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audioconvert: Avoid int division in quantization
Since range size is always 2^n, we can simply use modulo (implemented with a bitmask). The previous implementation used 64-bit integer division, which is done in software on ARMv7. Although the divisor was constant, the division could not be transformed into "multiplication by magic number" since the dividend was 64-bit. The now-unused and not-so-fast gst_fast_random_(u)int32_range functions were removed. Also, implementing bug fixes: 1) ADD_DITHER_TPDF_HF_I no longer discards bias. 2) We change TPDF's noise range to be the same as RPDF's. Previously, RPDF's noise ranged: { bias - dither, bias + dither } while TPDF's noise ranged: { bias/2 - dither/2, bias/2 + dither/2 - 1 } + { bias/2 - dither/2, bias/2 + dither/2 - 1 } = { bias - dither, bias + dither - 2 } Now, both range: { bias - dither, bias + dither - 1 } https://bugzilla.gnome.org/show_bug.cgi?id=746661
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2 changed files with 14 additions and 34 deletions
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@ -136,7 +136,7 @@ MAKE_QUANTIZE_FUNC_NAME (name) (AudioConvertCtx *ctx, gdouble *src, \
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/* Dithering definitions
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* See http://en.wikipedia.org/wiki/Dithering or
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* http://www.cadenzarecording.com/Dither.html for explainations.
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* http://www.users.qwest.net/~volt42/cadenzarecording/DitherExplained.pdf for explainations.
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*
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* We already add the rounding offset to the dither noise here
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* to have only one overflow check instead of two. */
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@ -145,9 +145,14 @@ MAKE_QUANTIZE_FUNC_NAME (name) (AudioConvertCtx *ctx, gdouble *src, \
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gint32 rand; \
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gint32 dither = (1<<(scale));
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/* Assuming dither == 2^n,
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* returns one of 2^(n+1) possible random values:
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* -dither <= retval < dither */
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#define RANDOM_INT_DITHER(dither) \
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(- dither + (gst_fast_random_int32 () & ((dither << 1) - 1)))
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#define ADD_DITHER_RPDF_I() \
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rand = gst_fast_random_int32_range (bias - dither, \
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bias + dither); \
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rand = bias + RANDOM_INT_DITHER(dither); \
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if (rand > 0 && tmp > 0 && G_MAXINT32 - tmp <= rand) \
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tmp = G_MAXINT32; \
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else if (rand < 0 && tmp < 0 && G_MININT32 - tmp >= rand) \
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@ -163,14 +168,11 @@ MAKE_QUANTIZE_FUNC_NAME (name) (AudioConvertCtx *ctx, gdouble *src, \
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#define INIT_DITHER_TPDF_I() \
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gint32 rand; \
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gint32 dither = (1<<(scale - 1)); \
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bias = bias >> 1;
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gint32 dither = (1<<(scale - 1));
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#define ADD_DITHER_TPDF_I() \
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rand = gst_fast_random_int32_range (bias - dither, \
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bias + dither - 1) \
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+ gst_fast_random_int32_range (bias - dither, \
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bias + dither - 1); \
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rand = bias + RANDOM_INT_DITHER(dither) \
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+ RANDOM_INT_DITHER(dither); \
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if (rand > 0 && tmp > 0 && G_MAXINT32 - tmp <= rand) \
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tmp = G_MAXINT32; \
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else if (rand < 0 && tmp < 0 && G_MININT32 - tmp >= rand) \
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@ -188,13 +190,11 @@ MAKE_QUANTIZE_FUNC_NAME (name) (AudioConvertCtx *ctx, gdouble *src, \
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#define INIT_DITHER_TPDF_HF_I() \
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gint32 rand; \
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gint32 dither = (1<<(scale-1)); \
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gint32 *last_random = (gint32 *) ctx->last_random, tmp_rand; \
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bias = bias >> 1;
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gint32 *last_random = (gint32 *) ctx->last_random, tmp_rand;
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#define ADD_DITHER_TPDF_HF_I() \
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tmp_rand = gst_fast_random_int32_range (bias - dither, \
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bias + dither); \
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rand = tmp_rand - last_random[chan_pos]; \
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tmp_rand = RANDOM_INT_DITHER(dither); \
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rand = bias + tmp_rand - last_random[chan_pos]; \
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last_random[chan_pos] = tmp_rand; \
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if (rand > 0 && tmp > 0 && G_MAXINT32 - tmp <= rand) \
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tmp = G_MAXINT32; \
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@ -38,32 +38,12 @@ gst_fast_random_uint32 (void)
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return (state = state * 1103515245 + 12345);
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}
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static inline guint32
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gst_fast_random_uint32_range (gint32 start, gint32 end)
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{
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guint64 tmp = gst_fast_random_uint32 ();
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tmp = (tmp * (end - start)) / G_MAXUINT32 + start;
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return (guint32) tmp;
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}
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static inline gint32
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gst_fast_random_int32 (void)
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{
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return (gint32) gst_fast_random_uint32 ();
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}
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static inline gint32
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gst_fast_random_int32_range (gint32 start, gint32 end)
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{
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gint64 tmp = gst_fast_random_uint32 ();
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tmp = (tmp * (end - start)) / G_MAXUINT32 + start;
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return (gint32) tmp;
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}
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static inline gdouble
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gst_fast_random_double (void)
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{
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