.counter ? new IntegralDataType(this, DATA_PROCESSOR, DataProcessor.NOTIFY, attributes) : dataProcessorCopy(this, attributes),
casted.counter ? new IntegralDataType(null, DATA_PROCESSOR, Util.setRead(DataProcessor.STATE), NO_ID, attributes) :
dataProcessorStateCopy(this, attributes)
));
}
case DataProcessorConfig.AverageConfig.ID:
case DataProcessorConfig.DelayConfig.ID:
case DataProcessorConfig.TimeConfig.ID:
return(Tuple.Create <DataTypeBase, DataTypeBase>(dataProcessorCopy(this, this.attributes.dataProcessorCopy()), null));
case DataProcessorConfig.PassthroughConfig.ID:
return(Tuple.Create(
dataProcessorCopy(this, this.attributes.dataProcessorCopy()),
new IntegralDataType(DATA_PROCESSOR, Util.setRead(DataProcessor.STATE), NO_ID, new DataAttributes(new byte[] { 2 }, 1, 0, false)) as DataTypeBase
));
case DataProcessorConfig.MathConfig.ID: {
DataProcessorConfig.MathConfig casted = (DataProcessorConfig.MathConfig)config;
DataTypeBase processor = null;
switch (casted.op)
{
case Add:
processor = dataProcessorCopy(this, this.attributes.dataProcessorCopySize(4));
break;
case Multiply:
processor = dataProcessorCopy(this, this.attributes.dataProcessorCopySize(Math.Abs(casted.rhs) < 1 ? this.attributes.sizes[0] : (byte)4));
break;
case Divide:
processor = dataProcessorCopy(this, this.attributes.dataProcessorCopySize(Math.Abs(casted.rhs) < 1 ? (byte)4 : this.attributes.sizes[0]));
break;
case Subtract:
processor = dataProcessorCopy(this, this.attributes.dataProcessorCopySigned(true));
break;
case AbsValue:
processor = dataProcessorCopy(this, this.attributes.dataProcessorCopySigned(false));
break;
case Modulus:
processor = dataProcessorCopy(this, this.attributes.dataProcessorCopy());
break;
case Exponent:
processor = new ByteArrayDataType(this, DATA_PROCESSOR, DataProcessor.NOTIFY, this.attributes.dataProcessorCopySize(4));
break;
case LeftShift:
processor = new ByteArrayDataType(this, DATA_PROCESSOR, DataProcessor.NOTIFY,
this.attributes.dataProcessorCopySize((byte)Math.Min(this.attributes.sizes[0] + (casted.rhs / 8), 4)));
break;
case RightShift:
processor = new ByteArrayDataType(this, DATA_PROCESSOR, DataProcessor.NOTIFY,
this.attributes.dataProcessorCopySize((byte)Math.Max(this.attributes.sizes[0] - (casted.rhs / 8), 1)));
break;
case Sqrt:
processor = new ByteArrayDataType(this, DATA_PROCESSOR, DataProcessor.NOTIFY, this.attributes.dataProcessorCopySigned(false));
break;
case Constant:
DataAttributes attributes = new DataAttributes(new byte[] { 4 }, (byte)1, (byte)0, casted.rhs >= 0);
processor = new IntegralDataType(this, DATA_PROCESSOR, DataProcessor.NOTIFY, attributes);
break;
}
if (processor != null)
{
return(Tuple.Create <DataTypeBase, DataTypeBase>(processor, null));
}
break;
}
case DataProcessorConfig.PulseConfig.ID: {
DataProcessorConfig.PulseConfig casted = (DataProcessorConfig.PulseConfig)config;
DataTypeBase processor = null;
switch (casted.mode)
{
case Width:
processor = new IntegralDataType(this, DATA_PROCESSOR, DataProcessor.NOTIFY, new DataAttributes(new byte[] { 2 }, 1, 0, false));
break;
case Area:
processor = dataProcessorCopy(this, attributes.dataProcessorCopySize(4));
break;
case Peak:
processor = dataProcessorCopy(this, attributes.dataProcessorCopy());
break;
case OnDetect:
processor = new IntegralDataType(this, DATA_PROCESSOR, DataProcessor.NOTIFY, new DataAttributes(new byte[] { 1 }, 1, 0, false));
break;
}
if (processor != null)
{
return(Tuple.Create <DataTypeBase, DataTypeBase>(processor, null));
}
break;
}
case DataProcessorConfig.ComparisonConfig.ID: {
DataTypeBase processor = null;
if (config is DataProcessorConfig.SingleValueComparisonConfig)
{
processor = dataProcessorCopy(this, attributes.dataProcessorCopy());
}
else if (config is DataProcessorConfig.MultiValueComparisonConfig)
{
DataProcessorConfig.MultiValueComparisonConfig casted = (DataProcessorConfig.MultiValueComparisonConfig)config;
if (casted.mode == ComparisonOutput.PassFail || casted.mode == ComparisonOutput.Zone)
{
processor = new IntegralDataType(this, DATA_PROCESSOR, DataProcessor.NOTIFY, new DataAttributes(new byte[] { 1 }, 1, 0, false));
}
else
{
processor = dataProcessorCopy(this, attributes.dataProcessorCopy());
}
}
if (processor != null)
{
return(Tuple.Create <DataTypeBase, DataTypeBase>(processor, null));
}
break;
}
case DataProcessorConfig.ThresholdConfig.ID: {
DataProcessorConfig.ThresholdConfig casted = (DataProcessorConfig.ThresholdConfig)config;
switch (casted.mode)
{
case Threshold.Absolute:
return(Tuple.Create <DataTypeBase, DataTypeBase>(dataProcessorCopy(this, attributes.dataProcessorCopy()), null));
case Threshold.Binary:
return(Tuple.Create <DataTypeBase, DataTypeBase>(new IntegralDataType(this, DATA_PROCESSOR, DataProcessor.NOTIFY,
new DataAttributes(new byte[] { 1 }, 1, 0, true)), null));
}
break;
}
case DataProcessorConfig.DifferentialConfig.ID: {
DataProcessorConfig.DifferentialConfig casted = (DataProcessorConfig.DifferentialConfig)config;
switch (casted.mode)
{
case Differential.Absolute:
return(Tuple.Create <DataTypeBase, DataTypeBase>(dataProcessorCopy(this, attributes.dataProcessorCopy()), null));
case Differential.Differential:
throw new InvalidOperationException("Differential processor in 'difference' mode must be handled by subclasses");
case Differential.Binary:
return(Tuple.Create <DataTypeBase, DataTypeBase>(new IntegralDataType(this, DATA_PROCESSOR, DataProcessor.NOTIFY, new DataAttributes(new byte[] { 1 }, 1, 0, true)), null));
}
break;
}
case DataProcessorConfig.PackerConfig.ID: {
DataProcessorConfig.PackerConfig casted = (DataProcessorConfig.PackerConfig)config;
return(Tuple.Create <DataTypeBase, DataTypeBase>(dataProcessorCopy(this, attributes.dataProcessorCopyCopies(casted.count)), null));
}
case DataProcessorConfig.AccounterConfig.ID: {
DataProcessorConfig.AccounterConfig casted = (DataProcessorConfig.AccounterConfig)config;
return(Tuple.Create <DataTypeBase, DataTypeBase>(dataProcessorCopy(this, new DataAttributes(new byte[] { casted.length, attributes.length() }, 1, 0, attributes.signed)), null));
}
}
throw new InvalidOperationException("Unable to determine the DataTypeBase object for config: " + Util.arrayToHexString(config.Build()));
}
