third_party/rust_crates/vendor/nom/tests/blockbuf-arithmetic.rs - fuchsia - Git at Google

 /*
 #[macro_use]
 extern crate nom;
 extern crate bytes;

 use nom::{Compare,CompareResult,InputLength,InputIter,Slice,HexDisplay};

 use std::str;
 use std::str::FromStr;
 use bytes::{Buf,MutBuf};
 use bytes::buf::{BlockBuf,BlockBufCursor};
 use std::ops::{Range,RangeTo,RangeFrom,RangeFull};
 use std::iter::{Enumerate,Iterator};
 use std::fmt;
 use std::cmp::{min,PartialEq};

 #[derive(Clone,Copy)]
 #[repr(C)]
 pub struct BlockSlice<'a> {
   buf: &'a BlockBuf,
   start: usize,
   end:   usize,
 }

 impl<'a> BlockSlice<'a> {
   fn cursor(&self) -> WrapCursor<'a> {
     let mut cur = self.buf.buf();
     cur.advance(self.start);
     WrapCursor {
       cursor: cur,
       length: self.end - self.start,
     }
   }
 }

 impl<'a> fmt::Debug for BlockSlice<'a> {
   fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
     write!(f, "BlockSlice {{ start: {}, end: {}, data:\n{}\n}}", self.start, self.end, self.buf.bytes().unwrap_or(&b""[..]).to_hex(16))
   }
 }

 impl<'a> PartialEq for BlockSlice<'a> {
   fn eq(&self, other: &BlockSlice<'a>) -> bool {
     let bufs = (self.buf as *const BlockBuf) == (other.buf as *const BlockBuf);
     self.start == other.start && self.end == other.end && bufs
   }
 }

 impl<'a> Slice<Range<usize>> for BlockSlice<'a> {
   fn slice(&self, range:Range<usize>) -> Self {
     BlockSlice {
       buf:   self.buf,
       start: self.start + range.start,
       //FIXME: check for valid end here
       end:   self.start + range.end,
     }
   }
 }

 impl<'a> Slice<RangeTo<usize>> for BlockSlice<'a> {
   fn slice(&self, range:RangeTo<usize>) -> Self {
     self.slice(0..range.end)
   }
 }

 impl<'a> Slice<RangeFrom<usize>> for BlockSlice<'a> {
   fn slice(&self, range:RangeFrom<usize>) -> Self {
     self.slice(range.start..self.end - self.start)
   }
 }

 impl<'a> Slice<RangeFull> for BlockSlice<'a> {
   fn slice(&self, _:RangeFull) -> Self {
     BlockSlice {
       buf:   self.buf,
       start: self.start,
       end:   self.end,
     }
   }
 }


 impl<'a> InputIter for BlockSlice<'a> {
     type Item     = u8;
     type RawItem  = u8;
     type Iter     = Enumerate<WrapCursor<'a>>;
     type IterElem = WrapCursor<'a>;

     fn iter_indices(&self)  -> Self::Iter {
       self.cursor().enumerate()
     }
     fn iter_elements(&self) -> Self::IterElem {
       self.cursor()
     }
     fn position<P>(&self, predicate: P) -> Option<usize> where P: Fn(Self::RawItem) -> bool {
       self.cursor().position(|b| predicate(b))
     }
     fn slice_index(&self, count:usize) -> Option<usize> {
       if self.end - self.start >= count {
         Some(count)
       } else {
         None
       }
     }
 }


 impl<'a> InputLength for BlockSlice<'a> {
   fn input_len(&self) -> usize {
     self.end - self.start
   }
 }

 impl<'a,'b> Compare<&'b[u8]> for BlockSlice<'a> {
   fn compare(&self, t: &'b[u8]) -> CompareResult {
     let len     = self.end - self.start;
     let blen    = t.len();
     let m       = if len < blen { len } else { blen };
     let reduced = self.slice(..m);
     let b       = &t[..m];

     for (a,b) in reduced.cursor().zip(b.iter()) {
       if a != *b {
         return CompareResult::Error;
       }
     }
     if m < blen {
       CompareResult::Incomplete
     } else {
       CompareResult::Ok
     }
   }


