| /* |
| * Copyright (c) 2011 Intel Corporation. All Rights Reserved. |
| * Copyright (c) Imagination Technologies Limited, UK |
| * |
| * Permission is hereby granted, free of charge, to any person obtaining a |
| * copy of this software and associated documentation files (the |
| * "Software"), to deal in the Software without restriction, including |
| * without limitation the rights to use, copy, modify, merge, publish, |
| * distribute, sub license, and/or sell copies of the Software, and to |
| * permit persons to whom the Software is furnished to do so, subject to |
| * the following conditions: |
| * |
| * The above copyright notice and this permission notice (including the |
| * next paragraph) shall be included in all copies or substantial portions |
| * of the Software. |
| * |
| * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS |
| * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF |
| * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. |
| * IN NO EVENT SHALL PRECISION INSIGHT AND/OR ITS SUPPLIERS BE LIABLE FOR |
| * ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, |
| * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE |
| * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. |
| * |
| * Authors: |
| * Elaine Wang <elaine.wang@intel.com> |
| * Zeng Li <zeng.li@intel.com> |
| * |
| */ |
| |
| |
| #include <stdio.h> |
| #include <string.h> |
| #include "img_types.h" |
| #include "psb_def.h" |
| #include "psb_drv_debug.h" |
| #include "pnw_hostheader.h" |
| |
| |
| /* Global stores the latest QP information for the DoHeader() |
| * routine, should be filled in by the rate control algorithm. |
| */ |
| #define HEADERS_VERBOSE_OUTPUT 0 |
| |
| /* #define USESTATICWHEREPOSSIBLE 1 */ |
| |
| #define MAXNUMBERELEMENTS 16 |
| #define HEADER_SIZE (128*2) |
| |
| /* SOME USEFUL TEST FUNCTIONS */ |
| #if 0 |
| |
| static void Show_Bits( |
| IMG_UINT8 *ucBitStream, |
| IMG_UINT32 ByteStartBit, |
| IMG_UINT32 Bits) |
| { |
| char Txt[1024]; |
| IMG_UINT32 uiByteSize; |
| IMG_UINT32 uiLp, uiBt, Bcnt; |
| Bcnt = 0; |
| uiByteSize = (Bits + ByteStartBit + 7) >> 3; |
| for (uiLp = 0; uiLp < uiByteSize; uiLp++) { |
| snprintf(Txt, strlen(" "), " "); |
| for (uiBt = 128; uiBt >= 1; uiBt = uiBt >> 1) { |
| Bcnt++; |
| if (Bcnt > Bits + ByteStartBit || Bcnt <= ByteStartBit) |
| snprintf(Txt, sizeof(Txt), "%sX", Txt); |
| else |
| snprintf(Txt, sizeof(Txt), "%s%i", Txt, (ucBitStream[uiLp] & uiBt) > 0); |
| } |
| |
| snprintf(Txt, sizeof(Txt), "%s ", Txt); |
| printf("%s", Txt); |
| if ((uiLp + 1) % 8 == 0) printf("\n"); |
| } |
| |
| printf("\n\n"); |
| } |
| #endif |
| |
| #if 0 |
| |
| static void Show_Elements( |
| MTX_HEADER_PARAMS *mtx_hdr, |
| MTX_HEADER_ELEMENT **elt_p) |
| { |
| IMG_UINT8 f; |
| IMG_UINT32 TotalByteSize; |
| IMG_UINT32 RTotalByteSize; |
| |
| RTotalByteSize = TotalByteSize = 0; |
| for (f = 0; f < mtx_hdr->Elements; f++) { |
| #if HEADERS_VERBOSE_OUTPUT |
| drv_debug_msg(VIDEO_DEBUG_GENERAL, "Encoding Element [%i] - Type:%i\n", f, elt_p[f]->Element_Type); |
| #endif |
| if (elt_p[f]->Element_Type == ELEMENT_STARTCODE_RAWDATA || |
| elt_p[f]->Element_Type == ELEMENT_RAWDATA) { |
| TotalByteSize = elt_p[f]->Size; |
| #if HEADERS_VERBOSE_OUTPUT |
| drv_debug_msg(VIDEO_DEBUG_GENERAL, "Writing %i RAW bits to element.\n", elt_p[f]->Size); |
| Show_Bits((IMG_UINT8 *)(&elt_p[f]->Size) + 1, 0, TotalByteSize); |
| #endif |
| TotalByteSize += 8; |
| |
| RTotalByteSize += (((IMG_UINT32)((TotalByteSize + 7) / 8)) * 8); |
| RTotalByteSize += 32; |
| } else { |
| TotalByteSize = 0; |
| switch (elt_p[f]->Element_Type) { |
| case ELEMENT_QP: |
| #if HEADERS_VERBOSE_OUTPUT |
| drv_debug_msg(VIDEO_DEBUG_GENERAL, "Insert token ELEMENT_QP (H264)- for MTX to generate and insert this value\n"); |
| #endif |
| break; |
| case ELEMENT_SQP: |
| #if HEADERS_VERBOSE_OUTPUT |
| drv_debug_msg(VIDEO_DEBUG_GENERAL, "Insert token ELEMENT_SQP (H264)- for MTX to generate and insert this value\n"); |
| #endif |
| break; |
| case ELEMENT_FRAMEQSCALE: |
| #if HEADERS_VERBOSE_OUTPUT |
| drv_debug_msg(VIDEO_DEBUG_GENERAL, "Insert token ELEMENT_FRAMEQSCALE (H263/MPEG4) - for MTX to generate and insert this value\n"); |
| #endif |
| break; |
| case ELEMENT_SLICEQSCALE: |
| #if HEADERS_VERBOSE_OUTPUT |
| drv_debug_msg(VIDEO_DEBUG_GENERAL, "Insert token ELEMENT_SLICEQSCALE (H263/MPEG4) - for MTX to generate and insert this value\n"); |
| #endif |
| break; |
| case ELEMENT_INSERTBYTEALIGN_H264: |
| #if HEADERS_VERBOSE_OUTPUT |
| drv_debug_msg(VIDEO_DEBUG_GENERAL, "Insert token ELEMENT_INSERTBYTEALIGN_H264 - MTX to generate 'rbsp_trailing_bits()' field\n"); |
| #endif |
| break; |
| case ELEMENT_INSERTBYTEALIGN_MPG4: |
| #if HEADERS_VERBOSE_OUTPUT |
| drv_debug_msg(VIDEO_DEBUG_GENERAL, "Insert token ELEMENT_INSERTBYTEALIGN_MPG4 - MTX to generate MPEG4 'byte_aligned_bits' field\n"); |
| #endif |
| break; |
| default: |
| break; |
| } |
| |
| RTotalByteSize += 32; |
| #if HEADERS_VERBOSE_OUTPUT |
| drv_debug_msg(VIDEO_DEBUG_GENERAL, "No RAW bits\n\n"); |
| #endif |
| } |
| } |
| |
| /* TotalByteSize=TotalByteSize+32+(&elt_p[f-1]->Element_Type-&elt_p[0]->Element_Type)*8; */ |
| |
| #if HEADERS_VERBOSE_OUTPUT |
| drv_debug_msg(VIDEO_DEBUG_GENERAL, "\nCombined ELEMENTS Stream:\n"); |
| Show_Bits((IMG_UINT8 *) mtx_hdr->asElementStream, 0, RTotalByteSize); |
| #endif |
| } |
| #endif |
| |
| |
| /** |
| * Header Writing Functions |
| * Low level bit writing and ue, se functions |
| * HOST CODE |
| */ |
| static void pnw__write_upto8bits_elements( |
| MTX_HEADER_PARAMS *mtx_hdr, |
| MTX_HEADER_ELEMENT **elt_p, |
| IMG_UINT8 wrt_bits, |
| IMG_UINT16 bit_cnt) |
| { |
| /* This is the core function to write bits/bytes |
| * to a header stream, it writes them directly to ELEMENT structures. |
| */ |
| IMG_UINT8 *wrt_bytes_p; |
| IMG_UINT8 *size_bits_p; |
| union { |
| IMG_UINT32 UI16Input; |
| IMG_UINT8 UI8Input[2]; |
| } InputVal = {0, }; |
| IMG_UINT8 OutByteIndex; |
| IMG_INT16 Shift; |
| |
| if (bit_cnt == 0) return; |
| |
| /* WA for klockwork */ |
| if (mtx_hdr->Elements >= MAXNUMBERELEMENTS) { |
| drv_debug_msg(VIDEO_DEBUG_ERROR, "mtx_hdr->Elments overflow\n"); |
| return; |
| } |
| |
| /* First ensure that unused bits in wrt_bits are zeroed */ |
| wrt_bits &= (0x00ff >> (8 - bit_cnt)); |
| |
| InputVal.UI16Input = 0; |
| |
| /* Pointer to the bit count field */ |
| size_bits_p = &(elt_p[mtx_hdr->Elements]->Size); |
| |
| /* Pointer to the space where header bits are to be written */ |
| wrt_bytes_p = &(elt_p[mtx_hdr->Elements]->Bits); |
| |
| OutByteIndex = (size_bits_p[0] / 8); |
| |
| if (!(size_bits_p[0] & 7)) { |
| if (size_bits_p[0] >= 120) { |
| /* Element maximum bits send to element, time to start a new one */ |
| mtx_hdr->Elements++; /* Increment element index */ |
| /* Element pointer set to position of next element (120/8 = 15 bytes) */ |
| elt_p[mtx_hdr->Elements] = (MTX_HEADER_ELEMENT *) & wrt_bytes_p[15]; |
| |
| /* Write ELEMENT_TYPE */ |
| elt_p[mtx_hdr->Elements]->Element_Type = ELEMENT_RAWDATA; |
| |
| /* Set new element size (bits) to zero */ |
| elt_p[mtx_hdr->Elements]->Size = 0; |
| |
| /* Begin writing to the new element */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, wrt_bits, bit_cnt); |
| return; |
| } |
| |
| wrt_bytes_p[OutByteIndex] = 0; /* Beginning a new byte, clear byte */ |
| } |
| |
| Shift = (IMG_INT16)((8 - bit_cnt) - (size_bits_p[0] & 7)); |
| |
| if (Shift >= 0) { |
| wrt_bits <<= Shift; |
| wrt_bytes_p[OutByteIndex] |= wrt_bits; |
| size_bits_p[0] = size_bits_p[0] + bit_cnt; |
| } else { |
| InputVal.UI8Input[1] = (IMG_UINT8) wrt_bits + 256; |
| InputVal.UI16Input >>= -Shift; |
| |
| wrt_bytes_p[OutByteIndex] |= InputVal.UI8Input[1]; |
| |
| size_bits_p[0] = size_bits_p[0] + bit_cnt; |
| size_bits_p[0] = size_bits_p[0] - ((IMG_UINT8) - Shift); |
| InputVal.UI8Input[0] = InputVal.UI8Input[0] >> (8 + Shift); |
| |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, InputVal.UI8Input[0], (IMG_UINT16) - Shift); |
| } |
| } |
| |
| static void pnw__write_upto32bits_elements( |
| MTX_HEADER_PARAMS *mtx_hdr, |
| MTX_HEADER_ELEMENT **elt_p, |
| IMG_UINT32 wrt_bits, |
| IMG_UINT32 bit_cnt) |
| { |
| IMG_UINT32 BitLp; |
| IMG_UINT32 EndByte; |
| IMG_UINT8 Bytes[4]; |
| |
| for (BitLp = 0; BitLp < 4; BitLp++) { |
| Bytes[BitLp] = (IMG_UINT8)(wrt_bits & 255); |
| wrt_bits = wrt_bits >> 8; |
| } |
| |
| EndByte = ((bit_cnt + 7) / 8); |
| |
| if ((bit_cnt) % 8) |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, Bytes[EndByte-1], (IMG_UINT8)((bit_cnt) % 8)); |
| else |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, Bytes[EndByte-1], 8); |
| |
| if (EndByte > 1) |
| for (BitLp = EndByte - 1; BitLp > 0; BitLp--) { |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, Bytes[BitLp-1], 8); |
| } |
| } |
| |
| static void pnw__generate_ue( |
| MTX_HEADER_PARAMS *mtx_hdr, |
| MTX_HEADER_ELEMENT **elt_p, |
| IMG_UINT32 uiVal) |
| { |
| IMG_UINT32 uiLp; |
| IMG_UINT8 ucZeros; |
| IMG_UINT32 uiChunk; |
| |
| for (uiLp = 1, ucZeros = 0; (uiLp - 1) < uiVal ; uiLp = uiLp + uiLp, ucZeros++) |
| uiVal = uiVal - uiLp; |
| |
| /* ucZeros = number of preceding zeros required |
| * uiVal = value to append after zeros and 1 bit |
| */ |
| |
| /* Write preceding zeros */ |
| for (uiLp = (IMG_UINT32) ucZeros; uiLp + 1 > 8; uiLp -= 8) |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 8); |
| |
| /* Write zeros and 1 bit set */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, (IMG_UINT8) 1, (IMG_UINT8)(uiLp + 1)); |
| |
| /* Write Numeric part */ |
| while (ucZeros > 8) { |
| ucZeros -= 8; |
| uiChunk = (uiVal >> ucZeros); |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, (IMG_UINT8) uiChunk, 8); |
| uiVal = uiVal - (uiChunk << ucZeros); |
| } |
| |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, (IMG_UINT8) uiVal, ucZeros); |
| } |
| |
| |
| static void pnw__generate_se( |
| MTX_HEADER_PARAMS *mtx_hdr, |
| MTX_HEADER_ELEMENT **elt_p, |
| int iVal) |
| { |
| IMG_UINT32 uiCodeNum; |
| |
| if (iVal > 0) |
| uiCodeNum = (IMG_UINT32)(iVal + iVal - 1); |
| else |
| uiCodeNum = (IMG_UINT32)(-iVal - iVal); |
| |
| pnw__generate_ue(mtx_hdr, elt_p, uiCodeNum); |
| } |
| |
| |
| static void pnw__insert_element_token( |
| MTX_HEADER_PARAMS *mtx_hdr, |
| MTX_HEADER_ELEMENT **elt_p, |
| HEADER_ELEMENT_TYPE Token) |
| { |
| IMG_UINT8 Offset; |
| IMG_UINT8 *P; |
| |
| if (mtx_hdr->Elements != ELEMENTS_EMPTY && |
| mtx_hdr->Elements > (MAXNUMBERELEMENTS - 1)) |
| return; |
| |
| if (mtx_hdr->Elements != ELEMENTS_EMPTY) { |
| if (elt_p[mtx_hdr->Elements]->Element_Type == ELEMENT_STARTCODE_RAWDATA |
| || elt_p[mtx_hdr->Elements]->Element_Type == ELEMENT_RAWDATA) { |
| /*Add a new element aligned to word boundary |
| *Find RAWBit size in bytes (rounded to word boundary)) |
| */ |
| |
| /* NumberofRawbits (excluding size of bit count field)+ size of the bitcount field */ |
| Offset = elt_p[mtx_hdr->Elements]->Size + 8 + 31; |
| Offset /= 32;/* Now contains rawbits size in words */ |
| Offset += 1;/* Now contains rawbits+element_type size in words */ |
| Offset *= 4;/* Convert to number of bytes (total size of structure in bytes, aligned to word boundary) */ |
| } else { |
| Offset = 4; |
| } |
| |
| mtx_hdr->Elements++; |
| |
| if (mtx_hdr->Elements > (MAXNUMBERELEMENTS - 1)) |
| return; |
| P = (IMG_UINT8 *) elt_p[mtx_hdr->Elements-1]; |
| P += Offset; |
| elt_p[mtx_hdr->Elements] = (MTX_HEADER_ELEMENT *) P; |
