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avcodec/opus_pvq: fix recursive inlining compilation failures

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They were introduced by f16180f448
This commit is contained in:
James Almer 2017-04-27 00:33:24 -03:00
parent 6ca82975b7
commit 453f8ea242
1 changed files with 32 additions and 16 deletions
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48
libavcodec/opus_pvq.c
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@ -746,10 +746,14 @@ static av_always_inline uint32_t quant_band_template(CeltFrame *f, OpusRangeCode
if (mbits >= sbits) {
/* In stereo mode, we do not apply a scaling to the mid
* because we need the normalized mid for folding later */
cm = quant_band_template(f, rc, band, X, NULL, N, mbits, blocks,
lowband, duration, next_lowband_out1,
next_level, stereo ? 1.0f : (gain * mid),
lowband_scratch, fill, quant);
cm = quant ? ff_celt_encode_band(f, rc, band, X, NULL, N, mbits, blocks,
lowband, duration, next_lowband_out1,
next_level, stereo ? 1.0f : (gain * mid),
lowband_scratch, fill) :
ff_celt_decode_band(f, rc, band, X, NULL, N, mbits, blocks,
lowband, duration, next_lowband_out1,
next_level, stereo ? 1.0f : (gain * mid),
lowband_scratch, fill);
rebalance = mbits - (rebalance - f->remaining2);
if (rebalance > 3 << 3 && itheta != 0)
@ -757,17 +761,25 @@ static av_always_inline uint32_t quant_band_template(CeltFrame *f, OpusRangeCode
/* For a stereo split, the high bits of fill are always zero,
* so no folding will be done to the side. */
cm |= quant_band_template(f, rc, band, Y, NULL, N, sbits, blocks,
next_lowband2, duration, NULL,
next_level, gain * side, NULL,
fill >> blocks, quant) << ((B0 >> 1) & (stereo - 1));
cm |= quant ? ff_celt_encode_band(f, rc, band, Y, NULL, N, sbits, blocks,
next_lowband2, duration, NULL,
next_level, gain * side, NULL,
fill >> blocks) << ((B0 >> 1) & (stereo - 1)) :
ff_celt_decode_band(f, rc, band, Y, NULL, N, sbits, blocks,
next_lowband2, duration, NULL,
next_level, gain * side, NULL,
fill >> blocks) << ((B0 >> 1) & (stereo - 1));
} else {
/* For a stereo split, the high bits of fill are always zero,
* so no folding will be done to the side. */
cm = quant_band_template(f, rc, band, Y, NULL, N, sbits, blocks,
next_lowband2, duration, NULL,
next_level, gain * side, NULL,
fill >> blocks, quant) << ((B0 >> 1) & (stereo - 1));
cm = quant ? ff_celt_encode_band(f, rc, band, Y, NULL, N, sbits, blocks,
next_lowband2, duration, NULL,
next_level, gain * side, NULL,
fill >> blocks) << ((B0 >> 1) & (stereo - 1)) :
ff_celt_decode_band(f, rc, band, Y, NULL, N, sbits, blocks,
next_lowband2, duration, NULL,
next_level, gain * side, NULL,
fill >> blocks) << ((B0 >> 1) & (stereo - 1));
rebalance = sbits - (rebalance - f->remaining2);
if (rebalance > 3 << 3 && itheta != 16384)
@ -775,10 +787,14 @@ static av_always_inline uint32_t quant_band_template(CeltFrame *f, OpusRangeCode
/* In stereo mode, we do not apply a scaling to the mid because
* we need the normalized mid for folding later */
cm |= quant_band_template(f, rc, band, X, NULL, N, mbits, blocks,
lowband, duration, next_lowband_out1,
next_level, stereo ? 1.0f : (gain * mid),
lowband_scratch, fill, quant);
cm |= quant ? ff_celt_encode_band(f, rc, band, X, NULL, N, mbits, blocks,
lowband, duration, next_lowband_out1,
next_level, stereo ? 1.0f : (gain * mid),
lowband_scratch, fill) :
ff_celt_decode_band(f, rc, band, X, NULL, N, mbits, blocks,
lowband, duration, next_lowband_out1,
next_level, stereo ? 1.0f : (gain * mid),
lowband_scratch, fill);
}
}
} else {