Free Effect: Analog Filter for scriptnode (24dB/oct)
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C++ analog filter node based on this paper:
https://www.researchgate.net/publication/344876889_Moog_Ladder_Filter_Generalizations_Based_on_State_Variable_FiltersTo use it in a Hise project, open your project folder and place the script file (Griffin_LadderFilter.h) under:
DspNetworks > ThirdParty
Then open your Hise project and compile dsp networks as dll
Now press OK, and you will be able to use the Node:
The node should appear under the 'project' category when you open the scripnode node browser.
Download the script here:
Polyphonic (stereo):
https://1drv.ms/u/c/6c19b197e5968b36/EYVQsJa9FlpKldok2ThVUwMBVf3KnemfEeccDyzASGbGJw?e=XNq1PUMonophonic (stereo):
https://1drv.ms/u/c/6c19b197e5968b36/EcGw46UnqYJMk1cu3bH2QZQBSWTXAOL6ggsusNrF-LrtZQ?e=FvMeGr24dB / Octave Filter Response:
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@griffinboy that's a nice gesture, thank you
I'm on my way to learn more about dsp so I'm very interested in analysing it -
@griffinboy thank you for sharing!
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@griffinboy
This is great! Thank you! :-) -
update*
Fixed a typo in the monophonic script, it should work now -
@griffinboy said in Free Effect: Analog Filter for scriptnode (24dB/oct):
Now restart hise, and you will be able to use the Node:
I think the process has changed with the latest version of HISE?
Libre Wave - Freedom respecting instruments and effects
My Patreon - HISE tutorials
YouTube Channel - Public HISE tutorials -
Did it! I'm not on the latest version of hise, what is different? I should update
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@griffinboy I'm basing my assumption on this thread - https://forum.hise.audio/topic/11731/scriptnode-compilation-workflow-and-what-to-do-about-it
Libre Wave - Freedom respecting instruments and effects
My Patreon - HISE tutorials
YouTube Channel - Public HISE tutorials -
Now restart hise, and you will be able to use the Node:
Yes. it should read now:
Now press OK and you will be able to use the node
It's the small details :)
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Nice update!
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@griffinboy Waiting for your Youtube Tutorials.
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@griffinboy Nice one!
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I have tried to make it a High Pass Filter from the Griffin_LadderFilter.h provided by @griffinboy
I am not a good C++ DSP programmer. Test it whether it is working or not./* Copyright (c) 2024 griffinboy Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #pragma once #include <JuceHeader.h> namespace project { using namespace juce; using namespace hise; using namespace scriptnode; template <typename T> class ScopedValue { public: explicit ScopedValue(T& val) : value(val), ref(val) {} ~ScopedValue() { ref = value; } T& get() { return value; } private: T value; T& ref; ScopedValue(const ScopedValue&) = delete; ScopedValue& operator=(const ScopedValue&) = delete; }; template <int NV> struct Griffin_HighPassFilter : public data::base { SNEX_NODE(Griffin_HighPassFilter); struct MetadataClass { SN_NODE_ID("Griffin_HighPassFilter"); }; static constexpr bool isModNode() { return false; } static constexpr bool isPolyphonic() { return NV > 1; } static constexpr bool hasTail() { return true; } static constexpr bool isSuspendedOnSilence() { return false; } static constexpr int getFixChannelAmount() { return 2; } static constexpr int NumTables = 0; static constexpr int NumSliderPacks = 0; static constexpr int NumAudioFiles = 0; static constexpr int NumFilters = 0; static constexpr int NumDisplayBuffers = 0; void prepare(PrepareSpecs specs) { filtersLeft.prepare(specs); filtersRight.prepare(specs); for (auto& filter : filtersLeft) filter.prepare(specs.sampleRate); for (auto& filter : filtersRight) filter.prepare(specs.sampleRate); } void reset() { for (auto& filter : filtersLeft) filter.reset(); for (auto& filter : filtersRight) filter.reset(); } template <typename ProcessDataType> void process(ProcessDataType& data) { auto& fixData = data.template as<ProcessData<getFixChannelAmount()>>(); auto audioBlock = fixData.toAudioBlock(); auto* leftChannelData = audioBlock.getChannelPointer(0); auto* rightChannelData = audioBlock.getChannelPointer(1); int numSamples = (int)data.getNumSamples(); for (auto& leftFilter : filtersLeft) { leftFilter.process(leftChannelData, numSamples); } for (auto& rightFilter : filtersRight) { rightFilter.process(rightChannelData, numSamples); } } class AudioEffect { public: AudioEffect() = default; void prepare(float sampleRate) { fs = sampleRate; reset(); } void reset() { x1 = x2 = y1 = y2 = 0.0f; } void updateCoefficients(float fc, float q) { float omega = 2.0f * MathConstants<float>::pi * fc / fs; float alpha = std::sin(omega) / (2.0f * q); float cosOmega = std::cos(omega); float a0 = 1.0f + alpha; b0 = (1.0f + cosOmega) / (2.0f * a0); b1 = -(1.0f + cosOmega) / a0; b2 = (1.0f + cosOmega) / (2.0f * a0); a1 = (-2.0f * cosOmega) / a0; a2 = (1.0f - alpha) / a0; } void process(float* samples, int numSamples) { for (int i = 0; i < numSamples; ++i) { samples[i] = processSample(samples[i]); } } private: float fs = 44100.0f; float b0 = 0.0f, b1 = 0.0f, b2 = 0.0f; float a1 = 0.0f, a2 = 0.0f; float x1 = 0.0f, x2 = 0.0f; float y1 = 0.0f, y2 = 0.0f; inline float processSample(float input) { float output = b0 * input + b1 * x1 + b2 * x2 - a1 * y1 - a2 * y2; x2 = x1; x1 = input; y2 = y1; y1 = output; return output; } }; template <int P> void setParameter(double value) { if (P == 0) // Cutoff Frequency { cutoffFrequency = static_cast<float>(value); for (auto& filter : filtersLeft) filter.updateCoefficients(cutoffFrequency, q); for (auto& filter : filtersRight) filter.updateCoefficients(cutoffFrequency, q); } else if (P == 1) // Q Factor { q = static_cast<float>(value); for (auto& filter : filtersLeft) filter.updateCoefficients(cutoffFrequency, q); for (auto& filter : filtersRight) filter.updateCoefficients(cutoffFrequency, q); } } void createParameters(ParameterDataList& data) { { parameter::data p("Cutoff Frequency", { 20.0, 20000.0, 1.0 }); registerCallback<0>(p); p.setDefaultValue(1000.0); data.add(std::move(p)); } { parameter::data p("Q Factor", { 0.1, 10.0, 0.01 }); registerCallback<1>(p); p.setDefaultValue(0.707); data.add(std::move(p)); } } void setExternalData(const ExternalData& data, int index) {} void handleHiseEvent(HiseEvent& e) {} template <typename FrameDataType> void processFrame(FrameDataType& data) {} private: PolyData<AudioEffect, NV> filtersLeft; PolyData<AudioEffect, NV> filtersRight; float cutoffFrequency = 1000.0f; float q = 0.707f; }; }
