# parse_datetime [![Crates.io](https://img.shields.io/crates/v/parse_datetime.svg)](https://crates.io/crates/parse_datetime) [![License](http://img.shields.io/badge/license-MIT-blue.svg)](https://github.com/uutils/parse_datetime/blob/main/LICENSE) [![CodeCov](https://codecov.io/gh/uutils/parse_datetime/branch/main/graph/badge.svg)](https://codecov.io/gh/uutils/parse_datetime) [![CodSpeed](https://img.shields.io/endpoint?url=https://codspeed.io/badge.json)](https://codspeed.io/uutils/parse_datetime?utm_source=badge) A Rust crate for parsing human-readable relative time strings and human-readable datetime strings. ## Features - Parses a variety of human-readable and standard time formats. - Supports positive and negative durations. - Allows for chaining time units (e.g., "1 hour 2 minutes" or "2 days 2 hours ago"). - Calculate durations relative to a specified date. - Relies on Jiff ## Usage Add `parse_datetime` to your `Cargo.toml` with: ``` cargo add parse_datetime ``` Then, import the crate and use the `parse_datetime_at_date` function: ```rs use jiff::{ToSpan, Zoned}; use parse_datetime::{parse_datetime_at_date, ParsedDateTime}; let now = Zoned::now(); let after = parse_datetime_at_date(now.clone(), "+3 days"); match after.unwrap() { ParsedDateTime::InRange(z) => assert_eq!(now.checked_add(3.days()).unwrap(), z), ParsedDateTime::Extended(_) => unreachable!("unexpected for this input"), } ``` For DateTime parsing, import the `parse_datetime` function: ```rs use jiff::{civil::{date, time} ,Zoned}; use parse_datetime::{parse_datetime, ParsedDateTime}; let dt = parse_datetime("2021-02-14 06:37:47"); match dt.unwrap() { ParsedDateTime::InRange(z) => assert_eq!(z, Zoned::now().with().date(date(2021, 2, 14)).time(time(6, 37, 47, 0)).build().unwrap()), ParsedDateTime::Extended(_) => unreachable!("unexpected for this input"), } ``` For years beyond jiff's representable range (e.g., year 10000+), the result is an `ExtendedDateTime`: ```rs use parse_datetime::{parse_datetime, ParsedDateTime}; let dt = parse_datetime("12000-01-01").unwrap(); match dt { ParsedDateTime::Extended(ext) => { assert_eq!(ext.year, 12000); assert_eq!(ext.month, 1); assert_eq!(ext.day, 1); } ParsedDateTime::InRange(_) => unreachable!("year 12000 is out of jiff range"), } ``` ### Supported Formats The `parse_datetime` and `parse_datetime_at_date` functions support absolute datetime and the following relative times: - `num` `unit` (e.g., "-1 hour", "+3 days") - `unit` (e.g., "hour", "day") - "now" or "today" - "yesterday" - "tomorrow" - use "ago" for the past - use "next" or "last" with `unit` (e.g., "next week", "last year") - unix timestamps (for example "@0" "@1344000") `num` can be a positive or negative integer. `unit` can be one of the following: "fortnight", "week", "day", "hour", "minute", "min", "second", "sec" and their plural forms. ## Return Values ### parse_datetime and parse_datetime_at_date The `parse_datetime` and `parse_datetime_at_date` function return: - `Ok(ParsedDateTime)` - If the input string can be parsed - `ParsedDateTime::InRange(Zoned)` for years supported by `jiff::Zoned` - `ParsedDateTime::Extended(ExtendedDateTime)` for out-of-range years (for example `>9999`) - `Err(ParseDateTimeError::InvalidInput)` - If the input string cannot be parsed ## Fuzzer To run the fuzzer: ``` $ cd fuzz $ cargo install cargo-fuzz $ cargo +nightly fuzz run fuzz_parse_datetime ``` ## License This project is licensed under the [MIT License](LICENSE). ## Note At some point, this crate was called humantime_to_duration. It has been renamed to cover more cases.