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https://github.com/ClickHouse/ClickHouse.git
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406 lines
11 KiB
C++
406 lines
11 KiB
C++
#pragma once
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#include <base/extended_types.h>
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#include <Common/Exception.h>
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#include <Core/Types.h>
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#include <IO/ReadBuffer.h>
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#include <IO/ReadHelpers.h>
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#include <IO/WriteBufferFromString.h>
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#include <IO/WriteHelpers.h>
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#include <cstdint>
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namespace DB
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{
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namespace ErrorCodes
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{
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extern const int CANNOT_PARSE_INPUT_ASSERTION_FAILED;
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extern const int CANNOT_PARSE_DATE;
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extern const int CANNOT_FORMAT_DATETIME;
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extern const int LOGICAL_ERROR;
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}
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/** Proleptic Gregorian calendar date. YearT is an integral type
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* which should be at least 32 bits wide, and should preferably
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* be signed.
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*/
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template <typename YearT = int32_t>
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class GregorianDate
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{
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public:
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/** Construct from date in text form 'YYYY-MM-DD' by reading from
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* ReadBuffer.
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*/
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GregorianDate(ReadBuffer & in);
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/** Construct from Modified Julian Day. The type T is an
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* integral type which should be at least 32 bits wide, and
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* should preferably signed.
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*/
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GregorianDate(is_integer auto mjd);
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/** Convert to Modified Julian Day. The type T is an integral type
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* which should be at least 32 bits wide, and should preferably
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* signed.
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*/
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template <is_integer T>
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T toModifiedJulianDay() const;
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/** Write the date in text form 'YYYY-MM-DD' to a buffer.
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*/
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void write(WriteBuffer & buf) const;
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/** Convert to a string in text form 'YYYY-MM-DD'.
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*/
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std::string toString() const;
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YearT year() const noexcept
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{
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return year_;
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}
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uint8_t month() const noexcept
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{
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return month_;
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}
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uint8_t day_of_month() const noexcept
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{
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return day_of_month_;
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}
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private:
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YearT year_;
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uint8_t month_;
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uint8_t day_of_month_;
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};
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/** ISO 8601 Ordinal Date. YearT is an integral type which should
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* be at least 32 bits wide, and should preferably signed.
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*/
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template <typename YearT = int32_t>
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class OrdinalDate
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{
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public:
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OrdinalDate(YearT year, uint16_t day_of_year);
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/** Construct from Modified Julian Day. The type T is an
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* integral type which should be at least 32 bits wide, and
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* should preferably signed.
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*/
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OrdinalDate(is_integer auto mjd);
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/** Convert to Modified Julian Day. The type T is an integral
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* type which should be at least 32 bits wide, and should
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* preferably be signed.
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*/
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template <is_integer T>
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T toModifiedJulianDay() const noexcept;
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YearT year() const noexcept
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{
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return year_;
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}
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uint16_t dayOfYear() const noexcept
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{
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return day_of_year_;
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}
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private:
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YearT year_;
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uint16_t day_of_year_;
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};
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class MonthDay
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{
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public:
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/** Construct from month and day. */
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MonthDay(uint8_t month, uint8_t day_of_month);
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/** Construct from day of year in Gregorian or Julian
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* calendars to month and day.
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*/
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MonthDay(bool is_leap_year, uint16_t day_of_year);
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/** Convert month and day in Gregorian or Julian calendars to
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* day of year.
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*/
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uint16_t dayOfYear(bool is_leap_year) const;
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uint8_t month() const noexcept
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{
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return month_;
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}
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uint8_t day_of_month() const noexcept
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{
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return day_of_month_;
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}
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private:
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uint8_t month_;
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uint8_t day_of_month_;
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};
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}
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/* Implementation */
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namespace gd
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{
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using namespace DB;
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template <typename YearT>
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static inline constexpr bool is_leap_year(YearT year)
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{
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return (year % 4 == 0) && ((year % 400 == 0) || (year % 100 != 0));
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}
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static inline constexpr uint8_t monthLength(bool is_leap_year, uint8_t month)
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{
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switch (month)
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{
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case 1: return 31;
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case 2: return is_leap_year ? 29 : 28;
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case 3: return 31;
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case 4: return 30;
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case 5: return 31;
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case 6: return 30;
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case 7: return 31;
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case 8: return 31;
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case 9: return 30;
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case 10: return 31;
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case 11: return 30;
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case 12: return 31;
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default:
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std::terminate();
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}
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}
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/** Integer division truncated toward negative infinity.
