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EbDefinitions.h
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EbDefinitions.h
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/*
* Copyright(c) 2019 Intel Corporation
* SPDX - License - Identifier: BSD - 2 - Clause - Patent
*/
#ifndef EbDefinitions_h
#define EbDefinitions_h
#include <stdint.h>
#include <stdio.h>
#include "EbSvtVp9Enc.h"
#include "vp9_enums.h"
#ifdef __cplusplus
extern "C" {
#endif
#ifdef __cplusplus
#define EB_EXTERN extern "C"
#else
#define EB_EXTERN
#endif // __cplusplus
#ifdef _MSC_VER
#define FORCE_INLINE __forceinline
#else
#ifdef __cplusplus
#define FORCE_INLINE inline __attribute__((always_inline))
#else
#define FORCE_INLINE __inline __attribute__((always_inline))
#endif
#endif
#define PKT_PRINT 0 // DEBUG: to print output pictures and ref from packetization
#define LIB_PRINTF_ENABLE 1 // When 0 mute all printfs from library
#if LIB_PRINTF_ENABLE
#define SVT_LOG printf
#else
#if _MSC_VER
#define SVT_LOG(s, ...) printf("")
#else
#define SVT_LOG(s, ...) printf("",##__VA_ARGS__)
#endif
#endif
#ifdef _WIN32
#ifndef __cplusplus
#define inline __inline
#endif
#elif __GNUC__
#define inline __inline__
#define fseeko64 fseek
#define ftello64 ftell
#else
#error OS not supported
#endif
#ifdef __GNUC__
#define AVX512_FUNC_TARGET __attribute__(( target( "avx512f,avx512dq,avx512bw,avx512vl" ) ))
#define AVX2_FUNC_TARGET __attribute__(( target( "avx2" ) ))
#else
#define AVX512_FUNC_TARGET
#define AVX2_FUNC_TARGET
#endif // __GNUC__
#define EB_STRINGIZE( L ) #L
#define EB_MAKESTRING( M, L ) M( L )
#define EB_SRC_LINE_NUM EB_MAKESTRING( EB_STRINGIZE, __LINE__ )
#define EB_MIN(a,b) (((a) < (b)) ? (a) : (b))
#ifdef _MSC_VER
#define NOINLINE __declspec ( noinline )
#define FORCE_INLINE __forceinline
#pragma warning( disable : 4068 ) // unknown pragma
#define EB_MESSAGE(m) ( __FILE__ "(" EB_SRC_LINE_NUM "): message: " m )
#else // _MSC_VER
#define NOINLINE __attribute__(( noinline ))
#ifdef __cplusplus
#define FORCE_INLINE inline __attribute__((always_inline))
#else
#define FORCE_INLINE __inline __attribute__((always_inline))
#endif // __cplusplus
//#define __popcnt __builtin_popcount
#define EB_MESSAGE(m) __FILE__ "(" EB_SRC_LINE_NUM "): message: " m
#endif // _MSC_VER
// Define Cross-Platform 64-bit fseek() and ftell()
#ifdef _WIN32
typedef __int64 Off64;
#define fseeko64 _fseeki64
#define ftello64 _ftelli64
#else // *Note -- fseeko and ftello are already defined for linux
#ifndef __cplusplus
#ifndef __USE_LARGEFILE
#define __USE_LARGEFILE
#endif
#endif
#endif
// Used to hide GCC warnings for unused function tables
#ifdef __GNUC__
#define FUNC_TABLE __attribute__ ((unused))
#else
#define FUNC_TABLE
#endif
#define NEW_PRED_STRUCT 1
// DEV MACROS
#define DISABLE_AVX512
#define NEW_API 1
#define VP9_RD 1
#define VP9_PERFORM_EP 1
#define CHROMA_QP_OFFSET 1 // Turn on to change default from DC/AC = -15/-15
#define HME_ENHANCED_CENTER_SEARCH 1
#define ADP_STATS_PER_LAYER 0 // Lossless: ADP stats
#define TURN_OFF_PRE_PROCESSING 1 // SQ only:Turn OFF enable_denoise_src_flag and check_input_for_borders_and_preprocess
#define VP9_RC 1
#define SHUT_64x64_BASE_RESTRICTION 1 // OQ
#define USE_SRC_REF 0
#define INTER_INTRA_BIAS 0
#define SEG_SUPPORT 0
#define RC_FEEDBACK 1
#define INTRA_4x4_I_SLICE 1 // Hsan: to test/fix/enable
#define INTRA_4x4_SB_DEPTH_84_85 1 // Hsan: to test/fix/enable
#define ADAPTIVE_QP_INDEX_GEN 1
#if SEG_SUPPORT
#define BEA 1
#define BEA_SCENE_CHANGE 1
#endif
#if VP9_RC
#define VP9_RC_PRINTS 0
#define RC_NO_EXTRA 1
#endif
#define Log2f eb_vp9_Log2f_SSE2
#ifndef _RSIZE_T_DEFINED
typedef size_t rsize_t;
#define _RSIZE_T_DEFINED
#endif /* _RSIZE_T_DEFINED */
#ifndef _ERRNO_T_DEFINED
#define _ERRNO_T_DEFINED
typedef int Errno;
#endif /* _ERRNO_T_DEFINED */
// *Note - This work around is needed for the windows visual studio compiler
// (MSVC) because it doesn't support the C99 header file stdint.h.
