Struct chrono::format::Parsed [] [src]

pub struct Parsed {
    pub year: Option<i32>,
    pub year_div_100: Option<i32>,
    pub year_mod_100: Option<i32>,
    pub isoyear: Option<i32>,
    pub isoyear_div_100: Option<i32>,
    pub isoyear_mod_100: Option<i32>,
    pub month: Option<u32>,
    pub week_from_sun: Option<u32>,
    pub week_from_mon: Option<u32>,
    pub isoweek: Option<u32>,
    pub weekday: Option<Weekday>,
    pub ordinal: Option<u32>,
    pub day: Option<u32>,
    pub hour_div_12: Option<u32>,
    pub hour_mod_12: Option<u32>,
    pub minute: Option<u32>,
    pub second: Option<u32>,
    pub nanosecond: Option<u32>,
    pub timestamp: Option<i64>,
    pub offset: Option<i32>,
    // some fields omitted
}

Parsed parts of date and time. There are two classes of methods:

Fields

Year.

This can be negative unlike year_div_100 and year_mod_100 fields.

Year divided by 100. Implies that the year is >= 1 BCE when set.

Due to the common usage, if this field is missing but year_mod_100 is present, it is inferred to 19 when year_mod_100 >= 70 and 20 otherwise.

Year modulo 100. Implies that the year is >= 1 BCE when set.

Year in the ISO week date.

This can be negative unlike isoyear_div_100 and isoyear_mod_100 fields.

Year in the ISO week date, divided by 100. Implies that the year is >= 1 BCE when set.

Due to the common usage, if this field is missing but isoyear_mod_100 is present, it is inferred to 19 when isoyear_mod_100 >= 70 and 20 otherwise.

Year in the ISO week date, modulo 100. Implies that the year is >= 1 BCE when set.

Month (1--12).

Week number, where the week 1 starts at the first Sunday of January (0--53, 1--53 or 1--52 depending on the year).

Week number, where the week 1 starts at the first Monday of January (0--53, 1--53 or 1--52 depending on the year).

ISO week number (1--52 or 1--53 depending on the year).

Day of the week.

Day of the year (1--365 or 1--366 depending on the year).

Day of the month (1--28, 1--29, 1--30 or 1--31 depending on the month).

Hour number divided by 12 (0--1). 0 indicates AM and 1 indicates PM.

Hour number modulo 12 (0--11).

Minute number (0--59).

Second number (0--60, accounting for leap seconds).

The number of nanoseconds since the whole second (0--999,999,999).

The number of non-leap seconds since the midnight UTC on January 1, 1970.

This can be off by one if second is 60 (a leap second).

Offset from the local time to UTC, in seconds.

Methods

impl Parsed
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Returns the initial value of parsed parts.

Tries to set the year field from given value.

Tries to set the year_div_100 field from given value.

Tries to set the year_mod_100 field from given value.

Tries to set the isoyear field from given value.

Tries to set the isoyear_div_100 field from given value.

Tries to set the isoyear_mod_100 field from given value.

Tries to set the month field from given value.

Tries to set the week_from_sun field from given value.

Tries to set the week_from_mon field from given value.

Tries to set the isoweek field from given value.

Tries to set the weekday field from given value.

Tries to set the ordinal field from given value.

Tries to set the day field from given value.

Tries to set the hour_div_12 field from given value. (false for AM, true for PM)

Tries to set the hour_mod_12 field from given hour number in 12-hour clocks.

Tries to set both hour_div_12 and hour_mod_12 fields from given value.

Tries to set the minute field from given value.

Tries to set the second field from given value.

Tries to set the nanosecond field from given value.

Tries to set the timestamp field from given value.

Tries to set the offset field from given value.

Returns a parsed naive date out of given fields.

This method is able to determine the date from given subset of fields:

  • Year, month, day.
  • Year, day of the year (ordinal).
  • Year, week number counted from Sunday or Monday, day of the week.
  • ISO week date.

Gregorian year and ISO week date year can have their century number (*_div_100) omitted, the two-digit year is used to guess the century number then.

Returns a parsed naive time out of given fields.

This method is able to determine the time from given subset of fields:

  • Hour, minute. (second and nanosecond assumed to be 0)
  • Hour, minute, second. (nanosecond assumed to be 0)
  • Hour, minute, second, nanosecond.

It is able to handle leap seconds when given second is 60.

Returns a parsed naive date and time out of given fields, except for the offset field (assumed to have a given value). This is required for parsing a local time or other known-timezone inputs.

This method is able to determine the combined date and time from date and time fields or a single timestamp field. Either way those fields have to be consistent to each other.

Returns a parsed fixed time zone offset out of given fields.

Returns a parsed timezone-aware date and time out of given fields.

This method is able to determine the combined date and time from date and time fields or a single timestamp field, plus a time zone offset. Either way those fields have to be consistent to each other.

Returns a parsed timezone-aware date and time out of given fields, with an additional TimeZone used to interpret and validate the local date.

This method is able to determine the combined date and time from date and time fields or a single timestamp field, plus a time zone offset. Either way those fields have to be consistent to each other. If parsed fields include an UTC offset, it also has to be consistent to offset.

Trait Implementations

impl Clone for Parsed
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Returns a copy of the value. Read more

Performs copy-assignment from source. Read more

impl PartialEq for Parsed
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This method tests for self and other values to be equal, and is used by ==. Read more

This method tests for !=.

impl Debug for Parsed
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Formats the value using the given formatter. Read more

impl Default for Parsed
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Returns the "default value" for a type. Read more

Auto Trait Implementations

impl Send for Parsed

impl Sync for Parsed