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Undo changes ipp to ippicv prefix of function names

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This commit is contained in:
vbystricky 2014-04-03 13:18:28 +04:00
parent eb8c531791
commit 1b3651d8ee
17 changed files with 915 additions and 579 deletions
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386
cmake/OpenCVFindIPP.cmake
View File

@ -1,7 +1,8 @@
#
# The script to setting up Intel(R) Integrated Performance Primitives (IPP)
# The script to detect Intel(R) Integrated Performance Primitives (IPP)
# installation/package
#
<<<<<<< HEAD
# Windows host:
# Run script like this before cmake:
# call "<IPP_INSTALL_DIR>\bin\ippvars.bat" intel64
@ -20,8 +21,9 @@
# IPP_INCLUDE_DIRS - IPP include folder
# IPP_LIBRARIES - IPP libraries that are used by OpenCV
# IPP_FOUND - True if Intel IPP found
# IPP_INCLUDE_DIR - IPP include folder
# IPP_LIBRARY_DIR - IPP libraries folder
# IPP_ROOT_DIR - root of IPP installation
# IPP_INCLUDE_DIRS - IPP include folder
# IPP_LIBRARY_DIRS - IPP libraries folder
# IPP_LIBRARIES - IPP libraries names that are used by OpenCV
#
# Created: 30 Dec 2010 by Vladimir Dudnik (vladimir.dudnik@intel.com)
@ -223,31 +225,198 @@ if(IPP_H_PATH)
ipp_get_version(${IPP_ROOT_DIR})
ipp_set_variables(${IPP_VERSION_STR})
=======
=======
# IPP_LATEST_VERSION_STR - string with the newest detected IPP version
# IPP_LATEST_VERSION_MAJOR - numbers of IPP version (MAJOR.MINOR.BUILD)
# IPP_LATEST_VERSION_MINOR
# IPP_LATEST_VERSION_BUILD
#
# Created: 30 Dec 2010 by Vladimir Dudnik (vladimir.dudnik@intel.com)
#
>>>>>>> Undo changes ipp to ippicv prefix of function names
set(IPP_FOUND TRUE)
set(IPP_FOUND)
set(IPP_VERSION_STR "5.3.0.0") # will not detect earlier versions
set(IPP_VERSION_MAJOR 0)
set(IPP_VERSION_MINOR 0)
set(IPP_VERSION_BUILD 0)
set(IPP_INCLUDE_DIR ${OpenCV_SOURCE_DIR}/3rdparty/ippicv/include)
set(IPP_ROOT_DIR)
set(IPP_INCLUDE_DIRS)
set(IPP_LIBRARY_DIRS)
set(IPP_LIBRARIES)
if(WIN32 AND NOT ARM)
if (X86_64)
set(IPP_LIBRARY_DIR ${OpenCV_SOURCE_DIR}/3rdparty/ippicv/libs/windows/intel64)
else()
set(IPP_LIBRARY_DIR ${OpenCV_SOURCE_DIR}/3rdparty/ippicv/libs/windows/ia32/)
endif()
set(IPP_LIBRARIES ippccmt.lib ippcoremt.lib ippcvmt.lib ippimt.lib ippsmt.lib ippvmmt.lib)
elseif(UNIX)
if (X86_64)
set(IPP_LIBRARY_DIR ${OpenCV_SOURCE_DIR}/3rdparty/ippicv/libs/linux/intel64)
else()
set(IPP_LIBRARY_DIR ${OpenCV_SOURCE_DIR}/3rdparty/ippicv/libs/linux/ia32/)
endif()
set(IPP_LIBRARIES libippcc.a libippcore.a libippcv.a libippi.a libipps.a libippvm.a)
set(IPP_LIB_PREFIX ${CMAKE_STATIC_LIBRARY_PREFIX})
set(IPP_LIB_SUFFIX ${CMAKE_STATIC_LIBRARY_SUFFIX})
set(IPP_PREFIX "ipp")
set(IPP_SUFFIX "_l")
set(IPPCORE "core") # core functionality
set(IPPS "s") # signal processing
set(IPPI "i") # image processing
set(IPPCC "cc") # color conversion
set(IPPCV "cv") # computer vision
set(IPPVM "vm") # vector math
set(IPP_X64 0)
if (CMAKE_CXX_SIZEOF_DATA_PTR EQUAL 8)
set(IPP_X64 1)
endif()
if (CMAKE_CL_64)
set(IPP_X64 1)
endif()
# ------------------------------------------------------------------------
# This function detect IPP version by analyzing ippversion.h file
# Note, ippversion.h file was inroduced since IPP 5.3
# ------------------------------------------------------------------------
function(get_ipp_version _ROOT_DIR)
set(_VERSION_STR)
set(_MAJOR)
set(_MINOR)
set(_BUILD)
# read IPP version info from file
file(STRINGS ${_ROOT_DIR}/include/ippversion.h STR1 REGEX "IPP_VERSION_MAJOR")
file(STRINGS ${_ROOT_DIR}/include/ippversion.h STR2 REGEX "IPP_VERSION_MINOR")
file(STRINGS ${_ROOT_DIR}/include/ippversion.h STR3 REGEX "IPP_VERSION_BUILD")
if("${STR3}" STREQUAL "")
file(STRINGS ${_ROOT_DIR}/include/ippversion.h STR3 REGEX "IPP_VERSION_UPDATE")
endif()
file(STRINGS ${_ROOT_DIR}/include/ippversion.h STR4 REGEX "IPP_VERSION_STR")
# extract info and assign to variables
string(REGEX MATCHALL "[0-9]+" _MAJOR ${STR1})
string(REGEX MATCHALL "[0-9]+" _MINOR ${STR2})
string(REGEX MATCHALL "[0-9]+" _BUILD ${STR3})
string(REGEX MATCHALL "[0-9]+[.]+[0-9]+[^\"]+|[0-9]+[.]+[0-9]+" _VERSION_STR ${STR4})
# export info to parent scope
set(IPP_VERSION_STR ${_VERSION_STR} PARENT_SCOPE)
set(IPP_VERSION_MAJOR ${_MAJOR} PARENT_SCOPE)
set(IPP_VERSION_MINOR ${_MINOR} PARENT_SCOPE)
set(IPP_VERSION_BUILD ${_BUILD} PARENT_SCOPE)
message(STATUS "found IPP: ${_MAJOR}.${_MINOR}.${_BUILD} [${_VERSION_STR}]")
message(STATUS "at: ${_ROOT_DIR}")
return()
endfunction()
# ------------------------------------------------------------------------
# This is auxiliary function called from set_ipp_variables()
# to set IPP_LIBRARIES variable in IPP 6.x style (IPP 5.3 should also work)
# ------------------------------------------------------------------------
function(set_ipp_old_libraries)
set(IPP_PREFIX "ipp")
set(IPP_SUFFIX) # old style static core libs suffix
set(IPP_ARCH) # architecture suffix
set(IPP_DISP "emerged") # old style dipatcher and cpu-specific
set(IPP_MRGD "merged") # static libraries
set(IPPCORE "core") # core functionality
set(IPPSP "s") # signal processing
set(IPPIP "i") # image processing
set(IPPCC "cc") # color conversion
set(IPPCV "cv") # computer vision
set(IPPVM "vm") # vector math
if (IPP_X64)
set(IPP_ARCH "em64t")
endif()
if(WIN32)
set(IPP_SUFFIX "l")
endif()
set(IPP_LIBRARIES
${IPP_LIB_PREFIX}${IPP_PREFIX}${IPPVM}${IPP_MRGD}${IPP_ARCH}${IPP_LIB_SUFFIX}
${IPP_LIB_PREFIX}${IPP_PREFIX}${IPPVM}${IPP_DISP}${IPP_ARCH}${IPP_LIB_SUFFIX}
${IPP_LIB_PREFIX}${IPP_PREFIX}${IPPCC}${IPP_MRGD}${IPP_ARCH}${IPP_LIB_SUFFIX}
${IPP_LIB_PREFIX}${IPP_PREFIX}${IPPCC}${IPP_DISP}${IPP_ARCH}${IPP_LIB_SUFFIX}
${IPP_LIB_PREFIX}${IPP_PREFIX}${IPPCV}${IPP_MRGD}${IPP_ARCH}${IPP_LIB_SUFFIX}
${IPP_LIB_PREFIX}${IPP_PREFIX}${IPPCV}${IPP_DISP}${IPP_ARCH}${IPP_LIB_SUFFIX}
${IPP_LIB_PREFIX}${IPP_PREFIX}${IPPIP}${IPP_MRGD}${IPP_ARCH}${IPP_LIB_SUFFIX}
${IPP_LIB_PREFIX}${IPP_PREFIX}${IPPIP}${IPP_DISP}${IPP_ARCH}${IPP_LIB_SUFFIX}
${IPP_LIB_PREFIX}${IPP_PREFIX}${IPPSP}${IPP_MRGD}${IPP_ARCH}${IPP_LIB_SUFFIX}
${IPP_LIB_PREFIX}${IPP_PREFIX}${IPPSP}${IPP_DISP}${IPP_ARCH}${IPP_LIB_SUFFIX}
${IPP_LIB_PREFIX}${IPP_PREFIX}${IPPCORE}${IPP_ARCH}${IPP_SUFFIX}${IPP_LIB_SUFFIX}
PARENT_SCOPE)
return()
endfunction()
# ------------------------------------------------------------------------
# This is auxiliary function called from set_ipp_variables()
# to set IPP_LIBRARIES variable in IPP 7.x and 8.x style
# ------------------------------------------------------------------------
function(set_ipp_new_libraries _LATEST_VERSION)
set(IPP_PREFIX "ipp")
if(${_LATEST_VERSION} VERSION_LESS "8.0")
set(IPP_SUFFIX "_l") # static not threaded libs suffix IPP 7.x
else()
if(WIN32)
set(IPP_SUFFIX "mt") # static not threaded libs suffix IPP 8.x for Windows
else()
set(IPP_SUFFIX "") # static not threaded libs suffix IPP 8.x for Linux/OS X
endif()
endif()
set(IPPCORE "core") # core functionality
set(IPPSP "s") # signal processing
set(IPPIP "i") # image processing
set(IPPCC "cc") # color conversion
set(IPPCV "cv") # computer vision
set(IPPVM "vm") # vector math
set(IPP_LIBRARIES
${IPP_LIB_PREFIX}${IPP_PREFIX}${IPPVM}${IPP_SUFFIX}${IPP_LIB_SUFFIX}
${IPP_LIB_PREFIX}${IPP_PREFIX}${IPPCC}${IPP_SUFFIX}${IPP_LIB_SUFFIX}
${IPP_LIB_PREFIX}${IPP_PREFIX}${IPPCV}${IPP_SUFFIX}${IPP_LIB_SUFFIX}
${IPP_LIB_PREFIX}${IPP_PREFIX}${IPPI}${IPP_SUFFIX}${IPP_LIB_SUFFIX}
${IPP_LIB_PREFIX}${IPP_PREFIX}${IPPS}${IPP_SUFFIX}${IPP_LIB_SUFFIX}
${IPP_LIB_PREFIX}${IPP_PREFIX}${IPPCORE}${IPP_SUFFIX}${IPP_LIB_SUFFIX})
if (UNIX)
set(IPP_LIBRARIES
${IPP_LIBRARIES}
${IPP_LIB_PREFIX}irc${CMAKE_SHARED_LIBRARY_SUFFIX}
${IPP_LIB_PREFIX}imf${CMAKE_SHARED_LIBRARY_SUFFIX}
${IPP_LIB_PREFIX}svml${CMAKE_SHARED_LIBRARY_SUFFIX})
endif()
set(IPP_LIBRARIES ${IPP_LIBRARIES} PARENT_SCOPE)
return()
endfunction()
# ------------------------------------------------------------------------
# This function will set
# IPP_INCLUDE_DIRS, IPP_LIBRARY_DIRS and IPP_LIBRARIES variables depending
# on IPP version parameter.
# Since IPP 7.0 version library names and install folder structure
# was changed
# ------------------------------------------------------------------------
function(set_ipp_variables _LATEST_VERSION)
if(${_LATEST_VERSION} VERSION_LESS "7.0")
# message(STATUS "old")
# set INCLUDE and LIB folders
set(IPP_INCLUDE_DIRS ${IPP_ROOT_DIR}/include PARENT_SCOPE)
set(IPP_LIBRARY_DIRS ${IPP_ROOT_DIR}/lib PARENT_SCOPE)
if (IPP_X64)
if(NOT EXISTS ${IPP_ROOT_DIR}/../em64t)
message(SEND_ERROR "IPP EM64T libraries not found")
endif()
else()
if(NOT EXISTS ${IPP_ROOT_DIR}/../ia32)
message(SEND_ERROR "IPP IA32 libraries not found")
endif()
endif()
<<<<<<< HEAD
# read IPP version info from file
set(_VERSION_STR)
set(_MAJOR)
@ -259,15 +428,99 @@ file(STRINGS ${IPP_INCLUDE_DIR}/ippversion.h STR3 REGEX "IPP_VERSION_BUILD")
if("${STR3}" STREQUAL "")
file(STRINGS ${IPP_INCLUDE_DIR}/ippversion.h STR3 REGEX "IPP_VERSION_UPDATE")
>>>>>>> Prepare codes for ippicv library
=======
# set IPP_LIBRARIES variable (6.x lib names)
set_ipp_old_libraries()
set(IPP_LIBRARIES ${IPP_LIBRARIES} PARENT_SCOPE)
message(STATUS "IPP libs: ${IPP_LIBRARIES}")
else()
# message(STATUS "new")
# set INCLUDE and LIB folders
set(IPP_INCLUDE_DIRS ${IPP_ROOT_DIR}/include PARENT_SCOPE)
if (APPLE)
set(IPP_LIBRARY_DIRS ${IPP_ROOT_DIR}/lib)
elseif (IPP_X64)
if(NOT EXISTS ${IPP_ROOT_DIR}/lib/intel64)
message(SEND_ERROR "IPP EM64T libraries not found")
endif()
set(IPP_LIBRARY_DIRS ${IPP_ROOT_DIR}/lib/intel64)
else()
if(NOT EXISTS ${IPP_ROOT_DIR}/lib/ia32)
message(SEND_ERROR "IPP IA32 libraries not found")
endif()
set(IPP_LIBRARY_DIRS ${IPP_ROOT_DIR}/lib/ia32)
endif()
if (UNIX)
get_filename_component(INTEL_COMPILER_LIBRARY_DIR ${IPP_ROOT_DIR}/../lib REALPATH)
if (IPP_X64)
if(NOT EXISTS ${INTEL_COMPILER_LIBRARY_DIR}/intel64)
message(SEND_ERROR "Intel compiler EM64T libraries not found")
endif()
set(IPP_LIBRARY_DIRS
${IPP_LIBRARY_DIRS}
${INTEL_COMPILER_LIBRARY_DIR}/intel64)
else()
if(NOT EXISTS ${INTEL_COMPILER_LIBRARY_DIR}/ia32)
message(SEND_ERROR "Intel compiler IA32 libraries not found")
endif()
set(IPP_LIBRARY_DIRS
${IPP_LIBRARY_DIRS}
${INTEL_COMPILER_LIBRARY_DIR}/ia32)
endif()
endif()
set(IPP_LIBRARY_DIRS ${IPP_LIBRARY_DIRS} PARENT_SCOPE)
# set IPP_LIBRARIES variable (7.x or 8.x lib names)
set_ipp_new_libraries(${_LATEST_VERSION})
set(IPP_LIBRARIES ${IPP_LIBRARIES} PARENT_SCOPE)
message(STATUS "IPP libs: ${IPP_LIBRARIES}")
endif()
return()
endfunction()
# ------------------------------------------------------------------------
# This section will look for IPP through IPPROOT env variable
# Note, IPPROOT is not set by IPP installer, you may need to set it manually
# ------------------------------------------------------------------------
find_path(
IPP_H_PATH
NAMES ippversion.h
PATHS $ENV{IPPROOT}
PATH_SUFFIXES include
DOC "The path to Intel(R) IPP header files"
NO_DEFAULT_PATH
NO_CMAKE_PATH)
if(IPP_H_PATH)
set(IPP_FOUND 1)
# traverse up to IPPROOT level
get_filename_component(IPP_ROOT_DIR ${IPP_H_PATH} PATH)
# extract IPP version info
get_ipp_version(${IPP_ROOT_DIR})
# keep info in the same vars for auto search and search by IPPROOT
set(IPP_LATEST_VERSION_STR ${IPP_VERSION_STR})
set(IPP_LATEST_VERSION_MAJOR ${IPP_VERSION_MAJOR})
set(IPP_LATEST_VERSION_MINOR ${IPP_VERSION_MINOR})
set(IPP_LATEST_VERSION_BUILD ${IPP_VERSION_BUILD})
# set IPP INCLUDE, LIB dirs and library names
set_ipp_variables(${IPP_LATEST_VERSION_STR})
>>>>>>> Undo changes ipp to ippicv prefix of function names
endif()
file(STRINGS ${IPP_INCLUDE_DIR}/ippversion.h STR4 REGEX "IPP_VERSION_STR")
# extract info and assign to variables
string(REGEX MATCHALL "[0-9]+" _MAJOR ${STR1})
string(REGEX MATCHALL "[0-9]+" _MINOR ${STR2})
string(REGEX MATCHALL "[0-9]+" _BUILD ${STR3})
string(REGEX MATCHALL "[0-9]+[.]+[0-9]+[^\"]+|[0-9]+[.]+[0-9]+" _VERSION_STR ${STR4})
<<<<<<< HEAD
<<<<<<< HEAD
if(WIN32 AND MINGW AND NOT IPP_VERSION_MAJOR LESS 7)
# Since IPP built with Microsoft compiler and /GS option
@ -295,3 +548,86 @@ set(IPP_VERSION_BUILD ${_BUILD})
message(STATUS "found IPP: ${_MAJOR}.${_MINOR}.${_BUILD} [${_VERSION_STR}]")
>>>>>>> Prepare codes for ippicv library
=======
if(NOT IPP_FOUND)
# reset var from previous search
set(IPP_H_PATH)
# ------------------------------------------------------------------------
# This section will look for IPP through system program folders
# Note, if several IPP installations found the newest version will be
# selected
# ------------------------------------------------------------------------
foreach(curdir ${CMAKE_SYSTEM_PREFIX_PATH})
set(curdir ${curdir}/intel)
file(TO_CMAKE_PATH ${curdir} CURDIR)
if(EXISTS ${curdir})
file(GLOB_RECURSE IPP_H_DIR ${curdir}/ippversion.h)
if(IPP_H_DIR)
set(IPP_FOUND 1)
endif()
# init IPP_LATEST_VERSION version with oldest detectable version (5.3.0.0)
# IPP prior 5.3 did not have ippversion.h file
set(IPP_LATEST_VERSION_STR ${IPP_VERSION_STR})
# look through all dirs where ippversion.h was found
foreach(item ${IPP_H_DIR})
# traverse up to IPPROOT level
get_filename_component(_FILE_PATH ${item} PATH)
get_filename_component(_ROOT_DIR ${_FILE_PATH} PATH)
# extract IPP version info
get_ipp_version(${_ROOT_DIR})
# remember the latest version (if many found)
if(${IPP_LATEST_VERSION_STR} VERSION_LESS ${IPP_VERSION_STR})
set(IPP_LATEST_VERSION_STR ${IPP_VERSION_STR})
set(IPP_LATEST_VERSION_MAJOR ${IPP_VERSION_MAJOR})
set(IPP_LATEST_VERSION_MINOR ${IPP_VERSION_MINOR})
set(IPP_LATEST_VERSION_BUILD ${IPP_VERSION_BUILD})
set(IPP_ROOT_DIR ${_ROOT_DIR})
endif()
endforeach()
endif()
endforeach()
endif()
if(IPP_FOUND)
# set IPP INCLUDE, LIB dirs and library names
set_ipp_variables(${IPP_LATEST_VERSION_STR})
# set CACHE variable IPP_H_PATH,
# path to IPP header files for the latest version
find_path(
IPP_H_PATH
NAMES ippversion.h
PATHS ${IPP_ROOT_DIR}
PATH_SUFFIXES include
DOC "The path to Intel(R) IPP header files"
NO_DEFAULT_PATH
NO_CMAKE_PATH)
endif()
if(WIN32 AND MINGW AND NOT IPP_LATEST_VERSION_MAJOR LESS 7)
# Since IPP built with Microsoft compiler and /GS option
# ======================================================
# From Windows SDK 7.1
# (usually in "C:\Program Files\Microsoft Visual Studio 10.0\VC\lib"),
# to avoid undefined reference to __security_cookie and _chkstk:
set(MSV_RUNTMCHK "RunTmChk")
set(IPP_LIBRARIES ${IPP_LIBRARIES} ${MSV_RUNTMCHK}${IPP_LIB_SUFFIX})
# To avoid undefined reference to _alldiv and _chkstk
# ===================================================
# NB: it may require a recompilation of w32api (after having modified
# the file ntdll.def) to export the required functions
# See http://code.opencv.org/issues/1906 for additional details
set(MSV_NTDLL "ntdll")
set(IPP_LIBRARIES ${IPP_LIBRARIES} ${MSV_NTDLL}${IPP_LIB_SUFFIX})
endif()
>>>>>>> Undo changes ipp to ippicv prefix of function names

