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GNU Fortran offers the programmer way too much flexibility in deciding how source files are to be treated vis-a-vis uppercase and lowercase characters. There are 66 useful settings that affect case sensitivity, plus 10 settings that are nearly useless, with the remaining 116 settings being either redundant or useless.
None of these settings have any effect on the contents of comments (the text after a `c' or `C' in Column 1, for example) or of character or Hollerith constants. Note that things like the `E' in the statement `CALL FOO(3.2E10)' and the `TO' in `ASSIGN 10 TO LAB' are considered built-in keywords, and so are affected by these settings.
Low-level switches are identified in this section as follows:
Note 1: g77 eventually will support NAMELIST
in a manner that is
consistent with these source switches—in the sense that input will be
expected to meet the same requirements as source code in terms
of matching symbol names and keywords (for the exponent letters).
Currently, however, NAMELIST
is supported by libg2c
,
which uppercases NAMELIST
input and symbol names for matching.
This means not only that NAMELIST
output currently shows symbol
(and keyword) names in uppercase even if lower-case source
conversion (option A2) is selected, but that NAMELIST
cannot be
adequately supported when source case preservation (option A0)
is selected.
If A0 is selected, a warning message will be
output for each NAMELIST
statement to this effect.
The behavior
of the program is undefined at run time if two or more symbol names
appear in a given NAMELIST
such that the names are identical
when converted to upper case (e.g. `NAMELIST /X/ VAR, Var, var').
For complete and total elegance, perhaps there should be a warning
when option A2 is selected, since the output of NAMELIST is currently
in uppercase but will someday be lowercase (when a libg77
is written),
but that seems to be overkill for a product in beta test.
Note 2: Rules for InitialCaps names are:
So `A', `Ab', `ABc', `AbC', and `Abc' are
valid InitialCaps names, but `AB', `A2', and `ABC' are
not.
Note that most, but not all, built-in names meet these
requirements—the exceptions are some of the two-letter format
specifiers, such as BN
and BZ
.
Here are the names of the corresponding command-line options:
A0: -fsource-case-preserve A1: -fsource-case-upper A2: -fsource-case-lower B0: -fmatch-case-any B1: -fmatch-case-upper B2: -fmatch-case-lower B3: -fmatch-case-initcap C0: -fintrin-case-any C1: -fintrin-case-upper C2: -fintrin-case-lower C3: -fintrin-case-initcap D0: -fsymbol-case-any D1: -fsymbol-case-upper D2: -fsymbol-case-lower D3: -fsymbol-case-initcap
Useful combinations of the above settings, along with abbreviated option names that set some of these combinations all at once:
1: A0-- B0--- C0--- D0--- -fcase-preserve 2: A0-- B0--- C0--- D-1-- 3: A0-- B0--- C0--- D--2- 4: A0-- B0--- C0--- D---3 5: A0-- B0--- C-1-- D0--- 6: A0-- B0--- C-1-- D-1-- 7: A0-- B0--- C-1-- D--2- 8: A0-- B0--- C-1-- D---3 9: A0-- B0--- C--2- D0--- 10: A0-- B0--- C--2- D-1-- 11: A0-- B0--- C--2- D--2- 12: A0-- B0--- C--2- D---3 13: A0-- B0--- C---3 D0--- 14: A0-- B0--- C---3 D-1-- 15: A0-- B0--- C---3 D--2- 16: A0-- B0--- C---3 D---3 17: A0-- B-1-- C0--- D0--- 18: A0-- B-1-- C0--- D-1-- 19: A0-- B-1-- C0--- D--2- 20: A0-- B-1-- C0--- D---3 