OpenCV
3.3.0-dev
Open Source Computer Vision
|
Modules | |
SSE utilities | |
NEON utilities | |
Softfloat support | |
Namespaces | |
cv::Error | |
Classes | |
class | cv::Allocator< _Tp > |
class | cv::AutoBuffer< _Tp, fixed_size > |
Automatically Allocated Buffer Class. More... | |
class | cv::AutoLock |
class | cv::CommandLineParser |
Designed for command line parsing. More... | |
union | Cv16suf |
union | Cv32suf |
union | Cv64suf |
class | cv::Exception |
Class passed to an error. More... | |
struct | cv::Hamming |
class | cv::Mutex |
class | cv::ParallelLoopBody |
Base class for parallel data processors. More... | |
class | cv::TickMeter |
a Class to measure passing time. More... | |
class | cv::TLSData< T > |
class | cv::TLSDataContainer |
Macros | |
#define | __CV_CAT(x, y) __CV_CAT_(x, y) |
#define | __CV_CAT_(x, y) __CV_CAT__(x, y) |
#define | __CV_CAT__(x, y) x ## y |
#define | __CV_EXPAND(x) x |
#define | CV_2PI 6.283185307179586476925286766559 |
#define | CV_Assert(...) CVAUX_CONCAT(CV_Assert_, CV_VA_NUM_ARGS(__VA_ARGS__)) (__VA_ARGS__) |
#define | CV_Assert_1(expr) if(!!(expr)) ; else cv::error( cv::Error::StsAssert, #expr, CV_Func, __FILE__, __LINE__ ) |
#define | CV_Assert_10(expr1, expr2, expr3, expr4, expr5, expr6, expr7, expr8, expr9, expr10) CV_Assert_9(expr1, expr2, expr3, expr4, expr5, expr6, expr7, expr8, expr9 ); CV_Assert_1(expr10) |
#define | CV_Assert_2(expr1, expr2) CV_Assert_1(expr1); CV_Assert_1(expr2) |
#define | CV_Assert_3(expr1, expr2, expr3) CV_Assert_2(expr1, expr2); CV_Assert_1(expr3) |
#define | CV_Assert_4(expr1, expr2, expr3, expr4) CV_Assert_3(expr1, expr2, expr3); CV_Assert_1(expr4) |
#define | CV_Assert_5(expr1, expr2, expr3, expr4, expr5) CV_Assert_4(expr1, expr2, expr3, expr4); CV_Assert_1(expr5) |
#define | CV_Assert_6(expr1, expr2, expr3, expr4, expr5, expr6) CV_Assert_5(expr1, expr2, expr3, expr4, expr5); CV_Assert_1(expr6) |
#define | CV_Assert_7(expr1, expr2, expr3, expr4, expr5, expr6, expr7) CV_Assert_6(expr1, expr2, expr3, expr4, expr5, expr6 ); CV_Assert_1(expr7) |
#define | CV_Assert_8(expr1, expr2, expr3, expr4, expr5, expr6, expr7, expr8) CV_Assert_7(expr1, expr2, expr3, expr4, expr5, expr6, expr7 ); CV_Assert_1(expr8) |
#define | CV_Assert_9(expr1, expr2, expr3, expr4, expr5, expr6, expr7, expr8, expr9) CV_Assert_8(expr1, expr2, expr3, expr4, expr5, expr6, expr7, expr8 ); CV_Assert_1(expr9) |
#define | CV_CPU_AVX 10 |
#define | CV_CPU_AVX2 11 |
#define | CV_CPU_AVX_512BW 14 |
#define | CV_CPU_AVX_512CD 15 |
#define | CV_CPU_AVX_512DQ 16 |
#define | CV_CPU_AVX_512ER 17 |
#define | CV_CPU_AVX_512F 13 |
#define | CV_CPU_AVX_512IFMA512 18 |
#define | CV_CPU_AVX_512PF 19 |
#define | CV_CPU_AVX_512VBMI 20 |
#define | CV_CPU_AVX_512VL 21 |
#define | CV_CPU_FMA3 12 |
#define | CV_CPU_FP16 9 |
#define | CV_CPU_MMX 1 |
#define | CV_CPU_NEON 100 |
#define | CV_CPU_NONE 0 |
#define | CV_CPU_POPCNT 8 |
#define | CV_CPU_SSE 2 |
#define | CV_CPU_SSE2 3 |
#define | CV_CPU_SSE3 4 |
#define | CV_CPU_SSE4_1 6 |
#define | CV_CPU_SSE4_2 7 |
#define | CV_CPU_SSSE3 5 |
#define | CV_DbgAssert(expr) |
#define | CV_DECL_ALIGNED(x) |
#define | CV_ELEM_SIZE(type) (CV_MAT_CN(type) << ((((sizeof(size_t)/4+1)*16384|0x3a50) >> CV_MAT_DEPTH(type)*2) & 3)) |
#define | CV_ELEM_SIZE1(type) ((((sizeof(size_t)<<28)|0x8442211) >> CV_MAT_DEPTH(type)*4) & 15) |
#define | CV_ENABLE_UNROLLED 1 |
#define | CV_Error(code, msg) cv::error( code, msg, CV_Func, __FILE__, __LINE__ ) |
Call the error handler. More... | |
#define | CV_Error_(code, args) cv::error( code, cv::format args, CV_Func, __FILE__, __LINE__ ) |
Call the error handler. More... | |