// All other compilers should support the stdint.h C99 standard types.
typedef enum AttributePacked
{
PART_N,
PART_H,
PART_V,
PART_S
} Part;
#define PREAVX2_MASK 1
#define AVX2_MASK 2
#define AVX512_MASK 4
#define ASM_AVX2_BIT 3
/** The EB_GOP type is used to describe the hierarchical coding structure of
Groups of Pictures (GOP) units.
*/
#define EB_PRED uint8_t
#define EB_PRED_LOW_DELAY_P 0
#define EB_PRED_LOW_DELAY_B 1
#define EB_PRED_RANDOM_ACCESS 2
#define EB_PRED_TOTAL_COUNT 3
#define EB_PRED_INVALID 0xFF
/** The EB_SAMPLE type is intended to be used to pass arrays of bytes such as
buffers to and from the eBrisk API. The EbByte type is a 32 bit pointer.
The pointer is word aligned and the buffer is byte aligned.
*/
/** The EbBitDepth type is used to describe the bit_depth of video data.
*/
typedef enum EbBitDepth
{
EB_8BIT = 8,
EB_10BIT = 10,
EB_12BIT = 12,
EB_14BIT = 14,
EB_16BIT = 16
} EbBitDepth;
/** Assembly Types
*/
typedef enum EbAsm
{
ASM_NON_AVX2,
ASM_AVX2,
ASM_TYPE_TOTAL,
ASM_AVX512,
ASM_TYPE_INVALID = ~0
} EbAsm;
#define MAX_MPM_CANDIDATES 3
/** The EB_SLICE type is used to describe the slice prediction type.
*/
#define EB_SLICE uint8_t
#define B_SLICE 0
#define P_SLICE 1
#define I_SLICE 2
/** The EB_PIC_STRUCT type is used to describe the picture structure.
*/
#define EB_PIC_STRUCT uint8_t
#define PROGRESSIVE_PIC_STRUCT 0
#define TOP_FIELD_PIC_STRUCT 1
#define BOTTOM_FIELD_PIC_STRUCT 2
/** The EbModeType type is used to describe the PU type.
*/
typedef uint8_t EbModeType;
#define INTER_MODE 1
#define INTRA_MODE 2
extern uint32_t eb_vp9_ASM_TYPES;
/** Depth offsets
*/
static const uint8_t depth_offset[4] = { 85, 21, 5, 1 };
/** ME 2Nx2N offsets
*/
static const uint32_t me2_nx2_n_offset[4] = { 0, 1, 5, 21 };
/** The EB_ENC_MODE type is used to describe the encoder mode .
*/
#define EB_ENC_MODE uint8_t
#define ENC_MODE_0 0
#define ENC_MODE_1 1
#define ENC_MODE_2 2
#define ENC_MODE_3 3
#define ENC_MODE_4 4
#define ENC_MODE_5 5
#define ENC_MODE_6 6
#define ENC_MODE_7 7
#define ENC_MODE_8 8
#define ENC_MODE_9 9
#define ENC_MODE_10 10
#define ENC_MODE_11 11
#define ENC_MODE_12 12
#define MAX_SUPPORTED_MODES 13
#define MAX_SUPPORTED_MODES_SUB1080P 10
#define MAX_SUPPORTED_MODES_1080P 11
#define MAX_SUPPORTED_MODES_4K_OQ 11
#define MAX_SUPPORTED_MODES_4K_SQ 13
#define SPEED_CONTROL_INIT_MOD ENC_MODE_5;
/** The EB_TUID type is used to identify a TU within a CU.
