/****************************************************************************** * * Copyright (C) 2015 The Android Open Source Project * * 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. * ***************************************************************************** * Originally developed and contributed by Ittiam Systems Pvt. Ltd, Bangalore */ /** ******************************************************************************* * @file * ih264_dpb_mgr.c * * @brief * Function definitions used for decoded picture buffer management * * @author * Srinivas T * * @par List of Functions: * - ih264_dpb_mgr_init() * - ih264_dpb_mgr_sort_short_term_fields_by_frame_num() * - ih264_dpb_mgr_sort_short_term_fields_by_poc_l0() * - ih264_dpb_mgr_sort_short_term_fields_by_poc_l1() * - ih264_dpb_mgr_sort_long_term_fields_by_frame_idx() * - ih264_dpb_mgr_alternate_ref_fields() * - ih264_dpb_mgr_insert_ref_field() * - ih264_dpb_mgr_insert_ref_frame() * - ih264_dpb_mgr_count_ref_frames() * - ih264_dpb_mgr_delete_ref_frame() * - ih264_dpb_mgr_delete_long_ref_fields_max_frame_idx() * - ih264_dpb_mgr_delete_short_ref_frame() * - ih264_dpb_mgr_delete_all_ref_frames() * - ih264_dpb_mgr_reset() * - ih264_dpb_mgr_release_pics() * * @remarks * None * ******************************************************************************* */ #include <stdio.h> #include <stdlib.h> #include <assert.h> #include "ih264_typedefs.h" #include "ih264_defs.h" #include "ih264_macros.h" #include "ih264_error.h" #include "ih264_structs.h" #include "ih264_buf_mgr.h" #include "ih264_dpb_mgr.h" #include "ih264_debug.h" /** ******************************************************************************* * * @brief * DPB manager initializer * * @par Description: * Initialises the DPB manager structure * * @param[in] ps_dpb_mgr * Pointer to the DPB manager structure * * @returns * * @remarks * * ******************************************************************************* */ void ih264_dpb_mgr_init(dpb_mgr_t *ps_dpb_mgr) { UWORD32 i; dpb_info_t *ps_dpb_info = ps_dpb_mgr->as_dpb_info; for(i = 0; i < MAX_DPB_BUFS; i++) { ps_dpb_info[i].ps_prev_dpb = NULL; ps_dpb_info[i].ps_pic_buf = NULL; ps_dpb_mgr->as_top_field_pics[i].i4_used_as_ref = INVALID; ps_dpb_mgr->as_bottom_field_pics[i].i4_used_as_ref = INVALID; ps_dpb_mgr->as_top_field_pics[i].i1_field_type = INVALID; ps_dpb_mgr->as_bottom_field_pics[i].i1_field_type = INVALID; ps_dpb_mgr->as_top_field_pics[i].i4_long_term_frame_idx = -1; ps_dpb_mgr->as_bottom_field_pics[i].i4_long_term_frame_idx = -1; } ps_dpb_mgr->u1_num_short_term_ref_bufs = 0; ps_dpb_mgr->u1_num_long_term_ref_bufs = 0; ps_dpb_mgr->ps_dpb_short_term_head = NULL; ps_dpb_mgr->ps_dpb_long_term_head = NULL; } /** ******************************************************************************* * * @brief * Function to sort sort term pics by frame_num. * * @par Description: * Sorts short term fields by frame_num. For 2 fields having same frame_num, * orders them based on requested first field type. * * @param[in] ps_dpb_mgr * Pointer to the DPB manager structure * * @param[in] curr_frame_num * frame_num of the current pic * * @param[in] first_field_type * For complementary fields, required first field * * @param[in] max_frame_num * Maximum frame_num allowed * * @returns * * @remarks * * ******************************************************************************* */ WORD32 ih264_dpb_mgr_sort_short_term_fields_by_frame_num(dpb_mgr_t *ps_dpb_mgr, WORD32 curr_frame_num, WORD32 first_field_type, WORD32 max_frame_num) { dpb_info_t *ps_dpb_node1 = ps_dpb_mgr->ps_dpb_short_term_head; dpb_info_t *ps_dpb_node2; WORD32 frame_num_node1; WORD32 