50
modules/core/src/arithm.cpp
View File

@ -460,7 +460,7 @@ static void add8u( const uchar* src1, size_t step1,
{
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviAdd_8u_C1RSfs(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz, 0))
if (0 <= ippiAdd_8u_C1RSfs(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz, 0))
return;
#endif
(vBinOp<uchar, OpAdd<uchar>, IF_SIMD(VAdd<uchar>)>(src1, step1, src2, step2, dst, step, sz));
@ -479,7 +479,7 @@ static void add16u( const ushort* src1, size_t step1,
{
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviAdd_16u_C1RSfs(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz, 0))
if (0 <= ippiAdd_16u_C1RSfs(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz, 0))
return;
#endif
(vBinOp<ushort, OpAdd<ushort>, IF_SIMD(VAdd<ushort>)>(src1, step1, src2, step2, dst, step, sz));
@ -491,7 +491,7 @@ static void add16s( const short* src1, size_t step1,
{
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviAdd_16s_C1RSfs(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz, 0))
if (0 <= ippiAdd_16s_C1RSfs(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz, 0))
return;
#endif
(vBinOp<short, OpAdd<short>, IF_SIMD(VAdd<short>)>(src1, step1, src2, step2, dst, step, sz));
@ -510,7 +510,7 @@ static void add32f( const float* src1, size_t step1,
{
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviAdd_32f_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz))
if (0 <= ippiAdd_32f_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz))
return;
#endif
(vBinOp32<float, OpAdd<float>, IF_SIMD(VAdd<float>)>(src1, step1, src2, step2, dst, step, sz));
@ -529,7 +529,7 @@ static void sub8u( const uchar* src1, size_t step1,
{
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviSub_8u_C1RSfs(src2, (int)step2, src1, (int)step1, dst, (int)step, (IppiSize&)sz, 0))
if (0 <= ippiSub_8u_C1RSfs(src2, (int)step2, src1, (int)step1, dst, (int)step, (IppiSize&)sz, 0))
return;
#endif
(vBinOp<uchar, OpSub<uchar>, IF_SIMD(VSub<uchar>)>(src1, step1, src2, step2, dst, step, sz));
@ -548,7 +548,7 @@ static void sub16u( const ushort* src1, size_t step1,
{
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviSub_16u_C1RSfs(src2, (int)step2, src1, (int)step1, dst, (int)step, (IppiSize&)sz, 0))
if (0 <= ippiSub_16u_C1RSfs(src2, (int)step2, src1, (int)step1, dst, (int)step, (IppiSize&)sz, 0))
return;
#endif
(vBinOp<ushort, OpSub<ushort>, IF_SIMD(VSub<ushort>)>(src1, step1, src2, step2, dst, step, sz));
@ -560,7 +560,7 @@ static void sub16s( const short* src1, size_t step1,
{
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviSub_16s_C1RSfs(src2, (int)step2, src1, (int)step1, dst, (int)step, (IppiSize&)sz, 0))
if (0 <= ippiSub_16s_C1RSfs(src2, (int)step2, src1, (int)step1, dst, (int)step, (IppiSize&)sz, 0))
return;
#endif
(vBinOp<short, OpSub<short>, IF_SIMD(VSub<short>)>(src1, step1, src2, step2, dst, step, sz));
@ -579,7 +579,7 @@ static void sub32f( const float* src1, size_t step1,
{
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviSub_32f_C1R(src2, (int)step2, src1, (int)step1, dst, (int)step, (IppiSize&)sz))
if (0 <= ippiSub_32f_C1R(src2, (int)step2, src1, (int)step1, dst, (int)step, (IppiSize&)sz))
return;
#endif
(vBinOp32<float, OpSub<float>, IF_SIMD(VSub<float>)>(src1, step1, src2, step2, dst, step, sz));
@ -607,7 +607,7 @@ static void max8u( const uchar* src1, size_t step1,
int i = 0;
for(; i < sz.height; i++)
{
if (0 > ippicvsMaxEvery_8u(s1, s2, d, sz.width))
if (0 > ippsMaxEvery_8u(s1, s2, d, sz.width))
break;
s1 += step1;
s2 += step2;
@ -638,7 +638,7 @@ static void max16u( const ushort* src1, size_t step1,
int i = 0;
for(; i < sz.height; i++)
{
if (0 > ippicvsMaxEvery_16u(s1, s2, d, sz.width))
if (0 > ippsMaxEvery_16u(s1, s2, d, sz.width))
break;
s1 = (ushort*)((uchar*)s1 + step1);
s2 = (ushort*)((uchar*)s2 + step2);
@ -676,7 +676,7 @@ static void max32f( const float* src1, size_t step1,
int i = 0;
for(; i < sz.height; i++)
{
if (0 > ippicvsMaxEvery_32f(s1, s2, d, sz.width))
if (0 > ippsMaxEvery_32f(s1, s2, d, sz.width))
break;
s1 = (float*)((uchar*)s1 + step1);
s2 = (float*)((uchar*)s2 + step2);
@ -707,7 +707,7 @@ static void min8u( const uchar* src1, size_t step1,
int i = 0;
for(; i < sz.height; i++)
{
if (0 > ippicvsMinEvery_8u(s1, s2, d, sz.width))
if (0 > ippsMinEvery_8u(s1, s2, d, sz.width))
break;
s1 += step1;
s2 += step2;
@ -738,7 +738,7 @@ static void min16u( const ushort* src1, size_t step1,
int i = 0;
for(; i < sz.height; i++)
{
if (0 > ippicvsMinEvery_16u(s1, s2, d, sz.width))
if (0 > ippsMinEvery_16u(s1, s2, d, sz.width))
break;
s1 = (ushort*)((uchar*)s1 + step1);
s2 = (ushort*)((uchar*)s2 + step2);
@ -776,7 +776,7 @@ static void min32f( const float* src1, size_t step1,
int i = 0;
for(; i < sz.height; i++)
{
if (0 > ippicvsMinEvery_32f(s1, s2, d, sz.width))
if (0 > ippsMinEvery_32f(s1, s2, d, sz.width))
break;
s1 = (float*)((uchar*)s1 + step1);
s2 = (float*)((uchar*)s2 + step2);
@ -801,7 +801,7 @@ static void absdiff8u( const uchar* src1, size_t step1,
{
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviAbsDiff_8u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz))
if (0 <= ippiAbsDiff_8u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz))
return;
#endif
(vBinOp<uchar, OpAbsDiff<uchar>, IF_SIMD(VAbsDiff<uchar>)>(src1, step1, src2, step2, dst, step, sz));
@ -820,7 +820,7 @@ static void absdiff16u( const ushort* src1, size_t step1,
{
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviAbsDiff_16u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz))
if (0 <= ippiAbsDiff_16u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz))
return;
#endif
(vBinOp<ushort, OpAbsDiff<ushort>, IF_SIMD(VAbsDiff<ushort>)>(src1, step1, src2, step2, dst, step, sz));
@ -846,7 +846,7 @@ static void absdiff32f( const float* src1, size_t step1,
{
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviAbsDiff_32f_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz))
if (0 <= ippiAbsDiff_32f_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz))
return;
#endif
(vBinOp32<float, OpAbsDiff<float>, IF_SIMD(VAbsDiff<float>)>(src1, step1, src2, step2, dst, step, sz));
@ -866,7 +866,7 @@ static void and8u( const uchar* src1, size_t step1,
{
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviAnd_8u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz))
if (0 <= ippiAnd_8u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz))
return;
#endif
(vBinOp<uchar, OpAnd<uchar>, IF_SIMD(VAnd<uchar>)>(src1, step1, src2, step2, dst, step, sz));
@ -878,7 +878,7 @@ static void or8u( const uchar* src1, size_t step1,
{
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviOr_8u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz))
if (0 <= ippiOr_8u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz))
return;
#endif
(vBinOp<uchar, OpOr<uchar>, IF_SIMD(VOr<uchar>)>(src1, step1, src2, step2, dst, step, sz));
@ -890,7 +890,7 @@ static void xor8u( const uchar* src1, size_t step1,
{
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviXor_8u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz))
if (0 <= ippiXor_8u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz))
return;
#endif
(vBinOp<uchar, OpXor<uchar>, IF_SIMD(VXor<uchar>)>(src1, step1, src2, step2, dst, step, sz));
@ -902,7 +902,7 @@ static void not8u( const uchar* src1, size_t step1,
{
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step); (void *)src2;
if (0 <= ippicviNot_8u_C1R(src1, (int)step1, dst, (int)step, (IppiSize&)sz))
if (0 <= ippiNot_8u_C1R(src1, (int)step1, dst, (int)step, (IppiSize&)sz))
return;
#endif
(vBinOp<uchar, OpNot<uchar>, IF_SIMD(VNot<uchar>)>(src1, step1, src2, step2, dst, step, sz));
@ -2386,7 +2386,7 @@ static void cmp8u(const uchar* src1, size_t step1, const uchar* src2, size_t ste
if( op >= 0 )
{
fixSteps(size, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviCompare_8u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)size, op))
if (0 <= ippiCompare_8u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)size, op))
return;
}
#endif
@ -2469,7 +2469,7 @@ static void cmp16u(const ushort* src1, size_t step1, const ushort* src2, size_t
if( op >= 0 )
{
fixSteps(size, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviCompare_16u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)size, op))
if (0 <= ippiCompare_16u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)size, op))
return;
}
#endif
@ -2484,7 +2484,7 @@ static void cmp16s(const short* src1, size_t step1, const short* src2, size_t st
if( op > 0 )
{
fixSteps(size, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviCompare_16s_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)size, op))
if (0 <= ippiCompare_16s_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)size, op))
return;
}
#endif
@ -2590,7 +2590,7 @@ static void cmp32f(const float* src1, size_t step1, const float* src2, size_t st
if( op >= 0 )
{
fixSteps(size, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviCompare_32f_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)size, op))
if (0 <= ippiCompare_32f_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)size, op))
return;
}
#endif

56
modules/core/src/dxt.cpp
View File

@ -466,56 +466,56 @@ template<> struct DFT_VecR4<float>
#endif
#ifdef USE_IPP_DFT
static void ippicvsDFTFwd_CToC( const Complex<float>* src, Complex<float>* dst,
static void ippsDFTFwd_CToC( const Complex<float>* src, Complex<float>* dst,
const void* spec, uchar* buf)
{
ippicvsDFTFwd_CToC_32fc( (const Ipp32fc*)src, (Ipp32fc*)dst,
ippsDFTFwd_CToC_32fc( (const Ipp32fc*)src, (Ipp32fc*)dst,
(const IppsDFTSpec_C_32fc*)spec, buf);
}
static void ippicvsDFTFwd_CToC( const Complex<double>* src, Complex<double>* dst,
static void ippsDFTFwd_CToC( const Complex<double>* src, Complex<double>* dst,
const void* spec, uchar* buf)
{
ippicvsDFTFwd_CToC_64fc( (const Ipp64fc*)src, (Ipp64fc*)dst,
ippsDFTFwd_CToC_64fc( (const Ipp64fc*)src, (Ipp64fc*)dst,
(const IppsDFTSpec_C_64fc*)spec, buf);
}
static void ippicvsDFTInv_CToC( const Complex<float>* src, Complex<float>* dst,
static void ippsDFTInv_CToC( const Complex<float>* src, Complex<float>* dst,
const void* spec, uchar* buf)
{
ippicvsDFTInv_CToC_32fc( (const Ipp32fc*)src, (Ipp32fc*)dst,
ippsDFTInv_CToC_32fc( (const Ipp32fc*)src, (Ipp32fc*)dst,
(const IppsDFTSpec_C_32fc*)spec, buf);
}
static void ippicvsDFTInv_CToC( const Complex<double>* src, Complex<double>* dst,
static void ippsDFTInv_CToC( const Complex<double>* src, Complex<double>* dst,
const void* spec, uchar* buf)
{
ippicvsDFTInv_CToC_64fc( (const Ipp64fc*)src, (Ipp64fc*)dst,
ippsDFTInv_CToC_64fc( (const Ipp64fc*)src, (Ipp64fc*)dst,
(const IppsDFTSpec_C_64fc*)spec, buf);
}
static void ippicvsDFTFwd_RToPack( const float* src, float* dst,
static void ippsDFTFwd_RToPack( const float* src, float* dst,
const void* spec, uchar* buf)
{
ippicvsDFTFwd_RToPack_32f( src, dst, (const IppsDFTSpec_R_32f*)spec, buf);
ippsDFTFwd_RToPack_32f( src, dst, (const IppsDFTSpec_R_32f*)spec, buf);
}
static void ippicvsDFTFwd_RToPack( const double* src, double* dst,
static void ippsDFTFwd_RToPack( const double* src, double* dst,
const void* spec, uchar* buf)
{
ippicvsDFTFwd_RToPack_64f( src, dst, (const IppsDFTSpec_R_64f*)spec, buf);
ippsDFTFwd_RToPack_64f( src, dst, (const IppsDFTSpec_R_64f*)spec, buf);
}
static void ippicvsDFTInv_PackToR( const float* src, float* dst,
static void ippsDFTInv_PackToR( const float* src, float* dst,
const void* spec, uchar* buf)
{
ippicvsDFTInv_PackToR_32f( src, dst, (const IppsDFTSpec_R_32f*)spec, buf);
ippsDFTInv_PackToR_32f( src, dst, (const IppsDFTSpec_R_32f*)spec, buf);
}
static void ippicvsDFTInv_PackToR( const double* src, double* dst,
static void ippsDFTInv_PackToR( const double* src, double* dst,
const void* spec, uchar* buf)
{
ippicvsDFTInv_PackToR_64f( src, dst, (const IppsDFTSpec_R_64f*)spec, buf);
ippsDFTInv_PackToR_64f( src, dst, (const IppsDFTSpec_R_64f*)spec, buf);
}
#endif
@ -551,9 +551,9 @@ DFT( const Complex<T>* src, Complex<T>* dst, int n,
if( spec )
{
if( !inv )
ippicvsDFTFwd_CToC( src, dst, spec, (uchar*)buf );
ippsDFTFwd_CToC( src, dst, spec, (uchar*)buf );
else
ippicvsDFTInv_CToC( src, dst, spec, (uchar*)buf );
ippsDFTInv_CToC( src, dst, spec, (uchar*)buf );
return;
}
#endif
@ -981,7 +981,7 @@ RealDFT( const T* src, T* dst, int n, int nf, int* factors, const int* itab,
#ifdef USE_IPP_DFT
if( spec )
{
ippicvsDFTFwd_RToPack( src, dst, spec, (uchar*)buf );
ippsDFTFwd_RToPack( src, dst, spec, (uchar*)buf );
if( complex_output )
{
dst[-1] = dst[0];
@ -1113,7 +1113,7 @@ CCSIDFT( const T* src, T* dst, int n, int nf, int* factors, const int* itab,
#ifdef USE_IPP_DFT
if( spec )
{
ippicvsDFTInv_PackToR( src, dst, spec, (uchar*)buf );
ippsDFTInv_PackToR( src, dst, spec, (uchar*)buf );
goto finalize;
}
#endif
@ -1824,26 +1824,26 @@ void cv::dft( InputArray _src0, OutputArray _dst, int flags, int nonzero_rows )
{
if( depth == CV_32F )
{
getSizeFunc = ippicvsDFTGetSize_R_32f;
initFunc = (IppDFTInitFunc)ippicvsDFTInit_R_32f;
getSizeFunc = ippsDFTGetSize_R_32f;
initFunc = (IppDFTInitFunc)ippsDFTInit_R_32f;
}
else
{
getSizeFunc = ippicvsDFTGetSize_R_64f;
initFunc = (IppDFTInitFunc)ippicvsDFTInit_R_64f;
getSizeFunc = ippsDFTGetSize_R_64f;
initFunc = (IppDFTInitFunc)ippsDFTInit_R_64f;
}
}
else
{
if( depth == CV_32F )
{
getSizeFunc = ippicvsDFTGetSize_C_32fc;
initFunc = (IppDFTInitFunc)ippicvsDFTInit_C_32fc;
getSizeFunc = ippsDFTGetSize_C_32fc;
initFunc = (IppDFTInitFunc)ippsDFTInit_C_32fc;
}
else
{
getSizeFunc = ippicvsDFTGetSize_C_64fc;
initFunc = (IppDFTInitFunc)ippicvsDFTInit_C_64fc;
getSizeFunc = ippsDFTGetSize_C_64fc;
initFunc = (IppDFTInitFunc)ippsDFTInit_C_64fc;
}
}
if( getSizeFunc(len, ipp_norm_flag, ippAlgHintNone, &specsize, &initsize, &worksize) >= 0 )

8
modules/core/src/mathfuncs.cpp
View File

@ -1276,14 +1276,14 @@ static void Exp_64fnoipp( const double *_x, double *y, int n )
#ifdef HAVE_IPP
static void Exp_32f(const float *x, float *y, int n)
{
if (ippStsNoErr == ippicvsExp_32f_A21(x, y, n))
if (ippStsNoErr == ippsExp_32f_A21(x, y, n))
return;
Exp_32fnoipp(x, y, n);
}
static void Exp_64f(const double *x, double *y, int n)
{
if (ippStsNoErr == ippicvsExp_64f_A50(x, y, n))
if (ippStsNoErr == ippsExp_64f_A50(x, y, n))
return;
Exp_64fnoipp(x, y, n);
}
@ -1934,14 +1934,14 @@ static void Log_64fnoipp( const double *x, double *y, int n )
#ifdef HAVE_IPP
static void Log_32f(const float *x, float *y, int n)
{
if (ippStsNoErr == ippicvsLn_32f_A21(x, y, n))
if (ippStsNoErr == ippsLn_32f_A21(x, y, n))
return;
Log_32fnoipp(x, y, n);
}
static void Log_64f(const double *x, double *y, int n)
{
if (ippStsNoErr == ippicvsLn_64f_A50(x, y, n))
if (ippStsNoErr == ippsLn_64f_A50(x, y, n))
return;
Log_64fnoipp(x, y, n);
}

12
modules/core/src/matmul.cpp
View File

@ -2799,7 +2799,7 @@ static double dotProd_8u(const uchar* src1, const uchar* src2, int len)
{
double r = 0;
#if ARITHM_USE_IPP
ippicviDotProd_8u64f_C1R(src1, (int)(len*sizeof(src1[0])),
ippiDotProd_8u64f_C1R(src1, (int)(len*sizeof(src1[0])),
src2, (int)(len*sizeof(src2[0])),
ippiSize(len, 1), &r);
return r;
@ -2862,7 +2862,7 @@ static double dotProd_16u(const ushort* src1, const ushort* src2, int len)
{
#if (ARITHM_USE_IPP == 1)
double r = 0;
if (0 <= ippicviDotProd_16u64f_C1R(src1, (int)(len*sizeof(src1[0])), src2, (int)(len*sizeof(src2[0])), ippiSize(len, 1), &r))
if (0 <= ippiDotProd_16u64f_C1R(src1, (int)(len*sizeof(src1[0])), src2, (int)(len*sizeof(src2[0])), ippiSize(len, 1), &r))
return r;
#endif
return dotProd_(src1, src2, len);
@ -2872,7 +2872,7 @@ static double dotProd_16s(const short* src1, const short* src2, int len)
{
#if (ARITHM_USE_IPP == 1)
double r = 0;
if (0 <= ippicviDotProd_16s64f_C1R(src1, (int)(len*sizeof(src1[0])), src2, (int)(len*sizeof(src2[0])), ippiSize(len, 1), &r))
if (0 <= ippiDotProd_16s64f_C1R(src1, (int)(len*sizeof(src1[0])), src2, (int)(len*sizeof(src2[0])), ippiSize(len, 1), &r))
return r;
#endif
return dotProd_(src1, src2, len);
@ -2882,7 +2882,7 @@ static double dotProd_32s(const int* src1, const int* src2, int len)
{
#if (ARITHM_USE_IPP == 1)
double r = 0;
if (0 <= ippicviDotProd_32s64f_C1R(src1, (int)(len*sizeof(src1[0])), src2, (int)(len*sizeof(src2[0])), ippiSize(len, 1), &r))
if (0 <= ippiDotProd_32s64f_C1R(src1, (int)(len*sizeof(src1[0])), src2, (int)(len*sizeof(src2[0])), ippiSize(len, 1), &r))
return r;
#endif
return dotProd_(src1, src2, len);
@ -2892,7 +2892,7 @@ static double dotProd_32f(const float* src1, const float* src2, int len)
{
#if (ARITHM_USE_IPP == 1)
double r = 0;
if (0 <= ippicvsDotProd_32f64f(src1, src2, len, &r))
if (0 <= ippsDotProd_32f64f(src1, src2, len, &r))
return r;
#endif
return dotProd_(src1, src2, len);
@ -2902,7 +2902,7 @@ static double dotProd_64f(const double* src1, const double* src2, int len)
{
#if (ARITHM_USE_IPP == 1)
double r = 0;
if (0 <= ippicvsDotProd_64f(src1, src2, len, &r))
if (0 <= ippsDotProd_64f(src1, src2, len, &r))
return r;
#endif
return dotProd_(src1, src2, len);