| } else |
| mtx_hdr->Elements = 0; |
| |
| elt_p[mtx_hdr->Elements]->Element_Type = Token; |
| elt_p[mtx_hdr->Elements]->Size = 0; |
| } |
| |
| /* |
| * Intermediary functions to build H264 headers |
| */ |
| static void pnw__H264_writebits_startcode_prefix_element( |
| MTX_HEADER_PARAMS *mtx_hdr, |
| MTX_HEADER_ELEMENT **elt_p, |
| IMG_UINT32 ByteSize) |
| { |
| /* GENERATES THE FIRST ELEMENT OF THE H264_SEQUENCE_HEADER() STRUCTURE */ |
| IMG_UINT32 Lp; |
| |
| /* |
| * Byte aligned (bit 0) |
| * (3 bytes in slice header when slice is first in a picture |
| * without sequence/picture_header before picture |
| */ |
| |
| for (Lp = 0; Lp < ByteSize - 1; Lp++) |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 8); |
| |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 8); |
| |
| /* Byte aligned (bit 32 or 24) */ |
| return; |
| } |
| |
| |
| static void pnw__H264_writebits_VUI_params( |
| MTX_HEADER_PARAMS *mtx_hdr, |
| MTX_HEADER_ELEMENT **elt_p, |
| H264_VUI_PARAMS *VUIParams) |
| { |
| /* Builds VUI Params for the Sequence Header (only present in the 1st sequence of stream) */ |
| if (VUIParams->aspect_ratio_info_present_flag && (VUIParams->aspect_ratio_idc == 0xff)) { |
| /* aspect_ratio_info_present_flag u(1) */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); |
| /* aspect_ratio_idc u(8) Extended_SAR */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0xff, 8); |
| /* sar_width u(16) */ |
| pnw__write_upto32bits_elements(mtx_hdr, elt_p, VUIParams->sar_width, 16); |
| /* sar_height u(16) */ |
| pnw__write_upto32bits_elements(mtx_hdr, elt_p, VUIParams->sar_height, 16); |
| } else { |
| /* aspect_ratio_info_present_flag u(1) */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| } |
| |
| pnw__write_upto8bits_elements( |
| mtx_hdr, elt_p, |
| (0 << 3) | /* overscan_info_present_flag (1 bit) = 0 in Topaz */ |
| (0 << 2) | /* video_signal_type_present_flag (1 bit) = 0 in Topaz */ |
| (0 << 1) | /* chroma_loc_info_present_flag (1 bit) = 0 in Topaz */ |
| (1),/* timing_info_present_flag (1 bit) = 1 in Topaz */ |
| 4); |
| |
| /* num_units_in_tick (32 bits) = 1 in Topaz */ |
| pnw__write_upto32bits_elements(mtx_hdr, elt_p, VUIParams->num_units_in_tick, 32); |
| |
| /* time_scale (32 bits) = frame rate */ |
| pnw__write_upto32bits_elements(mtx_hdr, elt_p, VUIParams->Time_Scale, 32); |
| |
| /* fixed_frame_rate_flag (1 bit) = 1 in Topaz */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); |
| /* nal_hrd_parameters_present_flag (1 bit) = 1 in Topaz */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); |
| |
| /** Definitions for nal_hrd_parameters() contained in VUI structure for Topaz |
| * cpb_cnt_minus1 ue(v) = 0 in Topaz = 1b |
| */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); |
| /* bit_rate_scale (4 bits) = 0 in Topaz, cpb_size_scale (4 bits) = 0 in Topaz */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 4); |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 2, 4); |
| |
| /* bit_rate_value_minus1[0] ue(v) = (Bitrate/64)-1 [RANGE:0 to (2^32)-2] */ |
| pnw__generate_ue(mtx_hdr, elt_p, VUIParams->bit_rate_value_minus1); |
| /* cpb_size_value_minus1[0] ue(v) = (CPB_Bits_Size/16)-1 |
| * where CPB_Bits_Size = 1.5 * Bitrate [RANGE:0 to (2^32)-2] |
| */ |
| pnw__generate_ue(mtx_hdr, elt_p, VUIParams->cbp_size_value_minus1); |
| |
| /* cbr_flag[0] (1 bit) = 0 for VBR, 1 for CBR */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, VUIParams->CBR, 1); |
| |
| pnw__write_upto8bits_elements( |
| mtx_hdr, elt_p, |
| VUIParams->initial_cpb_removal_delay_length_minus1, |
| 5); /* initial_cpb_removal_delay_length_minus1 (5 bits) = ??? */ |
| |
| pnw__write_upto8bits_elements( |
| mtx_hdr, |
| elt_p, |
| VUIParams->cpb_removal_delay_length_minus1, |
| 5); /* cpb_removal_delay_length_minus1 (5 bits) = ??? */ |
| |
| pnw__write_upto8bits_elements( |
| mtx_hdr, elt_p, |
| VUIParams->dpb_output_delay_length_minus1, |
| 5); /* dpb_output_delay_length_minus1 (5 bits) = ??? */ |
| |
| pnw__write_upto8bits_elements( |
| mtx_hdr, |
| elt_p, |
| VUIParams->time_offset_length, |
| 5); /* time_offst_length (5 bits) = ??? */ |
| |
| /* End of nal_hrd_parameters() */ |
| |
| pnw__write_upto8bits_elements( |
| mtx_hdr, |
| elt_p, |
| 0, 1);/* vcl_hrd_parameters_present_flag (1 bit) = 0 in Topaz */ |
| |
| /* if( nal_hrd_parameters_present_flag || vcl_hrd_parameters_present_flag ) |
| * FIX for BRN23039 |
| * low_delay_hrd_flag |
| */ |
| pnw__write_upto8bits_elements( |
| mtx_hdr, elt_p, |
| 0, 1);/* low_delay_hrd_flag */ |
| |
| |
| pnw__write_upto8bits_elements( |
| mtx_hdr, elt_p, |
| 0, 1);/* pic_struct_present_flag (1 bit) = 0 in Topaz */ |
| |
| pnw__write_upto8bits_elements( |
| mtx_hdr, elt_p, |
| 0, 1);/* bitstream_restriction_flag (1 bit) = 0 in Topaz */ |
| } |
| |
| |
| static void pnw__H264_writebits_picture_header( |
| MTX_HEADER_PARAMS *pMTX_Header, |
| MTX_HEADER_ELEMENT **aui32ElementPointers, |
| IMG_BOOL bCabacEnabled, |
| IMG_BOOL b_8x8transform, |
| IMG_BOOL bIntraConstrained, |
| IMG_INT8 i8CbQPOffset, |
| IMG_INT8 i8CrQPOffset) |
| { |
| //**-- Begin building the picture header element |
| IMG_UINT8 ui8ECMF = (bCabacEnabled ? 1 : 0); |
| |
| pnw__insert_element_token(pMTX_Header, aui32ElementPointers, ELEMENT_STARTCODE_RAWDATA); |
| |
| pnw__H264_writebits_startcode_prefix_element(pMTX_Header, aui32ElementPointers, 4); |
| |
| ///* GENERATES THE FIRST (STATIC) ELEMENT OF THE H264_PICTURE_HEADER() STRUCTURE */// |
| ///**** ELEMENT BITCOUNT: 18 |
| |
| // 4 Byte StartCodePrefix Pregenerated in: H264_WriteBits_StartCodePrefix_Element() |
| // Byte aligned (bit 32) |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| (0 << 7) | // forbidden_zero_bit |
| (1 << 5) | // nal_ref_idc (2 bits) = 1 |
| (8), // nal_unit_tpye (5 bits) = 8 |
| 8); |
| // Byte aligned (bit 40) |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| (1 << 7) | // pic_parameter_set_id ue(v) = 0 in Topaz |
| (1 << 6) | // seq_parameter_set_id ue(v) = 0 in Topaz |
| (ui8ECMF << 5) | // entropy_coding_mode_flag (1 bit) 0 for CAVLC |
| (0 << 4) | // pic_order_present_flag (1 bit) = 0 |
| (1 << 3) | // num_slice_group_minus1 ue(v) = 0 in Topaz |
| (1 << 2) | // num_ref_idx_l0_active_minus1 ue(v) = 0 in Topaz |
| (1 << 1) | // num_ref_idx_l1_active_minus1 ue(v) = 0 in Topaz |
| (0), // weighted_pred_flag (1 bit) = 0 in Topaz |
| 8); |
| // Byte aligned (bit 48) |
| // weighted_bipred_flag (2 bits) = 0 in Topaz |
| pnw__write_upto8bits_elements(pMTX_Header, aui32ElementPointers, 0, 2); |
| |
| //MTX fills this value in |
| pnw__insert_element_token(pMTX_Header, aui32ElementPointers, ELEMENT_QP); |
| pnw__insert_element_token(pMTX_Header, aui32ElementPointers, ELEMENT_RAWDATA); |
| |
| ///**** GENERATES THE SECOND ELEMENT OF THE H264_PICTURE_HEADER() STRUCTURE ****/// |
| ///**** ELEMENT BITCOUNT: 5 |
| //The following field will be generated as a special case by MTX - so not here |
| // pnw__generate_se(pMTX_Header, pPHParams->pic_init_qp_minus26); |
| // pic_int_qp_minus26 se(v) = -26 to 25 in Topaz |
| // pic_int_qs_minus26 se(v) = 0 in Topaz |
| //chroma_qp_index_offset se(v) = 0 in Topaz |
| pnw__generate_se(pMTX_Header, aui32ElementPointers, 0); |
| pnw__generate_se(pMTX_Header, aui32ElementPointers, i8CbQPOffset); |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| // deblocking_filter_control_present_flag (1 bit) = 1 in Topaz |
| (1 << 2) | |
| // constrained_intra_pred_Flag (1 bit) = 0 in Topaz |
| ((bIntraConstrained ? 1 : 0) << 1) | |
| (0),// redundant_pic_cnt_present_flag (1 bit) = 0 in Topaz |
| 3); |
| // Byte align is done using an element command (MTX elements in this structure, we don't know it's size) |
| |
| if (b_8x8transform || (i8CbQPOffset != i8CrQPOffset)) { |
| pnw__write_upto8bits_elements(pMTX_Header, aui32ElementPointers, |
| (b_8x8transform << 1) | // 8x8 transform flag |
| (0), // pic_scaling_matrix_present_flag |
| 2); |
| pnw__generate_se(pMTX_Header, aui32ElementPointers, i8CrQPOffset); |
| // second_chroma_qp_index_offset se(v) = 0 in Topaz |
| } |
| // Tell MTX to insert the byte align field (we don't know final stream size for alignment at this point) |
| pnw__insert_element_token(pMTX_Header, aui32ElementPointers, ELEMENT_INSERTBYTEALIGN_H264); |
| |
| return; |
| } |
| |
| |
| static void pnw__H264_writebits_slice_header0( |
| MTX_HEADER_PARAMS *mtx_hdr, |
| MTX_HEADER_ELEMENT **elt_p, |
| H264_SLICE_HEADER_PARAMS *pSlHParams) |
| { |
| /* GENERATES THE FIRST ELEMENT OF THE H264_SLICE_HEADER() STRUCTURE |
| * ELEMENT BITCOUNT: 8 |
| * |
| * StartCodePrefix Pregenerated in: Build_H264_4Byte_StartCodePrefix_Element() (4 or 3 bytes) |
| * (3 bytes when slice is first in a picture without sequence/picture_header before picture |
| * Byte aligned (bit 32 or 24) |
| * NOTE: Slice_Type and Frame_Type are always the same, hence SliceFrame_Type |
| */ |
| pnw__write_upto8bits_elements( |
| mtx_hdr, elt_p, |
| (0 << 7) |/* forbidden_zero_bit */ |
| ((pSlHParams->SliceFrame_Type == SLHP_B_SLICEFRAME_TYPE ? 0 : 1) << 5) | /* nal_ref_idc (2 bits) = 0 for B-frame and 1 for I or P-frame */ |
| ((pSlHParams->SliceFrame_Type == SLHP_IDR_SLICEFRAME_TYPE ? 5 : 1)),/* nal_unit_tpye (5 bits) = I-frame IDR, and 1 for rest */ |
| 8); |
| } |
| |
| |
| static void pnw__H264_writebits_slice_header1( |
| MTX_HEADER_PARAMS *mtx_hdr, |
| MTX_HEADER_ELEMENT **elt_p, |
| H264_SLICE_HEADER_PARAMS *pSlHParams, |
| IMG_UINT16 uiIdrPicId) |
| { |
| /* GENERATES THE SECOND ELEMENT OF THE H264_SLICE_HEADER() STRUCTURE |
| * The following is slice parameter set in BP/MP |
| */ |
| |
| /* first_mb_in_slice = First MB address in slice: ue(Range 0 - 1619) */ |
| pnw__generate_ue(mtx_hdr, elt_p, (IMG_UINT32) pSlHParams->First_MB_Address); |
| |
| pnw__generate_ue( |
| mtx_hdr, elt_p, |
| (IMG_UINT32)((pSlHParams->SliceFrame_Type == SLHP_IDR_SLICEFRAME_TYPE) ? SLHP_I_SLICEFRAME_TYPE : pSlHParams->SliceFrame_Type)); /* slice_type ue(v): 0 for P-slice, 1 for B-slice, 2 for I-slice */ |
| |
| /* kab: not clean change from IDR to intra, IDR should have separate flag */ |
| |
| pnw__write_upto8bits_elements( |
| mtx_hdr, elt_p, |
| (1 << 5) | /* pic_parameter_set_id, ue(v) = 0 (=1b) in Topaz */ |
| pSlHParams->Frame_Num_DO,/* frame_num (5 bits) = frame nuo. in decoding order */ |
| 6); |
| |
| /* frame_mb_only_flag is always 1, so no need for field_pic_flag or bottom_field_flag */ |
| if (pSlHParams->SliceFrame_Type == SLHP_IDR_SLICEFRAME_TYPE) |
| pnw__generate_ue(mtx_hdr, elt_p, uiIdrPicId);/* idr_pic_id ue(v) = 0 (1b) in Topaz */ |
| |
| /* kab: Idr_pic_id only for IDR, not nessesarely for all I pictures */ |
| |
| /* customer request POC type should be 2*/ |
| /* if (pic_order_cnt_type == 0) Note: (pic_order_cnt_type always 0 in Topaz) |
| pnw__write_upto8bits_elements( |
| mtx_hdr, elt_p, |
| pSlHParams->Picture_Num_DO, |
| 6); pic_order_cnt_lsb (6 bits) - picture no in display order */ |
| |
| #if 0 |
| if (pSlHParams->SliceFrame_Type == SLHP_B_SLICEFRAME_TYPE) |
| pnw__write_upto8bits_elements( |
| mtx_hdr, |
| elt_p, |
| 0, |
| 1);/* direct_spatial_mv_pred_flag (1 bit) = 0, spatial direct mode not supported in Topaz */ |
| #endif |
| |
| if (pSlHParams->SliceFrame_Type == SLHP_P_SLICEFRAME_TYPE || pSlHParams->SliceFrame_Type == SLHP_B_SLICEFRAME_TYPE) |
| pnw__write_upto8bits_elements( |
| mtx_hdr, |
| elt_p, |
| 0, |
| 1);/* num_ref_idx_active_override_flag (1 bit) = 0 in Topaz */ |
| |
