#[doc(hidden)]
#[macro_export]
macro_rules! regex (
($re: ident, $s:expr) => (
lazy_static! {
static ref $re: $crate::lib::regex::Regex = $crate::lib::regex::Regex::new($s).unwrap();
}
);
);
#[doc(hidden)]
#[macro_export]
macro_rules! regex_bytes (
($re: ident, $s:expr) => (
lazy_static! {
static ref $re: $crate::lib::regex::bytes::Regex = $crate::lib::regex::bytes::Regex::new($s).unwrap();
}
);
);
#[macro_export(local_inner_macros)]
macro_rules! re_match (
($i:expr, $re:expr) => (
{
use $crate::lib::std::result::Result::*;
use $crate::{Err,ErrorKind,IResult};
use $crate::InputLength;
use $crate::Slice;
let re = $crate::lib::regex::Regex::new($re).unwrap();
if re.is_match(&$i) {
Ok(($i.slice($i.input_len()..), $i))
} else {
let res: IResult<_,_> = Err(Err::Error(error_position!($i, ErrorKind::RegexpMatch::<u32>)));
res
}
}
)
);
#[cfg(feature = "regexp_macros")]
#[macro_export(local_inner_macros)]
macro_rules! re_match_static (
($i:expr, $re:expr) => (
{
use $crate::lib::std::result::Result::*;
use $crate::{Err,ErrorKind,IResult};
use $crate::InputLength;
use $crate::Slice;
regex!(RE, $re);
if RE.is_match(&$i) {
Ok(($i.slice($i.input_len()..), $i))
} else {
let res: IResult<_,_> = Err(Err::Error(error_position!($i, ErrorKind::RegexpMatch::<u32>)));
res
}
}
)
);
#[macro_export(local_inner_macros)]
macro_rules! re_bytes_match (
($i:expr, $re:expr) => (
{
use $crate::lib::std::result::Result::*;
use $crate::{Err,ErrorKind,IResult};
use $crate::InputLength;
use $crate::Slice;
let re = $crate::lib::regex::bytes::Regex::new($re).unwrap();
if re.is_match(&$i) {
Ok(($i.slice($i.input_len()..), $i))
} else {
let res: IResult<_,_> = Err(Err::Error(error_position!($i, ErrorKind::RegexpMatch::<u32>)));
res
}
}
)
);
#[cfg(feature = "regexp_macros")]
#[macro_export(local_inner_macros)]
macro_rules! re_bytes_match_static (
($i:expr, $re:expr) => (
{
use $crate::lib::std::result::Result::*;
use $crate::{Err,ErrorKind,IResult};
use $crate::InputLength;
use $crate::Slice;
regex_bytes!(RE, $re);
if RE.is_match(&$i) {
Ok(($i.slice($i.input_len()..), $i))
} else {
let res: IResult<_,_> = Err(Err::Error(error_position!($i, ErrorKind::RegexpMatch::<u32>)));
res
}
}
)
);
#[macro_export(local_inner_macros)]
macro_rules! re_find (
($i:expr, $re:expr) => (
{
use $crate::lib::std::result::Result::*;
use $crate::{Err,ErrorKind,IResult};
use $crate::Slice;
let re = $crate::lib::regex::Regex::new($re).unwrap();
if let Some(m) = re.find(&$i) {
Ok(($i.slice(m.end()..), $i.slice(m.start()..m.end())))
} else {
let res: IResult<_,_> = Err(Err::Error(error_position!($i, ErrorKind::RegexpFind::<u32>)));
res
}
}
)
);
#[cfg(feature = "regexp_macros")]
#[macro_export(local_inner_macros)]
macro_rules! re_find_static (
($i:expr, $re:expr) => (
{
use $crate::lib::std::result::Result::*;
use $crate::{Err,ErrorKind,IResult};
