analyze 77 libde265/encoder/algo/algo.h virtual enc_cb* analyze(encoder_context*, analyze 88 libde265/encoder/algo/algo.h virtual enc_cb* analyze(encoder_context*, analyze 46 libde265/encoder/algo/cb-interpartmode.cc cb = mChildAlgo->analyze(ectx, ctxModel, cb, 0, x,y,1<<log2Size,1<<log2Size); analyze 51 libde265/encoder/algo/cb-interpartmode.cc descend(cb,"NxN(1/4)"); cb = mChildAlgo->analyze(ectx, ctxModel, cb, 0, x ,y ,s,s); ascend(); analyze 52 libde265/encoder/algo/cb-interpartmode.cc descend(cb,"NxN(2/4)"); cb = mChildAlgo->analyze(ectx, ctxModel, cb, 1, x+s,y ,s,s); ascend(); analyze 53 libde265/encoder/algo/cb-interpartmode.cc descend(cb,"NxN(3/4)"); cb = mChildAlgo->analyze(ectx, ctxModel, cb, 2, x ,y+s,s,s); ascend(); analyze 54 libde265/encoder/algo/cb-interpartmode.cc descend(cb,"NxN(4/4)"); cb = mChildAlgo->analyze(ectx, ctxModel, cb, 3, x+s,y+s,s,s); ascend(); analyze 59 libde265/encoder/algo/cb-interpartmode.cc descend(cb,"2NxN(1/2)"); cb = mChildAlgo->analyze(ectx, ctxModel, cb, 0, x,y ,w,s); ascend(); analyze 60 libde265/encoder/algo/cb-interpartmode.cc descend(cb,"2NxN(2/2)"); cb = mChildAlgo->analyze(ectx, ctxModel, cb, 1, x,y+s,w,s); ascend(); analyze 65 libde265/encoder/algo/cb-interpartmode.cc descend(cb,"Nx2N(1/2)"); cb = mChildAlgo->analyze(ectx, ctxModel, cb, 0, x ,y,s,w); ascend(); analyze 66 libde265/encoder/algo/cb-interpartmode.cc descend(cb,"Nx2N(2/2)"); cb = mChildAlgo->analyze(ectx, ctxModel, cb, 1, x+s,y,s,w); ascend(); analyze 71 libde265/encoder/algo/cb-interpartmode.cc descend(cb,"2NxnU(1/2)"); cb = mChildAlgo->analyze(ectx, ctxModel, cb, 0, x,y ,w,s); ascend(); analyze 72 libde265/encoder/algo/cb-interpartmode.cc descend(cb,"2NxnU(2/2)"); cb = mChildAlgo->analyze(ectx, ctxModel, cb, 1, x,y+s,w,w-s); ascend(); analyze 77 libde265/encoder/algo/cb-interpartmode.cc descend(cb,"2NxnD(1/2)"); cb = mChildAlgo->analyze(ectx, ctxModel, cb, 0, x,y ,w,w-s); ascend(); analyze 78 libde265/encoder/algo/cb-interpartmode.cc descend(cb,"2NxnD(2/2)"); cb = mChildAlgo->analyze(ectx, ctxModel, cb, 1, x,y+w-s,w,s); ascend(); analyze 83 libde265/encoder/algo/cb-interpartmode.cc descend(cb,"nLx2N(1/2)"); cb = mChildAlgo->analyze(ectx, ctxModel, cb, 0, x ,y,s ,w); ascend(); analyze 84 libde265/encoder/algo/cb-interpartmode.cc descend(cb,"nLx2N(2/2)"); cb = mChildAlgo->analyze(ectx, ctxModel, cb, 1, x+s,y,w-s,w); ascend(); analyze 89 libde265/encoder/algo/cb-interpartmode.cc descend(cb,"nRx2N(1/2)"); cb = mChildAlgo->analyze(ectx, ctxModel, cb, 0, x ,y,w-s,w); ascend(); analyze 90 libde265/encoder/algo/cb-interpartmode.cc descend(cb,"nRx2N(2/2)"); cb = mChildAlgo->analyze(ectx, ctxModel, cb, 1, x+w-s,y,s ,w); ascend(); analyze 98 libde265/encoder/algo/cb-interpartmode.h virtual enc_cb* analyze(encoder_context*, analyze 79 libde265/encoder/algo/cb-intra-inter.cc cb_result=mInterAlgo->analyze(ectx, option_inter.get_context(), cb_inter); analyze 110 libde265/encoder/algo/cb-intra-inter.cc cb_result=mIntraAlgo->analyze(ectx, option_intra.get_context(), cb_intra); analyze 63 libde265/encoder/algo/cb-intra-inter.h virtual enc_cb* analyze(encoder_context*, analyze 89 libde265/encoder/algo/cb-intrapartmode.cc cb->transform_tree = mTBIntraPredModeAlgo->analyze(ectx, option[p].get_context(), analyze 155 libde265/encoder/algo/cb-intrapartmode.cc cb->transform_tree = mTBIntraPredModeAlgo->analyze(ectx, ctxModel, analyze 80 libde265/encoder/algo/cb-intrapartmode.h virtual enc_cb* analyze(encoder_context*, analyze 97 libde265/encoder/algo/cb-intrapartmode.h virtual enc_cb* analyze(encoder_context*, analyze 138 libde265/encoder/algo/cb-intrapartmode.h virtual enc_cb* analyze(encoder_context* ectx, analyze 65 libde265/encoder/algo/cb-mergeindex.h virtual enc_cb* analyze(encoder_context*, analyze 74 libde265/encoder/algo/cb-skip.cc cb = mSkipAlgo->analyze(ectx, opt.get_context(), cb); analyze 102 libde265/encoder/algo/cb-skip.cc cb = mNonSkipAlgo->analyze(ectx, opt.get_context(), cb); analyze 65 libde265/encoder/algo/cb-skip.h virtual enc_cb* analyze(encoder_context*, analyze 71 libde265/encoder/algo/cb-split.cc cb->children[i] = analyze(ectx, ctxModel, childCB); analyze 139 libde265/encoder/algo/cb-split.cc cb = mChildAlgo->analyze(ectx, opt.get_context(), cb); analyze 81 libde265/encoder/algo/cb-split.h virtual enc_cb* analyze(encoder_context*, analyze 55 libde265/encoder/algo/ctb-qscale.cc enc_cb* result_cb = mChildAlgo->analyze(ectx,ctxModel,cb); analyze 63 libde265/encoder/algo/ctb-qscale.h virtual enc_cb* analyze(encoder_context*, analyze 96 libde265/encoder/algo/ctb-qscale.h virtual enc_cb* analyze(encoder_context*, analyze 104 libde265/encoder/algo/pb-mv.h virtual enc_cb* analyze(encoder_context*, analyze 166 libde265/encoder/algo/pb-mv.h virtual enc_cb* analyze(encoder_context*, analyze 239 libde265/encoder/algo/tb-intrapredmode.cc tb_option = mTBSplitAlgo->analyze(ectx,option[i].get_context(),input,tb_option, analyze 265 libde265/encoder/algo/tb-intrapredmode.cc enc_tb* new_tb = mTBSplitAlgo->analyze(ectx, ctxModel, input, tb, analyze 360 libde265/encoder/algo/tb-intrapredmode.cc tb = mTBSplitAlgo->analyze(ectx,ctxModel,input,tb, analyze 384 libde265/encoder/algo/tb-intrapredmode.cc enc_tb* nop_tb = mTBSplitAlgo->analyze(ectx, ctxModel, input, tb, analyze 498 libde265/encoder/algo/tb-intrapredmode.cc opt_tb = mTBSplitAlgo->analyze(ectx,option[i].get_context(),input,opt_tb, analyze 523 libde265/encoder/algo/tb-intrapredmode.cc enc_tb* new_tb = mTBSplitAlgo->analyze(ectx, ctxModel, input, tb, analyze 90 libde265/encoder/algo/tb-intrapredmode.h virtual enc_tb* analyze(encoder_context*, analyze 211 libde265/encoder/algo/tb-intrapredmode.h virtual enc_tb* analyze(encoder_context*, analyze 250 libde265/encoder/algo/tb-intrapredmode.h virtual enc_tb* analyze(encoder_context*, analyze 285 libde265/encoder/algo/tb-intrapredmode.h enc_tb* analyze(encoder_context*, analyze 210 libde265/encoder/algo/tb-split.cc tb_no_split = mAlgo_TB_Residual->analyze(ectx, option_no_split.get_context(), analyze 325 libde265/encoder/algo/tb-split.cc tb->children[i] = mAlgo_TB_IntraPredMode->analyze(ectx, ctxModel, input, analyze 333 libde265/encoder/algo/tb-split.cc tb->children[i] = this->analyze(ectx, ctxModel, input, analyze 52 libde265/encoder/algo/tb-split.h virtual enc_tb* analyze(encoder_context*, analyze 114 libde265/encoder/algo/tb-split.h virtual enc_tb* analyze(encoder_context*, analyze 56 libde265/encoder/algo/tb-transform.h virtual enc_tb* analyze(encoder_context*, analyze 71 libde265/encoder/algo/tb-transform.h virtual enc_tb* analyze(encoder_context*, analyze 212 libde265/encoder/encoder-core.cc enc_cb* cb = algo.getAlgoCTBQScale()->analyze(ectx,ctxModel, x0,y0);