474
modules/core/src/stat.cpp
View File

@ -543,30 +543,30 @@ cv::Scalar cv::sum( InputArray _src )
Mat src = _src.getMat();
int k, cn = src.channels(), depth = src.depth();
#if defined (HAVE_IPP) && (IPP_VERSION_MAJOR >= 7) && 0
#if defined (HAVE_IPP) && (IPP_VERSION_MAJOR >= 7)
size_t total_size = src.total();
int rows = src.size[0], cols = (int)(total_size/rows);
if( src.dims == 2 || (src.isContinuous() && cols > 0 && (size_t)rows*cols == total_size) )
{
IppiSize sz = { cols, rows };
int type = src.type();
typedef IppStatus (CV_STDCALL* ippicviSumFuncHint)(const void*, int, IppiSize, double *, IppHintAlgorithm);
typedef IppStatus (CV_STDCALL* ippicviSumFuncNoHint)(const void*, int, IppiSize, double *);
ippicviSumFuncHint ippFuncHint =
type == CV_32FC1 ? (ippicviSumFuncHint)ippicviSum_32f_C1R :
type == CV_32FC3 ? (ippicviSumFuncHint)ippicviSum_32f_C3R :
type == CV_32FC4 ? (ippicviSumFuncHint)ippicviSum_32f_C4R :
typedef IppStatus (CV_STDCALL* ippiSumFuncHint)(const void*, int, IppiSize, double *, IppHintAlgorithm);
typedef IppStatus (CV_STDCALL* ippiSumFuncNoHint)(const void*, int, IppiSize, double *);
ippiSumFuncHint ippFuncHint =
type == CV_32FC1 ? (ippiSumFuncHint)ippiSum_32f_C1R :
type == CV_32FC3 ? (ippiSumFuncHint)ippiSum_32f_C3R :
type == CV_32FC4 ? (ippiSumFuncHint)ippiSum_32f_C4R :
0;
ippicviSumFuncNoHint ippFuncNoHint =
type == CV_8UC1 ? (ippicviSumFuncNoHint)ippicviSum_8u_C1R :
type == CV_8UC3 ? (ippicviSumFuncNoHint)ippicviSum_8u_C3R :
type == CV_8UC4 ? (ippicviSumFuncNoHint)ippicviSum_8u_C4R :
type == CV_16UC1 ? (ippicviSumFuncNoHint)ippicviSum_16u_C1R :
type == CV_16UC3 ? (ippicviSumFuncNoHint)ippicviSum_16u_C3R :
type == CV_16UC4 ? (ippicviSumFuncNoHint)ippicviSum_16u_C4R :
type == CV_16SC1 ? (ippicviSumFuncNoHint)ippicviSum_16s_C1R :
type == CV_16SC3 ? (ippicviSumFuncNoHint)ippicviSum_16s_C3R :
type == CV_16SC4 ? (ippicviSumFuncNoHint)ippicviSum_16s_C4R :
ippiSumFuncNoHint ippFuncNoHint =
type == CV_8UC1 ? (ippiSumFuncNoHint)ippiSum_8u_C1R :
type == CV_8UC3 ? (ippiSumFuncNoHint)ippiSum_8u_C3R :
type == CV_8UC4 ? (ippiSumFuncNoHint)ippiSum_8u_C4R :
type == CV_16UC1 ? (ippiSumFuncNoHint)ippiSum_16u_C1R :
type == CV_16UC3 ? (ippiSumFuncNoHint)ippiSum_16u_C3R :
type == CV_16UC4 ? (ippiSumFuncNoHint)ippiSum_16u_C4R :
type == CV_16SC1 ? (ippiSumFuncNoHint)ippiSum_16s_C1R :
type == CV_16SC3 ? (ippiSumFuncNoHint)ippiSum_16s_C3R :
type == CV_16SC4 ? (ippiSumFuncNoHint)ippiSum_16s_C4R :
0;
CV_Assert(!ippFuncHint || !ippFuncNoHint);
if( ippFuncHint || ippFuncNoHint )
@ -720,11 +720,11 @@ cv::Scalar cv::mean( InputArray _src, InputArray _mask )
int type = src.type();
if( !mask.empty() )
{
typedef IppStatus (CV_STDCALL* ippicviMaskMeanFuncC1)(const void *, int, void *, int, IppiSize, Ipp64f *);
ippicviMaskMeanFuncC1 ippFuncC1 =
type == CV_8UC1 ? (ippicviMaskMeanFuncC1)ippicviMean_8u_C1MR :
type == CV_16UC1 ? (ippicviMaskMeanFuncC1)ippicviMean_16u_C1MR :
type == CV_32FC1 ? (ippicviMaskMeanFuncC1)ippicviMean_32f_C1MR :
typedef IppStatus (CV_STDCALL* ippiMaskMeanFuncC1)(const void *, int, void *, int, IppiSize, Ipp64f *);
ippiMaskMeanFuncC1 ippFuncC1 =
type == CV_8UC1 ? (ippiMaskMeanFuncC1)ippiMean_8u_C1MR :
type == CV_16UC1 ? (ippiMaskMeanFuncC1)ippiMean_16u_C1MR :
type == CV_32FC1 ? (ippiMaskMeanFuncC1)ippiMean_32f_C1MR :
0;
if( ippFuncC1 )
{
@ -734,11 +734,11 @@ cv::Scalar cv::mean( InputArray _src, InputArray _mask )
return Scalar(res);
}
}
typedef IppStatus (CV_STDCALL* ippicviMaskMeanFuncC3)(const void *, int, void *, int, IppiSize, int, Ipp64f *);
ippicviMaskMeanFuncC3 ippFuncC3 =
type == CV_8UC3 ? (ippicviMaskMeanFuncC3)ippicviMean_8u_C3CMR :
type == CV_16UC3 ? (ippicviMaskMeanFuncC3)ippicviMean_16u_C3CMR :
type == CV_32FC3 ? (ippicviMaskMeanFuncC3)ippicviMean_32f_C3CMR :
typedef IppStatus (CV_STDCALL* ippiMaskMeanFuncC3)(const void *, int, void *, int, IppiSize, int, Ipp64f *);
ippiMaskMeanFuncC3 ippFuncC3 =
type == CV_8UC3 ? (ippiMaskMeanFuncC3)ippiMean_8u_C3CMR :
type == CV_16UC3 ? (ippiMaskMeanFuncC3)ippiMean_16u_C3CMR :
type == CV_32FC3 ? (ippiMaskMeanFuncC3)ippiMean_32f_C3CMR :
0;
if( ippFuncC3 )
{
@ -753,23 +753,23 @@ cv::Scalar cv::mean( InputArray _src, InputArray _mask )
}
else
{
typedef IppStatus (CV_STDCALL* ippicviMeanFuncHint)(const void*, int, IppiSize, double *, IppHintAlgorithm);
typedef IppStatus (CV_STDCALL* ippicviMeanFuncNoHint)(const void*, int, IppiSize, double *);
ippicviMeanFuncHint ippFuncHint =
type == CV_32FC1 ? (ippicviMeanFuncHint)ippicviMean_32f_C1R :
type == CV_32FC3 ? (ippicviMeanFuncHint)ippicviMean_32f_C3R :
type == CV_32FC4 ? (ippicviMeanFuncHint)ippicviMean_32f_C4R :
typedef IppStatus (CV_STDCALL* ippiMeanFuncHint)(const void*, int, IppiSize, double *, IppHintAlgorithm);
typedef IppStatus (CV_STDCALL* ippiMeanFuncNoHint)(const void*, int, IppiSize, double *);
ippiMeanFuncHint ippFuncHint =
type == CV_32FC1 ? (ippiMeanFuncHint)ippiMean_32f_C1R :
type == CV_32FC3 ? (ippiMeanFuncHint)ippiMean_32f_C3R :
type == CV_32FC4 ? (ippiMeanFuncHint)ippiMean_32f_C4R :
0;
ippicviMeanFuncNoHint ippFuncNoHint =
type == CV_8UC1 ? (ippicviMeanFuncNoHint)ippicviMean_8u_C1R :
type == CV_8UC3 ? (ippicviMeanFuncNoHint)ippicviMean_8u_C3R :
type == CV_8UC4 ? (ippicviMeanFuncNoHint)ippicviMean_8u_C4R :
type == CV_16UC1 ? (ippicviMeanFuncNoHint)ippicviMean_16u_C1R :
type == CV_16UC3 ? (ippicviMeanFuncNoHint)ippicviMean_16u_C3R :
type == CV_16UC4 ? (ippicviMeanFuncNoHint)ippicviMean_16u_C4R :
type == CV_16SC1 ? (ippicviMeanFuncNoHint)ippicviMean_16s_C1R :
type == CV_16SC3 ? (ippicviMeanFuncNoHint)ippicviMean_16s_C3R :
type == CV_16SC4 ? (ippicviMeanFuncNoHint)ippicviMean_16s_C4R :
ippiMeanFuncNoHint ippFuncNoHint =
type == CV_8UC1 ? (ippiMeanFuncNoHint)ippiMean_8u_C1R :
type == CV_8UC3 ? (ippiMeanFuncNoHint)ippiMean_8u_C3R :
type == CV_8UC4 ? (ippiMeanFuncNoHint)ippiMean_8u_C4R :
type == CV_16UC1 ? (ippiMeanFuncNoHint)ippiMean_16u_C1R :
type == CV_16UC3 ? (ippiMeanFuncNoHint)ippiMean_16u_C3R :
type == CV_16UC4 ? (ippiMeanFuncNoHint)ippiMean_16u_C4R :
type == CV_16SC1 ? (ippiMeanFuncNoHint)ippiMean_16s_C1R :
type == CV_16SC3 ? (ippiMeanFuncNoHint)ippiMean_16s_C3R :
type == CV_16SC4 ? (ippiMeanFuncNoHint)ippiMean_16s_C4R :
0;
// Make sure only zero or one version of the function pointer is valid
CV_Assert(!ippFuncHint || !ippFuncNoHint);
@ -940,22 +940,22 @@ void cv::meanStdDev( InputArray _src, OutputArray _mean, OutputArray _sdv, Input
int type = src.type();
if( !mask.empty() )
{
typedef IppStatus (CV_STDCALL* ippicviMaskMeanStdDevFuncC1)(const void *, int, void *, int, IppiSize, Ipp64f *, Ipp64f *);
ippicviMaskMeanStdDevFuncC1 ippFuncC1 =
type == CV_8UC1 ? (ippicviMaskMeanStdDevFuncC1)ippicviMean_StdDev_8u_C1MR :
type == CV_16UC1 ? (ippicviMaskMeanStdDevFuncC1)ippicviMean_StdDev_16u_C1MR :
type == CV_32FC1 ? (ippicviMaskMeanStdDevFuncC1)ippicviMean_StdDev_32f_C1MR :
typedef IppStatus (CV_STDCALL* ippiMaskMeanStdDevFuncC1)(const void *, int, void *, int, IppiSize, Ipp64f *, Ipp64f *);
ippiMaskMeanStdDevFuncC1 ippFuncC1 =
type == CV_8UC1 ? (ippiMaskMeanStdDevFuncC1)ippiMean_StdDev_8u_C1MR :
type == CV_16UC1 ? (ippiMaskMeanStdDevFuncC1)ippiMean_StdDev_16u_C1MR :
type == CV_32FC1 ? (ippiMaskMeanStdDevFuncC1)ippiMean_StdDev_32f_C1MR :
0;
if( ippFuncC1 )
{
if( ippFuncC1(src.data, (int)src.step[0], mask.data, (int)mask.step[0], sz, pmean, pstddev) >= 0 )
return;
}
typedef IppStatus (CV_STDCALL* ippicviMaskMeanStdDevFuncC3)(const void *, int, void *, int, IppiSize, int, Ipp64f *, Ipp64f *);
ippicviMaskMeanStdDevFuncC3 ippFuncC3 =
type == CV_8UC3 ? (ippicviMaskMeanStdDevFuncC3)ippicviMean_StdDev_8u_C3CMR :
type == CV_16UC3 ? (ippicviMaskMeanStdDevFuncC3)ippicviMean_StdDev_16u_C3CMR :
type == CV_32FC3 ? (ippicviMaskMeanStdDevFuncC3)ippicviMean_StdDev_32f_C3CMR :
typedef IppStatus (CV_STDCALL* ippiMaskMeanStdDevFuncC3)(const void *, int, void *, int, IppiSize, int, Ipp64f *, Ipp64f *);
ippiMaskMeanStdDevFuncC3 ippFuncC3 =
type == CV_8UC3 ? (ippiMaskMeanStdDevFuncC3)ippiMean_StdDev_8u_C3CMR :
type == CV_16UC3 ? (ippiMaskMeanStdDevFuncC3)ippiMean_StdDev_16u_C3CMR :
type == CV_32FC3 ? (ippiMaskMeanStdDevFuncC3)ippiMean_StdDev_32f_C3CMR :
0;
if( ippFuncC3 )
{
@ -967,12 +967,12 @@ void cv::meanStdDev( InputArray _src, OutputArray _mean, OutputArray _sdv, Input
}
else
{
typedef IppStatus (CV_STDCALL* ippicviMeanStdDevFuncC1)(const void *, int, IppiSize, Ipp64f *, Ipp64f *);
ippicviMeanStdDevFuncC1 ippFuncC1 =
type == CV_8UC1 ? (ippicviMeanStdDevFuncC1)ippicviMean_StdDev_8u_C1R :
type == CV_16UC1 ? (ippicviMeanStdDevFuncC1)ippicviMean_StdDev_16u_C1R :
typedef IppStatus (CV_STDCALL* ippiMeanStdDevFuncC1)(const void *, int, IppiSize, Ipp64f *, Ipp64f *);
ippiMeanStdDevFuncC1 ippFuncC1 =
type == CV_8UC1 ? (ippiMeanStdDevFuncC1)ippiMean_StdDev_8u_C1R :
type == CV_16UC1 ? (ippiMeanStdDevFuncC1)ippiMean_StdDev_16u_C1R :
#if (IPP_VERSION_MAJOR >= 8) && (IPP_VERSION_MINOR >= 1)
type == CV_32FC1 ? (ippicviMeanStdDevFuncC1)ippicviMean_StdDev_32f_C1R ://Aug 2013: bug in IPP 7.1, 8.0
type == CV_32FC1 ? (ippiMeanStdDevFuncC1)ippiMean_StdDev_32f_C1R ://Aug 2013: bug in IPP 7.1, 8.0
#endif
0;
if( ippFuncC1 )
@ -980,11 +980,11 @@ void cv::meanStdDev( InputArray _src, OutputArray _mean, OutputArray _sdv, Input
if( ippFuncC1(src.data, (int)src.step[0], sz, pmean, pstddev) >= 0 )
return;
}
typedef IppStatus (CV_STDCALL* ippicviMeanStdDevFuncC3)(const void *, int, IppiSize, int, Ipp64f *, Ipp64f *);
ippicviMeanStdDevFuncC3 ippFuncC3 =
type == CV_8UC3 ? (ippicviMeanStdDevFuncC3)ippicviMean_StdDev_8u_C3CR :
type == CV_16UC3 ? (ippicviMeanStdDevFuncC3)ippicviMean_StdDev_16u_C3CR :
type == CV_32FC3 ? (ippicviMeanStdDevFuncC3)ippicviMean_StdDev_32f_C3CR :
typedef IppStatus (CV_STDCALL* ippiMeanStdDevFuncC3)(const void *, int, IppiSize, int, Ipp64f *, Ipp64f *);
ippiMeanStdDevFuncC3 ippFuncC3 =
type == CV_8UC3 ? (ippiMeanStdDevFuncC3)ippiMean_StdDev_8u_C3CR :
type == CV_16UC3 ? (ippiMeanStdDevFuncC3)ippiMean_StdDev_16u_C3CR :
type == CV_32FC3 ? (ippiMeanStdDevFuncC3)ippiMean_StdDev_32f_C3CR :
0;
if( ippFuncC3 )
{
@ -1347,11 +1347,11 @@ void cv::minMaxIdx(InputArray _src, double* minVal,
int type = src.type();
if( !mask.empty() )
{
typedef IppStatus (CV_STDCALL* ippicviMaskMinMaxIndxFuncC1)(const void *, int, const void *, int, IppiSize, Ipp32f *, Ipp32f *, IppiPoint *, IppiPoint *);
ippicviMaskMinMaxIndxFuncC1 ippFuncC1 =
type == CV_8UC1 ? (ippicviMaskMinMaxIndxFuncC1)ippicviMinMaxIndx_8u_C1MR :
type == CV_16UC1 ? (ippicviMaskMinMaxIndxFuncC1)ippicviMinMaxIndx_16u_C1MR :
type == CV_32FC1 ? (ippicviMaskMinMaxIndxFuncC1)ippicviMinMaxIndx_32f_C1MR :
typedef IppStatus (CV_STDCALL* ippiMaskMinMaxIndxFuncC1)(const void *, int, const void *, int, IppiSize, Ipp32f *, Ipp32f *, IppiPoint *, IppiPoint *);
ippiMaskMinMaxIndxFuncC1 ippFuncC1 =
type == CV_8UC1 ? (ippiMaskMinMaxIndxFuncC1)ippiMinMaxIndx_8u_C1MR :
type == CV_16UC1 ? (ippiMaskMinMaxIndxFuncC1)ippiMinMaxIndx_16u_C1MR :
type == CV_32FC1 ? (ippiMaskMinMaxIndxFuncC1)ippiMinMaxIndx_32f_C1MR :
0;
if( ippFuncC1 )
{
@ -1381,11 +1381,11 @@ void cv::minMaxIdx(InputArray _src, double* minVal,
}
else
{
typedef IppStatus (CV_STDCALL* ippicviMinMaxIndxFuncC1)(const void *, int, IppiSize, Ipp32f *, Ipp32f *, IppiPoint *, IppiPoint *);
ippicviMinMaxIndxFuncC1 ippFuncC1 =
type == CV_8UC1 ? (ippicviMinMaxIndxFuncC1)ippicviMinMaxIndx_8u_C1R :
type == CV_16UC1 ? (ippicviMinMaxIndxFuncC1)ippicviMinMaxIndx_16u_C1R :
type == CV_32FC1 ? (ippicviMinMaxIndxFuncC1)ippicviMinMaxIndx_32f_C1R :
typedef IppStatus (CV_STDCALL* ippiMinMaxIndxFuncC1)(const void *, int, IppiSize, Ipp32f *, Ipp32f *, IppiPoint *, IppiPoint *);
ippiMinMaxIndxFuncC1 ippFuncC1 =
type == CV_8UC1 ? (ippiMinMaxIndxFuncC1)ippiMinMaxIndx_8u_C1R :
type == CV_16UC1 ? (ippiMinMaxIndxFuncC1)ippiMinMaxIndx_16u_C1R :
type == CV_32FC1 ? (ippiMinMaxIndxFuncC1)ippiMinMaxIndx_32f_C1R :
0;
if( ippFuncC1 )
{
@ -2024,25 +2024,25 @@ double cv::norm( InputArray _src, int normType, InputArray _mask )
int type = src.type();
if( !mask.empty() )
{
typedef IppStatus (CV_STDCALL* ippicviMaskNormFuncC1)(const void *, int, const void *, int, IppiSize, Ipp64f *);
ippicviMaskNormFuncC1 ippFuncC1 =
typedef IppStatus (CV_STDCALL* ippiMaskNormFuncC1)(const void *, int, const void *, int, IppiSize, Ipp64f *);
ippiMaskNormFuncC1 ippFuncC1 =
normType == NORM_INF ?
(type == CV_8UC1 ? (ippicviMaskNormFuncC1)ippicviNorm_Inf_8u_C1MR :
type == CV_8SC1 ? (ippicviMaskNormFuncC1)ippicviNorm_Inf_8s_C1MR :
type == CV_16UC1 ? (ippicviMaskNormFuncC1)ippicviNorm_Inf_16u_C1MR :
type == CV_32FC1 ? (ippicviMaskNormFuncC1)ippicviNorm_Inf_32f_C1MR :
(type == CV_8UC1 ? (ippiMaskNormFuncC1)ippiNorm_Inf_8u_C1MR :
type == CV_8SC1 ? (ippiMaskNormFuncC1)ippiNorm_Inf_8s_C1MR :
type == CV_16UC1 ? (ippiMaskNormFuncC1)ippiNorm_Inf_16u_C1MR :
type == CV_32FC1 ? (ippiMaskNormFuncC1)ippiNorm_Inf_32f_C1MR :
0) :
normType == NORM_L1 ?
(type == CV_8UC1 ? (ippicviMaskNormFuncC1)ippicviNorm_L1_8u_C1MR :
type == CV_8SC1 ? (ippicviMaskNormFuncC1)ippicviNorm_L1_8s_C1MR :
type == CV_16UC1 ? (ippicviMaskNormFuncC1)ippicviNorm_L1_16u_C1MR :
type == CV_32FC1 ? (ippicviMaskNormFuncC1)ippicviNorm_L1_32f_C1MR :
(type == CV_8UC1 ? (ippiMaskNormFuncC1)ippiNorm_L1_8u_C1MR :
type == CV_8SC1 ? (ippiMaskNormFuncC1)ippiNorm_L1_8s_C1MR :
type == CV_16UC1 ? (ippiMaskNormFuncC1)ippiNorm_L1_16u_C1MR :
type == CV_32FC1 ? (ippiMaskNormFuncC1)ippiNorm_L1_32f_C1MR :
0) :
normType == NORM_L2 || normType == NORM_L2SQR ?
(type == CV_8UC1 ? (ippicviMaskNormFuncC1)ippicviNorm_L2_8u_C1MR :
type == CV_8SC1 ? (ippicviMaskNormFuncC1)ippicviNorm_L2_8s_C1MR :
type == CV_16UC1 ? (ippicviMaskNormFuncC1)ippicviNorm_L2_16u_C1MR :
type == CV_32FC1 ? (ippicviMaskNormFuncC1)ippicviNorm_L2_32f_C1MR :
(type == CV_8UC1 ? (ippiMaskNormFuncC1)ippiNorm_L2_8u_C1MR :
type == CV_8SC1 ? (ippiMaskNormFuncC1)ippiNorm_L2_8s_C1MR :
type == CV_16UC1 ? (ippiMaskNormFuncC1)ippiNorm_L2_16u_C1MR :
type == CV_32FC1 ? (ippiMaskNormFuncC1)ippiNorm_L2_32f_C1MR :
0) : 0;
if( ippFuncC1 )
{
@ -2052,25 +2052,25 @@ double cv::norm( InputArray _src, int normType, InputArray _mask )
return normType == NORM_L2SQR ? (double)(norm * norm) : (double)norm;
}
}
typedef IppStatus (CV_STDCALL* ippicviMaskNormFuncC3)(const void *, int, const void *, int, IppiSize, int, Ipp64f *);
ippicviMaskNormFuncC3 ippFuncC3 =
typedef IppStatus (CV_STDCALL* ippiMaskNormFuncC3)(const void *, int, const void *, int, IppiSize, int, Ipp64f *);
ippiMaskNormFuncC3 ippFuncC3 =
normType == NORM_INF ?
(type == CV_8UC3 ? (ippicviMaskNormFuncC3)ippicviNorm_Inf_8u_C3CMR :
type == CV_8SC3 ? (ippicviMaskNormFuncC3)ippicviNorm_Inf_8s_C3CMR :
type == CV_16UC3 ? (ippicviMaskNormFuncC3)ippicviNorm_Inf_16u_C3CMR :
type == CV_32FC3 ? (ippicviMaskNormFuncC3)ippicviNorm_Inf_32f_C3CMR :
(type == CV_8UC3 ? (ippiMaskNormFuncC3)ippiNorm_Inf_8u_C3CMR :
type == CV_8SC3 ? (ippiMaskNormFuncC3)ippiNorm_Inf_8s_C3CMR :
type == CV_16UC3 ? (ippiMaskNormFuncC3)ippiNorm_Inf_16u_C3CMR :
type == CV_32FC3 ? (ippiMaskNormFuncC3)ippiNorm_Inf_32f_C3CMR :
0) :
normType == NORM_L1 ?
(type == CV_8UC3 ? (ippicviMaskNormFuncC3)ippicviNorm_L1_8u_C3CMR :
type == CV_8SC3 ? (ippicviMaskNormFuncC3)ippicviNorm_L1_8s_C3CMR :
type == CV_16UC3 ? (ippicviMaskNormFuncC3)ippicviNorm_L1_16u_C3CMR :
type == CV_32FC3 ? (ippicviMaskNormFuncC3)ippicviNorm_L1_32f_C3CMR :
(type == CV_8UC3 ? (ippiMaskNormFuncC3)ippiNorm_L1_8u_C3CMR :
type == CV_8SC3 ? (ippiMaskNormFuncC3)ippiNorm_L1_8s_C3CMR :
type == CV_16UC3 ? (ippiMaskNormFuncC3)ippiNorm_L1_16u_C3CMR :
type == CV_32FC3 ? (ippiMaskNormFuncC3)ippiNorm_L1_32f_C3CMR :
0) :
normType == NORM_L2 || normType == NORM_L2SQR ?
(type == CV_8UC3 ? (ippicviMaskNormFuncC3)ippicviNorm_L2_8u_C3CMR :
type == CV_8SC3 ? (ippicviMaskNormFuncC3)ippicviNorm_L2_8s_C3CMR :
type == CV_16UC3 ? (ippicviMaskNormFuncC3)ippicviNorm_L2_16u_C3CMR :
type == CV_32FC3 ? (ippicviMaskNormFuncC3)ippicviNorm_L2_32f_C3CMR :
(type == CV_8UC3 ? (ippiMaskNormFuncC3)ippiNorm_L2_8u_C3CMR :
type == CV_8SC3 ? (ippiMaskNormFuncC3)ippiNorm_L2_8s_C3CMR :
type == CV_16UC3 ? (ippiMaskNormFuncC3)ippiNorm_L2_16u_C3CMR :
type == CV_32FC3 ? (ippiMaskNormFuncC3)ippiNorm_L2_32f_C3CMR :
0) : 0;
if( ippFuncC3 )
{
@ -2090,57 +2090,57 @@ double cv::norm( InputArray _src, int normType, InputArray _mask )
}
else
{
typedef IppStatus (CV_STDCALL* ippicviNormFuncHint)(const void *, int, IppiSize, Ipp64f *, IppHintAlgorithm hint);
typedef IppStatus (CV_STDCALL* ippicviNormFuncNoHint)(const void *, int, IppiSize, Ipp64f *);
ippicviNormFuncHint ippFuncHint =
typedef IppStatus (CV_STDCALL* ippiNormFuncHint)(const void *, int, IppiSize, Ipp64f *, IppHintAlgorithm hint);
typedef IppStatus (CV_STDCALL* ippiNormFuncNoHint)(const void *, int, IppiSize, Ipp64f *);
ippiNormFuncHint ippFuncHint =
normType == NORM_L1 ?
(type == CV_32FC1 ? (ippicviNormFuncHint)ippicviNorm_L1_32f_C1R :
type == CV_32FC3 ? (ippicviNormFuncHint)ippicviNorm_L1_32f_C3R :
type == CV_32FC4 ? (ippicviNormFuncHint)ippicviNorm_L1_32f_C4R :
(type == CV_32FC1 ? (ippiNormFuncHint)ippiNorm_L1_32f_C1R :
type == CV_32FC3 ? (ippiNormFuncHint)ippiNorm_L1_32f_C3R :
type == CV_32FC4 ? (ippiNormFuncHint)ippiNorm_L1_32f_C4R :
0) :
normType == NORM_L2 || normType == NORM_L2SQR ?
(type == CV_32FC1 ? (ippicviNormFuncHint)ippicviNorm_L2_32f_C1R :
type == CV_32FC3 ? (ippicviNormFuncHint)ippicviNorm_L2_32f_C3R :
type == CV_32FC4 ? (ippicviNormFuncHint)ippicviNorm_L2_32f_C4R :
(type == CV_32FC1 ? (ippiNormFuncHint)ippiNorm_L2_32f_C1R :
type == CV_32FC3 ? (ippiNormFuncHint)ippiNorm_L2_32f_C3R :
type == CV_32FC4 ? (ippiNormFuncHint)ippiNorm_L2_32f_C4R :
0) : 0;
ippicviNormFuncNoHint ippFuncNoHint =
ippiNormFuncNoHint ippFuncNoHint =
normType == NORM_INF ?
(type == CV_8UC1 ? (ippicviNormFuncNoHint)ippicviNorm_Inf_8u_C1R :
type == CV_8UC3 ? (ippicviNormFuncNoHint)ippicviNorm_Inf_8u_C3R :
type == CV_8UC4 ? (ippicviNormFuncNoHint)ippicviNorm_Inf_8u_C4R :
type == CV_16UC1 ? (ippicviNormFuncNoHint)ippicviNorm_Inf_16u_C1R :
type == CV_16UC3 ? (ippicviNormFuncNoHint)ippicviNorm_Inf_16u_C3R :
type == CV_16UC4 ? (ippicviNormFuncNoHint)ippicviNorm_Inf_16u_C4R :
type == CV_16SC1 ? (ippicviNormFuncNoHint)ippicviNorm_Inf_16s_C1R :
(type == CV_8UC1 ? (ippiNormFuncNoHint)ippiNorm_Inf_8u_C1R :
type == CV_8UC3 ? (ippiNormFuncNoHint)ippiNorm_Inf_8u_C3R :
type == CV_8UC4 ? (ippiNormFuncNoHint)ippiNorm_Inf_8u_C4R :
type == CV_16UC1 ? (ippiNormFuncNoHint)ippiNorm_Inf_16u_C1R :
type == CV_16UC3 ? (ippiNormFuncNoHint)ippiNorm_Inf_16u_C3R :
type == CV_16UC4 ? (ippiNormFuncNoHint)ippiNorm_Inf_16u_C4R :
type == CV_16SC1 ? (ippiNormFuncNoHint)ippiNorm_Inf_16s_C1R :
#if (IPP_VERSION_MAJOR >= 8) && (IPP_VERSION_MINOR >= 1)
type == CV_16SC3 ? (ippicviNormFuncNoHint)ippicviNorm_Inf_16s_C3R : //Aug 2013: problem in IPP 7.1, 8.0 : -32768
type == CV_16SC4 ? (ippicviNormFuncNoHint)ippicviNorm_Inf_16s_C4R : //Aug 2013: problem in IPP 7.1, 8.0 : -32768
type == CV_16SC3 ? (ippiNormFuncNoHint)ippiNorm_Inf_16s_C3R : //Aug 2013: problem in IPP 7.1, 8.0 : -32768
type == CV_16SC4 ? (ippiNormFuncNoHint)ippiNorm_Inf_16s_C4R : //Aug 2013: problem in IPP 7.1, 8.0 : -32768