#define | CV_ErrorNoReturn(code, msg) cv::errorNoReturn( code, msg, CV_Func, __FILE__, __LINE__ ) |
#define | CV_ErrorNoReturn_(code, args) cv::errorNoReturn( code, cv::format args, CV_Func, __FILE__, __LINE__ ) |
#define | CV_EXPORTS |
#define | CV_EXPORTS_AS(synonym) CV_EXPORTS |
#define | CV_EXPORTS_W CV_EXPORTS |
#define | CV_EXPORTS_W_MAP CV_EXPORTS |
#define | CV_EXPORTS_W_SIMPLE CV_EXPORTS |
#define | CV_EXTERN_C extern "C" |
#define | CV_FP16_TYPE 0 |
#define | CV_Func "" |
#define | CV_HARDWARE_MAX_FEATURE 255 |
#define | CV_IN_OUT |
#define | CV_IS_CONT_MAT CV_IS_MAT_CONT |
#define | CV_IS_MAT_CONT(flags) ((flags) & CV_MAT_CONT_FLAG) |
#define | CV_IS_SUBMAT(flags) ((flags) & CV_MAT_SUBMAT_FLAG) |
#define | CV_LOG2 0.69314718055994530941723212145818 |
#define | CV_MAT_CN(flags) ((((flags) & CV_MAT_CN_MASK) >> CV_CN_SHIFT) + 1) |
#define | CV_MAT_CN_MASK ((CV_CN_MAX - 1) << CV_CN_SHIFT) |
#define | CV_MAT_CONT_FLAG (1 << CV_MAT_CONT_FLAG_SHIFT) |
#define | CV_MAT_CONT_FLAG_SHIFT 14 |
#define | CV_MAT_TYPE(flags) ((flags) & CV_MAT_TYPE_MASK) |
#define | CV_MAT_TYPE_MASK (CV_DEPTH_MAX*CV_CN_MAX - 1) |
#define | CV_OUT |
#define | CV_PI 3.1415926535897932384626433832795 |
#define | CV_PROP |
#define | CV_PROP_RW |
#define | CV_SUBMAT_FLAG (1 << CV_SUBMAT_FLAG_SHIFT) |
#define | CV_SUBMAT_FLAG_SHIFT 15 |
#define | CV_VA_NUM_ARGS(...) CV_VA_NUM_ARGS_HELPER(__VA_ARGS__, 10, 9, 8, 7, 6, 5, 4, 3, 2, 1, 0) |
#define | CV_VA_NUM_ARGS_HELPER(_1, _2, _3, _4, _5, _6, _7, _8, _9, _10, N, ...) N |
Checks a condition at runtime and throws exception if it fails. More... | |
#define | CV_WRAP |
#define | CV_WRAP_AS(synonym) |
#define | MAX(a, b) ((a) < (b) ? (b) : (a)) |
#define | MIN(a, b) ((a) > (b) ? (b) : (a)) |
#define | OPENCV_ABI_COMPATIBILITY 300 |
Typedefs | |
typedef int(* | cv::ErrorCallback) (int status, const char *func_name, const char *err_msg, const char *file_name, int line, void *userdata) |
typedef Hamming | cv::HammingLUT |
Enumerations | |
enum | CpuFeatures { CPU_MMX = 1, CPU_SSE = 2, CPU_SSE2 = 3, CPU_SSE3 = 4, CPU_SSSE3 = 5, CPU_SSE4_1 = 6, CPU_SSE4_2 = 7, CPU_POPCNT = 8, CPU_FP16 = 9, CPU_AVX = 10, CPU_AVX2 = 11, CPU_FMA3 = 12, CPU_AVX_512F = 13, CPU_AVX_512BW = 14, CPU_AVX_512CD = 15, CPU_AVX_512DQ = 16, CPU_AVX_512ER = 17, CPU_AVX_512IFMA512 = 18, CPU_AVX_512PF = 19, CPU_AVX_512VBMI = 20, CPU_AVX_512VL = 21, CPU_NEON = 100 } |
Available CPU features. More... | |
enum | cv::SortFlags { cv::SORT_EVERY_ROW = 0, cv::SORT_EVERY_COLUMN = 1, cv::SORT_ASCENDING = 0, cv::SORT_DESCENDING = 16 } |
Functions | |
template<typename _Tp > | |
static _Tp * | cv::alignPtr (_Tp *ptr, int n=(int) sizeof(_Tp)) |
Aligns a pointer to the specified number of bytes. More... | |
static size_t | cv::alignSize (size_t sz, int n) |
Aligns a buffer size to the specified number of bytes. More... | |
bool | cv::checkHardwareSupport (int feature) |
Returns true if the specified feature is supported by the host hardware. More... | |
bool | cv::Cholesky (float *A, size_t astep, int m, float *b, size_t bstep, int n) |
bool | cv::Cholesky (double *A, size_t astep, int m, double *b, size_t bstep, int n) |
float | cv::cubeRoot (float val) |
Computes the cube root of an argument. More... | |
template<typename _Tp > | |
_Tp | cv::cv_abs (_Tp x) |
int | cv::cv_abs (uchar x) |
int | cv::cv_abs (schar x) |
int | cv::cv_abs (ushort x) |
int | cv::cv_abs (short x) |
CV_XADD (int *addr, int delta) | |
int | cvCeil (double value) |
Rounds floating-point number to the nearest integer not smaller than the original. More... | |
int | cvCeil (float value) |
int | cvCeil (int value) |
int | cvFloor (double value) |
Rounds floating-point number to the nearest integer not larger than the original. More... | |
