#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 "sc4m_1916.xml" #include "util/db.h" #include "util/rms.h" #define A_TBL 256 #define SC4M_RMS_PEAK 0 #define SC4M_ATTACK 1 #define SC4M_RELEASE 2 #define SC4M_THRESHOLD 3 #define SC4M_RATIO 4 #define SC4M_KNEE 5 #define SC4M_MAKEUP_GAIN 6 #define SC4M_AMPLITUDE 7 #define SC4M_GAIN_RED 8 #define SC4M_INPUT 9 #define SC4M_OUTPUT 10 static LADSPA_Descriptor *sc4mDescriptor = NULL; typedef struct { LADSPA_Data *rms_peak; LADSPA_Data *attack; LADSPA_Data *release; LADSPA_Data *threshold; LADSPA_Data *ratio; LADSPA_Data *knee; LADSPA_Data *makeup_gain; LADSPA_Data *amplitude; LADSPA_Data *gain_red; LADSPA_Data *input; LADSPA_Data *output; float amp; float * as; unsigned int count; float env; float env_peak; float env_rms; float gain; float gain_t; rms_env * rms; float sum; LADSPA_Data run_adding_gain; } Sc4m; _WINDOWS_DLL_EXPORT_ const LADSPA_Descriptor *ladspa_descriptor(unsigned long index) { #ifdef WIN32 if (bIsFirstTime) { _init(); bIsFirstTime = 0; } #endif switch (index) { case 0: return sc4mDescriptor; default: return NULL; } } static void cleanupSc4m(LADSPA_Handle instance) { #line 46 "sc4m_1916.xml" Sc4m *plugin_data = (Sc4m *)instance; rms_env_free(plugin_data->rms); free(plugin_data->as); free(instance); } static void connectPortSc4m( LADSPA_Handle instance, unsigned long port, LADSPA_Data *data) { Sc4m *plugin; plugin = (Sc4m *)instance; switch (port) { case SC4M_RMS_PEAK: plugin->rms_peak = data; break; case SC4M_ATTACK: plugin->attack = data; break; case SC4M_RELEASE: plugin->release = data; break; case SC4M_THRESHOLD: plugin->threshold = data; break; case SC4M_RATIO: plugin->ratio = data; break; case SC4M_KNEE: plugin->knee = data; break; case SC4M_MAKEUP_GAIN: plugin->makeup_gain = data; break; case SC4M_AMPLITUDE: plugin->amplitude = data; break; case SC4M_GAIN_RED: plugin->gain_red = data; break; case SC4M_INPUT: plugin->input = data; break; case SC4M_OUTPUT: plugin->output = data; break; } } static LADSPA_Handle instantiateSc4m( const LADSPA_Descriptor *descriptor, unsigned long s_rate) { Sc4m *plugin_data = (Sc4m *)malloc(sizeof(Sc4m)); float amp; float *as = NULL; unsigned int count; float env; float env_peak; float env_rms; float gain; float gain_t; rms_env *rms = NULL; float sum; #line 23 "sc4m_1916.xml" unsigned int i; float sample_rate = (float)s_rate; rms = rms_env_new(); sum = 0.0f; amp = 0.0f; gain = 0.0f; gain_t = 0.0f; env = 0.0f; env_rms = 0.0f; env_peak = 0.0f; count = 0; as = malloc(A_TBL * sizeof(float)); as[0] = 1.0f; for (i=1; iamp = amp; plugin_data->as = as; plugin_data->count = count; plugin_data->env = env; plugin_data->env_peak = env_peak; plugin_data->env_rms = env_rms; plugin_data->gain = gain; plugin_data->gain_t = gain_t; plugin_data->rms = rms; plugin_data->sum = sum; 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 runSc4m(LADSPA_Handle instance, unsigned long sample_count) { Sc4m *plugin_data = (Sc4m *)instance; /* RMS/peak (float value) */ const LADSPA_Data rms_peak = *(plugin_data->rms_peak); /* Attack time (ms) (float value) */ const LADSPA_Data attack = *(plugin_data->attack); /* Release time (ms) (float value) */ const LADSPA_Data release = *(plugin_data->release); /* Threshold level (dB) (float value) */ const LADSPA_Data threshold = *(plugin_data->threshold); /* Ratio (1:n) (float value) */ const LADSPA_Data ratio = *(plugin_data->ratio); /* Knee radius (dB) (float value) */ const