Lines Matching refs:C99

50 @cite{How a diagnostic is identified (C90 3.7, C99 and C11 3.10, C90,
51 C99 and C11 5.1.1.3).}
58 phase 3 (C90, C99 and C11 5.1.1.2).}
74 and the source character set in translation phase 1 (C90, C99 and C11
88 and their correspondence to universal character names (C99 and C11 6.4.2).}
95 (C90 6.1.2, C90, C99 and C11 5.2.4.1, C99 and C11 6.4.2).}
105 This is a property of the linker.  C99 and C11 require that case distinctions
116 @cite{The number of bits in a byte (C90 3.4, C99 and C11 3.6).}
122 C99 and C11 5.2.1).}
128 for each of the standard alphabetic escape sequences (C90, C99 and C11
136 (C90 6.1.2.5, C99 and C11 6.2.5).}
143 6.1.2.5, C90 6.2.1.1, C99 and C11 6.2.5, C99 and C11 6.3.1.1).}
154 set (C90 6.1.3.4, C99 and C11 6.4.4.4, C90, C99 and C11 5.1.1.2).}
161 to a single-byte execution character (C90 6.1.3.4, C99 and C11 6.4.4.4).}
171 the extended execution character set (C90 6.1.3.4, C99 and C11
181 6.1.3.4, C99 and C11 6.4.4.4).}
195 corresponding wide character codes (C90 6.1.4, C99 and C11 6.4.5).}
203 C99 and C11 6.4.5).}
226 @cite{Any extended integer types that exist in the implementation (C99
240 is a trap representation or an ordinary value (C99 and C11 6.2.6.2).}
247 integer type with the same precision (C99 and C11 6.3.1.1).}
255 that type (C90 6.2.1.2, C99 and C11 6.3.1.3).}
262 6.3, C99 and C11 6.5).}
270 C99 and C11 only to treat certain aspects of signed @samp{<<} as undefined.
278 GCC always follows the C99 and C11 requirement that the result of division is
290 results (C90, C99 and C11 5.2.4.2.2).}
297 (C90, C99 and C11 5.2.4.2.2).}
303 values of @code{FLT_EVAL_METHOD} (C99 and C11 5.2.4.2.2).}
310 value (C90 6.2.1.3, C99 and C11 6.3.1.4).}
312 C99 Annex F is followed.
316 converted to a narrower floating-point number (C90 6.2.1.4, C99 and C11
319 C99 Annex F is followed.
324 value is chosen for certain floating constants (C90 6.1.3.1, C99 and C11
327 C99 Annex F is followed.
331 disallowed by the @code{FP_CONTRACT} pragma (C99 and C11 6.5).}
338 @cite{The default state for the @code{FENV_ACCESS} pragma (C99 and C11
346 and classifications, and their macro names (C99 and C11 7.6, C99 and
353 @cite{The default state for the @code{FP_CONTRACT} pragma (C99 and C11
364 in an IEC 60559 conformant implementation (C99 F.9).}
372 IEC 60559 conformant implementation (C99 F.9).}
385 vice versa (C90 6.3.4, C99 and C11 6.3.2.3).}
408 C99 and C11 6.5.6/8.
412 of the same array (C90 6.3.6, C99 and C11 6.5.6).}
425 storage-class specifier are effective (C90 6.5.1, C99 and C11 6.7.1).}
450 specifier are effective (C99 and C11 6.7.4).}
474 (C90 6.5.2, C90 6.5.2.1, C99 and C11 6.7.2, C99 and C11 6.7.2.1).}
482 and @code{unsigned int} (C99 and C11 6.7.2.1).}
494 6.5.2.1, C99 and C11 6.7.2.1).}
500 6.5.2.1, C99 and C11 6.7.2.1).}
506 6.5.2.1, C99 and C11 6.7.2.1).}
512 6.5.2.2, C99 and C11 6.7.2.2).}
540 type (C90 6.5.3, C99 and C11 6.7.3).}
624 or external source file names (C90 6.1.7, C99 and C11 6.4.7).}
629 constant in the execution character set (C90 6.8.1, C99 and C11 6.10.1).}
634 negative value (C90 6.8.1, C99 and C11 6.10.1).}
639 identified (C90 6.8.2, C99 and C11 6.10.2).}
643 delimited header (C90 6.8.2, C99 and C11 6.10.2).}
648 name (C90 6.8.2, C99 and C11 6.10.2).}
651 @cite{The nesting limit for @code{#include} processing (C90 6.8.2, C99
657 character constant or string literal (C99 and C11 6.10.3.2).}
661 directive (C90 6.8.6, C99 and C11 6.10.6).}
670 6.8.8, C99 6.10.8, C11 6.10.8.1).}
683 (C90 7.1.6, C99 7.17, C11 7.19).}
698 (C90, C99 and C11 5.2.4.2, C99 7.18.2, C99 7.18.3, C11 7.20.2, C11 7.20.3).}
713 (when not explicitly specified in this International Standard) (C99
735 operators (C90 6.3.3.4, C99 and C11 6.5.3.4).}