* installing *source* package ‘limSolve’ ... ** package ‘limSolve’ successfully unpacked and MD5 sums checked ** using staged installation ** libs using C compiler: ‘Apple clang version 14.0.3 (clang-1403.0.22.14.1)’ using Fortran compiler: ‘GNU Fortran (GCC) 12.2.0’ using SDK: ‘MacOSX11.3.sdk’ /opt/gfortran/bin/gfortran -arch x86_64 -fPIC -Wall -g -O2 -c colrow.f -o colrow.o /opt/gfortran/bin/gfortran -arch x86_64 -fPIC -Wall -g -O2 -c inverse.f -o inverse.o clang -arch x86_64 -I"/Library/Frameworks/R.framework/Resources/include" -DNDEBUG -I/opt/R/x86_64/include -fPIC -falign-functions=64 -Wall -g -O2 -c limSolveMethods.c -o limSolveMethods.o /opt/gfortran/bin/gfortran -arch x86_64 -fPIC -Wall -g -O2 -c solve.f -o solve.o solve.f:3851:72: 3851 | Y = DLAMC3( Y*BETA, ZERO ) | ^ Warning: ‘y’ may be used uninitialized [-Wmaybe-uninitialized] solve.f:3755:40: 3755 | DOUBLE PRECISION OLDY, RECBAS, Y, Z | ^ note: ‘y’ was declared here solve.f:3065:59: 3065 | DOUBLE PRECISION BASE, EMAX, EMIN, EPS, PREC, RMACH, RMAX, RMIN, | ^ Warning: ‘rmach’ may be used uninitialized [-Wmaybe-uninitialized] inverse.f:1050:72: 1050 | SUM = ONE + SUM * (XMAX / DX(I))**2 | ^ Warning: ‘xmax’ may be used uninitialized [-Wmaybe-uninitialized] inverse.f:980:61: 980 | DOUBLE PRECISION DX(*), CUTLO, CUTHI, HITEST, SUM, XMAX, ZERO, & | ^ note: ‘xmax’ was declared here inverse.f:4458:72: 4458 | DH22=DH22*GAM | ^ Warning: ‘dh22’ may be used uninitialized [-Wmaybe-uninitialized] inverse.f:4310:48: 4310 | & DQ2,DU,DY1,ZERO,GAMSQ,DD1,DFLAG,DH12,DH22,DP1,DQ1, & | ^ note: ‘dh22’ was declared here inverse.f:4457:72: 4457 | DH21=DH21*GAM | ^ Warning: ‘dh21’ may be used uninitialized [-Wmaybe-uninitialized] inverse.f:4309:51: 4309 | DOUBLE PRECISION GAM,ONE,RGAMSQ,DD2,DH11,DH21,DPARAM,DP2, & | ^ note: ‘dh21’ was declared here inverse.f:4432:72: 4432 | DH12=DH12*GAM | ^ Warning: ‘dh12’ may be used uninitialized [-Wmaybe-uninitialized] inverse.f:4310:43: 4310 | & DQ2,DU,DY1,ZERO,GAMSQ,DD1,DFLAG,DH12,DH22,DP1,DQ1, & | ^ note: ‘dh12’ was declared here inverse.f:4431:72: 4431 | DH11=DH11*GAM | ^ Warning: ‘dh11’ may be used uninitialized [-Wmaybe-uninitialized] inverse.f:4309:46: 4309 | DOUBLE PRECISION GAM,ONE,RGAMSQ,DD2,DH11,DH21,DPARAM,DP2, & | ^ note: ‘dh11’ was declared here inverse.f:1569:72: 1569 | PREC (Idum) = D1MACH | ^ Warning: ‘__result_d1mach’ may be used uninitialized [-Wmaybe-uninitialized] inverse.f:1521:38: 1521 | DOUBLE PRECISION FUNCTION D1MACH (IDUM) | ^ note: ‘__result_d1mach’ was declared here inverse.f:2191:72: 2191 | IF (I.NE.IMAX) CALL xDSWAP (NP1, W(I,1), MDW, W(IMAX,1), MDW) | ^ Warning: ‘imax’ may be used uninitialized [-Wmaybe-uninitialized] inverse.f:2002:21: 2002 | INTEGER I, IMAX, J, JP1, K, KEY, KRANKE, LAST, LCHK, LINK, M, & | ^ note: ‘imax’ was declared here clang -arch x86_64 -dynamiclib -Wl,-headerpad_max_install_names -undefined dynamic_lookup -L/Library/Frameworks/R.framework/Resources/lib -L/opt/R/x86_64/lib -o limSolve.so colrow.o inverse.o limSolveMethods.o solve.o -L/Library/Frameworks/R.framework/Resources/lib -lRblas -L/opt/gfortran/lib/gcc/x86_64-apple-darwin20.0/12.2.0 -L/opt/gfortran/lib -lgfortran -lquadmath -L/opt/gfortran/lib/gcc/x86_64-apple-darwin20.0/12.2.0 -L/opt/gfortran/lib -lgfortran -lquadmath -F/Library/Frameworks/R.framework/.. -framework R -Wl,-framework -Wl,CoreFoundation ld: warning: could not create compact unwind for _dgbtrf_: stack subq instruction is too different from dwarf stack size installing to /Volumes/Builds/packages/big-sur-x86_64/results/4.4/limSolve.Rcheck/00LOCK-limSolve/00new/limSolve/libs ** generating debug symbols (dSYM) ** R ** data *** moving datasets to lazyload DB ** demo ** inst ** byte-compile and prepare package for lazy loading ** help *** installing help indices ** building package indices ** installing vignettes ** testing if installed package can be loaded from temporary location ** checking absolute paths in shared objects and dynamic libraries ** testing if installed package can be loaded from final location ** testing if installed package keeps a record of temporary installation path * DONE (limSolve)