*/
#define REF_LIST_0 0
#define REF_LIST_1 1
#define EB_PREDDIRECTION uint8_t
#define UNI_PRED_LIST_0 0
#define UNI_PRED_LIST_1 1
#define BI_PRED 2
// The EB_QP_OFFSET_MODE type is used to describe the QP offset
#define EB_FRAME_CARACTERICTICS uint8_t
#define EB_FRAME_CARAC_0 0
#define EB_FRAME_CARAC_1 1
#define EB_FRAME_CARAC_2 2
// Rate Control
#define THRESHOLD1QPINCREASE 1 //AMIR changes mode 1 to be modified
#define THRESHOLD2QPINCREASE 2
//#define THRESHOLD1QPINCREASE 0
//#define THRESHOLD2QPINCREASE 1
#define EB_IOS_POINT uint8_t
#define OIS_VERY_FAST_MODE 0
#define OIS_FAST_MODE 1
#define OIS_MEDUIM_MODE 2
#define OIS_COMPLEX_MODE 3
#define OIS_VERY_COMPLEX_MODE 4
#define _MVXT(mv) ( (int16_t)((mv) & 0xFFFF) )
#define _MVYT(mv) ( (int16_t)((mv) >> 16 ) )
//WEIGHTED PREDICTION
#define WP_SHIFT1D_10BIT 2
#define WP_OFFSET1D_10BIT (-32768)
#define WP_SHIFT2D_10BIT 6
#define WP_IF_OFFSET_10BIT 8192//2^(14-1)
#define WP_SHIFT_10BIT 4 // 14 - 10
#define WP_BI_SHIFT_10BIT 5
// Will contain the EbEncApi which will live in the EncHandle class
// Modifiable during encode time.
typedef struct EbH265DynEncConfiguration {
uint32_t available_target_bitrate;
} EbH265DynEncConfiguration;
#ifdef __GNUC__
#define EB_ALIGN(n) __attribute__((__aligned__(n)))
#elif defined(_MSC_VER)
#define EB_ALIGN(n) __declspec(align(n))
#else
#define EB_ALIGN(n)
#endif
/** The EbHandle type is used to define OS object handles for threads,
semaphores, mutexs, etc.
*/
typedef void * EbHandle;
#define EB_INPUT_RESOLUTION uint8_t
#define INPUT_SIZE_576p_RANGE_OR_LOWER 0
#define INPUT_SIZE_1080i_RANGE 1
#define INPUT_SIZE_1080p_RANGE 2
#define INPUT_SIZE_4K_RANGE 3
#define INPUT_SIZE_576p_TH 0x90000 // 0.58 Million
#define INPUT_SIZE_1080i_TH 0xB71B0 // 0.75 Million
#define INPUT_SIZE_1080p_TH 0x1AB3F0 // 1.75 Million
#define INPUT_SIZE_4K_TH 0x29F630 // 2.75 Million
#define INPUT_SIZE_8K_TH (0x29F630 << 2) // 2.75 Million
/** The EB_BOOL type is intended to be used to represent a true or a false
value when passing parameters to and from the eBrisk API. The
EB_BOOL is a 32 bit quantity and is aligned on a 32 bit word boundary.
*/
#define EB_BOOL uint8_t
#define EB_FALSE 0
#define EB_TRUE 1
/** The EbHandleType type is intended to be used to pass pointers to and from the eBrisk
API. This is a 32 bit pointer and is aligned on a 32 bit word boundary.
*/
typedef void* EbHandleType;
/** The EbPtr type is intended to be used to pass pointers to and from the eBrisk
API. This is a 32 bit pointer and is aligned on a 32 bit word boundary.
*/
typedef void * EbPtr;
/** The EbByte type is intended to be used to pass arrays of bytes such as
buffers to and from the eBrisk API. The EbByte type is a 32 bit pointer.
The pointer is word aligned and the buffer is byte aligned.
*/
typedef uint8_t * EbByte;
/** The EB_NULL type is used to define the C style NULL pointer.
*/
#define EB_NULL ((void*) 0)
typedef enum EbPtrType
{
EB_N_PTR = 0, // malloc'd pointer
EB_A_PTR = 1, // malloc'd pointer aligned
EB_MUTEX = 2, // mutex
EB_SEMAPHORE = 3, // semaphore
EB_THREAD = 4 // thread handle
}EbPtrType;
typedef struct EbMemoryMapEntry
{
EbPtr ptr; // points to a memory pointer
EbPtrType ptr_type; // pointer type
} EbMemoryMapEntry;
// Display Total Memory at the end of the memory allocations
#define DISPLAY_MEMORY 0
// TODO EbUtility.h is probably a better place for it, would require including EbUtility.h
/********************************************************************************************
* faster memcopy for <= 64B blocks, great w/ inlining and size known at compile time (or w/ PGO)