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*/
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template <typename I, typename J>
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static inline constexpr I div(I x, J y)
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{
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const auto y_ = static_cast<I>(y);
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if (x > 0 && y_ < 0)
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return ((x - 1) / y_) - 1;
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else if (x < 0 && y_ > 0)
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return ((x + 1) / y_) - 1;
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else
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return x / y_;
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}
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/** Integer modulus, satisfying div(x, y)*y + mod(x, y) == x.
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*/
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template <typename I, typename J>
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static inline constexpr I mod(I x, J y)
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{
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const auto y_ = static_cast<I>(y);
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const auto r = x % y_;
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if ((x > 0 && y_ < 0) || (x < 0 && y_ > 0))
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return r == 0 ? static_cast<I>(0) : r + y_;
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else
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return r;
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}
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/** Like std::min(), but the type of operands may differ.
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*/
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template <typename I, typename J>
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static inline constexpr I min(I x, J y)
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{
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const auto y_ = static_cast<I>(y);
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return x < y_ ? x : y_;
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}
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static inline char readDigit(ReadBuffer & in)
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{
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char c;
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if (!in.read(c))
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throw Exception(
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"Cannot parse input: expected a digit at the end of stream",
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ErrorCodes::CANNOT_PARSE_INPUT_ASSERTION_FAILED);
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else if (c < '0' || c > '9')
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throw Exception(
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"Cannot read input: expected a digit but got something else",
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ErrorCodes::CANNOT_PARSE_INPUT_ASSERTION_FAILED);
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else
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return c - '0';
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}
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}
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namespace DB
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{
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template <typename YearT>
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GregorianDate<YearT>::GregorianDate(ReadBuffer & in)
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{
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year_ = gd::readDigit(in) * 1000
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+ gd::readDigit(in) * 100
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+ gd::readDigit(in) * 10
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+ gd::readDigit(in);
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assertChar('-', in);
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month_ = gd::readDigit(in) * 10
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+ gd::readDigit(in);
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assertChar('-', in);
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day_of_month_ = gd::readDigit(in) * 10
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+ gd::readDigit(in);
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assertEOF(in);
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if (month_ < 1 || month_ > 12 || day_of_month_ < 1 || day_of_month_ > gd::monthLength(gd::is_leap_year(year_), month_))
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throw Exception("Invalid date: " + toString(), ErrorCodes::CANNOT_PARSE_DATE);
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}
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template <typename YearT>
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GregorianDate<YearT>::GregorianDate(is_integer auto mjd)
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{
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const OrdinalDate<YearT> ord(mjd);
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const MonthDay md(gd::is_leap_year(ord.year()), ord.dayOfYear());
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year_ = ord.year();
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month_ = md.month();
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day_of_month_ = md.day_of_month();
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}
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template <typename YearT>
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template <is_integer T>
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T GregorianDate<YearT>::toModifiedJulianDay() const
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{
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const MonthDay md(month_, day_of_month_);
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const auto day_of_year = md.dayOfYear(gd::is_leap_year(year_));
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const OrdinalDate<YearT> ord(year_, day_of_year);
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return ord.template toModifiedJulianDay<T>();
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}
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template <typename YearT>
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void GregorianDate<YearT>::write(WriteBuffer & buf) const
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{
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if (year_ < 0 || year_ > 9999)
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{
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throw Exception(
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"Impossible to stringify: year too big or small: " + DB::toString(year_),
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ErrorCodes::CANNOT_FORMAT_DATETIME);
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}
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else
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{
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auto y = year_;
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writeChar('0' + y / 1000, buf); y %= 1000;
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writeChar('0' + y / 100, buf); y %= 100;
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writeChar('0' + y / 10, buf); y %= 10;
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writeChar('0' + y , buf);
