/************************************************************************** * * Copyright 2017 Advanced Micro Devices, Inc. * All Rights Reserved. * * 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 THE COPYRIGHT HOLDER(S) OR AUTHOR(S) 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. * **************************************************************************/ #include "radeon_vcn_enc.h" #include "pipe/p_video_codec.h" #include "radeon_video.h" #include "radeonsi/si_pipe.h" #include "util/u_memory.h" #include "util/u_video.h" #include "vl/vl_video_buffer.h" #include static const unsigned index_to_shifts[4] = {24, 16, 8, 0}; static void radeon_vcn_enc_get_param(struct radeon_encoder *enc, struct pipe_picture_desc *picture) { if (u_reduce_video_profile(picture->profile) == PIPE_VIDEO_FORMAT_MPEG4_AVC) { struct pipe_h264_enc_picture_desc *pic = (struct pipe_h264_enc_picture_desc *)picture; enc->enc_pic.picture_type = pic->picture_type; enc->enc_pic.frame_num = pic->frame_num; enc->enc_pic.pic_order_cnt = pic->pic_order_cnt; enc->enc_pic.pic_order_cnt_type = pic->pic_order_cnt_type; enc->enc_pic.ref_idx_l0 = pic->ref_idx_l0; enc->enc_pic.ref_idx_l1 = pic->ref_idx_l1; enc->enc_pic.not_referenced = pic->not_referenced; enc->enc_pic.is_idr = (pic->picture_type == PIPE_H264_ENC_PICTURE_TYPE_IDR); if (pic->pic_ctrl.enc_frame_cropping_flag) { enc->enc_pic.crop_left = pic->pic_ctrl.enc_frame_crop_left_offset; enc->enc_pic.crop_right = pic->pic_ctrl.enc_frame_crop_right_offset; enc->enc_pic.crop_top = pic->pic_ctrl.enc_frame_crop_top_offset; enc->enc_pic.crop_bottom = pic->pic_ctrl.enc_frame_crop_bottom_offset; } else { enc->enc_pic.crop_left = 0; enc->enc_pic.crop_right = (align(enc->base.width, 16) - enc->base.width) / 2; enc->enc_pic.crop_top = 0; enc->enc_pic.crop_bottom = (align(enc->base.height, 16) - enc->base.height) / 2; } enc->enc_pic.rc_layer_init.target_bit_rate = pic->rate_ctrl.target_bitrate; enc->enc_pic.rc_layer_init.peak_bit_rate = pic->rate_ctrl.peak_bitrate; enc->enc_pic.rc_layer_init.frame_rate_num = pic->rate_ctrl.frame_rate_num; enc->enc_pic.rc_layer_init.frame_rate_den = pic->rate_ctrl.frame_rate_den; enc->enc_pic.rc_layer_init.vbv_buffer_size = pic->rate_ctrl.vbv_buffer_size; enc->enc_pic.rc_layer_init.avg_target_bits_per_picture = pic->rate_ctrl.target_bits_picture; enc->enc_pic.rc_layer_init.peak_bits_per_picture_integer = pic->rate_ctrl.peak_bits_picture_integer; enc->enc_pic.rc_layer_init.peak_bits_per_picture_fractional = pic->rate_ctrl.peak_bits_picture_fraction; enc->enc_pic.rc_session_init.vbv_buffer_level = pic->rate_ctrl.vbv_buf_lv; enc->enc_pic.rc_per_pic.qp = pic->quant_i_frames; enc->enc_pic.rc_per_pic.min_qp_app = 0; enc->enc_pic.rc_per_pic.max_qp_app = 51; enc->enc_pic.rc_per_pic.max_au_size = 0; enc->enc_pic.rc_per_pic.enabled_filler_data = pic->rate_ctrl.fill_data_enable; enc->enc_pic.rc_per_pic.skip_frame_enable = false; enc->enc_pic.rc_per_pic.enforce_hrd = pic->rate_ctrl.enforce_hrd; switch (pic->rate_ctrl.rate_ctrl_method) { case PIPE_H264_ENC_RATE_CONTROL_METHOD_DISABLE: enc->enc_pic.rc_session_init.rate_control_method = RENCODE_RATE_CONTROL_METHOD_NONE; break; case