No longer storing the zero parts of the in[] array in the encoder
diff --git a/libcelt/celt.c b/libcelt/celt.c
index b672240..4a91523 100644
--- a/libcelt/celt.c
+++ b/libcelt/celt.c
@@ -257,33 +257,29 @@
N = st->block_size;
B = st->nb_blocks;
C = st->mode->nbChannels;
- ALLOC(in, (B+1)*C*N, celt_sig_t);
+ N4 = (N-st->overlap)/2;
+ ALLOC(in, (B+1)*C*N-2*N4, celt_sig_t);
ALLOC(freq, B*C*N, celt_sig_t); /**< Interleaved signal MDCTs */
ALLOC(bandE,st->mode->nbEBands*C, celt_ener_t);
ALLOC(gains,st->mode->nbPBands, celt_pgain_t);
- N4 = (N-st->overlap)/2;
for (c=0;c<C;c++)
{
- for (i=0;i<N4;i++)
- in[C*i+c] = 0;
for (i=0;i<st->overlap;i++)
- in[C*(i+N4)+c] = st->in_mem[C*i+c];
+ in[C*i+c] = st->in_mem[C*i+c];
for (i=0;i<B*N;i++)
{
celt_sig_t tmp = SHL32(EXTEND32(pcm[C*i+c]), SIG_SHIFT);
- in[C*(i+st->overlap+N4)+c] = SUB32(tmp, MULT16_32_Q15(st->preemph,st->preemph_memE[c]));
+ in[C*(i+st->overlap)+c] = SUB32(tmp, MULT16_32_Q15(st->preemph,st->preemph_memE[c]));
st->preemph_memE[c] = tmp;
}
- for (i=N*(B+1)-N4;i<N*(B+1);i++)
- in[C*i+c] = 0;
for (i=0;i<st->overlap;i++)
- st->in_mem[C*i+c] = in[C*(N*(B+1)-N4-st->overlap+i)+c];
+ st->in_mem[C*i+c] = in[C*(N*(B+1)-2*N4-st->overlap+i)+c];
}
/*for (i=0;i<(B+1)*C*N;i++) printf ("%f(%d) ", in[i], i); printf ("\n");*/
/* Compute MDCTs */
- curr_power = compute_mdcts(&st->mode->mdct, st->mode->window, in+N4, freq, N, st->overlap, B, C);
+ curr_power = compute_mdcts(&st->mode->mdct, st->mode->window, in, freq, N, st->overlap, B, C);
#if 0 /* Mask disabled until it can be made to do something useful */
compute_mdct_masking(X, mask, B*C*N, st->Fs);
@@ -297,18 +293,13 @@
/* Pitch analysis */
for (c=0;c<C;c++)
{
- for (i=0;i<N4;i++)
- {
- in[C*i+c] = 0;
- in[C*(B*N+N-i-1)+c] = 0;
- }
for (i=0;i<st->overlap;i++)
{
- in[C*(i+N4)+c] = MULT16_32_Q15(st->mode->window[i], in[C*(i+N4)+c]);
- in[C*(B*N+N-i-N4-1)+c] = MULT16_32_Q15(st->mode->window[i], in[C*(B*N+N-i-N4-1)+c]);
+ in[C*i+c] = MULT16_32_Q15(st->mode->window[i], in[C*i+c]);
+ in[C*(B*N+N-i-2*N4-1)+c] = MULT16_32_Q15(st->mode->window[i], in[C*(B*N+N-i-2*N4-1)+c]);
}
}
- find_spectral_pitch(st->fft, &st->psy, in+N4, st->out_mem, MAX_PERIOD, (B+1)*N-2*N4, C, &pitch_index);
+ find_spectral_pitch(st->fft, &st->psy, in, st->out_mem, MAX_PERIOD, (B+1)*N-2*N4, C, &pitch_index);
/* Deferred allocation after find_spectral_pitch() to reduce the peak memory usage */
ALLOC(X, B*C*N, celt_norm_t); /**< Interleaved normalised MDCTs */