#include #include #ifndef WIN32 #include "config.h" #endif #ifdef ENABLE_NLS #include #endif #define _ISOC9X_SOURCE 1 #define _ISOC99_SOURCE 1 #define __USE_ISOC99 1 #define __USE_ISOC9X 1 #include #include "ladspa.h" #ifdef WIN32 #define _WINDOWS_DLL_EXPORT_ __declspec(dllexport) int bIsFirstTime = 1; void _init(); // forward declaration #else #define _WINDOWS_DLL_EXPORT_ #endif #line 10 "ls_filter_1908.xml" #include "ladspa-util.h" #include "util/ls_filter.h" #define LSFILTER_TYPE 0 #define LSFILTER_CUTOFF 1 #define LSFILTER_RESONANCE 2 #define LSFILTER_INPUT 3 #define LSFILTER_OUTPUT 4 static LADSPA_Descriptor *lsFilterDescriptor = NULL; typedef struct { LADSPA_Data *type; LADSPA_Data *cutoff; LADSPA_Data *resonance; LADSPA_Data *input; LADSPA_Data *output; ls_filt * filt; float fs; LADSPA_Data run_adding_gain; } LsFilter; _WINDOWS_DLL_EXPORT_ const LADSPA_Descriptor *ladspa_descriptor(unsigned long index) { #ifdef WIN32 if (bIsFirstTime) { _init(); bIsFirstTime = 0; } #endif switch (index) { case 0: return lsFilterDescriptor; default: return NULL; } } static void activateLsFilter(LADSPA_Handle instance) { LsFilter *plugin_data = (LsFilter *)instance; ls_filt *filt = plugin_data->filt; float fs = plugin_data->fs; #line 26 "ls_filter_1908.xml" ls_filt_init(filt); plugin_data->filt = filt; plugin_data->fs = fs; } static void cleanupLsFilter(LADSPA_Handle instance) { #line 42 "ls_filter_1908.xml" LsFilter *plugin_data = (LsFilter *)instance; free(plugin_data->filt); free(instance); } static void connectPortLsFilter( LADSPA_Handle instance, unsigned long port, LADSPA_Data *data) { LsFilter *plugin; plugin = (LsFilter *)instance; switch (port) { case LSFILTER_TYPE: plugin->type = data; break; case LSFILTER_CUTOFF: plugin->cutoff = data; break; case LSFILTER_RESONANCE: plugin->resonance = data; break; case LSFILTER_INPUT: plugin->input = data; break; case LSFILTER_OUTPUT: plugin->output = data; break; } } static LADSPA_Handle instantiateLsFilter( const LADSPA_Descriptor *descriptor, unsigned long s_rate) { LsFilter *plugin_data = (LsFilter *)malloc(sizeof(LsFilter)); ls_filt *filt = NULL; float fs; #line 21 "ls_filter_1908.xml" filt = malloc(sizeof(ls_filt)); fs = s_rate; plugin_data->filt = filt; plugin_data->fs = fs; return (LADSPA_Handle)plugin_data; } #undef buffer_write #undef RUN_ADDING #undef RUN_REPLACING #define buffer_write(b, v) (b = v) #define RUN_ADDING 0 #define RUN_REPLACING 1 static void runLsFilter(LADSPA_Handle instance, unsigned long sample_count) { LsFilter *plugin_data = (LsFilter *)instance; /* Filter type (0=LP, 1=BP, 2=HP) (float value) */ const LADSPA_Data type = *(plugin_data->type); /* Cutoff frequency (Hz) (float value) */ const LADSPA_Data cutoff = *(plugin_data->cutoff); /* Resonance (float value) */ const LADSPA_Data resonance = *(plugin_data->resonance); /* Input (array of floats of length sample_count) */ const LADSPA_Data * const input = plugin_data->input; /* Output (array of floats of length sample_count) */ LADSPA_Data * const output = plugin_data->output; ls_filt * filt = plugin_data->filt; float fs = plugin_data->fs; #line 30 "ls_filter_1908.xml" unsigned long pos; const ls_filt_type t = (ls_filt_type)f_round(type); ls_filt_setup(filt, t, cutoff, resonance, fs); for (pos = 0; pos < sample_count; pos++) { buffer_write(output[pos], ls_filt_run(filt, input[pos])); } } #undef buffer_write #undef RUN_ADDING #undef RUN_REPLACING #define buffer_write(b, v) (b += (v) * run_adding_gain) #define RUN_ADDING 1 #define RUN_REPLACING 0 static void setRunAddingGainLsFilter(LADSPA_Handle instance, LADSPA_Data gain) { ((LsFilter *)instance)->run_adding_gain = gain; } static void runAddingLsFilter(LADSPA_Handle instance, unsigned long sample_count) { LsFilter *plugin_data = (LsFilter *)instance; LADSPA_Data run_adding_gain = plugin_data->run_adding_gain; /* Filter type (0=LP, 1=BP, 2=HP) (float value) */ const LADSPA_Data type = *(plugin_data->type); /* Cutoff frequency (Hz) (float value) */ const LADSPA_Data cutoff = *(plugin_data->cutoff); /* Resonance (float value) */ const