| if (pSlHParams->SliceFrame_Type != SLHP_I_SLICEFRAME_TYPE && |
| pSlHParams->SliceFrame_Type != SLHP_IDR_SLICEFRAME_TYPE) { |
| /* |
| if (pSlHParams->UsesLongTermRef) { |
| // ref_pic_list_ordering_flag_I0 (1 bit) = 1, L0 reference picture ordering |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); |
| // modification_of_pic_nums_idc = 2 |
| pnw__generate_ue(mtx_hdr, elt_p, 2); |
| // long_term_pic_num = 0 |
| pnw__generate_ue(mtx_hdr, elt_p, 0); |
| // modification_of_pic_nums_idc = 3 |
| pnw__generate_ue(mtx_hdr, elt_p, 3); |
| } else |
| */ |
| pnw__write_upto8bits_elements( |
| mtx_hdr, |
| elt_p, |
| 0, |
| 1);/* ref_pic_list_ordering_flag_I0 (1 bit) = 0 */ |
| } |
| |
| #if 0 |
| if (pSlHParams->SliceFrame_Type == SLHP_B_SLICEFRAME_TYPE) |
| pnw__write_upto8bits_elements( |
| mtx_hdr, |
| elt_p, |
| 0, |
| 1); /* ref_pic_list_ordering_flag_I1 (1 bit) = 0, no reference picture ordering in Topaz */ |
| #endif |
| |
| if (pSlHParams->SliceFrame_Type == SLHP_IDR_SLICEFRAME_TYPE) { |
| /* no_output_of_prior_pics_flag (1 bit) = 0 */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| /* long_term_reference_flag (1 bit)*/ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, |
| pSlHParams->IsLongTermRef ? 1 : 0, 1); |
| } |
| #if 0 |
| else if (pSlHParams->UsesLongTermRef) { |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1);/* long_term_reference_flag (1 bit) = 0 */ |
| // Allow a single long-term reference |
| pnw__generate_ue(mtx_hdr, elt_p, 4); |
| // memory_management_control_operation |
| pnw__generate_ue(mtx_hdr, elt_p, 1); |
| |
| // Set current picture as the long-term reference |
| // memory_management_control_operation |
| pnw__generate_ue(mtx_hdr, elt_p, 6); |
| // long_term_frame_idx |
| pnw__generate_ue(mtx_hdr, elt_p, 0); |
| |
| // End |
| pnw__generate_ue(mtx_hdr, elt_p, 0); |
| } |
| #endif |
| else { |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1);/* adaptive_ref_pic_marking_mode_flag (1 bit) = 0 */ |
| } |
| } |
| |
| |
| static void pnw__H264_writebits_slice_header2( |
| MTX_HEADER_PARAMS *mtx_hdr, |
| MTX_HEADER_ELEMENT **elt_p, |
| H264_SLICE_HEADER_PARAMS *pSlHParams) |
| { |
| /* GENERATES ELEMENT OF THE H264_SLICE_HEADER() STRUCTURE |
| * ELEMENT BITCOUNT: 11 |
| */ |
| |
| #if 0 |
| /* Next field is generated on MTX with a special commnad (not ELEMENT_RAW) - so not defined here */ |
| |
| /* slice_qp_delta se(v) = SliceQPy - (pic_init_qp_minus26+26) */ |
| /* pucHS=pnw__generate_se(pucHS, puiBitPos, pSlHParams->Slice_QP_Delta); */ |
| #endif |
| |
| pnw__generate_ue( |
| mtx_hdr, |
| elt_p, |
| pSlHParams->Disable_Deblocking_Filter_Idc); /* disable_deblocking_filter_idc ue(v) = 2? */ |
| |
| if (pSlHParams->Disable_Deblocking_Filter_Idc != 1) { |
| pnw__generate_se(mtx_hdr, elt_p, 0); /* slice_alpha_c0_offset_div2 se(v) = 0 (1b) in Topaz */ |
| pnw__generate_se(mtx_hdr, elt_p, 0); /* slice_beta_offset_div2 se(v) = 0 (1b) in Topaz */ |
| } |
| |
| /* num_slice_groups_minus1 ==0 in Topaz, so no slice_group_change_cycle field here |
| * no byte alignment at end of slice headers |
| */ |
| } |
| |
| static void pnw__H264_writebits_sequence_header( |
| MTX_HEADER_PARAMS *pMTX_Header, |
| MTX_HEADER_ELEMENT **aui32ElementPointers, |
| H264_SEQUENCE_HEADER_PARAMS *pSHParams, H264_CROP_PARAMS *psCrop) |
| { |
| IMG_UINT8 ui8SBP; |
| |
| pnw__insert_element_token(pMTX_Header, |
| aui32ElementPointers, |
| ELEMENT_STARTCODE_RAWDATA); |
| |
| pnw__H264_writebits_startcode_prefix_element(pMTX_Header, |
| aui32ElementPointers, |
| 4); |
| |
| ///**** GENERATES THE FIRST ELEMENT OF THE H264_SEQUENCE_HEADER() STRUCTURE ****/// |
| |
| // 4 Byte StartCodePrefix Pregenerated in: H264_WriteBits_StartCodePrefix_Element() |
| // Byte aligned (bit 32) |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, (0 << 7) | // forbidden_zero_bit=0 |
| (0x3 << 5) | // nal_ref_idc=01 (may be 11) |
| (7), // nal_unit_type=00111 |
| 8); |
| |
| if (pSHParams->ucProfile != SH_PROFILE_HP) { |
| // profile_idc = 8 bits = 66 for BP (PROFILE_IDC_BP), 77 for MP (PROFILE_IDC_MP) |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| (pSHParams->ucProfile == SH_PROFILE_BP ? 66 : 77), 8); |
| |
| // Byte aligned (bit 48) |
| pnw__write_upto8bits_elements(pMTX_Header, |
| // constrain_set0_flag = 1 for BP constraints |
| aui32ElementPointers, (0 << 7) | |
| // constrain_set1_flag = 1 for MP constraints and Constrained Baseline profile. |
| ((pSHParams->ucProfile == SH_PROFILE_BP ? 1 : 0) << 6) | |
| (0 << 5) | // constrain_set2_flag = 1 for HP |
| // constrain_set3_flag = 1 for level 1b, 0 for others |
| ((pSHParams->ucLevel == SH_LEVEL_1B ? 1 : 0) << 4), |
| // reserved_zero_4bits = 0 |
| 8); |
| // Byte aligned (bit 56) |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| // level_idc (8 bits) = 11 for 1b, 10xlevel for others |
| (IMG_UINT8) pSHParams->ucLevel, 8); |
| #if 0 |
| // Byte aligned (bit 64) |
| pnw__write_upto8bits_elements(pMTX_Header, |
| // seq_parameter_Set_id = 0 in Topaz -> ue(0)= 1b |
| aui32ElementPointers, (1 << 7) | |
| (2 << 4) |// log2_max_frame_num_minus4 = 1 in Topaz -> ue(1)= 010b |
| (1 << 3) | // pic_order_cnt_type = 0 in Topaz -> ue(0)= 1b |
| (3), // log2_max_pic_order_cnt_Isb_minus4 = 2 in Topaz -> ue(2)= 011b |
| 8); |
| // Bytes aligned (bit 72) |
| #else |
| /*Customer request POC type should be 2*/ |
| pnw__write_upto8bits_elements(pMTX_Header, |
| // seq_parameter_Set_id = 0 in Topaz -> ue(0)= 1b |
| aui32ElementPointers, (1 << 6) | |
| (2 << 3) |// log2_max_frame_num_minus4 = 1 in Topaz -> ue(1)= 010b |
| (3),// log2_max_pic_order_cnt_Isb_minus4 = 2 in Topaz -> ue(2)= 011b$ |
| 7); |
| #endif |
| } else { |
| #if PSB_MFLD_DUMMY_CODE |
| // Byte aligned (bit 40) |
| // profile_idc = 8 bits = 66 for BP (PROFILE_IDC_BP), 77 for MP (PROFILE_IDC_MP) |
| pnw__write_upto8bits_elements(pMTX_Header, aui32ElementPointers, 100, 8); |
| |
| // Byte aligned (bit 48) |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, (1 << 7) | |
| // constrain_set0_flag = 1 for MP + BP constraints |
| (1 << 6) | // constrain_set1_flag = 1 for MP + BP constraints |
| (0 << 5) | // constrain_set2_flag = always 0 in BP/MP |
| (0 << 4), // constrain_set3_flag = 1 for level 1b, 0 for others |
| // reserved_zero_4bits = 0 |
| 8); |
| |
| // Byte aligned (bit 56) |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, (IMG_UINT8) pSHParams->ucLevel, 8); |
| // level_idc (8 bits) = 11 for 1b, 10xlevel for others |
| |
| pnw__generate_ue(pMTX_Header, aui32ElementPointers, 0); |
| // seq_parameter_Set_id = 0 |
| pnw__generate_ue(pMTX_Header, aui32ElementPointers, 1); |
| // chroma_format_idc = 1 |
| pnw__generate_ue(pMTX_Header, aui32ElementPointers, 0); |
| // bit_depth_luma_minus8 = 0 |
| pnw__generate_ue(pMTX_Header, aui32ElementPointers, 0); |
| // bit_depth_chroma_minus8 = 0 |
| pnw__write_upto8bits_elements(pMTX_Header, aui32ElementPointers, 0, 1); |
| // qpprime_y_zero_transform_bypass_flag = 0 |
| |
| //if (pSHParams->bUseDefaultScalingList) |
| //{ |
| pnw__write_upto8bits_elements(pMTX_Header, aui32ElementPointers, 1, 1); |
| // seq_scaling_matrix_present_flag |
| pnw__write_upto8bits_elements(pMTX_Header, aui32ElementPointers, 0, 8); |
| // seq_scaling_matrix_present_flag[i] = 0; 0 < i < 8 |
| //} |
| //else |
| //{ |
| // pnw__write_upto8bits_elements(pMTX_Header, aui32ElementPointers, 0, 1); // seq_scaling_matrix_present_flag |
| //} |
| |
| pnw__generate_ue(pMTX_Header, aui32ElementPointers, 1); |
| // log2_max_frame_num_minus4 = 1 |
| // Customer request POC type should be 2. |
| //pnw__generate_ue(pMTX_Header, aui32ElementPointers, 0); |
| // pic_order_cnt_type = 0 |
| pnw__generate_ue(pMTX_Header, aui32ElementPointers, 2); |
| // log2_max_pic_order_cnt_Isb_minus4 = 2 |
| |
| // Bytes aligned (bit 72) |
| #endif |
| } |
| // max_num_ref_frames. long term reference isn't used. |
| //pnw__generate_u(pMTX_Header, aui32ElementPointers, pSHParams->max_num_ref_frames); |
| pnw__generate_ue(pMTX_Header, aui32ElementPointers, 1); |
| // gaps_in_frame_num_value_allowed_Flag - (1 bit) |
| pnw__write_upto8bits_elements(pMTX_Header, aui32ElementPointers, pSHParams->gaps_in_frame_num_value, 1); |
| |
| |
| ///**** GENERATES THE SECOND, VARIABLE LENGTH, ELEMENT OF THE H264_SEQUENCE_HEADER() STRUCTURE ****/// |
| ///**** ELEMENT BITCOUNT: xx |
| pnw__generate_ue(pMTX_Header, aui32ElementPointers, pSHParams->ucWidth_in_mbs_minus1); |
| //pic_width_in_mbs_minus1: ue(v) from 10 to 44 (176 to 720 pixel per row) |
| pnw__generate_ue(pMTX_Header, aui32ElementPointers, pSHParams->ucHeight_in_maps_units_minus1); |
| //pic_height_in_maps_units_minus1: ue(v) Value from 8 to 35 (144 to 576 pixels per column) |
| |
| // We don't know the alignment at this point, so will have to use bit writing functions |
| pnw__write_upto8bits_elements(pMTX_Header, aui32ElementPointers, pSHParams->ucFrame_mbs_only_flag, 1); |
| // frame_mb_only_flag 1=frame encoding, 0=field encoding |
| |
| #if 0 |
| if (!pSHParams->ucFrame_mbs_only_flag) // in the case of interlaced encoding |
| pnw__write_upto8bits_elements(pMTX_Header, aui32ElementPointers, 0, 1); |
| // mb_adaptive_frame_field_flag = 0 in Topaz(field encoding at the sequence level) |
| #endif |
| |
| pnw__write_upto8bits_elements(pMTX_Header, aui32ElementPointers, 1, 1); |
| // direct_8x8_inference_flag=1 in Topaz |
| |
| if (psCrop->bClip) { |
| pnw__write_upto8bits_elements(pMTX_Header, aui32ElementPointers, 1, 1); |
| pnw__generate_ue(pMTX_Header, aui32ElementPointers, psCrop->LeftCropOffset); |
| pnw__generate_ue(pMTX_Header, aui32ElementPointers, psCrop->RightCropOffset); |
| pnw__generate_ue(pMTX_Header, aui32ElementPointers, psCrop->TopCropOffset); |
| pnw__generate_ue(pMTX_Header, aui32ElementPointers, psCrop->BottomCropOffset); |
| |
| } else { |
| pnw__write_upto8bits_elements(pMTX_Header, aui32ElementPointers, 0, 1); |
| } |
| |
| ///**** GENERATES THE THIRD ELEMENT OF THE H264_SEQUENCE_HEADER() STRUCTURE ****/// |
| ///**** ELEMENT BITCOUNT: xx |
| pnw__write_upto8bits_elements(pMTX_Header, aui32ElementPointers, |
| (pSHParams->VUI_Params_Present), |
| // vui_parameters_present_flag (VUI only in 1st sequence of stream) |
| 1); |
| if (pSHParams->VUI_Params_Present > 0) |
| pnw__H264_writebits_VUI_params(pMTX_Header, aui32ElementPointers, &(pSHParams->VUI_Params)); |
| |
| // Finally we need to align to the next byte |
| // We know the size of the data in the sequence header (no MTX variables) and start is byte aligned, so it's possible to add this field here rather than MTX ELEMENT_INSERTBYTEALIGN_H264 command. |
| pnw__write_upto8bits_elements(pMTX_Header, aui32ElementPointers, 1, 1); |
| ui8SBP = (aui32ElementPointers[pMTX_Header->Elements]->Size) & 7; |
| if (ui8SBP > 0) |
| pnw__write_upto8bits_elements(pMTX_Header, aui32ElementPointers, 0, 8 - (ui8SBP)); |
| return; |
| } |
| |
| |
| static void pnw__H264_writebits_slice_header( |
| MTX_HEADER_PARAMS *mtx_hdr, |
| MTX_HEADER_ELEMENT **elt_p, |
| H264_SLICE_HEADER_PARAMS *pSlHParams, |
| IMG_BOOL __maybe_unused bCabacEnabled, |
| IMG_UINT16 uiIdrPicId) |
| { |
| #ifdef USESTATICWHEREPOSSIBLE |
| IMG_UINT32 *p; |
| p = (IMG_UINT32 *) mtx_hdr; |
| |
| p[0] = p[1] = 0; |
| p[2] = 40; |
| if (pSlHParams->SliceFrame_Type == SLHP_B_SLICEFRAME_TYPE) p[3] = 257; |
| else if (pSlHParams->SliceFrame_Type == SLHP_IDR_SLICEFRAME_TYPE) p[3] = 9473; |
| else p[3] = 8449; |
| #else |
| /* -- Begin building the picture header element */ |