int | cvFloor (float value) |
int | cvFloor (int value) |
int | cvIsInf (double value) |
Determines if the argument is Infinity. More... | |
int | cvIsInf (float value) |
int | cvIsNaN (double value) |
Determines if the argument is Not A Number. More... | |
int | cvIsNaN (float value) |
int | cvRound (double value) |
Rounds floating-point number to the nearest integer. More... | |
int | cvRound (float value) |
int | cvRound (int value) |
static int | cv::divUp (int a, unsigned int b) |
Integer division with result round up. More... | |
static size_t | cv::divUp (size_t a, unsigned int b) |
void | cv::error (const Exception &exc) |
Signals an error and raises the exception. More... | |
void | cv::error (int _code, const String &_err, const char *_func, const char *_file, int _line) |
Signals an error and raises the exception. More... | |
void | cv::errorNoReturn (int _code, const String &_err, const char *_func, const char *_file, int _line) |
float | cv::fastAtan2 (float y, float x) |
Calculates the angle of a 2D vector in degrees. More... | |
void | cv::fastFree (void *ptr) |
Deallocates a memory buffer. More... | |
void * | cv::fastMalloc (size_t bufSize) |
Allocates an aligned memory buffer. More... | |
template<typename _Tp , typename Functor > | |
void | cv::Mat::forEach_impl (const Functor &operation) |
String | cv::format (const char *fmt,...) |
Returns a text string formatted using the printf-like expression. More... | |
const String & | cv::getBuildInformation () |
Returns full configuration time cmake output. More... | |
int64 | cv::getCPUTickCount () |
Returns the number of CPU ticks. More... | |
static size_t | cv::getElemSize (int type) |
int | cv::getNumberOfCPUs () |
Returns the number of logical CPUs available for the process. More... | |
int | cv::getNumThreads () |
Returns the number of threads used by OpenCV for parallel regions. More... | |
int | cv::getThreadNum () |
Returns the index of the currently executed thread within the current parallel region. Always returns 0 if called outside of parallel region. More... | |
int64 | cv::getTickCount () |
Returns the number of ticks. More... | |
double | cv::getTickFrequency () |
Returns the number of ticks per second. More... | |
void | cv::glob (String pattern, std::vector< String > &result, bool recursive=false) |
int | cv::LU (float *A, size_t astep, int m, float *b, size_t bstep, int n) |
int | cv::LU (double *A, size_t astep, int m, double *b, size_t bstep, int n) |
template<typename _Tp , typename _AccTp > | |
static _AccTp | cv::normInf (const _Tp *a, int n) |
template<typename _Tp , typename _AccTp > | |
static _AccTp | cv::normInf (const _Tp *a, const _Tp *b, int n) |
template<typename _Tp , typename _AccTp > | |
static _AccTp | cv::normL1 (const _Tp *a, int n) |
template<typename _Tp , typename _AccTp > | |
static _AccTp | cv::normL1 (const _Tp *a, const _Tp *b, int n) |
float | cv::normL1 (const float *a, const float *b, int n) |
int | cv::normL1 (const uchar *a, const uchar *b, int n) |
template<typename _Tp , typename _AccTp > | |
static _AccTp | cv::normL2Sqr (const _Tp *a, int n) |
template<typename _Tp , typename _AccTp > | |
static _AccTp | cv::normL2Sqr (const _Tp *a, const _Tp *b, int n) |
static float | cv::normL2Sqr (const float *a, const float *b, int n) |
static std::ostream & | cv::operator<< (std::ostream &out, const TickMeter &tm) |
output operator More... | |
void | cv::parallel_for_ (const Range &range, const ParallelLoopBody &body, double nstripes=-1.) |
Parallel data processor. More... | |
ErrorCallback | cv::redirectError (ErrorCallback errCallback, void *userdata=0, void **prevUserdata=0) |
