View Source Timex.Duration (timex v3.7.11)
This module provides a friendly API for working with Erlang
timestamps, i.e. {megasecs, secs, microsecs}
. In addition,
it provides an easy way to wrap the measurement of function
execution time (via measure
).
Link to this section Summary
Functions
Returns the absolute value of the provided Duration.
Add one Duration to another.
This function determines the difference in time between two timestamps
(represented by Duration structs). If the second timestamp is omitted,
Duration.now
will be used as the reference timestamp. If the first
timestamp argument occurs before the second, the resulting measurement will
be a negative value.
An alias for Duration.diff/3
Returns the duration since the first day of year 0 to Epoch.
Returns the amount of time since the first day of year 0 to Epoch.
Converts a clock tuple, i.e. {hour, minute, second, microsecond}
to a Duration.
Converts an integer value representing days to a Duration
Converts an Erlang timestamp to a Duration
Converts an integer value representing hours to a Duration
Converts an integer value representing microseconds to a Duration
Converts an integer value representing milliseconds to a Duration
Converts an integer value representing minutes to a Duration
Converts an integer value representing seconds to a Duration
Converts a Time to a Duration
Converts an integer value representing weeks to a Duration
Invert a Duration, i.e. a positive duration becomes a negative one, and vice versa
Evaluates fun() and measures the elapsed time.
Evaluates apply(fun, args)
, and measures execution time.
Evaluates apply(module, fun, args)
, and measures execution time.
Returns the amount of time since Epoch.
Same as parse/1, but returns the Duration unwrapped, and raises on error
Same as parse/2, but returns the Duration unwrapped, and raises on error
Parses a duration string (in ISO-8601 format) into a Duration struct.
Parses a duration string into a Duration struct, using the provided parser module.
Scale a Duration by some coefficient value, i.e. a scale of 2 is twice is long.
Subtract one Duration from another.
Converts a Duration to a clock tuple, i.e. {hour,minute,second,microsecond}
.
Converts a Duration to its value in days
Converts a Duration to an Erlang timestamp
Converts a Duration to its value in hours
Converts a Duration to its value in microseconds
Converts a Duration to its value in milliseconds
Converts a Duration to its value in minutes
Converts a Duration to its value in seconds
Converts a Duration to a string, using the ISO standard for formatting durations.
Same as to_time/1, but returns the Time directly. Raises an error if the duration does not fit within a 24-hour clock.
Converts a Duration to a Time if the duration fits within a 24-hour clock. If it does not, an error tuple is returned.
Converts a Duration to its value in weeks
Return a timestamp representing a time lapse of length 0.
Link to this section Types
@type measurement_units() ::
:microseconds | :milliseconds | :seconds | :minutes | :hours
@type to_options() :: [{:truncate, boolean()}]
@type units() ::
:microsecond
| :microseconds
| :millisecond
| :milliseconds
| :second
| :seconds
| :minutes
| :hours
| :days
| :weeks
Link to this section Functions
Returns the absolute value of the provided Duration.
example
Example
iex> d = %Timex.Duration{megaseconds: -1, seconds: -2, microseconds: -3}
...> Timex.Duration.abs(d)
%Timex.Duration{megaseconds: 1, seconds: 2, microseconds: 3}
Add one Duration to another.
examples
Examples
iex> d = %Timex.Duration{megaseconds: 1, seconds: 1, microseconds: 1}
...> Timex.Duration.add(d, d)
%Timex.Duration{megaseconds: 2, seconds: 2, microseconds: 2}
iex> d = %Timex.Duration{megaseconds: 1, seconds: 750000, microseconds: 750000}
...> Timex.Duration.add(d, d)
%Timex.Duration{megaseconds: 3, seconds: 500001, microseconds: 500000}
This function determines the difference in time between two timestamps
(represented by Duration structs). If the second timestamp is omitted,
Duration.now
will be used as the reference timestamp. If the first
timestamp argument occurs before the second, the resulting measurement will
be a negative value.
The type argument is an atom indicating the units the measurement should be returned in. If no type argument is provided, a Duration will be returned.
