mirror of
https://github.com/nyanmisaka/mpp.git
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21c21209c8
The qp_delta_ip for H.264 is 3. Change-Id: I33c052489011e93e8b496a284a84db1450ef5981 Signed-off-by: Herman Chen <herman.chen@rock-chips.com>
413 lines
19 KiB
C++
413 lines
19 KiB
C++
/*
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* Copyright 2015 Rockchip Electronics Co. LTD
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#define MODULE_TAG "mpp_enc_cfg"
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#include "rk_venc_cfg.h"
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#include "mpp_env.h"
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#include "mpp_log.h"
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#include "mpp_mem.h"
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#include "mpp_time.h"
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#include "mpp_common.h"
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#include "mpp_thread.h"
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#include "mpp_enc_cfg_impl.h"
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#define MPP_ENC_CFG_DBG_FUNC (0x00000001)
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#define MPP_ENC_CFG_DBG_INFO (0x00000002)
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#define MPP_ENC_CFG_DBG_SET (0x00000004)
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#define MPP_ENC_CFG_DBG_GET (0x00000008)
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#define mpp_enc_cfg_dbg(flag, fmt, ...) _mpp_dbg_f(mpp_enc_cfg_debug, flag, fmt, ## __VA_ARGS__)
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#define mpp_enc_cfg_dbg_func(fmt, ...) mpp_enc_cfg_dbg(MPP_ENC_CFG_DBG_FUNC, fmt, ## __VA_ARGS__)
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#define mpp_enc_cfg_dbg_info(fmt, ...) mpp_enc_cfg_dbg(MPP_ENC_CFG_DBG_INFO, fmt, ## __VA_ARGS__)
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#define mpp_enc_cfg_dbg_set(fmt, ...) mpp_enc_cfg_dbg(MPP_ENC_CFG_DBG_SET, fmt, ## __VA_ARGS__)
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#define mpp_enc_cfg_dbg_get(fmt, ...) mpp_enc_cfg_dbg(MPP_ENC_CFG_DBG_GET, fmt, ## __VA_ARGS__)
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RK_U32 mpp_enc_cfg_debug = 0;
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#define EXPAND_AS_ENUM(name, func, type) \
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SET_##name, \
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GET_##name,
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/* Expand to enum
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typedef enum CfgType_e {
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SET_S32,
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GET_S32,
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SET_U32,
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GET_U32,
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SET_S64,
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GET_S64,
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SET_U64,
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GET_U64,
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SET_PTR,
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GET_PTR,
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CFG_FUNC_TYPE_BUTT,
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} CfgType;
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*/
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#define EXPAND_AS_TYPE(name, func, type) \
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typedef MPP_RET (*CfgSet##func)(void *ctx, type val); \
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typedef MPP_RET (*CfgGet##func)(void *ctx, type *val);
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/* Expand to function type
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typedef MPP_RET (*CfgSetS32)(void *ctx, RK_S32 val);
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typedef MPP_RET (*CfgGetS32)(void *ctx, RK_S32 *val);
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typedef MPP_RET (*CfgSetU32)(void *ctx, RK_U32 val);
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typedef MPP_RET (*CfgGetU32)(void *ctx, RK_U32 *val);
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typedef MPP_RET (*CfgSetS64)(void *ctx, RK_S64 val);
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typedef MPP_RET (*CfgGetS64)(void *ctx, RK_S64 *val);
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typedef MPP_RET (*CfgSetU64)(void *ctx, RK_U64 val);
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typedef MPP_RET (*CfgGetU64)(void *ctx, RK_U64 *val);
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typedef MPP_RET (*CfgSetPtr)(void *ctx, void *val);
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typedef MPP_RET (*CfgGetPtr)(void *ctx, void **val);