Sets the new error handler and the optional user data. More... | |
template<typename _Tp > | |
static _Tp | cv::saturate_cast (uchar v) |
Template function for accurate conversion from one primitive type to another. More... | |
template<typename _Tp > | |
static _Tp | cv::saturate_cast (schar v) |
template<typename _Tp > | |
static _Tp | cv::saturate_cast (ushort v) |
template<typename _Tp > | |
static _Tp | cv::saturate_cast (short v) |
template<typename _Tp > | |
static _Tp | cv::saturate_cast (unsigned v) |
template<typename _Tp > | |
static _Tp | cv::saturate_cast (int v) |
template<typename _Tp > | |
static _Tp | cv::saturate_cast (float v) |
template<typename _Tp > | |
static _Tp | cv::saturate_cast (double v) |
template<typename _Tp > | |
static _Tp | cv::saturate_cast (int64 v) |
template<typename _Tp > | |
static _Tp | cv::saturate_cast (uint64 v) |
template<> | |
schar | cv::saturate_cast< schar > (uchar v) |
template<> | |
schar | cv::saturate_cast< schar > (ushort v) |
template<> | |
schar | cv::saturate_cast< schar > (int v) |
template<> | |
schar | cv::saturate_cast< schar > (short v) |
template<> | |
schar | cv::saturate_cast< schar > (unsigned v) |
template<> | |
schar | cv::saturate_cast< schar > (float v) |
template<> | |
schar | cv::saturate_cast< schar > (double v) |
template<> | |
schar | cv::saturate_cast< schar > (int64 v) |
template<> | |
schar | cv::saturate_cast< schar > (uint64 v) |
template<> | |
short | cv::saturate_cast< short > (ushort v) |
template<> | |
short | cv::saturate_cast< short > (int v) |
template<> | |
short | cv::saturate_cast< short > (unsigned v) |
template<> | |
short | cv::saturate_cast< short > (float v) |
template<> | |
short | cv::saturate_cast< short > (double v) |
template<> | |
short | cv::saturate_cast< short > (int64 v) |
template<> | |
short | cv::saturate_cast< short > (uint64 v) |
template<> | |
uchar | cv::saturate_cast< uchar > (schar v) |
template<> | |
uchar | cv::saturate_cast< uchar > (ushort v) |
template<> | |
uchar | cv::saturate_cast< uchar > (int v) |
template<> | |
uchar | cv::saturate_cast< uchar > (short v) |
template<> | |
uchar | cv::saturate_cast< uchar > (unsigned v) |
template<> | |
uchar | cv::saturate_cast< uchar > (float v) |
template<> | |
uchar | cv::saturate_cast< uchar > (double v) |
template<> | |
uchar | cv::saturate_cast< uchar > (int64 v) |
template<> | |
uchar | cv::saturate_cast< uchar > (uint64 v) |
template<> | |
unsigned | cv::saturate_cast< unsigned > (float v) |
template<> | |
unsigned | cv::saturate_cast< unsigned > (double v) |
template<> | |
ushort | cv::saturate_cast< ushort > (schar v) |
template<> | |
ushort | cv::saturate_cast< ushort > (short v) |
template<> | |
ushort | cv::saturate_cast< ushort > (int v) |
template<> | |
ushort | cv::saturate_cast< ushort > (unsigned v) |
template<> | |
ushort | cv::saturate_cast< ushort > (float v) |
template<> | |
ushort | cv::saturate_cast< ushort > (double v) |
template<> | |
ushort | cv::saturate_cast< ushort > (int64 v) |
template<> | |
ushort | cv::saturate_cast< ushort > (uint64 v) |
bool | cv::setBreakOnError (bool flag) |
Sets/resets the break-on-error mode. More... | |
void | cv::setNumThreads (int nthreads) |
OpenCV will try to set the number of threads for the next parallel region. More... | |
void | cv::setUseOptimized (bool onoff) |
Enables or disables the optimized code. More... | |
String | cv::tempfile (const char *suffix=0) |
bool | cv::useOptimized () |
Returns the status of optimized code usage. More... | |
#define __CV_CAT | ( | x, | |
y | |||
) | __CV_CAT_(x, y) |
#define __CV_CAT_ | ( | x, | |
y | |||
) | __CV_CAT__(x, y) |