#endif
type == CV_32FC1 ? (ippicviNormFuncNoHint)ippicviNorm_Inf_32f_C1R :
type == CV_32FC3 ? (ippicviNormFuncNoHint)ippicviNorm_Inf_32f_C3R :
type == CV_32FC4 ? (ippicviNormFuncNoHint)ippicviNorm_Inf_32f_C4R :
type == CV_32FC1 ? (ippiNormFuncNoHint)ippiNorm_Inf_32f_C1R :
type == CV_32FC3 ? (ippiNormFuncNoHint)ippiNorm_Inf_32f_C3R :
type == CV_32FC4 ? (ippiNormFuncNoHint)ippiNorm_Inf_32f_C4R :
0) :
normType == NORM_L1 ?
(type == CV_8UC1 ? (ippicviNormFuncNoHint)ippicviNorm_L1_8u_C1R :
type == CV_8UC3 ? (ippicviNormFuncNoHint)ippicviNorm_L1_8u_C3R :
type == CV_8UC4 ? (ippicviNormFuncNoHint)ippicviNorm_L1_8u_C4R :
type == CV_16UC1 ? (ippicviNormFuncNoHint)ippicviNorm_L1_16u_C1R :
type == CV_16UC3 ? (ippicviNormFuncNoHint)ippicviNorm_L1_16u_C3R :
type == CV_16UC4 ? (ippicviNormFuncNoHint)ippicviNorm_L1_16u_C4R :
type == CV_16SC1 ? (ippicviNormFuncNoHint)ippicviNorm_L1_16s_C1R :
type == CV_16SC3 ? (ippicviNormFuncNoHint)ippicviNorm_L1_16s_C3R :
type == CV_16SC4 ? (ippicviNormFuncNoHint)ippicviNorm_L1_16s_C4R :
(type == CV_8UC1 ? (ippiNormFuncNoHint)ippiNorm_L1_8u_C1R :
type == CV_8UC3 ? (ippiNormFuncNoHint)ippiNorm_L1_8u_C3R :
type == CV_8UC4 ? (ippiNormFuncNoHint)ippiNorm_L1_8u_C4R :
type == CV_16UC1 ? (ippiNormFuncNoHint)ippiNorm_L1_16u_C1R :
type == CV_16UC3 ? (ippiNormFuncNoHint)ippiNorm_L1_16u_C3R :
type == CV_16UC4 ? (ippiNormFuncNoHint)ippiNorm_L1_16u_C4R :
type == CV_16SC1 ? (ippiNormFuncNoHint)ippiNorm_L1_16s_C1R :
type == CV_16SC3 ? (ippiNormFuncNoHint)ippiNorm_L1_16s_C3R :
type == CV_16SC4 ? (ippiNormFuncNoHint)ippiNorm_L1_16s_C4R :
0) :
normType == NORM_L2 || normType == NORM_L2SQR ?
(type == CV_8UC1 ? (ippicviNormFuncNoHint)ippicviNorm_L2_8u_C1R :
type == CV_8UC3 ? (ippicviNormFuncNoHint)ippicviNorm_L2_8u_C3R :
type == CV_8UC4 ? (ippicviNormFuncNoHint)ippicviNorm_L2_8u_C4R :
type == CV_16UC1 ? (ippicviNormFuncNoHint)ippicviNorm_L2_16u_C1R :
type == CV_16UC3 ? (ippicviNormFuncNoHint)ippicviNorm_L2_16u_C3R :
type == CV_16UC4 ? (ippicviNormFuncNoHint)ippicviNorm_L2_16u_C4R :
type == CV_16SC1 ? (ippicviNormFuncNoHint)ippicviNorm_L2_16s_C1R :
type == CV_16SC3 ? (ippicviNormFuncNoHint)ippicviNorm_L2_16s_C3R :
type == CV_16SC4 ? (ippicviNormFuncNoHint)ippicviNorm_L2_16s_C4R :
(type == CV_8UC1 ? (ippiNormFuncNoHint)ippiNorm_L2_8u_C1R :
type == CV_8UC3 ? (ippiNormFuncNoHint)ippiNorm_L2_8u_C3R :
type == CV_8UC4 ? (ippiNormFuncNoHint)ippiNorm_L2_8u_C4R :
type == CV_16UC1 ? (ippiNormFuncNoHint)ippiNorm_L2_16u_C1R :
type == CV_16UC3 ? (ippiNormFuncNoHint)ippiNorm_L2_16u_C3R :
type == CV_16UC4 ? (ippiNormFuncNoHint)ippiNorm_L2_16u_C4R :
type == CV_16SC1 ? (ippiNormFuncNoHint)ippiNorm_L2_16s_C1R :
type == CV_16SC3 ? (ippiNormFuncNoHint)ippiNorm_L2_16s_C3R :
type == CV_16SC4 ? (ippiNormFuncNoHint)ippiNorm_L2_16s_C4R :
0) : 0;
// Make sure only zero or one version of the function pointer is valid
CV_Assert(!ippFuncHint || !ippFuncNoHint);
@ -2377,25 +2377,25 @@ double cv::norm( InputArray _src1, InputArray _src2, int normType, InputArray _m
int type = src1.type();
if( !mask.empty() )
{
typedef IppStatus (CV_STDCALL* ippicviMaskNormRelFuncC1)(const void *, int, const void *, int, const void *, int, IppiSize, Ipp64f *);
ippicviMaskNormRelFuncC1 ippFuncC1 =
typedef IppStatus (CV_STDCALL* ippiMaskNormRelFuncC1)(const void *, int, const void *, int, const void *, int, IppiSize, Ipp64f *);
ippiMaskNormRelFuncC1 ippFuncC1 =
normType == NORM_INF ?
(type == CV_8UC1 ? (ippicviMaskNormRelFuncC1)ippicviNormRel_Inf_8u_C1MR :
type == CV_8SC1 ? (ippicviMaskNormRelFuncC1)ippicviNormRel_Inf_8s_C1MR :
type == CV_16UC1 ? (ippicviMaskNormRelFuncC1)ippicviNormRel_Inf_16u_C1MR :
type == CV_32FC1 ? (ippicviMaskNormRelFuncC1)ippicviNormRel_Inf_32f_C1MR :
(type == CV_8UC1 ? (ippiMaskNormRelFuncC1)ippiNormRel_Inf_8u_C1MR :
type == CV_8SC1 ? (ippiMaskNormRelFuncC1)ippiNormRel_Inf_8s_C1MR :
type == CV_16UC1 ? (ippiMaskNormRelFuncC1)ippiNormRel_Inf_16u_C1MR :
type == CV_32FC1 ? (ippiMaskNormRelFuncC1)ippiNormRel_Inf_32f_C1MR :
0) :
normType == NORM_L1 ?
(type == CV_8UC1 ? (ippicviMaskNormRelFuncC1)ippicviNormRel_L1_8u_C1MR :
type == CV_8SC1 ? (ippicviMaskNormRelFuncC1)ippicviNormRel_L1_8s_C1MR :
type == CV_16UC1 ? (ippicviMaskNormRelFuncC1)ippicviNormRel_L1_16u_C1MR :
type == CV_32FC1 ? (ippicviMaskNormRelFuncC1)ippicviNormRel_L1_32f_C1MR :
(type == CV_8UC1 ? (ippiMaskNormRelFuncC1)ippiNormRel_L1_8u_C1MR :
type == CV_8SC1 ? (ippiMaskNormRelFuncC1)ippiNormRel_L1_8s_C1MR :
type == CV_16UC1 ? (ippiMaskNormRelFuncC1)ippiNormRel_L1_16u_C1MR :
type == CV_32FC1 ? (ippiMaskNormRelFuncC1)ippiNormRel_L1_32f_C1MR :
0) :
normType == NORM_L2 || normType == NORM_L2SQR ?
(type == CV_8UC1 ? (ippicviMaskNormRelFuncC1)ippicviNormRel_L2_8u_C1MR :
type == CV_8SC1 ? (ippicviMaskNormRelFuncC1)ippicviNormRel_L2_8s_C1MR :
type == CV_16UC1 ? (ippicviMaskNormRelFuncC1)ippicviNormRel_L2_16u_C1MR :
type == CV_32FC1 ? (ippicviMaskNormRelFuncC1)ippicviNormRel_L2_32f_C1MR :
(type == CV_8UC1 ? (ippiMaskNormRelFuncC1)ippiNormRel_L2_8u_C1MR :
type == CV_8SC1 ? (ippiMaskNormRelFuncC1)ippiNormRel_L2_8s_C1MR :
type == CV_16UC1 ? (ippiMaskNormRelFuncC1)ippiNormRel_L2_16u_C1MR :
type == CV_32FC1 ? (ippiMaskNormRelFuncC1)ippiNormRel_L2_32f_C1MR :
0) : 0;
if( ippFuncC1 )
{
@ -2406,25 +2406,25 @@ double cv::norm( InputArray _src1, InputArray _src2, int normType, InputArray _m
}
else
{
typedef IppStatus (CV_STDCALL* ippicviNormRelFunc)(const void *, int, const void *, int, IppiSize, Ipp64f *, IppHintAlgorithm hint);
ippicviNormRelFunc ippFunc =
typedef IppStatus (CV_STDCALL* ippiNormRelFunc)(const void *, int, const void *, int, IppiSize, Ipp64f *, IppHintAlgorithm hint);
ippiNormRelFunc ippFunc =
normType == NORM_INF ?
(type == CV_8UC1 ? (ippicviNormRelFunc)ippicviNormRel_Inf_8u_C1R :
type == CV_16UC1 ? (ippicviNormRelFunc)ippicviNormRel_Inf_16u_C1R :
type == CV_16SC1 ? (ippicviNormRelFunc)ippicviNormRel_Inf_16s_C1R :
type == CV_32FC1 ? (ippicviNormRelFunc)ippicviNormRel_Inf_32f_C1R :
(type == CV_8UC1 ? (ippiNormRelFunc)ippiNormRel_Inf_8u_C1R :
type == CV_16UC1 ? (ippiNormRelFunc)ippiNormRel_Inf_16u_C1R :
type == CV_16SC1 ? (ippiNormRelFunc)ippiNormRel_Inf_16s_C1R :
type == CV_32FC1 ? (ippiNormRelFunc)ippiNormRel_Inf_32f_C1R :
0) :
normType == NORM_L1 ?
(type == CV_8UC1 ? (ippicviNormRelFunc)ippicviNormRel_L1_8u_C1R :
type == CV_16UC1 ? (ippicviNormRelFunc)ippicviNormRel_L1_16u_C1R :
type == CV_16SC1 ? (ippicviNormRelFunc)ippicviNormRel_L1_16s_C1R :
type == CV_32FC1 ? (ippicviNormRelFunc)ippicviNormRel_L1_32f_C1R :
(type == CV_8UC1 ? (ippiNormRelFunc)ippiNormRel_L1_8u_C1R :
type == CV_16UC1 ? (ippiNormRelFunc)ippiNormRel_L1_16u_C1R :
type == CV_16SC1 ? (ippiNormRelFunc)ippiNormRel_L1_16s_C1R :
type == CV_32FC1 ? (ippiNormRelFunc)ippiNormRel_L1_32f_C1R :
0) :
normType == NORM_L2 || normType == NORM_L2SQR ?
(type == CV_8UC1 ? (ippicviNormRelFunc)ippicviNormRel_L2_8u_C1R :
type == CV_16UC1 ? (ippicviNormRelFunc)ippicviNormRel_L2_16u_C1R :
type == CV_16SC1 ? (ippicviNormRelFunc)ippicviNormRel_L2_16s_C1R :
type == CV_32FC1 ? (ippicviNormRelFunc)ippicviNormRel_L2_32f_C1R :
(type == CV_8UC1 ? (ippiNormRelFunc)ippiNormRel_L2_8u_C1R :
type == CV_16UC1 ? (ippiNormRelFunc)ippiNormRel_L2_16u_C1R :
type == CV_16SC1 ? (ippiNormRelFunc)ippiNormRel_L2_16s_C1R :
type == CV_32FC1 ? (ippiNormRelFunc)ippiNormRel_L2_32f_C1R :
0) : 0;
if( ippFunc )
{
@ -2458,25 +2458,25 @@ double cv::norm( InputArray _src1, InputArray _src2, int normType, InputArray _m
int type = src1.type();
if( !mask.empty() )
{
typedef IppStatus (CV_STDCALL* ippicviMaskNormDiffFuncC1)(const void *, int, const void *, int, const void *, int, IppiSize, Ipp64f *);
ippicviMaskNormDiffFuncC1 ippFuncC1 =
typedef IppStatus (CV_STDCALL* ippiMaskNormDiffFuncC1)(const void *, int, const void *, int, const void *, int, IppiSize, Ipp64f *);
ippiMaskNormDiffFuncC1 ippFuncC1 =
normType == NORM_INF ?
(type == CV_8UC1 ? (ippicviMaskNormDiffFuncC1)ippicviNormDiff_Inf_8u_C1MR :
type == CV_8SC1 ? (ippicviMaskNormDiffFuncC1)ippicviNormDiff_Inf_8s_C1MR :
type == CV_16UC1 ? (ippicviMaskNormDiffFuncC1)ippicviNormDiff_Inf_16u_C1MR :
type == CV_32FC1 ? (ippicviMaskNormDiffFuncC1)ippicviNormDiff_Inf_32f_C1MR :
(type == CV_8UC1 ? (ippiMaskNormDiffFuncC1)ippiNormDiff_Inf_8u_C1MR :
type == CV_8SC1 ? (ippiMaskNormDiffFuncC1)ippiNormDiff_Inf_8s_C1MR :
type == CV_16UC1 ? (ippiMaskNormDiffFuncC1)ippiNormDiff_Inf_16u_C1MR :
type == CV_32FC1 ? (ippiMaskNormDiffFuncC1)ippiNormDiff_Inf_32f_C1MR :
0) :
normType == NORM_L1 ?
(type == CV_8UC1 ? (ippicviMaskNormDiffFuncC1)ippicviNormDiff_L1_8u_C1MR :
type == CV_8SC1 ? (ippicviMaskNormDiffFuncC1)ippicviNormDiff_L1_8s_C1MR :
type == CV_16UC1 ? (ippicviMaskNormDiffFuncC1)ippicviNormDiff_L1_16u_C1MR :
type == CV_32FC1 ? (ippicviMaskNormDiffFuncC1)ippicviNormDiff_L1_32f_C1MR :
(type == CV_8UC1 ? (ippiMaskNormDiffFuncC1)ippiNormDiff_L1_8u_C1MR :
type == CV_8SC1 ? (ippiMaskNormDiffFuncC1)ippiNormDiff_L1_8s_C1MR :
type == CV_16UC1 ? (ippiMaskNormDiffFuncC1)ippiNormDiff_L1_16u_C1MR :
type == CV_32FC1 ? (ippiMaskNormDiffFuncC1)ippiNormDiff_L1_32f_C1MR :
0) :
normType == NORM_L2 || normType == NORM_L2SQR ?
(type == CV_8UC1 ? (ippicviMaskNormDiffFuncC1)ippicviNormDiff_L2_8u_C1MR :
type == CV_8SC1 ? (ippicviMaskNormDiffFuncC1)ippicviNormDiff_L2_8s_C1MR :
type == CV_16UC1 ? (ippicviMaskNormDiffFuncC1)ippicviNormDiff_L2_16u_C1MR :
type == CV_32FC1 ? (ippicviMaskNormDiffFuncC1)ippicviNormDiff_L2_32f_C1MR :
(type == CV_8UC1 ? (ippiMaskNormDiffFuncC1)ippiNormDiff_L2_8u_C1MR :
type == CV_8SC1 ? (ippiMaskNormDiffFuncC1)ippiNormDiff_L2_8s_C1MR :
type == CV_16UC1 ? (ippiMaskNormDiffFuncC1)ippiNormDiff_L2_16u_C1MR :
type == CV_32FC1 ? (ippiMaskNormDiffFuncC1)ippiNormDiff_L2_32f_C1MR :
0) : 0;
if( ippFuncC1 )
{
@ -2484,25 +2484,25 @@ double cv::norm( InputArray _src1, InputArray _src2, int normType, InputArray _m
if( ippFuncC1(src1.data, (int)src1.step[0], src2.data, (int)src2.step[0], mask.data, (int)mask.step[0], sz, &norm) >= 0 )
return normType == NORM_L2SQR ? (double)(norm * norm) : (double)norm;
}
typedef IppStatus (CV_STDCALL* ippicviMaskNormDiffFuncC3)(const void *, int, const void *, int, const void *, int, IppiSize, int, Ipp64f *);
ippicviMaskNormDiffFuncC3 ippFuncC3 =
typedef IppStatus (CV_STDCALL* ippiMaskNormDiffFuncC3)(const void *, int, const void *, int, const void *, int, IppiSize, int, Ipp64f *);
ippiMaskNormDiffFuncC3 ippFuncC3 =
normType == NORM_INF ?
(type == CV_8UC3 ? (ippicviMaskNormDiffFuncC3)ippicviNormDiff_Inf_8u_C3CMR :
type == CV_8SC3 ? (ippicviMaskNormDiffFuncC3)ippicviNormDiff_Inf_8s_C3CMR :
type == CV_16UC3 ? (ippicviMaskNormDiffFuncC3)ippicviNormDiff_Inf_16u_C3CMR :
type == CV_32FC3 ? (ippicviMaskNormDiffFuncC3)ippicviNormDiff_Inf_32f_C3CMR :
(type == CV_8UC3 ? (ippiMaskNormDiffFuncC3)ippiNormDiff_Inf_8u_C3CMR :
type == CV_8SC3 ? (ippiMaskNormDiffFuncC3)ippiNormDiff_Inf_8s_C3CMR :
type == CV_16UC3 ? (ippiMaskNormDiffFuncC3)ippiNormDiff_Inf_16u_C3CMR :
type == CV_32FC3 ? (ippiMaskNormDiffFuncC3)ippiNormDiff_Inf_32f_C3CMR :
0) :
normType == NORM_L1 ?
(type == CV_8UC3 ? (ippicviMaskNormDiffFuncC3)ippicviNormDiff_L1_8u_C3CMR :
type == CV_8SC3 ? (ippicviMaskNormDiffFuncC3)ippicviNormDiff_L1_8s_C3CMR :
type == CV_16UC3 ? (ippicviMaskNormDiffFuncC3)ippicviNormDiff_L1_16u_C3CMR :
type == CV_32FC3 ? (ippicviMaskNormDiffFuncC3)ippicviNormDiff_L1_32f_C3CMR :
(type == CV_8UC3 ? (ippiMaskNormDiffFuncC3)ippiNormDiff_L1_8u_C3CMR :
type == CV_8SC3 ? (ippiMaskNormDiffFuncC3)ippiNormDiff_L1_8s_C3CMR :
type == CV_16UC3 ? (ippiMaskNormDiffFuncC3)ippiNormDiff_L1_16u_C3CMR :
type == CV_32FC3 ? (ippiMaskNormDiffFuncC3)ippiNormDiff_L1_32f_C3CMR :
0) :
normType == NORM_L2 || normType == NORM_L2SQR ?
(type == CV_8UC3 ? (ippicviMaskNormDiffFuncC3)ippicviNormDiff_L2_8u_C3CMR :
type == CV_8SC3 ? (ippicviMaskNormDiffFuncC3)ippicviNormDiff_L2_8s_C3CMR :
type == CV_16UC3 ? (ippicviMaskNormDiffFuncC3)ippicviNormDiff_L2_16u_C3CMR :
type == CV_32FC3 ? (ippicviMaskNormDiffFuncC3)ippicviNormDiff_L2_32f_C3CMR :
(type == CV_8UC3 ? (ippiMaskNormDiffFuncC3)ippiNormDiff_L2_8u_C3CMR :
type == CV_8SC3 ? (ippiMaskNormDiffFuncC3)ippiNormDiff_L2_8s_C3CMR :
type == CV_16UC3 ? (ippiMaskNormDiffFuncC3)ippiNormDiff_L2_16u_C3CMR :
type == CV_32FC3 ? (ippiMaskNormDiffFuncC3)ippiNormDiff_L2_32f_C3CMR :
0) : 0;
if( ippFuncC3 )
{
@ -2522,57 +2522,57 @@ double cv::norm( InputArray _src1, InputArray _src2, int normType, InputArray _m
}
else
{
typedef IppStatus (CV_STDCALL* ippicviNormDiffFuncHint)(const void *, int, const void *, int, IppiSize, Ipp64f *, IppHintAlgorithm hint);
typedef IppStatus (CV_STDCALL* ippicviNormDiffFuncNoHint)(const void *, int, const void *, int, IppiSize, Ipp64f *);
ippicviNormDiffFuncHint ippFuncHint =
typedef IppStatus (CV_STDCALL* ippiNormDiffFuncHint)(const void *, int, const void *, int, IppiSize, Ipp64f *, IppHintAlgorithm hint);
typedef IppStatus (CV_STDCALL* ippiNormDiffFuncNoHint)(const void *, int, const void *, int, IppiSize, Ipp64f *);
ippiNormDiffFuncHint ippFuncHint =
normType == NORM_L1 ?
(type == CV_32FC1 ? (ippicviNormDiffFuncHint)ippicviNormDiff_L1_32f_C1R :
type == CV_32FC3 ? (ippicviNormDiffFuncHint)ippicviNormDiff_L1_32f_C3R :
type == CV_32FC4 ? (ippicviNormDiffFuncHint)ippicviNormDiff_L1_32f_C4R :
(type == CV_32FC1 ? (ippiNormDiffFuncHint)ippiNormDiff_L1_32f_C1R :
type == CV_32FC3 ? (ippiNormDiffFuncHint)ippiNormDiff_L1_32f_C3R :
type == CV_32FC4 ? (ippiNormDiffFuncHint)ippiNormDiff_L1_32f_C4R :
0) :
normType == NORM_L2 || normType == NORM_L2SQR ?
(type == CV_32FC1 ? (ippicviNormDiffFuncHint)ippicviNormDiff_L2_32f_C1R :
type == CV_32FC3 ? (ippicviNormDiffFuncHint)ippicviNormDiff_L2_32f_C3R :
type == CV_32FC4 ? (ippicviNormDiffFuncHint)ippicviNormDiff_L2_32f_C4R :
(type == CV_32FC1 ? (ippiNormDiffFuncHint)ippiNormDiff_L2_32f_C1R :
type == CV_32FC3 ? (ippiNormDiffFuncHint)ippiNormDiff_L2_32f_C3R :
type == CV_32FC4 ? (ippiNormDiffFuncHint)ippiNormDiff_L2_32f_C4R :
0) : 0;
ippicviNormDiffFuncNoHint ippFuncNoHint =
ippiNormDiffFuncNoHint ippFuncNoHint =
normType == NORM_INF ?
(type == CV_8UC1 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_Inf_8u_C1R :
type == CV_8UC3 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_Inf_8u_C3R :
type == CV_8UC4 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_Inf_8u_C4R :
type == CV_16UC1 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_Inf_16u_C1R :
type == CV_16UC3 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_Inf_16u_C3R :
type == CV_16UC4 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_Inf_16u_C4R :
type == CV_16SC1 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_Inf_16s_C1R :
(type == CV_8UC1 ? (ippiNormDiffFuncNoHint)ippiNormDiff_Inf_8u_C1R :
type == CV_8UC3 ? (ippiNormDiffFuncNoHint)ippiNormDiff_Inf_8u_C3R :
type == CV_8UC4 ? (ippiNormDiffFuncNoHint)ippiNormDiff_Inf_8u_C4R :
type == CV_16UC1 ? (ippiNormDiffFuncNoHint)ippiNormDiff_Inf_16u_C1R :
type == CV_16UC3 ? (ippiNormDiffFuncNoHint)ippiNormDiff_Inf_16u_C3R :
type == CV_16UC4 ? (ippiNormDiffFuncNoHint)ippiNormDiff_Inf_16u_C4R :
type == CV_16SC1 ? (ippiNormDiffFuncNoHint)ippiNormDiff_Inf_16s_C1R :
#if (IPP_VERSION_MAJOR >= 8) && (IPP_VERSION_MINOR >= 1)
type == CV_16SC3 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_Inf_16s_C3R : //Aug 2013: problem in IPP 7.1, 8.0 : -32768
type == CV_16SC4 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_Inf_16s_C4R : //Aug 2013: problem in IPP 7.1, 8.0 : -32768
type == CV_16SC3 ? (ippiNormDiffFuncNoHint)ippiNormDiff_Inf_16s_C3R : //Aug 2013: problem in IPP 7.1, 8.0 : -32768
type == CV_16SC4 ? (ippiNormDiffFuncNoHint)ippiNormDiff_Inf_16s_C4R : //Aug 2013: problem in IPP 7.1, 8.0 : -32768
#endif
type == CV_32FC1 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_Inf_32f_C1R :
type == CV_32FC3 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_Inf_32f_C3R :
type == CV_32FC4 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_Inf_32f_C4R :
type == CV_32FC1 ? (ippiNormDiffFuncNoHint)ippiNormDiff_Inf_32f_C1R :
type == CV_32FC3 ? (ippiNormDiffFuncNoHint)ippiNormDiff_Inf_32f_C3R :
type == CV_32FC4 ? (ippiNormDiffFuncNoHint)ippiNormDiff_Inf_32f_C4R :
0) :
normType == NORM_L1 ?
(type == CV_8UC1 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_L1_8u_C1R :
type == CV_8UC3 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_L1_8u_C3R :
type == CV_8UC4 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_L1_8u_C4R :
type == CV_16UC1 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_L1_16u_C1R :
type == CV_16UC3 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_L1_16u_C3R :
type == CV_16UC4 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_L1_16u_C4R :
type == CV_16SC1 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_L1_16s_C1R :
type == CV_16SC3 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_L1_16s_C3R :
type == CV_16SC4 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_L1_16s_C4R :
(type == CV_8UC1 ? (ippiNormDiffFuncNoHint)ippiNormDiff_L1_8u_C1R :
type == CV_8UC3 ? (ippiNormDiffFuncNoHint)ippiNormDiff_L1_8u_C3R :
type == CV_8UC4 ? (ippiNormDiffFuncNoHint)ippiNormDiff_L1_8u_C4R :
type == CV_16UC1 ? (ippiNormDiffFuncNoHint)ippiNormDiff_L1_16u_C1R :
type == CV_16UC3 ? (ippiNormDiffFuncNoHint)ippiNormDiff_L1_16u_C3R :
type == CV_16UC4 ? (ippiNormDiffFuncNoHint)ippiNormDiff_L1_16u_C4R :
type == CV_16SC1 ? (ippiNormDiffFuncNoHint)ippiNormDiff_L1_16s_C1R :
type == CV_16SC3 ? (ippiNormDiffFuncNoHint)ippiNormDiff_L1_16s_C3R :
type == CV_16SC4 ? (ippiNormDiffFuncNoHint)ippiNormDiff_L1_16s_C4R :
0) :
normType == NORM_L2 || normType == NORM_L2SQR ?
(type == CV_8UC1 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_L2_8u_C1R :
type == CV_8UC3 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_L2_8u_C3R :
type == CV_8UC4 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_L2_8u_C4R :
type == CV_16UC1 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_L2_16u_C1R :
type == CV_16UC3 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_L2_16u_C3R :
type == CV_16UC4 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_L2_16u_C4R :
type == CV_16SC1 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_L2_16s_C1R :
type == CV_16SC3 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_L2_16s_C3R :
type == CV_16SC4 ? (ippicviNormDiffFuncNoHint)ippicviNormDiff_L2_16s_C4R :
(type == CV_8UC1 ? (ippiNormDiffFuncNoHint)ippiNormDiff_L2_8u_C1R :
type == CV_8UC3 ? (ippiNormDiffFuncNoHint)ippiNormDiff_L2_8u_C3R :
type == CV_8UC4 ? (ippiNormDiffFuncNoHint)ippiNormDiff_L2_8u_C4R :
type == CV_16UC1 ? (ippiNormDiffFuncNoHint)ippiNormDiff_L2_16u_C1R :
type == CV_16UC3 ? (ippiNormDiffFuncNoHint)ippiNormDiff_L2_16u_C3R :
type == CV_16UC4 ? (ippiNormDiffFuncNoHint)ippiNormDiff_L2_16u_C4R :
type == CV_16SC1 ? (ippiNormDiffFuncNoHint)ippiNormDiff_L2_16s_C1R :
type == CV_16SC3 ? (ippiNormDiffFuncNoHint)ippiNormDiff_L2_16s_C3R :
type == CV_16SC4 ? (ippiNormDiffFuncNoHint)ippiNormDiff_L2_16s_C4R :
0) : 0;
// Make sure only zero or one version of the function pointer is valid
CV_Assert(!ippFuncHint || !ippFuncNoHint);

