fortran-lang
diff --git a/‎src/stdlib_linalg_lapack_c.fypp‎
Lines changed: 31 additions & 31 deletions b/‎src/stdlib_linalg_lapack_c.fypp‎
Lines changed: 31 additions & 31 deletions
@@ -32752,7 +32752,7 @@ module stdlib_linalg_lapack_c
            ! Executable Statements 
            ! test the input parameters.
            info = 0_${ik}$
-           onenrm = norm=='1_${ik}$' .or. stdlib_lsame( norm, 'O' )
+           onenrm = norm=='1' .or. stdlib_lsame( norm, 'O' )
            if( .not.onenrm .and. .not.stdlib_lsame( norm, 'I' ) ) then
               info = -1_${ik}$
            else if( n<0_${ik}$ ) then
@@ -33345,7 +33345,7 @@ module stdlib_linalg_lapack_c
            ! Executable Statements 
            ! test the input parameters.
            info = 0_${ik}$
-           onenrm = norm=='1_${ik}$' .or. stdlib_lsame( norm, 'O' )
+           onenrm = norm=='1' .or. stdlib_lsame( norm, 'O' )
            if( .not.onenrm .and. .not.stdlib_lsame( norm, 'I' ) ) then
               info = -1_${ik}$
            else if( n<0_${ik}$ ) then
@@ -41301,7 +41301,7 @@ module stdlib_linalg_lapack_c
                     if( value<temp .or. stdlib${ii}$_sisnan( temp ) ) value = temp
                  end do
               end do
-           else if( ( stdlib_lsame( norm, 'O' ) ) .or. ( norm=='1_${ik}$' ) ) then
+           else if( ( stdlib_lsame( norm, 'O' ) ) .or. ( norm=='1' ) ) then
               ! find norm1(a).
               value = zero
               do j = 1, n
@@ -41376,7 +41376,7 @@ module stdlib_linalg_lapack_c
                     if( value<temp .or. stdlib${ii}$_sisnan( temp ) ) value = temp
                  end do
               end do
-           else if( ( stdlib_lsame( norm, 'O' ) ) .or. ( norm=='1_${ik}$' ) ) then
+           else if( ( stdlib_lsame( norm, 'O' ) ) .or. ( norm=='1' ) ) then
               ! find norm1(a).
               value = zero
               do j = 1, n
@@ -41449,7 +41449,7 @@ module stdlib_linalg_lapack_c
                  if( anorm<abs( du( i ) ) .or. stdlib${ii}$_sisnan (abs( du( i ) ) ) )anorm = abs(du(i))
 
               end do
-           else if( stdlib_lsame( norm, 'O' ) .or. norm=='1_${ik}$' ) then
+           else if( stdlib_lsame( norm, 'O' ) .or. norm=='1' ) then
               ! find norm1(a).
               if( n==1_${ik}$ ) then
                  anorm = abs( d( 1_${ik}$ ) )
@@ -41538,7 +41538,7 @@ module stdlib_linalg_lapack_c
                  end do
               end if
            else if( ( stdlib_lsame( norm, 'I' ) ) .or. ( stdlib_lsame( norm, 'O' ) ) .or.( &
-                     norm=='1_${ik}$' ) ) then
+                     norm=='1' ) ) then
               ! find normi(a) ( = norm1(a), since a is hermitian).
               value = zero
               if( stdlib_lsame( uplo, 'U' ) ) then
@@ -41657,7 +41657,7 @@ module stdlib_linalg_lapack_c
                  end do
               end if
            else if( ( stdlib_lsame( norm, 'I' ) ) .or. ( stdlib_lsame( norm, 'O' ) ) .or.( &
-                     norm=='1_${ik}$' ) ) then
+                     norm=='1' ) ) then
               ! find normi(a) ( = norm1(a), since a is hermitian).
               value = zero
               if( stdlib_lsame( uplo, 'U' ) ) then
@@ -42069,7 +42069,7 @@ module stdlib_linalg_lapack_c
                  end if
               end if
            else if( ( stdlib_lsame( norm, 'I' ) ) .or. ( stdlib_lsame( norm, 'O' ) ) .or.( &
-                     norm=='1_${ik}$' ) ) then
+                     norm=='1' ) ) then
              ! find normi(a) ( = norm1(a), since a is hermitian).