#define __CV_CAT__ | ( | x, | |
y | |||
) | x ## y |
#define __CV_EXPAND | ( | x | ) | x |
#define CV_2PI 6.283185307179586476925286766559 |
#define CV_Assert | ( | ... | ) | CVAUX_CONCAT(CV_Assert_, CV_VA_NUM_ARGS(__VA_ARGS__)) (__VA_ARGS__) |
#define CV_Assert_1 | ( | expr | ) | if(!!(expr)) ; else cv::error( cv::Error::StsAssert, #expr, CV_Func, __FILE__, __LINE__ ) |
#define CV_Assert_10 | ( | expr1, | |
expr2, | |||
expr3, | |||
expr4, | |||
expr5, | |||
expr6, | |||
expr7, | |||
expr8, | |||
expr9, | |||
expr10 | |||
) | CV_Assert_9(expr1, expr2, expr3, expr4, expr5, expr6, expr7, expr8, expr9 ); CV_Assert_1(expr10) |
#define CV_Assert_2 | ( | expr1, | |
expr2 | |||
) | CV_Assert_1(expr1); CV_Assert_1(expr2) |
#define CV_Assert_3 | ( | expr1, | |
expr2, | |||
expr3 | |||
) | CV_Assert_2(expr1, expr2); CV_Assert_1(expr3) |
#define CV_Assert_4 | ( | expr1, | |
expr2, | |||
expr3, | |||
expr4 | |||
) | CV_Assert_3(expr1, expr2, expr3); CV_Assert_1(expr4) |
#define CV_Assert_5 | ( | expr1, | |
expr2, | |||
expr3, | |||
expr4, | |||
expr5 | |||
) | CV_Assert_4(expr1, expr2, expr3, expr4); CV_Assert_1(expr5) |
#define CV_Assert_6 | ( | expr1, | |
expr2, | |||
expr3, | |||
expr4, | |||
expr5, | |||
expr6 | |||
) | CV_Assert_5(expr1, expr2, expr3, expr4, expr5); CV_Assert_1(expr6) |
#define CV_Assert_7 | ( | expr1, | |
expr2, | |||
expr3, | |||
expr4, | |||
expr5, | |||
expr6, | |||
expr7 | |||
) | CV_Assert_6(expr1, expr2, expr3, expr4, expr5, expr6 ); CV_Assert_1(expr7) |
#define CV_Assert_8 | ( | expr1, | |
expr2, | |||
expr3, | |||
expr4, | |||
expr5, | |||
expr6, | |||
expr7, | |||
expr8 | |||
) | CV_Assert_7(expr1, expr2, expr3, expr4, expr5, expr6, expr7 ); CV_Assert_1(expr8) |
#define CV_Assert_9 | ( | expr1, | |
expr2, | |||
expr3, | |||
expr4, | |||
expr5, | |||
expr6, | |||
expr7, | |||
expr8, | |||
expr9 | |||
) | CV_Assert_8(expr1, expr2, expr3, expr4, expr5, expr6, expr7, expr8 ); CV_Assert_1(expr9) |
#define CV_CPU_AVX 10 |
#define CV_CPU_AVX2 11 |
#define CV_CPU_AVX_512BW 14 |
#define CV_CPU_AVX_512CD 15 |
#define CV_CPU_AVX_512DQ 16 |
#define CV_CPU_AVX_512ER 17 |
#define CV_CPU_AVX_512F 13 |
#define CV_CPU_AVX_512IFMA512 18 |
#define CV_CPU_AVX_512PF 19 |
#define CV_CPU_AVX_512VBMI 20 |
#define CV_CPU_AVX_512VL 21 |
#define CV_CPU_FMA3 12 |
#define CV_CPU_FP16 9 |
#define CV_CPU_MMX 1 |
#define CV_CPU_NEON 100 |
#define CV_CPU_NONE 0 |
#define CV_CPU_POPCNT 8 |
#define CV_CPU_SSE 2 |
#define CV_CPU_SSE2 3 |
#define CV_CPU_SSE3 4 |
#define CV_CPU_SSE4_1 6 |
#define CV_CPU_SSE4_2 7 |
#define CV_CPU_SSSE3 5 |
#define CV_DbgAssert | ( | expr | ) |
replaced with CV_Assert(expr) in Debug configuration
#define CV_DECL_ALIGNED | ( | x | ) |
#define CV_ELEM_SIZE | ( | type | ) | (CV_MAT_CN(type) << ((((sizeof(size_t)/4+1)*16384|0x3a50) >> CV_MAT_DEPTH(type)*2) & 3)) |
0x3a50 = 11 10 10 01 01 00 00 ~ array of log2(sizeof(arr_type_elem))
#define CV_ELEM_SIZE1 | ( | type | ) | ((((sizeof(size_t)<<28)|0x8442211) >> CV_MAT_DEPTH(type)*4) & 15) |
Size of each channel item, 0x8442211 = 1000 0100 0100 0010 0010 0001 0001 ~ array of sizeof(arr_type_elem)
#define CV_ENABLE_UNROLLED 1 |
Call the error handler.
Currently, the error handler prints the error code and the error message to the standard error stream stderr
. In the Debug configuration, it then provokes memory access violation, so that the execution stack and all the parameters can be analyzed by the debugger. In the Release configuration, the exception is thrown.
code | one of Error::Code |
msg | error message |
#define CV_Error_ | ( | code, | |
args | |||
) | cv::error( code, cv::format args, CV_Func, __FILE__, __LINE__ ) |
Call the error handler.