12
modules/imgproc/src/canny.cpp
View File

@ -59,28 +59,28 @@ static bool ippCanny(const Mat& _src, Mat& _dst, float low, float high)
int size = 0, size1 = 0;
IppiSize roi = { _src.cols, _src.rows };
ippicviFilterSobelNegVertGetBufferSize_8u16s_C1R(roi, ippMskSize3x3, &size);
ippicviFilterSobelHorizGetBufferSize_8u16s_C1R(roi, ippMskSize3x3, &size1);
ippiFilterSobelNegVertGetBufferSize_8u16s_C1R(roi, ippMskSize3x3, &size);
ippiFilterSobelHorizGetBufferSize_8u16s_C1R(roi, ippMskSize3x3, &size1);
size = std::max(size, size1);
ippicviCannyGetSize(roi, &size1);
ippiCannyGetSize(roi, &size1);
size = std::max(size, size1);
AutoBuffer<uchar> buf(size + 64);
uchar* buffer = alignPtr((uchar*)buf, 32);
Mat _dx(_src.rows, _src.cols, CV_16S);
if( ippicviFilterSobelNegVertBorder_8u16s_C1R(_src.data, (int)_src.step,
if( ippiFilterSobelNegVertBorder_8u16s_C1R(_src.data, (int)_src.step,
_dx.ptr<short>(), (int)_dx.step, roi,
ippMskSize3x3, ippBorderRepl, 0, buffer) < 0 )
return false;
Mat _dy(_src.rows, _src.cols, CV_16S);
if( ippicviFilterSobelHorizBorder_8u16s_C1R(_src.data, (int)_src.step,
if( ippiFilterSobelHorizBorder_8u16s_C1R(_src.data, (int)_src.step,
_dy.ptr<short>(), (int)_dy.step, roi,
ippMskSize3x3, ippBorderRepl, 0, buffer) < 0 )
return false;
if( ippicviCanny_16s8u_C1R(_dx.ptr<short>(), (int)_dx.step,
if( ippiCanny_16s8u_C1R(_dx.ptr<short>(), (int)_dx.step,
_dy.ptr<short>(), (int)_dy.step,
_dst.data, (int)_dst.step, roi, low, high, buffer) < 0 )
return false;