Valid measurement units for this function are:
:microseconds, :milliseconds, :seconds, :minutes, :hours, :days, or :weeks
examples
Examples
iex> alias Timex.Duration
...> d = Duration.from_erl({1457, 136000, 785000})
...> Duration.diff(d, Duration.zero, :days)
16865
An alias for Duration.diff/3
@spec epoch() :: t()
Returns the duration since the first day of year 0 to Epoch.
example
Example
iex> Timex.Duration.epoch()
%Timex.Duration{megaseconds: 62_167, seconds: 219_200, microseconds: 0}
@spec epoch(nil) :: t()
@spec epoch(units()) :: non_neg_integer()
Returns the amount of time since the first day of year 0 to Epoch.
The argument is an atom indicating the type of time units to return.
The allowed unit type atoms are:
- :microseconds
- :milliseconds
- :seconds
- :minutes
- :hours
- :days
- :weeks
examples
Examples
iex> Timex.Duration.epoch(:seconds)
62_167_219_200
If the specified type is nil, a duration since the first day of year 0 to Epoch is returned.
iex> Timex.Duration.epoch(nil)
%Timex.Duration{megaseconds: 62_167, seconds: 219_200, microseconds: 0}
Converts a clock tuple, i.e. {hour, minute, second, microsecond}
to a Duration.
example
Example
iex> Timex.Duration.from_clock({1, 2, 3, 4})
%Timex.Duration{megaseconds: 0, seconds: 3723, microseconds: 4}
Converts an integer value representing days to a Duration
@spec from_erl(Timex.Types.timestamp()) :: t()
Converts an Erlang timestamp to a Duration
example
Example
iex> Timex.Duration.from_erl({1, 2, 3})
%Timex.Duration{megaseconds: 1, seconds: 2, microseconds: 3}
Converts an integer value representing hours to a Duration
Converts an integer value representing microseconds to a Duration
Converts an integer value representing milliseconds to a Duration
Converts an integer value representing minutes to a Duration
Converts an integer value representing seconds to a Duration
Converts a Time to a Duration
example
Example
iex> Timex.Duration.from_time(~T[01:01:30])
%Timex.Duration{megaseconds: 0, seconds: 3690, microseconds: 0}
Converts an integer value representing weeks to a Duration
Invert a Duration, i.e. a positive duration becomes a negative one, and vice versa
example
Example
iex> d = %Timex.Duration{megaseconds: -1, seconds: -2, microseconds: -3}
...> Timex.Duration.invert(d)
%Timex.Duration{megaseconds: 1, seconds: 2, microseconds: 3}
Evaluates fun() and measures the elapsed time.
Returns {Duration.t, result}
.
example
Example
iex> {_timestamp, result} = Duration.measure(fn -> 2 * 2 end)
...> result == 4
true
Evaluates apply(fun, args)
, and measures execution time.
Returns {Duration.t, result}
.
example
Example
iex> {_timestamp, result} = Duration.measure(fn x, y -> x * y end, [2, 4])
...> result == 8
true
Evaluates apply(module, fun, args)
, and measures execution time.
Returns {Duration.t, result}
.
example
Example
iex> {_timestamp, result} = Duration.measure(Enum, :map, [[1,2], &(&1*2)])
...> result == [2, 4]
true
@spec now(nil) :: t()
@spec now(units()) :: non_neg_integer()
Returns the amount of time since Epoch.
The argument is an atom indicating the type of time units to return.
The allowed unit type atoms are:
- :microsecond(s)
- :millisecond(s)
- :second(s)
- :minutes
- :hours
- :days
- :weeks
examples
Examples
iex> Timex.Duration.now(:seconds)
1483141644
When the argument is omitted or nil, a Duration is returned.
iex> Timex.Duration.now
%Timex.Duration{megaseconds: 1483, seconds: 141562, microseconds: 536938}
Same as parse/1, but returns the Duration unwrapped, and raises on error
Same as parse/2, but returns the Duration unwrapped, and raises on error
Parses a duration string (in ISO-8601 format) into a Duration struct.
Parses a duration string into a Duration struct, using the provided parser module.