| pnw__insert_element_token(mtx_hdr, elt_p, ELEMENT_STARTCODE_RAWDATA); |
| |
| pnw__H264_writebits_startcode_prefix_element( |
| mtx_hdr, |
| elt_p, |
| pSlHParams->Start_Code_Prefix_Size_Bytes); /* Can be 3 or 4 bytes - always 4 bytes in our implementations */ |
| pnw__H264_writebits_slice_header0(mtx_hdr, elt_p, pSlHParams); |
| #endif |
| |
| pnw__H264_writebits_slice_header1(mtx_hdr, elt_p, pSlHParams, uiIdrPicId); |
| |
| #if 0 |
| if (bCabacEnabled && ((SLHP_P_SLICEFRAME_TYPE == pSlHParams->SliceFrame_Type) || |
| (SLHP_B_SLICEFRAME_TYPE == pSlHParams->SliceFrame_Type))) { |
| pnw__generate_ue(mtx_hdr, elt_p, 0); /* hard code cabac_init_idc value of 0 */ |
| } |
| #endif |
| |
| pnw__insert_element_token(mtx_hdr, elt_p, ELEMENT_SQP); /* MTX fills this value in */ |
| |
| pnw__insert_element_token(mtx_hdr, elt_p, ELEMENT_RAWDATA); |
| pnw__H264_writebits_slice_header2(mtx_hdr, elt_p, pSlHParams); |
| |
| /* no byte alignment at end of slice headers */ |
| } |
| |
| |
| static void pnw__H264_getelements_skip_P_slice( |
| MTX_HEADER_PARAMS *mtx_hdr, |
| H264_SLICE_HEADER_PARAMS *pSlHParams, |
| IMG_UINT32 MB_No_In_Slice, |
| IMG_BOOL bCabacEnabled) |
| { |
| /* Skipped P-Slice |
| * Ensure pSlHParams is filled with appropriate parameters for a B-slice |
| * Essential we initialise our header structures before building |
| */ |
| MTX_HEADER_ELEMENT *This_Element; |
| MTX_HEADER_ELEMENT *elt_p[MAXNUMBERELEMENTS]; |
| mtx_hdr->Elements = ELEMENTS_EMPTY; |
| This_Element = (MTX_HEADER_ELEMENT *) mtx_hdr->asElementStream; |
| elt_p[0] = This_Element; |
| |
| /* pnw__insert_element_token(mtx_hdr, ELEMENT_STARTCOUNTER); */ |
| /* Not sure if this will be required in the final spec */ |
| pnw__H264_writebits_slice_header(mtx_hdr, elt_p, pSlHParams, bCabacEnabled, 0); |
| pnw__generate_ue(mtx_hdr, elt_p, MB_No_In_Slice); /* mb_skip_run = mb_no_in_slice */ |
| |
| /* Tell MTX to insert the byte align field (we don't know final stream size for alignment at this point) */ |
| pnw__insert_element_token(mtx_hdr, elt_p, ELEMENT_INSERTBYTEALIGN_H264); |
| mtx_hdr->Elements++; /* Has been used as an index, so need to add 1 for a valid element count */ |
| } |
| |
| |
| |
| static void pnw__H264_getelements_sequence_header( |
| MTX_HEADER_PARAMS *mtx_hdr, |
| H264_SEQUENCE_HEADER_PARAMS *pSHParams, |
| H264_CROP_PARAMS *psCropParams) |
| { |
| /* Builds a sequence, picture and slice header with from the given inputs parameters (start of new frame) |
| * Essential we initialise our header structures before building |
| */ |
| MTX_HEADER_ELEMENT *This_Element; |
| MTX_HEADER_ELEMENT *elt_p[MAXNUMBERELEMENTS]; |
| mtx_hdr->Elements = ELEMENTS_EMPTY; |
| This_Element = (MTX_HEADER_ELEMENT *) mtx_hdr->asElementStream; |
| elt_p[0] = This_Element; |
| |
| pnw__H264_writebits_sequence_header(mtx_hdr, elt_p, pSHParams, psCropParams); |
| mtx_hdr->Elements++; /* Has been used as an index, so need to add 1 for a valid element count */ |
| } |
| |
| |
| |
| static void pnw__H264_getelements_slice_header( |
| MTX_HEADER_PARAMS *mtx_hdr, |
| H264_SLICE_HEADER_PARAMS *pSlHParams, |
| IMG_BOOL bCabacEnabled, |
| IMG_UINT16 uiIdrPicId) |
| { |
| /* Builds a single slice header from the given parameters (mid frame) |
| * Essential we initialise our header structures before building |
| */ |
| MTX_HEADER_ELEMENT *This_Element; |
| MTX_HEADER_ELEMENT *elt_p[MAXNUMBERELEMENTS]; |
| mtx_hdr->Elements = ELEMENTS_EMPTY; |
| This_Element = (MTX_HEADER_ELEMENT *) mtx_hdr->asElementStream; |
| elt_p[0] = This_Element; |
| |
| /* Not sure if this will be required in the final spec */ |
| /* pnw__insert_element_token(mtx_hdr, ELEMENT_STARTCOUNTER);*/ |
| pnw__H264_writebits_slice_header(mtx_hdr, elt_p, pSlHParams, bCabacEnabled, uiIdrPicId); |
| |
| mtx_hdr->Elements++; /* Has been used as an index, so need to add 1 for a valid element count */ |
| } |
| |
| |
| static IMG_UINT8 Bits2Code(IMG_UINT32 CodeVal) |
| { |
| IMG_UINT8 Bits = 32; |
| if (CodeVal == 0) |
| return 1; |
| while (!(CodeVal & 0x80000000)) { |
| CodeVal <<= 1; |
| Bits--; |
| } |
| return Bits; |
| } |
| |
| /* |
| * Intermediary functions to build MPEG4 headers |
| */ |
| #define MATCH_TO_ENC |
| |
| |
| static void pnw__MPEG4_writebits_sequence_header( |
| MTX_HEADER_PARAMS *mtx_hdr, |
| MTX_HEADER_ELEMENT **elt_p, |
| IMG_BOOL __maybe_unused bBFrame, |
| MPEG4_PROFILE_TYPE bProfile, |
| IMG_UINT8 Profile_and_level_indication, |
| FIXED_VOP_TIME_TYPE __maybe_unused sFixed_vop_time_increment, |
| IMG_UINT32 Picture_Width_Pixels, |
| IMG_UINT32 Picture_Height_Pixels, |
| VBVPARAMS __maybe_unused * sVBVParams, |
| IMG_UINT32 VopTimeResolution) /* Send NULL pointer if there are no VBVParams */ |
| { |
| /* Essential we insert the element before we try to fill it! */ |
| pnw__insert_element_token(mtx_hdr, elt_p, ELEMENT_STARTCODE_RAWDATA); |
| |
| /* visual_object_sequence_start_code = 32 Bits = 0x1B0 */ |
| pnw__write_upto32bits_elements(mtx_hdr, elt_p, 432, 32); |
| |
| /* profile_and_level_indication = 8 Bits = SP L0-L3 and SP L4-L5 are supported */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, Profile_and_level_indication, 8); |
| |
| /* visual_object_start_code = 32 Bits = 0x1B5 */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 8); |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 8); |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 8); |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 181, 8); |
| |
| /* is_visual_object_identifier = 1 Bit = 0 */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| |
| /* visual_object_type = 4 Bits = Video ID = 1 */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 4); |
| |
| /* video_signal_type = 1 Bit = 1 */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| |
| /* byte_aligned_bits = 2 Bits = 01b (byte_aligned_bits is 2-bit stuffing bit field 01) */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 2); |
| |
| /* video_object_start_code = 32 Bits = 0x100 One VO only in a Topaz video stream */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 8); |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 8); |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 8); |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 8); |
| |
| /* video_object_layer_start_code = 32 Bits = 0x120 One VOL only in a Topaz stream */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 8); |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 8); |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 8); |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 32, 8); |
| |
| /* random_accessible_vol = 1 Bit = 0 (P-Frame in GOP) */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| |
| if (bProfile == SP) { |
| /* video_object_type_indication = 8 Bits = 0x01 for SP */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 8); |
| #ifndef MATCH_TO_ENC |
| /* is_object_layer_identifier = 1 Bit = 0 for SP */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| #else |
| /* to match the encoder */ |
| |
| /* is_object_layer_identifier = 1 Bit */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); |
| |
| /* video_object_layer_verid = 4 Bits */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 4); |
| |
| /* video_object_layer_priority = 3 Bits */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 3); // 0 is reserved... |
| #endif |
| } else { |
| /* video_object_type_indication = 8 Bits = 0x11 for ASP */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 3, 8); |
| |
| /* is_object_layer_identifier = 1 Bit = 1 for ASP */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); |
| |
| /* video_object_layer_verid = 4 Bits = 5 is for ASP */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 5, 4); |
| |
| /* video_object_layer_priority = 3 Bits = 1 (Highest priority) */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 3); |
| } |
| |
| /* aspect_ratio_info = 4 Bits =0x1 (Square pixel) */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 4); |
| #ifndef MATCH_TO_ENC |
| /* vol_control_parameters = 1 Bit = 1 (Always send VOL control parameters) */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); |
| #else |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| |
| #endif |
| |
| #ifndef MATCH_TO_ENC |
| /* chroma_format = 2 Bits = 01b (4:2:0) */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 2); |
| |
| /* low_delay = 1 Bit = 0 with B-frame and 1 without B-frame */ |
| if (bBFrame) |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| else |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); |
| |
| /* vbv_parameters = 1 Bit =0/1 */ |
| if (sVBVParams) { |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); |
| |
| /* For recording, only send vbv parameters in 1st sequence header. |
| * For video phone, it should be sent more often, such as once per sequence |
| */ |
| pnw__write_upto32bits_elements( |
| mtx_hdr, |
| elt_p, |
| sVBVParams->First_half_bit_rate, |
| 15); /* first_half_bit_rate */ |
| |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1);/* Marker Bit = 1 */ |
| pnw__write_upto32bits_elements( |
| mtx_hdr, |
| elt_p, |
| sVBVParams->Latter_half_bit_rate, |
| 15); /* latter_half_bit_rate */ |
| |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1);/* Marker Bit = 1 */ |
| pnw__write_upto32bits_elements( |
| mtx_hdr, |
| elt_p, |
| sVBVParams->First_half_vbv_buffer_size, |
| 15);/* first_half_vbv_buffer_size */ |
| |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); /* Marker Bit = 1 */ |
| pnw__write_upto32bits_elements( |
| mtx_hdr, elt_p, |
| sVBVParams->Latter_half_vbv_buffer_size, |
| 15); /* latter_half_vbv_buffer_size */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1);/* Marker Bit = 1 */ |
| pnw__write_upto32bits_elements( |
| mtx_hdr, |
| elt_p, |
| sVBVParams->First_half_vbv_occupancy, |
| 15); /* first_half_vbv_occupancy */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1);/* Marker Bit = 1 */ |
| pnw__write_upto32bits_elements( |
| mtx_hdr, |
| elt_p, |
| sVBVParams->Latter_half_vbv_occupancy, |
| 15); /* latter_half_vbv_occupancy */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1);/* Marker Bit = 1 */ |
| } else |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); /* No vbv parameters present */ |
| #endif |
| /* video_object_layer_shape = 2 Bits = 00b Rectangular shape */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 2); |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); /* Marker Bit = 1 */ |
| |
| /* vop_time_increment_solution = 16 Bits */ |
| pnw__write_upto32bits_elements(mtx_hdr, elt_p, VopTimeResolution, 16); |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); /* Marker Bit = 1 */ |
| |
| #ifndef MATCH_TO_ENC |
| /* fixed_vop_rate = 1 Bits = 1 Always fixed frame rate */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); |
| |
| /* fixed_vop_time_increment = Variable number of bits based on the time increment resolution. */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, Bits2Code(VopTimeResolution - 1)); |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); /* Marker Bit = 1 */ |
| #else |
| /* fixed_vop_rate = 1 Bits = 0 */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); /* Marker Bit = 1 */ |
| |
| #endif |
| /* video_object_layer_width = 13 Bits Picture width in pixel units */ |
| pnw__write_upto32bits_elements(mtx_hdr, elt_p, Picture_Width_Pixels, 13); |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); /* Marker Bit = 1 */ |
