/****************************************************************************** * * 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 */ #include <stdio.h> #include <string.h> #include "iv_datatypedef.h" #include "iv.h" #include "impeg2_buf_mgr.h" #include "impeg2_disp_mgr.h" #include "impeg2_defs.h" #include "impeg2_platform_macros.h" #include "impeg2_inter_pred.h" #include "impeg2_idct.h" #include "impeg2_globals.h" #include "impeg2_mem_func.h" #include "impeg2_format_conv.h" #include "impeg2_macros.h" #include "ivd.h" #include "impeg2d.h" #include "impeg2d_bitstream.h" #include "impeg2d_structs.h" #include "impeg2d_vld_tables.h" #include "impeg2d_vld.h" #include "impeg2d_pic_proc.h" #include "impeg2d_debug.h" #include "impeg2d_mc.h" #define BLK_SIZE 8 #define LUMA_BLK_SIZE (2 * (BLK_SIZE)) #define CHROMA_BLK_SIZE (BLK_SIZE) /******************************************************************************* * * Function Name : impeg2d_dec_p_mb_params * * Description : Decodes the parameters for P * * Arguments : * dec : Decoder context * * Values Returned : None *******************************************************************************/ WORD32 impeg2d_dec_p_mb_params(dec_state_t *ps_dec) { stream_t *ps_stream = &ps_dec->s_bit_stream; UWORD16 u2_mb_addr_incr; UWORD16 u2_total_len; UWORD16 u2_len; UWORD16 u2_mb_type; UWORD32 u4_next_word; const dec_mb_params_t *ps_dec_mb_params; if(impeg2d_bit_stream_nxt(ps_stream,1) == 1) { impeg2d_bit_stream_flush(ps_stream,1); } else { u2_mb_addr_incr = impeg2d_get_mb_addr_incr(ps_stream); if(!u2_mb_addr_incr) { return IV_FAIL; } if(0 == ps_dec->u2_first_mb) { /****************************************************************/ /* If the 2nd member of a field picture pair is a P picture and */ /* the first one was an I picture, there cannot be any skipped */ /* MBs in the second field picture */ /****************************************************************/ /* if((dec->picture_structure != FRAME_PICTURE) && (dec->f->FieldFuncCall != 0) && (dec->las->u1_last_coded_vop_type == I)) { core0_err_handler((void *)(VOLParams), ITTMPEG2_ERR_INVALID_MB_SKIP); } */ /****************************************************************/ /* In MPEG-2, the last MB of the row cannot be skipped and the */ /* MBAddrIncr cannot be such that it will take the current MB */ /* beyond the current row */ /* In MPEG-1, the slice could start and end anywhere and is not */ /* restricted to a row like in MPEG-2. Hence this check should */ /* not be done for MPEG-1 streams. */ /****************************************************************/ if(ps_dec->u2_is_mpeg2 && ((ps_dec->u2_mb_x + u2_mb_addr_incr) > ps_dec->u2_num_horiz_mb) ) { u2_mb_addr_incr = ps_dec->u2_num_horiz_mb - ps_dec->u2_mb_x; } if ((u2_mb_addr_incr - 1) > ps_dec->u2_num_mbs_left) { /* If the number of skip MBs are more than the number of MBs * left, indicate error. */ return IV_FAIL; } impeg2d_dec_skip_mbs(ps_dec, (UWORD16)(u2_mb_addr_incr - 1)); } else { /****************************************************************/ /* Section 6.3.17 */ /* The first MB of a slice cannot be skipped */ /* But the mb_addr_incr can be > 1, because at the beginning of */ /* a slice, it indicates the offset from the last MB in the */ /* previous row. Hence for the first slice in a row, the */ /* mb_addr_incr needs to be 1. */ /****************************************************************/ /* MB_x is set to zero whenever MB_y changes. */ ps_dec->u2_mb_x = u2_mb_addr_incr - 1; /* For error resilience */ ps_dec->u2_mb_x = MIN(ps_dec->u2_mb_x, (ps_dec->u2_num_horiz_mb - 1)); ps_dec->u2_num_mbs_left = ((ps_dec->u2_num_vert_mb - ps_dec->u2_mb_y) * ps_dec->u2_num_horiz_mb) - ps_dec->u2_mb_x; /****************************************************************/ /* mb_addr_incr is forced to 1 because in this decoder it is used */ /* more as an indicator of the number of MBs skipped than the */ /* as defined by the standard (Section 6.3.17) */ /****************************************************************/ u2_mb_addr_incr = 1; ps_dec->u2_first_mb = 0; } } u4_next_word = (UWORD16)impeg2d_bit_stream_nxt(ps_stream,16); /*-----------------------------------------------------------------------*/ /* MB type */ /*-----------------------------------------------------------------------*/ { u2_mb_type = ps_dec->pu2_mb_type[BITS((UWORD16)u4_next_word,15,10)]; u2_len = BITS(u2_mb_type,15,8); u2_total_len = u2_len; u4_next_word = (UWORD16)LSW((UWORD16)u4_next_word << u2_len); } /*-----------------------------------------------------------------------*/ /* motion type */ /*-----------------------------------------------------------------------*/ { if((u2_mb_type & MB_FORW_OR_BACK) && ps_dec->u2_read_motion_type) { WORD32 i4_motion_type; ps_dec->u2_motion_type = BITS((UWORD16)u4_next_word,15,14); u2_total_len += MB_MOTION_TYPE_LEN; u4_next_word = (UWORD16)LSW((UWORD16)u4_next_word << MB_MOTION_TYPE_LEN); i4_motion_type = ps_dec->u2_motion_type; if((i4_motion_type == 0) || (i4_motion_type == 4) || (i4_motion_type > 7)) { //TODO : VANG Check for validity i4_motion_type = 1; } } } /*-----------------------------------------------------------------------*/ /* dct type */ /*-----------------------------------------------------------------------*/ { if((u2_mb_type & MB_CODED) && ps_dec->u2_read_dct_type) { ps_dec->u2_field_dct = BIT((UWORD16)u4_next_word,15); u2_total_len += MB_DCT_TYPE_LEN; u4_next_word = (UWORD16)LSW((UWORD16)u4_next_word << MB_DCT_TYPE_LEN); } } /*-----------------------------------------------------------------------*/ /* Quant scale code */ /*-----------------------------------------------------------------------*/ if(u2_mb_type & MB_QUANT) { UWORD16 u2_quant_scale_code; u2_quant_scale_code = BITS((UWORD16)u4_next_word,15,11); ps_dec->u1_quant_scale = (ps_dec->u2_q_scale_type) ? gau1_impeg2_non_linear_quant_scale[u2_quant_scale_code] : (u2_quant_scale_code << 1); u2_total_len += MB_QUANT_SCALE_CODE_LEN; } impeg2d_bit_stream_flush(ps_stream,u2_total_len); /*-----------------------------------------------------------------------*/ /* Set the function pointers */ /*-----------------------------------------------------------------------*/ ps_dec->u2_coded_mb = (UWORD16)(u2_mb_type & MB_CODED); if(u2_mb_type & MB_FORW_OR_BACK) { UWORD16 refPic = !