This macro can be used to construct an error message on-fly to include some dynamic information, for example:
code | one of Error::Code |
args | printf-like formatted error message in parentheses |
#define CV_ErrorNoReturn | ( | code, | |
msg | |||
) | cv::errorNoReturn( code, msg, CV_Func, __FILE__, __LINE__ ) |
same as CV_Error(code,msg), but does not return
#define CV_ErrorNoReturn_ | ( | code, | |
args | |||
) | cv::errorNoReturn( code, cv::format args, CV_Func, __FILE__, __LINE__ ) |
same as CV_Error_(code,args), but does not return
#define CV_EXPORTS |
#define CV_EXPORTS_AS | ( | synonym | ) | CV_EXPORTS |
#define CV_EXPORTS_W CV_EXPORTS |
#define CV_EXPORTS_W_MAP CV_EXPORTS |
#define CV_EXPORTS_W_SIMPLE CV_EXPORTS |
#define CV_EXTERN_C extern "C" |
#define CV_FP16_TYPE 0 |
#define CV_Func "" |
#define CV_HARDWARE_MAX_FEATURE 255 |
#define CV_IN_OUT |
#define CV_IS_CONT_MAT CV_IS_MAT_CONT |
#define CV_IS_MAT_CONT | ( | flags | ) | ((flags) & CV_MAT_CONT_FLAG) |
#define CV_IS_SUBMAT | ( | flags | ) | ((flags) & CV_MAT_SUBMAT_FLAG) |
#define CV_LOG2 0.69314718055994530941723212145818 |
#define CV_MAT_CN | ( | flags | ) | ((((flags) & CV_MAT_CN_MASK) >> CV_CN_SHIFT) + 1) |
#define CV_MAT_CN_MASK ((CV_CN_MAX - 1) << CV_CN_SHIFT) |
#define CV_MAT_CONT_FLAG (1 << CV_MAT_CONT_FLAG_SHIFT) |
#define CV_MAT_CONT_FLAG_SHIFT 14 |
#define CV_MAT_TYPE | ( | flags | ) | ((flags) & CV_MAT_TYPE_MASK) |
#define CV_MAT_TYPE_MASK (CV_DEPTH_MAX*CV_CN_MAX - 1) |
#define CV_OUT |
#define CV_PI 3.1415926535897932384626433832795 |
#define CV_PROP |
#define CV_PROP_RW |
#define CV_SUBMAT_FLAG (1 << CV_SUBMAT_FLAG_SHIFT) |
#define CV_SUBMAT_FLAG_SHIFT 15 |
#define CV_VA_NUM_ARGS | ( | ... | ) | CV_VA_NUM_ARGS_HELPER(__VA_ARGS__, 10, 9, 8, 7, 6, 5, 4, 3, 2, 1, 0) |
#define CV_VA_NUM_ARGS_HELPER | ( | _1, | |
_2, | |||
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Checks a condition at runtime and throws exception if it fails.
The macros CV_Assert (and CV_DbgAssert(expr)) evaluate the specified expression. If it is 0, the macros raise an error (see cv::error). The macro CV_Assert checks the condition in both Debug and Release configurations while CV_DbgAssert is only retained in the Debug configuration.
#define CV_WRAP |
#define CV_WRAP_AS | ( | synonym | ) |
#define MAX | ( | a, | |
b | |||
) | ((a) < (b) ? (b) : (a)) |
#define MIN | ( | a, | |
b | |||
) | ((a) > (b) ? (b) : (a)) |
#define OPENCV_ABI_COMPATIBILITY 300 |
typedef int(* cv::ErrorCallback) (int status, const char *func_name, const char *err_msg, const char *file_name, int line, void *userdata) |
typedef Hamming cv::HammingLUT |
enum CpuFeatures |
enum cv::SortFlags |
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Aligns a pointer to the specified number of bytes.
The function returns the aligned pointer of the same type as the input pointer:
\[\texttt{(_Tp*)(((size_t)ptr + n-1) & -n)}\]
ptr | Aligned pointer. |
n | Alignment size that must be a power of two. |
Aligns a buffer size to the specified number of bytes.
The function returns the minimum number that is greater than or equal to sz and is divisible by n :
\[\texttt{(sz + n-1) & -n}\]
sz | Buffer size to align. |
n | Alignment size that must be a power of two. |
bool cv::checkHardwareSupport | ( | int | feature | ) |
Returns true if the specified feature is supported by the host hardware.
The function returns true if the host hardware supports the specified feature. When user calls setUseOptimized(false), the subsequent calls to checkHardwareSupport() will return false until setUseOptimized(true) is called. This way user can dynamically switch on and off the optimized code in OpenCV.
feature | The feature of interest, one of cv::CpuFeatures |
proxy for hal::Cholesky
proxy for hal::Cholesky
float cv::cubeRoot | ( | float | val | ) |
Computes the cube root of an argument.
The function cubeRoot computes \(\sqrt[3]{\texttt{val}}\). Negative arguments are handled correctly. NaN and Inf are not handled. The accuracy approaches the maximum possible accuracy for single-precision data.
val | A function argument. |
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CV_XADD | ( | int * | addr, |
int | delta | ||
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int cvCeil | ( | double | value | ) |
Rounds floating-point number to the nearest integer not smaller than the original.