   #[inline(always)]
   fn compare_no_case(&self, t: &'b[u8]) -> CompareResult {
     let len     = self.end - self.start;
     let blen    = t.len();
     let m       = if len < blen { len } else { blen };
     let reduced = self.slice(..m);
     let other   = &t[..m];

     if !reduced.cursor().zip(other).all(|(a, b)| {
       match (a,*b) {
         (0...64, 0...64) | (91...96, 91...96) | (123...255, 123...255) => a == *b,
         (65...90, 65...90) | (97...122, 97...122) | (65...90, 97...122 ) |(97...122, 65...90) => {
           a & 0b01000000 == *b & 0b01000000
         }
         _ => false
       }
     }) {
       CompareResult::Error
     } else if m < blen {
       CompareResult::Incomplete
     } else {
       CompareResult::Ok
     }
   }
 }

 impl<'a,'b> Compare<&'b str> for BlockSlice<'a> {
   fn compare(&self, t: &'b str) -> CompareResult {
     self.compare(str::as_bytes(t))
   }
   fn compare_no_case(&self, t: &'b str) -> CompareResult {
     self.compare_no_case(str::as_bytes(t))
   }
 }

 //Wrapper to implement Iterator on BlockBufCursor
 pub struct WrapCursor<'a> {
   pub cursor: BlockBufCursor<'a>,
   pub length: usize,
 }

 impl<'a> Iterator for WrapCursor<'a> {
   type Item = u8;
   fn next(&mut self) -> Option<u8> {
     //println!("NEXT: length={}, remaining={}", self.length, self.cursor.remaining());
     if min(self.length, self.cursor.remaining()) > 0 {
       self.length -=1;
       Some(self.cursor.read_u8())
     } else {
       None
     }
   }
 }

 //Reimplement eat_separator instead of fixing iterators
 #[macro_export]
 macro_rules! block_eat_separator (
   ($i:expr, $arr:expr) => (
     {
       use nom::{InputLength,InputIter,Slice};
       if ($i).input_len() == 0 {
         Ok(($i, ($i).slice(0..0)))
       } else {
         match ($i).iter_indices().position(|(_, item)| {
           for (_,c) in ($arr).iter_indices() {
             if *c == item { return false; }
           }
           true
         }) {
           Some(index) => {
             Ok((($i).slice(index..), ($i).slice(..index)))
           },
           None => {
             Ok((($i).slice(($i).input_len()..), $i))
           }
         }
       }
     }
   )
 );

 #[macro_export]
 macro_rules! block_named (
   ($name:ident, $submac:ident!( $($args:tt)* )) => (
     fn $name<'a>( i: BlockSlice<'a> ) -> nom::IResult<BlockSlice<'a>, BlockSlice<'a>, u32> {
       $submac!(i, $($args)*)
     }
   );
   ($name:ident<$o:ty>, $submac:ident!( $($args:tt)* )) => (
     fn $name<'a>( i: BlockSlice<'a> ) -> nom::IResult<BlockSlice<'a>, $o, u32> {
       $submac!(i, $($args)*)
     }
   );
 );

 block_named!(sp, block_eat_separator!(&b" \t\r\n"[..]));

 macro_rules! block_ws (
   ($i:expr, $($args:tt)*) => (
     {
       sep!($i, sp, $($args)*)
     }
   )
 );

 block_named!(digit, is_a!("0123456789"));

 block_named!(parens<i64>, block_ws!(delimited!( tag!("("), expr, tag!(")") )) );


 block_named!(factor<i64>, alt!(
       map_res!(
         block_ws!(digit),
         to_i64
     )
   | parens
   )
 );