use $crate::Slice;
regex!(RE, $re);
if let Some(m) = RE.find(&$i) {
Ok(($i.slice(m.end()..), $i.slice(m.start()..m.end())))
} else {
let res: IResult<_,_> = Err(Err::Error(error_position!($i, ErrorKind::RegexpFind::<u32>)));
res
}
}
)
);
#[macro_export(local_inner_macros)]
macro_rules! re_bytes_find (
($i:expr, $re:expr) => (
{
use $crate::lib::std::result::Result::*;
use $crate::{Err,ErrorKind,IResult};
use $crate::Slice;
let re = $crate::lib::regex::bytes::Regex::new($re).unwrap();
if let Some(m) = re.find(&$i) {
Ok(($i.slice(m.end()..), $i.slice(m.start()..m.end())))
} else {
let res: IResult<_,_> = Err(Err::Error(error_position!($i, ErrorKind::RegexpFind::<u32>)));
res
}
}
)
);
#[cfg(feature = "regexp_macros")]
#[macro_export(local_inner_macros)]
macro_rules! re_bytes_find_static (
($i:expr, $re:expr) => (
{
use $crate::lib::std::result::Result::*;
use $crate::{Err,ErrorKind,IResult};
use $crate::Slice;
regex_bytes!(RE, $re);
if let Some(m) = RE.find(&$i) {
Ok(($i.slice(m.end()..), $i.slice(m.start()..m.end())))
} else {
let res: IResult<_,_> = Err(Err::Error(error_position!($i, ErrorKind::RegexpFind::<u32>)));
res
}
}
)
);
#[macro_export(local_inner_macros)]
macro_rules! re_matches (
($i:expr, $re:expr) => (
{
use $crate::lib::std::result::Result::*;
use $crate::{Err,ErrorKind,IResult};
use $crate::Slice;
let re = $crate::lib::regex::Regex::new($re).unwrap();
let v: Vec<_> = re.find_iter(&$i).map(|m| $i.slice(m.start()..m.end())).collect();
if v.len() != 0 {
let offset = {
let end = v.last().unwrap();
end.as_ptr() as usize + end.len() - $i.as_ptr() as usize
};
Ok(($i.slice(offset..), v))
} else {
let res: IResult<_,_> = Err(Err::Error(error_position!($i, ErrorKind::RegexpMatches::<u32>)));
res
}
}
)
);
#[cfg(feature = "regexp_macros")]
#[macro_export(local_inner_macros)]
macro_rules! re_matches_static (
($i:expr, $re:expr) => (
{
use $crate::lib::std::result::Result::*;
use $crate::{Err,ErrorKind,IResult};
use $crate::Slice;
regex!(RE, $re);
let v: Vec<_> = RE.find_iter(&$i).map(|m| $i.slice(m.start()..m.end())).collect();
if v.len() != 0 {
let offset = {
let end = v.last().unwrap();
end.as_ptr() as usize + end.len() - $i.as_ptr() as usize
};
Ok(($i.slice(offset..), v))
} else {
let res: IResult<_,_> = Err(Err::Error(error_position!($i, ErrorKind::RegexpMatches::<u32>)));
res
}
}
)
);
#[macro_export(local_inner_macros)]
macro_rules! re_bytes_matches (
($i:expr, $re:expr) => (
{
use $crate::lib::std::result::Result::*;
use $crate::{Err,ErrorKind,IResult};
use $crate::Slice;
let re = $crate::lib::regex::bytes::Regex::new($re).unwrap();
let v: Vec<_> = re.find_iter(&$i).map(|m| $i.slice(m.start()..m.end())).collect();
if v.len() != 0 {
let offset = {
let end = v.last().unwrap();
end.as_ptr() as usize + end.len() - $i.as_ptr() as usize
};
Ok(($i.slice(offset..), v))
} else {