The function computes an integer i such that:
\[i \le \texttt{value} < i+1\]
value | floating-point number. If the value is outside of INT_MIN ... INT_MAX range, the result is not defined. |
int cvCeil | ( | float | value | ) |
This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
int cvCeil | ( | int | value | ) |
This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
int cvFloor | ( | double | value | ) |
Rounds floating-point number to the nearest integer not larger than the original.
The function computes an integer i such that:
\[i \le \texttt{value} < i+1\]
value | floating-point number. If the value is outside of INT_MIN ... INT_MAX range, the result is not defined. |
int cvFloor | ( | float | value | ) |
This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
int cvFloor | ( | int | value | ) |
This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
int cvIsInf | ( | double | value | ) |
Determines if the argument is Infinity.
value | The input floating-point value |
The function returns 1 if the argument is a plus or minus infinity (as defined by IEEE754 standard) and 0 otherwise.
int cvIsInf | ( | float | value | ) |
This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
int cvIsNaN | ( | double | value | ) |
Determines if the argument is Not A Number.
value | The input floating-point value |
The function returns 1 if the argument is Not A Number (as defined by IEEE754 standard), 0 otherwise.
int cvIsNaN | ( | float | value | ) |
This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
int cvRound | ( | double | value | ) |
Rounds floating-point number to the nearest integer.
value | floating-point number. If the value is outside of INT_MIN ... INT_MAX range, the result is not defined. |
int cvRound | ( | float | value | ) |
This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
int cvRound | ( | int | value | ) |
This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
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Integer division with result round up.
Use this function instead of ceil((float)a / b)
expressions.
This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
void cv::error | ( | const Exception & | exc | ) |
Signals an error and raises the exception.
By default the function prints information about the error to stderr, then it either stops if cv::setBreakOnError() had been called before or raises the exception. It is possible to alternate error processing by using cv::redirectError().
exc | the exception raisen. |
void cv::error | ( | int | _code, |
const String & | _err, | ||
const char * | _func, | ||
const char * | _file, | ||
int | _line | ||
) |
Signals an error and raises the exception.
By default the function prints information about the error to stderr, then it either stops if setBreakOnError() had been called before or raises the exception. It is possible to alternate error processing by using redirectError().
_code | - error code (Error::Code) |
_err | - error description |
_func | - function name. Available only when the compiler supports getting it |
_file | - source file name where the error has occurred |
_line | - line number in the source file where the error has occurred |
void cv::errorNoReturn | ( | int | _code, |
const String & | _err, | ||
const char * | _func, | ||
const char * | _file, | ||
int | _line | ||
) |
same as cv::error, but does not return
float cv::fastAtan2 | ( | float | y, |
float | x | ||
) |
Calculates the angle of a 2D vector in degrees.
The function fastAtan2 calculates the full-range angle of an input 2D vector. The angle is measured in degrees and varies from 0 to 360 degrees. The accuracy is about 0.3 degrees.
x | x-coordinate of the vector. |
y | y-coordinate of the vector. |
void cv::fastFree | ( | void * | ptr | ) |
Deallocates a memory buffer.
The function deallocates the buffer allocated with fastMalloc . If NULL pointer is passed, the function does nothing. C version of the function clears the pointer pptr to avoid problems with double memory deallocation.
ptr | Pointer to the allocated buffer. |
void* cv::fastMalloc | ( | size_t | bufSize | ) |
Allocates an aligned memory buffer.
The function allocates the buffer of the specified size and returns it. When the buffer size is 16 bytes or more, the returned buffer is aligned to 16 bytes.
bufSize | Allocated buffer size. |
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String cv::format | ( | const char * | fmt, |
... | |||
) |
Returns a text string formatted using the printf-like expression.
The function acts like sprintf but forms and returns an STL string. It can be used to form an error message in the Exception constructor.
fmt | printf-compatible formatting specifiers. |
const String& cv::getBuildInformation | ( | ) |
Returns full configuration time cmake output.
Returned value is raw cmake output including version control system revision, compiler version, compiler flags, enabled modules and third party libraries, etc. Output format depends on target architecture.
int64 cv::getCPUTickCount | ( | ) |
Returns the number of CPU ticks.
The function returns the current number of CPU ticks on some architectures (such as x86, x64, PowerPC). On other platforms the function is equivalent to getTickCount. It can also be used for very accurate time measurements, as well as for RNG initialization. Note that in case of multi-CPU systems a thread, from which getCPUTickCount is called, can be suspended and resumed at another CPU with its own counter. So, theoretically (and practically) the subsequent calls to the function do not necessary return the monotonously increasing values. Also, since a modern CPU varies the CPU frequency depending on the load, the number of CPU clocks spent in some code cannot be directly converted to time units. Therefore, getTickCount is generally a preferable solution for measuring execution time.
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int cv::getNumberOfCPUs | ( | ) |
Returns the number of logical CPUs available for the process.
int cv::getNumThreads | ( | ) |
Returns the number of threads used by OpenCV for parallel regions.
