#[cfg(any(feature = "formatting", feature = "parsing"))] mod string; use std::iter::Peekable; use std::str::FromStr; #[cfg(any(feature = "formatting", feature = "parsing"))] use proc_macro::TokenStream; use proc_macro::{token_stream, Span, TokenTree}; use time_core::util::{days_in_year, is_leap_year}; use crate::Error; #[cfg(any(feature = "formatting", feature = "parsing"))] pub(crate) fn get_string_literal(tokens: TokenStream) -> Result<(Span, Vec), Error> { let mut tokens = tokens.into_iter(); match (tokens.next(), tokens.next()) { (Some(TokenTree::Literal(literal)), None) => string::parse(&literal), (Some(tree), None) => Err(Error::ExpectedString { span_start: Some(tree.span()), span_end: Some(tree.span()), }), (_, Some(tree)) => Err(Error::UnexpectedToken { tree }), (None, None) => Err(Error::ExpectedString { span_start: None, span_end: None, }), } } pub(crate) fn consume_number( component_name: &'static str, chars: &mut Peekable, ) -> Result<(Span, T), Error> { let (span, digits) = match chars.next() { Some(TokenTree::Literal(literal)) => (literal.span(), literal.to_string()), Some(tree) => return Err(Error::UnexpectedToken { tree }), None => return Err(Error::UnexpectedEndOfInput), }; if let Ok(value) = digits.replace('_', "").parse() { Ok((span, value)) } else { Err(Error::InvalidComponent { name: component_name, value: digits, span_start: Some(span), span_end: Some(span), }) } } pub(crate) fn consume_any_ident( idents: &[&str], chars: &mut Peekable, ) -> Result { match chars.peek() { Some(TokenTree::Ident(char)) if idents.contains(&char.to_string().as_str()) => { let ret = Ok(char.span()); drop(chars.next()); ret } Some(tree) => Err(Error::UnexpectedToken { tree: tree.clone() }), None => Err(Error::UnexpectedEndOfInput), } } pub(crate) fn consume_punct( c: char, chars: &mut Peekable, ) -> Result { match chars.peek() { Some(TokenTree::Punct(punct)) if *punct == c => { let ret = Ok(punct.span()); drop(chars.next()); ret } Some(tree) => Err(Error::UnexpectedToken { tree: tree.clone() }), None => Err(Error::UnexpectedEndOfInput), } } fn jan_weekday(year: i32, ordinal: i32) -> u8 { macro_rules! div_floor { ($a:expr, $b:expr) => {{ let (_quotient, _remainder) = ($a / $b, $a % $b); if (_remainder > 0 && $b < 0) || (_remainder < 0 && $b > 0) { _quotient - 1 } else { _quotient } }}; } let adj_year = year - 1; ((ordinal + adj_year + div_floor!(adj_year, 4) - div_floor!(adj_year, 100) + div_floor!(adj_year, 400) + 6) .rem_euclid(7)) as _ } pub(crate) fn days_in_year_month(year: i32, month: u8) -> u8 { [31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31][month as usize - 1] + (month == 2 && is_leap_year(year)) as u8 } pub(crate) fn ywd_to_yo(year: i32, week: u8, iso_weekday_number: u8) -> (i32, u16) { let (ordinal, overflow) = (u16::from(week) * 7 + u16::from(iso_weekday_number)) .overflowing_sub(u16::from(jan_weekday(year, 4)) + 4); if overflow || ordinal == 0 { return (year - 1, (ordinal.wrapping_add(days_in_year(year - 1)))); } let days_in_cur_year = days_in_year(year); if ordinal > days_in_cur_year { (year + 1, ordinal - days_in_cur_year) } else { (year, ordinal) } } pub(crate) fn ymd_to_yo(year: i32, month: u8, day: u8) -> (i32, u16) { let ordinal = [0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334][month as usize - 1] + (month > 2 && is_leap_year(year)) as u16; (year, ordinal + u16::from(day)) }