From: Maksim Shabunin Date: Tue, 21 Nov 2017 13:49:58 +0000 (+0300) Subject: static init X-Git-Tag: accepted/tizen/6.0/unified/20201030.111113~389^2~5 X-Git-Url: http://review.tizen.org/git/?a=commitdiff_plain;h=e75056a084b88ba6d8fb19f0bd4354c0c3b8b399;p=platform%2Fupstream%2Fopencv.git static init --- diff --git a/modules/core/include/opencv2/core/private.hpp b/modules/core/include/opencv2/core/private.hpp index 247cf99..eb1b307 100644 --- a/modules/core/include/opencv2/core/private.hpp +++ b/modules/core/include/opencv2/core/private.hpp @@ -159,6 +159,10 @@ static inline cv::Size cvGetMatSize( const CvMat* mat ) namespace cv { CV_EXPORTS void scalarToRawData(const cv::Scalar& s, void* buf, int type, int unroll_to = 0); + +//! Allocate all memory buffers which will not be freed, ease filtering memcheck issues +template +CV_EXPORTS T* allocSingleton(size_t count) { return new T[count]; } } // property implementation macros diff --git a/modules/imgproc/src/color.cpp b/modules/imgproc/src/color.cpp index c3f82af..a5eda83 100644 --- a/modules/imgproc/src/color.cpp +++ b/modules/imgproc/src/color.cpp @@ -140,23 +140,24 @@ const int CB2GI = -5636; const int CR2GI = -11698; const int CR2RI = 22987; -static void splineBuild(const softfloat* f, int n, float* tab) +static const float * splineBuild(const softfloat* f, size_t n) { + float* tab = cv::allocSingleton(n * 4); const softfloat f2(2), f3(3), f4(4); softfloat cn(0); softfloat* sftab = reinterpret_cast(tab); - int i; tab[0] = tab[1] = 0.0f; - for(i = 1; i <= n-1; i++) + for(size_t i = 1; i < n; i++) { softfloat t = (f[i+1] - f[i]*f2 + f[i-1])*f3; softfloat l = softfloat::one()/(f4 - sftab[(i-1)*4]); sftab[i*4] = l; sftab[i*4+1] = (t - sftab[(i-1)*4+1])*l; } - for(i = n-1; i >= 0; i--) + for(size_t j = 0; j < n; ++j) { + size_t i = n - j - 1; softfloat c = sftab[i*4+1] - sftab[i*4]*cn; softfloat b = f[i+1] - f[i] - (cn + c*f2)/f3; softfloat d = (cn - c)/f3; @@ -164,8 +165,10 @@ static void splineBuild(const softfloat* f, int n, float* tab) sftab[i*4+2] = c; sftab[i*4+3] = d; cn = c; } + return tab; } + // interpolates value of a function at x, 0 <= x <= n using a cubic spline. template static inline _Tp splineInterpolate(_Tp x, const _Tp* tab, int n) { @@ -5820,11 +5823,11 @@ static const softdouble D65[] = {softdouble::fromRaw(0x3fee6a22b3892ee8), softdouble::fromRaw(0x3ff16b8950763a19)}; enum { LAB_CBRT_TAB_SIZE = 1024, GAMMA_TAB_SIZE = 1024 }; -static float *LabCbrtTab; +static const float *LabCbrtTab = 0; static const float LabCbrtTabScale = softfloat(LAB_CBRT_TAB_SIZE*2)/softfloat(3); -static float *sRGBGammaTab; -static float *sRGBInvGammaTab; +static const float *sRGBGammaTab = 0; +static const float *sRGBInvGammaTab = 0; static const float GammaTabScale((int)GAMMA_TAB_SIZE); static ushort sRGBGammaTab_b[256], linearGammaTab_b[256]; @@ -5911,8 +5914,7 @@ static void initLabTabs() softfloat x = scale*softfloat(i); f[i] = x < lthresh ? mulAdd(x, lscale, lbias) : cbrt(x); } - LabCbrtTab = new float[LAB_CBRT_TAB_SIZE*4]; - splineBuild(f, LAB_CBRT_TAB_SIZE, LabCbrtTab); + LabCbrtTab = splineBuild(f, LAB_CBRT_TAB_SIZE); scale = softfloat::one()/softfloat(GammaTabScale); for(i = 0; i <= GAMMA_TAB_SIZE; i++) @@ -5922,10 +5924,8 @@ static void initLabTabs() ig[i] = applyInvGamma(x); } - sRGBGammaTab = new float[GAMMA_TAB_SIZE*4]; - sRGBInvGammaTab = new float[GAMMA_TAB_SIZE*4]; - splineBuild(g, GAMMA_TAB_SIZE, sRGBGammaTab); - splineBuild(ig, GAMMA_TAB_SIZE, sRGBInvGammaTab); + sRGBGammaTab = splineBuild(g, GAMMA_TAB_SIZE); + sRGBInvGammaTab = splineBuild(ig, GAMMA_TAB_SIZE); static const softfloat intScale(255*(1 << gamma_shift)); for(i = 0; i < 256; i++)