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authorChris Robinson <[email protected]>2017-04-07 11:49:24 -0700
committerChris Robinson <[email protected]>2017-04-07 14:56:23 -0700
commit5e9f5693a4e28ab08028b05e77684cad6ddd185b (patch)
tree7144e65fcf5a63b4ac22f046141be6a55a020619 /Alc
parent7fd88086f67c6dd1fd006178c9d1a3457837ccd3 (diff)
Combine a couple loops
Diffstat (limited to 'Alc')
-rw-r--r--Alc/hrtf.c52
1 files changed, 24 insertions, 28 deletions
diff --git a/Alc/hrtf.c b/Alc/hrtf.c
index 577946d8..52806b17 100644
--- a/Alc/hrtf.c
+++ b/Alc/hrtf.c
@@ -167,17 +167,25 @@ ALsizei BuildBFormatHrtf(const struct Hrtf *Hrtf, DirectHrtfState *state, ALsize
for(c = 0;c < AmbiCount;c++)
{
const ALfloat (*fir)[2] = &Hrtf->coeffs[idx[c] * Hrtf->irSize];
- ALubyte delay;
+ ALsizei ldelay = Hrtf->delays[idx[c]][0] - min_delay;
+ ALsizei rdelay = Hrtf->delays[idx[c]][1] - min_delay;
+
+ max_length = maxi(max_length,
+ mini(maxi(ldelay, rdelay) + Hrtf->irSize, HRIR_LENGTH)
+ );
- /* Add to the left output coefficients with the specified delay. */
- delay = Hrtf->delays[idx[c]][0] - min_delay;
if(NUM_BANDS == 1)
{
for(i = 0;i < NumChannels;++i)
{
- ALsizei j = delay, k = 0;
- while(j < HRIR_LENGTH && k < Hrtf->irSize)
- state->Chan[i].Coeffs[j++][0] += fir[k++][0] * AmbiMatrix[c][0][i];
+ ALsizei lidx = ldelay, ridx = rdelay;
+ ALsizei j = 0;
+ while(lidx < HRIR_LENGTH && ridx < HRIR_LENGTH && j < Hrtf->irSize)
+ {
+ state->Chan[i].Coeffs[lidx++][0] += fir[j][0] * AmbiMatrix[c][0][i];
+ state->Chan[i].Coeffs[ridx++][1] += fir[j][1] * AmbiMatrix[c][0][i];
+ j++;
+ }
}
}
else
@@ -188,48 +196,36 @@ ALsizei BuildBFormatHrtf(const struct Hrtf *Hrtf, DirectHrtfState *state, ALsize
temps[2][i] = fir[i][0];
bandsplit_process(&splitter, temps[0], temps[1], temps[2], HRIR_LENGTH);
+ /* Apply left ear response with delay. */
for(i = 0;i < NumChannels;++i)
{
for(b = 0;b < NUM_BANDS;b++)
{
- ALsizei j = delay, k = 0;
- while(j < HRIR_LENGTH)
- state->Chan[i].Coeffs[j++][0] += temps[b][k++] * AmbiMatrix[c][b][i];
+ ALsizei lidx = ldelay;
+ ALsizei j = 0;
+ while(lidx < HRIR_LENGTH)
+ state->Chan[i].Coeffs[lidx++][0] += temps[b][j++] * AmbiMatrix[c][b][i];
}
}
- }
- max_length = maxi(max_length, mini(delay + Hrtf->irSize, HRIR_LENGTH));
- /* Add to the right output coefficients with the specified delay. */
- delay = Hrtf->delays[idx[c]][1] - min_delay;
- if(NUM_BANDS == 1)
- {
- for(i = 0;i < NumChannels;++i)
- {
- ALsizei j = delay, k = 0;
- while(j < HRIR_LENGTH && k < Hrtf->irSize)
- state->Chan[i].Coeffs[j++][1] += fir[k++][1] * AmbiMatrix[c][0][i];
- }
- }
- else
- {
/* Band-split right HRIR into low and high frequency responses. */
bandsplit_clear(&splitter);
for(i = 0;i < Hrtf->irSize;i++)
temps[2][i] = fir[i][1];
bandsplit_process(&splitter, temps[0], temps[1], temps[2], HRIR_LENGTH);
+ /* Apply right ear response with delay. */
for(i = 0;i < NumChannels;++i)
{
for(b = 0;b < NUM_BANDS;b++)
{
- ALsizei j = delay, k = 0;
- while(j < HRIR_LENGTH)
- state->Chan[i].Coeffs[j++][1] += temps[b][k++] * AmbiMatrix[c][b][i];
+ ALsizei ridx = rdelay;
+ ALsizei j = 0;
+ while(ridx < HRIR_LENGTH)
+ state->Chan[i].Coeffs[ridx++][1] += temps[b][j++] * AmbiMatrix[c][b][i];
}
}
}
- max_length = maxi(max_length, mini(delay + Hrtf->irSize, HRIR_LENGTH));
}
TRACE("Skipped min delay: %d, new combined length: %d\n", min_delay, max_length);