LADSPA_Data knee = *(plugin_data->knee); /* Makeup gain (dB) (float value) */ const LADSPA_Data makeup_gain = *(plugin_data->makeup_gain); /* 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; float amp = plugin_data->amp; float * as = plugin_data->as; unsigned int count = plugin_data->count; float env = plugin_data->env; float env_peak = plugin_data->env_peak; float env_rms = plugin_data->env_rms; float gain = plugin_data->gain; float gain_t = plugin_data->gain_t; rms_env * rms = plugin_data->rms; float sum = plugin_data->sum; #line 51 "sc4m_1916.xml" unsigned long pos; const float ga = attack < 2.0f ? 0.0f : as[f_round(attack * 0.001f * (float)(A_TBL-1))]; const float gr = as[f_round(release * 0.001f * (float)(A_TBL-1))]; const float rs = (ratio - 1.0f) / ratio; const float mug = db2lin(makeup_gain); const float knee_min = db2lin(threshold - knee); const float knee_max = db2lin(threshold + knee); const float ef_a = ga * 0.25f; const float ef_ai = 1.0f - ef_a; for (pos = 0; pos < sample_count; pos++) { const float lev_in = input[pos]; sum += lev_in * lev_in; if (amp > env_rms) { env_rms = env_rms * ga + amp * (1.0f - ga); } else { env_rms = env_rms * gr + amp * (1.0f - gr); } round_to_zero(&env_rms); if (lev_in > env_peak) { env_peak = env_peak * ga + lev_in * (1.0f - ga); } else { env_peak = env_peak * gr + lev_in * (1.0f - gr); } round_to_zero(&env_peak); if ((count++ & 3) == 3) { amp = rms_env_process(rms, sum * 0.25f); sum = 0.0f; env = LIN_INTERP(rms_peak, env_rms, env_peak); if (env <= knee_min) { gain_t = 1.0f; } else if (env < knee_max) { const float x = -(threshold - knee - lin2db(env)) / knee; gain_t = db2lin(-knee * rs * x * x * 0.25f); } else { gain_t = db2lin((threshold - lin2db(env)) * rs); } } gain = gain * ef_a + gain_t * ef_ai; buffer_write(output[pos], input[pos] * gain * mug); } plugin_data->sum = sum; plugin_data->amp = amp; plugin_data->gain = gain; plugin_data->gain_t = gain_t; plugin_data->env = env; plugin_data->env_rms = env_rms; plugin_data->env_peak = env_peak; plugin_data->count = count; *(plugin_data->amplitude) = lin2db(env); *(plugin_data->gain_red) = lin2db(gain); } #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 setRunAddingGainSc4m(LADSPA_Handle instance, LADSPA_Data gain) { ((Sc4m *)instance)->run_adding_gain = gain; } static void runAddingSc4m(LADSPA_Handle instance, unsigned long sample_count) { Sc4m *plugin_data = (Sc4m *)instance; LADSPA_Data run_adding_gain = plugin_data->run_adding_gain; /* RMS/peak (float value) */ const LADSPA_Data rms_peak = *(plugin_data->rms_peak); /* Attack time (ms) (float value) */ const LADSPA_Data attack = *(plugin_data->attack); /* Release time (ms) (float value) */ const LADSPA_Data release = *(plugin_data->release); /* Threshold level (dB) (float value) */ const LADSPA_Data threshold = *(plugin_data->threshold); /* Ratio (1:n) (float value) */ const LADSPA_Data ratio = *(plugin_data->ratio); /* Knee radius (dB) (float value) */ const LADSPA_Data knee = *(plugin_data->knee); /* Makeup gain (dB) (float value) */ const LADSPA_Data makeup_gain = *(plugin_data->makeup_gain); /* 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; float amp = plugin_data->amp; float * as = plugin_data->as; unsigned int count = plugin_data->count; float env = plugin_data->env; float env_peak = plugin_data->env_peak; float env_rms = plugin_data->env_rms; float gain = plugin_data->gain; float gain_t = plugin_data->gain_t; rms_env * rms = plugin_data->rms; float sum = plugin_data->sum; #line 51 "sc4m_1916.xml" unsigned long pos; const float ga = attack < 2.0f ? 