bw_cab

Cab simulator effect.

This is a simple digital effect made of a bunch of filters, not an emulation of any analog circuit nor a simulation of an actual cabinet.

Version: 1.1.0

License:

GPLv3 for free software/open source projects, or
proprietary license for all other products.

Source code accessible here

Requires:

Included in Brickworks, which is:

FREE for free software/open source projects (GPLv3), or
3,000 € for all other products (proprietary license).

Details

Examples

Here you can download one or more example VST3 plugins for Windows, macOS and Linux. Source code of the audio engine(s) is included in the archive(s).

Description	Link
Cab simulator	Download

VST® is a trademark of Steinberg Media Technologies GmbH, registered in Europe and other countries.

API

Module type: DSP

bw_cab_coeffs

typedef struct bw_cab_coeffs bw_cab_coeffs;

Coefficients and related.

bw_cab_state

typedef struct bw_cab_state bw_cab_state;

Internal state and related.

bw_cab_init()

static inline void bw_cab_init(
	bw_cab_coeffs * BW_RESTRICT coeffs);

Initializes input parameter values in coeffs.

bw_cab_set_sample_rate()

static inline void bw_cab_set_sample_rate(
	bw_cab_coeffs * BW_RESTRICT coeffs,
	float                       sample_rate);

Sets the sample_rate (Hz) value in coeffs.

bw_cab_reset_coeffs()

static inline void bw_cab_reset_coeffs(
	bw_cab_coeffs * BW_RESTRICT coeffs);

Resets coefficients in coeffs to assume their target values.

bw_cab_reset_state()

static inline float bw_cab_reset_state(
	const bw_cab_coeffs * BW_RESTRICT coeffs,
	bw_cab_state * BW_RESTRICT        state,
	float                             x_0);

Resets the given state to its initial values using the given coeffs and the initial input value x_0.

Returns the corresponding initial output value.

bw_cab_reset_state_multi()

static inline void bw_cab_reset_state_multi(
	const bw_cab_coeffs * BW_RESTRICT              coeffs,
	bw_cab_state * BW_RESTRICT const * BW_RESTRICT state,
	const float *                                  x_0,
	float *                                        y_0,
	size_t                                         n_channels);

Resets each of the n_channels states to its initial values using the given coeffs and the corresponding initial input value in the x_0 array.

The corresponding initial output values are written into the y_0 array, if not BW_NULL.

bw_cab_update_coeffs_ctrl()

static inline void bw_cab_update_coeffs_ctrl(
	bw_cab_coeffs * BW_RESTRICT coeffs);

Triggers control-rate update of coefficients in coeffs.

bw_cab_update_coeffs_audio()

static inline void bw_cab_update_coeffs_audio(
	bw_cab_coeffs * BW_RESTRICT coeffs);

Triggers audio-rate update of coefficients in coeffs.

bw_cab_process1()

static inline float bw_cab_process1(
	const bw_cab_coeffs * BW_RESTRICT coeffs,
	bw_cab_state * BW_RESTRICT        state,
	float                             x);

Processes one input sample x using coeffs, while using and updating state. Returns the corresponding output sample.

bw_cab_process()

static inline void bw_cab_process(
	bw_cab_coeffs * BW_RESTRICT coeffs,
	bw_cab_state * BW_RESTRICT  state,
	const float *               x,
	float *                     y,
	size_t                      n_samples);

Processes the first n_samples of the input buffer x and fills the first n_samples of the output buffer y, while using and updating both coeffs and state (control and audio rate).

bw_cab_process_multi()

static inline void bw_cab_process_multi(
	bw_cab_coeffs * BW_RESTRICT                    coeffs,
	bw_cab_state * BW_RESTRICT const * BW_RESTRICT state,
	const float * const *                          x,
	float * const *                                y,
	size_t                                         n_channels,
	size_t                                         n_samples);

Processes the first n_samples of the n_channels input buffers x and fills the first n_samples of the n_channels output buffers y, while using and updating both the common coeffs and each of the n_channels states (control and audio rate).

bw_cab_set_cutoff_low()

static inline void bw_cab_set_cutoff_low(
	bw_cab_coeffs * BW_RESTRICT coeffs,
	float                       value);

Sets the low cutoff frequency to the given (relative) value in coeffs.

Valid range: [0.f, 1.f].

Default value: 0.5f.

bw_cab_set_cutoff_high()

static inline void bw_cab_set_cutoff_high(
	bw_cab_coeffs * BW_RESTRICT coeffs,
	float                       value);

Sets the high cutoff frequency to the given (relative) value in coeffs.

Valid range: [0.f, 1.f].

Default value: 0.5f.

bw_cab_set_tone()

static inline void bw_cab_set_tone(
	bw_cab_coeffs * BW_RESTRICT coeffs,
	float                       value);

Sets the tone to the given value in coeffs.

Valid range: [0.f (dark), 1.f (bright)].

Default value: 0.5f.

bw_cab_coeffs_is_valid()

static inline char bw_cab_coeffs_is_valid(
	const bw_cab_coeffs * BW_RESTRICT coeffs);

Tries to determine whether coeffs is valid and returns non-0 if it seems to be the case and 0 if it is certainly not. False positives are possible, false negatives are not.

coeffs must at least point to a readable memory block of size greater than or equal to that of bw_cab_coeffs.

bw_cab_state_is_valid()

static inline char bw_cab_state_is_valid(
	const bw_cab_coeffs * BW_RESTRICT coeffs,
	const bw_cab_state * BW_RESTRICT  state);

Tries to determine whether state is valid and returns non-0 if it seems to be the case and 0 if it is certainly not. False positives are possible, false negatives are not.

If coeffs is not BW_NULL extra cross-checks might be performed (state is supposed to be associated to coeffs).

state must at least point to a readable memory block of size greater than or equal to that of bw_cab_state.

C++ wrapper

Brickworks::Cab

template<size_t N_CHANNELS>
class Cab {
public:
	Cab();

	void setSampleRate(
		float sampleRate);

	void reset(
		float               x0 = 0.f,
		float * BW_RESTRICT y0 = nullptr);

# ifndef BW_CXX_NO_ARRAY
	void reset(
		float                                       x0,
		std::array<float, N_CHANNELS> * BW_RESTRICT y0);
# endif

	void reset(
		const float * x0,
		float *       y0 = nullptr);

# ifndef BW_CXX_NO_ARRAY
	void reset(
		std::array<float, N_CHANNELS>               x0,
		std::array<float, N_CHANNELS> * BW_RESTRICT y0 = nullptr);
# endif

	void process(
		const float * const * x,
		float * const *       y,
		size_t                nSamples);

# ifndef BW_CXX_NO_ARRAY
	void process(
		std::array<const float *, N_CHANNELS> x,
		std::array<float *, N_CHANNELS>       y,
		size_t                                nSamples);
# endif

	void setCutoffLow(
		float value);

	void setCutoffHigh(
		float value);

	void setTone(
		float value);
...
}

Changelog

Version 1.1.0:
- Added support for BW_INCLUDE_WITH_QUOTES, BW_NO_CXX, and BW_CXX_NO_EXTERN_C.
- Added debugging checks from bw_cab_process() to bw_cab_process_multi().
- Added debugging checks in bw_cab_process_multi() to ensure that buffers used for both input and output appear at the same channel indices.
Version 1.0.0:
- First release.