218
modules/imgproc/src/color.cpp
View File

@ -99,7 +99,7 @@
#define MAX_IPP8u 255
#define MAX_IPP16u 65535
#define MAX_IPP32f 1.0
static IppStatus sts = ippicvInit();
static IppStatus sts = ippInit();
#endif
namespace cv
@ -200,9 +200,9 @@ void CvtColorLoop(const Mat& src, Mat& dst, const Cvt& cvt)
}
#if defined (HAVE_IPP) && (IPP_VERSION_MAJOR >= 7)
typedef IppStatus (CV_STDCALL* ippicviReorderFunc)(const void *, int, void *, int, IppiSize, const int *);
typedef IppStatus (CV_STDCALL* ippicviGeneralFunc)(const void *, int, void *, int, IppiSize);
typedef IppStatus (CV_STDCALL* ippicviColor2GrayFunc)(const void *, int, void *, int, IppiSize, const Ipp32f *);
typedef IppStatus (CV_STDCALL* ippiReorderFunc)(const void *, int, void *, int, IppiSize, const int *);
typedef IppStatus (CV_STDCALL* ippiGeneralFunc)(const void *, int, void *, int, IppiSize);
typedef IppStatus (CV_STDCALL* ippiColor2GrayFunc)(const void *, int, void *, int, IppiSize, const Ipp32f *);
template <typename Cvt>
class CvtColorIPPLoop_Invoker : public ParallelLoopBody
@ -256,134 +256,134 @@ bool CvtColorIPPLoopCopy(Mat& src, Mat& dst, const Cvt& cvt)
return ok;
}
static IppStatus CV_STDCALL ippicviSwapChannels_8u_C3C4Rf(const Ipp8u* pSrc, int srcStep, Ipp8u* pDst, int dstStep,
static IppStatus CV_STDCALL ippiSwapChannels_8u_C3C4Rf(const Ipp8u* pSrc, int srcStep, Ipp8u* pDst, int dstStep,
IppiSize roiSize, const int *dstOrder)
{
return ippicviSwapChannels_8u_C3C4R(pSrc, srcStep, pDst, dstStep, roiSize, dstOrder, MAX_IPP8u);
return ippiSwapChannels_8u_C3C4R(pSrc, srcStep, pDst, dstStep, roiSize, dstOrder, MAX_IPP8u);
}
static IppStatus CV_STDCALL ippicviSwapChannels_16u_C3C4Rf(const Ipp16u* pSrc, int srcStep, Ipp16u* pDst, int dstStep,
static IppStatus CV_STDCALL ippiSwapChannels_16u_C3C4Rf(const Ipp16u* pSrc, int srcStep, Ipp16u* pDst, int dstStep,
IppiSize roiSize, const int *dstOrder)
{
return ippicviSwapChannels_16u_C3C4R(pSrc, srcStep, pDst, dstStep, roiSize, dstOrder, MAX_IPP16u);
return ippiSwapChannels_16u_C3C4R(pSrc, srcStep, pDst, dstStep, roiSize, dstOrder, MAX_IPP16u);
}
static IppStatus CV_STDCALL ippicviSwapChannels_32f_C3C4Rf(const Ipp32f* pSrc, int srcStep, Ipp32f* pDst, int dstStep,
static IppStatus CV_STDCALL ippiSwapChannels_32f_C3C4Rf(const Ipp32f* pSrc, int srcStep, Ipp32f* pDst, int dstStep,
IppiSize roiSize, const int *dstOrder)
{
return ippicviSwapChannels_32f_C3C4R(pSrc, srcStep, pDst, dstStep, roiSize, dstOrder, MAX_IPP32f);
return ippiSwapChannels_32f_C3C4R(pSrc, srcStep, pDst, dstStep, roiSize, dstOrder, MAX_IPP32f);
}
static ippicviReorderFunc ippicviSwapChannelsC3C4RTab[] =
static ippiReorderFunc ippiSwapChannelsC3C4RTab[] =
{
(ippicviReorderFunc)ippicviSwapChannels_8u_C3C4Rf, 0, (ippicviReorderFunc)ippicviSwapChannels_16u_C3C4Rf, 0,
0, (ippicviReorderFunc)ippicviSwapChannels_32f_C3C4Rf, 0, 0
(ippiReorderFunc)ippiSwapChannels_8u_C3C4Rf, 0, (ippiReorderFunc)ippiSwapChannels_16u_C3C4Rf, 0,
0, (ippiReorderFunc)ippiSwapChannels_32f_C3C4Rf, 0, 0
};
static ippicviGeneralFunc ippicviCopyAC4C3RTab[] =
static ippiGeneralFunc ippiCopyAC4C3RTab[] =
{
(ippicviGeneralFunc)ippicviCopy_8u_AC4C3R, 0, (ippicviGeneralFunc)ippicviCopy_16u_AC4C3R, 0,
0, (ippicviGeneralFunc)ippicviCopy_32f_AC4C3R, 0, 0
(ippiGeneralFunc)ippiCopy_8u_AC4C3R, 0, (ippiGeneralFunc)ippiCopy_16u_AC4C3R, 0,
0, (ippiGeneralFunc)ippiCopy_32f_AC4C3R, 0, 0
};
static ippicviReorderFunc ippicviSwapChannelsC4C3RTab[] =
static ippiReorderFunc ippiSwapChannelsC4C3RTab[] =
{
(ippicviReorderFunc)ippicviSwapChannels_8u_C4C3R, 0, (ippicviReorderFunc)ippicviSwapChannels_16u_C4C3R, 0,
0, (ippicviReorderFunc)ippicviSwapChannels_32f_C4C3R, 0, 0
(ippiReorderFunc)ippiSwapChannels_8u_C4C3R, 0, (ippiReorderFunc)ippiSwapChannels_16u_C4C3R, 0,
0, (ippiReorderFunc)ippiSwapChannels_32f_C4C3R, 0, 0
};
static ippicviReorderFunc ippicviSwapChannelsC3RTab[] =
static ippiReorderFunc ippiSwapChannelsC3RTab[] =
{
(ippicviReorderFunc)ippicviSwapChannels_8u_C3R, 0, (ippicviReorderFunc)ippicviSwapChannels_16u_C3R, 0,
0, (ippicviReorderFunc)ippicviSwapChannels_32f_C3R, 0, 0
(ippiReorderFunc)ippiSwapChannels_8u_C3R, 0, (ippiReorderFunc)ippiSwapChannels_16u_C3R, 0,
0, (ippiReorderFunc)ippiSwapChannels_32f_C3R, 0, 0
};
static ippicviReorderFunc ippicviSwapChannelsC4RTab[] =
static ippiReorderFunc ippiSwapChannelsC4RTab[] =
{
(ippicviReorderFunc)ippicviSwapChannels_8u_C4R, 0, (ippicviReorderFunc)ippicviSwapChannels_16u_C4R, 0,
0, (ippicviReorderFunc)ippicviSwapChannels_32f_C4R, 0, 0
(ippiReorderFunc)ippiSwapChannels_8u_C4R, 0, (ippiReorderFunc)ippiSwapChannels_16u_C4R, 0,
0, (ippiReorderFunc)ippiSwapChannels_32f_C4R, 0, 0
};
static ippicviColor2GrayFunc ippicviColor2GrayC3Tab[] =
static ippiColor2GrayFunc ippiColor2GrayC3Tab[] =
{
(ippicviColor2GrayFunc)ippicviColorToGray_8u_C3C1R, 0, (ippicviColor2GrayFunc)ippicviColorToGray_16u_C3C1R, 0,
0, (ippicviColor2GrayFunc)ippicviColorToGray_32f_C3C1R, 0, 0
(ippiColor2GrayFunc)ippiColorToGray_8u_C3C1R, 0, (ippiColor2GrayFunc)ippiColorToGray_16u_C3C1R, 0,
0, (ippiColor2GrayFunc)ippiColorToGray_32f_C3C1R, 0, 0
};
static ippicviColor2GrayFunc ippicviColor2GrayC4Tab[] =
static ippiColor2GrayFunc ippiColor2GrayC4Tab[] =
{
(ippicviColor2GrayFunc)ippicviColorToGray_8u_AC4C1R, 0, (ippicviColor2GrayFunc)ippicviColorToGray_16u_AC4C1R, 0,
0, (ippicviColor2GrayFunc)ippicviColorToGray_32f_AC4C1R, 0, 0
(ippiColor2GrayFunc)ippiColorToGray_8u_AC4C1R, 0, (ippiColor2GrayFunc)ippiColorToGray_16u_AC4C1R, 0,
0, (ippiColor2GrayFunc)ippiColorToGray_32f_AC4C1R, 0, 0
};
static ippicviGeneralFunc ippicviRGB2GrayC3Tab[] =
static ippiGeneralFunc ippiRGB2GrayC3Tab[] =
{
(ippicviGeneralFunc)ippicviRGBToGray_8u_C3C1R, 0, (ippicviGeneralFunc)ippicviRGBToGray_16u_C3C1R, 0,
0, (ippicviGeneralFunc)ippicviRGBToGray_32f_C3C1R, 0, 0
(ippiGeneralFunc)ippiRGBToGray_8u_C3C1R, 0, (ippiGeneralFunc)ippiRGBToGray_16u_C3C1R, 0,
0, (ippiGeneralFunc)ippiRGBToGray_32f_C3C1R, 0, 0
};
static ippicviGeneralFunc ippicviRGB2GrayC4Tab[] =
static ippiGeneralFunc ippiRGB2GrayC4Tab[] =
{
(ippicviGeneralFunc)ippicviRGBToGray_8u_AC4C1R, 0, (ippicviGeneralFunc)ippicviRGBToGray_16u_AC4C1R, 0,
0, (ippicviGeneralFunc)ippicviRGBToGray_32f_AC4C1R, 0, 0
(ippiGeneralFunc)ippiRGBToGray_8u_AC4C1R, 0, (ippiGeneralFunc)ippiRGBToGray_16u_AC4C1R, 0,
0, (ippiGeneralFunc)ippiRGBToGray_32f_AC4C1R, 0, 0
};
static ippicviGeneralFunc ippicviCopyP3C3RTab[] =
static ippiGeneralFunc ippiCopyP3C3RTab[] =
{
(ippicviGeneralFunc)ippicviCopy_8u_P3C3R, 0, (ippicviGeneralFunc)ippicviCopy_16u_P3C3R, 0,
0, (ippicviGeneralFunc)ippicviCopy_32f_P3C3R, 0, 0
(ippiGeneralFunc)ippiCopy_8u_P3C3R, 0, (ippiGeneralFunc)ippiCopy_16u_P3C3R, 0,
0, (ippiGeneralFunc)ippiCopy_32f_P3C3R, 0, 0
};
static ippicviGeneralFunc ippicviRGB2XYZTab[] =
static ippiGeneralFunc ippiRGB2XYZTab[] =
{
(ippicviGeneralFunc)ippicviRGBToXYZ_8u_C3R, 0, (ippicviGeneralFunc)ippicviRGBToXYZ_16u_C3R, 0,
0, (ippicviGeneralFunc)ippicviRGBToXYZ_32f_C3R, 0, 0
(ippiGeneralFunc)ippiRGBToXYZ_8u_C3R, 0, (ippiGeneralFunc)ippiRGBToXYZ_16u_C3R, 0,
0, (ippiGeneralFunc)ippiRGBToXYZ_32f_C3R, 0, 0
};
static ippicviGeneralFunc ippicviXYZ2RGBTab[] =
static ippiGeneralFunc ippiXYZ2RGBTab[] =
{
(ippicviGeneralFunc)ippicviXYZToRGB_8u_C3R, 0, (ippicviGeneralFunc)ippicviXYZToRGB_16u_C3R, 0,
0, (ippicviGeneralFunc)ippicviXYZToRGB_32f_C3R, 0, 0
(ippiGeneralFunc)ippiXYZToRGB_8u_C3R, 0, (ippiGeneralFunc)ippiXYZToRGB_16u_C3R, 0,
0, (ippiGeneralFunc)ippiXYZToRGB_32f_C3R, 0, 0
};
static ippicviGeneralFunc ippicviRGB2HSVTab[] =
static ippiGeneralFunc ippiRGB2HSVTab[] =
{
(ippicviGeneralFunc)ippicviRGBToHSV_8u_C3R, 0, (ippicviGeneralFunc)ippicviRGBToHSV_16u_C3R, 0,
(ippiGeneralFunc)ippiRGBToHSV_8u_C3R, 0, (ippiGeneralFunc)ippiRGBToHSV_16u_C3R, 0,
0, 0, 0, 0
};
static ippicviGeneralFunc ippicviHSV2RGBTab[] =
static ippiGeneralFunc ippiHSV2RGBTab[] =
{
(ippicviGeneralFunc)ippicviHSVToRGB_8u_C3R, 0, (ippicviGeneralFunc)ippicviHSVToRGB_16u_C3R, 0,
(ippiGeneralFunc)ippiHSVToRGB_8u_C3R, 0, (ippiGeneralFunc)ippiHSVToRGB_16u_C3R, 0,
0, 0, 0, 0
};
static ippicviGeneralFunc ippicviRGB2HLSTab[] =
static ippiGeneralFunc ippiRGB2HLSTab[] =
{
(ippicviGeneralFunc)ippicviRGBToHLS_8u_C3R, 0, (ippicviGeneralFunc)ippicviRGBToHLS_16u_C3R, 0,
0, (ippicviGeneralFunc)ippicviRGBToHLS_32f_C3R, 0, 0
(ippiGeneralFunc)ippiRGBToHLS_8u_C3R, 0, (ippiGeneralFunc)ippiRGBToHLS_16u_C3R, 0,
0, (ippiGeneralFunc)ippiRGBToHLS_32f_C3R, 0, 0
};
static ippicviGeneralFunc ippicviHLS2RGBTab[] =
static ippiGeneralFunc ippiHLS2RGBTab[] =
{
(ippicviGeneralFunc)ippicviHLSToRGB_8u_C3R, 0, (ippicviGeneralFunc)ippicviHLSToRGB_16u_C3R, 0,
0, (ippicviGeneralFunc)ippicviHLSToRGB_32f_C3R, 0, 0
(ippiGeneralFunc)ippiHLSToRGB_8u_C3R, 0, (ippiGeneralFunc)ippiHLSToRGB_16u_C3R, 0,
0, (ippiGeneralFunc)ippiHLSToRGB_32f_C3R, 0, 0
};
struct IPPGeneralFunctor
{
IPPGeneralFunctor(ippicviGeneralFunc _func) : func(_func){}
IPPGeneralFunctor(ippiGeneralFunc _func) : func(_func){}
bool operator()(const void *src, int srcStep, void *dst, int dstStep, int cols, int rows) const
{
return func(src, srcStep, dst, dstStep, ippiSize(cols, rows)) >= 0;
}
private:
ippicviGeneralFunc func;
ippiGeneralFunc func;
};
struct IPPReorderFunctor
{
IPPReorderFunctor(ippicviReorderFunc _func, int _order0, int _order1, int _order2) : func(_func)
IPPReorderFunctor(ippiReorderFunc _func, int _order0, int _order1, int _order2) : func(_func)
{
order[0] = _order0;
order[1] = _order1;
@ -395,13 +395,13 @@ struct IPPReorderFunctor
return func(src, srcStep, dst, dstStep, ippiSize(cols, rows), order) >= 0;
}
private:
ippicviReorderFunc func;
ippiReorderFunc func;
int order[4];
};
struct IPPColor2GrayFunctor
{
IPPColor2GrayFunctor(ippicviColor2GrayFunc _func) : func(_func)
IPPColor2GrayFunctor(ippiColor2GrayFunc _func) : func(_func)
{
coeffs[0] = 0.114f;
coeffs[1] = 0.587f;
@ -412,25 +412,25 @@ struct IPPColor2GrayFunctor
return func(src, srcStep, dst, dstStep, ippiSize(cols, rows), coeffs) >= 0;
}
private:
ippicviColor2GrayFunc func;
ippiColor2GrayFunc func;
Ipp32f coeffs[3];
};
struct IPPGray2BGRFunctor
{
IPPGray2BGRFunctor(ippicviGeneralFunc _func) : func(_func){}
IPPGray2BGRFunctor(ippiGeneralFunc _func) : func(_func){}
bool operator()(const void *src, int srcStep, void *dst, int dstStep, int cols, int rows) const
{
const void* srcarray[3] = { src, src, src };
return func(srcarray, srcStep, dst, dstStep, ippiSize(cols, rows)) >= 0;
}
private:
ippicviGeneralFunc func;
ippiGeneralFunc func;
};
struct IPPGray2BGRAFunctor
{
IPPGray2BGRAFunctor(ippicviGeneralFunc _func1, ippicviReorderFunc _func2, int _depth) : func1(_func1), func2(_func2), depth(_depth){}
IPPGray2BGRAFunctor(ippiGeneralFunc _func1, ippiReorderFunc _func2, int _depth) : func1(_func1), func2(_func2), depth(_depth){}
bool operator()(const void *src, int srcStep, void *dst, int dstStep, int cols, int rows) const
{
const void* srcarray[3] = { src, src, src };
@ -441,14 +441,14 @@ struct IPPGray2BGRAFunctor
return func2(temp.data, (int)temp.step[0], dst, dstStep, ippiSize(cols, rows), order) >= 0;
}
private:
ippicviGeneralFunc func1;
ippicviReorderFunc func2;
ippiGeneralFunc func1;
ippiReorderFunc func2;
int depth;
};
struct IPPReorderGeneralFunctor
{
IPPReorderGeneralFunctor(ippicviReorderFunc _func1, ippicviGeneralFunc _func2, int _order0, int _order1, int _order2, int _depth) : func1(_func1), func2(_func2), depth(_depth)
IPPReorderGeneralFunctor(ippiReorderFunc _func1, ippiGeneralFunc _func2, int _order0, int _order1, int _order2, int _depth) : func1(_func1), func2(_func2), depth(_depth)
{
order[0] = _order0;
order[1] = _order1;
@ -464,15 +464,15 @@ struct IPPReorderGeneralFunctor
return func2(temp.data, (int)temp.step[0], dst, dstStep, ippiSize(cols, rows)) >= 0;
}
private:
ippicviReorderFunc func1;
ippicviGeneralFunc func2;
ippiReorderFunc func1;
ippiGeneralFunc func2;
int order[4];
int depth;
};
struct IPPGeneralReorderFunctor
{
IPPGeneralReorderFunctor(ippicviGeneralFunc _func1, ippicviReorderFunc _func2, int _order0, int _order1, int _order2, int _depth) : func1(_func1), func2(_func2), depth(_depth)
IPPGeneralReorderFunctor(ippiGeneralFunc _func1, ippiReorderFunc _func2, int _order0, int _order1, int _order2, int _depth) : func1(_func1), func2(_func2), depth(_depth)
{
order[0] = _order0;
order[1] = _order1;
@ -488,8 +488,8 @@ struct IPPGeneralReorderFunctor
return func2(temp.data, (int)temp.step[0], dst, dstStep, ippiSize(cols, rows), order) >= 0;
}
private:
ippicviGeneralFunc func1;
ippicviReorderFunc func2;
ippiGeneralFunc func1;
ippiReorderFunc func2;
int order[4];
int depth;
};
@ -3229,32 +3229,32 @@ void cv::cvtColor( InputArray _src, OutputArray _dst, int code, int dcn )
#if defined (HAVE_IPP) && (IPP_VERSION_MAJOR >= 7)
if( code == CV_BGR2BGRA || code == CV_RGB2RGBA)
{
if ( CvtColorIPPLoop(src, dst, IPPReorderFunctor(ippicviSwapChannelsC3C4RTab[depth], 0, 1, 2)) )
if ( CvtColorIPPLoop(src, dst, IPPReorderFunctor(ippiSwapChannelsC3C4RTab[depth], 0, 1, 2)) )
return;
}
else if( code == CV_BGRA2BGR )
{
if ( CvtColorIPPLoop(src, dst, IPPGeneralFunctor(ippicviCopyAC4C3RTab[depth])) )
if ( CvtColorIPPLoop(src, dst, IPPGeneralFunctor(ippiCopyAC4C3RTab[depth])) )
return;
}
else if( code == CV_BGR2RGBA )
{
if( CvtColorIPPLoop(src, dst, IPPReorderFunctor(ippicviSwapChannelsC3C4RTab[depth], 2, 1, 0)) )
if( CvtColorIPPLoop(src, dst, IPPReorderFunctor(ippiSwapChannelsC3C4RTab[depth], 2, 1, 0)) )
return;
}
else if( code == CV_RGBA2BGR )
{
if( CvtColorIPPLoop(src, dst, IPPReorderFunctor(ippicviSwapChannelsC4C3RTab[depth], 2, 1, 0)) )
if( CvtColorIPPLoop(src, dst, IPPReorderFunctor(ippiSwapChannelsC4C3RTab[depth], 2, 1, 0)) )
return;
}
else if( code == CV_RGB2BGR )
{
if( CvtColorIPPLoopCopy(src, dst, IPPReorderFunctor(ippicviSwapChannelsC3RTab[depth], 2, 1, 0)) )
if( CvtColorIPPLoopCopy(src, dst, IPPReorderFunctor(ippiSwapChannelsC3RTab[depth], 2, 1, 0)) )
return;
}
else if( code == CV_RGBA2BGRA )
{
if( CvtColorIPPLoopCopy(src, dst, IPPReorderFunctor(ippicviSwapChannelsC4RTab[depth], 2, 1, 0)) )
if( CvtColorIPPLoopCopy(src, dst, IPPReorderFunctor(ippiSwapChannelsC4RTab[depth], 2, 1, 0)) )
return;
}
#endif
@ -3316,24 +3316,24 @@ void cv::cvtColor( InputArray _src, OutputArray _dst, int code, int dcn )
/*
if( code == CV_BGR2GRAY )
{
if( CvtColorIPPLoop(src, dst, IPPColor2GrayFunctor(ippicviColor2GrayC3Tab[depth])) )
if( CvtColorIPPLoop(src, dst, IPPColor2GrayFunctor(ippiColor2GrayC3Tab[depth])) )
return;
}
else
*/
if( code == CV_RGB2GRAY )
{
if( CvtColorIPPLoop(src, dst, IPPGeneralFunctor(ippicviRGB2GrayC3Tab[depth])) )
if( CvtColorIPPLoop(src, dst, IPPGeneralFunctor(ippiRGB2GrayC3Tab[depth])) )
return;
}
else if( code == CV_BGRA2GRAY )
{
if( CvtColorIPPLoop(src, dst, IPPColor2GrayFunctor(ippicviColor2GrayC4Tab[depth])) )
if( CvtColorIPPLoop(src, dst, IPPColor2GrayFunctor(ippiColor2GrayC4Tab[depth])) )
return;
}
else if( code == CV_RGBA2GRAY )
{
if( CvtColorIPPLoop(src, dst, IPPGeneralFunctor(ippicviRGB2GrayC4Tab[depth])) )
if( CvtColorIPPLoop(src, dst, IPPGeneralFunctor(ippiRGB2GrayC4Tab[depth])) )
return;
}
#endif
@ -3370,12 +3370,12 @@ void cv::cvtColor( InputArray _src, OutputArray _dst, int code, int dcn )
#if defined (HAVE_IPP) && (IPP_VERSION_MAJOR >= 7)
if( code == CV_GRAY2BGR )
{
if( CvtColorIPPLoop(src, dst, IPPGray2BGRFunctor(ippicviCopyP3C3RTab[depth])) )
if( CvtColorIPPLoop(src, dst, IPPGray2BGRFunctor(ippiCopyP3C3RTab[depth])) )
return;
}
else if( code == CV_GRAY2BGRA )
{
if( CvtColorIPPLoop(src, dst, IPPGray2BGRAFunctor(ippicviCopyP3C3RTab[depth], ippicviSwapChannelsC3C4RTab[depth], depth)) )
if( CvtColorIPPLoop(src, dst, IPPGray2BGRAFunctor(ippiCopyP3C3RTab[depth], ippiSwapChannelsC3C4RTab[depth], depth)) )
return;
}
#endif
@ -3463,22 +3463,22 @@ void cv::cvtColor( InputArray _src, OutputArray _dst, int code, int dcn )
#if defined (HAVE_IPP) && (IPP_VERSION_MAJOR >= 7)
if( code == CV_BGR2XYZ && scn == 3 )
{
if( CvtColorIPPLoopCopy(src, dst, IPPReorderGeneralFunctor(ippicviSwapChannelsC3RTab[depth], ippicviRGB2XYZTab[depth], 2, 1, 0, depth)) )
if( CvtColorIPPLoopCopy(src, dst, IPPReorderGeneralFunctor(ippiSwapChannelsC3RTab[depth], ippiRGB2XYZTab[depth], 2, 1, 0, depth)) )
return;
}
else if( code == CV_BGR2XYZ && scn == 4 )
{
if( CvtColorIPPLoop(src, dst, IPPReorderGeneralFunctor(ippicviSwapChannelsC4C3RTab[depth], ippicviRGB2XYZTab[depth], 2, 1, 0, depth)) )
if( CvtColorIPPLoop(src, dst, IPPReorderGeneralFunctor(ippiSwapChannelsC4C3RTab[depth], ippiRGB2XYZTab[depth], 2, 1, 0, depth)) )
return;
}
else if( code == CV_RGB2XYZ && scn == 3 )
{
if( CvtColorIPPLoopCopy(src, dst, IPPGeneralFunctor(ippicviRGB2XYZTab[depth])) )
if( CvtColorIPPLoopCopy(src, dst, IPPGeneralFunctor(ippiRGB2XYZTab[depth])) )
return;
}
else if( code == CV_RGB2XYZ && scn == 4 )
{
if( CvtColorIPPLoop(src, dst, IPPReorderGeneralFunctor(ippicviSwapChannelsC4C3RTab[depth], ippicviRGB2XYZTab[depth], 0, 1, 2, depth)) )
if( CvtColorIPPLoop(src, dst, IPPReorderGeneralFunctor(ippiSwapChannelsC4C3RTab[depth], ippiRGB2XYZTab[depth], 0, 1, 2, depth)) )
return;
}
#endif
@ -3502,22 +3502,22 @@ void cv::cvtColor( InputArray _src, OutputArray _dst, int code, int dcn )
#if defined (HAVE_IPP) && (IPP_VERSION_MAJOR >= 7)
if( code == CV_XYZ2BGR && dcn == 3 )
{
if( CvtColorIPPLoopCopy(src, dst, IPPGeneralReorderFunctor(ippicviXYZ2RGBTab[depth], ippicviSwapChannelsC3RTab[depth], 2, 1, 0, depth)) )
if( CvtColorIPPLoopCopy(src, dst, IPPGeneralReorderFunctor(ippiXYZ2RGBTab[depth], ippiSwapChannelsC3RTab[depth], 2, 1, 0, depth)) )
return;
}
else if( code == CV_XYZ2BGR && dcn == 4 )
{
if( CvtColorIPPLoop(src, dst, IPPGeneralReorderFunctor(ippicviXYZ2RGBTab[depth], ippicviSwapChannelsC3C4RTab[depth], 2, 1, 0, depth)) )
if( CvtColorIPPLoop(src, dst, IPPGeneralReorderFunctor(ippiXYZ2RGBTab[depth], ippiSwapChannelsC3C4RTab[depth], 2, 1, 0, depth)) )
return;
}
if( code == CV_XYZ2RGB && dcn == 3 )
{
if( CvtColorIPPLoopCopy(src, dst, IPPGeneralFunctor(ippicviXYZ2RGBTab[depth])) )
if( CvtColorIPPLoopCopy(src, dst, IPPGeneralFunctor(ippiXYZ2RGBTab[depth])) )
return;
}
else if( code == CV_XYZ2RGB && dcn == 4 )
{
if( CvtColorIPPLoop(src, dst, IPPGeneralReorderFunctor(ippicviXYZ2RGBTab[depth], ippicviSwapChannelsC3C4RTab[depth], 0, 1, 2, depth)) )
if( CvtColorIPPLoop(src, dst, IPPGeneralReorderFunctor(ippiXYZ2RGBTab[depth], ippiSwapChannelsC3C4RTab[depth], 0, 1, 2, depth)) )
return;
}
#endif
@ -3547,42 +3547,42 @@ void cv::cvtColor( InputArray _src, OutputArray _dst, int code, int dcn )
{
if( code == CV_BGR2HSV_FULL && scn == 3 )
{
if( CvtColorIPPLoopCopy(src, dst, IPPReorderGeneralFunctor(ippicviSwapChannelsC3RTab[depth], ippicviRGB2HSVTab[depth], 2, 1, 0, depth)) )
if( CvtColorIPPLoopCopy(src, dst, IPPReorderGeneralFunctor(ippiSwapChannelsC3RTab[depth], ippiRGB2HSVTab[depth], 2, 1, 0, depth)) )
return;
}
else if( code == CV_BGR2HSV_FULL && scn == 4 )
{
if( CvtColorIPPLoop(src, dst, IPPReorderGeneralFunctor(ippicviSwapChannelsC4C3RTab[depth], ippicviRGB2HSVTab[depth], 2, 1, 0, depth)) )
if( CvtColorIPPLoop(src, dst, IPPReorderGeneralFunctor(ippiSwapChannelsC4C3RTab[depth], ippiRGB2HSVTab[depth], 2, 1, 0, depth)) )
return;
}
else if( code == CV_RGB2HSV_FULL && scn == 3 )
{
if( CvtColorIPPLoopCopy(src, dst, IPPGeneralFunctor(ippicviRGB2HSVTab[depth])) )
if( CvtColorIPPLoopCopy(src, dst, IPPGeneralFunctor(ippiRGB2HSVTab[depth])) )
return;
}
else if( code == CV_RGB2HSV_FULL && scn == 4 )
{
if( CvtColorIPPLoop(src, dst, IPPReorderGeneralFunctor(ippicviSwapChannelsC4C3RTab[depth], ippicviRGB2HSVTab[depth], 0, 1, 2, depth)) )
if( CvtColorIPPLoop(src, dst, IPPReorderGeneralFunctor(ippiSwapChannelsC4C3RTab[depth], ippiRGB2HSVTab[depth], 0, 1, 2, depth)) )
return;
}
else if( code == CV_BGR2HLS_FULL && scn == 3 )
{
if( CvtColorIPPLoopCopy(src, dst, IPPReorderGeneralFunctor(ippicviSwapChannelsC3RTab[depth], ippicviRGB2HLSTab[depth], 2, 1, 0, depth)) )
if( CvtColorIPPLoopCopy(src, dst, IPPReorderGeneralFunctor(ippiSwapChannelsC3RTab[depth], ippiRGB2HLSTab[depth], 2, 1, 0, depth)) )
return;
}
else if( code == CV_BGR2HLS_FULL && scn == 4 )
{
if( CvtColorIPPLoop(src, dst, IPPReorderGeneralFunctor(ippicviSwapChannelsC4C3RTab[depth], ippicviRGB2HLSTab[depth], 2, 1, 0, depth)) )
if( CvtColorIPPLoop(src, dst, IPPReorderGeneralFunctor(ippiSwapChannelsC4C3RTab[depth], ippiRGB2HLSTab[depth], 2, 1, 0, depth)) )
return;
}
else if( code == CV_RGB2HLS_FULL && scn == 3 )
{
if( CvtColorIPPLoopCopy(src, dst, IPPGeneralFunctor(ippicviRGB2HLSTab[depth])) )
if( CvtColorIPPLoopCopy(src, dst, IPPGeneralFunctor(ippiRGB2HLSTab[depth])) )
return;
}
else if( code == CV_RGB2HLS_FULL && scn == 4 )
{
if( CvtColorIPPLoop(src, dst, IPPReorderGeneralFunctor(ippicviSwapChannelsC4C3RTab[depth], ippicviRGB2HLSTab[depth], 0, 1, 2, depth)) )
if( CvtColorIPPLoop(src, dst, IPPReorderGeneralFunctor(ippiSwapChannelsC4C3RTab[depth], ippiRGB2HLSTab[depth], 0, 1, 2, depth)) )
return;
}
}
@ -3628,42 +3628,42 @@ void cv::cvtColor( InputArray _src, OutputArray _dst, int code, int dcn )
{
if( code == CV_HSV2BGR_FULL && dcn == 3 )
{
if( CvtColorIPPLoopCopy(src, dst, IPPGeneralReorderFunctor(ippicviHSV2RGBTab[depth], ippicviSwapChannelsC3RTab[depth], 2, 1, 0, depth)) )
if( CvtColorIPPLoopCopy(src, dst, IPPGeneralReorderFunctor(ippiHSV2RGBTab[depth], ippiSwapChannelsC3RTab[depth], 2, 1, 0, depth)) )
return;
}
else if( code == CV_HSV2BGR_FULL && dcn == 4 )
{
if( CvtColorIPPLoop(src, dst, IPPGeneralReorderFunctor(ippicviHSV2RGBTab[depth], ippicviSwapChannelsC3C4RTab[depth], 2, 1, 0, depth)) )
if( CvtColorIPPLoop(src, dst, IPPGeneralReorderFunctor(ippiHSV2RGBTab[depth], ippiSwapChannelsC3C4RTab[depth], 2, 1, 0, depth)) )
return;
}
else if( code == CV_HSV2RGB_FULL && dcn == 3 )
{
if( CvtColorIPPLoopCopy(src, dst, IPPGeneralFunctor(ippicviHSV2RGBTab[depth])) )
if( CvtColorIPPLoopCopy(src, dst, IPPGeneralFunctor(ippiHSV2RGBTab[depth])) )
return;
}
else if( code == CV_HSV2RGB_FULL && dcn == 4 )
{
if( CvtColorIPPLoop(src, dst, IPPGeneralReorderFunctor(ippicviHSV2RGBTab[depth], ippicviSwapChannelsC3C4RTab[depth], 0, 1, 2, depth)) )
if( CvtColorIPPLoop(src, dst, IPPGeneralReorderFunctor(ippiHSV2RGBTab[depth], ippiSwapChannelsC3C4RTab[depth], 0, 1, 2, depth)) )
return;
}
else if( code == CV_HLS2BGR_FULL && dcn == 3 )
{
if( CvtColorIPPLoopCopy(src, dst, IPPGeneralReorderFunctor(ippicviHLS2RGBTab[depth], ippicviSwapChannelsC3RTab[depth], 2, 1, 0, depth)) )
if( CvtColorIPPLoopCopy(src, dst, IPPGeneralReorderFunctor(ippiHLS2RGBTab[depth], ippiSwapChannelsC3RTab[depth], 2, 1, 0, depth)) )
return;
}
else if( code == CV_HLS2BGR_FULL && dcn == 4 )
{
if( CvtColorIPPLoop(src, dst, IPPGeneralReorderFunctor(ippicviHLS2RGBTab[depth], ippicviSwapChannelsC3C4RTab[depth], 2, 1, 0, depth)) )
if( CvtColorIPPLoop(src, dst, IPPGeneralReorderFunctor(ippiHLS2RGBTab[depth], ippiSwapChannelsC3C4RTab[depth], 2, 1, 0, depth)) )
return;
}
else if( code == CV_HLS2RGB_FULL && dcn == 3 )
{
if( CvtColorIPPLoopCopy(src, dst, IPPGeneralFunctor(ippicviHLS2RGBTab[depth])) )
if( CvtColorIPPLoopCopy(src, dst, IPPGeneralFunctor(ippiHLS2RGBTab[depth])) )
return;
}
else if( code == CV_HLS2RGB_FULL && dcn == 4 )
{
if( CvtColorIPPLoop(src, dst, IPPGeneralReorderFunctor(ippicviHLS2RGBTab[depth], ippicviSwapChannelsC3C4RTab[depth], 0, 1, 2, depth)) )
if( CvtColorIPPLoop(src, dst, IPPGeneralReorderFunctor(ippiHLS2RGBTab[depth], ippiSwapChannelsC3C4RTab[depth], 0, 1, 2, depth)) )
return;
}
}

