2009-07-05 12:14:08 -04:00
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/* Compile-time assert-like macros.
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2009-09-30 22:33:58 -04:00
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Copyright (C) 2005, 2006 Free Software Foundation, Inc.
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2009-07-05 12:14:08 -04:00
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>. */
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/* Written by Paul Eggert, Bruno Haible, and Jim Meyering. */
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#ifndef VERIFY_H
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# define VERIFY_H 1
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/* Each of these macros verifies that its argument R is nonzero. To
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be portable, R should be an integer constant expression. Unlike
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assert (R), there is no run-time overhead.
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There are two macros, since no single macro can be used in all
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contexts in C. verify_true (R) is for scalar contexts, including
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integer constant expression contexts. verify (R) is for declaration
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contexts, e.g., the top level.
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Symbols ending in "__" are private to this header.
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The code below uses several ideas.
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* The first step is ((R) ? 1 : -1). Given an expression R, of
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integral or boolean or floating-point type, this yields an
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expression of integral type, whose value is later verified to be
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constant and nonnegative.
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* Next this expression W is wrapped in a type
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struct verify_type__ { unsigned int verify_error_if_negative_size__: W; }.
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If W is negative, this yields a compile-time error. No compiler can
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deal with a bit-field of negative size.
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One might think that an array size check would have the same
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effect, that is, that the type struct { unsigned int dummy[W]; }
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would work as well. However, inside a function, some compilers
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(such as C++ compilers and GNU C) allow local parameters and
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variables inside array size expressions. With these compilers,
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an array size check would not properly diagnose this misuse of
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the verify macro:
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void function (int n) { verify (n < 0); }
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* For the verify macro, the struct verify_type__ will need to
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somehow be embedded into a declaration. To be portable, this
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declaration must declare an object, a constant, a function, or a
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typedef name. If the declared entity uses the type directly,
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such as in
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struct dummy {...};
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typedef struct {...} dummy;
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extern struct {...} *dummy;
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extern void dummy (struct {...} *);
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extern struct {...} *dummy (void);
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two uses of the verify macro would yield colliding declarations
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if the entity names are not disambiguated. A workaround is to
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attach the current line number to the entity name:
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#define GL_CONCAT0(x, y) x##y
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#define GL_CONCAT(x, y) GL_CONCAT0 (x, y)
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extern struct {...} * GL_CONCAT(dummy,__LINE__);
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But this has the problem that two invocations of verify from
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within the same macro would collide, since the __LINE__ value
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would be the same for both invocations.
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A solution is to use the sizeof operator. It yields a number,
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getting rid of the identity of the type. Declarations like
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extern int dummy [sizeof (struct {...})];
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extern void dummy (int [sizeof (struct {...})]);
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extern int (*dummy (void)) [sizeof (struct {...})];
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can be repeated.
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* Should the implementation use a named struct or an unnamed struct?
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Which of the following alternatives can be used?
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extern int dummy [sizeof (struct {...})];
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extern int dummy [sizeof (struct verify_type__ {...})];
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extern void dummy (int [sizeof (struct {...})]);
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extern void dummy (int [sizeof (struct verify_type__ {...})]);
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extern int (*dummy (void)) [sizeof (struct {...})];
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extern int (*dummy (void)) [sizeof (struct verify_type__ {...})];
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In the second and sixth case, the struct type is exported to the
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outer scope; two such declarations therefore collide. GCC warns
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about the first, third, and fourth cases. So the only remaining
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possibility is the fifth case:
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extern int (*dummy (void)) [sizeof (struct {...})];
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* This implementation exploits the fact that GCC does not warn about
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the last declaration mentioned above. If a future version of GCC
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introduces a warning for this, the problem could be worked around
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by using code specialized to GCC, e.g.,:
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#if 4 <= __GNUC__
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# define verify(R) \
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extern int (* verify_function__ (void)) \
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[__builtin_constant_p (R) && (R) ? 1 : -1]
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#endif
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* In C++, any struct definition inside sizeof is invalid.
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Use a template type to work around the problem. */
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/* Verify requirement R at compile-time, as an integer constant expression.
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Return 1. */
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# ifdef __cplusplus
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template <int w>
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struct verify_type__ { unsigned int verify_error_if_negative_size__: w; };
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# define verify_true(R) \
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(!!sizeof (verify_type__<(R) ? 1 : -1>))
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# else
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# define verify_true(R) \
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(!!sizeof \
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(struct { unsigned int verify_error_if_negative_size__: (R) ? 1 : -1; }))
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# endif
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/* Verify requirement R at compile-time, as a declaration without a
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trailing ';'. */
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# define verify(R) extern int (* verify_function__ (void)) [verify_true (R)]
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#endif
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