beq¶

class BAllPass(*, calculation_rate: CalculationRate | SupportsInt | str | None, source: SupportsFloat | UGenScalar, frequency: SupportsFloat | UGenScalar = 1200.0, reciprocal_of_q: SupportsFloat | UGenScalar = 1.0, **kwargs)¶

Bases: UGen

An all-pass filter.

>>> source = supriya.ugens.In.ar(bus=0)
>>> ball_pass = supriya.ugens.BAllPass.ar(
...     frequency=1200,
...     reciprocal_of_q=1,
...     source=source,
... )
>>> ball_pass
<BAllPass.ar()[0]>

classmethod ar(*, source: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]], frequency: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 1200.0, reciprocal_of_q: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 1.0) → UGenOperable¶

property frequency : UGenScalar¶

property reciprocal_of_q : UGenScalar¶

property source : UGenScalar¶

class BBandPass(*, calculation_rate: CalculationRate | SupportsInt | str | None, source: SupportsFloat | UGenScalar, frequency: SupportsFloat | UGenScalar = 1200.0, bandwidth: SupportsFloat | UGenScalar = 1.0, **kwargs)¶

Bases: UGen

A band-pass filter.

>>> source = supriya.ugens.In.ar(bus=0)
>>> bband_pass = supriya.ugens.BBandPass.ar(
...     bandwidth=1,
...     frequency=1200,
...     source=source,
... )
>>> bband_pass
<BBandPass.ar()[0]>

classmethod ar(*, source: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]], frequency: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 1200.0, bandwidth: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 1.0) → UGenOperable¶

property bandwidth : UGenScalar¶

property frequency : UGenScalar¶

property source : UGenScalar¶

class BBandStop(*, calculation_rate: CalculationRate | SupportsInt | str | None, source: SupportsFloat | UGenScalar, frequency: SupportsFloat | UGenScalar = 1200.0, bandwidth: SupportsFloat | UGenScalar = 1.0, **kwargs)¶

Bases: UGen

A band-stop filter.

>>> source = supriya.ugens.In.ar(bus=0)
>>> bband_stop = supriya.ugens.BBandStop.ar(
...     bandwidth=1,
...     frequency=1200,
...     source=source,
... )
>>> bband_stop
<BBandStop.ar()[0]>

classmethod ar(*, source: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]], frequency: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 1200.0, bandwidth: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 1.0) → UGenOperable¶

property bandwidth : UGenScalar¶

property frequency : UGenScalar¶

property source : UGenScalar¶

class BHiCut(*, calculation_rate: CalculationRate | SupportsInt | str | None, source: SupportsFloat | UGenScalar, frequency: SupportsFloat | UGenScalar = 1200.0, order: SupportsFloat | UGenScalar = 2.0, max_order: SupportsFloat | UGenScalar = 5.0, **kwargs)¶

Bases: UGen

A high-cut filter.

>>> source = supriya.ugens.In.ar(bus=0)
>>> bhi_cut = supriya.ugens.BHiCut.ar(
...     frequency=1200,
...     max_order=5,
...     order=2,
...     source=source,
... )
>>> bhi_cut
<BHiCut.ar()[0]>

classmethod ar(*, source: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]], frequency: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 1200.0, order: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 2.0, max_order: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 5.0) → UGenOperable¶

property frequency : UGenScalar¶

property max_order : UGenScalar¶

property order : UGenScalar¶

property source : UGenScalar¶

class BHiPass(*, calculation_rate: CalculationRate | SupportsInt | str | None, source: SupportsFloat | UGenScalar, frequency: SupportsFloat | UGenScalar = 1200.0, reciprocal_of_q: SupportsFloat | UGenScalar = 1.0, **kwargs)¶

Bases: UGen

A high-pass filter.

>>> source = supriya.ugens.In.ar(bus=0)
>>> bhi_pass = supriya.ugens.BHiPass.ar(
...     frequency=1200,
...     reciprocal_of_q=1,
...     source=source,
... )
>>> bhi_pass
<BHiPass.ar()[0]>

classmethod ar(*, source: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]], frequency: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 1200.0, reciprocal_of_q: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 1.0) → UGenOperable¶

property frequency : UGenScalar¶

property reciprocal_of_q : UGenScalar¶

property source : UGenScalar¶

class BHiShelf(*, calculation_rate: CalculationRate | SupportsInt | str | None, source: SupportsFloat | UGenScalar, frequency: SupportsFloat | UGenScalar = 1200.0, reciprocal_of_s: SupportsFloat | UGenScalar = 1.0, gain: SupportsFloat | UGenScalar = 0.0, **kwargs)¶

Bases: UGen

A high-shelf filter.

