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R032 Logic Combine Production


Outline

Combines multiple logic (1-dimensional or vectors) signals into one logic vector containing all bits.

Platforms:
32/64bit 32/64bit 32/64bit
Requirements:
  • None
Known limitations:
  • None
Status:
  • Stable
Input signals:
  • 1..N Logic signals of any dimension.
Output signal:
  • Logic: Logic signal containing all bits of the input signals. The bits of first input signal will start at pos 0, all following signals will be added after (to the left).
Parameters:
  • Process type: Process type of the resulting signal.
  • Signal descriptor: Signal descriptor of the resulting signal.
  • Domain base: Domain base of the resulting signal.
  • Domain range: Domain range of the resulting signal.
  • Swap: Check to swap bits.
  • Invert:Check to invert bits.
  • Keep tags: The output samples shall keep the tag information of each input sample.
  • Ignore 'None' samples: Ignore 'None' samples of the input signals.
  • Hide identical: Check to hide sequence of identical samples (will only write to output signal in case of changed sample value/tag, may not have any effect in case of 'Continuous' process type).


Input Signal Configuration

The production accepts 1..N Logic signal.

Primary Source
The primary source is the first source signal of the production. For productions with multiple inputs it can be left empty, thus the first input is taken from the "Additional" sources.
Additional (Sources)
If more than 1 source signal is required, add them into this table. Instead of using the table you may drag and drop (with a closed dialog) signals onto the plot item.



Output Signal Configuration

Productions are executed on the fly, as soon as the signal data is required for further processing, and re-executed when settings or input signal have been changed. Before executing a script, the system needs to know the source signals, the type and the domain of the signal. All these informations need to be entered into the plot configuration dialog. If you leave the configuration fields empty, impulse tries to extract the information from the sources. The fields will display this information in light gray <e.g. Derived(Time)>. 

Process type
You may select between discrete and continuous process type.
Signal descriptor
The signal descriptor describes the signal type in more details (e.g the bit width of a logic vector (default<bits=16>)). See below for more details. But in most case, you will use the standard settings (default<>) - Press CTRL-Space to view content proposals.
Domain Class/Base
The domain base is just required if your output signal has a different domain than the source signals. If not, just don't touch these settings.
Domain Range
Use this field to set the domain range, so the minimum and maximum value of the domain (e.g. 0 .. 1000 Hz)


Production Configuration

  • Swap: Check to swap bits.
  • Invert:Check to invert bits.

You may check the "Swap" flag to swap the source bits (left-to-right) and/or the "Invert" flag to invert all bits.

The output signal is a Logic signal containing all bits of the input signals. The bits of first input signal will start at bit pos 0, all following signals will be added after (to the left).



Signal Handling

  • Keep tags: The output samples shall keep the tag information of each input sample.
  • Ignore 'None': Ignore 'None' samples of the input signals.
  • Hide identical: Check to hide sequence of identical samples (will only write to output signal in case of changed sample value/tag, may not have any effect in case of 'Continuous' process type).

The signal handling flags give the user more control over the output signal generation. If the "Keep tags" is checked, the output samples will get the tag information of each input samples. The "Ignore None" flag let the production ignore 'None' input samples. The "Hide identical" hides the production from generating sequences of identical samples.



Operation

Below you find the operation code for the production.

	
    // iterate
    while (iter.hasNext() && !isCanceled()) {

        // step
        Long current = iter.next(targetWriter);

        // iterate over inputs
        int idx = 0;
        boolean changed = false;
        for (int n = 0; n < input.length; n++) {

            // input
            ISamplePointer pointer = input[n];
            if (pointer != null) {

                // pointer stepped ?
                if (pointer.getIndex() > sourceIndex[n]) {
                    sourceIndex[n] = pointer.getIndex();

                    // none sample
                    boolean isNone = pointer.isNone();
                    if (ignoreNone && isNone)
                        continue;

                    // value
                    Logic lv = pointer.logicValue();
                    if (invert)
                        lv = lv.invert();
                    if (swap)
                        lv = lv.swap();
                    
                    // write changed value into array
                    int dim = inputDimension[n];
                    int offset = dimensionOffset[n];
                    for (int b = 0; b < dim; b++) {
                        byte v = lv.getState(b);
                        changed |= (hideIdentical && (v != value[dimension - 1 - (offset + b)]));
                        value[dimension - 1 - (offset + b)] = v;
                    }

                    // tag
                    boolean tag = keepTags && pointer.isTagged();
                    if (keepTags) {
                        boolean total = tagged > 0;
                        if (tag != tags[n]) {
                            tags[n] = tag;
                            tagged = tag ? tagged + 1 : tagged - 1;
                        }
                        changed |= (hideIdentical && (total != (tagged > 0)));
                    }
                }
                idx++;
            }
        }

        // write
        if (!hideIdentical || changed || !inital) {
            ((ILogicSamplesWriter) targetWriter).write(current, tagged > 0, (byte) ISample.STATE_0_BITS, value, 0, dimension);
            inital = false;
        }
			
                

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