Commit Graph

37 Commits

Author SHA1 Message Date
Stephen Heumann
05ecf5eef3 Add option to use the declared type for float/double/comp params.
This differs from the usual ORCA/C behavior of treating all floating-point parameters as extended. With the option enabled, they will still be passed in the extended format, but will be converted to their declared type at the start of the function. This is needed for strict standards conformance, because you should be able to take the address of a parameter and get a usable pointer to its declared type. The difference in types can also affect the behavior of _Generic expressions.

The implementation of this is based on ORCA/Pascal, which already did the same thing (unconditionally) with real/double/comp parameters.
2022-09-18 21:16:46 -05:00
Stephen Heumann
2f75f47140 Update ORCA/C version number to 2.2.0 B6. 2022-07-19 20:40:52 -05:00
Stephen Heumann
3c2b492618 Add support for compound literals within functions.
The basic approach is to generate a single expression tree containing the code for the initialization plus the reference to the compound literal (or its address). The various subexpressions are joined together with pc_bno pcodes, similar to the code generated for the comma operator. The initializer expressions are placed in a balanced binary tree, so that it is not excessively deep.

Note: Common subexpression elimination has poor performance for very large trees. This is not specific to compound literals, but compound literals for relatively large arrays can run into this issue. It will eventually complete and generate a correct program, but it may be quite slow. To avoid this, turn off CSE.
2022-06-08 21:34:12 -05:00
Stephen Heumann
a1d57c4db3 Allow ORCA/C-specific keywords to be disabled via a new pragma.
This allows those tokens (asm, comp, extended, pascal, and segment) to be used as identifiers, consistent with the C standards.

A new pragma (#pragma extensions) is introduced to control this. It might also be used for other things in the future.
2022-03-26 18:45:47 -05:00
Stephen Heumann
6cfe8cc886 Remove an unused string representation of macro tokens.
The string representation of macro tokens is needed for some preprocessor operations, but we get this in other ways (e.g. based on tokenStart/tokenEnd).
2022-02-21 18:39:39 -06:00
Stephen Heumann
1e98a63bf4 Avoid generating duplicate "Including ..." messages.
This could happen if a header was saved in the sym file, but the sym file data was not actually used because the source code in the main file did not match what was saved.
2022-02-16 21:31:49 -06:00
Stephen Heumann
c96cf4f1dd Do not save predefined and command-line macros in the sym file.
Previously, these might or might not be saved (based on the contents of uninitialized memory), but in many cases they were. This was unnecessary, since these macros are automatically defined when the scanner is initialized. Reading them from the sym file could result in duplicate copies of them in the macro list. This is usually harmless, but might result in #undefs of macros from the command line not working properly.
2022-02-13 20:17:33 -06:00
Stephen Heumann
5d7c002819 Fix bug causing some #undefs to be ignored when using a sym file.
This would occur if the macro had already been saved in the sym file and the #undef occurred before a subsequent #include that was also recorded in the sym file. The solution is simply to terminate sym file generation if an #undef of an already-saved macro is encountered.

Here is an example showing the problem:

test.c:
#include "test1.h"
#undef x
#include "test2.h"

int main(void) {
#ifdef x
        return x;
#else
        return y;
#endif
}

test1.h:
#define x 27

test2.h:
#define y 6
2022-02-13 16:33:43 -06:00
Stephen Heumann
913a333f9f Record the cc= string in the symbol file and require it to match.
Macros and include paths from the cc= parameters may be included in the symbol file, so incorrect behavior could result if the symbol file was used for a later compilation with different cc= parameters.
2022-02-12 19:45:04 -06:00
Stephen Heumann
bd811559d6 Fix issues with keep names in sym files.
There were a couple issues that could occur with #pragma keep and sym files:

*If a source file used #pragma keep but it was overridden by KEEP= on the command line or {KeepName} in the shell, then the overriding keep name would be saved to the sym file. It would therefore be applied to subsequent compilations even if it was no longer specified in the command line or shell variable.

*If a source file used #pragma keep, that keep name would be recorded in the sym file. On subsequent compilations, it would always be used, overriding any keep name specified by the command line or shell, contrary to the usual rule that the name on the command line takes priority.

With this patch, the keep name recorded in the sym file (if any) should always be the one specified by #pragma keep, but it can be overridden as usual.
2022-02-06 21:49:08 -06:00
Stephen Heumann
b43036409e Add a new optimize flag for FP math optimizations that break IEEE rules.
There were several existing optimizations that could change behavior in ways that violated the IEEE standard with regard to infinities, NaNs, or signed zeros. They are now gated behind a new #pragma optimize flag. This change allows intermediate code peephole optimization and common subexpression elimination to be used while maintaining IEEE conformance, but also keeps the rule-breaking optimizations available if desired.