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*/
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#define EXPAND_AS_NAME(name, func, type) \
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#type, \
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#type"*",
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/* Expand to name
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static const char *cfg_func_names[] = {
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"RK_S32",
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"RK_S32*",
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"RK_U32",
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"RK_U32*",
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"RK_S64",
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"RK_S64*",
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"RK_U64",
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"RK_U64*",
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"void *",
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"void **",
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};
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*/
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#define TYPE_ENTRY_TABLE(ENTRY) \
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ENTRY(S32, S32, RK_S32) \
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ENTRY(U32, U32, RK_U32) \
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ENTRY(S64, S64, RK_S64) \
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ENTRY(U64, U64, RK_U64) \
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ENTRY(PTR, Ptr, void *)
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typedef enum CfgType_e {
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TYPE_ENTRY_TABLE(EXPAND_AS_ENUM)
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CFG_FUNC_TYPE_BUTT,
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} CfgType;
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TYPE_ENTRY_TABLE(EXPAND_AS_TYPE)
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static const char *cfg_func_names[] = {
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TYPE_ENTRY_TABLE(EXPAND_AS_NAME)
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};
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#define EXPAND_AS_FUNC(base, name, func_type, in_type, flag, field0, field1) \
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MPP_RET set_##base##_##name(MppEncCfgSet *cfg, in_type name) \
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{ \
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mpp_enc_cfg_dbg_func("enter\n"); \
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if (cfg->field0.field1 != (in_type)name || SET_##func_type == SET_PTR) { \
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cfg->field0.field1 = (in_type)name; \
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cfg->field0.change |= flag; \
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} \
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return MPP_OK; \
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} \
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MPP_RET get_##base##_##name(MppEncCfgSet *cfg, in_type *name) \
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{ \
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mpp_enc_cfg_dbg_func("enter\n"); \
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*name = (in_type)cfg->field0.field1; \
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return MPP_OK; \
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}
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#define EXPAND_AS_API(base, name, func_type, in_type, flag, field0, field1) \
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static MppEncCfgApi api_##base##_##name = \
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{ \
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#base":"#name, \
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SET_##func_type, \
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GET_##func_type, \
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(void *)set_##base##_##name, \
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(void *)get_##base##_##name, \
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};
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#define EXPAND_AS_ARRAY(base, name, func_type, in_type, flag, field0, field1) \
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&api_##base##_##name,
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#define EXPAND_AS_STRLEN(base, name, func_type, in_type, flag, field0, field1) \
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const_strlen( #base":"#name ) +
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#define ENTRY_TABLE(ENTRY) \
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/* rc config */ \
