/dports/lang/gcc6-aux/gcc-6-20180516/gcc/testsuite/gfortran.fortran-torture/compile/ |
H A D | pr26806.f90 | 2 integer, private, save :: Ng1=0, Ng2=0 variable 7 allocate( t(0:2*Ng1-1,0:2*Ng2-1) ) 8 t(0:Ng1,0:Ng2-1) = G(:,0:Ng2-1) ! Fill one quadrant (one extra row) 9 t(0:Ng1,Ng2:2*Ng2-1) = G(:,Ng2:1:-1) ! This quadrant using symmetry
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/dports/lang/gcc12-devel/gcc-12-20211205/gcc/testsuite/gfortran.fortran-torture/compile/ |
H A D | pr26806.f90 | 2 integer, private, save :: Ng1=0, Ng2=0 variable 7 allocate( t(0:2*Ng1-1,0:2*Ng2-1) ) 8 t(0:Ng1,0:Ng2-1) = G(:,0:Ng2-1) ! Fill one quadrant (one extra row) 9 t(0:Ng1,Ng2:2*Ng2-1) = G(:,Ng2:1:-1) ! This quadrant using symmetry
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/dports/lang/gcc8/gcc-8.5.0/gcc/testsuite/gfortran.fortran-torture/compile/ |
H A D | pr26806.f90 | 2 integer, private, save :: Ng1=0, Ng2=0 variable 7 allocate( t(0:2*Ng1-1,0:2*Ng2-1) ) 8 t(0:Ng1,0:Ng2-1) = G(:,0:Ng2-1) ! Fill one quadrant (one extra row) 9 t(0:Ng1,Ng2:2*Ng2-1) = G(:,Ng2:1:-1) ! This quadrant using symmetry
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/dports/lang/gcc10/gcc-10.3.0/gcc/testsuite/gfortran.fortran-torture/compile/ |
H A D | pr26806.f90 | 2 integer, private, save :: Ng1=0, Ng2=0 variable 7 allocate( t(0:2*Ng1-1,0:2*Ng2-1) ) 8 t(0:Ng1,0:Ng2-1) = G(:,0:Ng2-1) ! Fill one quadrant (one extra row) 9 t(0:Ng1,Ng2:2*Ng2-1) = G(:,Ng2:1:-1) ! This quadrant using symmetry
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/dports/devel/riscv64-none-elf-gcc/gcc-8.4.0/gcc/testsuite/gfortran.fortran-torture/compile/ |
H A D | pr26806.f90 | 2 integer, private, save :: Ng1=0, Ng2=0 variable 7 allocate( t(0:2*Ng1-1,0:2*Ng2-1) ) 8 t(0:Ng1,0:Ng2-1) = G(:,0:Ng2-1) ! Fill one quadrant (one extra row) 9 t(0:Ng1,Ng2:2*Ng2-1) = G(:,Ng2:1:-1) ! This quadrant using symmetry
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/dports/lang/gcc11-devel/gcc-11-20211009/gcc/testsuite/gfortran.fortran-torture/compile/ |
H A D | pr26806.f90 | 2 integer, private, save :: Ng1=0, Ng2=0 variable 7 allocate( t(0:2*Ng1-1,0:2*Ng2-1) ) 8 t(0:Ng1,0:Ng2-1) = G(:,0:Ng2-1) ! Fill one quadrant (one extra row) 9 t(0:Ng1,Ng2:2*Ng2-1) = G(:,Ng2:1:-1) ! This quadrant using symmetry
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/dports/devel/arm-none-eabi-gcc/gcc-8.4.0/gcc/testsuite/gfortran.fortran-torture/compile/ |
H A D | pr26806.f90 | 2 integer, private, save :: Ng1=0, Ng2=0 variable 7 allocate( t(0:2*Ng1-1,0:2*Ng2-1) ) 8 t(0:Ng1,0:Ng2-1) = G(:,0:Ng2-1) ! Fill one quadrant (one extra row) 9 t(0:Ng1,Ng2:2*Ng2-1) = G(:,Ng2:1:-1) ! This quadrant using symmetry
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/dports/lang/gnat_util/gcc-6-20180516/gcc/testsuite/gfortran.fortran-torture/compile/ |
H A D | pr26806.f90 | 2 integer, private, save :: Ng1=0, Ng2=0 variable 7 allocate( t(0:2*Ng1-1,0:2*Ng2-1) ) 8 t(0:Ng1,0:Ng2-1) = G(:,0:Ng2-1) ! Fill one quadrant (one extra row) 9 t(0:Ng1,Ng2:2*Ng2-1) = G(:,Ng2:1:-1) ! This quadrant using symmetry
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/dports/devel/riscv32-unknown-elf-gcc/gcc-8.4.0/gcc/testsuite/gfortran.fortran-torture/compile/ |