let res: IResult<_,_> = Err(Err::Error(error_position!($i, ErrorKind::RegexpMatches::<u32>)));
res
}
}
)
);
#[cfg(feature = "regexp_macros")]
#[macro_export(local_inner_macros)]
macro_rules! re_bytes_matches_static (
($i:expr, $re:expr) => (
{
use $crate::lib::std::result::Result::*;
use $crate::{Err,ErrorKind,IResult};
use $crate::Slice;
regex_bytes!(RE, $re);
let v: Vec<_> = RE.find_iter(&$i).map(|m| $i.slice(m.start()..m.end())).collect();
if v.len() != 0 {
let offset = {
let end = v.last().unwrap();
end.as_ptr() as usize + end.len() - $i.as_ptr() as usize
};
Ok(($i.slice(offset..), v))
} else {
let res: IResult<_,_> = Err(Err::Error(error_position!($i, ErrorKind::RegexpMatches::<u32>)));
res
}
}
)
);
#[macro_export(local_inner_macros)]
macro_rules! re_capture (
($i:expr, $re:expr) => (
{
use $crate::lib::std::result::Result::*;
use $crate::{Err,ErrorKind,IResult};
use $crate::Slice;
let re = $crate::lib::regex::Regex::new($re).unwrap();
if let Some(c) = re.captures(&$i) {
let v:Vec<_> = c.iter().filter(|el| el.is_some()).map(|el| el.unwrap()).map(|m| $i.slice(m.start()..m.end())).collect();
let offset = {
let end = v.last().unwrap();
end.as_ptr() as usize + end.len() - $i.as_ptr() as usize
};
Ok(($i.slice(offset..), v))
} else {
let res: IResult<_,_> = Err(Err::Error(error_position!($i, ErrorKind::RegexpCapture::<u32>)));
res
}
}
)
);
#[cfg(feature = "regexp_macros")]
#[macro_export(local_inner_macros)]
macro_rules! re_capture_static (
($i:expr, $re:expr) => (
{
use $crate::lib::std::result::Result::*;
use $crate::{Err,ErrorKind,IResult};
use $crate::Slice;
regex!(RE, $re);
if let Some(c) = RE.captures(&$i) {
let v:Vec<_> = c.iter().filter(|el| el.is_some()).map(|el| el.unwrap()).map(|m| $i.slice(m.start()..m.end())).collect();
let offset = {
let end = v.last().unwrap();
end.as_ptr() as usize + end.len() - $i.as_ptr() as usize
};
Ok(($i.slice(offset..), v))
} else {
let res: IResult<_,_> = Err(Err::Error(error_position!($i, ErrorKind::RegexpCapture::<u32>)));
res
}
}
)
);
#[macro_export(local_inner_macros)]
macro_rules! re_bytes_capture (
($i:expr, $re:expr) => (
{
use $crate::lib::std::result::Result::*;
use $crate::{Err,ErrorKind,IResult};
use $crate::Slice;
let re = $crate::lib::regex::bytes::Regex::new($re).unwrap();
if let Some(c) = re.captures(&$i) {
let v:Vec<_> = c.iter().filter(|el| el.is_some()).map(|el| el.unwrap()).map(|m| $i.slice(m.start()..m.end())).collect();
let offset = {
let end = v.last().unwrap();
end.as_ptr() as usize + end.len() - $i.as_ptr() as usize
};
Ok(($i.slice(offset..), v))
} else {
let res: IResult<_,_> = Err(Err::Error(error_position!($i, ErrorKind::RegexpCapture::<u32>)));
res
}
}
)
);
#[cfg(feature = "regexp_macros")]
#[macro_export(local_inner_macros)]
macro_rules! re_bytes_capture_static (
($i:expr, $re:expr) => (
{
use $crate::lib::std::result::Result::*;