               if( ifm==1_${ik}$ ) then
                  ! a is 'n'
@@ -42991,7 +42991,7 @@ module stdlib_linalg_lapack_c
                  end do
               end if
            else if( ( stdlib_lsame( norm, 'I' ) ) .or. ( stdlib_lsame( norm, 'O' ) ) .or.( &
-                     norm=='1_${ik}$' ) ) then
+                     norm=='1' ) ) then
               ! find normi(a) ( = norm1(a), since a is hermitian).
               value = zero
               k = 1_${ik}$
@@ -43101,7 +43101,7 @@ module stdlib_linalg_lapack_c
                     if( value < sum .or. stdlib${ii}$_sisnan( sum ) ) value = sum
                  end do
               end do
-           else if( ( stdlib_lsame( norm, 'O' ) ) .or. ( norm=='1_${ik}$' ) ) then
+           else if( ( stdlib_lsame( norm, 'O' ) ) .or. ( norm=='1' ) ) then
               ! find norm1(a).
               value = zero
               do j = 1, n
@@ -43173,7 +43173,7 @@ module stdlib_linalg_lapack_c
                  sum = abs( e( i ) )
                  if( anorm < sum .or. stdlib${ii}$_sisnan( sum ) ) anorm = sum
               end do
-           else if( stdlib_lsame( norm, 'O' ) .or. norm=='1_${ik}$' .or.stdlib_lsame( norm, 'I' ) ) &
+           else if( stdlib_lsame( norm, 'O' ) .or. norm=='1' .or.stdlib_lsame( norm, 'I' ) ) &
                      then
               ! find norm1(a).
               if( n==1_${ik}$ ) then
@@ -43246,7 +43246,7 @@ module stdlib_linalg_lapack_c
                  end do
               end if
            else if( ( stdlib_lsame( norm, 'I' ) ) .or. ( stdlib_lsame( norm, 'O' ) ) .or.( &
-                     norm=='1_${ik}$' ) ) then
+                     norm=='1' ) ) then
               ! find normi(a) ( = norm1(a), since a is symmetric).
               value = zero
               if( stdlib_lsame( uplo, 'U' ) ) then
@@ -43355,7 +43355,7 @@ module stdlib_linalg_lapack_c
                  end do
               end if
            else if( ( stdlib_lsame( norm, 'I' ) ) .or. ( stdlib_lsame( norm, 'O' ) ) .or.( &
-                     norm=='1_${ik}$' ) ) then
+                     norm=='1' ) ) then
               ! find normi(a) ( = norm1(a), since a is symmetric).
               value = zero
               k = 1_${ik}$
@@ -43484,7 +43484,7 @@ module stdlib_linalg_lapack_c
                  end do
               end if
            else if( ( stdlib_lsame( norm, 'I' ) ) .or. ( stdlib_lsame( norm, 'O' ) ) .or.( &
-                     norm=='1_${ik}$' ) ) then
+                     norm=='1' ) ) then
               ! find normi(a) ( = norm1(a), since a is symmetric).
               value = zero
               if( stdlib_lsame( uplo, 'U' ) ) then
@@ -43599,7 +43599,7 @@ module stdlib_linalg_lapack_c
                     end do
                  end if
               end if
-           else if( ( stdlib_lsame( norm, 'O' ) ) .or. ( norm=='1_${ik}$' ) ) then
+           else if( ( stdlib_lsame( norm, 'O' ) ) .or. ( norm=='1' ) ) then
               ! find norm1(a).
               value = zero
               udiag = stdlib_lsame( diag, 'U' )
@@ -43797,7 +43797,7 @@ module stdlib_linalg_lapack_c
                     end do
                  end if
               end if
-           else if( ( stdlib_lsame( norm, 'O' ) ) .or. ( norm=='1_${ik}$' ) ) then
+           else if( ( stdlib_lsame( norm, 'O' ) ) .or. ( norm=='1' ) ) then
               ! find norm1(a).
