timflow.transient.linesink.LineSinkHoBase#

class timflow.transient.linesink.LineSinkHoBase(model, x1=-1, y1=0, x2=1, y2=0, tsandbc=[(0.0, 1.0)], res=0.0, wh='H', order=0, layers=0, type='', name='LineSinkBase', label=None, addtomodel=True)#

Bases: timflow.transient.element.Element

Higher Order LineSink Base Class.

All Higher Order Line Sink elements are derived from this class

Methods#

`initialize`()	Initialize the element.
`setflowcoef`()	Separate function so that this can be overloaded for other types.
`potinf`(x, y[, aq])	Can be called with only one x,y value.
`disvecinf`(x, y[, aq])	Can be called with only one x,y value.
`headinside`(t)	The head inside the line-sink.
`plot`([ax, layer])	Plot the element.
`potential`(x, y[, aq])	Returns complex array of size (ngvbc, naq, npval).
`unitpotential`(x, y[, aq])	Returns complex array of size (naq, npval).
`unitpotentialone`(x, y, jtime[, aq])	Returns complex array of size (naq, npval).
`disvec`(x, y[, aq])	Returns 2 complex arrays of size (ngvbc, naq, npval).
`unitdisvec`(x, y[, aq])	Returns 2 complex arrays of size (naq, npval).
`potinflayers`(x, y[, layers, aq])	Layers can be scalar, list, or array.
`potentiallayers`(x, y[, layers, aq])	Returns complex array of size (ngvbc, len(layers),npval).
`unitpotentiallayers`(x, y[, layers, aq])	Returns complex array of size (len(layers), npval).
`disvecinflayers`(x, y[, layers, aq])	Layers can be scalar, list, or array.
`disveclayers`(x, y[, layers, aq])	Returns 2 complex array of size (ngvbc, len(layers), npval).
`unitdisveclayers`(x, y[, layers, aq])	Returns complex array of size (len(layers), npval).
`discharge`(t[, derivative])	The discharge in each layer.
`dischargeold`(t[, derivative])	The discharge in each layer.
`run_after_solve`()	Function to run after a solution is completed.

timflow.transient.linesink.LineSinkHoBase#

Methods#

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