PIPE_H264_ENC_RATE_CONTROL_METHOD_CONSTANT_SKIP: case PIPE_H264_ENC_RATE_CONTROL_METHOD_CONSTANT: enc->enc_pic.rc_session_init.rate_control_method = RENCODE_RATE_CONTROL_METHOD_CBR; break; case PIPE_H264_ENC_RATE_CONTROL_METHOD_VARIABLE_SKIP: case PIPE_H264_ENC_RATE_CONTROL_METHOD_VARIABLE: enc->enc_pic.rc_session_init.rate_control_method = RENCODE_RATE_CONTROL_METHOD_PEAK_CONSTRAINED_VBR; break; default: enc->enc_pic.rc_session_init.rate_control_method = RENCODE_RATE_CONTROL_METHOD_NONE; } } else if (u_reduce_video_profile(picture->profile) == PIPE_VIDEO_FORMAT_HEVC) { struct pipe_h265_enc_picture_desc *pic = (struct pipe_h265_enc_picture_desc *)picture; enc->enc_pic.picture_type = pic->picture_type; enc->enc_pic.frame_num = pic->frame_num; enc->enc_pic.pic_order_cnt = pic->pic_order_cnt; enc->enc_pic.pic_order_cnt_type = pic->pic_order_cnt_type; enc->enc_pic.ref_idx_l0 = pic->ref_idx_l0; enc->enc_pic.ref_idx_l1 = pic->ref_idx_l1; enc->enc_pic.not_referenced = pic->not_referenced; enc->enc_pic.is_idr = (pic->picture_type == PIPE_H265_ENC_PICTURE_TYPE_IDR) || (pic->picture_type == PIPE_H265_ENC_PICTURE_TYPE_I); enc->enc_pic.crop_left = 0; enc->enc_pic.crop_right = (align(enc->base.width, 16) - enc->base.width) / 2; enc->enc_pic.crop_top = 0; enc->enc_pic.crop_bottom = (align(enc->base.height, 16) - enc->base.height) / 2; enc->enc_pic.general_tier_flag = pic->seq.general_tier_flag; enc->enc_pic.general_profile_idc = pic->seq.general_profile_idc; enc->enc_pic.general_level_idc = pic->seq.general_level_idc; enc->enc_pic.max_poc = MAX2(16, util_next_power_of_two(pic->seq.intra_period)); enc->enc_pic.log2_max_poc = 0; for (int i = enc->enc_pic.max_poc; i != 0; enc->enc_pic.log2_max_poc++) i = (i >> 1); enc->enc_pic.chroma_format_idc = pic->seq.chroma_format_idc; enc->enc_pic.pic_width_in_luma_samples = pic->seq.pic_width_in_luma_samples; enc->enc_pic.pic_height_in_luma_samples = pic->seq.pic_height_in_luma_samples; enc->enc_pic.log2_diff_max_min_luma_coding_block_size = pic->seq.log2_diff_max_min_luma_coding_block_size; enc->enc_pic.log2_min_transform_block_size_minus2 = pic->seq.log2_min_transform_block_size_minus2; enc->enc_pic.log2_diff_max_min_transform_block_size = pic->seq.log2_diff_max_min_transform_block_size; enc->enc_pic.max_transform_hierarchy_depth_inter = pic->seq.max_transform_hierarchy_depth_inter; enc->enc_pic.max_transform_hierarchy_depth_intra = pic->seq.max_transform_hierarchy_depth_intra; enc->enc_pic.log2_parallel_merge_level_minus2 = pic->pic.log2_parallel_merge_level_minus2; enc->enc_pic.bit_depth_luma_minus8 = pic->seq.bit_depth_luma_minus8; enc->enc_pic.bit_depth_chroma_minus8 = pic->seq.bit_depth_chroma_minus8; enc->enc_pic.nal_unit_type = pic->pic.nal_unit_type; enc->enc_pic.max_num_merge_cand = pic->slice.max_num_merge_cand; enc->enc_pic.sample_adaptive_offset_enabled_flag = pic->seq.sample_adaptive_offset_enabled_flag; enc->enc_pic.pcm_enabled_flag = pic->seq.pcm_enabled_flag; enc->enc_pic.sps_temporal_mvp_enabled_flag = pic->seq.sps_temporal_mvp_enabled_flag; enc->enc_pic.hevc_deblock.loop_filter_across_slices_enabled = pic->slice.slice_loop_filter_across_slices_enabled_flag; enc->enc_pic.hevc_deblock.deblocking_filter_disabled = pic->slice.slice_deblocking_filter_disabled_flag; enc->enc_pic.hevc_deblock.beta_offset_div2 = pic->slice.slice_beta_offset_div2; enc->enc_pic.hevc_deblock.tc_offset_div2 = pic->slice.slice_tc_offset_div2; enc->enc_pic.hevc_deblock.cb_qp_offset = pic->slice.slice_cb_qp_offset; enc->enc_pic.hevc_deblock.cr_qp_offset = pic->slice.slice_cr_qp_offset; enc->enc_pic.hevc_spec_misc.log2_min_luma_coding_block_size_minus3 = pic->seq.log2_min_luma_coding_block_size_minus3; enc->enc_pic.hevc_spec_misc.amp_disabled = !pic->seq.amp_enabled_flag; enc->enc_pic.hevc_spec_misc.strong_intra_smoothing_enabled = pic->seq.strong_intra_smoothing_enabled_flag; enc->enc_pic.hevc_spec_misc.constrained_intra_pred_flag = pic->pic.constrained_intra_pred_flag; enc->enc_pic.hevc_spec_misc.cabac_init_flag = pic->slice.cabac_init_flag; enc->enc_pic.hevc_spec_misc.half_pel_enabled = 1; enc->enc_pic.hevc_spec_misc.quarter_pel_enabled = 1; enc->enc_pic.rc_layer_init.target_bit_rate = pic->rc.target_bitrate; enc->enc_pic.rc_layer_init.peak_bit_rate = pic->rc.peak_bitrate; enc->enc_pic.rc_layer_init.frame_rate_num = pic->rc.frame_rate_num; enc->enc_pic.rc_layer_init.frame_rate_den = pic->rc.frame_rate_den; enc->enc_pic.rc_layer_init.vbv_buffer_size = pic->rc.vbv_buffer_size; enc->enc_pic.rc_layer_init.avg_target_bits_per_picture = pic->rc.target_bits_picture; enc->enc_pic.rc_layer_init.peak_bits_per_picture_integer = pic->rc.peak_bits_picture_integer; enc->enc_pic.rc_layer_init.peak_bits_per_picture_fractional = pic->rc.peak_bits_picture_fraction; enc->enc_pic.rc_session_init.vbv_buffer_level = pic->rc.vbv_buf_lv; enc->enc_pic.rc_per_pic.qp = pic->rc.quant_i_frames; enc->enc_pic.rc_per_pic.min_qp_app = 0; enc->enc_pic.rc_per_pic.max_qp_app = 51; enc->enc_pic.rc_per_pic.max_au_size = 0; enc->enc_pic.rc_per_pic.enabled_filler_data = pic->rc.fill_data_enable; enc->enc_pic.rc_per_pic.skip_frame_enable = false; enc->enc_pic.rc_per_pic.enforce_hrd = pic->rc.enforce_hrd; switch (pic->rc.rate_ctrl_method) { case PIPE_H265_ENC_RATE_CONTROL_METHOD_DISABLE: enc->enc_pic.rc_session_init.rate_control_method = RENCODE_RATE_CONTROL_METHOD_NONE; break; case PIPE_H265_ENC_RATE_CONTROL_METHOD_CONSTANT_SKIP: case PIPE_H265_ENC_RATE_CONTROL_METHOD_CONSTANT: enc->enc_pic.rc_session_init.rate_control_method = RENCODE_RATE_CONTROL_METHOD_CBR; break; case PIPE_H265_ENC_RATE_CONTROL_METHOD_VARIABLE_SKIP: case PIPE_H265_ENC_RATE_CONTROL_METHOD_VARIABLE: enc->enc_pic.rc_session_init.rate_control_method = RENCODE_RATE_CONTROL_METHOD_PEAK_CONSTRAINED_VBR; break; default: enc->enc_pic.rc_session_init.rate_control_method = RENCODE_RATE_CONTROL_METHOD_NONE; } } } static void flush(struct radeon_encoder *enc) { enc->ws->cs_flush(enc->cs, PIPE_FLUSH_ASYNC, NULL); } static void radeon_enc_flush(struct pipe_video_codec *encoder) { struct radeon_encoder *enc = (struct radeon_encoder *)encoder; flush(enc); } static void radeon_enc_cs_flush(void *ctx, unsigned flags, struct pipe_fence_handle **fence) { // just ignored } static unsigned get_cpb_num(struct radeon_encoder *enc) { unsigned w = align(enc->base.width, 