On 9/2/20 10:18 AM, Jakub Jelinek via Gcc-patches wrote:

The standard says that excess digits from boz are truncated.
For hexadecimal or binary, the routines copy just the number of digits
that will be needed, but for octal we copy number of digits that
contain one extra bit (for 8-bit, 32-bit or 128-bit, i.e. kind 1, 4 and 16)
or two extra bits (for 16-bit or 64-bit, i.e. kind 2 and 8).
The clearing of the first bit is done correctly by changing the first digit
if it is 4-7 to one smaller by 4 (i.e. modulo 4).
The clearing of the first two bits is done by changing 4 or 6 to 0
and 5 or 7 to 1, which is incorrect, because we really want to change the
first digit to 0 if it was even, or to 1 if it was odd, so digits
2 and 3 are mishandled by keeping them as is, rather than changing 2 to 0
and 3 to 1.

Fixed thusly, bootstrapped/regtested on x86_64-linux and i686-linux, ok for
trunk and release branches?

The code part of the patch looks okay – as does the testcase.
→ LGTM.

What confused me a while when looking at the patch is the comment
"Clear first two bits"
This does not really apply to neither o'2' = b'11' nor
o'3' = b'11' as only the first ('1') bit needs to be removed (ignoring
'0' padding on left). However, unless you have better wording,
we can leave it as is.

Thanks for the patch!

Tobias


2020-09-02  Jakub Jelinek  <ja...@redhat.com>

      PR fortran/96859
      * check.c (gfc_boz2real, gfc_boz2int): When clearing first two bits,
      change also '2' to '0' and '3' to '1' rather than just handling '4'
      through '7'.

      * gfortran.dg/pr96859.f90: New test.

--- gcc/fortran/check.c.jj    2020-08-24 10:00:01.424256990 +0200
+++ gcc/fortran/check.c       2020-09-01 17:15:19.882311053 +0200
@@ -340,9 +340,9 @@ gfc_boz2real (gfc_expr *x, int kind)
        /* Clear first two bits.  */
        else
      {
-       if (buf[0] == '4' || buf[0] == '6')
+       if (buf[0] == '2' || buf[0] == '4' || buf[0] == '6')
          buf[0] = '0';
-       else if (buf[0] == '5' || buf[0] == '7')
+       else if (buf[0] == '3' || buf[0] == '5' || buf[0] == '7')
          buf[0] = '1';
      }
      }
@@ -429,9 +429,9 @@ gfc_boz2int (gfc_expr *x, int kind)
        /* Clear first two bits.  */
        else
      {
-       if (buf[0] == '4' || buf[0] == '6')
+       if (buf[0] == '2' || buf[0] == '4' || buf[0] == '6')
          buf[0] = '0';
-       else if (buf[0] == '5' || buf[0] == '7')
+       else if (buf[0] == '3' || buf[0] == '5' || buf[0] == '7')
          buf[0] = '1';
      }
      }
--- gcc/testsuite/gfortran.dg/pr96859.f90.jj  2020-09-01 15:26:26.448799264 
+0200
+++ gcc/testsuite/gfortran.dg/pr96859.f90     2020-09-01 15:26:18.492914701 
+0200
@@ -0,0 +1,25 @@
+! PR fortran/96859
+! { dg-do run }
+
+program pr96859
+  if (merge_bits(32767_2, o'1234567', 32767_2).ne.32767_2) stop 1
+  if (merge_bits(o'1234567', 32767_2, o'1234567').ne.32767_2) stop 2
+  if (merge_bits(32767_2, o'1234567', b'010101').ne.14711_2) stop 3
+  if (merge_bits(32767_2, o'1234567', z'12345678').ne.32639_2) stop 4
+  if (int (o'1034567', 2).ne.14711_2) stop 5
+  if (int (o'1234567', 2).ne.14711_2) stop 6
+  if (int (o'1434567', 2).ne.14711_2) stop 7
+  if (int (o'1634567', 2).ne.14711_2) stop 8
+  if (int (o'1134567', 2).ne.-18057_2) stop 9
+  if (int (o'1334567', 2).ne.-18057_2) stop 10
+  if (int (o'1534567', 2).ne.-18057_2) stop 11
+  if (int (o'1734567', 2).ne.-18057_2) stop 12
+  if (int (o'70123456776543211234567', 8).ne.1505855851274254711_8) stop 13
+  if (int (o'72123456776543211234567', 8).ne.1505855851274254711_8) stop 14
+  if (int (o'74123456776543211234567', 8).ne.1505855851274254711_8) stop 15
+  if (int (o'76123456776543211234567', 8).ne.1505855851274254711_8) stop 16
+  if (int (o'71123456776543211234567', 8).ne.-7717516185580521097_8) stop 17
+  if (int (o'73123456776543211234567', 8).ne.-7717516185580521097_8) stop 18
+  if (int (o'75123456776543211234567', 8).ne.-7717516185580521097_8) stop 19
+  if (int (o'77123456776543211234567', 8).ne.-7717516185580521097_8) stop 20
+end

      Jakub

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