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ENTRY(rc, mode, S32, MppEncRcMode, MPP_ENC_RC_CFG_CHANGE_RC_MODE, rc, rc_mode) \
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ENTRY(rc, bps_target, S32, RK_S32, MPP_ENC_RC_CFG_CHANGE_BPS, rc, bps_target) \
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ENTRY(rc, bps_max, S32, RK_S32, MPP_ENC_RC_CFG_CHANGE_BPS, rc, bps_max) \
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ENTRY(rc, bps_min, S32, RK_S32, MPP_ENC_RC_CFG_CHANGE_BPS, rc, bps_min) \
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ENTRY(rc, fps_in_flex, S32, RK_S32, MPP_ENC_RC_CFG_CHANGE_FPS_IN, rc, fps_in_flex) \
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ENTRY(rc, fps_in_num, S32, RK_S32, MPP_ENC_RC_CFG_CHANGE_FPS_IN, rc, fps_in_num) \
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ENTRY(rc, fps_in_denorm, S32, RK_S32, MPP_ENC_RC_CFG_CHANGE_FPS_IN, rc, fps_in_denorm) \
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ENTRY(rc, fps_out_flex, S32, RK_S32, MPP_ENC_RC_CFG_CHANGE_FPS_OUT, rc, fps_out_flex) \
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ENTRY(rc, fps_out_num, S32, RK_S32, MPP_ENC_RC_CFG_CHANGE_FPS_OUT, rc, fps_out_num) \
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ENTRY(rc, fps_out_denorm, S32, RK_S32, MPP_ENC_RC_CFG_CHANGE_FPS_OUT, rc, fps_out_denorm) \
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ENTRY(rc, gop, S32, RK_S32, MPP_ENC_RC_CFG_CHANGE_GOP, rc, gop) \
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ENTRY(rc, max_reenc_times,U32, RK_U32, MPP_ENC_RC_CFG_CHANGE_MAX_REENC, rc, max_reenc_times) \
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/* prep config */ \
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ENTRY(prep, width, S32, RK_S32, MPP_ENC_PREP_CFG_CHANGE_INPUT, prep, width) \
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ENTRY(prep, height, S32, RK_S32, MPP_ENC_PREP_CFG_CHANGE_INPUT, prep, height) \
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ENTRY(prep, hor_stride, S32, RK_S32, MPP_ENC_PREP_CFG_CHANGE_INPUT, prep, hor_stride) \
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ENTRY(prep, ver_stride, S32, RK_S32, MPP_ENC_PREP_CFG_CHANGE_INPUT, prep, ver_stride) \
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ENTRY(prep, format, S32, MppFrameFormat, MPP_ENC_PREP_CFG_CHANGE_FORMAT, prep, format) \
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ENTRY(prep, color, S32, MppFrameColorSpace,MPP_ENC_PREP_CFG_CHANGE_FORMAT, prep, color) \
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ENTRY(prep, range, S32, MppFrameColorRange,MPP_ENC_PREP_CFG_CHANGE_FORMAT, prep, range) \
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ENTRY(prep, rotation, S32, MppEncRotationCfg, MPP_ENC_PREP_CFG_CHANGE_ROTATION, prep, rotation) \
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ENTRY(prep, mirroring, S32, RK_S32, MPP_ENC_PREP_CFG_CHANGE_MIRRORING, prep, mirroring) \
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/* codec coding config */ \
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ENTRY(codec, type, S32, MppCodingType, 0, codec, coding) \
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/* h264 config */ \
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ENTRY(h264, stream_type, S32, RK_S32, MPP_ENC_H264_CFG_STREAM_TYPE, codec.h264, stream_type) \
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ENTRY(h264, profile, S32, RK_S32, MPP_ENC_H264_CFG_CHANGE_PROFILE, codec.h264, profile) \
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ENTRY(h264, level, S32, RK_S32, MPP_ENC_H264_CFG_CHANGE_PROFILE, codec.h264, level) \
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ENTRY(h264, poc_type, U32, RK_U32, MPP_ENC_H264_CFG_CHANGE_POC_TYPE, codec.h264, poc_type) \
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ENTRY(h264, log2_max_poc_lsb, U32, RK_U32, MPP_ENC_H264_CFG_CHANGE_MAX_POC_LSB, codec.h264, log2_max_poc_lsb) \
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ENTRY(h264, log2_max_frm_num, U32, RK_U32, MPP_ENC_H264_CFG_CHANGE_MAX_FRM_NUM, codec.h264, log2_max_frame_num) \
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ENTRY(h264, cabac_en, S32, RK_S32, MPP_ENC_H264_CFG_CHANGE_ENTROPY, codec.h264, entropy_coding_mode) \
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ENTRY(h264, cabac_idc, S32, RK_S32, MPP_ENC_H264_CFG_CHANGE_ENTROPY, codec.h264, cabac_init_idc) \
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ENTRY(h264, trans8x8, S32, RK_S32, MPP_ENC_H264_CFG_CHANGE_TRANS_8x8, codec.h264, transform8x8_mode) \
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ENTRY(h264, const_intra, S32, RK_S32, MPP_ENC_H264_CFG_CHANGE_CONST_INTRA, codec.h264, constrained_intra_pred_mode) \
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ENTRY(h264, scaling_list, S32, RK_S32, MPP_ENC_H264_CFG_CHANGE_SCALING_LIST, codec.h264, scaling_list_mode) \