| |
| /* video_object_layer_height = 13 Bits Picture height in pixel units */ |
| pnw__write_upto32bits_elements(mtx_hdr, elt_p, Picture_Height_Pixels, 13); |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); /* Marker Bit = 1 */ |
| |
| /* interlaced = 1 Bit = 0 Topaz only encodes progressive frames */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| |
| /* obmc_disable = 1 Bit = 1 No overlapped MC in Topaz */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); |
| |
| /* sprite_enable = 1 Bit = 0 Not use sprite in Topaz */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| |
| /* not_8_bit = 1 Bit = 0 8-bit video in Topaz */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| |
| /* quant_type = 1 Bit = 0 2nd quantization method in Topaz */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| |
| if (bProfile == ASP) { |
| /* quarter_sample = 1 Bit = 0 No ¼-pel MC in Topaz */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| } |
| |
| /* complexity_estimation_disable = 1 Bit = 1 No complexity estimation in Topaz */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); |
| #ifndef MATCH_TO_ENC |
| |
| /* resync_marker_disable = 1 Bit = 0 Always enable resync marker in Topaz */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| #else |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); |
| #endif |
| /* data_partitioned = 1 Bit = 0 No data partitioning in Topaz */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| |
| if (bProfile == ASP) { |
| /* newpred_enable = 1 Bit = 0 No newpred mode in SP/ASP */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| /* reduced_vop_resolution_enable=1 Bit = 0 No reduced resolution frame in SP/ASP */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| } |
| |
| /* scalability = 1 Bit = 0 No scalability in SP/ASP */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| |
| /* byte_aligned_bits */ |
| |
| /* Tell MTX to insert the byte align field |
| * (we don't know final stream size for alignment at this point) |
| */ |
| pnw__insert_element_token( |
| mtx_hdr, |
| elt_p, |
| ELEMENT_INSERTBYTEALIGN_MPG4); |
| |
| return; |
| } |
| |
| |
| /* Utility function */ |
| /* |
| IMG_UINT8 Bits2Code(IMG_UINT32 CodeVal) |
| { |
| IMG_UINT8 Bits=32; |
| if(CodeVal==0) |
| return 1; |
| while(!(CodeVal & 0x80000000)) |
| { |
| CodeVal<<=1; |
| Bits--; |
| } |
| return Bits; |
| } |
| */ |
| |
| /* MPEG 4 VOP (Picture) Header */ |
| static void pnw__MPEG4_writebits_VOP_header( |
| MTX_HEADER_PARAMS *mtx_hdr, |
| MTX_HEADER_ELEMENT **elt_p, |
| IMG_BOOL bIsVOP_coded, |
| IMG_UINT8 VOP_time_increment, |
| SEARCH_RANGE_TYPE sSearch_range, |
| VOP_CODING_TYPE sVopCodingType, |
| IMG_UINT32 VopTimeResolution) |
| { |
| IMG_BOOL bIsSyncPoint; |
| /* Essential we insert the element before we try to fill it! */ |
| pnw__insert_element_token(mtx_hdr, elt_p, ELEMENT_STARTCODE_RAWDATA); |
| |
| /* visual_object_sequence_start_code = 32 Bits = 0x1B6 */ |
| pnw__write_upto32bits_elements(mtx_hdr, elt_p, 438, 32); |
| |
| /* vop_coding_type = 2 Bits = 0 for I-frame and 1 for P-frame */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, sVopCodingType, 2); |
| bIsSyncPoint = (VOP_time_increment > 1) && ((VOP_time_increment) % VopTimeResolution == 0); |
| |
| #ifndef MATCH_TO_ENC |
| /* modulo_time_base = 1 Bit = 0 As at least 1 synchronization point (I-frame) per second in Topaz */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| #else |
| |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, bIsSyncPoint ? 2 : 0 , bIsSyncPoint ? 2 : 1); |
| |
| #endif |
| |
| /* marker_bit = 1 Bits = 1 */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); |
| |
| #ifndef MATCH_TO_ENC |
| /* vop_time_increment = Variable bits based on resolution |
| * = x Reset to 0 at I-frame and plus fixed_vop_time_increment each frame |
| */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, VOP_time_increment, 5); |
| #else |
| /* will chrash here... */ |
| pnw__write_upto8bits_elements( |
| mtx_hdr, elt_p, |
| (VOP_time_increment) % VopTimeResolution, |
| Bits2Code(VopTimeResolution - 1)); |
| |
| #endif |
| /* marker_bit = 1 Bit = 1 */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); |
| |
| if (!bIsVOP_coded) { |
| /* vop_coded = 1 Bit = 0 for skipped frame */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| |
| /* byte_aligned_bits (skipped pictures are byte aligned) */ |
| /* Tell MTX to insert the byte align field (we don't know final stream size for alignment at this point) |
| * End of VOP - skipped picture |
| */ |
| pnw__insert_element_token(mtx_hdr, elt_p, ELEMENT_INSERTBYTEALIGN_MPG4); |
| } else { |
| /* vop_coded = 1 Bit = 1 for normal coded frame */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); |
| |
| if (sVopCodingType == P_FRAME) { |
| /* vop_rounding_type = 1 Bit = 0 vop_rounding_type is 0 in Topaz */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| } |
| |
| /* intra_dc_vlc_thr = 3 Bits = 0 Use intra DC VLC in Topaz */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 3); |
| |
| /* vop_quant = 5 Bits = x 5-bit frame Q_scale from rate control - GENERATED BY MTX */ |
| /* pnw__write_upto8bits_elements(mtx_hdr, elt_p, Frame_Q_scale, 5); */ |
| pnw__insert_element_token(mtx_hdr, elt_p, ELEMENT_FRAMEQSCALE); |
| |
| if (sVopCodingType == P_FRAME) { |
| /* vop_fcode_forward = 3 bits = 2 for +/-32 and 3 for +/-64 search range */ |
| pnw__insert_element_token(mtx_hdr, elt_p, ELEMENT_RAWDATA); |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, sSearch_range, 3); |
| } |
| |
| /* |
| **** THE FINAL PART OF VOP STRUCTURE CAN'T BE GENERATED HERE |
| pnw__insert_element_token(mtx_hdr, elt_p, ELEMENT_RAWDATA); |
| video_packet_data ( ) = 1st VP that doesnÂ’t have the VP header |
| |
| while (nextbits_bytealigned ( ) == resync_marker) |
| { |
| video_packet _header( ) |
| video_packet _data( ) All MB in the slice |
| } |
| */ |
| } |
| } |
| |
| #if PSB_MFLD_DUMMY_CODE |
| /* |
| * Intermediary functions to build H263 headers |
| */ |
| static void H263_writebits_VideoSequenceHeader( |
| MTX_HEADER_PARAMS *mtx_hdr, |
| MTX_HEADER_ELEMENT **elt_p, |
| IMG_UINT8 Profile_and_level_indication) |
| { |
| /* Essential we insert the element before we try to fill it! */ |
| pnw__insert_element_token(mtx_hdr, elt_p, ELEMENT_STARTCODE_RAWDATA); |
| |
| /* visual_object_sequence_start_code = 32 Bits = 0x1B0 */ |
| pnw__write_upto32bits_elements(mtx_hdr, elt_p, 432, 32); |
| |
| /* profile_and_level_indication = 8 Bits = x SP L0-L3 and SP L4-L5 are supported */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, Profile_and_level_indication, 8); |
| |
| /* visual_object_start_code = 32 Bits = 0x1B5 */ |
| |
| /* 437 too large for the pnw__write_upto32bits_elements function */ |
| pnw__write_upto32bits_elements(mtx_hdr, elt_p, 437, 32); |
| |
| /* is_visual_object_identifier = 1 Bit = 0 */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| |
| /* is_visual_object_type = 4 Bits = 1 Video ID */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 4); |
| |
| /* video_signal_type = 1 Bit = 0 */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| |
| /* byte_aligned_bits = 2 Bits = 01b byte_aligned_bits is 2-bit stuffing bit field 01 */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 2); |
| |
| /* video_object_start_code =32 Bits = 0x100 One VO only in a Topaz video stream */ |
| pnw__write_upto32bits_elements(mtx_hdr, elt_p, 256, 32); |
| |
| return; |
| } |
| #endif |
| |
| |
| static void H263_writebits_VideoPictureHeader( |
| MTX_HEADER_PARAMS *mtx_hdr, |
| MTX_HEADER_ELEMENT **elt_p, |
| IMG_UINT8 Temporal_Ref, |
| H263_PICTURE_CODING_TYPE PictureCodingType, |
| //IMG_UINT8 Q_Scale, |
| H263_SOURCE_FORMAT_TYPE SourceFormatType, |
| IMG_UINT8 FrameRate, |
| IMG_UINT32 PictureWidth, |
| IMG_UINT32 PictureHeight) |
| { |
| IMG_UINT8 UFEP; |
| IMG_UINT8 OCPCF = 0; |
| |
| /* Essential we insert the element before we try to fill it! */ |
| pnw__insert_element_token(mtx_hdr, elt_p, ELEMENT_STARTCODE_RAWDATA); |
| |
| /* short_video_start_marker = 22 Bits = 0x20 Picture start code */ |
| pnw__write_upto32bits_elements(mtx_hdr, elt_p, 32, 22); |
| |
| /* temporal_reference = 8 Bits = 0-255 Each picture increased by 1 */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, Temporal_Ref, 8); |
| |
| /* marker_bit = 1 Bit = 1 */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); |
| |
| /* zero_bit = 1 Bits = 0 */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| |
| /* split_screen_indicator = 1 Bits = 0 No direct effect on encoding of picture */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| |
| /* document_camera_indicator= 1 Bits = 0 No direct effect on encoding of picture */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| |
| /* full_picture_freeze_release=1 Bits = 0 No direct effect on encoding of picture */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| |
| /* source_format = 3 Bits = 1-4 See note */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, SourceFormatType, 3); |
| |
| /*Write optional Custom Picture Clock Frequency(OCPCF)*/ |
| if (FrameRate == 30 || FrameRate == 0/* unspecified */) { |
| OCPCF = 0; // 0 for CIF PCF |
| } else { |
| OCPCF = 1; //1 for Custom PCF |
| } |
| |
| if (SourceFormatType != 7) { |
| // picture_coding_type = 1 Bit = 0/1 0 for I-frame and 1 for P-frame |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, PictureCodingType, 1); |
| // four_reserved_zero_bits = 4 Bits = 0 |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 4); |
| } else { |
| static unsigned char RTYPE = 0; |
| |
| // if I- Frame set Update Full Extended PTYPE to true |
| if ((PictureCodingType == I_FRAME) || (SourceFormatType == 7) || OCPCF) { |
| UFEP = 1; |
| } else { |
| UFEP = 0; |
| } |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, UFEP, 3); |
| if (UFEP == 1) { |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 6, 3); |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, OCPCF , 1); |
| |
| /* 10 reserve bits ( Optional support for the encoding). All are OFF(0). |
| * - Optional Unrestricted Motion Vector (UMV) |
| * - Optional Syntax-based Arithmetic Coding (SAC) |
| * - Optional Advanced Prediction (AP) mode |
| * - Optional Advanced INTRA Coding (AIC) mode |
| * - Optional Deblocking Filter (DF) mode |
| * - Optional Slice Structured (SS) mode |
| * - Optional Reference Picture Selection(RPS) mode. |
| * - Optional Independent Segment Decoding (ISD) mode |
| * - Optional Alternative INTER VLC (AIV) mode |
| * - Optional Modified Quantization (MQ) mode */ |
| |
| pnw__write_upto32bits_elements(mtx_hdr, elt_p, 0, 10); |
| // 10 reserve bits |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 8, 4); |
| // 4 reserve bits |
| } |
| // picture_coding_type = 1 Bit = 0/1 0 for I-frame and 1 for P-frame |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, PictureCodingType, 3); |
| |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 2); |
| // two_reserve_bits, rounding_type, two_reserve_bits marker_bit CPM |
| // Rounding Type (RTYPE) (1 for P Picture, 0 for all other Picture frames. |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, RTYPE, 1); |
| //2 reserve bits |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 2); |
| // - 1 (ON) to prevent start code emulation. |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1 , 1); |