* THIS NEEDS TO STAY IN A HEADER FOR BEST PERFORMANCE
********************************************************************************************/
#include <immintrin.h>
#if !defined(__clang__) && !defined(__INTEL_COMPILER) && defined(__GNUC__)
__attribute__((optimize("unroll-loops")))
#endif
FORCE_INLINE void eb_memcpy_small(void* dst_ptr, void const* src_ptr, size_t size)
{
const char* src = (const char*)src_ptr;
char* dst = (char*)dst_ptr;
size_t i = 0;
#ifdef _INTEL_COMPILER
#pragma unroll
#endif
while ((i + 16) <= size)
{
_mm_storeu_ps((float*)(dst + i), _mm_loadu_ps((const float*)(src + i)));
i += 16;
}
if ((i + 8) <= size)
{
_mm_store_sd((double*)(dst + i), _mm_load_sd((const double*)(src + i)));
i += 8;
}
for (; i < size; ++i)
dst[i] = src[i];
}
FORCE_INLINE void eb_memcpy_sse(void* dst_ptr, void const* src_ptr, size_t size)
{
const char* src = (const char*)src_ptr;
char* dst = (char*)dst_ptr;
size_t i = 0;
size_t align_cnt = EB_MIN((64 - ((size_t)dst & 63)), size);
// align dest to a $line
if (align_cnt != 64)
{
eb_memcpy_small(dst, src, align_cnt);
dst += align_cnt;
src += align_cnt;
size -= align_cnt;
}
// copy a $line at a time
// dst aligned to a $line
size_t cline_cnt = (size & ~(size_t)63);
for (i = 0; i < cline_cnt; i += 64)
{
__m128 c0 = _mm_loadu_ps((const float*)(src + i));
__m128 c1 = _mm_loadu_ps((const float*)(src + i + sizeof(c0)));
__m128 c2 = _mm_loadu_ps((const float*)(src + i + sizeof(c0) * 2));
__m128 c3 = _mm_loadu_ps((const float*)(src + i + sizeof(c0) * 3));
_mm_storeu_ps((float*)(dst + i), c0);
_mm_storeu_ps((float*)(dst + i + sizeof(c0)), c1);
_mm_storeu_ps((float*)(dst + i + sizeof(c0) * 2), c2);
_mm_storeu_ps((float*)(dst + i + sizeof(c0) * 3), c3);
}
// copy the remainder
if (i < size)
eb_memcpy_small(dst + i, src + i, size - i);
}
FORCE_INLINE void eb_memcpy(void *dst_ptr, void *src_ptr, size_t size)
{
if (size > 64) {
eb_memcpy_sse(dst_ptr, src_ptr, size);
}
else
{
eb_memcpy_small(dst_ptr, src_ptr, size);
}
}
#define EB_MEMCPY(dst, src, size) \
eb_memcpy(dst, src, size)
#define EB_MEMSET(dst, val, count) \
memset(dst, val, count)
#define EB_STRCMP(target,token) \
strcmp(target,token)
/* string length */
EB_API rsize_t eb_vp9_strnlen_ss(const char *s, rsize_t smax);
#define EB_STRLEN(target, max_size) \
eb_vp9_strnlen_ss(target, max_size)
#define MAX_NUM_PTR (0x1312D00 << 2) //0x4C4B4000 // Maximum number of pointers to be allocated for the library
#define ALVALUE 32
extern EbMemoryMapEntry *memory_map; // library Memory table
extern uint32_t *memory_map_index; // library memory index
extern uint64_t *total_lib_memory; // library Memory malloc'd
extern uint32_t lib_malloc_count;
extern uint32_t lib_thread_count;
extern uint32_t lib_semaphore_count;
extern uint32_t lib_mutex_count;
#ifdef _WIN32
#define EB_ALLIGN_MALLOC(type, pointer, n_elements, pointer_class) \
pointer = (type) _aligned_malloc(n_elements,ALVALUE); \
if (pointer == (type)EB_NULL) { \
return EB_ErrorInsufficientResources; \
} \
else { \
memory_map[*(memory_map_index)].ptr_type = pointer_class; \
memory_map[(*(memory_map_index))++].ptr = pointer; \
if (n_elements % 8 == 0) { \
*total_lib_memory += (n_elements); \
} \
else { \
*total_lib_memory += ((n_elements) + (8 - ((n_elements) % 8))); \
} \
} \
if (*(memory_map_index) >= MAX_NUM_PTR) { \
return EB_ErrorInsufficientResources; \
} \
lib_malloc_count++;
#else
#define EB_ALLIGN_MALLOC(type, pointer, n_elements, pointer_class) \
if (posix_memalign((void**)(&(pointer)), ALVALUE, n_elements) != 0) { \