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ENTRY(h264, cb_qp_offset, S32, RK_S32, MPP_ENC_H264_CFG_CHANGE_CHROMA_QP, codec.h264, chroma_cb_qp_offset) \
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ENTRY(h264, cr_qp_offset, S32, RK_S32, MPP_ENC_H264_CFG_CHANGE_CHROMA_QP, codec.h264, chroma_cb_qp_offset) \
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ENTRY(h264, dblk_disable, S32, RK_S32, MPP_ENC_H264_CFG_CHANGE_DEBLOCKING, codec.h264, deblock_disable) \
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ENTRY(h264, dblk_alpha, S32, RK_S32, MPP_ENC_H264_CFG_CHANGE_DEBLOCKING, codec.h264, deblock_offset_alpha) \
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ENTRY(h264, dblk_beta, S32, RK_S32, MPP_ENC_H264_CFG_CHANGE_DEBLOCKING, codec.h264, deblock_offset_beta) \
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ENTRY(h264, qp_init, S32, RK_S32, MPP_ENC_H264_CFG_CHANGE_QP_LIMIT, codec.h264, qp_init) \
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ENTRY(h264, qp_max, S32, RK_S32, MPP_ENC_H264_CFG_CHANGE_QP_LIMIT, codec.h264, qp_max) \
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ENTRY(h264, qp_min, S32, RK_S32, MPP_ENC_H264_CFG_CHANGE_QP_LIMIT, codec.h264, qp_min) \
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ENTRY(h264, qp_max_i, S32, RK_S32, MPP_ENC_H264_CFG_CHANGE_QP_LIMIT, codec.h264, qp_max_i) \
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ENTRY(h264, qp_min_i, S32, RK_S32, MPP_ENC_H264_CFG_CHANGE_QP_LIMIT, codec.h264, qp_min_i) \
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ENTRY(h264, qp_step, S32, RK_S32, MPP_ENC_H264_CFG_CHANGE_QP_LIMIT, codec.h264, qp_max_step) \
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ENTRY(h264, qp_delta_ip, S32, RK_S32, MPP_ENC_H264_CFG_CHANGE_QP_LIMIT, codec.h264, qp_delta_ip) \
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ENTRY(h264, max_tid, S32, RK_S32, MPP_ENC_H264_CFG_CHANGE_MAX_TID, codec.h264, max_tid) \
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ENTRY(h264, max_ltr, S32, RK_S32, MPP_ENC_H264_CFG_CHANGE_MAX_LTR, codec.h264, max_ltr_frames) \
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ENTRY(h264, prefix_mode, S32, RK_S32, MPP_ENC_H264_CFG_CHANGE_ADD_PREFIX, codec.h264, prefix_mode) \
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ENTRY(h264, base_layer_pid, S32, RK_S32, MPP_ENC_H264_CFG_CHANGE_BASE_LAYER_PID, codec.h264, base_layer_pid) \
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/* h265 config*/ \
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ENTRY(h265, profile, S32, RK_S32, MPP_ENC_H265_CFG_PROFILE_LEVEL_TILER_CHANGE, codec.h265, profile) \
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ENTRY(h265, level, S32, RK_S32, MPP_ENC_H265_CFG_PROFILE_LEVEL_TILER_CHANGE, codec.h265, level) \
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ENTRY(h265, scaling_list, U32, RK_U32, MPP_ENC_H265_CFG_TRANS_CHANGE, codec.h265, trans_cfg.defalut_ScalingList_enable) \
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ENTRY(h265, cb_qp_offset, S32, RK_S32, MPP_ENC_H265_CFG_TRANS_CHANGE, codec.h265, trans_cfg.cb_qp_offset) \
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ENTRY(h265, cr_qp_offset, S32, RK_S32, MPP_ENC_H265_CFG_TRANS_CHANGE, codec.h265, trans_cfg.cr_qp_offset) \
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ENTRY(h265, dblk_disable, U32, RK_U32, MPP_ENC_H265_CFG_DBLK_CHANGE, codec.h265, dblk_cfg.slice_deblocking_filter_disabled_flag) \
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ENTRY(h265, dblk_alpha, S32, RK_S32, MPP_ENC_H265_CFG_DBLK_CHANGE, codec.h265, dblk_cfg.slice_beta_offset_div2) \
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ENTRY(h265, dblk_beta, S32, RK_S32, MPP_ENC_H265_CFG_DBLK_CHANGE, codec.h265, dblk_cfg.slice_tc_offset_div2) \
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ENTRY(h265, qp_init, S32, RK_S32, MPP_ENC_H265_CFG_RC_QP_CHANGE, codec.h265, qp_init) \
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ENTRY(h265, qp_max, S32, RK_S32, MPP_ENC_H265_CFG_RC_QP_CHANGE, codec.h265, max_qp) \
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ENTRY(h265, qp_min, S32, RK_S32, MPP_ENC_H265_CFG_RC_QP_CHANGE, codec.h265, min_qp) \
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ENTRY(h265, qp_max_i, S32, RK_S32, MPP_ENC_H265_CFG_RC_QP_CHANGE, codec.h265, max_i_qp) \
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ENTRY(h265, qp_min_i, S32, RK_S32, MPP_ENC_H265_CFG_RC_QP_CHANGE, codec.h265, min_i_qp) \
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ENTRY(h265, qp_step, S32, RK_S32, MPP_ENC_H265_CFG_RC_QP_CHANGE, codec.h265, qp_max_step) \
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ENTRY(h265, qp_delta_ip, S32, RK_S32, MPP_ENC_H265_CFG_RC_QP_CHANGE, codec.h265, ip_qp_delta) \
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/* jpeg config */ \
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ENTRY(jpeg, quant, S32, RK_S32, MPP_ENC_JPEG_CFG_CHANGE_QP, codec.jpeg, quant) \
