FreeCalypso > hg > gsm-codec-lib
view libgsmefr/oper_32b.h @ 477:4c9222d95647
libtwamr encoder: always emit frame->mode = mode;
In the original implementation of amr_encode_frame(), the 'mode' member
of the output struct was set to 0xFF if the output frame type is TX_NO_DATA.
This design was made to mimic the mode field (16-bit word) being set to
0xFFFF (or -1) in 3GPP test sequence format - but nothing actually depends
on this struct member being set in any way, and amr_frame_to_tseq()
generates the needed 0xFFFF on its own, based on frame->type being equal
to TX_NO_DATA.
It is simpler and more efficient to always set frame->mode to the actual
encoding mode in amr_encode_frame(), and this new behavior has already
been documented in doc/AMR-library-API description in anticipation of
the present change.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Sat, 18 May 2024 22:30:42 +0000 |
parents | 3da7ab45910d |
children |
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/* Double precision operations */ /***************************************************************************** * * * Function L_Extract() * * * * Extract from a 32 bit integer two 16 bit DPF. * * * * Arguments: * * * * L_32 : 32 bit integer. * * 0x8000 0000 <= L_32 <= 0x7fff ffff. * * hi : b16 to b31 of L_32 * * lo : (L_32 - hi<<16)>>1 * ***************************************************************************** */ static inline void L_Extract (Word32 L_32, Word16 *hi, Word16 *lo) { *hi = L_32 >> 16; *lo = (L_32 & 0xFFFF) >> 1; } /***************************************************************************** * * * Function L_Comp() * * * * Compose from two 16 bit DPF a 32 bit integer. * * * * L_32 = hi<<16 + lo<<1 * * * * Arguments: * * * * hi msb * * lo lsf (with sign) * * * * Return Value : * * * * 32 bit long signed integer (Word32) whose value falls in the * * range : 0x8000 0000 <= L_32 <= 0x7fff fff0. * * * ***************************************************************************** */ static inline Word32 L_Comp (Word16 hi, Word16 lo) { return ((Word32) hi << 16) + ((Word32) lo << 1); } Word32 Mpy_32 (Word16 hi1, Word16 lo1, Word16 hi2, Word16 lo2); Word32 Mpy_32_16 (Word16 hi, Word16 lo, Word16 n); Word32 Div_32 (Word32 L_num, Word16 denom_hi, Word16 denom_lo);