diff options
Diffstat (limited to 'opencore/codecs_v2/audio/gsm_amr/amr_nb/enc/src/ets_to_wmf.cpp')
-rw-r--r-- | opencore/codecs_v2/audio/gsm_amr/amr_nb/enc/src/ets_to_wmf.cpp | 300 |
1 files changed, 300 insertions, 0 deletions
diff --git a/opencore/codecs_v2/audio/gsm_amr/amr_nb/enc/src/ets_to_wmf.cpp b/opencore/codecs_v2/audio/gsm_amr/amr_nb/enc/src/ets_to_wmf.cpp new file mode 100644 index 0000000..76634b0 --- /dev/null +++ b/opencore/codecs_v2/audio/gsm_amr/amr_nb/enc/src/ets_to_wmf.cpp @@ -0,0 +1,300 @@ +/* ------------------------------------------------------------------ + * Copyright (C) 1998-2009 PacketVideo + * + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either + * express or implied. + * See the License for the specific language governing permissions + * and limitations under the License. + * ------------------------------------------------------------------- + */ +/**************************************************************************************** +Portions of this file are derived from the following 3GPP standard: + + 3GPP TS 26.073 + ANSI-C code for the Adaptive Multi-Rate (AMR) speech codec + Available from http://www.3gpp.org + +(C) 2004, 3GPP Organizational Partners (ARIB, ATIS, CCSA, ETSI, TTA, TTC) +Permission to distribute, modify and use this file under the standard license +terms listed above has been obtained from the copyright holder. +****************************************************************************************/ +/* +------------------------------------------------------------------------------ + + + + Filename: ets_to_wmf.cpp + Functions: ets_to_wmf + +------------------------------------------------------------------------------ +*/ + +/*---------------------------------------------------------------------------- +; INCLUDES +----------------------------------------------------------------------------*/ +#include "ets_to_wmf.h" +#include "typedef.h" + +/*---------------------------------------------------------------------------- +; MACROS +; Define module specific macros here +----------------------------------------------------------------------------*/ + +/*---------------------------------------------------------------------------- +; DEFINES +; Include all pre-processor statements here. Include conditional +; compile variables also. +----------------------------------------------------------------------------*/ + + +/*---------------------------------------------------------------------------- +; LOCAL FUNCTION DEFINITIONS +; Function Prototype declaration +----------------------------------------------------------------------------*/ + +/*---------------------------------------------------------------------------- +; LOCAL VARIABLE DEFINITIONS +; Variable declaration - defined here and used outside this module +----------------------------------------------------------------------------*/ + + +/* +------------------------------------------------------------------------------ + FUNCTION NAME: ets_to_wmf +------------------------------------------------------------------------------ + INPUT AND OUTPUT DEFINITIONS + + Inputs: + frame_type_3gpp = decoder speech bit rate (enum Frame_Type_3GPP) + ets_input_ptr = pointer to input encoded speech bits in ETS format (Word16) + wmf_output_ptr = pointer to output encoded speech bits in WMF format(UWord8) + + Outputs: + wmf_output_ptr = pointer to encoded speech bits in the WMF format (UWord8) + + Returns: + None + + Global Variables Used: + numOfBits = table of values that describe the number of bits per frame for + each 3GPP frame type mode. The table is type const Word16 and has + NUM_MODES elements. This table is located in bitreorder_tab.c. + reorderBits = table of pointers that point to tables used to reorder the + encoded speech bits when converting from ETS to WMF or IF2 + format. The table is of type const Word16 * and contains + NUM_MODES-1 elements. This table is located in bitreorder_tab.c. + + Local Variables Needed: + None + +------------------------------------------------------------------------------ + FUNCTION DESCRIPTION + + This function performs a transformation on the data buffers. It converts the + data format from ETS (European Telecommunication Standard) to WMF (wireless + multimedia forum). ETS format has the encoded speech bits each separate with + only one bit stored in each word. WMF is the storage format where the frame + type is in the first four bits of the first byte. This first byte has the + upper four bits as padded zeroes. The following bytes contain the rest of the + encoded speech bits. The final byte has padded zeros to make the frame byte + aligned. +------------------------------------------------------------------------------ + REQUIREMENTS + + None + +------------------------------------------------------------------------------ + REFERENCES + + None + +------------------------------------------------------------------------------ + PSEUDO-CODE + + + +------------------------------------------------------------------------------ + CAUTION [optional] + [State any special notes, constraints or cautions for users of this function] + +------------------------------------------------------------------------------ +*/ + +void ets_to_wmf( + enum Frame_Type_3GPP frame_type_3gpp, + Word16 *ets_input_ptr, + UWord8 *wmf_output_ptr, + CommonAmrTbls* common_amr_tbls) +{ + Word16 i; + Word16 k = 0; + Word16 j = 0; + Word16 *ptr_temp; + Word16 bits_left; + UWord8 accum; + const Word16* const* reorderBits_ptr = common_amr_tbls->reorderBits_ptr; + const Word16* numOfBits_ptr = common_amr_tbls->numOfBits_ptr; + + wmf_output_ptr[j++] = (UWord8)(frame_type_3gpp) & 0x0f; + + if (frame_type_3gpp < AMR_SID) + { + + for (i = 0; i < numOfBits_ptr[frame_type_3gpp] - 7;) + { + wmf_output_ptr[j] = + (UWord8) ets_input_ptr[reorderBits_ptr[frame_type_3gpp][i++]] << 7; + wmf_output_ptr[j] |= + (UWord8) ets_input_ptr[reorderBits_ptr[frame_type_3gpp][i++]] << 6; + wmf_output_ptr[j] |= + (UWord8) ets_input_ptr[reorderBits_ptr[frame_type_3gpp][i++]] << 5; + wmf_output_ptr[j] |= + (UWord8) ets_input_ptr[reorderBits_ptr[frame_type_3gpp][i++]] << 4; + wmf_output_ptr[j] |= + (UWord8) ets_input_ptr[reorderBits_ptr[frame_type_3gpp][i++]] << 3; + wmf_output_ptr[j] |= + (UWord8) ets_input_ptr[reorderBits_ptr[frame_type_3gpp][i++]] << 2; + wmf_output_ptr[j] |= + (UWord8) ets_input_ptr[reorderBits_ptr[frame_type_3gpp][i++]] << 1; + wmf_output_ptr[j++] |= + (UWord8) ets_input_ptr[reorderBits_ptr[frame_type_3gpp][i++]]; + } + + bits_left = numOfBits_ptr[frame_type_3gpp] - + (numOfBits_ptr[frame_type_3gpp] & 0xFFF8); + + wmf_output_ptr[j] = 0; + + for (k = 0; k < bits_left; k++) + { + wmf_output_ptr[j] |= + (UWord8) ets_input_ptr[reorderBits_ptr[frame_type_3gpp][i++]] << (7 - k); + + } + } + else + { + + ptr_temp = &ets_input_ptr[0]; + + for (i = numOfBits_ptr[frame_type_3gpp] - 7; i > 0; i -= 8) + { + accum = (UWord8) * (ptr_temp++) << 7; + accum |= (UWord8) * (ptr_temp++) << 6; + accum |= (UWord8) * (ptr_temp++) << 5; + accum |= (UWord8) * (ptr_temp++) << 4; + accum |= (UWord8) * (ptr_temp++) << 3; + accum |= (UWord8) * (ptr_temp++) << 2; + accum |= (UWord8) * (ptr_temp++) << 1; + accum |= (UWord8) * (ptr_temp++); + + wmf_output_ptr[j++] = accum; + } + + bits_left = numOfBits_ptr[frame_type_3gpp] - + (numOfBits_ptr[frame_type_3gpp] & 0xFFF8); + + wmf_output_ptr[j] = 0; + + for (i = 0; i < bits_left; i++) + { + wmf_output_ptr[j] |= *(ptr_temp++) << (7 - i); + } + } + + return; +} + + + +void ets_to_ietf( + enum Frame_Type_3GPP frame_type_3gpp, + Word16 *ets_input_ptr, + UWord8 *ietf_output_ptr, + CommonAmrTbls* common_amr_tbls) +{ + Word16 i; + Word16 k = 0; + Word16 j = 0; + Word16 *ptr_temp; + Word16 bits_left; + UWord8 accum; + const Word16* const* reorderBits_ptr = common_amr_tbls->reorderBits_ptr; + const Word16* numOfBits_ptr = common_amr_tbls->numOfBits_ptr; + + ietf_output_ptr[j++] = (UWord8)(frame_type_3gpp << 3); + + if (frame_type_3gpp < AMR_SID) + { + for (i = 0; i < numOfBits_ptr[frame_type_3gpp] - 7;) + { + ietf_output_ptr[j] = + (UWord8) ets_input_ptr[reorderBits_ptr[frame_type_3gpp][i++]] << 7; + ietf_output_ptr[j] |= + (UWord8) ets_input_ptr[reorderBits_ptr[frame_type_3gpp][i++]] << 6; + ietf_output_ptr[j] |= + (UWord8) ets_input_ptr[reorderBits_ptr[frame_type_3gpp][i++]] << 5; + ietf_output_ptr[j] |= + (UWord8) ets_input_ptr[reorderBits_ptr[frame_type_3gpp][i++]] << 4; + ietf_output_ptr[j] |= + (UWord8) ets_input_ptr[reorderBits_ptr[frame_type_3gpp][i++]] << 3; + ietf_output_ptr[j] |= + (UWord8) ets_input_ptr[reorderBits_ptr[frame_type_3gpp][i++]] << 2; + ietf_output_ptr[j] |= + (UWord8) ets_input_ptr[reorderBits_ptr[frame_type_3gpp][i++]] << 1; + ietf_output_ptr[j++] |= + (UWord8) ets_input_ptr[reorderBits_ptr[frame_type_3gpp][i++]]; + } + + bits_left = numOfBits_ptr[frame_type_3gpp] - + (numOfBits_ptr[frame_type_3gpp] & 0xFFF8); + + ietf_output_ptr[j] = 0; + + for (k = 0; k < bits_left; k++) + { + ietf_output_ptr[j] |= + (UWord8) ets_input_ptr[reorderBits_ptr[frame_type_3gpp][i++]] << (7 - k); + + } + } + else + { + + ptr_temp = &ets_input_ptr[0]; + + for (i = numOfBits_ptr[frame_type_3gpp] - 7; i > 0; i -= 8) + { + accum = (UWord8) * (ptr_temp++) << 7; + accum |= (UWord8) * (ptr_temp++) << 6; + accum |= (UWord8) * (ptr_temp++) << 5; + accum |= (UWord8) * (ptr_temp++) << 4; + accum |= (UWord8) * (ptr_temp++) << 3; + accum |= (UWord8) * (ptr_temp++) << 2; + accum |= (UWord8) * (ptr_temp++) << 1; + accum |= (UWord8) * (ptr_temp++); + + ietf_output_ptr[j++] = accum; + } + + bits_left = numOfBits_ptr[frame_type_3gpp] - + (numOfBits_ptr[frame_type_3gpp] & 0xFFF8); + + ietf_output_ptr[j] = 0; + + for (i = 0; i < bits_left; i++) + { + ietf_output_ptr[j] |= *(ptr_temp++) << (7 - i); + } + } + + return; +} |