H A D | pr26806.f90 | 2 integer, private, save :: Ng1=0, Ng2=0 variable 7 allocate( t(0:2*Ng1-1,0:2*Ng2-1) ) 8 t(0:Ng1,0:Ng2-1) = G(:,0:Ng2-1) ! Fill one quadrant (one extra row) 9 t(0:Ng1,Ng2:2*Ng2-1) = G(:,Ng2:1:-1) ! This quadrant using symmetry
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/dports/lang/gcc9-devel/gcc-9-20211007/gcc/testsuite/gfortran.fortran-torture/compile/ |
H A D | pr26806.f90 | 2 integer, private, save :: Ng1=0, Ng2=0 variable 7 allocate( t(0:2*Ng1-1,0:2*Ng2-1) ) 8 t(0:Ng1,0:Ng2-1) = G(:,0:Ng2-1) ! Fill one quadrant (one extra row) 9 t(0:Ng1,Ng2:2*Ng2-1) = G(:,Ng2:1:-1) ! This quadrant using symmetry
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/dports/devel/aarch64-none-elf-gcc/gcc-8.4.0/gcc/testsuite/gfortran.fortran-torture/compile/ |
H A D | pr26806.f90 | 2 integer, private, save :: Ng1=0, Ng2=0 variable 7 allocate( t(0:2*Ng1-1,0:2*Ng2-1) ) 8 t(0:Ng1,0:Ng2-1) = G(:,0:Ng2-1) ! Fill one quadrant (one extra row) 9 t(0:Ng1,Ng2:2*Ng2-1) = G(:,Ng2:1:-1) ! This quadrant using symmetry
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/dports/lang/gcc48/gcc-4.8.5/gcc/testsuite/gfortran.fortran-torture/compile/ |
H A D | pr26806.f90 | 2 integer, private, save :: Ng1=0, Ng2=0 variable 7 allocate( t(0:2*Ng1-1,0:2*Ng2-1) ) 8 t(0:Ng1,0:Ng2-1) = G(:,0:Ng2-1) ! Fill one quadrant (one extra row) 9 t(0:Ng1,Ng2:2*Ng2-1) = G(:,Ng2:1:-1) ! This quadrant using symmetry
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/dports/devel/arm-none-eabi-gcc492/gcc-4.9.2/gcc/testsuite/gfortran.fortran-torture/compile/ |
H A D | pr26806.f90 | 2 integer, private, save :: Ng1=0, Ng2=0 variable 7 allocate( t(0:2*Ng1-1,0:2*Ng2-1) ) 8 t(0:Ng1,0:Ng2-1) = G(:,0:Ng2-1) ! Fill one quadrant (one extra row) 9 t(0:Ng1,Ng2:2*Ng2-1) = G(:,Ng2:1:-1) ! This quadrant using symmetry
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/dports/misc/cxx_atomics_pic/gcc-11.2.0/gcc/testsuite/gfortran.fortran-torture/compile/ |
H A D | pr26806.f90 | 2 integer, private, save :: Ng1=0, Ng2=0 variable 7 allocate( t(0:2*Ng1-1,0:2*Ng2-1) ) 8 t(0:Ng1,0:Ng2-1) = G(:,0:Ng2-1) ! Fill one quadrant (one extra row) 9 t(0:Ng1,Ng2:2*Ng2-1) = G(:,Ng2:1:-1) ! This quadrant using symmetry
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/dports/devel/avr-gcc/gcc-10.2.0/gcc/testsuite/gfortran.fortran-torture/compile/ |
H A D | pr26806.f90 | 2 integer, private, save :: Ng1=0, Ng2=0 variable 7 allocate( t(0:2*Ng1-1,0:2*Ng2-1) ) 8 t(0:Ng1,0:Ng2-1) = G(:,0:Ng2-1) ! Fill one quadrant (one extra row) 9 t(0:Ng1,Ng2:2*Ng2-1) = G(:,Ng2:1:-1) ! This quadrant using symmetry
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/dports/devel/riscv64-gcc/gcc-8.3.0/gcc/testsuite/gfortran.fortran-torture/compile/ |
H A D | pr26806.f90 | 2 integer, private, save :: Ng1=0, Ng2=0 variable 7 allocate( t(0:2*Ng1-1,0:2*Ng2-1) ) 8 t(0:Ng1,0:Ng2-1) = G(:,0:Ng2-1) ! Fill one quadrant (one extra row) 9 t(0:Ng1,Ng2:2*Ng2-1) = G(:,Ng2:1:-1) ! This quadrant using symmetry
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/dports/lang/gcc11/gcc-11.2.0/gcc/testsuite/gfortran.fortran-torture/compile/ |