 block_named!(term <i64>, do_parse!(
     init: factor >>
     res:  fold_many0!(
         pair!(alt!(tag!("*") | tag!("/")), factor),
         init,
         |acc, (op, val): (BlockSlice, i64)| {
             if (op.cursor().next().unwrap() as char) == '*' { acc * val } else { acc / val }
         }
     ) >>
     (res)
   )
 );

 block_named!(expr <i64>, do_parse!(
     init: term >>
     res:  fold_many0!(
         pair!(alt!(tag!("+") | tag!("-")), term),
         init,
         |acc, (op, val): (BlockSlice, i64)| {
             if (op.cursor().next().unwrap() as char) == '+' { acc + val } else { acc - val }
         }
     ) >>
     (res)
   )
 );


 fn blockbuf_from(input: &[u8]) -> BlockBuf {
   let mut b = BlockBuf::new(2, 100);
   b.copy_from(input);
   b
 }


 fn sl<'a>(input: &'a BlockBuf) -> BlockSlice<'a> {
   BlockSlice {
     buf: input,
     start: 0,
     end:   input.len(),
   }
 }

 fn to_i64<'a>(input: BlockSlice<'a>) -> Result<i64, ()> {
   let v: Vec<u8> = input.cursor().collect();

   match str::from_utf8(&v) {
     Err(_) => Err(()),
     Ok(s) => match FromStr::from_str(s) {
       Err(_) => Err(()),
       Ok(i)  => Ok(i)
     }
   }
 }

 #[test]
 fn factor_test() {
   let a = blockbuf_from(&b"3"[..]);
   println!("calculated: {:?}", factor(sl(&a)));
 }

 #[test]
 fn parens_test() {
   let input1 = blockbuf_from(&b" 2* (  3 + 4 ) "[..]);
   println!("calculated 1: {:?}", expr(sl(&input1)));
   let input2 = blockbuf_from(&b"  2*2 / ( 5 - 1) + 3"[..]);
   println!("calculated 2: {:?}", expr(sl(&input2)));
 }
 */
	/*
	#[macro_use]
	extern crate nom;
	extern crate bytes;

	use nom::{Compare,CompareResult,InputLength,InputIter,Slice,HexDisplay};

	use std::str;
	use std::str::FromStr;
	use bytes::{Buf,MutBuf};
	use bytes::buf::{BlockBuf,BlockBufCursor};
	use std::ops::{Range,RangeTo,RangeFrom,RangeFull};
	use std::iter::{Enumerate,Iterator};
	use std::fmt;
	use std::cmp::{min,PartialEq};

	#[derive(Clone,Copy)]
	#[repr(C)]
	pub struct BlockSlice<'a> {
	buf: &'a BlockBuf,
	start: usize,
	end: usize,
	}

	impl<'a> BlockSlice<'a> {
	fn cursor(&self) -> WrapCursor<'a> {
	let mut cur = self.buf.buf();
	cur.advance(self.start);
	WrapCursor {
	cursor: cur,
	length: self.end - self.start,
	}
	}
	}

	impl<'a> fmt::Debug for BlockSlice<'a> {
	fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
	write!(f, "BlockSlice {{ start: {}, end: {}, data:\n{}\n}}", self.start, self.end, self.buf.bytes().unwrap_or(&b""[..]).to_hex(16))
	}
	}

	impl<'a> PartialEq for BlockSlice<'a> {
	fn eq(&self, other: &BlockSlice<'a>) -> bool {
	let bufs = (self.buf as const BlockBuf) == (other.buf as const BlockBuf);
	self.start == other.start && self.end == other.end && bufs
	}
	}

	impl<'a> Slice<Range<usize>> for BlockSlice<'a> {
	fn slice(&self, range:Range<usize>) -> Self {
	BlockSlice {
	buf: self.buf,
	start: self.start + range.start,
	//FIXME: check for valid end here
	end: self.start + range.end,
	}
	}
	}