LADSPA_Data resonance = *(plugin_data->resonance); /* Input (array of floats of length sample_count) */ const LADSPA_Data * const input = plugin_data->input; /* Output (array of floats of length sample_count) */ LADSPA_Data * const output = plugin_data->output; ls_filt * filt = plugin_data->filt; float fs = plugin_data->fs; #line 30 "ls_filter_1908.xml" unsigned long pos; const ls_filt_type t = (ls_filt_type)f_round(type); ls_filt_setup(filt, t, cutoff, resonance, fs); for (pos = 0; pos < sample_count; pos++) { buffer_write(output[pos], ls_filt_run(filt, input[pos])); } } void _init() { char **port_names; LADSPA_PortDescriptor *port_descriptors; LADSPA_PortRangeHint *port_range_hints; #ifdef ENABLE_NLS #define D_(s) dgettext(PACKAGE, s) setlocale(LC_ALL, ""); bindtextdomain(PACKAGE, PACKAGE_LOCALE_DIR); #else #define D_(s) (s) #endif lsFilterDescriptor = (LADSPA_Descriptor *)malloc(sizeof(LADSPA_Descriptor)); if (lsFilterDescriptor) { lsFilterDescriptor->UniqueID = 1908; lsFilterDescriptor->Label = "lsFilter"; lsFilterDescriptor->Properties = LADSPA_PROPERTY_HARD_RT_CAPABLE; lsFilterDescriptor->Name = D_("LS Filter"); lsFilterDescriptor->Maker = "Steve Harris "; lsFilterDescriptor->Copyright = "GPL"; lsFilterDescriptor->PortCount = 5; port_descriptors = (LADSPA_PortDescriptor *)calloc(5, sizeof(LADSPA_PortDescriptor)); lsFilterDescriptor->PortDescriptors = (const LADSPA_PortDescriptor *)port_descriptors; port_range_hints = (LADSPA_PortRangeHint *)calloc(5, sizeof(LADSPA_PortRangeHint)); lsFilterDescriptor->PortRangeHints = (const LADSPA_PortRangeHint *)port_range_hints; port_names = (char **)calloc(5, sizeof(char*)); lsFilterDescriptor->PortNames = (const char **)port_names; /* Parameters for Filter type (0=LP, 1=BP, 2=HP) */ port_descriptors[LSFILTER_TYPE] = LADSPA_PORT_INPUT | LADSPA_PORT_CONTROL; port_names[LSFILTER_TYPE] = D_("Filter type (0=LP, 1=BP, 2=HP)"); port_range_hints[LSFILTER_TYPE].HintDescriptor = LADSPA_HINT_BOUNDED_BELOW | LADSPA_HINT_BOUNDED_ABOVE | LADSPA_HINT_DEFAULT_0 | LADSPA_HINT_INTEGER; port_range_hints[LSFILTER_TYPE].LowerBound = 0; port_range_hints[LSFILTER_TYPE].UpperBound = 2; /* Parameters for Cutoff frequency (Hz) */ port_descriptors[LSFILTER_CUTOFF] = LADSPA_PORT_INPUT | LADSPA_PORT_CONTROL; port_names[LSFILTER_CUTOFF] = D_("Cutoff frequency (Hz)"); port_range_hints[LSFILTER_CUTOFF].HintDescriptor = LADSPA_HINT_BOUNDED_BELOW | LADSPA_HINT_BOUNDED_ABOVE | LADSPA_HINT_DEFAULT_MIDDLE | LADSPA_HINT_LOGARITHMIC | LADSPA_HINT_SAMPLE_RATE; port_range_hints[LSFILTER_CUTOFF].LowerBound = 0.002; port_range_hints[LSFILTER_CUTOFF].UpperBound = 0.5; /* Parameters for Resonance */ port_descriptors[LSFILTER_RESONANCE] = LADSPA_PORT_INPUT | LADSPA_PORT_CONTROL; port_names[LSFILTER_RESONANCE] = D_("Resonance"); port_range_hints[LSFILTER_RESONANCE].HintDescriptor = LADSPA_HINT_BOUNDED_BELOW | LADSPA_HINT_BOUNDED_ABOVE | LADSPA_HINT_DEFAULT_0; port_range_hints[LSFILTER_RESONANCE].LowerBound = 0.0; port_range_hints[LSFILTER_RESONANCE].UpperBound = 1.0; /* Parameters for Input */ port_descriptors[LSFILTER_INPUT] = LADSPA_PORT_INPUT | LADSPA_PORT_AUDIO; port_names[LSFILTER_INPUT] = D_("Input"); port_range_hints[LSFILTER_INPUT].HintDescriptor = 0; /* Parameters for Output */ port_descriptors[LSFILTER_OUTPUT] = LADSPA_PORT_OUTPUT | LADSPA_PORT_AUDIO; port_names[LSFILTER_OUTPUT] = D_("Output"); port_range_hints[LSFILTER_OUTPUT].HintDescriptor = 0; lsFilterDescriptor->activate = activateLsFilter; lsFilterDescriptor->cleanup = cleanupLsFilter; lsFilterDescriptor->connect_port = connectPortLsFilter; lsFilterDescriptor->deactivate = NULL; lsFilterDescriptor->instantiate = instantiateLsFilter; lsFilterDescriptor->run = runLsFilter; lsFilterDescriptor->run_adding = runAddingLsFilter; lsFilterDescriptor->set_run_adding_gain = setRunAddingGainLsFilter; } } void _fini() { if (lsFilterDescriptor) { free((LADSPA_PortDescriptor *)lsFilterDescriptor->PortDescriptors); free((char **)lsFilterDescriptor->PortNames); free((LADSPA_PortRangeHint *)lsFilterDescriptor->PortRangeHints); free(lsFilterDescriptor); } }