See section F.9.2 of recent C standards for a discussion of how these optimizations violate IEEE rules.
2021-11-29 20:31:15 -06:00
Stephen Heumann
692ebaba85 Structs or arrays may not contain structs with a flexible array member.
We previously ignored this, but it is a constraint violation under the C standards, so it should be reported as an error.

GCC and Clang allow this as an extension, as we were effectively doing previously. We will follow the standards for now, but if there was demand for such an extension in ORCA/C, it could be re-introduced subject to a #pragma ignore flag.
2021-10-17 22:22:42 -05:00
Stephen Heumann
5871820e0c Support UTF-8/16/32 string literals and character constants (C11).
These have u8, u, or U prefixes, respectively. The types char16_t and char32_t (defined in <uchar.h>) are used for UTF-16 and UTF-32 code points.
2021-10-11 20:54:37 -05:00
Stephen Heumann
894baac94f Give an error if assigning to a whole struct or union that has a const member.
Such structs or unions are not modifiable lvalues, so they cannot be assigned to as a whole. Any non-const fields can be assigned to individually.
2021-09-11 18:12:58 -05:00
Stephen Heumann
a8682e28d3 Give an error for pointer assignments that discard qualifiers.
This is controlled by #pragma ignore bit 5, which is now a more general "loose type checks" bit.
2021-09-10 17:58:20 -05:00
Stephen Heumann
b16210a50b Record volatile and restrict qualifiers in types.
These are needed to correctly distinguish pointer types in _Generic. They should also be used for type compatibility checks in other contexts, but currently are not.

This also fixes a couple small problems related to type qualifiers:
*restrict was not allowed to appear after * in type-names
*volatile status was not properly recorded in sym files

Here is an example of using _Generic to distinguish pointer types based on the qualifiers of the pointed-to type:

#include <stdio.h>

#define f(e) _Generic((e),\
        int * restrict *: 1,\
        int * volatile const *: 2,\
        int **: 3,\
        default: 0)

#define g(e) _Generic((e),\
        int *: 1,\
        const int *: 2,\
        volatile int *: 3,\
        default: 0)

int main(void) {
        int * restrict * p1;
        int * volatile const * p2;
        int * const * p3;

        // should print "1 2 0 1"
        printf("%i %i %i %i\n", f(p1), f(p2), f(p3), f((int * restrict *)0));

        int *q1;
        const int *q2;
        volatile int *q3;
        const volatile int *q4;

        // should print "1 2 3 0"
        printf("%i %i %i %i\n", g(q1), g(q2), g(q3), g(q4));
}

Here is an example of a problem resulting from volatile not being recorded in sym files (if a sym file was present, the read of x was lifted out of the loop):

#pragma optimize -1
static volatile int x;
#include <stdio.h>
int main(void) {
        int y;
        for (unsigned i = 0; i < 100; i++) {
                y = x*2 + 7;
        }
}
2021-08-30 18:19:58 -05:00
Stephen Heumann
979852be3c Use the right types for constants cast to character types.
These were previously treated as having type int. This resulted in incorrect results from sizeof, and would also be a problem for _Generic if it was implemented.

Note that this creates a token kind of "charconst", but this is not the kind for character constants in the source code. Those have type int, so their kind is intconst. The new kinds of "tokens" are created only through casts of constant expressions.
2021-03-07 13:38:21 -06:00
Stephen Heumann
8f8e7f12e2 Distinguish the different types of floating-point constants.
As with expressions, the type does not actually limit the precision and range of values represented.
2021-03-07 00:48:51 -06:00
Stephen Heumann
f368071146 Do some more checks for invalid sym files. 2021-03-06 15:02:51 -06:00
Stephen Heumann
f9f79983f8 Implement the standard pragmas, in particular FENV_ACCESS.
The FENV_ACCESS pragma is now implemented. It causes floating-point operations to be evaluated at run time to the maximum extent possible, so that they can affect and be affected by the floating-point environment. It also disables optimizations that might evaluate floating-point operations at compile time or move them around calls to the <fenv.h> functions.

The FP_CONTRACT and CX_LIMITED_RANGE pragmas are also recognized, but they have no effect. (FP_CONTRACT relates to "contracting" floating-point expressions in a way that ORCA/C does not do, and CX_LIMITED_RANGE relates to complex arithmetic, which ORCA/C does not support.)
2021-03-06 00:57:13 -06:00
Stephen Heumann
4ad7a65de6 Process floating-point values within the compiler using the extended type.
This means that floating-point constants can now have the range and precision of the extended type (aka long double), and floating-point constant expressions evaluated within the compiler also have that same range and precision (matching expressions evaluated at run time). This new behavior is intended to match the behavior specified in the C99 and later standards for FLT_EVAL_METHOD 2.

