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Add regression test cases for IIR filter #1429

Merged
merged 12 commits into from
Nov 17, 2024
61 changes: 61 additions & 0 deletions test/CMakeLists.txt
Original file line number Diff line number Diff line change
Expand Up @@ -43,3 +43,64 @@ if ( LIBSNDFILE_HASVORBIS )
ADD_FLUID_TEST(test_sf3_sfont_loading)
ADD_FLUID_SF_DUMP_TEST(VintageDreamsWaves-v2.sf3)
endif ( LIBSNDFILE_HASVORBIS )


# Prepare the manual test suite down here
if(NOT DEFINED GENERAL_USER_GS2)
add_custom_target(check_manual
COMMAND ${CMAKE_COMMAND} -E cmake_echo_color --red "In order to run the manual test suite, you need to set variable GENERAL_USER_GS2 to the path of the soundfont.")
else()

set(IIR_FILTER_RENDER_DIR "${CMAKE_CURRENT_BINARY_DIR}/manual/iir_filter")

if(LIBSNDFILE_SUPPORT)
set(FEXT "wav")
else()
set(FEXT "raw")
endif()

# Add an empty pseudo target
add_custom_target(check_manual)

add_custom_target(create_iir_dir
COMMAND ${CMAKE_COMMAND} -E make_directory ${IIR_FILTER_RENDER_DIR})

add_custom_target(render1415
COMMAND fluidsynth -R 0 -C 0 -g 1 -F ${IIR_FILTER_RENDER_DIR}/1415_the-nervous-filter.${FEXT} "The Nervous Filter trimmed.mid" ${GENERAL_USER_GS2}
COMMENT "Rendering testfile of issue 1415"
DEPENDS fluidsynth create_iir_dir
WORKING_DIRECTORY ${CMAKE_CURRENT_SOURCE_DIR}/manual/iir_filter/1415_the-nervous-filter/
VERBATIM
)

add_custom_target(render1417
COMMAND fluidsynth -R 0 -C 0 -g 1 -F ${IIR_FILTER_RENDER_DIR}/1417_filter-envelope-noise.${FEXT} filter-envelope-noise.mid ${GENERAL_USER_GS2}
COMMENT "Rendering testfile of issue 1417"
DEPENDS fluidsynth create_iir_dir
WORKING_DIRECTORY ${CMAKE_CURRENT_SOURCE_DIR}/manual/iir_filter/1417_filter-envelope-noise/
VERBATIM
)

add_custom_target(render1424
COMMAND fluidsynth -R 0 -C 0 -g 1 -F ${IIR_FILTER_RENDER_DIR}/1424_clicks-on-ModEnv-FilterFc-change.${FEXT} 1424.mid echo_drops.sf2
COMMENT "Rendering testfile of issue 1424"
DEPENDS fluidsynth create_iir_dir
WORKING_DIRECTORY ${CMAKE_CURRENT_SOURCE_DIR}/manual/iir_filter/1424_clicks-on-ModEnv-FilterFc-change/
VERBATIM
)

add_custom_target(render1427
COMMAND fluidsynth -R 0 -C 0 -g 5 -F ${IIR_FILTER_RENDER_DIR}/1427_high-Q-note-cutoff.${FEXT} high_Q_note_cutoff_test.mid high_Q_note_cutoff_test.sf2
COMMENT "Rendering testfile of issue 1427"
DEPENDS fluidsynth create_iir_dir
WORKING_DIRECTORY ${CMAKE_CURRENT_SOURCE_DIR}/manual/iir_filter/1427_high-Q-note-cutoff/
VERBATIM
)

# Add a dependency so that rendering targets depends on check_manual
add_dependencies(check_manual render1415)
add_dependencies(check_manual render1417)
add_dependencies(check_manual render1424)
add_dependencies(check_manual render1427)