(u2_mb_type & MB_MV_FORW); UWORD16 index = (ps_dec->u2_motion_type); ps_dec->u2_prev_intra_mb = 0; ps_dec->e_mb_pred = (e_pred_direction_t)refPic; ps_dec_mb_params = &ps_dec->ps_func_forw_or_back[index]; ps_dec->s_mb_type = ps_dec_mb_params->s_mb_type; if(NULL == ps_dec_mb_params->pf_func_mb_params) return -1; ps_dec_mb_params->pf_func_mb_params(ps_dec); } else if(u2_mb_type & MB_TYPE_INTRA) { ps_dec->u2_prev_intra_mb = 1; impeg2d_dec_intra_mb(ps_dec); } else { ps_dec->u2_prev_intra_mb = 0; ps_dec->e_mb_pred = FORW; ps_dec->u2_motion_type = 0; impeg2d_dec_0mv_coded_mb(ps_dec); } /*-----------------------------------------------------------------------*/ /* decode cbp */ /*-----------------------------------------------------------------------*/ if((u2_mb_type & MB_TYPE_INTRA)) { ps_dec->u2_cbp = 0x3f; ps_dec->u2_prev_intra_mb = 1; } else { ps_dec->u2_prev_intra_mb = 0; ps_dec->u2_def_dc_pred[Y_LUMA] = 128 << ps_dec->u2_intra_dc_precision; ps_dec->u2_def_dc_pred[U_CHROMA] = 128 << ps_dec->u2_intra_dc_precision; ps_dec->u2_def_dc_pred[V_CHROMA] = 128 << ps_dec->u2_intra_dc_precision; if((ps_dec->u2_coded_mb)) { UWORD16 cbpValue; cbpValue = gau2_impeg2d_cbp_code[impeg2d_bit_stream_nxt(ps_stream,MB_CBP_LEN)]; ps_dec->u2_cbp = cbpValue & 0xFF; impeg2d_bit_stream_flush(ps_stream,(cbpValue >> 8) & 0x0FF); } else { ps_dec->u2_cbp = 0; } } return 0; } /******************************************************************************* * * Function Name : impeg2d_dec_pnb_mb_params * * Description : Decodes the parameters for P and B pictures * * Arguments : * dec : Decoder context * * Values Returned : None *******************************************************************************/ WORD32 impeg2d_dec_pnb_mb_params(dec_state_t *ps_dec) { stream_t *ps_stream = &ps_dec->s_bit_stream; UWORD16 u2_mb_addr_incr; UWORD16 u2_total_len; UWORD16 u2_len; UWORD16 u2_mb_type; UWORD32 u4_next_word; const dec_mb_params_t *ps_dec_mb_params; if(impeg2d_bit_stream_nxt(ps_stream,1) == 1) { impeg2d_bit_stream_flush(ps_stream,1); } else { u2_mb_addr_incr = impeg2d_get_mb_addr_incr(ps_stream); if(0 == u2_mb_addr_incr) { return IV_FAIL; } if(ps_dec->u2_first_mb) { /****************************************************************/ /* Section 6.3.17 */ /* The first MB of a slice cannot be skipped */ /* But the mb_addr_incr can be > 1, because at the beginning of */ /* a slice, it indicates the offset from the last MB in the */ /* previous row. Hence for the first slice in a row, the */ /* mb_addr_incr