juce::dsp::FFT Class Reference

#include <juce_FFT.h>

Classes
struct	Instance
struct	Engine
struct	EngineImpl

Public Member Functions
	FFT (int order)
	FFT (FFT &&) noexcept
FFT &	operator= (FFT &&) noexcept
	~FFT ()
void	perform (const Complex< float > *input, Complex< float > *output, bool inverse) const noexcept
void	performRealOnlyForwardTransform (float *inputOutputData, bool onlyCalculateNonNegativeFrequencies=false) const noexcept
void	performRealOnlyInverseTransform (float *inputOutputData) const noexcept
void	performFrequencyOnlyForwardTransform (float *inputOutputData, bool onlyCalculateNonNegativeFrequencies=false) const noexcept
int	getSize () const noexcept

Private Attributes
std::unique_ptr< Instance >	engine
int	size

Detailed Description

Performs a fast fourier transform.

This is only a simple low-footprint implementation and isn't tuned for speed - it may be useful for simple applications where one of the more complex FFT libraries would be overkill. (But in the future it may end up becoming optimised of course...)

The FFT class itself contains lookup tables, so there's some overhead in creating one, you should create and cache an FFT object for each size/direction of transform that you need, and re-use them to perform the actual operation.

@tags{DSP}

Constructor & Destructor Documentation

FFT() [1/2]

juce::dsp::FFT::FFT

(

int

order

)

Initialises an object for performing forward and inverse FFT with the given size. The number of points the FFT will operate on will be 2 ^ order.

FFT() [2/2]

juce::dsp::FFT::FFT ( FFT && )

defaultnoexcept

Move constructor.

~FFT()

juce::dsp::FFT::~FFT ( )

default

Destructor.

Member Function Documentation

getSize()

int juce::dsp::FFT::getSize ( ) const

inlinenoexcept

Returns the number of data points that this FFT was created to work with.

operator=()

FFT & juce::dsp::FFT::operator= ( FFT && )

defaultnoexcept

Move assignment operator.

perform()

void juce::dsp::FFT::perform ( const Complex< float > * input, Complex< float > * output, bool inverse ) const

noexcept

Performs an out-of-place FFT, either forward or inverse. The arrays must contain at least getSize() elements.

performFrequencyOnlyForwardTransform()

void juce::dsp::FFT::performFrequencyOnlyForwardTransform ( float * inputOutputData, bool onlyCalculateNonNegativeFrequencies = false ) const

noexcept

Takes an array and simply transforms it to the magnitude frequency response spectrum. This may be handy for things like frequency displays or analysis. The size of the array passed in must be 2 * getSize().

On return, if onlyCalculateNonNegativeFrequencies is false, the array will contain size magnitude values. If onlyCalculateNonNegativeFrequencies is true, the array will contain at least size / 2 + 1 magnitude values.

performRealOnlyForwardTransform()

void juce::dsp::FFT::performRealOnlyForwardTransform ( float * inputOutputData, bool onlyCalculateNonNegativeFrequencies = false ) const

noexcept

Performs an in-place forward transform on a block of real data.

As the coefficients of the negative frequencies (frequencies higher than N/2 or pi) are the complex conjugate of their positive counterparts, it may not be necessary to calculate them for your particular application. You can use onlyCalculateNonNegativeFrequencies to let the FFT engine know that you do not plan on using them. Note that this is only a hint: some FFT engines (currently only the Fallback engine), will still calculate the negative frequencies even if onlyCalculateNonNegativeFrequencies is true.

The size of the array passed in must be 2 * getSize(), and the first half should contain your raw input sample data. On return, if onlyCalculateNonNegativeFrequencies is false, the array will contain size complex real + imaginary parts data interleaved. If onlyCalculateNonNegativeFrequencies is true, the array will contain at least (size / 2) + 1 complex numbers. Both outputs can be passed to performRealOnlyInverseTransform() in order to convert it back to reals.

performRealOnlyInverseTransform()

void juce::dsp::FFT::performRealOnlyInverseTransform ( float * inputOutputData ) const

noexcept

Performs a reverse operation to data created in performRealOnlyForwardTransform().

Although performRealOnlyInverseTransform will only use the first ((size / 2) + 1) complex numbers, the size of the array passed in must still be 2 * getSize(), as some FFT engines require the extra space for the calculation. On return, the first half of the array will contain the reconstituted samples.

Member Data Documentation

engine

std::unique_ptr<Instance> juce::dsp::FFT::engine

private

size

int juce::dsp::FFT::size

private

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The documentation for this class was generated from the following files:

• /home/runner/work/lmms-fork/lmms-fork/plugins/CarlaBase/carla/source/modules/juce_dsp/frequency/juce_FFT.h
• /home/runner/work/lmms-fork/lmms-fork/plugins/CarlaBase/carla/source/modules/juce_dsp/frequency/juce_FFT.cpp