use $crate::{Err,ErrorKind,IResult};
use $crate::Slice;
regex_bytes!(RE, $re);
if let Some(c) = RE.captures(&$i) {
let v:Vec<_> = c.iter().filter(|el| el.is_some()).map(|el| el.unwrap()).map(|m| $i.slice(m.start()..m.end())).collect();
let offset = {
let end = v.last().unwrap();
end.as_ptr() as usize + end.len() - $i.as_ptr() as usize
};
Ok(($i.slice(offset..), v))
} else {
let res: IResult<_,_> = Err(Err::Error(error_position!($i, ErrorKind::RegexpCapture::<u32>)));
res
}
}
)
);
#[macro_export(local_inner_macros)]
macro_rules! re_captures (
($i:expr, $re:expr) => (
{
use $crate::lib::std::result::Result::*;
use $crate::{Err,ErrorKind,IResult};
use $crate::Slice;
let re = $crate::lib::regex::Regex::new($re).unwrap();
let v:Vec<Vec<_>> = re.captures_iter(&$i)
.map(|c| c.iter().filter(|el| el.is_some()).map(|el| el.unwrap())
.map(|m| $i.slice(m.start()..m.end())).collect()).collect();
if v.len() != 0 {
let offset = {
let end = v.last().unwrap().last().unwrap();
end.as_ptr() as usize + end.len() - $i.as_ptr() as usize
};
Ok(($i.slice(offset..), v))
} else {
let res: IResult<_,_> = Err(Err::Error(error_position!($i, ErrorKind::RegexpCapture::<u32>)));
res
}
}
)
);
#[cfg(feature = "regexp_macros")]
#[macro_export(local_inner_macros)]
macro_rules! re_captures_static (
($i:expr, $re:expr) => (
{
use $crate::lib::std::result::Result::*;
use $crate::{Err,ErrorKind,IResult};
use $crate::Slice;
regex!(RE, $re);
let v:Vec<Vec<_>> = RE.captures_iter(&$i)
.map(|c| c.iter().filter(|el| el.is_some()).map(|el| el.unwrap()).map(|m| $i.slice(m.start()..m.end())).collect()).collect();
if v.len() != 0 {
let offset = {
let end = v.last().unwrap().last().unwrap();
end.as_ptr() as usize + end.len() - $i.as_ptr() as usize
};
Ok(($i.slice(offset..), v))
} else {
let res: IResult<_,_> = Err(Err::Error(error_position!($i, ErrorKind::RegexpCapture::<u32>)));
res
}
}
)
);
#[macro_export(local_inner_macros)]
macro_rules! re_bytes_captures (
($i:expr, $re:expr) => (
{
use $crate::lib::std::result::Result::*;
use $crate::{Err,ErrorKind,IResult};
use $crate::Slice;
let re = $crate::lib::regex::bytes::Regex::new($re).unwrap();
let v:Vec<Vec<_>> = re.captures_iter(&$i)
.map(|c| c.iter().filter(|el| el.is_some()).map(|el| el.unwrap()).map(|m| $i.slice(m.start()..m.end())).collect()).collect();
if v.len() != 0 {
let offset = {
let end = v.last().unwrap().last().unwrap();
end.as_ptr() as usize + end.len() - $i.as_ptr() as usize
};
Ok(($i.slice(offset..), v))
} else {
let res: IResult<_,_> = Err(Err::Error(error_position!($i, ErrorKind::RegexpCapture::<u32>)));
res
}
}
)
);
#[cfg(feature = "regexp_macros")]
#[macro_export(local_inner_macros)]
macro_rules! re_bytes_captures_static (
($i:expr, $re:expr) => (
{
use $crate::lib::std::result::Result::*;
use $crate::{Err,ErrorKind,IResult};
use $crate::Slice;
regex_bytes!(RE, $re);
