src/time/mktime.cpp - llvm-project/libc - Git at Google

 //===-- Implementation of mktime function ---------------------------------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #include "src/time/mktime.h"
 #include "src/__support/common.h"
 #include "src/time/time_utils.h"

 namespace LIBC_NAMESPACE {

 using LIBC_NAMESPACE::time_utils::TimeConstants;

 static constexpr int NON_LEAP_YEAR_DAYS_IN_MONTH[] = {31, 28, 31, 30, 31, 30,
                                                       31, 31, 30, 31, 30, 31};

 // Returns number of years from (1, year).
 static constexpr int64_t get_num_of_leap_years_before(int64_t year) {
   return (year / 4) - (year / 100) + (year / 400);
 }

 // Returns True if year is a leap year.
 static constexpr bool is_leap_year(const int64_t year) {
   return (((year) % 4) == 0 && (((year) % 100) != 0 || ((year) % 400) == 0));
 }

 LLVM_LIBC_FUNCTION(time_t, mktime, (struct tm * tm_out)) {
   // Unlike most C Library functions, mktime doesn't just die on bad input.
   // TODO(rtenneti); Handle leap seconds.
   int64_t tm_year_from_base = tm_out->tm_year + TimeConstants::TIME_YEAR_BASE;

   // 32-bit end-of-the-world is 03:14:07 UTC on 19 January 2038.
   if (sizeof(time_t) == 4 &&
       tm_year_from_base >= TimeConstants::END_OF32_BIT_EPOCH_YEAR) {
     if (tm_year_from_base > TimeConstants::END_OF32_BIT_EPOCH_YEAR)
       return time_utils::out_of_range();
     if (tm_out->tm_mon > 0)
       return time_utils::out_of_range();
     if (tm_out->tm_mday > 19)
       return time_utils::out_of_range();
     if (tm_out->tm_hour > 3)
       return time_utils::out_of_range();
     if (tm_out->tm_min > 14)
       return time_utils::out_of_range();
     if (tm_out->tm_sec > 7)
       return time_utils::out_of_range();
   }

   // Years are ints.  A 32-bit year will fit into a 64-bit time_t.
   // A 64-bit year will not.
   static_assert(
       sizeof(int) == 4,
       "ILP64 is unimplemented. This implementation requires 32-bit integers.");

   // Calculate number of months and years from tm_mon.
   int64_t month = tm_out->tm_mon;
   if (month < 0 || month >= TimeConstants::MONTHS_PER_YEAR - 1) {
     int64_t years = month / 12;
     month %= 12;
     if (month < 0) {
       years--;
       month += 12;
     }
     tm_year_from_base += years;
   }
   bool tm_year_is_leap = is_leap_year(tm_year_from_base);

   // Calculate total number of days based on the month and the day (tm_mday).
   int64_t total_days = tm_out->tm_mday - 1;
   for (int64_t i = 0; i < month; ++i)
     total_days += NON_LEAP_YEAR_DAYS_IN_MONTH[i];
   // Add one day if it is a leap year and the month is after February.
   if (tm_year_is_leap && month > 1)
     total_days++;

   // Calculate total numbers of days based on the year.
   total_days += (tm_year_from_base - TimeConstants::EPOCH_YEAR) *
                 TimeConstants::DAYS_PER_NON_LEAP_YEAR;
   if (tm_year_from_base >= TimeConstants::EPOCH_YEAR) {
     total_days += get_num_of_leap_years_before(tm_year_from_base - 1) -
                   get_num_of_leap_years_before(TimeConstants::EPOCH_YEAR);
   } else if (tm_year_from_base >= 1) {
     total_days -= get_num_of_leap_years_before(TimeConstants::EPOCH_YEAR) -
                   get_num_of_leap_years_before(tm_year_from_base - 1);
   } else {
     // Calculate number of leap years until 0th year.
     total_days -= get_num_of_leap_years_before(TimeConstants::EPOCH_YEAR) -
                   get_num_of_leap_years_before(0);
     if (tm_year_from_base <= 0) {
       total_days -= 1; // Subtract 1 for 0th year.
       // Calculate number of leap years until -1 year
       if (tm_year_from_base < 0) {
         total_days -= get_num_of_leap_years_before(-tm_year_from_base) -
                       get_num_of_leap_years_before(1);
       }
     }
   }

   // TODO(rtenneti): Need to handle timezone and update of tm_isdst.
   int64_t seconds = tm_out->tm_sec +
                     tm_out->tm_min * TimeConstants::SECONDS_PER_MIN +
                     tm_out->tm_hour * TimeConstants::SECONDS_PER_HOUR +
                     total_days * TimeConstants::SECONDS_PER_DAY;