64
modules/imgproc/src/deriv.cpp
View File

@ -44,7 +44,7 @@
#include "opencl_kernels.hpp"
#if defined (HAVE_IPP) && (IPP_VERSION_MAJOR >= 7)
static IppStatus sts = ippicvInit();
static IppStatus sts = ippInit();
#endif
/****************************************************************************************\
@ -212,18 +212,18 @@ static bool IPPDerivScharr(const Mat& src, Mat& dst, int ddepth, int dx, int dy,
{
if ((dx == 1) && (dy == 0))
{
if (ippStsNoErr != ippicviFilterScharrVertGetBufferSize_8u16s_C1R(roi,&bufSize))
if (ippStsNoErr != ippiFilterScharrVertGetBufferSize_8u16s_C1R(roi,&bufSize))
return false;
buffer.allocate(bufSize);
return (ippStsNoErr == ippicviFilterScharrVertBorder_8u16s_C1R((const Ipp8u*)src.data, (int)src.step,
return (ippStsNoErr == ippiFilterScharrVertBorder_8u16s_C1R((const Ipp8u*)src.data, (int)src.step,
(Ipp16s*)dst.data, (int)dst.step, roi, ippBorderRepl, 0, (Ipp8u*)(char*)buffer));
}
if ((dx == 0) && (dy == 1))
{
if (ippStsNoErr != ippicviFilterScharrHorizGetBufferSize_8u16s_C1R(roi,&bufSize))
if (ippStsNoErr != ippiFilterScharrHorizGetBufferSize_8u16s_C1R(roi,&bufSize))
return false;
buffer.allocate(bufSize);
return (ippStsNoErr == ippicviFilterScharrHorizBorder_8u16s_C1R((const Ipp8u*)src.data, (int)src.step,
return (ippStsNoErr == ippiFilterScharrHorizBorder_8u16s_C1R((const Ipp8u*)src.data, (int)src.step,
(Ipp16s*)dst.data, (int)dst.step, roi, ippBorderRepl, 0, (Ipp8u*)(char*)buffer));
}
return false;
@ -240,11 +240,11 @@ static bool IPPDerivScharr(const Mat& src, Mat& dst, int ddepth, int dx, int dy,
{
if ((dx == 1) && (dy == 0))
{
if (ippStsNoErr != ippicviFilterScharrVertGetBufferSize_32f_C1R(ippiSize(src.cols, src.rows),&bufSize))
if (ippStsNoErr != ippiFilterScharrVertGetBufferSize_32f_C1R(ippiSize(src.cols, src.rows),&bufSize))
return false;
buffer.allocate(bufSize);
if (ippStsNoErr != ippicviFilterScharrVertBorder_32f_C1R((const Ipp32f*)src.data, (int)src.step,
if (ippStsNoErr != ippiFilterScharrVertBorder_32f_C1R((const Ipp32f*)src.data, (int)src.step,
(Ipp32f*)dst.data, (int)dst.step, ippiSize(src.cols, src.rows),
ippBorderRepl, 0, (Ipp8u*)(char*)buffer))
{
@ -253,23 +253,23 @@ static bool IPPDerivScharr(const Mat& src, Mat& dst, int ddepth, int dx, int dy,
if (scale != 1)
/* IPP is fast, so MulC produce very little perf degradation.*/
//ippicviMulC_32f_C1IR((Ipp32f)scale, (Ipp32f*)dst.data, (int)dst.step, ippiSize(dst.cols*dst.channels(), dst.rows));
ippicviMulC_32f_C1R((Ipp32f*)dst.data, (int)dst.step, (Ipp32f)scale, (Ipp32f*)dst.data, (int)dst.step, ippiSize(dst.cols*dst.channels(), dst.rows));
//ippiMulC_32f_C1IR((Ipp32f)scale, (Ipp32f*)dst.data, (int)dst.step, ippiSize(dst.cols*dst.channels(), dst.rows));
ippiMulC_32f_C1R((Ipp32f*)dst.data, (int)dst.step, (Ipp32f)scale, (Ipp32f*)dst.data, (int)dst.step, ippiSize(dst.cols*dst.channels(), dst.rows));
return true;
}
if ((dx == 0) && (dy == 1))
{
if (ippStsNoErr != ippicviFilterScharrHorizGetBufferSize_32f_C1R(ippiSize(src.cols, src.rows),&bufSize))
if (ippStsNoErr != ippiFilterScharrHorizGetBufferSize_32f_C1R(ippiSize(src.cols, src.rows),&bufSize))
return false;
buffer.allocate(bufSize);
if (ippStsNoErr != ippicviFilterScharrHorizBorder_32f_C1R((const Ipp32f*)src.data, (int)src.step,
if (ippStsNoErr != ippiFilterScharrHorizBorder_32f_C1R((const Ipp32f*)src.data, (int)src.step,
(Ipp32f*)dst.data, (int)dst.step, ippiSize(src.cols, src.rows),
ippBorderRepl, 0, (Ipp8u*)(char*)buffer))
return false;
if (scale != 1)
ippicviMulC_32f_C1R((Ipp32f *)dst.data, (int)dst.step, (Ipp32f)scale, (Ipp32f *)dst.data, (int)dst.step, ippiSize(dst.cols*dst.channels(), dst.rows));
ippiMulC_32f_C1R((Ipp32f *)dst.data, (int)dst.step, (Ipp32f)scale, (Ipp32f *)dst.data, (int)dst.step, ippiSize(dst.cols*dst.channels(), dst.rows));
return true;
}
}
@ -296,44 +296,44 @@ static bool IPPDeriv(const Mat& src, Mat& dst, int ddepth, int dx, int dy, int k
{
if ((dx == 1) && (dy == 0))
{
if (ippStsNoErr != ippicviFilterSobelNegVertGetBufferSize_8u16s_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),&bufSize))
if (ippStsNoErr != ippiFilterSobelNegVertGetBufferSize_8u16s_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),&bufSize))
return false;
buffer.allocate(bufSize);
return (ippStsNoErr == ippicviFilterSobelNegVertBorder_8u16s_C1R((const Ipp8u*)src.data, (int)src.step,
return (ippStsNoErr == ippiFilterSobelNegVertBorder_8u16s_C1R((const Ipp8u*)src.data, (int)src.step,
(Ipp16s*)dst.data, (int)dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
ippBorderRepl, 0, (Ipp8u*)(char*)buffer));
}
if ((dx == 0) && (dy == 1))
{
if (ippStsNoErr != ippicviFilterSobelHorizGetBufferSize_8u16s_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),&bufSize))
if (ippStsNoErr != ippiFilterSobelHorizGetBufferSize_8u16s_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),&bufSize))
return false;
buffer.allocate(bufSize);
return (ippStsNoErr == ippicviFilterSobelHorizBorder_8u16s_C1R((const Ipp8u*)src.data, (int)src.step,
return (ippStsNoErr == ippiFilterSobelHorizBorder_8u16s_C1R((const Ipp8u*)src.data, (int)src.step,
(Ipp16s*)dst.data, (int)dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
ippBorderRepl, 0, (Ipp8u*)(char*)buffer));
}
if ((dx == 2) && (dy == 0))
{
if (ippStsNoErr != ippicviFilterSobelVertSecondGetBufferSize_8u16s_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),&bufSize))
if (ippStsNoErr != ippiFilterSobelVertSecondGetBufferSize_8u16s_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),&bufSize))
return false;
buffer.allocate(bufSize);
return (ippStsNoErr == ippicviFilterSobelVertSecondBorder_8u16s_C1R((const Ipp8u*)src.data, (int)src.step,
return (ippStsNoErr == ippiFilterSobelVertSecondBorder_8u16s_C1R((const Ipp8u*)src.data, (int)src.step,
(Ipp16s*)dst.data, (int)dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
ippBorderRepl, 0, (Ipp8u*)(char*)buffer));
}
if ((dx == 0) && (dy == 2))
{
if (ippStsNoErr != ippicviFilterSobelHorizSecondGetBufferSize_8u16s_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),&bufSize))
if (ippStsNoErr != ippiFilterSobelHorizSecondGetBufferSize_8u16s_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),&bufSize))
return false;
buffer.allocate(bufSize);
return (ippStsNoErr == ippicviFilterSobelHorizSecondBorder_8u16s_C1R((const Ipp8u*)src.data, (int)src.step,
return (ippStsNoErr == ippiFilterSobelHorizSecondBorder_8u16s_C1R((const Ipp8u*)src.data, (int)src.step,
(Ipp16s*)dst.data, (int)dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
ippBorderRepl, 0, (Ipp8u*)(char*)buffer));
}
@ -343,62 +343,62 @@ static bool IPPDeriv(const Mat& src, Mat& dst, int ddepth, int dx, int dy, int k
{
if ((dx == 1) && (dy == 0))
{
if (ippStsNoErr != ippicviFilterSobelNegVertGetBufferSize_32f_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize), &bufSize))
if (ippStsNoErr != ippiFilterSobelNegVertGetBufferSize_32f_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize), &bufSize))
return false;
buffer.allocate(bufSize);
if (ippStsNoErr != ippicviFilterSobelNegVertBorder_32f_C1R((const Ipp32f*)src.data, (int)src.step,
if (ippStsNoErr != ippiFilterSobelNegVertBorder_32f_C1R((const Ipp32f*)src.data, (int)src.step,
(Ipp32f*)dst.data, (int)dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
ippBorderRepl, 0, (Ipp8u*)(char*)buffer))
{
return false;
}
if(scale != 1)
ippicviMulC_32f_C1R((Ipp32f *)dst.data, (int)dst.step, (Ipp32f)scale, (Ipp32f *)dst.data, (int)dst.step, ippiSize(dst.cols*dst.channels(), dst.rows));
ippiMulC_32f_C1R((Ipp32f *)dst.data, (int)dst.step, (Ipp32f)scale, (Ipp32f *)dst.data, (int)dst.step, ippiSize(dst.cols*dst.channels(), dst.rows));
return true;
}
if ((dx == 0) && (dy == 1))
{
if (ippStsNoErr != ippicviFilterSobelHorizGetBufferSize_32f_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),&bufSize))
if (ippStsNoErr != ippiFilterSobelHorizGetBufferSize_32f_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),&bufSize))
return false;
buffer.allocate(bufSize);
if (ippStsNoErr != ippicviFilterSobelHorizBorder_32f_C1R((const Ipp32f*)src.data, (int)src.step,
if (ippStsNoErr != ippiFilterSobelHorizBorder_32f_C1R((const Ipp32f*)src.data, (int)src.step,
(Ipp32f*)dst.data, (int)dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
ippBorderRepl, 0, (Ipp8u*)(char*)buffer))
{
return false;
}
if(scale != 1)
ippicviMulC_32f_C1R((Ipp32f *)dst.data, (int)dst.step, (Ipp32f)scale, (Ipp32f *)dst.data, (int)dst.step, ippiSize(dst.cols*dst.channels(), dst.rows));
ippiMulC_32f_C1R((Ipp32f *)dst.data, (int)dst.step, (Ipp32f)scale, (Ipp32f *)dst.data, (int)dst.step, ippiSize(dst.cols*dst.channels(), dst.rows));
return true;
}
if((dx == 2) && (dy == 0))
{
if (ippStsNoErr != ippicviFilterSobelVertSecondGetBufferSize_32f_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),&bufSize))
if (ippStsNoErr != ippiFilterSobelVertSecondGetBufferSize_32f_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),&bufSize))
return false;
buffer.allocate(bufSize);
if (ippStsNoErr != ippicviFilterSobelVertSecondBorder_32f_C1R((const Ipp32f*)src.data, (int)src.step,
if (ippStsNoErr != ippiFilterSobelVertSecondBorder_32f_C1R((const Ipp32f*)src.data, (int)src.step,
(Ipp32f*)dst.data, (int)dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
ippBorderRepl, 0, (Ipp8u*)(char*)buffer))
{
return false;
}
if(scale != 1)
ippicviMulC_32f_C1R((Ipp32f *)dst.data, (int)dst.step, (Ipp32f)scale, (Ipp32f *)dst.data, (int)dst.step, ippiSize(dst.cols*dst.channels(), dst.rows));
ippiMulC_32f_C1R((Ipp32f *)dst.data, (int)dst.step, (Ipp32f)scale, (Ipp32f *)dst.data, (int)dst.step, ippiSize(dst.cols*dst.channels(), dst.rows));
return true;
}
if((dx == 0) && (dy == 2))
{
if (ippStsNoErr != ippicviFilterSobelHorizSecondGetBufferSize_32f_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),&bufSize))
if (ippStsNoErr != ippiFilterSobelHorizSecondGetBufferSize_32f_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),&bufSize))
return false;
buffer.allocate(bufSize);
if (ippStsNoErr != ippicviFilterSobelHorizSecondBorder_32f_C1R((const Ipp32f*)src.data, (int)src.step,
if (ippStsNoErr != ippiFilterSobelHorizSecondBorder_32f_C1R((const Ipp32f*)src.data, (int)src.step,
(Ipp32f*)dst.data, (int)dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
ippBorderRepl, 0, (Ipp8u*)(char*)buffer))
{
@ -406,7 +406,7 @@ static bool IPPDeriv(const Mat& src, Mat& dst, int ddepth, int dx, int dy, int k
}
if(scale != 1)
ippicviMulC_32f_C1R((Ipp32f *)dst.data, (int)dst.step, (Ipp32f)scale, (Ipp32f *)dst.data, (int)dst.step, ippiSize(dst.cols*dst.channels(), dst.rows));
ippiMulC_32f_C1R((Ipp32f *)dst.data, (int)dst.step, (Ipp32f)scale, (Ipp32f *)dst.data, (int)dst.step, ippiSize(dst.cols*dst.channels(), dst.rows));
return true;
}
}

2
modules/imgproc/src/distransform.cpp
View File

@ -748,7 +748,7 @@ void cv::distanceTransform( InputArray _src, OutputArray _dst, OutputArray _labe
if( maskSize == CV_DIST_MASK_5 )
{
IppiSize roi = { src.cols, src.rows };
if( ippicviDistanceTransform_5x5_8u32f_C1R(
if( ippiDistanceTransform_5x5_8u32f_C1R(
src.ptr<uchar>(), (int)src.step,
dst.ptr<float>(), (int)dst.step, roi, _mask) >= 0 )
return;

12
modules/imgproc/src/filter.cpp
View File

@ -1421,7 +1421,7 @@ struct RowVec_32f
int operator()(const uchar* _src, uchar* _dst, int width, int cn) const
{
#ifdef USE_IPP_SEP_FILTERS
int ret = ippicviOperator(_src, _dst, width, cn);
int ret = ippiOperator(_src, _dst, width, cn);
if (ret > 0)
return ret;
#endif
@ -1461,7 +1461,7 @@ struct RowVec_32f
#ifdef USE_IPP_SEP_FILTERS
private:
mutable int bufsz;
int ippicviOperator(const uchar* _src, uchar* _dst, int width, int cn) const
int ippiOperator(const uchar* _src, uchar* _dst, int width, int cn) const
{
int _ksize = kernel.rows + kernel.cols - 1;
if ((1 != cn && 3 != cn) || width < _ksize*8)
@ -1474,8 +1474,8 @@ private:
IppiSize roisz = { width, 1 };
if( bufsz < 0 )
{
if( (cn == 1 && ippicviFilterRowBorderPipelineGetBufferSize_32f_C1R(roisz, _ksize, &bufsz) < 0) ||
(cn == 3 && ippicviFilterRowBorderPipelineGetBufferSize_32f_C3R(roisz, _ksize, &bufsz) < 0))
if( (cn == 1 && ippiFilterRowBorderPipelineGetBufferSize_32f_C1R(roisz, _ksize, &bufsz) < 0) ||
(cn == 3 && ippiFilterRowBorderPipelineGetBufferSize_32f_C3R(roisz, _ksize, &bufsz) < 0))
return 0;
}
AutoBuffer<uchar> buf(bufsz + 64);
@ -1484,9 +1484,9 @@ private:
float borderValue[] = {0.f, 0.f, 0.f};
// here is the trick. IPP needs border type and extrapolates the row. We did it already.
// So we pass anchor=0 and ignore the right tail of results since they are incorrect there.
if( (cn == 1 && ippicviFilterRowBorderPipeline_32f_C1R(src, step, &dst, roisz, _kx, _ksize, 0,
if( (cn == 1 && ippiFilterRowBorderPipeline_32f_C1R(src, step, &dst, roisz, _kx, _ksize, 0,
ippBorderRepl, borderValue[0], bufptr) < 0) ||
(cn == 3 && ippicviFilterRowBorderPipeline_32f_C3R(src, step, &dst, roisz, _kx, _ksize, 0,
(cn == 3 && ippiFilterRowBorderPipeline_32f_C3R(src, step, &dst, roisz, _kx, _ksize, 0,
ippBorderRepl, borderValue, bufptr) < 0))
return 0;
return width - _ksize + 1;

114
modules/imgproc/src/imgwarp.cpp
View File

@ -50,24 +50,24 @@
#include "opencl_kernels.hpp"
#if defined (HAVE_IPP) && (IPP_VERSION_MAJOR >= 7)
static IppStatus sts = ippicvInit();
static IppStatus sts = ippInit();
#endif
namespace cv
{
#if defined (HAVE_IPP) && (IPP_VERSION_MAJOR*100 + IPP_VERSION_MINOR >= 701)
typedef IppStatus (CV_STDCALL* ippicviResizeFunc)(const void*, int, const void*, int, IppiPoint, IppiSize, IppiBorderType, void*, void*, Ipp8u*);
typedef IppStatus (CV_STDCALL* ippicviResizeGetBufferSize)(void*, IppiSize, Ipp32u, int*);
typedef IppStatus (CV_STDCALL* ippicviResizeGetSrcOffset)(void*, IppiPoint, IppiPoint*);
typedef IppStatus (CV_STDCALL* ippiResizeFunc)(const void*, int, const void*, int, IppiPoint, IppiSize, IppiBorderType, void*, void*, Ipp8u*);
typedef IppStatus (CV_STDCALL* ippiResizeGetBufferSize)(void*, IppiSize, Ipp32u, int*);
typedef IppStatus (CV_STDCALL* ippiResizeGetSrcOffset)(void*, IppiPoint, IppiPoint*);
#endif
#if defined (HAVE_IPP) && (IPP_VERSION_MAJOR >= 7)
typedef IppStatus (CV_STDCALL* ippicviSetFunc)(const void*, void *, int, IppiSize);
typedef IppStatus (CV_STDCALL* ippicviWarpPerspectiveBackFunc)(const void*, IppiSize, int, IppiRect, void *, int, IppiRect, double [3][3], int);
typedef IppStatus (CV_STDCALL* ippicviWarpAffineBackFunc)(const void*, IppiSize, int, IppiRect, void *, int, IppiRect, double [2][3], int);
typedef IppStatus (CV_STDCALL* ippiSetFunc)(const void*, void *, int, IppiSize);
typedef IppStatus (CV_STDCALL* ippiWarpPerspectiveBackFunc)(const void*, IppiSize, int, IppiRect, void *, int, IppiRect, double [3][3], int);
typedef IppStatus (CV_STDCALL* ippiWarpAffineBackFunc)(const void*, IppiSize, int, IppiRect, void *, int, IppiRect, double [2][3], int);
template <int channels, typename Type>
bool IPPSetSimple(cv::Scalar value, void *dataPointer, int step, IppiSize &size, ippicviSetFunc func)
bool IPPSetSimple(cv::Scalar value, void *dataPointer, int step, IppiSize &size, ippiSetFunc func)
{
Type values[channels];
for( int i = 0; i < channels; i++ )
@ -82,11 +82,11 @@ namespace cv
switch( depth )
{
case CV_8U:
return ippicviSet_8u_C1R((Ipp8u)value[0], (Ipp8u *)dataPointer, step, size) >= 0;
return ippiSet_8u_C1R((Ipp8u)value[0], (Ipp8u *)dataPointer, step, size) >= 0;
case CV_16U:
return ippicviSet_16u_C1R((Ipp16u)value[0], (Ipp16u *)dataPointer, step, size) >= 0;
return ippiSet_16u_C1R((Ipp16u)value[0], (Ipp16u *)dataPointer, step, size) >= 0;
case CV_32F:
return ippicviSet_32f_C1R((Ipp32f)value[0], (Ipp32f *)dataPointer, step, size) >= 0;
return ippiSet_32f_C1R((Ipp32f)value[0], (Ipp32f *)dataPointer, step, size) >= 0;
}
}
else
@ -96,11 +96,11 @@ namespace cv
switch( depth )
{
case CV_8U:
return IPPSetSimple<3, Ipp8u>(value, dataPointer, step, size, (ippicviSetFunc)ippicviSet_8u_C3R);
return IPPSetSimple<3, Ipp8u>(value, dataPointer, step, size, (ippiSetFunc)ippiSet_8u_C3R);
case CV_16U:
return IPPSetSimple<3, Ipp16u>(value, dataPointer, step, size, (ippicviSetFunc)ippicviSet_16u_C3R);
return IPPSetSimple<3, Ipp16u>(value, dataPointer, step, size, (ippiSetFunc)ippiSet_16u_C3R);
case CV_32F:
return IPPSetSimple<3, Ipp32f>(value, dataPointer, step, size, (ippicviSetFunc)ippicviSet_32f_C3R);
return IPPSetSimple<3, Ipp32f>(value, dataPointer, step, size, (ippiSetFunc)ippiSet_32f_C3R);
}
}
else if( channels == 4 )
@ -108,11 +108,11 @@ namespace cv
switch( depth )
{
case CV_8U:
return IPPSetSimple<4, Ipp8u>(value, dataPointer, step, size, (ippicviSetFunc)ippicviSet_8u_C4R);
return IPPSetSimple<4, Ipp8u>(value, dataPointer, step, size, (ippiSetFunc)ippiSet_8u_C4R);
case CV_16U:
return IPPSetSimple<4, Ipp16u>(value, dataPointer, step, size, (ippicviSetFunc)ippicviSet_16u_C4R);
return IPPSetSimple<4, Ipp16u>(value, dataPointer, step, size, (ippiSetFunc)ippiSet_16u_C4R);
case CV_32F:
return IPPSetSimple<4, Ipp32f>(value, dataPointer, step, size, (ippicviSetFunc)ippicviSet_32f_C4R);
return IPPSetSimple<4, Ipp32f>(value, dataPointer, step, size, (ippiSetFunc)ippiSet_32f_C4R);
}
}
}
@ -1880,37 +1880,37 @@ static int computeResizeAreaTab( int ssize, int dsize, int cn, double scale, Dec
#define CHECK_IPP_STATUS(STATUS) if( STATUS!=ippStsNoErr ) { *ok = false; return;}
#define SET_IPP_RESIZE_LINEAR_FUNC_PTR(TYPE, CN) \
func = (ippicviResizeFunc)ippicviResizeLinear_##TYPE##_##CN##R; CHECK_IPP_FUNC(func);\
CHECK_IPP_STATUS(ippicviResizeGetSize_##TYPE(srcSize, dstSize, (IppiInterpolationType)mode, 0, &specSize, &initSize));\
func = (ippiResizeFunc)ippiResizeLinear_##TYPE##_##CN##R; CHECK_IPP_FUNC(func);\
CHECK_IPP_STATUS(ippiResizeGetSize_##TYPE(srcSize, dstSize, (IppiInterpolationType)mode, 0, &specSize, &initSize));\
specBuf.allocate(specSize);\
pSpec = (uchar*)specBuf;\
CHECK_IPP_STATUS(ippicviResizeLinearInit_##TYPE(srcSize, dstSize, (IppiResizeSpec_32f*)pSpec));
CHECK_IPP_STATUS(ippiResizeLinearInit_##TYPE(srcSize, dstSize, (IppiResizeSpec_32f*)pSpec));
#define SET_IPP_RESIZE_LINEAR_FUNC_64_PTR(TYPE, CN) \
if (mode==(int)ippCubic) { *ok = false; return;}\
func = (ippicviResizeFunc)ippicviResizeLinear_##TYPE##_##CN##R; CHECK_IPP_FUNC(func);\
CHECK_IPP_STATUS(ippicviResizeGetSize_##TYPE(srcSize, dstSize, (IppiInterpolationType)mode, 0, &specSize, &initSize));\
func = (ippiResizeFunc)ippiResizeLinear_##TYPE##_##CN##R; CHECK_IPP_FUNC(func);\
CHECK_IPP_STATUS(ippiResizeGetSize_##TYPE(srcSize, dstSize, (IppiInterpolationType)mode, 0, &specSize, &initSize));\
specBuf.allocate(specSize);\
pSpec = (uchar*)specBuf;\
CHECK_IPP_STATUS(ippicviResizeLinearInit_##TYPE(srcSize, dstSize, (IppiResizeSpec_64f*)pSpec));\
getBufferSizeFunc = (ippicviResizeGetBufferSize)ippicviResizeGetBufferSize_##TYPE;\
getSrcOffsetFunc = (ippicviResizeGetSrcOffset) ippicviResizeGetBufferSize_##TYPE;
CHECK_IPP_STATUS(ippiResizeLinearInit_##TYPE(srcSize, dstSize, (IppiResizeSpec_64f*)pSpec));\
getBufferSizeFunc = (ippiResizeGetBufferSize)ippiResizeGetBufferSize_##TYPE;\
getSrcOffsetFunc = (ippiResizeGetSrcOffset) ippiResizeGetBufferSize_##TYPE;
#define SET_IPP_RESIZE_CUBIC_FUNC_PTR(TYPE, CN) \
func = (ippicviResizeFunc)ippicviResizeCubic_##TYPE##_##CN##R; CHECK_IPP_FUNC(func);\
CHECK_IPP_STATUS(ippicviResizeGetSize_##TYPE(srcSize, dstSize, (IppiInterpolationType)mode, 0, &specSize, &initSize));\
func = (ippiResizeFunc)ippiResizeCubic_##TYPE##_##CN##R; CHECK_IPP_FUNC(func);\
CHECK_IPP_STATUS(ippiResizeGetSize_##TYPE(srcSize, dstSize, (IppiInterpolationType)mode, 0, &specSize, &initSize));\
specBuf.allocate(specSize);\
pSpec = (uchar*)specBuf;\
AutoBuffer<uchar> buf(initSize);\
uchar* pInit = (uchar*)buf;\
CHECK_IPP_STATUS(ippicviResizeCubicInit_##TYPE(srcSize, dstSize, 0.f, 0.75f, (IppiResizeSpec_32f*)pSpec, pInit));
CHECK_IPP_STATUS(ippiResizeCubicInit_##TYPE(srcSize, dstSize, 0.f, 0.75f, (IppiResizeSpec_32f*)pSpec, pInit));
#define SET_IPP_RESIZE_PTR(TYPE, CN) \
if (mode == (int)ippLinear) { SET_IPP_RESIZE_LINEAR_FUNC_PTR(TYPE, CN);}\
else if (mode == (int)ippCubic) { SET_IPP_RESIZE_CUBIC_FUNC_PTR(TYPE, CN);}\
else { *ok = false; return;}\
getBufferSizeFunc = (ippicviResizeGetBufferSize)ippicviResizeGetBufferSize_##TYPE;\
getSrcOffsetFunc = (ippicviResizeGetSrcOffset)ippicviResizeGetSrcOffset_##TYPE;
getBufferSizeFunc = (ippiResizeGetBufferSize)ippiResizeGetBufferSize_##TYPE;\
getSrcOffsetFunc = (ippiResizeGetSrcOffset)ippiResizeGetSrcOffset_##TYPE;
#if defined (HAVE_IPP) && (IPP_VERSION_MAJOR*100 + IPP_VERSION_MINOR >= 701)
class IPPresizeInvoker :
@ -2021,9 +2021,9 @@ private:
void *pSpec;
AutoBuffer<uchar> specBuf;
int mode;
ippicviResizeFunc func;
ippicviResizeGetBufferSize getBufferSizeFunc;
ippicviResizeGetSrcOffset getSrcOffsetFunc;
ippiResizeFunc func;
ippiResizeGetBufferSize getBufferSizeFunc;
ippiResizeGetSrcOffset getSrcOffsetFunc;
bool *ok;
const IPPresizeInvoker& operator= (const IPPresizeInvoker&);
};
@ -4051,7 +4051,7 @@ class IPPwarpAffineInvoker :
public ParallelLoopBody
{
public:
IPPwarpAffineInvoker(Mat &_src, Mat &_dst, double (&_coeffs)[2][3], int &_interpolation, int &_borderType, const Scalar &_borderValue, ippicviWarpAffineBackFunc _func, bool *_ok) :
IPPwarpAffineInvoker(Mat &_src, Mat &_dst, double (&_coeffs)[2][3], int &_interpolation, int &_borderType, const Scalar &_borderValue, ippiWarpAffineBackFunc _func, bool *_ok) :
ParallelLoopBody(), src(_src), dst(_dst), mode(_interpolation), coeffs(_coeffs), borderType(_borderType), borderValue(_borderValue), func(_func), ok(_ok)
{
*ok = true;
@ -4083,7 +4083,7 @@ private:
int mode;
int borderType;
Scalar borderValue;
ippicviWarpAffineBackFunc func;
ippiWarpAffineBackFunc func;
bool *ok;
const IPPwarpAffineInvoker& operator= (const IPPwarpAffineInvoker&);
};
@ -4246,16 +4246,16 @@ void cv::warpAffine( InputArray _src, OutputArray _dst,
( borderType == cv::BORDER_TRANSPARENT || ( borderType == cv::BORDER_CONSTANT ) ) )
{
int type = src.type();
ippicviWarpAffineBackFunc ippFunc =
type == CV_8UC1 ? (ippicviWarpAffineBackFunc)ippicviWarpAffineBack_8u_C1R :
type == CV_8UC3 ? (ippicviWarpAffineBackFunc)ippicviWarpAffineBack_8u_C3R :
type == CV_8UC4 ? (ippicviWarpAffineBackFunc)ippicviWarpAffineBack_8u_C4R :
type == CV_16UC1 ? (ippicviWarpAffineBackFunc)ippicviWarpAffineBack_16u_C1R :
type == CV_16UC3 ? (ippicviWarpAffineBackFunc)ippicviWarpAffineBack_16u_C3R :
type == CV_16UC4 ? (ippicviWarpAffineBackFunc)ippicviWarpAffineBack_16u_C4R :
type == CV_32FC1 ? (ippicviWarpAffineBackFunc)ippicviWarpAffineBack_32f_C1R :
type == CV_32FC3 ? (ippicviWarpAffineBackFunc)ippicviWarpAffineBack_32f_C3R :
type == CV_32FC4 ? (ippicviWarpAffineBackFunc)ippicviWarpAffineBack_32f_C4R :
ippiWarpAffineBackFunc ippFunc =
type == CV_8UC1 ? (ippiWarpAffineBackFunc)ippiWarpAffineBack_8u_C1R :
type == CV_8UC3 ? (ippiWarpAffineBackFunc)ippiWarpAffineBack_8u_C3R :
type == CV_8UC4 ? (ippiWarpAffineBackFunc)ippiWarpAffineBack_8u_C4R :
type == CV_16UC1 ? (ippiWarpAffineBackFunc)ippiWarpAffineBack_16u_C1R :
type == CV_16UC3 ? (ippiWarpAffineBackFunc)ippiWarpAffineBack_16u_C3R :
type == CV_16UC4 ? (ippiWarpAffineBackFunc)ippiWarpAffineBack_16u_C4R :
type == CV_32FC1 ? (ippiWarpAffineBackFunc)ippiWarpAffineBack_32f_C1R :
type == CV_32FC3 ? (ippiWarpAffineBackFunc)ippiWarpAffineBack_32f_C3R :
type == CV_32FC4 ? (ippiWarpAffineBackFunc)ippiWarpAffineBack_32f_C4R :
0;
int mode =
flags == INTER_LINEAR ? IPPI_INTER_LINEAR :
@ -4394,7 +4394,7 @@ class IPPwarpPerspectiveInvoker :
public ParallelLoopBody
{
public:
IPPwarpPerspectiveInvoker(Mat &_src, Mat &_dst, double (&_coeffs)[3][3], int &_interpolation, int &_borderType, const Scalar &_borderValue, ippicviWarpPerspectiveBackFunc _func, bool *_ok) :
IPPwarpPerspectiveInvoker(Mat &_src, Mat &_dst, double (&_coeffs)[3][3], int &_interpolation, int &_borderType, const Scalar &_borderValue, ippiWarpPerspectiveBackFunc _func, bool *_ok) :
ParallelLoopBody(), src(_src), dst(_dst), mode(_interpolation), coeffs(_coeffs), borderType(_borderType), borderValue(_borderValue), func(_func), ok(_ok)
{
*ok = true;
@ -4427,7 +4427,7 @@ private:
int mode;
int borderType;
const Scalar borderValue;
ippicviWarpPerspectiveBackFunc func;
ippiWarpPerspectiveBackFunc func;
bool *ok;
const IPPwarpPerspectiveInvoker& operator= (const IPPwarpPerspectiveInvoker&);
};
@ -4476,16 +4476,16 @@ void cv::warpPerspective( InputArray _src, OutputArray _dst, InputArray _M0,
( borderType == cv::BORDER_TRANSPARENT || borderType == cv::BORDER_CONSTANT ) )
{
int type = src.type();
ippicviWarpPerspectiveBackFunc ippFunc =
type == CV_8UC1 ? (ippicviWarpPerspectiveBackFunc)ippicviWarpPerspectiveBack_8u_C1R :
type == CV_8UC3 ? (ippicviWarpPerspectiveBackFunc)ippicviWarpPerspectiveBack_8u_C3R :
type == CV_8UC4 ? (ippicviWarpPerspectiveBackFunc)ippicviWarpPerspectiveBack_8u_C4R :
type == CV_16UC1 ? (ippicviWarpPerspectiveBackFunc)ippicviWarpPerspectiveBack_16u_C1R :
type == CV_16UC3 ? (ippicviWarpPerspectiveBackFunc)ippicviWarpPerspectiveBack_16u_C3R :
type == CV_16UC4 ? (ippicviWarpPerspectiveBackFunc)ippicviWarpPerspectiveBack_16u_C4R :
type == CV_32FC1 ? (ippicviWarpPerspectiveBackFunc)ippicviWarpPerspectiveBack_32f_C1R :
type == CV_32FC3 ? (ippicviWarpPerspectiveBackFunc)ippicviWarpPerspectiveBack_32f_C3R :
type == CV_32FC4 ? (ippicviWarpPerspectiveBackFunc)ippicviWarpPerspectiveBack_32f_C4R :
ippiWarpPerspectiveBackFunc ippFunc =
type == CV_8UC1 ? (ippiWarpPerspectiveBackFunc)ippiWarpPerspectiveBack_8u_C1R :
type == CV_8UC3 ? (ippiWarpPerspectiveBackFunc)ippiWarpPerspectiveBack_8u_C3R :
type == CV_8UC4 ? (ippiWarpPerspectiveBackFunc)ippiWarpPerspectiveBack_8u_C4R :
type == CV_16UC1 ? (ippiWarpPerspectiveBackFunc)ippiWarpPerspectiveBack_16u_C1R :
type == CV_16UC3 ? (ippiWarpPerspectiveBackFunc)ippiWarpPerspectiveBack_16u_C3R :
type == CV_16UC4 ? (ippiWarpPerspectiveBackFunc)ippiWarpPerspectiveBack_16u_C4R :
type == CV_32FC1 ? (ippiWarpPerspectiveBackFunc)ippiWarpPerspectiveBack_32f_C1R :
type == CV_32FC3 ? (ippiWarpPerspectiveBackFunc)ippiWarpPerspectiveBack_32f_C3R :
type == CV_32FC4 ? (ippiWarpPerspectiveBackFunc)ippiWarpPerspectiveBack_32f_C4R :
0;
int mode =
flags == INTER_LINEAR ? IPPI_INTER_LINEAR :