frame_num_node2; pic_buf_t *ps_pic_buf; if(ps_dpb_node1 == NULL) return -1; for (; ps_dpb_node1 != NULL; ps_dpb_node1 = ps_dpb_node1->ps_prev_dpb) { for (ps_dpb_node2 = ps_dpb_node1->ps_prev_dpb; ps_dpb_node2 != NULL; ps_dpb_node2 = ps_dpb_node2->ps_prev_dpb) { frame_num_node1 = ps_dpb_node1->ps_pic_buf->i4_frame_num; frame_num_node2 = ps_dpb_node2->ps_pic_buf->i4_frame_num; if(frame_num_node1 > curr_frame_num) frame_num_node1 = frame_num_node1 - max_frame_num; if(frame_num_node2 > curr_frame_num) frame_num_node2 = frame_num_node2 - max_frame_num; if(frame_num_node1 < frame_num_node2) { ps_pic_buf = ps_dpb_node1->ps_pic_buf; ps_dpb_node1->ps_pic_buf = ps_dpb_node2->ps_pic_buf; ps_dpb_node2->ps_pic_buf = ps_pic_buf; } } } /** * For frames and complementary field pairs, * ensure first_field_type appears first in the list */ ps_dpb_node1 = ps_dpb_mgr->ps_dpb_short_term_head; ps_dpb_node2 = ps_dpb_node1->ps_prev_dpb; while(ps_dpb_node2 != NULL) { pic_buf_t *ps_pic_node1 = ps_dpb_node1->ps_pic_buf; pic_buf_t *ps_pic_node2 = ps_dpb_node2->ps_pic_buf; frame_num_node1 = ps_pic_node1->i4_frame_num; frame_num_node2 = ps_pic_node2->i4_frame_num; if(frame_num_node1 == frame_num_node2) { ASSERT(ps_pic_node1->i1_field_type != ps_pic_node2->i1_field_type); if(ps_pic_node1->i1_field_type != first_field_type) { ps_dpb_node1->ps_pic_buf = ps_pic_node2; ps_dpb_node2->ps_pic_buf = ps_pic_node1; } } ps_dpb_node1 = ps_dpb_node2; ps_dpb_node2 = ps_dpb_node2->ps_prev_dpb; } return 0; } /** ******************************************************************************* * * @brief * Function to sort sort term pics by poc for list 0. * * @par Description: * Orders all the pocs less than current poc in the descending order. * Then orders all the pocs greater than current poc in the ascending order. * * @param[in] ps_dpb_mgr * Pointer to the DPB manager structure * * @param[in] curr_poc * Poc of the current pic * * @param[in] first_field_type * For complementary fields, required first field * * @returns * * @remarks * * ******************************************************************************* */ WORD32 ih264_dpb_mgr_sort_short_term_fields_by_poc_l0(dpb_mgr_t *ps_dpb_mgr, WORD32 curr_poc, WORD32 first_field_type) { dpb_info_t *ps_dpb_node1 = ps_dpb_mgr->ps_dpb_short_term_head; dpb_info_t *ps_dpb_node2; WORD32 poc_node1; WORD32 poc_node2; WORD32 frame_num_node1; WORD32 frame_num_node2; pic_buf_t *ps_pic_buf; if(ps_dpb_node1 == NULL) return -1; /** * Sort the fields by poc. * All POCs less than current poc are first placed in the descending order. * Then all POCs greater than current poc are placed in the ascending order. */ for (; ps_dpb_node1 != NULL; ps_dpb_node1 = ps_dpb_node1->ps_prev_dpb) { for (ps_dpb_node2 = ps_dpb_node1->ps_prev_dpb; ps_dpb_node2 != NULL; ps_dpb_node2 = ps_dpb_node2->ps_prev_dpb) { poc_node1 = ps_dpb_node1->ps_pic_buf->i4_abs_poc; poc_node2 = ps_dpb_node2->ps_pic_buf->i4_abs_poc; ASSERT(poc_node1 != curr_poc); ASSERT(poc_node2 != curr_poc); if(((poc_node1 < curr_poc) && (poc_node2 > curr_poc)) || ((poc_node1 < curr_poc) && (poc_node2 < curr_poc) && (poc_node1 > poc_node2)) || ((poc_node1 > curr_poc) && (poc_node2 > curr_poc) && (poc_node1 < poc_node2))) continue; ps_pic_buf = ps_dpb_node1->ps_pic_buf; ps_dpb_node1->ps_pic_buf = ps_dpb_node2->ps_pic_buf; ps_dpb_node2->ps_pic_buf = ps_pic_buf; } } ps_dpb_node1 = ps_dpb_mgr->ps_dpb_short_term_head; ps_dpb_node2 = ps_dpb_node1->ps_prev_dpb; while(ps_dpb_node2 != NULL) { pic_buf_t *ps_pic_node1 = ps_dpb_node1->ps_pic_buf; pic_buf_t *ps_pic_node2 = ps_dpb_node2->ps_pic_buf; frame_num_node1 = ps_pic_node1->i4_frame_num; frame_num_node2 = ps_pic_node2->i4_frame_num; if(frame_num_node1 == frame_num_node2) { ASSERT(ps_pic_node1->i1_field_type != ps_pic_node2->i1_field_type); if(ps_pic_node1->i1_field_type != first_field_type) { ps_dpb_node1->ps_pic_buf = ps_pic_node2; ps_dpb_node2->ps_pic_buf = ps_pic_node1; } } ps_dpb_node1 = ps_dpb_node2; ps_dpb_node2 = ps_dpb_node2->ps_prev_dpb; } return 0; } /** ******************************************************************************* * * @brief * Function to sort sort term pics by poc for list 1. * * @par Description: * Orders all the pocs greater than current poc in the ascending order. * Then rrders all the pocs less than current poc in the descending order. * * @param[in] ps_dpb_mgr * Pointer to the DPB manager structure * * @param[in] curr_poc * Poc of the current pic * * @param[in] first_field_type * For complementary fields, required first field * * @returns * * @remarks * * ******************************************************************************* */ WORD32 ih264_dpb_mgr_sort_short_term_fields_by_poc_l1(dpb_mgr_t *ps_dpb_mgr, WORD32 curr_poc, WORD32 first_field_type) { dpb_info_t *ps_dpb_node1 = ps_dpb_mgr->ps_dpb_short_term_head; dpb_info_t *ps_dpb_node2; WORD32 poc_node1; WORD32 poc_node2; WORD32 frame_num_node1; WORD32 frame_num_node2; pic_buf_t *ps_pic_buf; if(ps_dpb_node1 == NULL) return -1; /** * Sort the fields by poc. * All POCs greater than current poc are first placed in the ascending order. * Then all POCs less than current poc are placed in the decending order. */ for (; ps_dpb_node1 != NULL; ps_dpb_node1 = ps_dpb_node1->ps_prev_dpb) { for (ps_dpb_node2 = ps_dpb_node1->ps_prev_dpb; ps_dpb_node2 != NULL; ps_dpb_node2 = ps_dpb_node2->ps_prev_dpb) { poc_node1 = ps_dpb_node1->ps_pic_buf->i4_abs_poc; poc_node2 = ps_dpb_node2->ps_pic_buf->i4_abs_poc; ASSERT(poc_node1 != curr_poc); ASSERT(poc_node2 != curr_poc); if(((poc_node1 > curr_poc) && (poc_node2 < curr_poc)) || ((poc_node1 < curr_poc) && (poc_node2 < curr_poc) && (poc_node1 > poc_node2)) || ((poc_node1 > curr_poc) && (poc_node2 > curr_poc) && (poc_node1 < poc_node2))) continue; ps_pic_buf = ps_dpb_node1->ps_pic_buf; ps_dpb_node1->ps_pic_buf = ps_dpb_node2->ps_pic_buf; ps_dpb_node2->ps_pic_buf = ps_pic_buf; } } ps_dpb_node1 = ps_dpb_mgr->ps_dpb_short_term_head; ps_dpb_node2 = ps_dpb_node1->ps_prev_dpb; while(ps_dpb_node2 != NULL) { pic_buf_t *ps_pic_node1 = ps_dpb_node1->ps_pic_buf; pic_buf_t *ps_pic_node2 = ps_dpb_node2->ps_pic_buf; frame_num_node1 = ps_pic_node1->i4_frame_num; frame_num_node2 = ps_pic_node2->i4_frame_num; if(frame_num_node1 == frame_num_node2) { ASSERT(ps_pic_node1->i1_field_type != ps_pic_node2->i1_field_type); if(ps_pic_node1->i1_field_type != first_field_type) { ps_dpb_node1->ps_pic_buf = ps_pic_node2; ps_dpb_node2->ps_pic_buf = ps_pic_node1; } } ps_dpb_node1 = ps_dpb_node2; ps_dpb_node2 = ps_dpb_node2->ps_prev_dpb; } return 0; } /** ******************************************************************************* * * @brief * Function to sort long term pics by long term frame idx. * * @par Description: * Sorts long term fields by long term frame idx. For 2 fields * having same frame_num, orders them based on requested first field type. * * @param[in] ps_dpb_mgr * Pointer to the DPB manager structure * * @param[in] first_field_type * For complementary fields, required first field * * @returns * * @remarks * * ******************************************************************************* */ WORD32 ih264_dpb_mgr_sort_long_term_fields_by_frame_idx(dpb_mgr_t *ps_dpb_mgr, WORD32 first_field_type) { dpb_info_t *ps_dpb_node1 = ps_dpb_mgr->ps_dpb_long_term_head; dpb_info_t *ps_dpb_node2; WORD32 frame_idx_node1; WORD32 