Scale a Duration by some coefficient value, i.e. a scale of 2 is twice is long.
example
Example
iex> d = %Timex.Duration{megaseconds: 1, seconds: 1, microseconds: 1}
...> Timex.Duration.scale(d, 2)
%Timex.Duration{megaseconds: 2, seconds: 2, microseconds: 2}
Subtract one Duration from another.
example
Example
iex> d1 = %Timex.Duration{megaseconds: 3, seconds: 3, microseconds: 3}
...> d2 = %Timex.Duration{megaseconds: 2, seconds: 2, microseconds: 2}
...> Timex.Duration.sub(d1, d2)
%Timex.Duration{megaseconds: 1, seconds: 1, microseconds: 1}
Converts a Duration to a clock tuple, i.e. {hour,minute,second,microsecond}
.
example
Example
iex> d = %Timex.Duration{megaseconds: 1, seconds: 1, microseconds: 50}
...> Timex.Duration.to_clock(d)
{277, 46, 41, 50}
Converts a Duration to its value in days
example
Example
iex> Duration.to_days(Duration.from_hours(6))
0.25
iex> Duration.to_days(Duration.from_hours(25), truncate: true)
1
@spec to_days(t(), to_options()) :: float() | integer()
@spec to_days(integer() | float(), :microseconds) :: float()
@spec to_days(integer() | float(), :milliseconds) :: float()
@spec to_days(integer() | float(), :seconds) :: float()
@spec to_days(integer() | float(), :minutes) :: float()
@spec to_days(integer() | float(), :hours) :: float()
@spec to_days(integer() | float(), :days) :: float()
@spec to_days(integer() | float(), :weeks) :: float()
@spec to_erl(t()) :: Timex.Types.timestamp()
Converts a Duration to an Erlang timestamp
example
Example
iex> d = %Timex.Duration{megaseconds: 1, seconds: 2, microseconds: 3}
...> Timex.Duration.to_erl(d)
{1, 2, 3}
Converts a Duration to its value in hours
example
Example
iex> Duration.to_hours(Duration.from_minutes(105))
1.75
iex> Duration.to_hours(Duration.from_minutes(105), truncate: true)
1
@spec to_hours(t(), to_options()) :: float() | integer()
@spec to_hours(integer() | float(), :microseconds) :: float()
@spec to_hours(integer() | float(), :milliseconds) :: float()
@spec to_hours(integer() | float(), :seconds) :: float()
@spec to_hours(integer() | float(), :minutes) :: float()
@spec to_hours(integer() | float(), :hours) :: float()
@spec to_hours(integer() | float(), :days) :: float()
@spec to_hours(integer() | float(), :weeks) :: float()
Converts a Duration to its value in microseconds
example
Example
iex> Duration.to_microseconds(Duration.from_milliseconds(10.5))
10_500
@spec to_microseconds(t(), to_options()) :: integer()
@spec to_microseconds(integer() | float(), :microseconds) :: float()
@spec to_microseconds(integer() | float(), :milliseconds) :: float()
@spec to_microseconds(integer() | float(), :seconds) :: float()
@spec to_microseconds(integer() | float(), :minutes) :: float()
@spec to_microseconds(integer() | float(), :hours) :: float()
@spec to_microseconds(integer() | float(), :days) :: float()
@spec to_microseconds(integer() | float(), :weeks) :: float()
Converts a Duration to its value in milliseconds
example
Example
iex> Duration.to_milliseconds(Duration.from_seconds(1))
1000.0
iex> Duration.to_milliseconds(Duration.from_seconds(1.543))
1543.0
iex> Duration.to_milliseconds(Duration.from_seconds(1.543), truncate: true)
1543
@spec to_milliseconds(t(), to_options()) :: float() | integer()
@spec to_milliseconds(integer() | float(), :microseconds) :: float()
@spec to_milliseconds(integer() | float(), :milliseconds) :: float()
@spec to_milliseconds(integer() | float(), :seconds) :: float()
@spec to_milliseconds(integer() | float(), :minutes) :: float()
@spec to_milliseconds(integer() | float(), :hours) :: float()
@spec to_milliseconds(integer() | float(), :days) :: float()