let v:Vec<Vec<_>> = RE.captures_iter(&$i)
.map(|c| c.iter().filter(|el| el.is_some()).map(|el| el.unwrap()).map(|m| $i.slice(m.start()..m.end())).collect()).collect();
if v.len() != 0 {
let offset = {
let end = v.last().unwrap().last().unwrap();
end.as_ptr() as usize + end.len() - $i.as_ptr() as usize
};
Ok(($i.slice(offset..), v))
} else {
let res: IResult<_,_> = Err(Err::Error(error_position!($i, ErrorKind::RegexpCapture::<u32>)));
res
}
}
)
);
#[cfg(test)]
mod tests {
#[cfg(feature = "alloc")]
use lib::std::vec::Vec;
use util::ErrorKind;
use internal::Err;
#[test]
fn re_match() {
named!(rm<&str,&str>, re_match!(r"^\d{4}-\d{2}-\d{2}"));
assert_eq!(rm("2015-09-07"), Ok(("", "2015-09-07")));
assert_eq!(
rm("blah"),
Err(Err::Error(error_position!(
&"blah"[..],
ErrorKind::RegexpMatch::<u32>
),))
);
assert_eq!(rm("2015-09-07blah"), Ok(("", "2015-09-07blah")));
}
#[cfg(feature = "regexp_macros")]
#[test]
fn re_match_static() {
named!(rm<&str,&str>, re_match_static!(r"^\d{4}-\d{2}-\d{2}"));
assert_eq!(rm("2015-09-07"), Ok(("", "2015-09-07")));
assert_eq!(
rm("blah"),
Err(Err::Error(error_position!(
&"blah"[..],
ErrorKind::RegexpMatch::<u32>
),))
);
assert_eq!(rm("2015-09-07blah"), Ok(("", "2015-09-07blah")));
}
#[test]
fn re_find() {
named!(rm<&str,&str>, re_find!(r"^\d{4}-\d{2}-\d{2}"));
assert_eq!(rm("2015-09-07"), Ok(("", "2015-09-07")));
assert_eq!(
rm("blah"),
Err(Err::Error(error_position!(
&"blah"[..],
ErrorKind::RegexpFind::<u32>
),))
);
assert_eq!(rm("2015-09-07blah"), Ok(("blah", "2015-09-07")));
}
#[cfg(feature = "regexp_macros")]
#[test]
fn re_find_static() {
named!(rm<&str,&str>, re_find_static!(r"^\d{4}-\d{2}-\d{2}"));
assert_eq!(rm("2015-09-07"), Ok(("", "2015-09-07")));
assert_eq!(
rm("blah"),
Err(Err::Error(error_position!(
&"blah"[..],
ErrorKind::RegexpFind::<u32>
),))
);
assert_eq!(rm("2015-09-07blah"), Ok(("blah", "2015-09-07")));
}
#[cfg(feature = "alloc")]
#[test]
fn re_matches() {
named!(rm< &str,Vec<&str> >, re_matches!(r"\d{4}-\d{2}-\d{2}"));
assert_eq!(rm("2015-09-07"), Ok(("", vec!["2015-09-07"])));
assert_eq!(
rm("blah"),
Err(Err::Error(error_position!(
&"blah"[..],
ErrorKind::RegexpMatches::<u32>
)))
);
assert_eq!(
rm("aaa2015-09-07blah2015-09-09pouet"),
Ok(("pouet", vec!["2015-09-07", "2015-09-09"]))
);
}
#[cfg(feature = "regexp_macros")]
#[cfg(feature = "alloc")]
#[test]
fn re_matches_static() {
named!(rm< &str,Vec<&str> >, re_matches_static!(r"\d{4}-\d{2}-\d{2}"));
assert_eq!(rm("2015-09-07"), Ok(("", vec!["2015-09-07"])));
assert_eq!(
rm("blah"),
Err(Err::Error(error_position!(
&"blah"[..],
ErrorKind::RegexpMatches::<u32>
)))
);
assert_eq!(
rm("aaa2015-09-07blah2015-09-09pouet"),
Ok(("pouet", vec!["2015-09-07", "2015-09-09"]))
);
}
#[cfg(feature = "alloc")]
#[test]
fn re_capture() {
named!(rm< &str,Vec<&str> >, re_capture!(r"([[:alpha:]]+)\s+((\d+).(\d+).(\d+))"));