| // CPM immediately follows the PPTYPE part of the header. |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0 , 1); |
| |
| |
| if (UFEP == 1) { |
| IMG_UINT16 ui16PWI, ui16PHI; |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 4); |
| // aspect ratio |
| //PictureWidth--; |
| //pnw__write_upto8bits_elements(mtx_hdr, elt_p, (IMG_UINT8)(PictureWidth >> 8), 1); |
| //pnw__write_upto8bits_elements(mtx_hdr, elt_p, (IMG_UINT8)(PictureWidth & 0xFF), 8); |
| //Width = (PWI-1)*4, Height = PHI*4, see H263 spec 5.1.5 |
| ui16PWI = (PictureWidth >> 2) - 1; |
| pnw__write_upto32bits_elements(mtx_hdr, elt_p, (IMG_UINT8)ui16PWI, 9); |
| |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); |
| // marker_bit = 1 Bit = 1 |
| //pnw__write_upto8bits_elements(mtx_hdr, elt_p, (IMG_UINT8)(PictureHeight >> 8), 1); |
| //pnw__write_upto8bits_elements(mtx_hdr, elt_p, (IMG_UINT8)(PictureHeight & 0xFF), 8); |
| |
| ui16PHI = PictureHeight >> 2; |
| pnw__write_upto32bits_elements(mtx_hdr, elt_p, (IMG_UINT8)ui16PHI, 9); |
| // good up to that point |
| // pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); |
| // marker_bit = 1 Bit = 1 |
| // just checking |
| if (OCPCF == 1) { |
| //IMG_UINT8 CPCFC; |
| //CPCFC = (IMG_UINT8)(1800/(IMG_UINT16)FrameRate); |
| /* you can use the table for division */ |
| //CPCFC <<= 1; /* for Clock Conversion Code */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1, 1); |
| // Clock Divisor : 7 bits The natural binary representation of the value of the clock divisor. |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 1800000 / (FrameRate * 1000), 7); |
| } |
| } |
| if (OCPCF == 1) { |
| IMG_UINT8 ui8ETR; // extended Temporal reference |
| // Two MSBs of 10 bit temporal_reference : value 0 |
| ui8ETR = Temporal_Ref >> 8; |
| |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, ui8ETR, 2); |
| /* Two MSBs of temporal_reference */ |
| } |
| } |
| // vop_quant = 5 Bits = x 5-bit frame Q_scale from rate control - GENERATED BY MTX |
| //pnw__write_upto8bits_elements(mtx_hdr, elt_p, ui8Q_Scale, 5); |
| pnw__insert_element_token(mtx_hdr, elt_p, ELEMENT_FRAMEQSCALE); // Insert token to tell MTX to insert rate-control value (QScale is sent as an argument in MTX_Send_Elements_To_VLC(&MTX_Header, FrameQScale)) |
| pnw__insert_element_token(mtx_hdr, elt_p, ELEMENT_RAWDATA); |
| // zero_bit = 1 Bit = 0 |
| // pei = 1 Bit = 0 No direct effect on encoding of picture |
| if (SourceFormatType != 7) { |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| } |
| |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, 0, 1); |
| // FOLLOWING SECTION CAN'T BE GENERATED HERE |
| //gob_data( ) |
| //for(i=1; i<num_gob_in_picture; i++) { |
| // gob_header( ) |
| // gob_data( ) |
| // } |
| return; |
| } |
| |
| static void H263_writebits_GOBSliceHeader( |
| MTX_HEADER_PARAMS *mtx_hdr, |
| MTX_HEADER_ELEMENT **elt_p, |
| IMG_UINT8 GOBNumber, |
| IMG_UINT8 GOBFrameId) |
| { |
| /* Essential we insert the element before we try to fill it! */ |
| pnw__insert_element_token(mtx_hdr, elt_p, ELEMENT_STARTCODE_RAWDATA); |
| |
| /* gob_resync_marker = 17 = 0x1 */ |
| pnw__write_upto32bits_elements(mtx_hdr, elt_p, 1, 17); |
| |
| /* gob_number = 5 = 0-17 It is gob number in a picture */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, GOBNumber, 5); |
| |
| /* gob_frame_id = 2 = 0-3 See note */ |
| pnw__write_upto8bits_elements(mtx_hdr, elt_p, GOBFrameId, 2); |
| |
| /* quant_scale = 5 = 1-32 gob (Slice) Q_scale */ |
| /* pnw__write_upto8bits_elements(mtx_hdr, elt_p, GOB_Q_Scale, 5); */ |
| |
| /* Insert token to tell MTX to insert rate-control value |
| * (QScale is sent as an argument in MTX_Send_Elements_To_VLC(&MTX_Header, SliceQScale)) |
| */ |
| pnw__insert_element_token(mtx_hdr, elt_p, ELEMENT_SLICEQSCALE); |
| return; |
| } |
| |
| /* |
| * High level functions to call when a H263 header is required - HOST ROUTINES |
| */ |
| |
| // SEI_INSERTION |
| #if PSB_MFLD_DUMMY_CODE |
| static void pnw__H264_writebits_AUD_header( |
| MTX_HEADER_PARAMS *pMTX_Header, |
| MTX_HEADER_ELEMENT **aui32ElementPointers) |
| { |
| // Essential we insert the element before we try to fill it! |
| pnw__insert_element_token(pMTX_Header, |
| aui32ElementPointers, |
| ELEMENT_STARTCODE_RAWDATA); |
| |
| pnw__H264_writebits_startcode_prefix_element(pMTX_Header, |
| aui32ElementPointers, 4); // 00 00 00 01 start code prefix |
| |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| 9, |
| 8); // AUD nal_unit_type = 09 |
| |
| // primary_pic_type u(3) 0=I slice, 1=P or I slice, 2=P,B or I slice |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| 2, |
| 3); |
| |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| 1 << 4, 5); // rbsp_trailing_bits |
| |
| // Write terminator |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, 0x80, 8); |
| return; |
| } |
| #endif |
| #define SEI_NOT_USE_TOKEN_ALIGN |
| |
| static void pnw__H264_writebits_SEI_buffering_period_header( |
| MTX_HEADER_PARAMS *pMTX_Header, |
| MTX_HEADER_ELEMENT **aui32ElementPointers, |
| IMG_UINT8 ui8NalHrdBpPresentFlag, |
| IMG_UINT8 ui8nal_cpb_cnt_minus1, |
| IMG_UINT8 ui8nal_initial_cpb_removal_delay_length, |
| IMG_UINT32 ui32nal_initial_cpb_removal_delay, |
| IMG_UINT32 ui32nal_initial_cpb_removal_delay_offset, |
| IMG_UINT8 ui8VclHrdBpPresentFlag, |
| IMG_UINT8 ui8vcl_cpb_cnt_minus1, |
| IMG_UINT32 ui32vcl_initial_cpb_removal_delay, |
| IMG_UINT32 ui32vcl_initial_cpb_removal_delay_offset) |
| { |
| IMG_UINT8 ui8SchedSelIdx; |
| IMG_UINT8 ui8PayloadSizeBits; |
| #ifdef SEI_NOT_USE_TOKEN_ALIGN |
| IMG_UINT8 ui8Pad; |
| #endif |
| // Essential we insert the element before we try to fill it! |
| pnw__insert_element_token(pMTX_Header, |
| aui32ElementPointers, |
| ELEMENT_STARTCODE_RAWDATA); |
| |
| pnw__H264_writebits_startcode_prefix_element(pMTX_Header, |
| aui32ElementPointers, |
| 4); // 00 00 01 start code prefix |
| |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| 6, 8); // nal_unit_type = 06 (SEI Message) |
| |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| 0, 8); // SEI payload type (buffering period) |
| |
| ui8PayloadSizeBits = 1; // seq_parameter_set_id bitsize = 1 |
| if (ui8NalHrdBpPresentFlag) |
| ui8PayloadSizeBits += ((ui8nal_cpb_cnt_minus1 + 1) |
| * ui8nal_initial_cpb_removal_delay_length * 2); |
| if (ui8VclHrdBpPresentFlag) |
| ui8PayloadSizeBits += ((ui8vcl_cpb_cnt_minus1 + 1) |
| * ui8nal_initial_cpb_removal_delay_length * 2); |
| |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| ((ui8PayloadSizeBits + 7) / 8), |
| 8); |
| // SEI payload size = No of bytes required for SEI payload |
| // (including seq_parameter_set_id) |
| |
| //seq_parameter_set_id ue(v) = 0 default? = 1 (binary) |
| //= sequence parameter set containing HRD attributes |
| pnw__generate_ue(pMTX_Header, aui32ElementPointers, 0); |
| |
| if (ui8NalHrdBpPresentFlag) { |
| for (ui8SchedSelIdx = 0; ui8SchedSelIdx <= ui8nal_cpb_cnt_minus1; ui8SchedSelIdx++) { |
| // ui32nal_initial_cpb_removal_delay = delay between time of arrival in CODED PICTURE BUFFER of coded data of this access |
| // unit and time of removal from CODED PICTURE BUFFER of the coded data of the same access unit. |
| // Delay is based on the time taken for a 90 kHz clock. |
| // Range >0 and < 90000 * (CPBsize / BitRate) |
| // For the 1st buffering period after HARDWARE REFERENCE DECODER initialisation. |
| // pnw__insert_element_token(pMTX_Header, aui32ElementPointers, ELEMENT_NAL_INIT_CPB_REMOVAL_DELAY); // Eventually use this if firmware value required |
| |
| pnw__write_upto32bits_elements(pMTX_Header, aui32ElementPointers, |
| ui32nal_initial_cpb_removal_delay, |
| ui8nal_initial_cpb_removal_delay_length); |
| |
| /* |
| pnw__insert_element_token(pMTX_Header, |
| aui32ElementPointers, |
| BPH_SEI_NAL_INITIAL_CPB_REMOVAL_DELAY);*/ |
| |
| // ui32nal_initial_cpb_removal_delay_offset = used for the SchedSelIdx-th CPB in combination with the cpb_removal_delay to |
| // specify the initial delivery time of coded access units to the CODED PICTURE BUFFER initial_cpb_removal_delay_offset |
| // Delay is based on the time taken for a 90 kHz clock. |
| // NOT USED BY DECODERS and is needed only for the delivery scheduler (HSS) specified in Annex C |
| |
| pnw__write_upto32bits_elements(pMTX_Header, aui32ElementPointers, |
| ui32nal_initial_cpb_removal_delay_offset, |
| ui8nal_initial_cpb_removal_delay_length); |
| |
| /*pnw__insert_element_token(pMTX_Header, |
| aui32ElementPointers, |
| BPH_SEI_NAL_INITIAL_CPB_REMOVAL_DELAY_OFFSET);*/ |
| |
| } |
| } |
| if (ui8VclHrdBpPresentFlag) { |
| for (ui8SchedSelIdx = 0; ui8SchedSelIdx <= ui8vcl_cpb_cnt_minus1; ui8SchedSelIdx++) { |
| pnw__insert_element_token(pMTX_Header, |
| aui32ElementPointers, |
| ELEMENT_STARTCODE_RAWDATA); |
| // pnw__insert_element_token(pMTX_Header, aui32ElementPointers, ELEMENT_VCL_INIT_CPB_REMOVAL_DELAY); // Eventually use this if firmware value required |
| pnw__write_upto32bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| ui32vcl_initial_cpb_removal_delay, |
| ui8nal_initial_cpb_removal_delay_length); |
| // pnw__insert_element_token(pMTX_Header, aui32ElementPointers, ELEMENT_VCL_INIT_CPB_REMOVAL_DELAY_CPB); // Eventually use this if firmware value required |
| pnw__write_upto32bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| ui32vcl_initial_cpb_removal_delay_offset, |
| ui8nal_initial_cpb_removal_delay_length); |
| } |
| } |
| |
| // Pad to end of byte |
| #ifdef SEI_NOT_USE_TOKEN_ALIGN |
| if (!ui8VclHrdBpPresentFlag) |
| pnw__insert_element_token(pMTX_Header, |
| aui32ElementPointers, |
| ELEMENT_STARTCODE_RAWDATA); |
| ui8Pad = (ui8PayloadSizeBits + 7) / 8; |
| ui8Pad = (ui8Pad * 8) - ui8PayloadSizeBits; |
| if (ui8Pad > 0) |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| 1 << (ui8Pad - 1), |
| ui8Pad); // SEI payload type (buffering period) |
| #else |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| 1, 1); // rbsp_trailing_bits |
| |
| pnw__insert_element_token(pMTX_Header, |
| aui32ElementPointers, |
| ELEMENT_INSERTBYTEALIGN_H264); |
| // Tell MTX to insert the byte align field |
| pnw__insert_element_token(pMTX_Header, |
| aui32ElementPointers, |
| ELEMENT_STARTCODE_RAWDATA); |
| #endif |
| |
| // Write terminator |
| pnw__write_upto8bits_elements(pMTX_Header, aui32ElementPointers, 0x80, 8); |
| |
| return; |
| } |
| |
| #define SEI_HOSTCALC_CPB_DPB |
| |
| static void pnw__H264_writebits_SEI_picture_timing_header( |
| MTX_HEADER_PARAMS *pMTX_Header, MTX_HEADER_ELEMENT **aui32ElementPointers, |
| IMG_UINT8 ui8CpbDpbDelaysPresentFlag, |
| IMG_UINT32 ui32cpb_removal_delay_length_minus1, |
| IMG_UINT32 ui32dpb_output_delay_length_minus1, |
| IMG_UINT32 ui32cpb_removal_delay, |
| IMG_UINT32 ui32dpb_output_delay, |
| IMG_UINT8 ui8pic_struct_present_flag, |
| IMG_UINT8 __maybe_unused ui8pic_struct, |
| IMG_UINT8 __maybe_unused ui8NumClockTS, |
| IMG_UINT8 __maybe_unused * aui8clock_timestamp_flag, |
| IMG_UINT8 __maybe_unused ui8full_timestamp_flag, |
| IMG_UINT8 __maybe_unused ui8seconds_flag, |
| IMG_UINT8 __maybe_unused ui8minutes_flag, |
| IMG_UINT8 __maybe_unused ui8hours_flag, |
| IMG_UINT8 __maybe_unused ui8seconds_value, |
| IMG_UINT8 __maybe_unused ui8minutes_value, |
| IMG_UINT8 __maybe_unused ui8hours_value, |
| IMG_UINT8 __maybe_unused ui8ct_type, |
| IMG_UINT8 __maybe_unused ui8nuit_field_based_flag, |
| IMG_UINT8 __maybe_unused ui8counting_type, |
| IMG_UINT8 __maybe_unused ui8discontinuity_flag, |
| IMG_UINT8 __maybe_unused ui8cnt_dropped_flag, |