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writeChar('-', buf);
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auto m = month_;
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writeChar('0' + m / 10, buf); m %= 10;
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writeChar('0' + m , buf);
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writeChar('-', buf);
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auto d = day_of_month_;
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writeChar('0' + d / 10, buf); d %= 10;
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writeChar('0' + d , buf);
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}
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}
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template <typename YearT>
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std::string GregorianDate<YearT>::toString() const
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{
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WriteBufferFromOwnString buf;
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write(buf);
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return buf.str();
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}
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template <typename YearT>
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OrdinalDate<YearT>::OrdinalDate(YearT year, uint16_t day_of_year)
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: year_(year)
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, day_of_year_(day_of_year)
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{
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if (day_of_year < 1 || day_of_year > (gd::is_leap_year(year) ? 366 : 365))
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{
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throw Exception(
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"Invalid ordinal date: " + toString(year) + "-" + toString(day_of_year),
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ErrorCodes::LOGICAL_ERROR);
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}
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}
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template <typename YearT>
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OrdinalDate<YearT>::OrdinalDate(is_integer auto mjd)
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{
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const auto a = mjd + 678575;
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const auto quad_cent = gd::div(a, 146097);
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const auto b = gd::mod(a, 146097);
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const auto cent = gd::min(gd::div(b, 36524), 3);
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const auto c = b - cent * 36524;
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const auto quad = gd::div(c, 1461);
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const auto d = gd::mod(c, 1461);
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const auto y = gd::min(gd::div(d, 365), 3);
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day_of_year_ = d - y * 365 + 1;
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year_ = quad_cent * 400 + cent * 100 + quad * 4 + y + 1;
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}
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template <typename YearT>
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template <is_integer T>
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T OrdinalDate<YearT>::toModifiedJulianDay() const noexcept
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{
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const auto y = year_ - 1;
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return day_of_year_
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+ 365 * y
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+ gd::div(y, 4)
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- gd::div(y, 100)
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+ gd::div(y, 400)
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- 678576;
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}
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inline MonthDay::MonthDay(uint8_t month, uint8_t day_of_month)
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: month_(month)
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, day_of_month_(day_of_month)
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{
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if (month < 1 || month > 12)
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throw Exception(
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"Invalid month: " + DB::toString(month),
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ErrorCodes::LOGICAL_ERROR);
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/* We can't validate day_of_month here, because we don't know if
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* it's a leap year. */
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}
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inline MonthDay::MonthDay(bool is_leap_year, uint16_t day_of_year)
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{
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if (day_of_year < 1 || day_of_year > (is_leap_year ? 366 : 365))
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throw Exception(
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std::string("Invalid day of year: ") +
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(is_leap_year ? "leap, " : "non-leap, ") + DB::toString(day_of_year),
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ErrorCodes::LOGICAL_ERROR);
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month_ = 1;
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uint16_t d = day_of_year;
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while (true)
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{
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const auto len = gd::monthLength(is_leap_year, month_);
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if (d <= len)
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break;
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month_++;
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d -= len;
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}
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day_of_month_ = d;
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}
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inline uint16_t MonthDay::dayOfYear(bool is_leap_year) const
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{
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if (day_of_month_ < 1 || day_of_month_ > gd::monthLength(is_leap_year, month_))
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{
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throw Exception(
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std::string("Invalid day of month: ") +
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(is_leap_year ? "leap, " : "non-leap, ") + DB::toString(month_) +
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"-" + DB::toString(day_of_month_),
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ErrorCodes::LOGICAL_ERROR);
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}
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const auto k = month_ <= 2 ? 0 : is_leap_year ? -1 :-2;
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return (367 * month_ - 362) / 12 + k + day_of_month_;
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}
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}
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