return EB_ErrorInsufficientResources; \
} \
else { \
pointer = (type) pointer; \
memory_map[*(memory_map_index)].ptr_type = pointer_class; \
memory_map[(*(memory_map_index))++].ptr = pointer; \
if (n_elements % 8 == 0) { \
*total_lib_memory += (n_elements); \
} \
else { \
*total_lib_memory += ((n_elements) + (8 - ((n_elements) % 8))); \
} \
} \
if (*(memory_map_index) >= MAX_NUM_PTR) { \
return EB_ErrorInsufficientResources; \
} \
lib_malloc_count++;
#endif
#define EB_MEMORY() \
SVT_LOG("Total Number of Mallocs in Library: %d\n", lib_malloc_count); \
SVT_LOG("Total Number of Threads in Library: %d\n", lib_thread_count); \
SVT_LOG("Total Number of Semaphore in Library: %d\n", lib_semaphore_count); \
SVT_LOG("Total Number of Mutex in Library: %d\n", lib_mutex_count); \
SVT_LOG("Total Library Memory: %.2lf KB\n\n",*total_lib_memory/(double)1024);
#define EB_MALLOC(type, pointer, n_elements, pointer_class) \
pointer = (type) malloc(n_elements); \
if (pointer == (type)EB_NULL) { \
return EB_ErrorInsufficientResources; \
} \
else { \
memory_map[*(memory_map_index)].ptr_type = pointer_class; \
memory_map[(*(memory_map_index))++].ptr = pointer; \
if (n_elements % 8 == 0) { \
*total_lib_memory += (n_elements); \
} \
else { \
*total_lib_memory += ((n_elements) + (8 - ((n_elements) % 8))); \
} \
} \
if (*(memory_map_index) >= MAX_NUM_PTR) { \
return EB_ErrorInsufficientResources; \
} \
lib_malloc_count++;
#define EB_CALLOC(type, pointer, count, size, pointer_class) \
pointer = (type) calloc(count, size); \
if (pointer == (type)EB_NULL) { \
return EB_ErrorInsufficientResources; \
} \
else { \
memory_map[*(memory_map_index)].ptr_type = pointer_class; \
memory_map[(*(memory_map_index))++].ptr = pointer; \
if (count % 8 == 0) { \
*total_lib_memory += (count); \
} \
else { \
*total_lib_memory += ((count) + (8 - ((count) % 8))); \
} \
} \
if (*(memory_map_index) >= MAX_NUM_PTR) { \
return EB_ErrorInsufficientResources; \
} \
lib_malloc_count++;
#define EB_CREATESEMAPHORE(type, pointer, n_elements, pointer_class, initial_count, max_count) \
pointer = eb_vp9_create_semaphore(initial_count, max_count); \
if (pointer == (type)EB_NULL) { \
return EB_ErrorInsufficientResources; \
} \
else { \
memory_map[*(memory_map_index)].ptr_type = pointer_class; \
memory_map[(*(memory_map_index))++].ptr = pointer; \
if (n_elements % 8 == 0) { \
*total_lib_memory += (n_elements); \
} \
else { \
*total_lib_memory += ((n_elements) + (8 - ((n_elements) % 8))); \
} \
} \
if (*(memory_map_index) >= MAX_NUM_PTR) { \
return EB_ErrorInsufficientResources; \
} \
lib_semaphore_count++;
#define EB_CREATEMUTEX(type, pointer, n_elements, pointer_class) \
pointer = eb_vp9_create_mutex(); \
if (pointer == (type)EB_NULL){ \
return EB_ErrorInsufficientResources; \
} \
else { \
memory_map[*(memory_map_index)].ptr_type = pointer_class; \
memory_map[(*(memory_map_index))++].ptr = pointer; \
if (n_elements % 8 == 0) { \
*total_lib_memory += (n_elements); \
} \
else { \
*total_lib_memory += ((n_elements) + (8 - ((n_elements) % 8))); \
} \
} \
if (*(memory_map_index) >= MAX_NUM_PTR) { \
return EB_ErrorInsufficientResources; \
} \
lib_mutex_count++;
/** The EB_CTOR type is used to define the eBrisk object constructors.
object_ptr is a EbPtr to the object being constructed.
object_init_data_ptr is a EbPtr to a data structure used to initialize the object.
*/
typedef EbErrorType (*EB_CTOR)(
EbPtr *object_dbl_ptr,
EbPtr object_init_data_ptr);
/** The EbDtor type is used to define the eBrisk object destructors.
object_ptr is a EbPtr to the object being constructed.