Always returns 1 if OpenCV is built without threading support.
The exact meaning of return value depends on the threading framework used by OpenCV library:
TBB
- The number of threads, that OpenCV will try to use for parallel regions. If there is any tbb::thread_scheduler_init in user code conflicting with OpenCV, then function returns default number of threads used by TBB library.OpenMP
- An upper bound on the number of threads that could be used to form a new team.Concurrency
- The number of threads, that OpenCV will try to use for parallel regions.GCD
- Unsupported; returns the GCD thread pool limit (512) for compatibility.C=
- The number of threads, that OpenCV will try to use for parallel regions, if before called setNumThreads with threads > 0, otherwise returns the number of logical CPUs, available for the process. int cv::getThreadNum | ( | ) |
Returns the index of the currently executed thread within the current parallel region. Always returns 0 if called outside of parallel region.
The exact meaning of the return value depends on the threading framework used by OpenCV library:
TBB
- Unsupported with current 4.1 TBB release. Maybe will be supported in future.OpenMP
- The thread number, within the current team, of the calling thread.Concurrency
- An ID for the virtual processor that the current context is executing on (0 for master thread and unique number for others, but not necessary 1,2,3,...).GCD
- System calling thread's ID. Never returns 0 inside parallel region.C=
- The index of the current parallel task. int64 cv::getTickCount | ( | ) |
Returns the number of ticks.
The function returns the number of ticks after the certain event (for example, when the machine was turned on). It can be used to initialize RNG or to measure a function execution time by reading the tick count before and after the function call.
double cv::getTickFrequency | ( | ) |
Returns the number of ticks per second.
The function returns the number of ticks per second. That is, the following code computes the execution time in seconds:
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output operator
void cv::parallel_for_ | ( | const Range & | range, |
const ParallelLoopBody & | body, | ||
double | nstripes = -1. |
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Parallel data processor.
ErrorCallback cv::redirectError | ( | ErrorCallback | errCallback, |
void * | userdata = 0 , |
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void ** | prevUserdata = 0 |
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Sets the new error handler and the optional user data.
The function sets the new error handler, called from cv::error().
errCallback | the new error handler. If NULL, the default error handler is used. |
userdata | the optional user data pointer, passed to the callback. |
prevUserdata | the optional output parameter where the previous user data pointer is stored |
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Template function for accurate conversion from one primitive type to another.
The functions saturate_cast resemble the standard C++ cast operations, such as static_cast<T>() and others. They perform an efficient and accurate conversion from one primitive type to another (see the introduction chapter). saturate in the name means that when the input value v is out of the range of the target type, the result is not formed just by taking low bits of the input, but instead the value is clipped. For example:
Such clipping is done when the target type is unsigned char , signed char , unsigned short or signed short . For 32-bit integers, no clipping is done.
When the parameter is a floating-point value and the target type is an integer (8-, 16- or 32-bit), the floating-point value is first rounded to the nearest integer and then clipped if needed (when the target type is 8- or 16-bit).
This operation is used in the simplest or most complex image processing functions in OpenCV.
v | Function parameter. |
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This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
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This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
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This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
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This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
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This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
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This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
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This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
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This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
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This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
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bool cv::setBreakOnError | ( | bool | flag | ) |
Sets/resets the break-on-error mode.
When the break-on-error mode is set, the default error handler issues a hardware exception, which can make debugging more convenient.
void cv::setNumThreads | ( | int | nthreads | ) |
OpenCV will try to set the number of threads for the next parallel region.
If threads == 0, OpenCV will disable threading optimizations and run all it's functions sequentially. Passing threads < 0 will reset threads number to system default. This function must be called outside of parallel region.
OpenCV will try to run its functions with specified threads number, but some behaviour differs from framework:
TBB
- User-defined parallel constructions will run with the same threads number, if another is not specified. If later on user creates his own scheduler, OpenCV will use it.OpenMP
- No special defined behaviour.Concurrency
- If threads == 1, OpenCV will disable threading optimizations and run its functions sequentially.GCD
- Supports only values <= 0.C=
- No special defined behaviour. nthreads | Number of threads used by OpenCV. |
void cv::setUseOptimized | ( | bool | onoff | ) |
Enables or disables the optimized code.
The function can be used to dynamically turn on and off optimized code (code that uses SSE2, AVX, and other instructions on the platforms that support it). It sets a global flag that is further checked by OpenCV functions. Since the flag is not checked in the inner OpenCV loops, it is only safe to call the function on the very top level in your application where you can be sure that no other OpenCV function is currently executed.
By default, the optimized code is enabled unless you disable it in CMake. The current status can be retrieved using useOptimized.
onoff | The boolean flag specifying whether the optimized code should be used (onoff=true) or not (onoff=false). |
String cv::tempfile | ( | const char * | suffix = 0 | ) |
bool cv::useOptimized | ( | ) |
Returns the status of optimized code usage.
The function returns true if the optimized code is enabled. Otherwise, it returns false.