               value = zero
               k = 1_${ik}$
@@ -43998,7 +43998,7 @@ module stdlib_linalg_lapack_c
                     end do
                  end if
               end if
-           else if( ( stdlib_lsame( norm, 'O' ) ) .or. ( norm=='1_${ik}$' ) ) then
+           else if( ( stdlib_lsame( norm, 'O' ) ) .or. ( norm=='1' ) ) then
               ! find norm1(a).
               value = zero
               udiag = stdlib_lsame( diag, 'U' )
@@ -49356,7 +49356,7 @@ module stdlib_linalg_lapack_c
            ! test the input parameters.
            info = 0_${ik}$
            upper = stdlib_lsame( uplo, 'U' )
-           onenrm = norm=='1_${ik}$' .or. stdlib_lsame( norm, 'O' )
+           onenrm = norm=='1' .or. stdlib_lsame( norm, 'O' )
            nounit = stdlib_lsame( diag, 'N' )
            if( .not.onenrm .and. .not.stdlib_lsame( norm, 'I' ) ) then
               info = -1_${ik}$
@@ -50436,7 +50436,7 @@ module stdlib_linalg_lapack_c
            ! test the input parameters.
            info = 0_${ik}$
            upper = stdlib_lsame( uplo, 'U' )
-           onenrm = norm=='1_${ik}$' .or. stdlib_lsame( norm, 'O' )
+           onenrm = norm=='1' .or. stdlib_lsame( norm, 'O' )
            nounit = stdlib_lsame( diag, 'N' )
            if( .not.onenrm .and. .not.stdlib_lsame( norm, 'I' ) ) then
               info = -1_${ik}$
@@ -50902,7 +50902,7 @@ module stdlib_linalg_lapack_c
            ! test the input parameters.
            info = 0_${ik}$
            upper = stdlib_lsame( uplo, 'U' )
-           onenrm = norm=='1_${ik}$' .or. stdlib_lsame( norm, 'O' )
+           onenrm = norm=='1' .or. stdlib_lsame( norm, 'O' )
            nounit = stdlib_lsame( diag, 'N' )
            if( .not.onenrm .and. .not.stdlib_lsame( norm, 'I' ) ) then
               info = -1_${ik}$
@@ -53082,7 +53082,7 @@ module stdlib_linalg_lapack_c
            ! compute the norm of the matrix a and the
            ! reciprocal pivot growth factor rpvgrw.
            if( notran ) then
-              norm = '1_${ik}$'
+              norm = '1'
            else
               norm = 'I'
            end if
@@ -54954,7 +54954,7 @@ module stdlib_linalg_lapack_c
            ! Executable Statements 
            ! test the input arguments.
            info = 0_${ik}$
-           onenrm = norm=='1_${ik}$' .or. stdlib_lsame( norm, 'O' )
+           onenrm = norm=='1' .or. stdlib_lsame( norm, 'O' )
            if( .not.onenrm .and. .not.stdlib_lsame( norm, 'I' ) ) then
               info = -1_${ik}$
            else if( n<0_${ik}$ ) then
@@ -55280,7 +55280,7 @@ module stdlib_linalg_lapack_c
            end if
            ! compute the norm of the matrix a.
            if( notran ) then
-              norm = '1_${ik}$'
+              norm = '1'
            else
               norm = 'I'
            end if
@@ -60863,7 +60863,7 @@ module stdlib_linalg_lapack_c
               end if
            end if
            ! compute the norm of the matrix a.
-           anorm = stdlib${ii}$_clanhb( '1_${ik}$', uplo, n, kd, ab, ldab, rwork )
+           anorm = stdlib${ii}$_clanhb( '1', uplo, n, kd, ab, ldab, rwork )
            ! compute the reciprocal of the condition number of a.
            call stdlib${ii}$_cpbcon( uplo, n, kd, afb, ldafb, anorm, rcond, work, rwork,info )
            ! compute the solution matrix x.
@@ -61393,7 +61393,7 @@ module stdlib_linalg_lapack_c
               end if
            end if
            ! compute the norm of the matrix a.