*/
typedef void(*EbDtor)(
EbPtr object_ptr);
/**************************************
* Callback Functions
**************************************/
typedef struct EbCallback
{
EbPtr app_private_data;
EbPtr handle;
void(*error_handler)(
EbPtr handle,
uint32_t error_code);
} EbCallback;
typedef enum DistCalcType
{
DIST_CALC_RESIDUAL = 0, // SSE(Coefficients - ReconCoefficients)
DIST_CALC_PREDICTION = 1, // SSE(Coefficients) *Note - useful in modes that don't send residual coeff bits
DIST_CALC_TOTAL = 2
} DistCalcType;
typedef enum EbSei
{
BUFFERING_PERIOD = 0,
PICTURE_TIMING = 1,
REG_USER_DATA = 4,
UNREG_USER_DATA = 5,
RECOVERY_POINT = 6,
DECODED_PICTURE_HASH = 132,
PAN_SCAN_RECT = 2,
FILLER_PAYLOAD = 3,
USER_DATA_REGISTERED_ITU_T_T35 = 4,
USER_DATA_UNREGISTERED = 5,
SCENE_INFO = 9,
FULL_FRAME_SNAPSHOT = 15,
PROGRESSIVE_REFINEMENT_SEGMENT_START = 16,
PROGRESSIVE_REFINEMENT_SEGMENT_END = 17,
FILM_GRAIN_CHARACTERISTICS = 19,
POST_FILTER_HINT = 22,
TONE_MAPPING_INFO = 23,
FRAME_PACKING = 45,
DISPLAY_ORIENTATION = 47,
SOP_DESCRIPTION = 128,
ACTIVE_PARAMETER_SETS = 129,
DECODING_UNIT_INFO = 130,
TEMPORAL_LEVEL0_INDEX = 131,
SCALABLE_NESTING = 133,
REGION_REFRESH_INFO = 134,
} EbSei;
/** The EB_GOP type is used to describe the hierarchical coding structure of
Groups of Pictures (GOP) units.
*/
#define EB_PRED uint8_t
#define EB_PRED_LOW_DELAY_P 0
#define EB_PRED_LOW_DELAY_B 1
#define EB_PRED_RANDOM_ACCESS 2
#define EB_PRED_TOTAL_COUNT 3
#define EB_PRED_INVALID 0xFF
#define TUNE_SQ 0
#define TUNE_OQ 1
#define TUNE_VMAF 2
#define ME_FILTER_TAP 4
#define SUB_SAD_SEARCH 0
#define FULL_SAD_SEARCH 1
#define SSD_SEARCH 2
//***Profile, tier, level***
#define TOTAL_LEVEL_COUNT 13
#define C1_TRSHLF_N 1
#define C1_TRSHLF_D 1
#define C2_TRSHLF_N 16
#define C2_TRSHLF_D 10
#define ANTI_CONTOURING_TH_0 16 * 16
#define ANTI_CONTOURING_TH_1 32 * 32
#define ANTI_CONTOURING_TH_2 2 * 32 * 32
#define ANTI_CONTOURING_LUMA_T1 40
#define ANTI_CONTOURING_LUMA_T2 180
#define VAR_BASED_DETAIL_PRESERVATION_SELECTOR_THRSLHD (64*64)
#define MAX_BITS_PER_FRAME 8000000
#define MEAN_DIFF_THRSHOLD 10
#define VAR_DIFF_THRSHOLD 10
#define SC_FRAMES_TO_IGNORE 100 // The speed control algorith starts after SC_FRAMES_TO_IGNORE number frames.
#define SC_FRAMES_INTERVAL_SPEED 60 // The speed control Interval To Check the speed
#define SC_FRAMES_INTERVAL_T1 60 // The speed control Interval Threshold1
#define SC_FRAMES_INTERVAL_T2 180 // The speed control Interval Threshold2
#define SC_FRAMES_INTERVAL_T3 120 // The speed control Interval Threshold3
#define CMPLX_LOW 0
#define CMPLX_MEDIUM 1
#define CMPLX_HIGH 2
#define CMPLX_VHIGH 3
#define CMPLX_NOISE 4
#define YBITS_THSHLD_1(x) ((x < ENC_MODE_12) ? 80 : 120)
//***Encoding Parameters***
#define MAX_PICTURE_WIDTH_SIZE 9344u
#define MAX_PICTURE_HEIGHT_SIZE 5120u
#define INTERNAL_BIT_DEPTH 8 // to be modified
#define MAX_SAMPLE_VALUE ((1 << INTERNAL_BIT_DEPTH) - 1)
#define MAX_SAMPLE_VALUE_10BIT 0x3FF
#define MAX_SB_SIZE 64u
#define MAX_SB_SIZE_MINUS_1 63u
#define LOG2F_MAX_SB_SIZE 6u
#define MAX_SB_SIZE_CHROMA 32u
#define MAX_LOG2_SB_SIZE 6 // log2(MAX_SB_SIZE)
#define MAX_LEVEL_COUNT 5 // log2(MAX_SB_SIZE) - log2(MIN_CU_SIZE)
#define MAX_TU_SIZE 32
#define MIN_TU_SIZE 4
#define LOG_MIN_CU_SIZE 2
#define MIN_CU_SIZE (1 << LOG_MIN_CU_SIZE)
#define MAX_CU_SIZE 64
#define MAX_INTRA_SIZE 32
#define MIN_INTRA_SIZE 8
#define LOG_MIN_PU_SIZE 2
#define MIN_PU_SIZE (1 << LOG_MIN_PU_SIZE)
#define MAX_NUM_OF_REF_PIC_LIST 2
#define EB_MAX_SB_DEPTH 5
#define MAX_QP_VALUE 63
#define MAX_LAD 120
#define SCD_LAD 6
#define MAX_SB_ROWS ((MAX_PICTURE_HEIGHT_SIZE) / (MAX_SB_SIZE))
#define MAX_NUMBER_OF_TREEBLOCKS_PER_PICTURE ((MAX_PICTURE_WIDTH_SIZE + MAX_SB_SIZE_MINUS_1) / MAX_SB_SIZE) * \
((MAX_PICTURE_HEIGHT_SIZE + MAX_SB_SIZE_MINUS_1) / MAX_SB_SIZE)
//***Prediction Structure***
#define MAX_TEMPORAL_LAYERS 6
#define MAX_HIERARCHICAL_LEVEL 6
#define MAX_REF_IDX 1 // Set MAX_REF_IDX as 1 to avoid sending extra refPicIdc for each PU in IPPP flat GOP structure.