| IMG_UINT8 __maybe_unused ui8n_frames, |
| IMG_UINT8 __maybe_unused ui8time_offset_length, |
| IMG_UINT32 __maybe_unused i32time_offset) |
| { |
| IMG_UINT8 ui8PayloadSizeBits, ui8Tmp; |
| #ifdef SEI_NOT_USE_TOKEN_ALIGN |
| IMG_UINT8 ui8Pad; |
| #endif |
| |
| // Essential we insert the element before we try to fill it! |
| pnw__insert_element_token(pMTX_Header, |
| aui32ElementPointers, |
| ELEMENT_STARTCODE_RAWDATA); |
| |
| pnw__H264_writebits_startcode_prefix_element(pMTX_Header, |
| aui32ElementPointers, |
| 4); // 00 00 01 start code prefix |
| |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| 6, 8); // nal_unit_type = 06 (SEI Message) |
| |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| 1, 8); // SEI payload type (picture timing) |
| |
| |
| // Precalculate the payload bit size |
| ui8PayloadSizeBits = 0; |
| if (ui8CpbDpbDelaysPresentFlag) |
| ui8PayloadSizeBits += ui32cpb_removal_delay_length_minus1 |
| + 1 + ui32dpb_output_delay_length_minus1 + 1; |
| |
| #if 0 |
| if (ui8pic_struct_present_flag) { |
| ui8PayloadSizeBits += 4; |
| for (ui8Tmp = 0; ui8Tmp < ui8NumClockTS ; ui8Tmp++) { |
| ui8PayloadSizeBits += 1; |
| |
| if (aui8clock_timestamp_flag[ui8Tmp]) { |
| ui8PayloadSizeBits += 2 + 1 + 5 + 1 + 1 + 1 + 8; |
| if (ui8full_timestamp_flag) |
| ui8PayloadSizeBits += 6 + 6 + 5; |
| else { |
| ui8PayloadSizeBits += 1; |
| if (ui8seconds_flag) { |
| ui8PayloadSizeBits += 6 + 1; |
| if (ui8minutes_flag) { |
| ui8PayloadSizeBits += 6 + 1; |
| if (ui8hours_flag) |
| ui8PayloadSizeBits += 5; |
| } |
| } |
| } |
| |
| if (ui8time_offset_length > 0) |
| ui8PayloadSizeBits += ui8time_offset_length; |
| } |
| } |
| } |
| #endif |
| |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| ((ui8PayloadSizeBits + 7) / 8), 8); |
| // SEI payload size = No of bytes required for SEI payload (including seq_parameter_set_id) |
| |
| |
| if (ui8CpbDpbDelaysPresentFlag) { |
| //SEI_INSERTION |
| #ifdef SEI_HOSTCALC_CPB_DPB |
| pnw__write_upto32bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| ui32cpb_removal_delay, |
| ui32cpb_removal_delay_length_minus1 + 1); // cpb_removal_delay |
| pnw__write_upto32bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| ui32dpb_output_delay, |
| ui32dpb_output_delay_length_minus1 + 1); // dpb_output_delay |
| #else |
| pnw__insert_element_token(pMTX_Header, |
| aui32ElementPointers, |
| PTH_SEI_NAL_CPB_REMOVAL_DELAY); |
| pnw__insert_element_token(pMTX_Header, |
| aui32ElementPointers, |
| PTH_SEI_NAL_DPB_OUTPUT_DELAY); |
| #endif |
| } |
| |
| #if 0 |
| if (ui8pic_struct_present_flag) { |
| pnw__insert_element_token(pMTX_Header, |
| aui32ElementPointers, |
| ELEMENT_STARTCODE_RAWDATA); |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| ui8pic_struct, 4); // See TRM able D 1 – Interpretation of pic_struct |
| |
| for (ui8Tmp = 0; ui8Tmp < ui8NumClockTS ; ui8Tmp++) { |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| aui8clock_timestamp_flag[ui8Tmp], 1); |
| |
| if (aui8clock_timestamp_flag[ui8Tmp]) { |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| ui8ct_type, 2); |
| // (2=Unknown) See TRM Table D 2 – Mapping of ct_type to source picture scan |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| ui8nuit_field_based_flag, 1); |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| ui8counting_type, 5); |
| // See TRM Table D 3 – Definition of counting_type values |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| ui8full_timestamp_flag, 1); |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| ui8discontinuity_flag, 1); |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| ui8cnt_dropped_flag, 1); |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| ui8n_frames, 8); |
| |
| if (ui8full_timestamp_flag) { |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| ui8seconds_value, 6); // 0 - 59 |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| ui8minutes_value, 6); // 0 - 59 |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| ui8hours_value, 5); // 0 - 23 |
| } else { |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| ui8seconds_flag, 1); |
| |
| if (ui8seconds_flag) { |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| ui8seconds_value, 6); // 0 - 59 |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| ui8minutes_flag, 1); |
| |
| if (ui8minutes_flag) { |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| ui8minutes_value, 6); // 0 - 59 |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| ui8hours_flag, 1); |
| |
| if (ui8hours_flag) |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| ui8hours_value, 5); // 0 - 23 |
| } |
| } |
| } |
| |
| if (ui8time_offset_length > 0) { |
| // Two's complement storage : If time_offset<0 = ((2 ^ v) + time_offset) |
| if ((int)i32time_offset < 0) |
| pnw__write_upto32bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| (IMG_UINT32)((2 ^ ui8time_offset_length) + i32time_offset), |
| ui8time_offset_length); |
| else |
| pnw__write_upto32bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| (IMG_UINT32) i32time_offset, |
| ui8time_offset_length); |
| } |
| } |
| } |
| } |
| #endif |
| |
| #ifdef SEI_NOT_USE_TOKEN_ALIGN |
| // Pad to end of byte |
| if (!ui8pic_struct_present_flag) |
| pnw__insert_element_token(pMTX_Header, |
| aui32ElementPointers, |
| ELEMENT_STARTCODE_RAWDATA); |
| ui8Pad = (ui8PayloadSizeBits + 7) / 8; |
| ui8Pad = (ui8Pad * 8) - ui8PayloadSizeBits; |
| if (ui8Pad > 0) |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| 1 << (ui8Pad - 1), |
| ui8Pad); // SEI payload type (buffering period) |
| #else |
| pnw__insert_element_token(pMTX_Header, |
| aui32ElementPointers, |
| ELEMENT_INSERTBYTEALIGN_H264); // Tell MTX to insert the byte align field |
| pnw__insert_element_token(pMTX_Header, |
| aui32ElementPointers, |
| ELEMENT_STARTCODE_RAWDATA); |
| #endif |
| |
| // Write terminator |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| 0x80, 8); |
| return; |
| } |
| |
| static void pnw__H264_writebits_SEI_FPA_header( |
| MTX_HEADER_PARAMS *pMTX_Header, MTX_HEADER_ELEMENT **aui32ElementPointers, |
| char* sei_data_buf, IMG_UINT32 data_size) |
| { |
| IMG_UINT8 i; |
| |
| // Essential we insert the element before we try to fill it! |
| pnw__insert_element_token(pMTX_Header, |
| aui32ElementPointers, |
| ELEMENT_STARTCODE_RAWDATA); |
| |
| pnw__H264_writebits_startcode_prefix_element(pMTX_Header, |
| aui32ElementPointers, |
| 4); // 00 00 01 start code prefix |
| |
| for (i = 0; i < data_size; i++) |
| pnw__write_upto8bits_elements(pMTX_Header, |
| aui32ElementPointers, |
| sei_data_buf[i], 8); //sei_data_buf (SEI Message) |
| // Tell MTX to insert the byte align field (we don't know final stream size for alignment at this point) |
| //pnw__insert_element_token(pMTX_Header, aui32ElementPointers, ELEMENT_INSERTBYTEALIGN_H264); |
| |
| return; |
| } |
| |
| |
| #if PSB_MFLD_DUMMY_CODE |
| void pnw__H264_prepare_AUD_header(MTX_HEADER_PARAMS * pMTX_Header) |
| { |
| // Essential we initialise our header structures before building |
| MTX_HEADER_ELEMENT *This_Element; |
| MTX_HEADER_ELEMENT *aui32ElementPointers[MAXNUMBERELEMENTS]; |
| pMTX_Header->Elements = ELEMENTS_EMPTY; |
| This_Element = (MTX_HEADER_ELEMENT *) pMTX_Header->asElementStream; |
| aui32ElementPointers[0] = This_Element; |
| |
| pnw__H264_writebits_AUD_header(pMTX_Header, aui32ElementPointers); |
| |
| pMTX_Header->Elements++; //Has been used as an index, so need to add 1 for a valid element count |
| } |
| #endif |
| |
| void pnw__H264_prepare_SEI_buffering_period_header( |
| MTX_HEADER_PARAMS * pMTX_Header, |
| IMG_UINT8 ui8NalHrdBpPresentFlag, |
| IMG_UINT8 ui8nal_cpb_cnt_minus1, |
| IMG_UINT8 ui8nal_initial_cpb_removal_delay_length, |
| IMG_UINT32 ui32nal_initial_cpb_removal_delay, |
| IMG_UINT32 ui32nal_initial_cpb_removal_delay_offset, |
| IMG_UINT8 ui8VclHrdBpPresentFlag, |
| IMG_UINT8 ui8vcl_cpb_cnt_minus1, |
| IMG_UINT32 ui32vcl_initial_cpb_removal_delay, |
| IMG_UINT32 ui32vcl_initial_cpb_removal_delay_offset) |
| { |
| // Essential we initialise our header structures before building |
| MTX_HEADER_ELEMENT *This_Element; |
| MTX_HEADER_ELEMENT *aui32ElementPointers[MAXNUMBERELEMENTS]; |
| pMTX_Header->Elements = ELEMENTS_EMPTY; |
| This_Element = (MTX_HEADER_ELEMENT *) pMTX_Header->asElementStream; |
| aui32ElementPointers[0] = This_Element; |
| |
| pnw__H264_writebits_SEI_buffering_period_header( |
| pMTX_Header, aui32ElementPointers, |
| ui8NalHrdBpPresentFlag, |
| ui8nal_cpb_cnt_minus1, |
| ui8nal_initial_cpb_removal_delay_length, |
| ui32nal_initial_cpb_removal_delay, |
| ui32nal_initial_cpb_removal_delay_offset, |
| ui8VclHrdBpPresentFlag, |
| ui8vcl_cpb_cnt_minus1, |
| ui32vcl_initial_cpb_removal_delay, |
| ui32vcl_initial_cpb_removal_delay_offset); |
| |
| pMTX_Header->Elements++; |
| //Has been used as an index, so need to add 1 for a valid element count |
| return; |
| } |
| |
| void pnw__H264_prepare_SEI_picture_timing_header( |
| MTX_HEADER_PARAMS * pMTX_Header, |
| IMG_UINT8 ui8CpbDpbDelaysPresentFlag, |
| IMG_UINT32 ui32cpb_removal_delay_length_minus1, |
| IMG_UINT32 ui32dpb_output_delay_length_minus1, |
| IMG_UINT32 ui32cpb_removal_delay, |
| IMG_UINT32 ui32dpb_output_delay, |
| IMG_UINT8 ui8pic_struct_present_flag, |
| IMG_UINT8 ui8pic_struct, |
| IMG_UINT8 ui8NumClockTS, |
| IMG_UINT8 *aui8clock_timestamp_flag, |
| IMG_UINT8 ui8full_timestamp_flag, |
| IMG_UINT8 ui8seconds_flag, |
| IMG_UINT8 ui8minutes_flag, |
| IMG_UINT8 ui8hours_flag, |
| IMG_UINT8 ui8seconds_value, |
| IMG_UINT8 ui8minutes_value, |
| IMG_UINT8 ui8hours_value, |
| IMG_UINT8 ui8ct_type, |
| IMG_UINT8 ui8nuit_field_based_flag, |
| IMG_UINT8 ui8counting_type, |
| IMG_UINT8 ui8discontinuity_flag, |
| IMG_UINT8 ui8cnt_dropped_flag, |
| IMG_UINT8 ui8n_frames, |
| IMG_UINT8 ui8time_offset_length, |
| IMG_INT32 i32time_offset) |
| { |
| // Essential we initialise our header structures before building |
| MTX_HEADER_ELEMENT *This_Element; |
| MTX_HEADER_ELEMENT *aui32ElementPointers[MAXNUMBERELEMENTS]; |
| pMTX_Header->Elements = ELEMENTS_EMPTY; |
| This_Element = (MTX_HEADER_ELEMENT *) pMTX_Header->asElementStream; |
| aui32ElementPointers[0] = This_Element; |
| |
| pnw__H264_writebits_SEI_picture_timing_header( |
| pMTX_Header, aui32ElementPointers, |
| ui8CpbDpbDelaysPresentFlag, |
| ui32cpb_removal_delay_length_minus1, |
| ui32dpb_output_delay_length_minus1, |
| ui32cpb_removal_delay, |
| ui32dpb_output_delay, |
| ui8pic_struct_present_flag, |
| ui8pic_struct, |
| ui8NumClockTS, |
| aui8clock_timestamp_flag, |
| ui8full_timestamp_flag, |
| ui8seconds_flag, |
| ui8minutes_flag, |
| ui8hours_flag, |
| ui8seconds_value, |
| ui8minutes_value, |
| ui8hours_value, |
| ui8ct_type, |
| ui8nuit_field_based_flag, |
| ui8counting_type, |
| ui8discontinuity_flag, |
| ui8cnt_dropped_flag, |
| ui8n_frames, |
| ui8time_offset_length, |
| i32time_offset); |
| |
| pMTX_Header->Elements++; |
| //Has been used as an index, so need to add 1 for a valid element count |
| return; |
| } |
| |
| #if PSB_MFLD_DUMMY_CODE |
| void pnw__H264_prepare_SEI_FPA_header( |
| MTX_HEADER_PARAMS * pMTX_Header, |
| char* sei_data_buf, |
| IMG_UINT32 data_size) |
| { |
| // Essential we initialise our header structures before building |
| MTX_HEADER_ELEMENT *This_Element; |
| MTX_HEADER_ELEMENT *aui32ElementPointers[MAXNUMBERELEMENTS]; |
| pMTX_Header->Elements = ELEMENTS_EMPTY; |
| This_Element = (MTX_HEADER_ELEMENT *) pMTX_Header->asElementStream; |