@spec to_milliseconds(integer() | float(), :weeks) :: float()
Converts a Duration to its value in minutes
example
Example
iex> Duration.to_minutes(Duration.from_seconds(90))
1.5
iex> Duration.to_minutes(Duration.from_seconds(65), truncate: true)
1
@spec to_minutes(t(), to_options()) :: float() | integer()
@spec to_minutes(integer() | float(), :microseconds) :: float()
@spec to_minutes(integer() | float(), :milliseconds) :: float()
@spec to_minutes(integer() | float(), :seconds) :: float()
@spec to_minutes(integer() | float(), :minutes) :: float()
@spec to_minutes(integer() | float(), :hours) :: float()
@spec to_minutes(integer() | float(), :days) :: float()
@spec to_minutes(integer() | float(), :weeks) :: float()
Converts a Duration to its value in seconds
example
Example
iex> Duration.to_seconds(Duration.from_milliseconds(1500))
1.5
iex> Duration.to_seconds(Duration.from_milliseconds(1500), truncate: true)
1
@spec to_seconds(t(), to_options()) :: float() | integer()
@spec to_seconds(integer() | float(), :microseconds) :: float()
@spec to_seconds(integer() | float(), :milliseconds) :: float()
@spec to_seconds(integer() | float(), :seconds) :: float()
@spec to_seconds(integer() | float(), :minutes) :: float()
@spec to_seconds(integer() | float(), :hours) :: float()
@spec to_seconds(integer() | float(), :days) :: float()
@spec to_seconds(integer() | float(), :weeks) :: float()
Converts a Duration to a string, using the ISO standard for formatting durations.
examples
Examples
iex> d = %Timex.Duration{megaseconds: 0, seconds: 3661, microseconds: 0}
...> Timex.Duration.to_string(d)
"PT1H1M1S"
iex> d = %Timex.Duration{megaseconds: 102, seconds: 656013, microseconds: 33}
...> Timex.Duration.to_string(d)
"P3Y3M3DT3H33M33.000033S"
Same as to_time/1, but returns the Time directly. Raises an error if the duration does not fit within a 24-hour clock.
examples
Examples
iex> d = %Timex.Duration{megaseconds: 0, seconds: 4000, microseconds: 0}
...> Timex.Duration.to_time!(d)
~T[01:06:40]
iex> d = %Timex.Duration{megaseconds: 1, seconds: 0, microseconds: 0}
...> Timex.Duration.to_time!(d)
** (ArgumentError) cannot convert {277, 46, 40} to time, reason: :invalid_time
Converts a Duration to a Time if the duration fits within a 24-hour clock. If it does not, an error tuple is returned.
examples
Examples
iex> d = %Timex.Duration{megaseconds: 0, seconds: 4000, microseconds: 0}
...> Timex.Duration.to_time(d)
{:ok, ~T[01:06:40]}
iex> d = %Timex.Duration{megaseconds: 1, seconds: 0, microseconds: 0}
...> Timex.Duration.to_time(d)
{:error, :invalid_time}
Converts a Duration to its value in weeks
example
Example
iex> Duration.to_weeks(Duration.from_days(14))
2.0
iex> Duration.to_weeks(Duration.from_days(13), truncate: true)
1
@spec to_weeks(t(), to_options()) :: float() | integer()
@spec to_weeks(integer() | float(), :microseconds) :: float()
@spec to_weeks(integer() | float(), :milliseconds) :: float()
@spec to_weeks(integer() | float(), :seconds) :: float()
@spec to_weeks(integer() | float(), :minutes) :: float()
@spec to_weeks(integer() | float(), :hours) :: float()
@spec to_weeks(integer() | float(), :days) :: float()
@spec to_weeks(integer() | float(), :weeks) :: float()
@spec zero() :: t()
Return a timestamp representing a time lapse of length 0.
iex> Timex.Duration.zero |> Timex.Duration.to_seconds
0.0
Can be useful for operations on collections of durations. For instance,
Enum.reduce(durations, Duration.zero, Duration.add(&1, &2))
Can also be used to represent the timestamp of the start of the UNIX epoch, as all Erlang timestamps are relative to this point.