#define INVALID_POC (((uint32_t) (~0)) - (((uint32_t) (~0)) >> 1))
#define MAX_ELAPSED_IDR_COUNT 1024
//***HME***
#define EB_HME_SEARCH_AREA_COLUMN_MAX_COUNT 2
#define EB_HME_SEARCH_AREA_ROW_MAX_COUNT 2
//***Mode Decision Candidate List***
#define LOG_MAX_AMVP_MODE_DECISION_CANDIDATE_NUM 2
#define MAX_AMVP_MODE_DECISION_CANDIDATE_NUM (1 << LOG_MAX_AMVP_MODE_DECISION_CANDIDATE_NUM)
#define EP_BLOCK_MAX_COUNT 681
#define PA_BLOCK_MAX_COUNT 85
#define UNUSED(a) (void) a
#define _MVXT(mv) ( (int16_t)((mv) & 0xFFFF) )
#define _MVYT(mv) ( (int16_t)((mv) >> 16 ) )
//***MCP***
#define MaxChromaFilterTag 4
#define MCPXPaddingOffset 16 // to be modified
#define MCPYPaddingOffset 16 // to be modified
#define InternalBitDepth 8 // to be modified
#define MAX_Sample_Value ((1 << InternalBitDepth) - 1)
#define IF_Shift 6 // to be modified
#define IF_Prec 14 // to be modified
#define IF_Negative_Offset (IF_Prec - 1) // to be modified
#define InternalBitDepthIncrement (InternalBitDepth - 8)
//***Transforms***
#define TRANSFORMS_LUMA_FLAG 0
#define TRANSFORMS_CHROMA_FLAG 1
#define TRANS_BIT_INCREMENT 0
#define QUANT_SHIFT 14 // Q(4) = 2^14
#define MAX_POS_16BIT_NUM 32767
#define MIN_NEG_16BIT_NUM -32768
#define MEDIUM_SB_VARIANCE 50
// INTRA restriction for global motion
#define INTRA_GLOBAL_MOTION_NON_MOVING_INDEX_TH 2
#define INTRA_GLOBAL_MOTION_DARK_SB_TH 50
/*********************************************************
* used for the first time, but not the last time interpolation filter
*********************************************************/
#define Shift1 InternalBitDepthIncrement
#define MinusOffset1 (1 << (IF_Negative_Offset + InternalBitDepthIncrement))
#if (InternalBitDepthIncrement == 0)
#define ChromaMinusOffset1 0
#else
#define ChromaMinusOffset1 MinusOffset1
#endif
/*********************************************************
* used for neither the first time nor the last time interpolation filter
*********************************************************/
#define Shift2 IF_Shift
/*********************************************************
* used for the first time, and also the last time interpolation filter
*********************************************************/
#define Shift3 IF_Shift
#define Offset3 (1<<(Shift3-1))
/*********************************************************
* used for weighted sample prediction
*********************************************************/
#define Shift5 (IF_Shift - InternalBitDepthIncrement + 1)
#define Offset5 ((1 << (Shift5 - 1)) + (1 << (IF_Negative_Offset + 1)))
#if (InternalBitDepthIncrement == 0)
#define ChromaOffset5 (1 << (Shift5 - 1))
#else
#define ChromaOffset5 Offset5
#endif
/*********************************************************
* used for biPredCopy()
*********************************************************/
#define Shift6 (IF_Shift - InternalBitDepthIncrement)
#define MinusOffset6 (1 << IF_Negative_Offset)
#if (InternalBitDepthIncrement == 0)
#define ChromaMinusOffset6 0
#else
#define ChromaMinusOffset6 MinusOffset6
#endif
/*********************************************************
* 10bit case
*********************************************************/
#define SHIFT1D_10BIT 6
