{* Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. *} //#ifndef APR_TIME_H //#define APR_TIME_H {** * @file apr_time.h * @brief APR Time Library *} //#include "apr.h" //#include "apr_pools.h" //#include "apr_errno.h" (** * @defgroup apr_time Time Routines * @ingroup APR * @{ *) //** month names */ //APR_DECLARE_DATA extern const char apr_month_snames[12][4]; //** day names */ //APR_DECLARE_DATA extern const char apr_day_snames[7][4]; type //** number of microseconds since 00:00:00 january 1, 1970 UTC */ //typedef apr_int64_t apr_time_t; apr_time_t = apr_int64_t; Papr_time_t = ^apr_time_t; //** mechanism to properly type apr_time_t literals */ //#define APR_TIME_C(val) APR_INT64_C(val) //** mechanism to properly print apr_time_t values */ //#define APR_TIME_T_FMT APR_INT64_T_FMT //** intervals for I/O timeouts, in microseconds */ //typedef apr_int64_t apr_interval_time_t; apr_interval_time_t = apr_int64_t; Papr_interval_time_t = ^apr_interval_time_t; //** short interval for I/O timeouts, in microseconds */ //typedef apr_int32_t apr_short_interval_time_t; apr_short_interval_time_t = apr_int32_t; { /** number of microseconds per second */ #define APR_USEC_PER_SEC APR_TIME_C(1000000) /** @return apr_time_t as a second */ #define apr_time_sec(time) ((time) / APR_USEC_PER_SEC) /** @return apr_time_t as a usec */ #define apr_time_usec(time) ((time) % APR_USEC_PER_SEC) /** @return apr_time_t as a msec */ #define apr_time_msec(time) (((time) / 1000) % 1000) /** @return apr_time_t as a msec */ #define apr_time_as_msec(time) ((time) / 1000) /** @return milliseconds as an apr_time_t */ #define apr_time_from_msec(msec) ((apr_time_t)(msec) * 1000) /** @return seconds as an apr_time_t */ #define apr_time_from_sec(sec) ((apr_time_t)(sec) * APR_USEC_PER_SEC) /** @return a second and usec combination as an apr_time_t */ #define apr_time_make(sec, usec) ((apr_time_t)(sec) * APR_USEC_PER_SEC \ + (apr_time_t)(usec)) } {** * @return the current time *} //APR_DECLARE(apr_time_t) apr_time_now(void); function apr_time_now: apr_time_t; {$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF} external LibAPR name LibNamePrefix + 'apr_time_now' + LibSuff0; //** @see apr_time_exp_t */ //typedef struct apr_time_exp_t apr_time_exp_t; type Papr_time_exp_t = ^apr_time_exp_t; {** * a structure similar to ANSI struct tm with the following differences: * - tm_usec isn't an ANSI field * - tm_gmtoff isn't an ANSI field (it's a bsdism) *} apr_time_exp_t = record //** microseconds past tm_sec */ tm_usec: apr_int32_t; //** (0-61) seconds past tm_min */ tm_sec: apr_int32_t; //** (0-59) minutes past tm_hour */ tm_min: apr_int32_t; //** (0-23) hours past midnight */ tm_hour: apr_int32_t; //** (1-31) day of the month */ tm_mday: apr_int32_t; //** (0-11) month of the year */ tm_mon: apr_int32_t; //** year since 1900 */ tm_year: apr_int32_t; //** (0-6) days since sunday */ tm_wday: apr_int32_t; //** (0-365) days since jan 1 */ tm_yday: apr_int32_t; //** daylight saving time */ tm_isdst: apr_int32_t; //** seconds east of UTC */ tm_gmtoff: apr_int32_t; end; {** * convert an ansi time_t to an apr_time_t * @param result the resulting apr_time_t * @param input the time_t to convert *} //APR_DECLARE(apr_status_t) apr_time_ansi_put(apr_time_t *result, // time_t input); function apr_time_ansi_put(result: Papr_time_t; input: time_t): apr_status_t; {$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF} external LibAPR name LibNamePrefix + 'apr_time_ansi_put' + LibSuff12;//time_t is 64bit so it is 12 {** * convert a time to its human readable components using an offset * from GMT * @param result the exploded time * @param input the time to explode * @param offs the number of seconds offset to apply *} //APR_DECLARE(apr_status_t) apr_time_exp_tz(apr_time_exp_t *result, // apr_time_t input, // apr_int32_t offs); function apr_time_exp_tz(result_: Papr_time_exp_t; input_: apr_time_t; offs: apr_int32_t): apr_status_t; {$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF} external LibAPR name LibNamePrefix + 'apr_time_exp_tz' + LibSuff16;//apr_time_t is 64bit so it is 16 {** * convert a time to its human readable components in GMT timezone * @param result the exploded time * @param input the time to explode *} //APR_DECLARE(apr_status_t) apr_time_exp_gmt(apr_time_exp_t *result, // apr_time_t input); function apr_time_exp_gmt(result_: Papr_time_exp_t; input_: apr_time_t): apr_status_t; {$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF} external LibAPR name LibNamePrefix + 'apr_time_exp_gmt' + LibSuff12;//apr_time_t