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ENTRY(jpeg, qtable_y, PTR, RK_U8*, MPP_ENC_JPEG_CFG_CHANGE_QTABLE, codec.jpeg, qtable_y) \
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ENTRY(jpeg, qtable_u, PTR, RK_U8*, MPP_ENC_JPEG_CFG_CHANGE_QTABLE, codec.jpeg, qtable_u) \
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ENTRY(jpeg, qtable_v, PTR, RK_U8*, MPP_ENC_JPEG_CFG_CHANGE_QTABLE, codec.jpeg, qtable_v) \
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ENTRY(jpeg, q_factor, U32, RK_U32, MPP_ENC_JPEG_CFG_CHANGE_QFACTOR, codec.jpeg, q_factor) \
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/* split config */ \
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ENTRY(split, mode, U32, RK_U32, MPP_ENC_SPLIT_CFG_CHANGE_MODE, split, split_mode) \
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ENTRY(split, arg, U32, RK_U32, MPP_ENC_SPLIT_CFG_CHANGE_ARG, split, split_arg)
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ENTRY_TABLE(EXPAND_AS_FUNC)
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ENTRY_TABLE(EXPAND_AS_API)
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static MppEncCfgApi *cfg_apis[] = {
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ENTRY_TABLE(EXPAND_AS_ARRAY)
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};
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RK_S32 const_strlen(const char* str)
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{
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return *str ? 1 + const_strlen(str + 1) : 0;
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}
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static RK_S32 node_len = ENTRY_TABLE(EXPAND_AS_STRLEN) - 22;
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class MppEncCfgService
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{
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private:
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MppEncCfgService();
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~MppEncCfgService();
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MppEncCfgService(const MppEncCfgService &);
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MppEncCfgService &operator=(const MppEncCfgService &);
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MppTrie mCfgApi;
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public:
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static MppEncCfgService *get() {
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static Mutex lock;
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static MppEncCfgService instance;
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AutoMutex auto_lock(&lock);
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return &instance;
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}
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MppTrie get_api() { return mCfgApi; };
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};
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MppEncCfgService::MppEncCfgService() :
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mCfgApi(NULL)
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{
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MPP_RET ret;
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RK_S32 i;
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RK_S32 api_cnt = MPP_ARRAY_ELEMS(cfg_apis);
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/*
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* NOTE: The node_len is not the real node count should be allocated
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* The max node count should be stream lengthg * 2 if each word is different.
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*/
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ret = mpp_trie_init(&mCfgApi, node_len, api_cnt);
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if (ret) {
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mpp_err_f("failed to init enc cfg set trie\n");
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} else {
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for (i = 0; i < api_cnt; i++)
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mpp_trie_add_info(mCfgApi, &cfg_apis[i]->name);
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}
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if (node_len < mpp_trie_get_node_count(mCfgApi))
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mpp_err_f("create info %d with not enough node %d -> %d info\n",
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api_cnt, node_len, mpp_trie_get_node_count(mCfgApi));
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}
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MppEncCfgService::~MppEncCfgService()
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{
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if (mCfgApi) {