   // Update the tm structure's year, month, day, etc. from seconds.
   if (time_utils::update_from_seconds(seconds, tm_out) < 0)
     return time_utils::out_of_range();

   return static_cast<time_t>(seconds);
 }

 } // namespace LIBC_NAMESPACE
	//===-- Implementation of mktime function ---------------------------------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#include "src/time/mktime.h"
	#include "src/__support/common.h"
	#include "src/time/time_utils.h"

	namespace LIBC_NAMESPACE {

	using LIBC_NAMESPACE::time_utils::TimeConstants;

	static constexpr int NON_LEAP_YEAR_DAYS_IN_MONTH[] = {31, 28, 31, 30, 31, 30,
	31, 31, 30, 31, 30, 31};

	// Returns number of years from (1, year).
	static constexpr int64_t get_num_of_leap_years_before(int64_t year) {
	return (year / 4) - (year / 100) + (year / 400);
	}

	// Returns True if year is a leap year.
	static constexpr bool is_leap_year(const int64_t year) {
	return (((year) % 4) == 0 && (((year) % 100) != 0 \|\| ((year) % 400) == 0));
	}

	LLVM_LIBC_FUNCTION(time_t, mktime, (struct tm * tm_out)) {
	// Unlike most C Library functions, mktime doesn't just die on bad input.
	// TODO(rtenneti); Handle leap seconds.
	int64_t tm_year_from_base = tm_out->tm_year + TimeConstants::TIME_YEAR_BASE;

	// 32-bit end-of-the-world is 03:14:07 UTC on 19 January 2038.
	if (sizeof(time_t) == 4 &&
	tm_year_from_base >= TimeConstants::END_OF32_BIT_EPOCH_YEAR) {
	if (tm_year_from_base > TimeConstants::END_OF32_BIT_EPOCH_YEAR)
	return time_utils::out_of_range();
	if (tm_out->tm_mon > 0)
	return time_utils::out_of_range();
	if (tm_out->tm_mday > 19)
	return time_utils::out_of_range();
	if (tm_out->tm_hour > 3)
	return time_utils::out_of_range();
	if (tm_out->tm_min > 14)
	return time_utils::out_of_range();
	if (tm_out->tm_sec > 7)
	return time_utils::out_of_range();
	}

	// Years are ints. A 32-bit year will fit into a 64-bit time_t.
	// A 64-bit year will not.
	static_assert(
	sizeof(int) == 4,
	"ILP64 is unimplemented. This implementation requires 32-bit integers.");

	// Calculate number of months and years from tm_mon.
	int64_t month = tm_out->tm_mon;
	if (month < 0 \|\| month >= TimeConstants::MONTHS_PER_YEAR - 1) {
	int64_t years = month / 12;
	month %= 12;
	if (month < 0) {
	years--;
	month += 12;
	}
	tm_year_from_base += years;
	}
	bool tm_year_is_leap = is_leap_year(tm_year_from_base);

	// Calculate total number of days based on the month and the day (tm_mday).
	int64_t total_days = tm_out->tm_mday - 1;
	for (int64_t i = 0; i < month; ++i)
	total_days += NON_LEAP_YEAR_DAYS_IN_MONTH[i];
	// Add one day if it is a leap year and the month is after February.
	if (tm_year_is_leap && month > 1)
	total_days++;

	// Calculate total numbers of days based on the year.
	total_days += (tm_year_from_base - TimeConstants::EPOCH_YEAR) *
	TimeConstants::DAYS_PER_NON_LEAP_YEAR;
	if (tm_year_from_base >= TimeConstants::EPOCH_YEAR) {
	total_days += get_num_of_leap_years_before(tm_year_from_base - 1) -
	get_num_of_leap_years_before(TimeConstants::EPOCH_YEAR);
	} else if (tm_year_from_base >= 1) {
	total_days -= get_num_of_leap_years_before(TimeConstants::EPOCH_YEAR) -
	get_num_of_leap_years_before(tm_year_from_base - 1);
	} else {
	// Calculate number of leap years until 0th year.
	total_days -= get_num_of_leap_years_before(TimeConstants::EPOCH_YEAR) -
	get_num_of_leap_years_before(0);
	if (tm_year_from_base <= 0) {
	total_days -= 1; // Subtract 1 for 0th year.
	// Calculate number of leap years until -1 year
	if (tm_year_from_base < 0) {
	total_days -= get_num_of_leap_years_before(-tm_year_from_base) -
	get_num_of_leap_years_before(1);
	}
	}
	}

	// TODO(rtenneti): Need to handle timezone and update of tm_isdst.
	int64_t seconds = tm_out->tm_sec +
	tm_out->tm_min * TimeConstants::SECONDS_PER_MIN +
	tm_out->tm_hour * TimeConstants::SECONDS_PER_HOUR +
	total_days * TimeConstants::SECONDS_PER_DAY;

	// Update the tm structure's year, month, day, etc. from seconds.
	if (time_utils::update_from_seconds(seconds, tm_out) < 0)
	return time_utils::out_of_range();

	return static_cast<time_t>(seconds);
	}

	} // namespace LIBC_NAMESPACE