16) / 16; unsigned h = align(enc->base.height, 16) / 16; unsigned dpb; switch (enc->base.level) { case 10: dpb = 396; break; case 11: dpb = 900; break; case 12: case 13: case 20: dpb = 2376; break; case 21: dpb = 4752; break; case 22: case 30: dpb = 8100; break; case 31: dpb = 18000; break; case 32: dpb = 20480; break; case 40: case 41: dpb = 32768; break; case 42: dpb = 34816; break; case 50: dpb = 110400; break; default: case 51: case 52: dpb = 184320; break; } return MIN2(dpb / (w * h), 16); } static void radeon_enc_begin_frame(struct pipe_video_codec *encoder, struct pipe_video_buffer *source, struct pipe_picture_desc *picture) { struct radeon_encoder *enc = (struct radeon_encoder *)encoder; struct vl_video_buffer *vid_buf = (struct vl_video_buffer *)source; bool need_rate_control = false; if (u_reduce_video_profile(enc->base.profile) == PIPE_VIDEO_FORMAT_MPEG4_AVC) { struct pipe_h264_enc_picture_desc *pic = (struct pipe_h264_enc_picture_desc *)picture; need_rate_control = enc->enc_pic.rc_layer_init.target_bit_rate != pic->rate_ctrl.target_bitrate; } else if (u_reduce_video_profile(picture->profile) == PIPE_VIDEO_FORMAT_HEVC) { struct pipe_h265_enc_picture_desc *pic = (struct pipe_h265_enc_picture_desc *)picture; need_rate_control = enc->enc_pic.rc_layer_init.target_bit_rate != pic->rc.target_bitrate; } radeon_vcn_enc_get_param(enc, picture); enc->get_buffer(vid_buf->resources[0], &enc->handle, &enc->luma); enc->get_buffer(vid_buf->resources[1], NULL, &enc->chroma); enc->need_feedback = false; if (!enc->stream_handle) { struct rvid_buffer fb; enc->stream_handle = si_vid_alloc_stream_handle(); enc->si = CALLOC_STRUCT(rvid_buffer); si_vid_create_buffer(enc->screen, enc->si, 128 * 1024, PIPE_USAGE_STAGING); si_vid_create_buffer(enc->screen, &fb, 4096, PIPE_USAGE_STAGING); enc->fb = &fb; enc->begin(enc); flush(enc); si_vid_destroy_buffer(&fb); } if (need_rate_control) { enc->begin(enc); flush(enc); } } static void radeon_enc_encode_bitstream(struct pipe_video_codec *encoder, struct pipe_video_buffer *source, struct pipe_resource *destination, void **fb) { struct radeon_encoder *enc = (struct radeon_encoder *)encoder; enc->get_buffer(destination, &enc->bs_handle, NULL); enc->bs_size = destination->width0; *fb = enc->fb = CALLOC_STRUCT(rvid_buffer); if (!si_vid_create_buffer(enc->screen, enc->fb, 4096, PIPE_USAGE_STAGING)) { RVID_ERR("Can't create feedback buffer.\n"); return; } enc->need_feedback = true; enc->encode(enc); } static void radeon_enc_end_frame(struct pipe_video_codec *encoder, struct pipe_video_buffer *source, struct pipe_picture_desc *picture) { struct radeon_encoder *enc = (struct radeon_encoder *)encoder; flush(enc); } static void radeon_enc_destroy(struct pipe_video_codec *encoder) { struct radeon_encoder *enc = (struct radeon_encoder *)encoder; if (enc->stream_handle) { struct rvid_buffer fb; enc->need_feedback = false; si_vid_create_buffer(enc->screen, &fb, 512, PIPE_USAGE_STAGING); enc->fb = &fb; enc->destroy(enc); flush(enc); si_vid_destroy_buffer(&fb); } si_vid_destroy_buffer(&enc->cpb); enc->ws->cs_destroy(enc->cs); FREE(enc); } static void radeon_enc_get_feedback(struct pipe_video_codec *encoder, void *feedback, unsigned *size) { struct radeon_encoder *enc = (struct radeon_encoder *)encoder; struct rvid_buffer *fb = feedback; if (size) { uint32_t *ptr = enc->ws->buffer_map(fb->res->buf, enc->cs, PIPE_TRANSFER_READ_WRITE | RADEON_TRANSFER_TEMPORARY); if (ptr[1]) *size = ptr[6]; else *size = 0; enc->ws->buffer_unmap(fb->res->buf); } si_vid_destroy_buffer(fb); FREE(fb); } struct pipe_video_codec *radeon_create_encoder(struct pipe_context *context, const struct pipe_video_codec *templ, struct radeon_winsys *ws, radeon_enc_get_buffer get_buffer) { struct si_screen *sscreen = (struct si_screen *)context->screen; struct si_context *sctx = (struct si_context *)context; struct radeon_encoder *enc; struct pipe_video_buffer *tmp_buf, templat = {}; struct radeon_surf *tmp_surf; unsigned cpb_size; enc = CALLOC_STRUCT(radeon_encoder); if (!enc) return NULL; enc->alignment = 256; enc->base = *templ; enc->base.context = context; enc->base.destroy = radeon_enc_destroy; enc->base.begin_frame = radeon_enc_begin_frame; enc->base.encode_bitstream = radeon_enc_encode_bitstream; enc->base.end_frame = radeon_enc_end_frame; enc->base.flush = radeon_enc_flush; enc->base.get_feedback = radeon_enc_get_feedback; enc->get_buffer = get_buffer; enc->bits_in_shifter = 0; enc->screen = context->screen; enc->ws = ws; enc->cs = ws->cs_create(sctx->ctx, RING_VCN_ENC, radeon_enc_cs_flush, enc, false); if (!enc->cs) { RVID_ERR("Can't get command submission context.\n"); goto error; } struct rvid_buffer si; si_vid_create_buffer(enc->screen, &si, 128 * 1024, PIPE_USAGE_STAGING); enc->si = &si; templat.buffer_format = PIPE_FORMAT_NV12; if (enc->base.profile == PIPE_VIDEO_PROFILE_HEVC_MAIN_10) templat.buffer_format = PIPE_FORMAT_P010; templat.width = enc->base.width; templat.height = enc->base.height; templat.interlaced = false; if (!(tmp_buf = context->create_video_buffer(context, &templat))) { RVID_ERR("Can't create video buffer.\n"); goto error; } enc->cpb_num = get_cpb_num(enc); if (!enc->cpb_num) goto error; get_buffer(((struct vl_video_buffer *)tmp_buf)->resources[0], NULL, &tmp_surf); cpb_size = (sscreen->info.chip_class < GFX9) ? align(tmp_surf->u.legacy.level[0].nblk_x * tmp_surf->bpe, 128) * align(tmp_surf->u.legacy.level[0].nblk_y, 32) : align(tmp_surf->u.gfx9.surf_pitch * tmp_surf->bpe, 256) * align(tmp_surf->u.gfx9.surf_height, 32); cpb_size = cpb_size * 3 / 2; cpb_size = cpb_size * enc->cpb_num; tmp_buf->destroy(tmp_buf); if (!si_vid_create_buffer(enc->screen, &enc->cpb, cpb_size, PIPE_USAGE_DEFAULT)) { RVID_ERR("Can't create CPB buffer.\n"); goto error; } if (sscreen->info.family >= CHIP_SIENNA) radeon_enc_3_0_init(enc); else if (sscreen->info.family >= CHIP_RENOIR) radeon_enc_2_0_init(enc); else radeon_enc_1_2_init(enc); return &enc->base; error: if (enc->cs) enc->ws->cs_destroy(enc->cs); si_vid_destroy_buffer(&enc->cpb); FREE(enc); return NULL; } void radeon_enc_add_buffer(struct radeon_encoder *enc, struct pb_buffer *buf, enum radeon_bo_usage usage, enum radeon_bo_domain domain, signed offset) { enc->ws->cs_add_buffer(enc->cs, buf, usage | RADEON_USAGE_SYNCHRONIZED, domain, 0); uint64_t addr; addr = enc->ws->buffer_get_virtual_address(buf); addr = addr + offset; RADEON_ENC_CS(addr >> 32); RADEON_ENC_CS(addr); } void radeon_enc_set_emulation_prevention(struct radeon_encoder *enc, bool set) { if (set != enc->emulation_prevention) { enc->emulation_prevention = set; enc->num_zeros = 0; } } void radeon_enc_output_one_byte(struct radeon_encoder *enc, unsigned char byte) { if (enc->byte_index == 0) enc->cs->current.buf[enc->cs->current.cdw] = 0; enc->cs->current.buf[enc->cs->current.cdw] |= ((unsigned int)(byte) << index_to_shifts[enc->byte_index]); enc->byte_index++; if (enc->byte_index >= 4) { enc->byte_index = 0; enc->cs->current.cdw++; } } void radeon_enc_emulation_prevention(struct radeon_encoder *enc, unsigned char byte) { if (enc->emulation_prevention) { if ((enc->num_zeros >= 2) && ((byte == 0x00) || (byte == 0x01) || (byte == 0x03))) { radeon_enc_output_one_byte(enc, 0x03); enc->bits_output += 8; enc->num_zeros = 0; } enc->num_zeros = (byte == 0 ? (enc->num_zeros + 1) : 0); } } void radeon_enc_code_fixed_bits(struct radeon_encoder *enc, unsigned int value, unsigned int num_bits) { unsigned int bits_to_pack = 0; while (num_bits > 0) { unsigned int value_to_pack = value & (0xffffffff >> (32 - num_bits)); bits_to_pack = num_bits > (32 - enc->bits_in_shifter) ? (32 - enc->bits_in_shifter) : num_bits; if (bits_to_pack < num_bits) value_to_pack = value_to_pack >> (num_bits - bits_to_pack); enc->shifter |= value_to_pack << (32 - enc->bits_in_shifter - bits_to_pack); num_bits -= bits_to_pack; enc->bits_in_shifter += bits_to_pack; while (enc->bits_in_shifter >= 8) { unsigned char output_byte = (unsigned char)(enc->shifter >> 24); enc->shifter <<= 8; radeon_enc_emulation_prevention(enc, output_byte); radeon_enc_output_one_byte(enc, output_byte); enc->bits_in_shifter -= 8; enc->bits_output += 8; } } } void radeon_enc_reset(struct radeon_encoder *enc) { enc->emulation_prevention = false; enc->shifter = 0; enc->bits_in_shifter = 0; enc->bits_output = 0; enc->num_zeros = 0; enc->byte_index = 0; } void radeon_enc_byte_align(struct radeon_encoder *enc) { unsigned int num_padding_zeros = (32 - enc->bits_in_shifter) % 8; if (num_padding_zeros > 0) radeon_enc_code_fixed_bits(enc, 0, num_padding_zeros); } void radeon_enc_flush_headers(struct radeon_encoder *enc) { if (enc->bits_in_shifter != 0) { unsigned char output_byte = (unsigned char)(enc->shifter >> 24); radeon_enc_emulation_prevention(enc, output_byte); radeon_enc_output_one_byte(enc, output_byte); enc->bits_output += enc->bits_in_shifter; enc->shifter = 0; enc->bits_in_shifter = 0; enc->num_zeros = 0; } if (enc->byte_index > 0) { enc->cs->current.cdw++; enc->byte_index = 0; } } void radeon_enc_code_ue(struct radeon_encoder *enc, unsigned int value) { int x = -1; unsigned int ue_code = value + 1; value += 1; while (value) { value = (value >> 1); x += 1; } unsigned int ue_length = (x << 1) + 1; radeon_enc_code_fixed_bits(enc, ue_code, ue_length); } void radeon_enc_code_se(struct radeon_encoder *enc, int value) { unsigned int v = 0; if (value != 0) v = (value < 0 ? ((unsigned int)(0 - value) << 1) : (((unsigned int)(value) << 1) - 1)); radeon_enc_code_ue(enc, v); }