H A D | pr26806.f90 | 2 integer, private, save :: Ng1=0, Ng2=0 variable 7 allocate( t(0:2*Ng1-1,0:2*Ng2-1) ) 8 t(0:Ng1,0:Ng2-1) = G(:,0:Ng2-1) ! Fill one quadrant (one extra row) 9 t(0:Ng1,Ng2:2*Ng2-1) = G(:,Ng2:1:-1) ! This quadrant using symmetry
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/dports/lang/gcc10-devel/gcc-10-20211008/gcc/testsuite/gfortran.fortran-torture/compile/ |
H A D | pr26806.f90 | 2 integer, private, save :: Ng1=0, Ng2=0 7 allocate( t(0:2*Ng1-1,0:2*Ng2-1) ) 8 t(0:Ng1,0:Ng2-1) = G(:,0:Ng2-1) ! Fill one quadrant (one extra row) 9 t(0:Ng1,Ng2:2*Ng2-1) = G(:,Ng2:1:-1) ! This quadrant using symmetry
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/dports/lang/gcc9/gcc-9.4.0/gcc/testsuite/gfortran.fortran-torture/compile/ |
H A D | pr26806.f90 | 2 integer, private, save :: Ng1=0, Ng2=0 variable 7 allocate( t(0:2*Ng1-1,0:2*Ng2-1) ) 8 t(0:Ng1,0:Ng2-1) = G(:,0:Ng2-1) ! Fill one quadrant (one extra row) 9 t(0:Ng1,Ng2:2*Ng2-1) = G(:,Ng2:1:-1) ! This quadrant using symmetry
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/dports/lang/gcc9-aux/gcc-9.1.0/gcc/testsuite/gfortran.fortran-torture/compile/ |
H A D | pr26806.f90 | 2 integer, private, save :: Ng1=0, Ng2=0 variable 7 allocate( t(0:2*Ng1-1,0:2*Ng2-1) ) 8 t(0:Ng1,0:Ng2-1) = G(:,0:Ng2-1) ! Fill one quadrant (one extra row) 9 t(0:Ng1,Ng2:2*Ng2-1) = G(:,Ng2:1:-1) ! This quadrant using symmetry
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/dports/devel/mingw32-gcc/gcc-4.8.1/gcc/testsuite/gfortran.fortran-torture/compile/ |
H A D | pr26806.f90 | 2 integer, private, save :: Ng1=0, Ng2=0 variable 7 allocate( t(0:2*Ng1-1,0:2*Ng2-1) ) 8 t(0:Ng1,0:Ng2-1) = G(:,0:Ng2-1) ! Fill one quadrant (one extra row) 9 t(0:Ng1,Ng2:2*Ng2-1) = G(:,Ng2:1:-1) ! This quadrant using symmetry
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/dports/science/openmx/openmx3.8/source/ |
H A D | Set_XC_Grid.c | 47 int Ng1,Ng2,Ng3; in Set_XC_Grid() local 150 i = MN/(Ng2*Ng3); in Set_XC_Grid() 151 j = (MN-i*Ng2*Ng3)/Ng3; in Set_XC_Grid() 152 k = MN - i*Ng2*Ng3 - j*Ng3; in Set_XC_Grid() 183 MN1 = i1*Ng2*Ng3 + j*Ng3 + k; in Set_XC_Grid() 184 MN2 = i2*Ng2*Ng3 + j*Ng3 + k; in Set_XC_Grid() 199 MN1 = i*Ng2*Ng3 + j1*Ng3 + k; in Set_XC_Grid() 200 MN2 = i*Ng2*Ng3 + j2*Ng3 + k; in Set_XC_Grid() 582 i = MN/(Ng2*Ng3); in Set_XC_Grid() 583 j = (MN-i*Ng2*Ng3)/Ng3; in Set_XC_Grid() [all …]
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/dports/lang/gcc6-aux/gcc-6-20180516/gcc/testsuite/gfortran.dg/vect/ |
H A D | fast-math-vect-8.f90 | 16 integer, private, save :: Ng1=0, Ng2=0 variable 42 Ng2 = size(Grid, 2) 44 D2 = GrSize2/Ng2 46 allocate( G(0:Ng1,0:Ng2) ) 50 do j=0,Ng2
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/dports/lang/gcc12-devel/gcc-12-20211205/gcc/testsuite/gfortran.dg/vect/ |
H A D | fast-math-vect-8.f90 | 16 integer, private, save :: Ng1=0, Ng2=0 variable 42 Ng2 = size(Grid, 2) 44 D2 = GrSize2/Ng2 46 allocate( G(0:Ng1,0:Ng2) ) 50 do j=0,Ng2
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/dports/lang/gcc8/gcc-8.5.0/gcc/testsuite/gfortran.dg/vect/ |
H A D | fast-math-vect-8.f90 | 16 integer, private, save :: Ng1=0, Ng2=0 variable 42 Ng2 = size(Grid, 2) 44 D2 = GrSize2/Ng2 46 allocate( G(0:Ng1,0:Ng2) ) 50 do j=0,Ng2
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