#define OFFSET1D_10BIT 32
#define SHIFT2D1_10BIT 2
#define OFFSET2D1_10BIT (-32768)
#define SHIFT2D2_10BIT 10
#define OFFSET2D2_10BIT 524800
//BIPRED
#define BI_SHIFT_10BIT 4
#define BI_OFFSET_10BIT 8192//2^(14-1)
#define BI_AVG_SHIFT_10BIT 5
#define BI_AVG_OFFSET_10BIT 16400
#define BI_SHIFT2D2_10BIT 6
#define BI_OFFSET2D2_10BIT 0
// Noise detection
#define NOISE_VARIANCE_TH 390
#define EB_PICNOISE_CLASS uint8_t
#define PIC_NOISE_CLASS_INV 0 //not computed
#define PIC_NOISE_CLASS_1 1 //No Noise
#define PIC_NOISE_CLASS_2 2
#define PIC_NOISE_CLASS_3 3
#define PIC_NOISE_CLASS_3_1 4
#define PIC_NOISE_CLASS_4 5
#define PIC_NOISE_CLASS_5 6
#define PIC_NOISE_CLASS_6 7
#define PIC_NOISE_CLASS_7 8
#define PIC_NOISE_CLASS_8 9
#define PIC_NOISE_CLASS_9 10
#define PIC_NOISE_CLASS_10 11 //Extreme Noise
// Intrinisc
#define NON_MOVING_SCORE_0 0
#define NON_MOVING_SCORE_1 10
#define NON_MOVING_SCORE_2 20
#define NON_MOVING_SCORE_3 30
#define INVALID_NON_MOVING_SCORE (uint8_t) ~0
#define CLASS_1_REGION_SPLIT_PER_WIDTH 2
#define CLASS_1_REGION_SPLIT_PER_HEIGHT 2
#define HIGHER_THAN_CLASS_1_REGION_SPLIT_PER_WIDTH 4
#define HIGHER_THAN_CLASS_1_REGION_SPLIT_PER_HEIGHT 4
// Dynamic GOP activity TH - to tune
#define IS_COMPLEX_SB_VARIANCE_TH 100
// The EB_AURA_STATUS type is used to describe the aura status
#define EB_AURA_STATUS uint8_t
#define AURA_STATUS_0 0
#define AURA_STATUS_1 1
#define INVALID_AURA_STATUS 128
// Aura detection definitions
#define AURA_4K_DISTORTION_TH 25
static const int32_t global_motion_threshold[MAX_HIERARCHICAL_LEVEL][MAX_TEMPORAL_LAYERS] = { // [Highest Temporal Layer] [Temporal Layer Index]
{ 2 },
{ 4, 2 },
{ 8, 4, 2 },
{ 16, 8, 4, 2 },
{ 32, 16, 8, 4, 2 }, // Derived by analogy from 4-layer settings
{ 64, 32, 16, 8, 4, 2 }
};
#define EB_SCD_MODE uint8_t
#define SCD_MODE_0 0 // SCD OFF
#define SCD_MODE_1 1 // Light SCD (histograms generation on the 1/16 decimated input)
#define SCD_MODE_2 2 // Full SCD
#define EB_QP_SCALING_MODE uint8_t
#define QP_SCALING_MODE_0 0 // Default QP Scaling
#define QP_SCALING_MODE_1 1 // Adaptive QP Scaling
#define EB_CHROMA_LEVEL uint8_t
#define CHROMA_LEVEL_0 0 // CHROMA ON @ MD + separate CHROMA search ON
#define CHROMA_LEVEL_1 1 // CHROMA ON @ MD + separate CHROMA search OFF
#define CHROMA_LEVEL_2 2 // CHROMA OFF @ MD
#define EB_NOISE_DETECT_MODE uint8_t
#define NOISE_DETECT_HALF_PRECISION 0 // Use Half-pel decimated input to detect noise
#define NOISE_DETECT_QUARTER_PRECISION 1 // Use Quarter-pel decimated input to detect noise
#define NOISE_DETECT_FULL_PRECISION 2 // Use Full-pel decimated input to detect noise
#define EB_SB_COMPLEXITY_STATUS uint8_t
#define SB_COMPLEXITY_STATUS_0 0
#define SB_COMPLEXITY_STATUS_1 1
#define SB_COMPLEXITY_STATUS_2 2
#define SB_COMPLEXITY_STATUS_INVALID (uint8_t) ~0
#define SB_COMPLEXITY_NON_MOVING_INDEX_TH_0 30
#define SB_COMPLEXITY_NON_MOVING_INDEX_TH_1 29
#define SB_COMPLEXITY_NON_MOVING_INDEX_TH_2 23
typedef enum EbCu16x16Mode
{
CU_16x16_MODE_0 = 0, // Perform OIS, Full_Search, Fractional_Search & Bipred for CU_16x16
CU_16x16_MODE_1 = 1 // Perform OIS and only Full_Search for CU_16x16
} EbCu16x16Mode;
typedef enum EbCu8x8Mode
{