	impl<'a> Slice<RangeTo<usize>> for BlockSlice<'a> {
	fn slice(&self, range:RangeTo<usize>) -> Self {
	self.slice(0..range.end)
	}
	}

	impl<'a> Slice<RangeFrom<usize>> for BlockSlice<'a> {
	fn slice(&self, range:RangeFrom<usize>) -> Self {
	self.slice(range.start..self.end - self.start)
	}
	}

	impl<'a> Slice<RangeFull> for BlockSlice<'a> {
	fn slice(&self, _:RangeFull) -> Self {
	BlockSlice {
	buf: self.buf,
	start: self.start,
	end: self.end,
	}
	}
	}


	impl<'a> InputIter for BlockSlice<'a> {
	type Item = u8;
	type RawItem = u8;
	type Iter = Enumerate<WrapCursor<'a>>;
	type IterElem = WrapCursor<'a>;

	fn iter_indices(&self) -> Self::Iter {
	self.cursor().enumerate()
	}
	fn iter_elements(&self) -> Self::IterElem {
	self.cursor()
	}
	fn position<P>(&self, predicate: P) -> Option<usize> where P: Fn(Self::RawItem) -> bool {
	self.cursor().position(\|b\| predicate(b))
	}
	fn slice_index(&self, count:usize) -> Option<usize> {
	if self.end - self.start >= count {
	Some(count)
	} else {
	None
	}
	}
	}


	impl<'a> InputLength for BlockSlice<'a> {
	fn input_len(&self) -> usize {
	self.end - self.start
	}
	}

	impl<'a,'b> Compare<&'b[u8]> for BlockSlice<'a> {
	fn compare(&self, t: &'b[u8]) -> CompareResult {
	let len = self.end - self.start;
	let blen = t.len();
	let m = if len < blen { len } else { blen };
	let reduced = self.slice(..m);
	let b = &t[..m];

	for (a,b) in reduced.cursor().zip(b.iter()) {
	if a != *b {
	return CompareResult::Error;
	}
	}
	if m < blen {
	CompareResult::Incomplete
	} else {
	CompareResult::Ok
	}
	}


	#[inline(always)]
	fn compare_no_case(&self, t: &'b[u8]) -> CompareResult {
	let len = self.end - self.start;
	let blen = t.len();
	let m = if len < blen { len } else { blen };
	let reduced = self.slice(..m);
	let other = &t[..m];

	if !reduced.cursor().zip(other).all(\|(a, b)\| {
	match (a,*b) {
	(0...64, 0...64) \| (91...96, 91...96) \| (123...255, 123...255) => a == *b,
	(65...90, 65...90) \| (97...122, 97...122) \| (65...90, 97...122 ) \|(97...122, 65...90) => {
	a & 0b01000000 == *b & 0b01000000
	}
	_ => false
	}
	}) {
	CompareResult::Error
	} else if m < blen {
	CompareResult::Incomplete
	} else {
	CompareResult::Ok
	}
	}
	}

	impl<'a,'b> Compare<&'b str> for BlockSlice<'a> {
	fn compare(&self, t: &'b str) -> CompareResult {
	self.compare(str::as_bytes(t))
	}
	fn compare_no_case(&self, t: &'b str) -> CompareResult {
	self.compare_no_case(str::as_bytes(t))
	}
	}

	//Wrapper to implement Iterator on BlockBufCursor
	pub struct WrapCursor<'a> {
	pub cursor: BlockBufCursor<'a>,
	pub length: usize,
	}

	impl<'a> Iterator for WrapCursor<'a> {
	type Item = u8;
	fn next(&mut self) -> Option<u8> {
	//println!("NEXT: length={}, remaining={}", self.length, self.cursor.remaining());
	if min(self.length, self.cursor.remaining()) > 0 {
	self.length -=1;
	Some(self.cursor.read_u8())
	} else {
	None
	}
	}
	}