>>> source = supriya.ugens.In.ar(bus=0)
>>> bhi_shelf = supriya.ugens.BHiShelf.ar(
...     gain=0,
...     frequency=1200,
...     reciprocal_of_s=1,
...     source=source,
... )
>>> bhi_shelf
<BHiShelf.ar()[0]>

classmethod ar(*, source: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]], frequency: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 1200.0, reciprocal_of_s: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 1.0, gain: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 0.0) → UGenOperable¶

property frequency : UGenScalar¶

property gain : UGenScalar¶

property reciprocal_of_s : UGenScalar¶

property source : UGenScalar¶

class BLowCut(*, calculation_rate: CalculationRate | SupportsInt | str | None, source: SupportsFloat | UGenScalar, frequency: SupportsFloat | UGenScalar = 1200.0, order: SupportsFloat | UGenScalar = 2.0, max_order: SupportsFloat | UGenScalar = 5.0, **kwargs)¶

Bases: UGen

A low-cut filter.

>>> source = supriya.ugens.In.ar(bus=0)
>>> blow_cut = supriya.ugens.BLowCut.ar(
...     frequency=1200,
...     max_order=5,
...     order=2,
...     source=source,
... )
>>> blow_cut
<BLowCut.ar()[0]>

classmethod ar(*, source: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]], frequency: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 1200.0, order: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 2.0, max_order: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 5.0) → UGenOperable¶

property frequency : UGenScalar¶

property max_order : UGenScalar¶

property order : UGenScalar¶

property source : UGenScalar¶

class BLowPass(*, calculation_rate: CalculationRate | SupportsInt | str | None, source: SupportsFloat | UGenScalar, frequency: SupportsFloat | UGenScalar = 1200.0, reciprocal_of_q: SupportsFloat | UGenScalar = 1.0, **kwargs)¶

Bases: UGen

A low-pass filter.

>>> source = supriya.ugens.In.ar(bus=0)
>>> blow_pass = supriya.ugens.BLowPass.ar(
...     frequency=1200,
...     reciprocal_of_q=1,
...     source=source,
... )
>>> blow_pass
<BLowPass.ar()[0]>

classmethod ar(*, source: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]], frequency: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 1200.0, reciprocal_of_q: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 1.0) → UGenOperable¶

property frequency : UGenScalar¶

property reciprocal_of_q : UGenScalar¶

property source : UGenScalar¶

class BLowShelf(*, calculation_rate: CalculationRate | SupportsInt | str | None, source: SupportsFloat | UGenScalar, frequency: SupportsFloat | UGenScalar = 1200.0, reciprocal_of_s: SupportsFloat | UGenScalar = 1.0, gain: SupportsFloat | UGenScalar = 0.0, **kwargs)¶

Bases: UGen

A low-shelf filter.

>>> source = supriya.ugens.In.ar(bus=0)
>>> blow_shelf = supriya.ugens.BLowShelf.ar(
...     frequency=1200,
...     gain=0,
...     reciprocal_of_s=1,
...     source=source,
... )
>>> blow_shelf
<BLowShelf.ar()[0]>

classmethod ar(*, source: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]], frequency: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 1200.0, reciprocal_of_s: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 1.0, gain: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 0.0) → UGenOperable¶

property frequency : UGenScalar¶

property gain : UGenScalar¶

property reciprocal_of_s : UGenScalar¶

property source : UGenScalar¶

class BPeakEQ(*, calculation_rate: CalculationRate | SupportsInt | str | None, source: SupportsFloat | UGenScalar, frequency: SupportsFloat | UGenScalar = 1200.0, reciprocal_of_q: SupportsFloat | UGenScalar = 1.0, gain: SupportsFloat | UGenScalar = 0.0, **kwargs)¶

Bases: UGen

A parametric equalizer.

>>> source = supriya.ugens.In.ar(bus=0)
>>> bpeak_eq = supriya.ugens.BPeakEQ.ar(
...     frequency=1200,
...     gain=0,
...     reciprocal_of_q=1,
...     source=source,
... )
>>> bpeak_eq
<BPeakEQ.ar()[0]>

classmethod ar(*, source: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]], frequency: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 1200.0, reciprocal_of_q: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 1.0, gain: SupportsFloat | UGenOperable | UGenSerializable | Sequence[SupportsFloat | UGenOperable | UGenSerializable | Sequence[UGenRecursiveInput]] = 0.0) → UGenOperable¶

property frequency : UGenScalar¶

property gain : UGenScalar¶

property reciprocal_of_q : UGenScalar¶

property source : UGenScalar¶