This fixes the previous problem where long double constants and constant expressions of type long double were not represented and evaluated with the full range and precision that they should be. It also gives extra range and precision to constants and constant expressions of type double or float. This may have pluses and minuses, but at any rate it is consistent with the existing behavior for expressions evaluated at run time, and with one of the possible models of floating point evaluation specified in the C standards.
2021-03-04 23:58:08 -06:00
Stephen Heumann
793f0a57cc Initial support for constants with long long types.
Currently, the actual values they can have are still constrained to the 32-bit range. Also, there are some bits of functionality (e.g. for initializers) that are not implemented yet.
2021-02-03 23:11:23 -06:00
Stephen Heumann
085cd7eb1b Initial code to recognize 'long long' as a type. 2021-01-29 22:27:11 -06:00
Stephen Heumann
f0a3808c18 Add a new #pragma ignore option to treat char and unsigned char as compatible.
This is contrary to the C standards, but ORCA/C historically permitted it (as do some other compilers), and I think there is a fair amount of existing code that relies on it.
2020-05-22 17:11:13 -05:00
Stephen Heumann
c0b2b44cad Add a new representation of C basic types and use it for type checking.
This allows us to distinguish int from short, etc.
2020-03-01 15:00:02 -06:00
Stephen Heumann
77dcfdf3ee Implement support for macros with variable arguments (C99). 2020-01-31 20:07:10 -06:00
Stephen Heumann
ffe6c4e924 Spellcheck comments throughout the code.
There are no non-comment changes.
2020-01-29 17:09:52 -06:00
Stephen Heumann
fe6c410271 Allow #pragma lint messages to optionally be treated as warnings.
In the #pragma lint line, the integer indicating the checks to perform can now optionally be followed by a semicolon and another integer. If these are present and the second integer is 0, then the lint checks will be performed, but will be treated as warnings rather than errors, so that they do not cause compilation to fail.
2020-01-25 11:29:12 -06:00
Stephen Heumann
9036a98e1c Implement support for digraphs.
Specifically, the following six punctuator tokens are now supported:

<: :> <% %> %: %:%:

These behave the same as the existing tokens [, ], {, }, #, and ## (respectively), apart from their spelling.

This can be useful when the full ASCII character set cannot easily be displayed or input (e.g. on the IIgs text screen with certain language settings).
2020-01-04 21:49:50 -06:00
Stephen Heumann
0184e3db7b Recognize the new keywords from C99 and C11 as such.
Specifically, the following will now be tokenized as keywords:

_Alignas
_Alignof
_Atomic
_Bool
_Complex
_Generic
_Imaginary
_Noreturn
_Static_assert
_Thread_local
restrict

('inline' was also added as a standard keyword in C99, but ORCA/C already treated it as such.)

The parser currently has no support for any of these keywords, so for now errors will still be generated if they are used, but this is a first step toward adding support for them.
2020-01-03 22:48:53 -06:00
Stephen Heumann
411f911b60 Bump sym file version and add a couple sanity checks.
Bumping the version forces regeneration of any sym files created by old ORCA/C versions with the bug that was just fixed.

A couple sanity checks are also introduced when reading sym files, including one that would have caught that bug.
2018-09-15 00:42:05 -05:00
Stephen Heumann
275e1f080b Add a new flag to control whether mixed declarations are allowed and C99 scope rules are used.
#pragma ignore bit 4 (a value of 16) now controls these. It is on by default (allowing them), but turning it off will restore the C89 rules.
2018-04-01 14:14:18 -05:00
Kelvin Sherlock
3c09d1c4ff add allowTokensAfterEndif setting for pragma ignore (from MPW ORCA/C IIgs) [WIP] 2017-10-28 20:19:00 -04:00
Stephen Heumann
275a2cc176 Add support for new flags in precompiled headers, and bump sym file version. 2017-10-21 20:36:21 -05:00
Stephen Heumann
ccd653ddb9 Move some more code out of the blank segment to make space for static data. 2017-10-21 20:36:21 -05:00
Stephen Heumann
46b6aa389f Change all text/source files to LF line endings. 2017-10-21 18:40:19 -05:00
mikew50
e72177985e ORCA/C 2.1.0 source from the Opus ][ CD 2017-10-01 17:47:47 -06:00