	//Reimplement eat_separator instead of fixing iterators
	#[macro_export]
	macro_rules! block_eat_separator (
	($i:expr, $arr:expr) => (
	{
	use nom::{InputLength,InputIter,Slice};
	if ($i).input_len() == 0 {
	Ok(($i, ($i).slice(0..0)))
	} else {
	match ($i).iter_indices().position(\|(_, item)\| {
	for (_,c) in ($arr).iter_indices() {
	if *c == item { return false; }
	}
	true
	}) {
	Some(index) => {
	Ok((($i).slice(index..), ($i).slice(..index)))
	},
	None => {
	Ok((($i).slice(($i).input_len()..), $i))
	}
	}
	}
	}
	)
	);

	#[macro_export]
	macro_rules! block_named (
	($name:ident, $submac:ident!( $($args:tt)* )) => (
	fn $name<'a>( i: BlockSlice<'a> ) -> nom::IResult<BlockSlice<'a>, BlockSlice<'a>, u32> {
	$submac!(i, $($args)*)
	}
	);
	($name:ident<$o:ty>, $submac:ident!( $($args:tt)* )) => (
	fn $name<'a>( i: BlockSlice<'a> ) -> nom::IResult<BlockSlice<'a>, $o, u32> {
	$submac!(i, $($args)*)
	}
	);
	);

	block_named!(sp, block_eat_separator!(&b" \t\r\n"[..]));

	macro_rules! block_ws (
	($i:expr, $($args:tt)*) => (
	{
	sep!($i, sp, $($args)*)
	}
	)
	);

	block_named!(digit, is_a!("0123456789"));

	block_named!(parens<i64>, block_ws!(delimited!( tag!("("), expr, tag!(")") )) );


	block_named!(factor<i64>, alt!(
	map_res!(
	block_ws!(digit),
	to_i64
	)
	\| parens
	)
	);

	block_named!(term <i64>, do_parse!(
	init: factor >>
	res: fold_many0!(
	pair!(alt!(tag!("*") \| tag!("/")), factor),
	init,
	\|acc, (op, val): (BlockSlice, i64)\| {
	if (op.cursor().next().unwrap() as char) == '' { acc val } else { acc / val }
	}
	) >>
	(res)
	)
	);

	block_named!(expr <i64>, do_parse!(
	init: term >>
	res: fold_many0!(
	pair!(alt!(tag!("+") \| tag!("-")), term),
	init,
	\|acc, (op, val): (BlockSlice, i64)\| {
	if (op.cursor().next().unwrap() as char) == '+' { acc + val } else { acc - val }
	}
	) >>
	(res)
	)
	);


	fn blockbuf_from(input: &[u8]) -> BlockBuf {
	let mut b = BlockBuf::new(2, 100);
	b.copy_from(input);
	b
	}


	fn sl<'a>(input: &'a BlockBuf) -> BlockSlice<'a> {
	BlockSlice {
	buf: input,
	start: 0,
	end: input.len(),
	}
	}

	fn to_i64<'a>(input: BlockSlice<'a>) -> Result<i64, ()> {
	let v: Vec<u8> = input.cursor().collect();

	match str::from_utf8(&v) {
	Err(_) => Err(()),
	Ok(s) => match FromStr::from_str(s) {
	Err(_) => Err(()),
	Ok(i) => Ok(i)
	}
	}
	}

	#[test]
	fn factor_test() {
	let a = blockbuf_from(&b"3"[..]);
	println!("calculated: {:?}", factor(sl(&a)));
	}

	#[test]
	fn parens_test() {
	let input1 = blockbuf_from(&b" 2* ( 3 + 4 ) "[..]);
	println!("calculated 1: {:?}", expr(sl(&input1)));
	let input2 = blockbuf_from(&b" 2*2 / ( 5 - 1) + 3"[..]);
	println!("calculated 2: {:?}", expr(sl(&input2)));
	}
	*/