40
modules/imgproc/src/morph.cpp
View File

@ -1161,53 +1161,53 @@ static bool IPPMorphReplicate(int op, const Mat &src, Mat &dst, const Mat &kerne
case cvtype: \
{\
int specSize = 0, bufferSize = 0;\
if (ippStsNoErr != ippicviMorphologyBorderGetSize_##flavor(roiSize.width, kernelSize, &specSize, &bufferSize))\
if (ippStsNoErr != ippiMorphologyBorderGetSize_##flavor(roiSize.width, kernelSize, &specSize, &bufferSize))\
return false;\
IppiMorphState *pSpec = (IppiMorphState*)ippicvMalloc(specSize);\
Ipp8u *pBuffer = (Ipp8u*)ippicvMalloc(bufferSize);\
if (ippStsNoErr != ippicviMorphologyBorderInit_##flavor(roiSize.width, kernel.data, kernelSize, pSpec, pBuffer))\
IppiMorphState *pSpec = (IppiMorphState*)ippMalloc(specSize);\
Ipp8u *pBuffer = (Ipp8u*)ippMalloc(bufferSize);\
if (ippStsNoErr != ippiMorphologyBorderInit_##flavor(roiSize.width, kernel.data, kernelSize, pSpec, pBuffer))\
{\
ippicvFree(pBuffer);\
ippicvFree(pSpec);\
ippFree(pBuffer);\
ippFree(pSpec);\
return false;\
}\
bool ok = false;\
if (op == MORPH_ERODE)\
ok = (ippStsNoErr == ippicviErodeBorder_##flavor((Ipp##data_type *)_src->data, (int)_src->step[0], (Ipp##data_type *)dst.data, (int)dst.step[0],\
ok = (ippStsNoErr == ippiErodeBorder_##flavor((Ipp##data_type *)_src->data, (int)_src->step[0], (Ipp##data_type *)dst.data, (int)dst.step[0],\
roiSize, ippBorderRepl, 0, pSpec, pBuffer));\
else\
ok = (ippStsNoErr == ippicviDilateBorder_##flavor((Ipp##data_type *)_src->data, (int)_src->step[0], (Ipp##data_type *)dst.data, (int)dst.step[0],\
ok = (ippStsNoErr == ippiDilateBorder_##flavor((Ipp##data_type *)_src->data, (int)_src->step[0], (Ipp##data_type *)dst.data, (int)dst.step[0],\
roiSize, ippBorderRepl, 0, pSpec, pBuffer));\
ippicvFree(pBuffer);\
ippicvFree(pSpec);\
ippFree(pBuffer);\
ippFree(pSpec);\
return ok;\
}\
break;
#else
IppiPoint point = {anchor.x, anchor.y};
// this is case, which can be used with the anchor not in center of the kernel, but
// ippicviMorphologyBorderGetSize_, ippicviErodeBorderReplicate_ and ippicviDilateBorderReplicate_ are deprecate.
// ippiMorphologyBorderGetSize_, ippiErodeBorderReplicate_ and ippiDilateBorderReplicate_ are deprecate.
#define IPP_MORPH_CASE(cvtype, flavor, data_type) \
case cvtype: \
{\
int specSize = 0;\
int bufferSize = 0;\
if (ippStsNoErr != ippicviMorphologyBorderGetSize_##flavor( roiSize.width, kernelSize, &specSize, &bufferSize))\
if (ippStsNoErr != ippiMorphologyBorderGetSize_##flavor( roiSize.width, kernelSize, &specSize, &bufferSize))\
return false;\
bool ok = false;\
IppiMorphState* pState = (IppiMorphState*)ippicvMalloc(specSize);;\
if (ippicviMorphologyInit_##flavor(roiSize.width, kernel.data, kernelSize, point, pState) >= 0)\
IppiMorphState* pState = (IppiMorphState*)ippMalloc(specSize);;\
if (ippiMorphologyInit_##flavor(roiSize.width, kernel.data, kernelSize, point, pState) >= 0)\
{\
if (op == MORPH_ERODE)\
ok = ippicviErodeBorderReplicate_##flavor((Ipp##data_type *)_src->data, (int)_src->step[0],\
ok = ippiErodeBorderReplicate_##flavor((Ipp##data_type *)_src->data, (int)_src->step[0],\
(Ipp##data_type *)dst.data, (int)dst.step[0],\
roiSize, ippBorderRepl, pState ) >= 0;\
else\
ok = ippicviDilateBorderReplicate_##flavor((Ipp##data_type *)_src->data, (int)_src->step[0],\
ok = ippiDilateBorderReplicate_##flavor((Ipp##data_type *)_src->data, (int)_src->step[0],\
(Ipp##data_type *)dst.data, (int)dst.step[0],\
roiSize, ippBorderRepl, pState ) >= 0;\
}\
ippicvFree(pState);\
ippFree(pState);\
return ok;\
}\
break;
@ -1234,13 +1234,13 @@ static bool IPPMorphReplicate(int op, const Mat &src, Mat &dst, const Mat &kerne
case cvtype: \
{\
int bufSize = 0;\
if (ippStsNoErr != ippicviFilterMinGetBufferSize_##flavor(src.cols, kernelSize, &bufSize))\
if (ippStsNoErr != ippiFilterMinGetBufferSize_##flavor(src.cols, kernelSize, &bufSize))\
return false;\
AutoBuffer<uchar> buf(bufSize + 64);\
uchar* buffer = alignPtr((uchar*)buf, 32);\
if (op == MORPH_ERODE)\
return (ippStsNoErr == ippicviFilterMinBorderReplicate_##flavor((Ipp##data_type *)_src->data, (int)_src->step[0], (Ipp##data_type *)dst.data, (int)dst.step[0], roiSize, kernelSize, point, buffer));\
return (ippStsNoErr == ippicviFilterMaxBorderReplicate_##flavor((Ipp##data_type *)_src->data, (int)_src->step[0], (Ipp##data_type *)dst.data, (int)dst.step[0], roiSize, kernelSize, point, buffer));\
return (ippStsNoErr == ippiFilterMinBorderReplicate_##flavor((Ipp##data_type *)_src->data, (int)_src->step[0], (Ipp##data_type *)dst.data, (int)dst.step[0], roiSize, kernelSize, point, buffer));\
return (ippStsNoErr == ippiFilterMaxBorderReplicate_##flavor((Ipp##data_type *)_src->data, (int)_src->step[0], (Ipp##data_type *)dst.data, (int)dst.step[0], roiSize, kernelSize, point, buffer));\
}\
break;

10
modules/imgproc/src/samplers.cpp
View File

@ -375,7 +375,7 @@ void cv::getRectSubPix( InputArray _image, Size patchSize, Point2f center,
Mat patch = _patch.getMat();
#if defined (HAVE_IPP) && (IPP_VERSION_MAJOR >= 7)
typedef IppStatus (CV_STDCALL *ippicviGetRectSubPixFunc)( const void* src, int src_step,
typedef IppStatus (CV_STDCALL *ippiGetRectSubPixFunc)( const void* src, int src_step,
IppiSize src_size, void* dst,
int dst_step, IppiSize win_size,
IppiPoint_32f center,
@ -385,10 +385,10 @@ void cv::getRectSubPix( InputArray _image, Size patchSize, Point2f center,
IppiPoint_32f icenter = {center.x, center.y};
IppiSize src_size={image.cols, image.rows}, win_size={patch.cols, patch.rows};
int srctype = image.type();
ippicviGetRectSubPixFunc ippfunc =
srctype == CV_8UC1 && ddepth == CV_8U ? (ippicviGetRectSubPixFunc)ippicviCopySubpixIntersect_8u_C1R :
srctype == CV_8UC1 && ddepth == CV_32F ? (ippicviGetRectSubPixFunc)ippicviCopySubpixIntersect_8u32f_C1R :
srctype == CV_32FC1 && ddepth == CV_32F ? (ippicviGetRectSubPixFunc)ippicviCopySubpixIntersect_32f_C1R : 0;
ippiGetRectSubPixFunc ippfunc =
srctype == CV_8UC1 && ddepth == CV_8U ? (ippiGetRectSubPixFunc)ippiCopySubpixIntersect_8u_C1R :
srctype == CV_8UC1 && ddepth == CV_32F ? (ippiGetRectSubPixFunc)ippiCopySubpixIntersect_8u32f_C1R :
srctype == CV_32FC1 && ddepth == CV_32F ? (ippiGetRectSubPixFunc)ippiCopySubpixIntersect_32f_C1R : 0;
if( ippfunc && ippfunc(image.data, (int)image.step, src_size, patch.data,
(int)patch.step, win_size, icenter, &minpt, &maxpt) >= 0 )

20
modules/imgproc/src/smooth.cpp
View File

@ -1115,17 +1115,17 @@ void cv::GaussianBlur( InputArray _src, OutputArray _dst, Size ksize,
Mat src = _src.getMat(), dst = _dst.getMat();
IppiSize roi = { src.cols, src.rows };
int specSize = 0, bufferSize = 0;
if (ippStsNoErr == ippicviFilterGaussianGetBufferSize(roi, (Ipp32u)ksize.width, ipp32f, 1, &specSize, &bufferSize))
if (ippStsNoErr == ippiFilterGaussianGetBufferSize(roi, (Ipp32u)ksize.width, ipp32f, 1, &specSize, &bufferSize))
{
IppFilterGaussianSpec *pSpec = (IppFilterGaussianSpec*)ippicvMalloc(specSize);
Ipp8u *pBuffer = (Ipp8u*)ippicvMalloc(bufferSize);
if (ippStsNoErr == ippicviFilterGaussianInit(roi, (Ipp32u)ksize.width, (Ipp32f)sigma1, (IppiBorderType)borderType, ipp32f, 1, pSpec, pBuffer))
IppFilterGaussianSpec *pSpec = (IppFilterGaussianSpec*)ippMalloc(specSize);
Ipp8u *pBuffer = (Ipp8u*)ippMalloc(bufferSize);
if (ippStsNoErr == ippiFilterGaussianInit(roi, (Ipp32u)ksize.width, (Ipp32f)sigma1, (IppiBorderType)borderType, ipp32f, 1, pSpec, pBuffer))
{
IppStatus sts = ippicviFilterGaussianBorder_32f_C1R( (const Ipp32f *)src.data, (int)src.step,
IppStatus sts = ippiFilterGaussianBorder_32f_C1R( (const Ipp32f *)src.data, (int)src.step,
(Ipp32f *)dst.data, (int)dst.step,
roi, 0.0, pSpec, pBuffer);
ippicvFree(pBuffer);
ippicvFree(pSpec);
ippFree(pBuffer);
ippFree(pSpec);
if (ippStsNoErr == sts)
return;
}
@ -2187,19 +2187,19 @@ public:
IppiSize kernel = {d, d};
IppiSize roi={dst.cols, range.end - range.start};
int bufsize=0;
if (ippStsNoErr != ippicviFilterBilateralGetBufSize_8u_C1R( ippiFilterBilateralGauss, roi, kernel, &bufsize))
if (ippStsNoErr != ippiFilterBilateralGetBufSize_8u_C1R( ippiFilterBilateralGauss, roi, kernel, &bufsize))
{
*ok = false;
return;
}
AutoBuffer<uchar> buf(bufsize);
IppiFilterBilateralSpec *pSpec = (IppiFilterBilateralSpec *)alignPtr(&buf[0], 32);
if (ippStsNoErr != ippicviFilterBilateralInit_8u_C1R( ippiFilterBilateralGauss, kernel, (Ipp32f)sigma_color, (Ipp32f)sigma_space, 1, pSpec ))
if (ippStsNoErr != ippiFilterBilateralInit_8u_C1R( ippiFilterBilateralGauss, kernel, (Ipp32f)sigma_color, (Ipp32f)sigma_space, 1, pSpec ))
{
*ok = false;
return;
}
if (ippStsNoErr != ippicviFilterBilateral_8u_C1R( src.ptr<uchar>(range.start) + radius * ((int)src.step[0] + 1), (int)src.step[0], dst.ptr<uchar>(range.start), (int)dst.step[0], roi, kernel, pSpec ))
if (ippStsNoErr != ippiFilterBilateral_8u_C1R( src.ptr<uchar>(range.start) + radius * ((int)src.step[0] + 1), (int)src.step[0], dst.ptr<uchar>(range.start), (int)dst.step[0], roi, kernel, pSpec ))
*ok = false;
}
private:

10
modules/imgproc/src/sumpixels.cpp
View File

@ -44,7 +44,7 @@
#include "opencl_kernels.hpp"
#if defined (HAVE_IPP) && (IPP_VERSION_MAJOR >= 7)
static IppStatus sts = ippicvInit();
static IppStatus sts = ippInit();
#endif
namespace cv
@ -371,22 +371,22 @@ void cv::integral( InputArray _src, OutputArray _sum, OutputArray _sqsum, Output
{
if( _sqsum.needed() )
{
status = ippicviSqrIntegral_8u32f64f_C1R( (const Ipp8u*)src.data, (int)src.step, (Ipp32f*)sum.data, (int)sum.step, (Ipp64f*)sqsum.data, (int)sqsum.step, srcRoiSize, 0, 0 );
status = ippiSqrIntegral_8u32f64f_C1R( (const Ipp8u*)src.data, (int)src.step, (Ipp32f*)sum.data, (int)sum.step, (Ipp64f*)sqsum.data, (int)sqsum.step, srcRoiSize, 0, 0 );
}
else
{
status = ippicviIntegral_8u32f_C1R( (const Ipp8u*)src.data, (int)src.step, (Ipp32f*)sum.data, (int)sum.step, srcRoiSize, 0 );
status = ippiIntegral_8u32f_C1R( (const Ipp8u*)src.data, (int)src.step, (Ipp32f*)sum.data, (int)sum.step, srcRoiSize, 0 );
}
}
else if( sdepth == CV_32S )
{
if( _sqsum.needed() )
{
status = ippicviSqrIntegral_8u32s64f_C1R( (const Ipp8u*)src.data, (int)src.step, (Ipp32s*)sum.data, (int)sum.step, (Ipp64f*)sqsum.data, (int)sqsum.step, srcRoiSize, 0, 0 );
status = ippiSqrIntegral_8u32s64f_C1R( (const Ipp8u*)src.data, (int)src.step, (Ipp32s*)sum.data, (int)sum.step, (Ipp64f*)sqsum.data, (int)sqsum.step, srcRoiSize, 0, 0 );
}
else
{
status = ippicviIntegral_8u32s_C1R( (const Ipp8u*)src.data, (int)src.step, (Ipp32s*)sum.data, (int)sum.step, srcRoiSize, 0 );
status = ippiIntegral_8u32s_C1R( (const Ipp8u*)src.data, (int)src.step, (Ipp32s*)sum.data, (int)sum.step, srcRoiSize, 0 );
}
}
if (ippStsNoErr == status)

6
modules/objdetect/src/haar.cpp
View File

@ -165,7 +165,7 @@ icvReleaseHidHaarClassifierCascade( CvHidHaarClassifierCascade** _cascade )
for( i = 0; i < cascade->count; i++ )
{
if( cascade->ipp_stages[i] )
ippicviHaarClassifierFree_32f( (IppiHaarClassifier_32f*)cascade->ipp_stages[i] );
ippiHaarClassifierFree_32f( (IppiHaarClassifier_32f*)cascade->ipp_stages[i] );
}
}
cvFree( &cascade->ipp_stages );
@ -1318,7 +1318,7 @@ public:
if( cascade->hid_cascade->ipp_stages )
{
IppiRect iequRect = {equRect.x, equRect.y, equRect.width, equRect.height};
ippicviRectStdDev_32f_C1R(sum1.ptr<float>(y1), (int)sum1.step,
ippiRectStdDev_32f_C1R(sum1.ptr<float>(y1), (int)sum1.step,
sqsum1.ptr<double>(y1), (int)sqsum1.step,
norm1->ptr<float>(y1), (int)norm1->step,
ippiSize(ssz.width, ssz.height), iequRect );
@ -1340,7 +1340,7 @@ public:
for( int j = 0; j < cascade->count; j++ )
{
if( ippicviApplyHaarClassifier_32f_C1R(
if( ippiApplyHaarClassifier_32f_C1R(
sum1.ptr<float>(y1), (int)sum1.step,
norm1->ptr<float>(y1), (int)norm1->step,
mask1->ptr<uchar>(y1), (int)mask1->step,