ref: ca1868c93be4a7a8b500359310f4719ac10dab03
dir: /src/h264bsd_pic_order_cnt.c/
/* * Copyright (C) 2009 The Android Open Source Project * Modified for use by h264bsd standalone library * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /*------------------------------------------------------------------------------ Table of contents 1. Include headers 2. External compiler flags 3. Module defines 4. Local function prototypes 5. Functions h264bsdDecodePicOrderCnt ------------------------------------------------------------------------------*/ /*------------------------------------------------------------------------------ 1. Include headers ------------------------------------------------------------------------------*/ #include "h264bsd_util.h" #include "h264bsd_pic_order_cnt.h" /*------------------------------------------------------------------------------ 2. External compiler flags -------------------------------------------------------------------------------- -------------------------------------------------------------------------------- 3. Module defines ------------------------------------------------------------------------------*/ /*------------------------------------------------------------------------------ 4. Local function prototypes ------------------------------------------------------------------------------*/ /*------------------------------------------------------------------------------ Function: h264bsdDecodePicOrderCnt Functional description: Compute picture order count for a picture. Function implements computation of all POC types (0, 1 and 2), type is obtained from sps. See standard for description of the POC types and how POC is computed for each type. Function returns the minimum of top field and bottom field pic order counts. Inputs: poc pointer to previous results sps pointer to sequence parameter set slicHeader pointer to current slice header, frame number and other params needed for POC computation pNalUnit pointer to current NAL unit structrue, function needs to know if this is an IDR picture and also if this is a reference picture Outputs: poc results stored here for computation of next POC Returns: picture order count ------------------------------------------------------------------------------*/ i32 h264bsdDecodePicOrderCnt(pocStorage_t *poc, seqParamSet_t *sps, sliceHeader_t *pSliceHeader, nalUnit_t *pNalUnit) { /* Variables */ u32 i; i32 picOrderCnt; u32 frameNumOffset, absFrameNum, picOrderCntCycleCnt; u32 frameNumInPicOrderCntCycle; i32 expectedDeltaPicOrderCntCycle; u32 containsMmco5; /* Code */ ASSERT(poc); ASSERT(sps); ASSERT(pSliceHeader); ASSERT(pNalUnit); ASSERT(sps->picOrderCntType <= 2); #if 0 /* JanSa: I don't think this is necessary, don't see any reason to * increment prevFrameNum one by one instead of one big increment. * However, standard specifies that this should be done -> if someone * figures out any case when the outcome would be different for step by * step increment, this part of the code should be enabled */ /* if there was a gap in frame numbering and picOrderCntType is 1 or 2 -> * "compute" pic order counts for non-existing frames. These are not * actually computed, but process needs to be done to update the * prevFrameNum and prevFrameNumOffset */ if ( sps->picOrderCntType > 0 && pSliceHeader->frameNum != poc->prevFrameNum && pSliceHeader->frameNum != ((poc->prevFrameNum + 1) % sps->maxFrameNum)) { /* use variable i for unUsedShortTermFrameNum */ i = (poc->prevFrameNum + 1) % sps->maxFrameNum; do { if (poc->prevFrameNum > i) frameNumOffset = poc->prevFrameNumOffset + sps->maxFrameNum; else frameNumOffset = poc->prevFrameNumOffset; poc->prevFrameNumOffset = frameNumOffset; poc->prevFrameNum = i; i = (i + 1) % sps->maxFrameNum; } while (i != pSliceHeader->frameNum); } #endif /* check if current slice includes mmco equal to 5 */ containsMmco5 = HANTRO_FALSE; if (pSliceHeader->decRefPicMarking.adaptiveRefPicMarkingModeFlag) { i = 0; while (pSliceHeader->decRefPicMarking.operation[i]. memoryManagementControlOperation) { if (pSliceHeader->decRefPicMarking.operation[i]. memoryManagementControlOperation == 5) { containsMmco5 = HANTRO_TRUE; break; } i++; } } switch (sps->picOrderCntType) { case 0: /* set prevPicOrderCnt values for IDR frame */ if (IS_IDR_NAL_UNIT(pNalUnit)) { poc->prevPicOrderCntMsb = 0; poc->prevPicOrderCntLsb = 0; } /* compute picOrderCntMsb (stored in picOrderCnt variable) */ if ( (pSliceHeader->picOrderCntLsb < poc->prevPicOrderCntLsb) && ((poc->prevPicOrderCntLsb - pSliceHeader->picOrderCntLsb) >= sps->maxPicOrderCntLsb/2) ) { picOrderCnt = poc->prevPicOrderCntMsb + (i32)sps->maxPicOrderCntLsb; } else if ((pSliceHeader->picOrderCntLsb > poc->prevPicOrderCntLsb) && ((pSliceHeader->picOrderCntLsb - poc->prevPicOrderCntLsb) > sps->maxPicOrderCntLsb/2) ) { picOrderCnt = poc->prevPicOrderCntMsb - (i32)sps->maxPicOrderCntLsb; } else picOrderCnt = poc->prevPicOrderCntMsb; /* standard specifies that prevPicOrderCntMsb is from previous * rererence frame -> replace old value only if current frame is * rererence frame */ if (pNalUnit->nalRefIdc) poc->prevPicOrderCntMsb = picOrderCnt; /* compute top field order cnt (stored in picOrderCnt) */ picOrderCnt += (i32)pSliceHeader->picOrderCntLsb; /* if delta for bottom field is negative -> bottom will be the * minimum pic order count */ if (pSliceHeader->deltaPicOrderCntBottom < 0) picOrderCnt += pSliceHeader->deltaPicOrderCntBottom; /* standard specifies that prevPicOrderCntLsb is from previous * rererence frame -> replace old value only if current frame is * rererence frame */ if (pNalUnit->nalRefIdc) { /* if current frame contains mmco5 -> modify values to be * stored */ if (containsMmco5) { poc->prevPicOrderCntMsb = 0; /* prevPicOrderCntLsb should be the top field picOrderCnt * if previous frame included mmco5. Top field picOrderCnt * for frames containing mmco5 is obtained by subtracting * the picOrderCnt from original top field order count -> * value is zero if top field was the minimum, i.e. delta * for bottom was positive, otherwise value is * -deltaPicOrderCntBottom */ if (pSliceHeader->deltaPicOrderCntBottom < 0) poc->prevPicOrderCntLsb = (u32)(-pSliceHeader->deltaPicOrderCntBottom); else poc->prevPicOrderCntLsb = 0; picOrderCnt = 0; } else { poc->prevPicOrderCntLsb = pSliceHeader->picOrderCntLsb; } } break; case 1: /* step 1 (in the description in the standard) */ if (IS_IDR_NAL_UNIT(pNalUnit)) frameNumOffset = 0; else if (poc->prevFrameNum > pSliceHeader->frameNum) frameNumOffset = poc->prevFrameNumOffset + sps->maxFrameNum; else frameNumOffset = poc->prevFrameNumOffset; /* step 2 */ if (sps->numRefFramesInPicOrderCntCycle) absFrameNum = frameNumOffset + pSliceHeader->frameNum; else absFrameNum = 0; if (pNalUnit->nalRefIdc == 0 && absFrameNum > 0) absFrameNum -= 1; /* step 3 */ if (absFrameNum > 0) { picOrderCntCycleCnt = (absFrameNum - 1)/sps->numRefFramesInPicOrderCntCycle; frameNumInPicOrderCntCycle = (absFrameNum - 1)%sps->numRefFramesInPicOrderCntCycle; } /* step 4 */ expectedDeltaPicOrderCntCycle = 0; for (i = 0; i < sps->numRefFramesInPicOrderCntCycle; i++) expectedDeltaPicOrderCntCycle += sps->offsetForRefFrame[i]; /* step 5 (picOrderCnt used to store expectedPicOrderCnt) */ /*lint -esym(644,picOrderCntCycleCnt) always initialized */ /*lint -esym(644,frameNumInPicOrderCntCycle) always initialized */ if (absFrameNum > 0) { picOrderCnt = (i32)picOrderCntCycleCnt * expectedDeltaPicOrderCntCycle; for (i = 0; i <= frameNumInPicOrderCntCycle; i++) picOrderCnt += sps->offsetForRefFrame[i]; } else picOrderCnt = 0; if (pNalUnit->nalRefIdc == 0) picOrderCnt += sps->offsetForNonRefPic; /* step 6 (picOrderCnt is top field order cnt if delta for bottom * is positive, otherwise it is bottom field order cnt) */ picOrderCnt += pSliceHeader->deltaPicOrderCnt[0]; if ( (sps->offsetForTopToBottomField + pSliceHeader->deltaPicOrderCnt[1]) < 0 ) { picOrderCnt += sps->offsetForTopToBottomField + pSliceHeader->deltaPicOrderCnt[1]; } /* if current picture contains mmco5 -> set prevFrameNumOffset and * prevFrameNum to 0 for computation of picOrderCnt of next * frame, otherwise store frameNum and frameNumOffset to poc * structure */ if (!containsMmco5) { poc->prevFrameNumOffset = frameNumOffset; poc->prevFrameNum = pSliceHeader->frameNum; } else { poc->prevFrameNumOffset = 0; poc->prevFrameNum = 0; picOrderCnt = 0; } break; default: /* case 2 */ /* derive frameNumOffset */ if (IS_IDR_NAL_UNIT(pNalUnit)) frameNumOffset = 0; else if (poc->prevFrameNum > pSliceHeader->frameNum) frameNumOffset = poc->prevFrameNumOffset + sps->maxFrameNum; else frameNumOffset = poc->prevFrameNumOffset; /* derive picOrderCnt (type 2 has same value for top and bottom * field order cnts) */ if (IS_IDR_NAL_UNIT(pNalUnit)) picOrderCnt = 0; else if (pNalUnit->nalRefIdc == 0) picOrderCnt = 2 * (i32)(frameNumOffset + pSliceHeader->frameNum) - 1; else picOrderCnt = 2 * (i32)(frameNumOffset + pSliceHeader->frameNum); /* if current picture contains mmco5 -> set prevFrameNumOffset and * prevFrameNum to 0 for computation of picOrderCnt of next * frame, otherwise store frameNum and frameNumOffset to poc * structure */ if (!containsMmco5) { poc->prevFrameNumOffset = frameNumOffset; poc->prevFrameNum = pSliceHeader->frameNum; } else { poc->prevFrameNumOffset = 0; poc->prevFrameNum = 0; picOrderCnt = 0; } break; } /*lint -esym(644,picOrderCnt) always initialized */ return(picOrderCnt); }