| aui32ElementPointers[0] = This_Element; |
| |
| pnw__H264_writebits_SEI_FPA_header( |
| pMTX_Header, aui32ElementPointers, |
| sei_data_buf, data_size); |
| |
| pMTX_Header->Elements++; |
| //Has been used as an index, so need to add 1 for a valid element count |
| return; |
| } |
| #endif |
| |
| |
| void pnw__H264_prepare_sequence_header( |
| unsigned char *pHeaderMemory, |
| IMG_UINT32 uiPicWidthInMbs, |
| IMG_UINT32 uiPicHeightInMbs, |
| IMG_BOOL VUI_present, H264_VUI_PARAMS *VUI_params, |
| H264_CROP_PARAMS *psCropParams, |
| IMG_UINT8 uiLevel, |
| IMG_UINT8 uiProfile) |
| { |
| H264_SEQUENCE_HEADER_PARAMS SHParams; |
| MTX_HEADER_PARAMS *mtx_hdr; |
| |
| /* Route output elements to memory provided */ |
| memset(&SHParams, 0, sizeof(SHParams)); |
| mtx_hdr = (MTX_HEADER_PARAMS *) pHeaderMemory; |
| |
| /* Setup Sequence Header information */ |
| |
| |
| switch (uiProfile) { |
| case 5: |
| SHParams.ucProfile = SH_PROFILE_BP; |
| break; |
| case 6: |
| SHParams.ucProfile = SH_PROFILE_MP; |
| break; |
| default: |
| SHParams.ucProfile = SH_PROFILE_MP; |
| break; |
| } |
| |
| switch (uiLevel) { |
| case 10: |
| SHParams.ucLevel = SH_LEVEL_1; |
| break; |
| case 111: |
| SHParams.ucLevel = SH_LEVEL_1B; |
| break; |
| case 11: |
| SHParams.ucLevel = SH_LEVEL_11; |
| break; |
| case 12: |
| SHParams.ucLevel = SH_LEVEL_12; |
| break; |
| case 20: |
| SHParams.ucLevel = SH_LEVEL_2; |
| break; |
| case 30: |
| SHParams.ucLevel = SH_LEVEL_3; |
| break; |
| case 31: |
| SHParams.ucLevel = SH_LEVEL_31; |
| break; |
| case 32: |
| SHParams.ucLevel = SH_LEVEL_32; |
| break; |
| case 40: |
| SHParams.ucLevel = SH_LEVEL_4; |
| break; |
| case 41: |
| SHParams.ucLevel = SH_LEVEL_41; |
| break; |
| case 42: |
| SHParams.ucLevel = SH_LEVEL_42; |
| break; |
| default: |
| SHParams.ucLevel = SH_LEVEL_3; |
| break; |
| } |
| |
| SHParams.ucWidth_in_mbs_minus1 = (IMG_UINT8)(uiPicWidthInMbs - 1); |
| SHParams.ucHeight_in_maps_units_minus1 = (IMG_UINT8)(uiPicHeightInMbs - 1); |
| SHParams.VUI_Params_Present = VUI_present; |
| if (VUI_present) |
| SHParams.VUI_Params = *VUI_params; |
| SHParams.gaps_in_frame_num_value = IMG_FALSE; |
| SHParams.ucFrame_mbs_only_flag = IMG_TRUE; |
| |
| /* All picture header information is static |
| * (apart from 'pic_init_qp_minus26' and 'rsbp_byte_align' fields, which are set in MTX anyway) |
| */ |
| |
| /* Clears ensures elementstream memory is zeroed.. not necessary, but makes it easier to debug |
| * for (Lp=0;Lp<MAX_HEADERSIZEWORDS-1;Lp++) MTX_Header.asElementStream[Lp]=0; |
| */ |
| |
| #if HEADERS_VERBOSE_OUTPUT |
| drv_debug_msg(VIDEO_DEBUG_GENERAL, "\n\n**********************************************************************\n"); |
| drv_debug_msg(VIDEO_DEBUG_GENERAL, "******** HOST FIRMWARE ROUTINES TO PASS HEADERS AND TOKENS TO MTX******\n"); |
| drv_debug_msg(VIDEO_DEBUG_GENERAL, "**********************************************************************\n\n"); |
| #endif |
| |
| /* Functions that actually pack Elements (MTX_HEADER_PARAMS structure) with header information */ |
| pnw__H264_getelements_sequence_header(mtx_hdr, &SHParams, psCropParams); |
| } |
| |
| void pnw__H264_prepare_picture_header(unsigned char *pHeaderMemory, IMG_BOOL bCabacEnabled, IMG_INT8 CQPOffset) |
| { |
| MTX_HEADER_PARAMS *mtx_hdr; |
| |
| /* Route output elements to memory provided */ |
| mtx_hdr = (MTX_HEADER_PARAMS *) pHeaderMemory; |
| |
| |
| /* Builds a sequence, picture and slice header with from the given inputs parameters (start of new frame) |
| * Essential we initialise our header structures before building |
| */ |
| MTX_HEADER_ELEMENT *This_Element; |
| MTX_HEADER_ELEMENT *elt_p[MAXNUMBERELEMENTS]; |
| mtx_hdr->Elements = ELEMENTS_EMPTY; |
| This_Element = (MTX_HEADER_ELEMENT *) mtx_hdr->asElementStream; |
| elt_p[0] = This_Element; |
| |
| pnw__H264_writebits_picture_header(mtx_hdr, elt_p, bCabacEnabled, |
| 0, 0, |
| CQPOffset, CQPOffset); |
| mtx_hdr->Elements++; /* Has been used as an index, so need to add 1 for a valid element count */ |
| } |
| |
| void pnw__H264_prepare_slice_header( |
| unsigned char *pHeaderMemory, |
| IMG_BOOL bIntraSlice, |
| IMG_UINT32 uiDisableDeblockingFilterIDC, |
| IMG_UINT32 uiFrameNumber, |
| IMG_UINT32 uiFirst_MB_Address, |
| IMG_UINT32 uiMBSkipRun, |
| IMG_BOOL bCabacEnabled, |
| IMG_BOOL bForceIDR, |
| IMG_BOOL bUsesLongTermRef, |
| IMG_BOOL bIsLongTermRef, |
| IMG_UINT16 uiIdrPicId) |
| { |
| H264_SLICE_HEADER_PARAMS SlHParams; |
| MTX_HEADER_PARAMS *mtx_hdr; |
| |
| memset(&SlHParams, 0, sizeof(SlHParams)); |
| |
| /* Route output elements to memory provided */ |
| mtx_hdr = (MTX_HEADER_PARAMS *) pHeaderMemory; |
| |
| SlHParams.Start_Code_Prefix_Size_Bytes = 4; |
| SlHParams.UsesLongTermRef = bUsesLongTermRef; |
| SlHParams.IsLongTermRef = bIsLongTermRef; |
| |
| if (bForceIDR || (uiFrameNumber == 0)) { |
| drv_debug_msg(VIDEO_DEBUG_GENERAL, "TOPAZ: Generate a IDR slice\n"); |
| SlHParams.SliceFrame_Type = SLHP_IDR_SLICEFRAME_TYPE; |
| } else |
| SlHParams.SliceFrame_Type = bIntraSlice ? SLHP_I_SLICEFRAME_TYPE : SLHP_P_SLICEFRAME_TYPE; |
| |
| /*SlHParams.SliceFrame_Type = bIntraSlice ? (((uiFrameNumber%(1<<5))==0) ? SLHP_IDR_SLICEFRAME_TYPE :SLHP_I_SLICEFRAME_TYPE ) : SLHP_P_SLICEFRAME_TYPE;*/ |
| SlHParams.Frame_Num_DO = (IMG_UINT8) uiFrameNumber % (1 << 5); |
| SlHParams.Picture_Num_DO = (IMG_UINT8)(SlHParams.Frame_Num_DO * 2); |
| |
| |
| SlHParams.First_MB_Address = uiFirst_MB_Address; |
| SlHParams.Disable_Deblocking_Filter_Idc = (IMG_UINT8) uiDisableDeblockingFilterIDC; |
| |
| { |
| IMG_UINT32 *pMTX_Header_Mem = (IMG_UINT32 *)mtx_hdr; |
| // rhk: first insert normal header. |
| pnw__H264_getelements_slice_header(mtx_hdr, &SlHParams, bCabacEnabled, uiIdrPicId); |
| |
| // put a marker to indicate that this is a complex header |
| // note that first "int" in the buffer is used for number of elements |
| // which is not going to be more than 255 |
| *pMTX_Header_Mem |= 0x100; |
| |
| // rhk: insert skipped frame header at an offset of 128 bytes |
| pMTX_Header_Mem += (HEADER_SIZE >> 3); // get a pointer to the second half of memory |
| mtx_hdr = (MTX_HEADER_PARAMS *)pMTX_Header_Mem; |
| pnw__H264_getelements_skip_P_slice(mtx_hdr, &SlHParams, uiMBSkipRun, bCabacEnabled); |
| } |
| |
| } |
| |
| |
| void pnw__MPEG4_prepare_sequence_header( |
| unsigned char *pHeaderMemory, |
| IMG_BOOL bBFrame, |
| MPEG4_PROFILE_TYPE sProfile, |
| IMG_UINT8 Profile_and_level_indication, |
| FIXED_VOP_TIME_TYPE sFixed_vop_time_increment, |
| IMG_UINT32 Picture_Width_Pixels, |
| IMG_UINT32 Picture_Height_Pixels, |
| VBVPARAMS * psVBVParams, |
| IMG_UINT32 VopTimeResolution) |
| { |
| MTX_HEADER_PARAMS *mtx_hdr; |
| |
| /* Route output elements to memory provided */ |
| mtx_hdr = (MTX_HEADER_PARAMS *) pHeaderMemory; |
| /* Builds a single MPEG4 video sequence header from the given parameters */ |
| |
| /* Essential we initialise our header structures before building */ |
| MTX_HEADER_ELEMENT *This_Element; |
| MTX_HEADER_ELEMENT *elt_p[MAXNUMBERELEMENTS]; |
| mtx_hdr->Elements = ELEMENTS_EMPTY; |
| This_Element = (MTX_HEADER_ELEMENT *) mtx_hdr->asElementStream; |
| elt_p[0] = This_Element; |
| |
| pnw__MPEG4_writebits_sequence_header( |
| mtx_hdr, |
| elt_p, |
| bBFrame, sProfile, |
| Profile_and_level_indication, |
| sFixed_vop_time_increment, |
| Picture_Width_Pixels, |
| Picture_Height_Pixels, |
| psVBVParams, VopTimeResolution); |
| |
| mtx_hdr->Elements++; /* Has been used as an index, so need to add 1 for a valid element count */ |
| |
| } |
| |
| void pnw__MPEG4_prepare_vop_header( |
| unsigned char *pHeaderMem, |
| IMG_BOOL bIsVOP_coded, |
| IMG_UINT32 VOP_time_increment, |
| IMG_UINT8 sSearch_range, |
| IMG_UINT8 eVop_Coding_Type, |
| IMG_UINT32 VopTimeResolution) |
| { |
| MTX_HEADER_PARAMS *mtx_hdr; |
| |
| mtx_hdr = (MTX_HEADER_PARAMS *) pHeaderMem; |
| |
| /* Builds a single MPEG4 VOP (picture) header from the given parameters */ |
| /* Essential we initialise our header structures before building */ |
| MTX_HEADER_ELEMENT *This_Element; |
| MTX_HEADER_ELEMENT *elt_p[MAXNUMBERELEMENTS]; |
| mtx_hdr->Elements = ELEMENTS_EMPTY; |
| This_Element = (MTX_HEADER_ELEMENT *) mtx_hdr->asElementStream; |
| elt_p[0] = This_Element; |
| |
| /* Frame QScale no longer written here as it is inserted by MTX later |
| * (add as parameter to MTX_Send_Elements_To_VLC) |
| */ |
| pnw__MPEG4_writebits_VOP_header( |
| mtx_hdr, elt_p, bIsVOP_coded, |
| VOP_time_increment, |
| sSearch_range, |
| eVop_Coding_Type, |
| VopTimeResolution); |
| |
| mtx_hdr->Elements++; /* Has been used as an index, so need to add 1 for a valid element count */ |
| |
| } |
| |
| |
| #if PSB_MFLD_DUMMY_CODE |
| void pnw__H263_prepare_sequence_header( |
| unsigned char *pHeaderMem, |
| IMG_UINT8 Profile_and_level_indication) |
| { |
| MTX_HEADER_PARAMS *mtx_hdr; |
| |
| mtx_hdr = (MTX_HEADER_PARAMS *) pHeaderMem; |
| |
| /* Builds a single H263 video sequence header from the given parameters */ |
| |
| /* Essential we initialise our header structures before building */ |
| MTX_HEADER_ELEMENT *This_Element; |
| MTX_HEADER_ELEMENT *elt_p[MAXNUMBERELEMENTS]; |
| mtx_hdr->Elements = ELEMENTS_EMPTY; |
| This_Element = (MTX_HEADER_ELEMENT *) mtx_hdr->asElementStream; |
| elt_p[0] = This_Element; |
| |
| H263_writebits_VideoSequenceHeader(mtx_hdr, elt_p, Profile_and_level_indication); |
| |
| mtx_hdr->Elements++; /* Has been used as an index, so need to add 1 for a valid element count */ |
| |
| } |
| #endif |
| |
| void pnw__H263_prepare_picture_header( |
| unsigned char *pHeaderMem, |
| IMG_UINT8 Temporal_Ref, |
| H263_PICTURE_CODING_TYPE PictureCodingType, |
| H263_SOURCE_FORMAT_TYPE SourceFormatType, |
| IMG_UINT8 FrameRate, |
| IMG_UINT16 PictureWidth, |
| IMG_UINT16 PictureHeigth) |
| { |
| MTX_HEADER_PARAMS *mtx_hdr; |
| |
| mtx_hdr = (MTX_HEADER_PARAMS *) pHeaderMem; |
| |
| /* Essential we initialise our header structures before building */ |
| MTX_HEADER_ELEMENT *This_Element; |
| MTX_HEADER_ELEMENT *elt_p[MAXNUMBERELEMENTS]; |
| mtx_hdr->Elements = ELEMENTS_EMPTY; |
| This_Element = (MTX_HEADER_ELEMENT *) mtx_hdr->asElementStream; |
| elt_p[0] = This_Element; |
| |
| H263_writebits_VideoPictureHeader( |
| mtx_hdr, elt_p, |
| Temporal_Ref, |
| PictureCodingType, |
| SourceFormatType, |
| FrameRate, |
| PictureWidth, |
| PictureHeigth); |
| |
| mtx_hdr->Elements++; /* Has been used as an index, so need to add 1 for a valid element count */ |
| } |
| |
| void pnw__H263_prepare_GOBslice_header( |
| unsigned char *pHeaderMem, |
| IMG_UINT8 GOBNumber, |
| IMG_UINT8 GOBFrameId) |
| { |
| MTX_HEADER_PARAMS *mtx_hdr; |
| |
| mtx_hdr = (MTX_HEADER_PARAMS *) pHeaderMem; |
| |
| /* Essential we initialise our header structures before building */ |
| MTX_HEADER_ELEMENT *This_Element; |
| MTX_HEADER_ELEMENT *elt_p[MAXNUMBERELEMENTS]; |
| mtx_hdr->Elements = ELEMENTS_EMPTY; |
| This_Element = (MTX_HEADER_ELEMENT *) mtx_hdr->asElementStream; |
| elt_p[0] = This_Element; |
| |
| H263_writebits_GOBSliceHeader(mtx_hdr, elt_p, GOBNumber, GOBFrameId); |
| |
| mtx_hdr->Elements++; //Has been used as an index, so need to add 1 for a valid element count |
| |
| /* |
| (void)pnw__H264_writebits_SEI_rbspheader; |
| (void)pnw__H264_getelements_skip_B_slice; |
| (void)pnw__H264_getelements_backward_zero_B_slice; |
| (void)pnw__H264_getelements_rbsp_ATE_only; |
| (void)pnw_MPEG4_getelements_video_packet_header; |
| */ |
| } |
| |