is 64bit so it is 12 {** * convert a time to its human readable components in local timezone * @param result the exploded time * @param input the time to explode *} //APR_DECLARE(apr_status_t) apr_time_exp_lt(apr_time_exp_t *result, // apr_time_t input); function apr_time_exp_lt(result_: Papr_time_exp_t; input_: apr_time_t): apr_status_t; {$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF} external LibAPR name LibNamePrefix + 'apr_time_exp_lt' + LibSuff12;//apr_time_t is 64bit so it is 12 {** * Convert time value from human readable format to a numeric apr_time_t * e.g. elapsed usec since epoch * @param result the resulting imploded time * @param input the input exploded time *} //APR_DECLARE(apr_status_t) apr_time_exp_get(apr_time_t *result, // apr_time_exp_t *input); function apr_time_exp_get(result_: Papr_time_t; input_: Papr_time_exp_t): apr_status_t; {$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF} external LibAPR name LibNamePrefix + 'apr_time_exp_get' + LibSuff8; {** * Convert time value from human readable format to a numeric apr_time_t that * always represents GMT * @param result the resulting imploded time * @param input the input exploded time *} //APR_DECLARE(apr_status_t) apr_time_exp_gmt_get(apr_time_t *result, // apr_time_exp_t *input); function apr_time_exp_gmt_get(result_: Papr_time_t; input_: Papr_time_exp_t): apr_status_t; {$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF} external LibAPR name LibNamePrefix + 'apr_time_exp_gmt_get' + LibSuff8; {** * Sleep for the specified number of micro-seconds. * @param t desired amount of time to sleep. * @warning May sleep for longer than the specified time. *} //APR_DECLARE(void) apr_sleep(apr_interval_time_t t); procedure apr_sleep(t: apr_interval_time_t); {$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF} external LibAPR name LibNamePrefix + 'apr_sleep' + LibSuff8;//apr_interval_time_t is 64bit, so it is 8 //** length of a RFC822 Date */ //#define APR_RFC822_DATE_LEN (30) const APR_RFC822_DATE_LEN = (30); {** * apr_rfc822_date formats dates in the RFC822 * format in an efficient manner. It is a fixed length * format which requires the indicated amount of storage, * including the trailing NUL terminator. * @param date_str String to write to. * @param t the time to convert *} //APR_DECLARE(apr_status_t) apr_rfc822_date(char *date_str, apr_time_t t); function apr_rfc822_date(date_str: PChar; t: apr_time_t): apr_status_t; {$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF} external LibAPR name LibNamePrefix + 'apr_rfc822_date' + LibSuff12;//apr_time_t is 64bit so it is 12 //** length of a CTIME date */ //#define APR_CTIME_LEN (25) const APR_CTIME_LEN = (25); {** * apr_ctime formats dates in the ctime() format * in an efficient manner. it is a fixed length format * and requires the indicated amount of storage including * the trailing NUL terminator. * Unlike ANSI/ISO C ctime(), apr_ctime() does not include * a \n at the end of the string. * @param date_str String to write to. * @param t the time to convert *} //APR_DECLARE(apr_status_t) apr_ctime(char *date_str, apr_time_t t); function apr_ctime(date_str: PChar; t: apr_time_t): apr_status_t; {$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF} external LibAPR name LibNamePrefix + 'apr_ctime' + LibSuff12;//apr_time_t is 64bit so it is 12 {** * formats the exploded time according to the format specified * @param s string to write to * @param retsize The length of the returned string * @param max The maximum length of the string * @param format The format for the time string * @param tm The time to convert *} //APR_DECLARE(apr_status_t) apr_strftime(char *s, apr_size_t *retsize, // apr_size_t max, const char *format, // apr_time_exp_t *tm); function apr_strftime(s: PChar; retsize, max: apr_size_t; const format_: PChar; tm: Papr_time_exp_t): apr_status_t; {$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF} external LibAPR name LibNamePrefix + 'apr_strftime' + LibSuff20; {** * Improve the clock resolution for the lifetime of the given pool. * Generally this is only desireable on benchmarking and other very * time-sensitive applications, and has no impact on most platforms. * @param p The pool to associate the finer clock resolution *} //APR_DECLARE(void) apr_time_clock_hires(apr_pool_t *p); procedure apr_time_clock_hires(p: Papr_pool_t); {$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF} external LibAPR name LibNamePrefix + 'apr_time_clock_hires' + LibSuff4; (** @} *) //#endif /* ! APR_TIME_H */