0.0f : as[f_round(attack * 0.001f * (float)(A_TBL-1))]; const float gr = as[f_round(release * 0.001f * (float)(A_TBL-1))]; const float rs = (ratio - 1.0f) / ratio; const float mug = db2lin(makeup_gain); const float knee_min = db2lin(threshold - knee); const float knee_max = db2lin(threshold + knee); const float ef_a = ga * 0.25f; const float ef_ai = 1.0f - ef_a; for (pos = 0; pos < sample_count; pos++) { const float lev_in = input[pos]; sum += lev_in * lev_in; if (amp > env_rms) { env_rms = env_rms * ga + amp * (1.0f - ga); } else { env_rms = env_rms * gr + amp * (1.0f - gr); } round_to_zero(&env_rms); if (lev_in > env_peak) { env_peak = env_peak * ga + lev_in * (1.0f - ga); } else { env_peak = env_peak * gr + lev_in * (1.0f - gr); } round_to_zero(&env_peak); if ((count++ & 3) == 3) { amp = rms_env_process(rms, sum * 0.25f); sum = 0.0f; env = LIN_INTERP(rms_peak, env_rms, env_peak); if (env <= knee_min) { gain_t = 1.0f; } else if (env < knee_max) { const float x = -(threshold - knee - lin2db(env)) / knee; gain_t = db2lin(-knee * rs * x * x * 0.25f); } else { gain_t = db2lin((threshold - lin2db(env)) * rs); } } gain = gain * ef_a + gain_t * ef_ai; buffer_write(output[pos], input[pos] * gain * mug); } plugin_data->sum = sum; plugin_data->amp = amp; plugin_data->gain = gain; plugin_data->gain_t = gain_t; plugin_data->env = env; plugin_data->env_rms = env_rms; plugin_data->env_peak = env_peak; plugin_data->count = count; *(plugin_data->amplitude) = lin2db(env); *(plugin_data->gain_red) = lin2db(gain); } 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 sc4mDescriptor = (LADSPA_Descriptor *)malloc(sizeof(LADSPA_Descriptor)); if (sc4mDescriptor) { sc4mDescriptor->UniqueID = 1916; sc4mDescriptor->Label = "sc4m"; sc4mDescriptor->Properties = LADSPA_PROPERTY_HARD_RT_CAPABLE; sc4mDescriptor->Name = D_("SC4 mono"); sc4mDescriptor->Maker = "Steve Harris "; sc4mDescriptor->Copyright = "GPL"; sc4mDescriptor->PortCount = 11; port_descriptors = (LADSPA_PortDescriptor *)calloc(11, sizeof(LADSPA_PortDescriptor)); sc4mDescriptor->PortDescriptors = (const LADSPA_PortDescriptor *)port_descriptors; port_range_hints = (LADSPA_PortRangeHint *)calloc(11, sizeof(LADSPA_PortRangeHint)); sc4mDescriptor->PortRangeHints = (const LADSPA_PortRangeHint *)port_range_hints; port_names = (char **)calloc(11, sizeof(char*)); sc4mDescriptor->PortNames = (const char **)port_names; /* Parameters for RMS/peak */ port_descriptors[SC4M_RMS_PEAK] = LADSPA_PORT_INPUT | LADSPA_PORT_CONTROL; port_names[SC4M_RMS_PEAK] = D_("RMS/peak"); port_range_hints[SC4M_RMS_PEAK].HintDescriptor = LADSPA_HINT_BOUNDED_BELOW | LADSPA_HINT_BOUNDED_ABOVE | LADSPA_HINT_DEFAULT_MINIMUM; port_range_hints[SC4M_RMS_PEAK].LowerBound = 0; port_range_hints[SC4M_RMS_PEAK].UpperBound = 1; /* Parameters for Attack time (ms) */ port_descriptors[SC4M_ATTACK] = LADSPA_PORT_INPUT | LADSPA_PORT_CONTROL; port_names[SC4M_ATTACK] = D_("Attack time (ms)"); port_range_hints[SC4M_ATTACK].HintDescriptor = LADSPA_HINT_BOUNDED_BELOW | LADSPA_HINT_BOUNDED_ABOVE | LADSPA_HINT_DEFAULT_LOW; port_range_hints[SC4M_ATTACK].LowerBound = 1.5; port_range_hints[SC4M_ATTACK].UpperBound = 400; /* Parameters for Release time (ms) */ port_descriptors[SC4M_RELEASE] = LADSPA_PORT_INPUT | LADSPA_PORT_CONTROL; port_names[SC4M_RELEASE] = D_("Release time (ms)"); port_range_hints[SC4M_RELEASE].HintDescriptor = LADSPA_HINT_BOUNDED_BELOW | LADSPA_HINT_BOUNDED_ABOVE | LADSPA_HINT_DEFAULT_MIDDLE; port_range_hints[SC4M_RELEASE].LowerBound = 2; port_range_hints[SC4M_RELEASE].UpperBound = 800; /* Parameters for Threshold level (dB) */ port_descriptors[SC4M_THRESHOLD] = LADSPA_PORT_INPUT | LADSPA_PORT_CONTROL; port_names[SC4M_THRESHOLD] = D_("Threshold level (dB)"); port_range_hints[SC4M_THRESHOLD].HintDescriptor = LADSPA_HINT_BOUNDED_BELOW | LADSPA_HINT_BOUNDED_ABOVE | LADSPA_HINT_DEFAULT_MAXIMUM; port_range_hints[SC4M_THRESHOLD].LowerBound = -30; port_range_hints[SC4M_THRESHOLD].UpperBound = 0; /* Parameters for Ratio (1:n) */ port_descriptors[SC4M_RATIO] = LADSPA_PORT_INPUT | LADSPA_PORT_CONTROL; port_names[SC4M_RATIO] = D_("Ratio (1:n)"); port_range_hints[SC4M_RATIO].HintDescriptor = LADSPA_HINT_BOUNDED_BELOW | LADSPA_HINT_BOUNDED_ABOVE | LADSPA_HINT_DEFAULT_1; port_range_hints[SC4M_RATIO].LowerBound = 1; port_range_hints[SC4M_RATIO].UpperBound = 20; /* Parameters for Knee radius (dB) */ port_descriptors[SC4M_KNEE] = LADSPA_PORT_INPUT | LADSPA_PORT_CONTROL; port_names[SC4M_KNEE] = D_("Knee radius (dB)"); port_range_hints[SC4M_KNEE].HintDescriptor = LADSPA_HINT_BOUNDED_BELOW | LADSPA_HINT_BOUNDED_ABOVE | LADSPA_HINT_DEFAULT_LOW; port_range_hints[SC4M_KNEE].LowerBound = 1; port_range_hints[SC4M_KNEE].UpperBound = 10; /* Parameters for Makeup gain (dB) */ port_descriptors[SC4M_MAKEUP_GAIN] = LADSPA_PORT_INPUT | LADSPA_PORT_CONTROL; port_names[SC4M_MAKEUP_GAIN] = D_("Makeup gain (dB)"); port_range_hints[SC4M_MAKEUP_GAIN].HintDescriptor = LADSPA_HINT_BOUNDED_BELOW | LADSPA_HINT_BOUNDED_ABOVE | LADSPA_HINT_DEFAULT_0; port_range_hints[SC4M_MAKEUP_GAIN].LowerBound = 0; port_range_hints[SC4M_MAKEUP_GAIN].UpperBound = +24; /* Parameters for Amplitude (dB) */ port_descriptors[SC4M_AMPLITUDE] = LADSPA_PORT_OUTPUT | LADSPA_PORT_CONTROL; port_names[SC4M_AMPLITUDE] = D_("Amplitude (dB)"); port_range_hints[SC4M_AMPLITUDE].HintDescriptor = LADSPA_HINT_BOUNDED_BELOW | LADSPA_HINT_BOUNDED_ABOVE; port_range_hints[SC4M_AMPLITUDE].LowerBound = -40; port_range_hints[SC4M_AMPLITUDE].UpperBound = +12; /* Parameters for Gain reduction (dB) */ port_descriptors[SC4M_GAIN_RED] = LADSPA_PORT_OUTPUT | LADSPA_PORT_CONTROL; port_names[SC4M_GAIN_RED] = D_("Gain reduction (dB)"); port_range_hints[SC4M_GAIN_RED].HintDescriptor = LADSPA_HINT_BOUNDED_BELOW | LADSPA_HINT_BOUNDED_ABOVE; port_range_hints[SC4M_GAIN_RED].LowerBound = -24; port_range_hints[SC4M_GAIN_RED].UpperBound = 0; /* Parameters for Input */ port_descriptors[SC4M_INPUT] = LADSPA_PORT_INPUT | LADSPA_PORT_AUDIO; port_names[SC4M_INPUT] = D_("Input"); port_range_hints[SC4M_INPUT].HintDescriptor = 0; /* Parameters for Output */ port_descriptors[SC4M_OUTPUT] = LADSPA_PORT_OUTPUT | LADSPA_PORT_AUDIO; port_names[SC4M_OUTPUT] = D_("Output"); port_range_hints[SC4M_OUTPUT].HintDescriptor = 0; sc4mDescriptor->activate = NULL; sc4mDescriptor->cleanup = cleanupSc4m; sc4mDescriptor->connect_port = connectPortSc4m; sc4mDescriptor->deactivate = NULL; sc4mDescriptor->instantiate = instantiateSc4m; sc4mDescriptor->run = runSc4m; sc4mDescriptor->run_adding = runAddingSc4m; sc4mDescriptor->set_run_adding_gain = setRunAddingGainSc4m; } } void _fini() { if (sc4mDescriptor) { free((LADSPA_PortDescriptor *)sc4mDescriptor->PortDescriptors); free((char **)sc4mDescriptor->PortNames); free((LADSPA_PortRangeHint *)sc4mDescriptor->PortRangeHints); free(sc4mDescriptor); } }