-           anorm = stdlib${ii}$_clanhe( '1_${ik}$', uplo, n, a, lda, rwork )
+           anorm = stdlib${ii}$_clanhe( '1', uplo, n, a, lda, rwork )
            ! compute the reciprocal of the condition number of a.
            call stdlib${ii}$_cpocon( uplo, n, af, ldaf, anorm, rcond, work, rwork, info )
            ! compute the solution matrix x.
@@ -61742,7 +61742,7 @@ module stdlib_linalg_lapack_c
               end if
            end if
            ! compute the norm of the matrix a.
-           anorm = stdlib${ii}$_clanht( '1_${ik}$', n, d, e )
+           anorm = stdlib${ii}$_clanht( '1', n, d, e )
            ! compute the reciprocal of the condition number of a.
            call stdlib${ii}$_cptcon( n, df, ef, anorm, rcond, rwork, info )
            ! compute the solution vectors x.
@@ -62530,7 +62530,7 @@ module stdlib_linalg_lapack_c
            ! quick return if possible
            if( m==n .or. m==0_${ik}$ ) then
               if( wants )s = one
-              if( wantsp )sep = stdlib${ii}$_clange( '1_${ik}$', n, n, t, ldt, rwork )
+              if( wantsp )sep = stdlib${ii}$_clange( '1', n, n, t, ldt, rwork )
               go to 40
            end if
            ! collect the selected eigenvalues at the top left corner of t.
@@ -70390,7 +70390,7 @@ module stdlib_linalg_lapack_c
            ! compute the norm of the matrix a and the
            ! reciprocal pivot growth factor rpvgrw.
            if( notran ) then
-              norm = '1_${ik}$'
+              norm = '1'
            else
               norm = 'I'
            end if
@@ -71824,13 +71824,13 @@ module stdlib_linalg_lapack_c
            call stdlib${ii}$_cggbal( balanc, n, a, lda, b, ldb, ilo, ihi, lscale, rscale,rwork, ierr )
 
            ! compute abnrm and bbnrm
-           abnrm = stdlib${ii}$_clange( '1_${ik}$', n, n, a, lda, rwork( 1_${ik}$ ) )
+           abnrm = stdlib${ii}$_clange( '1', n, n, a, lda, rwork( 1_${ik}$ ) )
            if( ilascl ) then
               rwork( 1_${ik}$ ) = abnrm
               call stdlib${ii}$_slascl( 'G', 0_${ik}$, 0_${ik}$, anrmto, anrm, 1_${ik}$, 1_${ik}$, rwork( 1_${ik}$ ), 1_${ik}$,ierr )
               abnrm = rwork( 1_${ik}$ )
            end if
-           bbnrm = stdlib${ii}$_clange( '1_${ik}$', n, n, b, ldb, rwork( 1_${ik}$ ) )
+           bbnrm = stdlib${ii}$_clange( '1', n, n, b, ldb, rwork( 1_${ik}$ ) )
            if( ilbscl ) then
               rwork( 1_${ik}$ ) = bbnrm
               call stdlib${ii}$_slascl( 'G', 0_${ik}$, 0_${ik}$, bnrmto, bnrm, 1_${ik}$, 1_${ik}$, rwork( 1_${ik}$ ), 1_${ik}$,ierr )
@@ -74225,7 +74225,7 @@ module stdlib_linalg_lapack_c
            if( scalea )call stdlib${ii}$_clascl( 'G', 0_${ik}$, 0_${ik}$, anrm, cscale, n, n, a, lda, ierr )
            ! balance the matrix and compute abnrm
            call stdlib${ii}$_cgebal( balanc, n, a, lda, ilo, ihi, scale, ierr )
-           abnrm = stdlib${ii}$_clange( '1_${ik}$', n, n, a, lda, dum )
+           abnrm = stdlib${ii}$_clange( '1', n, n, a, lda, dum )
            if( scalea ) then
               dum( 1_${ik}$ ) = abnrm
               call stdlib${ii}$_slascl( 'G', 0_${ik}$, 0_${ik}$, cscale, anrm, 1_${ik}$, 1_${ik}$, dum, 1_${ik}$, ierr )