assert_eq!(
rm("blah nom 0.3.11pouet"),
Ok(("pouet", vec!["nom 0.3.11", "nom", "0.3.11", "0", "3", "11"]))
);
assert_eq!(
rm("blah"),
Err(Err::Error(error_position!(
&"blah"[..],
ErrorKind::RegexpCapture::<u32>
)))
);
assert_eq!(
rm("hello nom 0.3.11 world regex 0.1.41"),
Ok((
" world regex 0.1.41",
vec!["nom 0.3.11", "nom", "0.3.11", "0", "3", "11"]
))
);
}
#[cfg(feature = "alloc")]
#[cfg(feature = "regexp_macros")]
#[test]
fn re_capture_static() {
named!(rm< &str,Vec<&str> >, re_capture_static!(r"([[:alpha:]]+)\s+((\d+).(\d+).(\d+))"));
assert_eq!(
rm("blah nom 0.3.11pouet"),
Ok(("pouet", vec!["nom 0.3.11", "nom", "0.3.11", "0", "3", "11"]))
);
assert_eq!(
rm("blah"),
Err(Err::Error(error_position!(
&"blah"[..],
ErrorKind::RegexpCapture::<u32>
)))
);
assert_eq!(
rm("hello nom 0.3.11 world regex 0.1.41"),
Ok((
" world regex 0.1.41",
vec!["nom 0.3.11", "nom", "0.3.11", "0", "3", "11"]
))
);
}
#[cfg(feature = "alloc")]
#[test]
fn re_captures() {
named!(rm< &str,Vec<Vec<&str>> >, re_captures!(r"([[:alpha:]]+)\s+((\d+).(\d+).(\d+))"));
assert_eq!(
rm("blah nom 0.3.11pouet"),
Ok((
"pouet",
vec![vec!["nom 0.3.11", "nom", "0.3.11", "0", "3", "11"]]
))
);
assert_eq!(
rm("blah"),
Err(Err::Error(error_position!(
&"blah"[..],
ErrorKind::RegexpCapture::<u32>
)))
);
assert_eq!(
rm("hello nom 0.3.11 world regex 0.1.41 aaa"),
Ok((
" aaa",
vec![
vec!["nom 0.3.11", "nom", "0.3.11", "0", "3", "11"],
vec!["regex 0.1.41", "regex", "0.1.41", "0", "1", "41"],
]
))
);
}
#[cfg(feature = "alloc")]
#[cfg(feature = "regexp_macros")]
#[test]
fn re_captures_static() {
named!(rm< &str,Vec<Vec<&str>> >, re_captures_static!(r"([[:alpha:]]+)\s+((\d+).(\d+).(\d+))"));
assert_eq!(
rm("blah nom 0.3.11pouet"),
Ok((
"pouet",
vec![vec!["nom 0.3.11", "nom", "0.3.11", "0", "3", "11"]]
))
);
assert_eq!(
rm("blah"),
Err(Err::Error(error_position!(
&"blah"[..],
ErrorKind::RegexpCapture::<u32>
)))
);
assert_eq!(
rm("hello nom 0.3.11 world regex 0.1.41 aaa"),
Ok((
" aaa",
vec![
vec!["nom 0.3.11", "nom", "0.3.11", "0", "3", "11"],
vec!["regex 0.1.41", "regex", "0.1.41", "0", "1", "41"],
]
))
);
}
#[test]
fn re_bytes_match() {
named!(rm, re_bytes_match!(r"^\d{4}-\d{2}-\d{2}"));
assert_eq!(rm(&b"2015-09-07"[..]), Ok((&b""[..], &b"2015-09-07"[..])));
assert_eq!(
rm(&b"blah"[..]),
Err(Err::Error(error_position!(
&b"blah"[..],
ErrorKind::RegexpMatch::<u32>
)))
);
assert_eq!(
rm(&b"2015-09-07blah"[..]),
Ok((&b""[..], &b"2015-09-07blah"[..]))
);
}
#[cfg(feature = "regexp_macros")]
#[test]
fn re_bytes_match_static() {
named!(rm, re_bytes_match_static!(r"^\d{4}-\d{2}-\d{2}"));
assert_eq!(rm(&b"2015-09-07"[..]), Ok((&b""[..], &b"2015-09-07"[..])));
assert_eq!(
rm(&b"blah"[..]),
Err(Err::Error(error_position!(
&b"blah"[..],
ErrorKind::RegexpMatch::<u32>
)))
);
assert_eq!(
rm(&b"2015-09-07blah"[..]),
Ok((&b""[..], &b"2015-09-07blah"[..]))