21: A0-- B-1-- C-1-- D0--- 22: A0-- B-1-- C-1-- D-1-- -fcase-strict-upper 23: A0-- B-1-- C-1-- D--2- 24: A0-- B-1-- C-1-- D---3 25: A0-- B-1-- C--2- D0--- 26: A0-- B-1-- C--2- D-1-- 27: A0-- B-1-- C--2- D--2- 28: A0-- B-1-- C--2- D---3 29: A0-- B-1-- C---3 D0--- 30: A0-- B-1-- C---3 D-1-- 31: A0-- B-1-- C---3 D--2- 32: A0-- B-1-- C---3 D---3 33: A0-- B--2- C0--- D0--- 34: A0-- B--2- C0--- D-1-- 35: A0-- B--2- C0--- D--2- 36: A0-- B--2- C0--- D---3 37: A0-- B--2- C-1-- D0--- 38: A0-- B--2- C-1-- D-1-- 39: A0-- B--2- C-1-- D--2- 40: A0-- B--2- C-1-- D---3 41: A0-- B--2- C--2- D0--- 42: A0-- B--2- C--2- D-1-- 43: A0-- B--2- C--2- D--2- -fcase-strict-lower 44: A0-- B--2- C--2- D---3 45: A0-- B--2- C---3 D0--- 46: A0-- B--2- C---3 D-1-- 47: A0-- B--2- C---3 D--2- 48: A0-- B--2- C---3 D---3 49: A0-- B---3 C0--- D0--- 50: A0-- B---3 C0--- D-1-- 51: A0-- B---3 C0--- D--2- 52: A0-- B---3 C0--- D---3 53: A0-- B---3 C-1-- D0--- 54: A0-- B---3 C-1-- D-1-- 55: A0-- B---3 C-1-- D--2- 56: A0-- B---3 C-1-- D---3 57: A0-- B---3 C--2- D0--- 58: A0-- B---3 C--2- D-1-- 59: A0-- B---3 C--2- D--2- 60: A0-- B---3 C--2- D---3 61: A0-- B---3 C---3 D0--- 62: A0-- B---3 C---3 D-1-- 63: A0-- B---3 C---3 D--2- 64: A0-- B---3 C---3 D---3 -fcase-initcap 65: A-1- B01-- C01-- D01-- -fcase-upper 66: A--2 B0-2- C0-2- D0-2- -fcase-lower
Number 22 is the “strict” ANSI FORTRAN 77 model wherein all input (except comments, character constants, and Hollerith strings) must be entered in uppercase. Use -fcase-strict-upper to specify this combination.
Number 43 is like Number 22 except all input must be lowercase. Use -fcase-strict-lower to specify this combination.
Number 65 is the “classic” ANSI FORTRAN 77 model as implemented on many non-UNIX machines whereby all the source is translated to uppercase. Use -fcase-upper to specify this combination.
Number 66 is the “canonical” UNIX model whereby all the source is translated to lowercase. Use -fcase-lower to specify this combination.
There are a few nearly useless combinations:
67: A-1- B01-- C01-- D--2- 68: A-1- B01-- C01-- D---3 69: A-1- B01-- C--23 D01-- 70: A-1- B01-- C--23 D--2- 71: A-1- B01-- C--23 D---3 72: A--2 B01-- C0-2- D-1-- 73: A--2 B01-- C0-2- D---3 74: A--2 B01-- C-1-3 D0-2- 75: A--2 B01-- C-1-3 D-1-- 76: A--2 B01-- C-1-3 D---3
The above allow some programs to be compiled but with restrictions that make most useful programs impossible: Numbers 67 and 72 warn about any user-defined symbol names (such as `SUBROUTINE FOO'); Numbers 68 and 73 warn about any user-defined symbol names longer than one character that don't have at least one non-alphabetic character after the first; Numbers 69 and 74 disallow any references to intrinsics; and Numbers 70, 71, 75, and 76 are combinations of the restrictions in 67+69, 68+69, 72+74, and 73+74, respectively.
All redundant combinations are shown in the above tables anyplace where more than one setting is shown for a low-level switch. For example, `B0-2-' means either setting 0 or 2 is valid for switch B. The “proper” setting in such a case is the one that copies the setting of switch A—any other setting might slightly reduce the speed of the compiler, though possibly to an unmeasurable extent.
All remaining combinations are useless in that they prevent successful compilation of non-null source files (source files with something other than comments).