frame_idx_node2; pic_buf_t *ps_pic_buf; if(ps_dpb_node1 == NULL) return -1; /* Sort the fields by frame idx */ for (; ps_dpb_node1 != NULL; ps_dpb_node1 = ps_dpb_node1->ps_prev_dpb) { for (ps_dpb_node2 = ps_dpb_node1->ps_prev_dpb; ps_dpb_node2 != NULL; ps_dpb_node2 = ps_dpb_node2->ps_prev_dpb) { frame_idx_node1 = ps_dpb_node1->ps_pic_buf->i4_long_term_frame_idx; frame_idx_node2 = ps_dpb_node2->ps_pic_buf->i4_long_term_frame_idx; if(frame_idx_node1 > frame_idx_node2) { ps_pic_buf = ps_dpb_node1->ps_pic_buf; ps_dpb_node1->ps_pic_buf = ps_dpb_node2->ps_pic_buf; ps_dpb_node2->ps_pic_buf = ps_pic_buf; } } } /** * For frames and complementary field pairs, * ensure first_field_type appears first in the list */ ps_dpb_node1 = ps_dpb_mgr->ps_dpb_long_term_head; ps_dpb_node2 = ps_dpb_node1->ps_prev_dpb; while(ps_dpb_node2 != NULL) { pic_buf_t *ps_pic_node1 = ps_dpb_node1->ps_pic_buf; pic_buf_t *ps_pic_node2 = ps_dpb_node2->ps_pic_buf; frame_idx_node1 = ps_pic_node1->i4_long_term_frame_idx; frame_idx_node2 = ps_pic_node2->i4_long_term_frame_idx; if(frame_idx_node1 == frame_idx_node2) { ASSERT(ps_pic_node1->i1_field_type != ps_pic_node2->i1_field_type); if(ps_pic_node1->i1_field_type != first_field_type) { ps_dpb_node1->ps_pic_buf = ps_pic_node2; ps_dpb_node2->ps_pic_buf = ps_pic_node1; } } ps_dpb_node1 = ps_dpb_node2; ps_dpb_node2 = ps_dpb_node2->ps_prev_dpb; } return 0; } /** ******************************************************************************* * * @brief * Function to alternate fields. * * @par Description: * In the ordered list of fields, alternate fields starting with * first_field_type * * @param[in] ps_dpb_mgr * Pointer to the DPB manager structure * * @param[in] reference_type * This is used to select between short-term and long-term linked list. * * @param[in] first_field_type * For complementary fields, required first field * * @returns * * @remarks * * ******************************************************************************* */ WORD32 ih264_dpb_mgr_alternate_ref_fields(dpb_mgr_t *ps_dpb_mgr, WORD32 reference_type, WORD32 first_field_type) { dpb_info_t s_dpb_head; dpb_info_t *ps_dpb_head; dpb_info_t *ps_dpb_node1; dpb_info_t *ps_dpb_node2; dpb_info_t *ps_dpb_node3; dpb_info_t *ps_dpb_node4; WORD32 expected_field; expected_field = first_field_type; ps_dpb_head = &s_dpb_head; ps_dpb_head->ps_prev_dpb = (reference_type == SHORT_TERM_REF) ? ps_dpb_mgr->ps_dpb_short_term_head: ps_dpb_mgr->ps_dpb_long_term_head; ps_dpb_node1 = ps_dpb_head; ps_dpb_node2 = ps_dpb_node1->ps_prev_dpb; while(ps_dpb_node2 != NULL) { pic_buf_t *ps_pic_node2 = ps_dpb_node2->ps_pic_buf; if(ps_pic_node2->i1_field_type != expected_field) { /* * If it is not expected field, loop over the node till * the expected field. */ ps_dpb_node3 = ps_dpb_node2; ps_dpb_node4 = ps_dpb_node2->ps_prev_dpb; while((ps_dpb_node4 != NULL) && (ps_dpb_node4->ps_pic_buf->i1_field_type != expected_field)) { ps_dpb_node3 = ps_dpb_node4; ps_dpb_node4 = ps_dpb_node4->ps_prev_dpb; } if(ps_dpb_node4 != NULL) { ps_dpb_node1->ps_prev_dpb = ps_dpb_node4; ps_dpb_node3->ps_prev_dpb = ps_dpb_node4->ps_prev_dpb; ps_dpb_node4->ps_prev_dpb = ps_dpb_node2; } else { /* node4 null means we have reached the end */ break; } } ps_dpb_node1 = ps_dpb_node1->ps_prev_dpb; ps_dpb_node2 = ps_dpb_node1->ps_prev_dpb; expected_field = (ps_dpb_node1->ps_pic_buf->i1_field_type == TOP_FIELD)? BOTTOM_FIELD:TOP_FIELD; } if(reference_type == SHORT_TERM_REF) { ps_dpb_mgr->ps_dpb_short_term_head = ps_dpb_head->ps_prev_dpb; } else { ps_dpb_mgr->ps_dpb_long_term_head = ps_dpb_head->ps_prev_dpb; } return 0; } /** ******************************************************************************* * * @brief * Add a ref field to short-term or long-term linked list. * * @par Description: * This function adds a ref field to either short-term or long-term linked * list. It picks up memory for the link from the array of dpb_info in * dpb_mgr. The field is added to the beginning of the linked list and the * head is set the the field. * * @param[in] ps_dpb_mgr * Pointer to the DPB manager structure * * @param[in] ps_pic_buf * Pic buf structure for the field being added. * * @param[in] reference_type * This is used to select between short-term and long-term linked list. * * @param[in] frame_num * frame_num for the field. * * @param[in] long_term_frame_idx * If the ref being added is long-term, long_term_frame_idx of the field. * Otherwise invalid. * * @returns * * @remarks * * ******************************************************************************* */ WORD32 ih264_dpb_mgr_insert_ref_field(dpb_mgr_t *ps_dpb_mgr, pic_buf_t *ps_pic_buf, WORD32 reference_type, UWORD32 frame_num, WORD32 long_term_frame_idx) { WORD32 i; dpb_info_t *ps_dpb_info; dpb_info_t *ps_dpb_head; ps_dpb_info = ps_dpb_mgr->as_dpb_info; /* Return error if buffer is already present in the DPB */ for(i = 0; i < MAX_DPB_BUFS; i++) { if( (ps_dpb_info[i].ps_pic_buf == ps_pic_buf) && (ps_dpb_info[i].ps_pic_buf->i4_used_as_ref == reference_type) ) { return (-1); } } /* Find an unused DPB location */ for(i = 0; i < MAX_DPB_BUFS; i++) { if(NULL == ps_dpb_info[i].ps_pic_buf) { break; } } if(i == MAX_DPB_BUFS) { return (-1); } ps_dpb_head = (reference_type == SHORT_TERM_REF) ?ps_dpb_mgr->ps_dpb_short_term_head :ps_dpb_mgr->ps_dpb_long_term_head; if(reference_type == SHORT_TERM_REF) long_term_frame_idx = -1; /* Create DPB info */ ps_dpb_info[i].ps_pic_buf = ps_pic_buf; ps_dpb_info[i].ps_prev_dpb = ps_dpb_head; ps_dpb_info[i].ps_pic_buf->i4_used_as_ref = reference_type; ps_dpb_info[i].ps_pic_buf->i4_frame_num = frame_num; ps_dpb_info[i].ps_pic_buf->i4_long_term_frame_idx = long_term_frame_idx; /* update the head node of linked list to point to the current picture */ if(reference_type == SHORT_TERM_REF) { ps_dpb_mgr->ps_dpb_short_term_head = ps_dpb_info + i; /* Increment Short term buffer count */ ps_dpb_mgr->u1_num_short_term_ref_bufs++; } else { ps_dpb_mgr->ps_dpb_long_term_head = ps_dpb_info + i; /* Increment Long term buffer count */ ps_dpb_mgr->u1_num_long_term_ref_bufs++; } return 0; } /** ******************************************************************************* * * @brief * Add a ref frame to short-term or long-term linked list. * * @par Description: * This function adds a ref frame to either short-term or long-term linked * list. Internally it calls add ref field twice to add top and bottom field. * * @param[in] ps_dpb_mgr * Pointer to the DPB manager structure * * @param[in] ps_pic_buf * Pic buf structure for the field being added. * * @param[in] reference_type * This is used to select between short-term and long-term linked list. * * @param[in] frame_num * frame_num for the field. * * @param[in] long_term_frame_idx * If the ref being added is long-term, long_term_frame_idx of the field. * Otherwise invalid. * * @returns * * @remarks * * ******************************************************************************* */ WORD32 ih264_dpb_mgr_insert_ref_frame(dpb_mgr_t *ps_dpb_mgr, pic_buf_t *ps_pic_buf, WORD32 reference_type, UWORD32 frame_num, WORD32 long_term_frame_idx) { WORD32 buf_id; pic_buf_t *ps_pic_top; pic_buf_t *ps_pic_bottom; WORD32 ret; /* * For a frame, since the ps_pic_buf passed to this function is that of top field * obtain bottom field using buf_id. */ ps_pic_top = ps_pic_buf; buf_id = ps_pic_top->i4_buf_id; ps_pic_bottom = &ps_dpb_mgr->as_bottom_field_pics[buf_id]; /* Insert top field */ ret = ih264_dpb_mgr_insert_ref_field(ps_dpb_mgr, ps_pic_top, reference_type, frame_num, long_term_frame_idx); if(ret != 0) return ret; /* Insert bottom field */ ret = ih264_dpb_mgr_insert_ref_field(ps_dpb_mgr, ps_pic_bottom, reference_type, frame_num, long_term_frame_idx); if(ret != 0) return ret; return ret; } /** ******************************************************************************* * * @brief * Returns the number of ref frames in both the linked list. * * @par Description: * Returns the count of number of frames, number of complementary field pairs * and number of unpaired fields. * * @param[in] ps_dpb_mgr * Pointer to the DPB manager structure * * @param[in] curr_frame_num * frame_num for the field. * * @param[in] max_frame_num * Maximum frame_num allowed * * @returns * * @remarks * * ******************************************************************************* */ WORD32 ih264_dpb_mgr_count_ref_frames(dpb_mgr_t *ps_dpb_mgr, WORD32 curr_frame_num, WORD32 max_frame_num) { WORD32 numShortTerm = 0; WORD32 numLongTerm = 0; dpb_info_t *ps_dpb_node; WORD32 frame_num; WORD32 prev_frame_num; /* * Compute the number of short-term frames/complementary field pairs/ * unpaired fields */ if(ps_dpb_mgr->ps_dpb_short_term_head != NULL) { /* Sort the short-term list by frame_num */ ih264_dpb_mgr_sort_short_term_fields_by_frame_num(ps_dpb_mgr, curr_frame_num, TOP_FIELD, max_frame_num); ps_dpb_node = ps_dpb_mgr->ps_dpb_short_term_head; if(ps_dpb_node != NULL) { numShortTerm++; prev_frame_num = ps_dpb_node->ps_pic_buf->i4_frame_num; ps_dpb_node = ps_dpb_node->ps_prev_dpb; } while(ps_dpb_node != NULL) { frame_num = ps_dpb_node->ps_pic_buf->i4_frame_num; if(frame_num != prev_frame_num) numShortTerm++; prev_frame_num = ps_dpb_node->ps_pic_buf->i4_frame_num; ps_dpb_node = ps_dpb_node->ps_prev_dpb; } } /* * Compute the number of long-term frames/complementary field pairs/ * unpaired fields */ if(ps_dpb_mgr->ps_dpb_long_term_head != NULL) { ih264_dpb_mgr_sort_long_term_fields_by_frame_idx(ps_dpb_mgr, TOP_FIELD); ps_dpb_node = ps_dpb_mgr->ps_dpb_long_term_head; if(ps_dpb_node != NULL) { numLongTerm++; prev_frame_num = ps_dpb_node->ps_pic_buf->i4_frame_num; ps_dpb_node = ps_dpb_node->ps_prev_dpb; } while(ps_dpb_node != NULL) { frame_num = ps_dpb_node->ps_pic_buf->i4_frame_num; if(frame_num != prev_frame_num) numLongTerm++; prev_frame_num = ps_dpb_node->ps_pic_buf->i4_frame_num; ps_dpb_node = ps_dpb_node->ps_prev_dpb; } } return (numShortTerm + numLongTerm); } /** ******************************************************************************* * * @brief * Deletes the ref frame at the end of the linked list. * * @par Description: * Deletes the ref frame at the end of the linked list. For unpaired fields, * it deletes just the last node. For frame or complementary field pair, it * deletes the last two nodes. * * @param[in] ps_dpb_mgr * Pointer to the DPB manager structure * * @param[in] reference_type * This is used to select between short-term and long-term linked list. * * @returns * * @remarks * * ******************************************************************************* */ WORD32 ih264_dpb_mgr_delete_ref_frame(dpb_mgr_t *ps_dpb_mgr, WORD32 reference_type) { dpb_info_t *ps_dpb_node1; dpb_info_t *ps_dpb_node2; dpb_info_t *ps_dpb_node3; /* * Assumption: The nodes sorted for frame num. */ /* Select bw short-term and long-term list. */ ps_dpb_node1 = (reference_type == SHORT_TERM_REF) ?ps_dpb_mgr->ps_dpb_short_term_head :ps_dpb_mgr->ps_dpb_long_term_head; /* If null, no entries in the list. Hence return. */ if(ps_dpb_node1 == NULL) return 0; /* If only one node in the list, set as unsed for refer and return. */ if(ps_dpb_node1->ps_prev_dpb == NULL) { /* Set the picture as unused for reference */ ps_dpb_node1->ps_pic_buf->i4_used_as_ref = UNUSED_FOR_REF; ps_dpb_node1->ps_pic_buf = NULL; if(reference_type == SHORT_TERM_REF) { ps_dpb_mgr->ps_dpb_short_term_head = NULL; /* Increment Short term buffer count */ ps_dpb_mgr->u1_num_short_term_ref_bufs = 0; } else { ps_dpb_mgr->ps_dpb_long_term_head = NULL; /* Increment Long term buffer count */ ps_dpb_mgr->u1_num_long_term_ref_bufs = 0; } return 0; } /** * If there are only 2 nodes in the list, set second node as unused for reference. * If the frame_num of second node and first node is same, set first node also as * unused for reference and set the corresponding head to NULL. */ ps_dpb_node2 = ps_dpb_node1->ps_prev_dpb; if(ps_dpb_node2->ps_prev_dpb == NULL) { /* Set the picture as unused for reference */ if(ps_dpb_node2->ps_pic_buf->i4_frame_num == ps_dpb_node1->ps_pic_buf->i4_frame_num) { /* Set the picture as unused for reference */ ps_dpb_node1->ps_pic_buf->i4_used_as_ref = UNUSED_FOR_REF; ps_dpb_node1->ps_pic_buf = NULL; if(reference_type == SHORT_TERM_REF) { ps_dpb_mgr->ps_dpb_short_term_head = NULL; /* Increment Short term buffer count */ ps_dpb_mgr->u1_num_short_term_ref_bufs = 0; } else { ps_dpb_mgr->ps_dpb_long_term_head = NULL; /* Increment Long term buffer count */ ps_dpb_mgr->u1_num_long_term_ref_bufs = 0; } } ps_dpb_node2->ps_pic_buf->i4_used_as_ref = UNUSED_FOR_REF; ps_dpb_node2->ps_pic_buf = NULL; ps_dpb_node1->ps_prev_dpb = NULL; return 0; } /* * If there are more than 2 nodes, run a loop to get the last 3 nodes. */ ps_dpb_node3 = ps_dpb_node2->ps_prev_dpb; while(ps_dpb_node3->ps_prev_dpb != NULL) { ps_dpb_node1 = ps_dpb_node2; ps_dpb_node2 = ps_dpb_node3; ps_dpb_node3 = ps_dpb_node3->ps_prev_dpb; } /* * If node 2 and node 3 frame_nums are same, set node 2 also as unsed for * reference and del reference from node1. */ if(ps_dpb_node2->ps_pic_buf->i4_frame_num == ps_dpb_node3->ps_pic_buf->i4_frame_num) { ps_dpb_node2->ps_pic_buf->i4_used_as_ref = UNUSED_FOR_REF; ps_dpb_node2->ps_pic_buf = NULL; ps_dpb_node1->ps_prev_dpb = NULL; } /* Set the third node as unused for reference */ ps_dpb_node3->ps_pic_buf->i4_used_as_ref = UNUSED_FOR_REF; ps_dpb_node3->ps_pic_buf = NULL; ps_dpb_node2->ps_prev_dpb = NULL; return 0; } /** ******************************************************************************* * * @brief * Delete long-term ref fields above max frame idx. * * @par Description: * Deletes all the long-term ref fields having idx greater than max_frame_idx * * @param[in] ps_dpb_mgr * Pointer to the DPB manager structure * * @param[in] max_frame_idx * Max long-term frame idx allowed. * * @returns * * @remarks * * ******************************************************************************* */ WORD32 ih264_dpb_mgr_delete_long_ref_fields_max_frame_idx(dpb_mgr_t *ps_dpb_mgr, WORD32 max_frame_idx) { dpb_info_t *ps_dpb_node1; dpb_info_t *ps_dpb_node2; /* * Loop until there is node which isn't to be deleted is encountered. */ while(ps_dpb_mgr->ps_dpb_long_term_head != NULL) { if(ps_dpb_mgr->ps_dpb_long_term_head->ps_pic_buf->i4_long_term_frame_idx <= max_frame_idx) { break; } ps_dpb_mgr->ps_dpb_long_term_head->ps_pic_buf->i4_used_as_ref = UNUSED_FOR_REF; ps_dpb_mgr->ps_dpb_long_term_head->ps_pic_buf = NULL; ps_dpb_mgr->ps_dpb_long_term_head = ps_dpb_mgr->ps_dpb_long_term_head->ps_prev_dpb; } ps_dpb_node1 = ps_dpb_mgr->ps_dpb_long_term_head; if(ps_dpb_node1 == NULL) return 0; /* * With the node that isn't to be deleted as head, loop until the end. */ ps_dpb_node2 = ps_dpb_node1->ps_prev_dpb; while(ps_dpb_node2 != NULL) { if(ps_dpb_node2->ps_pic_buf->i4_long_term_frame_idx > max_frame_idx) { ps_dpb_node2->ps_pic_buf->i4_used_as_ref = UNUSED_FOR_REF; ps_dpb_node2->ps_pic_buf = NULL; ps_dpb_node1->ps_prev_dpb = ps_dpb_node2->ps_prev_dpb; } ps_dpb_node1 = ps_dpb_node1->ps_prev_dpb; if(ps_dpb_node1 == NULL) break; ps_dpb_node2 = ps_dpb_node1->ps_prev_dpb; } return 0; } /** ******************************************************************************* * * @brief * Deletes the short-term with least frame_num * * @par Description: * Deletes the short-term with least frame_num. It sorts the function the * short-term linked list by frame-num and the function that deletes the last * frame in the linked list. * * @param[in] ps_dpb_mgr * Pointer to the DPB manager structure * * @param[in] curr_frame_num * frame_num of the current pic * * @param[in] max_frame_num * Maximum frame_num allowed * * @returns * * @remarks * * ******************************************************************************* */ WORD32 ih264_dpb_mgr_delete_short_ref_frame(dpb_mgr_t *ps_dpb_mgr, WORD32 curr_frame_num, WORD32 max_frame_num) { WORD32 ret; /* Sort the short-term list by frame_num */ ret = ih264_dpb_mgr_sort_short_term_fields_by_frame_num(ps_dpb_mgr, curr_frame_num, TOP_FIELD, max_frame_num); /* Delete the last reference frame or field */ ret = ih264_dpb_mgr_delete_ref_frame(ps_dpb_mgr,SHORT_TERM_REF); if(ret != 0) { ASSERT(0); } return ret; } /** ******************************************************************************* * * @brief * Deletes all the ref frames. * * @par Description: * Deletes all of the ref frames/fields in the short-term and long-term linked * list. * * @param[in] ps_dpb_mgr * Pointer to the DPB manager structure * * @returns * * @remarks * * ******************************************************************************* */ WORD32 ih264_dpb_mgr_delete_all_ref_frames(dpb_mgr_t *ps_dpb_mgr) { /* Loop over short-term linked list. */ while(ps_dpb_mgr->ps_dpb_short_term_head != NULL) { ih264_dpb_mgr_delete_ref_frame(ps_dpb_mgr,SHORT_TERM_REF); } /* Loop over long-term linked list. */ while(ps_dpb_mgr->ps_dpb_long_term_head != NULL) { ih264_dpb_mgr_delete_ref_frame(ps_dpb_mgr,LONG_TERM_REF); } return 0; } void ih264_dpb_mgr_reset(dpb_mgr_t *ps_dpb_mgr, buf_mgr_t *ps_buf_mgr) { WORD32 i; dpb_info_t *ps_dpb_info; ASSERT(0); ps_dpb_info = ps_dpb_mgr->as_dpb_info; for(i = 0; i < MAX_DPB_BUFS; i++) { if(ps_dpb_info[i].ps_pic_buf->i4_used_as_ref) { ps_dpb_info[i].ps_pic_buf->i4_used_as_ref = UNUSED_FOR_REF; ps_dpb_info[i].ps_prev_dpb = NULL; //Release physical buffer ih264_buf_mgr_release(ps_buf_mgr, ps_dpb_info[i].ps_pic_buf->i4_buf_id, BUF_MGR_REF); ps_dpb_info[i].ps_pic_buf = NULL; } } ps_dpb_mgr->u1_num_short_term_ref_bufs = 0; ps_dpb_mgr->u1_num_long_term_ref_bufs = 0; ps_dpb_mgr->ps_dpb_short_term_head = NULL; ps_dpb_mgr->ps_dpb_long_term_head = NULL; } /** ******************************************************************************* * * @brief * deletes all pictures from DPB * * @par Description: * Deletes all pictures present in the DPB manager * * @param[in] ps_buf_mgr * Pointer to buffer manager structure * * @param[in] u1_disp_bufs * Number of buffers to be deleted * * @returns * * @remarks * * ******************************************************************************* */ void ih264_dpb_mgr_release_pics(buf_mgr_t *ps_buf_mgr, UWORD8 u1_disp_bufs) { WORD8 i; UWORD32 buf_status; ASSERT(0); for(i = 0; i < u1_disp_bufs; i++) { buf_status = ih264_buf_mgr_get_status(ps_buf_mgr, i); if(0 != buf_status) { ih264_buf_mgr_release((buf_mgr_t *)ps_buf_mgr, i, BUF_MGR_REF); } } }