endif()
4 changes: 4 additions & 0 deletions test/manual/iir_filter/1415_the-nervous-filter/.gitattributes
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*.ogg filter=lfs diff=lfs merge=lfs -text
*.flac filter=lfs diff=lfs merge=lfs -text
*.wav filter=lfs diff=lfs merge=lfs -text
*.sf2 filter=lfs diff=lfs merge=lfs -text
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filter-envelope-noise-1345[[:space:]]reverted.flac filter=lfs diff=lfs merge=lfs -text
filter-envelope-noise-FluidSynth[[:space:]]2.4.flac filter=lfs diff=lfs merge=lfs -text
filter-envelope-noise.mid filter=lfs diff=lfs merge=lfs -text
*.flac filter=lfs diff=lfs merge=lfs -text
*.sf2 filter=lfs diff=lfs merge=lfs -text
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echo_drops.sf2 filter=lfs diff=lfs merge=lfs -text
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3 changes: 3 additions & 0 deletions test/manual/iir_filter/1427_high-Q-note-cutoff/.gitattributes
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high_Q_note_cutoff_test.sf2 filter=lfs diff=lfs merge=lfs -text
fluidsynth_iir-tests.flac filter=lfs diff=lfs merge=lfs -text
high_Q_note_cutoff_test.mid filter=lfs diff=lfs merge=lfs -text
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86 changes: 86 additions & 0 deletions test/manual/iir_filter/interactive_biquad_lowpass.m
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#
# This Matlab script implements an interactive Bode plot of fluidsynth's IIR filter.
# To run it, just call interactive_biquad_lowpass() and a window will open up, allowing
# you to adjust the cutoff frequency and Q.
# Note that Q is in linear range here!
#
function interactive_biquad_lowpass()
% Initial values
f_c = 1000; % Initial cutoff frequency in Hz
Q = 0.707; % Initial quality factor
f_s = 48000; % Sampling frequency in Hz

% Create the figure
hFig = figure('Name', 'Interactive Biquad Lowpass Filter', 'NumberTitle', 'off');

% Create axes for the magnitude and phase plots
hAxesMag = subplot(2, 1, 1, 'Parent', hFig);
hAxesPhase = subplot(2, 1, 2, 'Parent', hFig);

% Plot the initial response
plot_response(hAxesMag, hAxesPhase, f_c, Q, f_s);

% Create slider for cutoff frequency
uicontrol('Style', 'text', 'Position', [20 20 150 20], 'String', 'Cutoff Frequency (Hz)');
hSliderFc = uicontrol('Style', 'slider', 'Min', 100, 'Max', 20000, 'Value', f_c, ...
'Position', [20 40 300 20]);
hTextFc = uicontrol('Style', 'text', 'Position', [330 40 50 20], 'String', num2str(f_c));

% Create slider for quality factor
uicontrol('Style', 'text', 'Position', [20 80 150 20], 'String', 'Quality Factor (Q)');
hSliderQ = uicontrol('Style', 'slider', 'Min', 0.1, 'Max', 100, 'Value', Q, ...
'Position', [20 100 300 20]);
hTextQ = uicontrol('Style', 'text', 'Position', [330 100 50 20], 'String', num2str(Q));

% Add listeners for both sliders
addlistener(hSliderFc, 'Value', 'PreSet', @(src, event) update_plot(hAxesMag, hAxesPhase, hSliderFc, hSliderQ, f_s, hTextFc, hTextQ));
addlistener(hSliderQ, 'Value', 'PreSet', @(src, event) update_plot(hAxesMag, hAxesPhase, hSliderFc, hSliderQ, f_s, hTextFc, hTextQ));
end

function update_plot(hAxesMag, hAxesPhase, hSliderFc, hSliderQ, f_s, hTextFc, hTextQ)
% Get the current values from the sliders
f_c = get(hSliderFc, 'Value');
Q = get(hSliderQ, 'Value');

% Update the text displays
set(hTextFc, 'String', num2str(f_c, '%.1f')); % Display cutoff frequency
set(hTextQ, 'String', num2str(Q, '%.2f')); % Display quality factor

% Update the plot with the new values
plot_response(hAxesMag, hAxesPhase, f_c, Q, f_s);
end

function plot_response(hAxesMag, hAxesPhase, f_c, Q, f_s)
% Design the biquad lowpass filter
w0 = 2 * pi * f_c / f_s;
alpha = sin(w0) / (2 * Q);

b0 = (1 - cos(w0)) / 2;
b1 = 1 - cos(w0);
b2 = (1 - cos(w0)) / 2;
a0 = 1 + alpha;
a1 = -2 * cos(w0);
a2 = 1 - alpha;

% Normalize coefficients
b = [b0 / a0, b1 / a0, b2 / a0];
a = [1, a1 / a0, a2 / a0];

% Compute the frequency response
[h, w] = freqz(b, a, 1024, f_s);

% Clear the axes and plot the new response
cla(hAxesMag);
plot(hAxesMag, w, 20*log10(abs(h)));
title(hAxesMag, 'Magnitude Response');
xlabel(hAxesMag, 'Frequency (Hz)');
ylabel(hAxesMag, 'Magnitude (dB)');
grid(hAxesMag, 'on');

cla(hAxesPhase);
plot(hAxesPhase, w, angle(h) * (180/pi));
title(hAxesPhase, 'Phase Response');
xlabel(hAxesPhase, 'Frequency (Hz)');
ylabel(hAxesPhase, 'Phase (degrees)');
grid(hAxesPhase, 'on');
end
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