diff options
author | Chris Robinson <[email protected]> | 2013-11-08 16:33:42 -0800 |
---|---|---|
committer | Chris Robinson <[email protected]> | 2013-11-08 16:33:42 -0800 |
commit | 9228d133335811f9d27648454ebad1ece0493e7c (patch) | |
tree | 6c277e56b7bd8c7077e3e46d813b7376673188b6 /Alc/effects | |
parent | bca959f37273a5f6d152dc82327f8e8e60508b57 (diff) |
Use integer modulo for chorus and flanger
Also simplify LFO coefficient calculations.
Diffstat (limited to 'Alc/effects')
-rw-r--r-- | Alc/effects/chorus.c | 60 | ||||
-rw-r--r-- | Alc/effects/flanger.c | 60 |
2 files changed, 62 insertions, 58 deletions
diff --git a/Alc/effects/chorus.c b/Alc/effects/chorus.c index ce535cfe..a1c0ccf3 100644 --- a/Alc/effects/chorus.c +++ b/Alc/effects/chorus.c @@ -36,7 +36,8 @@ typedef struct ALchorusState { ALfloat *SampleBufferLeft; ALfloat *SampleBufferRight; ALuint BufferLength; - ALint offset; + ALuint offset; + ALuint lfo_range; ALfloat lfo_coeff; ALint lfo_disp; @@ -108,55 +109,55 @@ static ALvoid ALchorusState_update(ALchorusState *state, ALCdevice *Device, cons phase = Slot->EffectProps.Chorus.Phase; rate = Slot->EffectProps.Chorus.Rate; - - /* Calculate LFO coefficient */ - switch (state->waveform) + if(!(rate > 0.0f)) { - case AL_CHORUS_WAVEFORM_TRIANGLE: - if(rate == 0.0f) - state->lfo_coeff = 0.0f; - else - state->lfo_coeff = 1.0f / (frequency / rate); - break; - case AL_CHORUS_WAVEFORM_SINUSOID: - if(rate == 0.0f) - state->lfo_coeff = 0.0f; - else - state->lfo_coeff = F_2PI / (frequency / rate); - break; - } - - /* Calculate lfo phase displacement */ - if(phase == 0 || rate == 0.0f) + state->lfo_coeff = 0.0f; + state->lfo_range = 1; state->lfo_disp = 0; + } else - state->lfo_disp = fastf2i(frequency / rate / (360.0f/phase)); + { + /* Calculate LFO coefficient */ + state->lfo_range = fastf2u(frequency/rate + 0.5f); + switch(state->waveform) + { + case AL_CHORUS_WAVEFORM_TRIANGLE: + state->lfo_coeff = 1.0f / state->lfo_range; + break; + case AL_CHORUS_WAVEFORM_SINUSOID: + state->lfo_coeff = F_2PI / state->lfo_range; + break; + } + + /* Calculate lfo phase displacement */ + state->lfo_disp = fastf2i(state->lfo_range * (phase/360.0f)); + } } -static inline void Triangle(ALint *delay_left, ALint *delay_right, ALint offset, const ALchorusState *state) +static inline void Triangle(ALint *delay_left, ALint *delay_right, ALuint offset, const ALchorusState *state) { ALfloat lfo_value; - lfo_value = 2.0f - fabsf(2.0f - fmodf(state->lfo_coeff*offset*4.0f, 4.0f)); + lfo_value = 2.0f - fabsf(2.0f - state->lfo_coeff*(offset%state->lfo_range)*4.0f); lfo_value *= state->depth * state->delay; *delay_left = fastf2i(lfo_value) + state->delay; - lfo_value = 2.0f - fabsf(2.0f - fmodf(state->lfo_coeff * - (offset+state->lfo_disp)*4.0f, - 4.0f)); + offset += state->lfo_disp; + lfo_value = 2.0f - fabsf(2.0f - state->lfo_coeff*(offset%state->lfo_range)*4.0f); lfo_value *= state->depth * state->delay; *delay_right = fastf2i(lfo_value) + state->delay; } -static inline void Sinusoid(ALint *delay_left, ALint *delay_right, ALint offset, const ALchorusState *state) +static inline void Sinusoid(ALint *delay_left, ALint *delay_right, ALuint offset, const ALchorusState *state) { ALfloat lfo_value; - lfo_value = 1.0f + sinf(fmodf(state->lfo_coeff*offset, F_2PI)); + lfo_value = 1.0f + sinf(state->lfo_coeff*(offset%state->lfo_range)); lfo_value *= state->depth * state->delay; *delay_left = fastf2i(lfo_value) + state->delay; - lfo_value = 1.0f + sinf(fmodf(state->lfo_coeff*(offset+state->lfo_disp), F_2PI)); + offset += state->lfo_disp; + lfo_value = 1.0f + sinf(state->lfo_coeff*(offset%state->lfo_range)); lfo_value *= state->depth * state->delay; *delay_right = fastf2i(lfo_value) + state->delay; } @@ -253,6 +254,7 @@ static ALeffectState *ALchorusStateFactory_create(ALchorusStateFactory *UNUSED(f state->SampleBufferLeft = NULL; state->SampleBufferRight = NULL; state->offset = 0; + state->lfo_range = 1; return STATIC_CAST(ALeffectState, state); } diff --git a/Alc/effects/flanger.c b/Alc/effects/flanger.c index b9646b38..472a91a7 100644 --- a/Alc/effects/flanger.c +++ b/Alc/effects/flanger.c @@ -36,7 +36,8 @@ typedef struct ALflangerState { ALfloat *SampleBufferLeft; ALfloat *SampleBufferRight; ALuint BufferLength; - ALint offset; + ALuint offset; + ALuint lfo_range; ALfloat lfo_coeff; ALint lfo_disp; @@ -108,55 +109,55 @@ static ALvoid ALflangerState_update(ALflangerState *state, ALCdevice *Device, co phase = Slot->EffectProps.Flanger.Phase; rate = Slot->EffectProps.Flanger.Rate; - - /* Calculate LFO coefficient */ - switch(state->waveform) + if(!(rate > 0.0f)) { - case AL_FLANGER_WAVEFORM_TRIANGLE: - if(rate == 0.0f) - state->lfo_coeff = 0.0f; - else - state->lfo_coeff = 1.0f / (frequency / rate); - break; - case AL_FLANGER_WAVEFORM_SINUSOID: - if(rate == 0.0f) - state->lfo_coeff = 0.0f; - else - state->lfo_coeff = F_2PI / (frequency / rate); - break; - } - - /* Calculate lfo phase displacement */ - if(phase == 0 || rate == 0.0f) + state->lfo_coeff = 0.0f; + state->lfo_range = 1; state->lfo_disp = 0; + } else - state->lfo_disp = fastf2i(frequency / rate / (360.0f/phase)); + { + /* Calculate LFO coefficient */ + state->lfo_range = fastf2u(frequency/rate + 0.5f); + switch(state->waveform) + { + case AL_FLANGER_WAVEFORM_TRIANGLE: + state->lfo_coeff = 1.0f / state->lfo_range; + break; + case AL_FLANGER_WAVEFORM_SINUSOID: + state->lfo_coeff = F_2PI / state->lfo_range; + break; + } + + /* Calculate lfo phase displacement */ + state->lfo_disp = fastf2i(state->lfo_range * (phase/360.0f)); + } } -static inline void Triangle(ALint *delay_left, ALint *delay_right, ALint offset, const ALflangerState *state) +static inline void Triangle(ALint *delay_left, ALint *delay_right, ALuint offset, const ALflangerState *state) { ALfloat lfo_value; - lfo_value = 2.0f - fabsf(2.0f - fmodf(state->lfo_coeff * offset * 4.0f, 4.0f)); + lfo_value = 2.0f - fabsf(2.0f - state->lfo_coeff*(offset%state->lfo_range)*4.0f); lfo_value *= state->depth * state->delay; *delay_left = fastf2i(lfo_value) + state->delay; - lfo_value = 2.0f - fabsf(2.0f - fmodf(state->lfo_coeff * - (offset+state->lfo_disp) * 4.0f, - 4.0f)); + offset += state->lfo_disp; + lfo_value = 2.0f - fabsf(2.0f - state->lfo_coeff*(offset%state->lfo_range)*4.0f); lfo_value *= state->depth * state->delay; *delay_right = fastf2i(lfo_value) + state->delay; } -static inline void Sinusoid(ALint *delay_left, ALint *delay_right, ALint offset, const ALflangerState *state) +static inline void Sinusoid(ALint *delay_left, ALint *delay_right, ALuint offset, const ALflangerState *state) { ALfloat lfo_value; - lfo_value = 1.0f + sinf(fmodf(state->lfo_coeff * offset, F_2PI)); + lfo_value = 1.0f + sinf(state->lfo_coeff*(offset%state->lfo_range)); lfo_value *= state->depth * state->delay; *delay_left = fastf2i(lfo_value) + state->delay; - lfo_value = 1.0f + sinf(fmodf(state->lfo_coeff * (offset+state->lfo_disp), F_2PI)); + offset += state->lfo_disp; + lfo_value = 1.0f + sinf(state->lfo_coeff*(offset%state->lfo_range)); lfo_value *= state->depth * state->delay; *delay_right = fastf2i(lfo_value) + state->delay; } @@ -253,6 +254,7 @@ ALeffectState *ALflangerStateFactory_create(ALflangerStateFactory *UNUSED(factor state->SampleBufferLeft = NULL; state->SampleBufferRight = NULL; state->offset = 0; + state->lfo_range = 1; return STATIC_CAST(ALeffectState, state); } |