);
}
#[test]
fn re_bytes_find() {
named!(rm, re_bytes_find!(r"^\d{4}-\d{2}-\d{2}"));
assert_eq!(rm(&b"2015-09-07"[..]), Ok((&b""[..], &b"2015-09-07"[..])));
assert_eq!(
rm(&b"blah"[..]),
Err(Err::Error(error_position!(
&b"blah"[..],
ErrorKind::RegexpFind::<u32>
)))
);
assert_eq!(
rm(&b"2015-09-07blah"[..]),
Ok((&b"blah"[..], &b"2015-09-07"[..]))
);
}
#[cfg(feature = "regexp_macros")]
#[test]
fn re_bytes_find_static() {
named!(rm, re_bytes_find_static!(r"^\d{4}-\d{2}-\d{2}"));
assert_eq!(rm(&b"2015-09-07"[..]), Ok((&b""[..], &b"2015-09-07"[..])));
assert_eq!(
rm(&b"blah"[..]),
Err(Err::Error(error_position!(
&b"blah"[..],
ErrorKind::RegexpFind::<u32>
)))
);
assert_eq!(
rm(&b"2015-09-07blah"[..]),
Ok((&b"blah"[..], &b"2015-09-07"[..]))
);
}
#[cfg(feature = "alloc")]
#[test]
fn re_bytes_matches() {
named!(rm<Vec<&[u8]>>, re_bytes_matches!(r"\d{4}-\d{2}-\d{2}"));
assert_eq!(
rm(&b"2015-09-07"[..]),
Ok((&b""[..], vec![&b"2015-09-07"[..]]))
);
assert_eq!(
rm(&b"blah"[..]),
Err(Err::Error(error_position!(
&b"blah"[..],
ErrorKind::RegexpMatches::<u32>
)))
);
assert_eq!(
rm(&b"aaa2015-09-07blah2015-09-09pouet"[..]),
Ok((&b"pouet"[..], vec![&b"2015-09-07"[..], &b"2015-09-09"[..]]))
);
}
#[cfg(feature = "alloc")]
#[cfg(feature = "regexp_macros")]
#[test]
fn re_bytes_matches_static() {
named!(
rm<Vec<&[u8]>>,
re_bytes_matches_static!(r"\d{4}-\d{2}-\d{2}")
);
assert_eq!(
rm(&b"2015-09-07"[..]),
Ok((&b""[..], vec![&b"2015-09-07"[..]]))
);
assert_eq!(
rm(&b"blah"[..]),
Err(Err::Error(error_position!(
&b"blah"[..],
ErrorKind::RegexpMatches::<u32>
)))
);
assert_eq!(
rm(&b"aaa2015-09-07blah2015-09-09pouet"[..]),
Ok((&b"pouet"[..], vec![&b"2015-09-07"[..], &b"2015-09-09"[..]]))