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mpp_trie_deinit(mCfgApi);
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mCfgApi = NULL;
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}
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}
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MPP_RET mpp_enc_cfg_init(MppEncCfg *cfg)
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{
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MppEncCfgImpl *p = NULL;
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if (NULL == cfg) {
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mpp_err_f("invalid NULL input config\n");
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return MPP_ERR_NULL_PTR;
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}
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p = mpp_calloc(MppEncCfgImpl, 1);
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if (NULL == p) {
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mpp_err_f("create encoder config failed %p\n", p);
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*cfg = NULL;
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return MPP_ERR_NOMEM;
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}
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p->size = sizeof(*p);
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p->api = MppEncCfgService::get()->get_api();
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mpp_env_get_u32("mpp_enc_cfg_debug", &mpp_enc_cfg_debug, 0);
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|
*cfg = p;
|
|
|
|
return MPP_OK;
|
|
}
|
|
|
|
MPP_RET mpp_enc_cfg_deinit(MppEncCfg cfg)
|
|
{
|
|
if (NULL == cfg) {
|
|
mpp_err_f("invalid NULL input config\n");
|
|
return MPP_ERR_NULL_PTR;
|
|
}
|
|
|
|
MPP_FREE(cfg);
|
|
|
|
return MPP_OK;
|
|
}
|
|
|
|
#define ENC_CFG_SET_ACCESS(func_name, in_type, func_enum, func_type) \
|
|
MPP_RET func_name(MppEncCfg cfg, const char *name, in_type val) \
|
|
{ \
|
|
if (NULL == cfg || NULL == name) { \
|
|
mpp_err_f("invalid input cfg %p name %p\n", cfg, name); \
|
|
return MPP_ERR_NULL_PTR; \
|
|
} \
|
|
MppEncCfgImpl *p = (MppEncCfgImpl *)cfg; \
|
|
const char **info = mpp_trie_get_info(p->api, name); \
|
|
if (NULL == info) { \
|
|
mpp_err_f("failed to set %s to %d\n", name, val); \
|
|
return MPP_NOK; \
|
|
} \
|
|
MppEncCfgApi *api = (MppEncCfgApi *)info; \
|
|
if (api->type_set != func_enum) { \
|
|
mpp_err_f("%s expect %s input NOT %s\n", api->name, \
|
|
cfg_func_names[api->type_set], \
|
|
cfg_func_names[func_enum]); \
|
|
} \
|
|
mpp_enc_cfg_dbg_set("name %s type %s\n", api->name, cfg_func_names[api->type_set]); \
|
|
MPP_RET ret = ((func_type)api->api_set)(&p->cfg, val); \
|
|
return ret; \
|
|
}
|
|
|
|
ENC_CFG_SET_ACCESS(mpp_enc_cfg_set_s32, RK_S32, SET_S32, CfgSetS32);
|
|
ENC_CFG_SET_ACCESS(mpp_enc_cfg_set_u32, RK_U32, SET_U32, CfgSetU32);
|
|
ENC_CFG_SET_ACCESS(mpp_enc_cfg_set_s64, RK_S64, SET_S64, CfgSetS64);
|
|
ENC_CFG_SET_ACCESS(mpp_enc_cfg_set_u64, RK_U64, SET_U64, CfgSetU64);
|
|
ENC_CFG_SET_ACCESS(mpp_enc_cfg_set_ptr, void *, SET_PTR, CfgSetPtr);
|
|
|
|
#define ENC_CFG_GET_ACCESS(func_name, in_type, func_enum, func_type) \
|
|
MPP_RET func_name(MppEncCfg cfg, const char *name, in_type *val) \
|
|
{ \
|
|
if (NULL == cfg || NULL == name) { \
|
|
mpp_err_f("invalid input cfg %p name %p\n", cfg, name); \
|
|
return MPP_ERR_NULL_PTR; \
|
|
} \
|
|
MppEncCfgImpl *p = (MppEncCfgImpl *)cfg; \
|
|
const char **info = mpp_trie_get_info(p->api, name); \
|
|
if (NULL == info) { \
|
|
mpp_err_f("failed to set %s to %d\n", name, val); \
|
|
return MPP_NOK; \
|
|
} \
|
|
MppEncCfgApi *api = (MppEncCfgApi *)info; \
|
|
if (api->type_get != func_enum) { \
|
|
mpp_err_f("%s expect %s input not %s\n", api->name, \
|
|
cfg_func_names[api->type_get], \
|
|
cfg_func_names[func_enum]); \
|
|
} \
|
|
mpp_enc_cfg_dbg_get("name %s type %s\n", api->name, cfg_func_names[api->type_get]); \
|
|
MPP_RET ret = ((func_type)api->api_get)(&p->cfg, val); \
|
|
return ret; \
|
|
}
|
|
|
|
ENC_CFG_GET_ACCESS(mpp_enc_cfg_get_s32, RK_S32, GET_S32, CfgGetS32);
|
|
ENC_CFG_GET_ACCESS(mpp_enc_cfg_get_u32, RK_U32, GET_U32, CfgGetU32);
|
|
ENC_CFG_GET_ACCESS(mpp_enc_cfg_get_s64, RK_S64, GET_S64, CfgGetS64);
|
|
ENC_CFG_GET_ACCESS(mpp_enc_cfg_get_u64, RK_U64, GET_U64, CfgGetU64);
|
|
ENC_CFG_GET_ACCESS(mpp_enc_cfg_get_ptr, void *, GET_PTR, CfgGetPtr);
|
|
|
|
void mpp_enc_cfg_show(void)
|
|
{
|
|
RK_U32 i;
|
|
|
|
mpp_log_f("dumping valid configure string start\n");
|
|
|
|
for (i = 0; i < MPP_ARRAY_ELEMS(cfg_apis); i++)
|
|
mpp_log_f("name %s type %s %s\n", cfg_apis[i]->name,
|
|
cfg_func_names[cfg_apis[i]->type_set],
|
|
cfg_func_names[cfg_apis[i]->type_get]);
|
|
|
|
mpp_log_f("dumping valid configure string done\n");
|
|
|
|
mpp_log_f("total api count %d with node %d -> %d info\n",
|
|
MPP_ARRAY_ELEMS(cfg_apis), node_len,
|
|
mpp_trie_get_node_count(MppEncCfgService::get()->get_api()));
|
|
}
|