needs to be 1. */ /****************************************************************/ /* MB_x is set to zero whenever MB_y changes. */ ps_dec->u2_mb_x = u2_mb_addr_incr - 1; /* For error resilience */ ps_dec->u2_mb_x = MIN(ps_dec->u2_mb_x, (ps_dec->u2_num_horiz_mb - 1)); ps_dec->u2_num_mbs_left = ((ps_dec->u2_num_vert_mb - ps_dec->u2_mb_y) * ps_dec->u2_num_horiz_mb) - ps_dec->u2_mb_x; /****************************************************************/ /* mb_addr_incr is forced to 1 because in this decoder it is used */ /* more as an indicator of the number of MBs skipped than the */ /* as defined by the standard (Section 6.3.17) */ /****************************************************************/ u2_mb_addr_incr = 1; ps_dec->u2_first_mb = 0; } else { /****************************************************************/ /* In MPEG-2, the last MB of the row cannot be skipped and the */ /* mb_addr_incr cannot be such that it will take the current MB */ /* beyond the current row */ /* In MPEG-1, the slice could start and end anywhere and is not */ /* restricted to a row like in MPEG-2. Hence this check should */ /* not be done for MPEG-1 streams. */ /****************************************************************/ if(ps_dec->u2_is_mpeg2 && ((ps_dec->u2_mb_x + u2_mb_addr_incr) > ps_dec->u2_num_horiz_mb)) { u2_mb_addr_incr = ps_dec->u2_num_horiz_mb - ps_dec->u2_mb_x; } if ((u2_mb_addr_incr - 1) > ps_dec->u2_num_mbs_left) { /* If the number of skip MBs are more than the number of MBs * left, indicate error. */ return IV_FAIL; } impeg2d_dec_skip_mbs(ps_dec, (UWORD16)(u2_mb_addr_incr - 1)); } } u4_next_word = (UWORD16)impeg2d_bit_stream_nxt(ps_stream,16); /*-----------------------------------------------------------------------*/ /* MB type */ /*-----------------------------------------------------------------------*/ { u2_mb_type = ps_dec->pu2_mb_type[BITS((UWORD16)u4_next_word,15,10)]; u2_len = BITS(u2_mb_type,15,8); u2_total_len = u2_len; u4_next_word = (UWORD16)LSW((UWORD16)u4_next_word << u2_len); } /*-----------------------------------------------------------------------*/ /* motion type */ /*-----------------------------------------------------------------------*/ { WORD32 i4_motion_type = ps_dec->u2_motion_type; if((u2_mb_type & MB_FORW_OR_BACK) && ps_dec->u2_read_motion_type) { ps_dec->u2_motion_type = BITS((UWORD16)u4_next_word,15,14); u2_total_len += MB_MOTION_TYPE_LEN; u4_next_word = (UWORD16)LSW((UWORD16)u4_next_word << MB_MOTION_TYPE_LEN); i4_motion_type = ps_dec->u2_motion_type; } if ((u2_mb_type & MB_FORW_OR_BACK) && ((i4_motion_type == 0) || (i4_motion_type == 3) || (i4_motion_type == 4) || (i4_motion_type >= 7))) { //TODO: VANG Check for validity i4_motion_type = 1; } } /*-----------------------------------------------------------------------*/ /* dct type */ /*-----------------------------------------------------------------------*/ { if((u2_mb_type & MB_CODED) && ps_dec->u2_read_dct_type) { ps_dec->u2_field_dct = BIT((UWORD16)u4_next_word,15); u2_total_len += MB_DCT_TYPE_LEN; u4_next_word = (UWORD16)LSW((UWORD16)u4_next_word << MB_DCT_TYPE_LEN); } } /*-----------------------------------------------------------------------*/ /* Quant scale code */ /*-----------------------------------------------------------------------*/ if(u2_mb_type & MB_QUANT) { UWORD16 u2_quant_scale_code; u2_quant_scale_code = BITS((UWORD16)u4_next_word,15,11); ps_dec->u1_quant_scale = (ps_dec->u2_q_scale_type) ? gau1_impeg2_non_linear_quant_scale[u2_quant_scale_code] : (u2_quant_scale_code << 1); u2_total_len += MB_QUANT_SCALE_CODE_LEN; } impeg2d_bit_stream_flush(ps_stream,u2_total_len); /*-----------------------------------------------------------------------*/ /* Set the function pointers */ /*-----------------------------------------------------------------------*/ ps_dec->u2_coded_mb = (UWORD16)(u2_mb_type & MB_CODED); if(u2_mb_type & MB_BIDRECT) { UWORD16 u2_index = (ps_dec->u2_motion_type); ps_dec->u2_prev_intra_mb = 0; ps_dec->e_mb_pred = BIDIRECT; ps_dec_mb_params = &ps_dec->ps_func_bi_direct[u2_index]; ps_dec->s_mb_type = ps_dec_mb_params->s_mb_type; if(NULL == ps_dec_mb_params->pf_func_mb_params) return -1; ps_dec_mb_params->pf_func_mb_params(ps_dec); } else if(u2_mb_type & MB_FORW_OR_BACK) { UWORD16 u2_refPic = !(u2_mb_type & MB_MV_FORW); UWORD16 u2_index = (ps_dec->u2_motion_type); ps_dec->u2_prev_intra_mb = 0; ps_dec->e_mb_pred = (e_pred_direction_t)u2_refPic; ps_dec_mb_params = &ps_dec->ps_func_forw_or_back[u2_index]; ps_dec->s_mb_type = ps_dec_mb_params->s_mb_type; if(NULL == ps_dec_mb_params->pf_func_mb_params) return -1; ps_dec_mb_params->pf_func_mb_params(ps_dec); } else if(u2_mb_type & MB_TYPE_INTRA) { ps_dec->u2_prev_intra_mb = 1; impeg2d_dec_intra_mb(ps_dec); } else { ps_dec->u2_prev_intra_mb =0; ps_dec->e_mb_pred = FORW; ps_dec->u2_motion_type = 0; impeg2d_dec_0mv_coded_mb(ps_dec); } /*-----------------------------------------------------------------------*/ /* decode cbp */ /*-----------------------------------------------------------------------*/ if((u2_mb_type & MB_TYPE_INTRA)) { ps_dec->u2_cbp = 0x3f; ps_dec->u2_prev_intra_mb = 1; } else { ps_dec->u2_prev_intra_mb = 0; ps_dec->u2_def_dc_pred[Y_LUMA] = 128 << ps_dec->u2_intra_dc_precision; ps_dec->u2_def_dc_pred[U_CHROMA] = 128 << ps_dec->u2_intra_dc_precision; ps_dec->u2_def_dc_pred[V_CHROMA] = 128 << ps_dec->u2_intra_dc_precision; if((ps_dec->u2_coded_mb)) { UWORD16 cbpValue; cbpValue = gau2_impeg2d_cbp_code[impeg2d_bit_stream_nxt(ps_stream,MB_CBP_LEN)]; ps_dec->u2_cbp = cbpValue & 0xFF; impeg2d_bit_stream_flush(ps_stream,(cbpValue >> 8) & 0x0FF); } else { ps_dec->u2_cbp = 0; } } return 0; } /******************************************************************************* * Function Name : impeg2d_dec_p_b_slice * * Description : Decodes P and B slices * * Arguments : * dec : Decoder state * * Values Returned : None *******************************************************************************/ IMPEG2D_ERROR_CODES_T impeg2d_dec_p_b_slice(dec_state_t *ps_dec) { WORD16 *pi2_vld_out; UWORD32 i; yuv_buf_t *ps_cur_frm_buf = &ps_dec->s_cur_frm_buf; UWORD32 u4_frm_offset = 0; const dec_mb_params_t *ps_dec_mb_params; IMPEG2D_ERROR_CODES_T e_error = (IMPEG2D_ERROR_CODES_T)IVD_ERROR_NONE; pi2_vld_out = ps_dec->ai2_vld_buf; memset(ps_dec->ai2_pred_mv,0,sizeof(ps_dec->ai2_pred_mv)); ps_dec->u2_prev_intra_mb = 0; ps_dec->u2_first_mb = 1; ps_dec->u2_picture_width = ps_dec->u2_frame_width; if(ps_dec->u2_picture_structure != FRAME_PICTURE) { ps_dec->u2_picture_width <<= 1; if(ps_dec->u2_picture_structure == BOTTOM_FIELD) { u4_frm_offset = ps_dec->u2_frame_width; } } do { UWORD32 u4_x_offset, u4_y_offset; WORD32 ret; UWORD32 u4_x_dst_offset = 0; UWORD32 u4_y_dst_offset = 0; UWORD8 *pu1_out_p; UWORD8 *pu1_pred; WORD32 u4_pred_strd; IMPEG2D_TRACE_MB_START(ps_dec->u2_mb_x, ps_dec->u2_mb_y); if(ps_dec->e_pic_type == B_PIC) ret = impeg2d_dec_pnb_mb_params(ps_dec); else ret = impeg2d_dec_p_mb_params(ps_dec); if(ret) return IMPEG2D_MB_TEX_DECODE_ERR; if(0 >= ps_dec->u2_num_mbs_left) { break; } IMPEG2D_TRACE_MB_START(ps_dec->u2_mb_x, ps_dec->u2_mb_y); u4_x_dst_offset = u4_frm_offset + (ps_dec->u2_mb_x << 4); u4_y_dst_offset = (ps_dec->u2_mb_y << 4) * ps_dec->u2_picture_width; pu1_out_p = ps_cur_frm_buf->pu1_y + u4_x_dst_offset + u4_y_dst_offset; if(ps_dec->u2_prev_intra_mb == 0) { UWORD32 offset_x, offset_y, stride; UWORD16 index = (ps_dec->u2_motion_type); /*only for non intra mb's*/ if(ps_dec->e_mb_pred == BIDIRECT) { ps_dec_mb_params = &ps_dec->ps_func_bi_direct[index]; } else { ps_dec_mb_params = &ps_dec->ps_func_forw_or_back[index]; } stride = ps_dec->u2_picture_width; offset_x = u4_frm_offset + (ps_dec->u2_mb_x << 4); offset_y = (ps_dec->u2_mb_y << 4); ps_dec->s_dest_buf.pu1_y = ps_cur_frm_buf->pu1_y + offset_y * stride + offset_x; stride = stride >> 1; ps_dec->s_dest_buf.pu1_u = ps_cur_frm_buf->pu1_u + (offset_y >> 1) * stride + (offset_x >> 1); ps_dec->s_dest_buf.pu1_v = ps_cur_frm_buf->pu1_v + (offset_y >> 1) * stride + (offset_x >> 1); PROFILE_DISABLE_MC_IF0 ps_dec_mb_params->pf_mc(ps_dec); } for(i = 0; i < NUM_LUMA_BLKS; ++i) { if((ps_dec->u2_cbp & (1 << (BLOCKS_IN_MB - 1 - i))) != 0) { e_error = ps_dec->pf_vld_inv_quant(ps_dec, pi2_vld_out, ps_dec->pu1_inv_scan_matrix, ps_dec->u2_prev_intra_mb, Y_LUMA, 0); if ((IMPEG2D_ERROR_CODES_T)IVD_ERROR_NONE != e_error) { return e_error; } u4_x_offset = gai2_impeg2_blk_x_off[i]; if(ps_dec->u2_field_dct == 0) u4_y_offset = gai2_impeg2_blk_y_off_frm[i] ; else u4_y_offset = gai2_impeg2_blk_y_off_fld[i] ; IMPEG2D_IDCT_INP_STATISTICS(pi2_vld_out, ps_dec->u4_non_zero_cols, ps_dec->u4_non_zero_rows); PROFILE_DISABLE_IDCT_IF0 { WORD32 idx; if(1 == (ps_dec->u4_non_zero_cols | ps_dec->u4_non_zero_rows)) idx = 0; else idx = 1; if(0 == ps_dec->u2_prev_intra_mb) { pu1_pred = pu1_out_p + u4_y_offset * ps_dec->u2_picture_width + u4_x_offset; u4_pred_strd = ps_dec->u2_picture_width << ps_dec->u2_field_dct; } else { pu1_pred = (UWORD8 *)gau1_impeg2_zerobuf; u4_pred_strd = 8; } ps_dec->pf_idct_recon[idx * 2 + ps_dec->i4_last_value_one](pi2_vld_out, ps_dec->ai2_idct_stg1, pu1_pred, pu1_out_p + u4_y_offset * ps_dec->u2_picture_width + u4_x_offset, 8, u4_pred_strd, ps_dec->u2_picture_width << ps_dec->u2_field_dct, ~ps_dec->u4_non_zero_cols, ~ps_dec->u4_non_zero_rows); } } } /* For U and V blocks, divide the x and y offsets by 2. */ u4_x_dst_offset >>= 1; u4_y_dst_offset >>= 2; /* In case of chrominance blocks the DCT will be frame DCT */ /* i = 0, U component and i = 1 is V componet */ if((ps_dec->u2_cbp & 0x02) != 0) { pu1_out_p = ps_cur_frm_buf->pu1_u + u4_x_dst_offset + u4_y_dst_offset; e_error = ps_dec->pf_vld_inv_quant(ps_dec, pi2_vld_out, ps_dec->pu1_inv_scan_matrix, ps_dec->u2_prev_intra_mb, U_CHROMA, 0); if ((IMPEG2D_ERROR_CODES_T)IVD_ERROR_NONE != e_error) { return e_error; } IMPEG2D_IDCT_INP_STATISTICS(pi2_vld_out, ps_dec->u4_non_zero_cols, ps_dec->u4_non_zero_rows); PROFILE_DISABLE_IDCT_IF0 { WORD32 idx; if(1 == (ps_dec->u4_non_zero_cols | ps_dec->u4_non_zero_rows)) idx = 0; else idx = 1; if(0 == ps_dec->u2_prev_intra_mb) { pu1_pred = pu1_out_p; u4_pred_strd = ps_dec->u2_picture_width >> 1; } else { pu1_pred = (UWORD8 *)gau1_impeg2_zerobuf; u4_pred_strd = 8; } ps_dec->pf_idct_recon[idx * 2 + ps_dec->i4_last_value_one](pi2_vld_out, ps_dec->ai2_idct_stg1, pu1_pred, pu1_out_p, 8, u4_pred_strd, ps_dec->u2_picture_width >> 1, ~ps_dec->u4_non_zero_cols, ~ps_dec->u4_non_zero_rows); } } if((ps_dec->u2_cbp & 0x01) != 0) { pu1_out_p = ps_cur_frm_buf->pu1_v + u4_x_dst_offset + u4_y_dst_offset; e_error = ps_dec->pf_vld_inv_quant(ps_dec, pi2_vld_out, ps_dec->pu1_inv_scan_matrix, ps_dec->u2_prev_intra_mb, V_CHROMA, 0); if ((IMPEG2D_ERROR_CODES_T)IVD_ERROR_NONE != e_error) { return e_error; } IMPEG2D_IDCT_INP_STATISTICS(pi2_vld_out, ps_dec->u4_non_zero_cols, ps_dec->u4_non_zero_rows); PROFILE_DISABLE_IDCT_IF0 { WORD32 idx; if(1 == (ps_dec->u4_non_zero_cols | ps_dec->u4_non_zero_rows)) idx = 0; else idx = 1; if(0 == ps_dec->u2_prev_intra_mb) { pu1_pred = pu1_out_p; u4_pred_strd = ps_dec->u2_picture_width >> 1; } else { pu1_pred = (UWORD8 *)gau1_impeg2_zerobuf; u4_pred_strd = 8; } ps_dec->pf_idct_recon[idx * 2 + ps_dec->i4_last_value_one](pi2_vld_out, ps_dec->ai2_idct_stg1, pu1_pred, pu1_out_p, 8, u4_pred_strd, ps_dec->u2_picture_width >> 1, ~ps_dec->u4_non_zero_cols, ~ps_dec->u4_non_zero_rows); } } ps_dec->u2_num_mbs_left--; ps_dec->u2_first_mb = 0; ps_dec->u2_mb_x++; if(ps_dec->s_bit_stream.u4_offset > ps_dec->s_bit_stream.u4_max_offset) { return IMPEG2D_BITSTREAM_BUFF_EXCEEDED_ERR; } else if (ps_dec->u2_mb_x == ps_dec->u2_num_horiz_mb) { ps_dec->u2_mb_x = 0; ps_dec->u2_mb_y++; } } while(ps_dec->u2_num_mbs_left != 0 && impeg2d_bit_stream_nxt(&ps_dec->s_bit_stream,23) != 0x0); return e_error; }