);
}
#[cfg(feature = "alloc")]
#[test]
fn re_bytes_capture() {
named!(
rm<Vec<&[u8]>>,
re_bytes_capture!(r"([[:alpha:]]+)\s+((\d+).(\d+).(\d+))")
);
assert_eq!(
rm(&b"blah nom 0.3.11pouet"[..]),
Ok((
&b"pouet"[..],
vec![
&b"nom 0.3.11"[..],
&b"nom"[..],
&b"0.3.11"[..],
&b"0"[..],
&b"3"[..],
&b"11"[..],
]
))
);
assert_eq!(
rm(&b"blah"[..]),
Err(Err::Error(error_position!(
&b"blah"[..],
ErrorKind::RegexpCapture::<u32>
)))
);
assert_eq!(
rm(&b"hello nom 0.3.11 world regex 0.1.41"[..]),
Ok((
&b" world regex 0.1.41"[..],
vec![
&b"nom 0.3.11"[..],
&b"nom"[..],
&b"0.3.11"[..],
&b"0"[..],
&b"3"[..],
&b"11"[..],
]
))
);
}
#[cfg(feature = "alloc")]
#[cfg(feature = "regexp_macros")]
#[test]
fn re_bytes_capture_static() {
named!(
rm<Vec<&[u8]>>,
re_bytes_capture_static!(r"([[:alpha:]]+)\s+((\d+).(\d+).(\d+))")
);
assert_eq!(
rm(&b"blah nom 0.3.11pouet"[..]),
Ok((
&b"pouet"[..],
vec![
&b"nom 0.3.11"[..],
&b"nom"[..],
&b"0.3.11"[..],
&b"0"[..],
&b"3"[..],
&b"11"[..],
]
))
);
assert_eq!(
rm(&b"blah"[..]),
Err(Err::Error(error_position!(
&b"blah"[..],
ErrorKind::RegexpCapture::<u32>
)))
);
assert_eq!(
rm(&b"hello nom 0.3.11 world regex 0.1.41"[..]),
Ok((
&b" world regex 0.1.41"[..],
vec![
&b"nom 0.3.11"[..],
&b"nom"[..],
&b"0.3.11"[..],
&b"0"[..],
&b"3"[..],
&b"11"[..],
]
))
);
}
#[cfg(feature = "alloc")]
#[test]
fn re_bytes_captures() {
named!(
rm<Vec<Vec<&[u8]>>>,
re_bytes_captures!(r"([[:alpha:]]+)\s+((\d+).(\d+).(\d+))")
);
assert_eq!(
rm(&b"blah nom 0.3.11pouet"[..]),
Ok((
&b"pouet"[..],
vec![
vec![
&b"nom 0.3.11"[..],
&b"nom"[..],
&b"0.3.11"[..],
&b"0"[..],
&b"3"[..],
&b"11"[..],
],
]
))
);
assert_eq!(
rm(&b"blah"[..]),
Err(Err::Error(error_position!(
&b"blah"[..],
ErrorKind::RegexpCapture::<u32>
)))
);
assert_eq!(
rm(&b"hello nom 0.3.11 world regex 0.1.41 aaa"[..]),
Ok((
&b" aaa"[..],
vec![
vec![
&b"nom 0.3.11"[..],
&b"nom"[..],
&b"0.3.11"[..],
&b"0"[..],
&b"3"[..],
&b"11"[..],
],
vec![
&b"regex 0.1.41"[..],
&b"regex"[..],
&b"0.1.41"[..],
&b"0"[..],
&b"1"[..],
&b"41"[..],
],
]
))
);
}
#[cfg(feature = "alloc")]
#[cfg(feature = "regexp_macros")]
#[test]
fn re_bytes_captures_static() {
named!(
rm<Vec<Vec<&[u8]>>>,
re_bytes_captures_static!(r"([[:alpha:]]+)\s+((\d+).(\d+).(\d+))")
);
assert_eq!(
rm(&b"blah nom 0.3.11pouet"[..]),
Ok((
&b"pouet"[..],
vec![
vec![
&b"nom 0.3.11"[..],
&b"nom"[..],
&b"0.3.11"[..],
&b"0"[..],
&b"3"[..],
&b"11"[..],
],
]
))
);
assert_eq!(
rm(&b"blah"[..]),
Err(Err::Error(error_position!(
&b"blah"[..],
ErrorKind::RegexpCapture::<u32>
)))
);
assert_eq!(
rm(&b"hello nom 0.3.11 world regex 0.1.41 aaa"[..]),
Ok((
&b" aaa"[..],
vec![
vec![
&b"nom 0.3.11"[..],
&b"nom"[..],
&b"0.3.11"[..],
&b"0"[..],
&b"3"[..],
&b"11"[..],
],
vec![
&b"regex 0.1.41"[..],
&b"regex"[..],
&b"0.1.41"[..],
&b"0"[..],
&b"1"[..],
&b"41"[..],
],
]
))
);
}
}