// Copyright 2014 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. //! An owned, growable string that enforces that its contents are valid UTF-8. use c_vec::CVec; use cast; use char::Char; use container::Container; use fmt; use io::Writer; use iter::{Extendable, FromIterator, Iterator, range}; use option::{None, Option, Some}; use ptr::RawPtr; use slice::{OwnedVector, Vector, CloneableVector}; use str::{OwnedStr, Str, StrSlice, StrAllocating}; use str; use vec::Vec; /// A growable string stored as a UTF-8 encoded buffer. #[deriving(Clone, Eq, Ord, TotalEq, TotalOrd)] pub struct StrBuf { vec: Vec, } impl StrBuf { /// Creates a new string buffer initialized with the empty string. #[inline] pub fn new() -> StrBuf { StrBuf { vec: Vec::new(), } } /// Creates a new string buffer with the given capacity. #[inline] pub fn with_capacity(capacity: uint) -> StrBuf { StrBuf { vec: Vec::with_capacity(capacity), } } /// Creates a new string buffer from length, capacity, and a pointer. #[inline] pub unsafe fn from_raw_parts(length: uint, capacity: uint, ptr: *mut u8) -> StrBuf { StrBuf { vec: Vec::from_raw_parts(length, capacity, ptr), } } /// Creates a new string buffer from the given string. #[inline] pub fn from_str(string: &str) -> StrBuf { StrBuf { vec: Vec::from_slice(string.as_bytes()) } } /// Creates a new string buffer from the given owned string, taking care not to copy it. #[inline] pub fn from_owned_str(string: ~str) -> StrBuf { StrBuf { vec: string.into_bytes().move_iter().collect(), } } /// Tries to create a new string buffer from the given byte /// vector, validating that the vector is UTF-8 encoded. #[inline] pub fn from_utf8(vec: Vec) -> Option { if str::is_utf8(vec.as_slice()) { Some(StrBuf { vec: vec }) } else { None } } /// Return the underlying byte buffer, encoded as UTF-8. #[inline] pub fn into_bytes(self) -> Vec { self.vec } /// Pushes the given string onto this buffer; then, returns `self` so that it can be used /// again. #[inline] pub fn append(mut self, second: &str) -> StrBuf { self.push_str(second); self } /// Creates a string buffer by repeating a character `length` times. #[inline] pub fn from_char(length: uint, ch: char) -> StrBuf { if length == 0 { return StrBuf::new() } let mut buf = StrBuf::new(); buf.push_char(ch); let size = buf.len() * length; buf.reserve(size); for _ in range(1, length) { buf.push_char(ch) } buf } /// Pushes the given string onto this string buffer. #[inline] pub fn push_str(&mut self, string: &str) { self.vec.push_all(string.as_bytes()) } /// Push `ch` onto the given string `count` times. #[inline] pub fn grow(&mut self, count: uint, ch: char) { for _ in range(0, count) { self.push_char(ch) } } /// Returns the number of bytes that this string buffer can hold without reallocating. #[inline] pub fn byte_capacity(&self) -> uint { self.vec.capacity() } /// Reserves capacity for at least `extra` additional bytes in this string buffer. #[inline] pub fn reserve_additional(&mut self, extra: uint) { self.vec.reserve_additional(extra) } /// Reserves capacity for at least `capacity` bytes in this string buffer. #[inline] pub fn reserve(&mut self, capacity: uint) { self.vec.reserve(capacity) } /// Reserves capacity for exactly `capacity` bytes in this string buffer. #[inline] pub fn reserve_exact(&mut self, capacity: uint) { self.vec.reserve_exact(capacity) } /// Shrinks the capacity of this string buffer to match its length. #[inline] pub fn shrink_to_fit(&mut self) { self.vec.shrink_to_fit() } /// Adds the given character to the end of the string. #[inline] pub fn push_char(&mut self, ch: char) { let cur_len = self.len(); unsafe { // This may use up to 4 bytes. self.vec.reserve_additional(4); // Attempt to not use an intermediate buffer by just pushing bytes // directly onto this string. let mut c_vector = CVec::new(self.vec.as_mut_ptr().offset(cur_len as int), 4); let used = ch.encode_utf8(c_vector.as_mut_slice()); self.vec.set_len(cur_len + used); } } /// Pushes the given bytes onto this string buffer. This is unsafe because it does not check /// to ensure that the resulting string will be valid UTF-8. #[inline] pub unsafe fn push_bytes(&mut self, bytes: &[u8]) { self.vec.push_all(bytes) } /// Works with the underlying buffer as a byte slice. #[inline] pub fn as_bytes<'a>(&'a self) -> &'a [u8] { self.vec.as_slice() } /// Shorten a string to the specified length (which must be <= the current length) #[inline] pub fn truncate(&mut self, len: uint) { assert!(self.as_slice().is_char_boundary(len)); self.vec.truncate(len) } /// Appends a byte to this string buffer. The caller must preserve the valid UTF-8 property. #[inline] pub unsafe fn push_byte(&mut self, byte: u8) { self.push_bytes([byte]) } /// Removes the last byte from the string buffer and returns it. Returns `None` if this string /// buffer is empty. /// /// The caller must preserve the valid UTF-8 property. #[inline] pub unsafe fn pop_byte(&mut self) -> Option { let len = self.len(); if len == 0 { return None } let byte = self.as_slice()[len - 1]; self.vec.set_len(len - 1); Some(byte) } /// Removes the first byte from the string buffer and returns it. Returns `None` if this string /// buffer is empty. /// /// The caller must preserve the valid UTF-8 property. pub unsafe fn shift_byte(&mut self) -> Option { let len = self.len(); if len == 0 { return None } let byte = self.as_slice()[0]; *self = self.as_slice().slice(1, len).into_strbuf(); Some(byte) } /// Views the string buffer as a mutable sequence of bytes. /// /// Callers must preserve the valid UTF-8 property. pub unsafe fn as_mut_vec<'a>(&'a mut self) -> &'a mut Vec { &mut self.vec } } impl Container for StrBuf { #[inline] fn len(&self) -> uint { self.vec.len() } } impl FromIterator for StrBuf { fn from_iter>(iterator: I) -> StrBuf { let mut buf = StrBuf::new(); buf.extend(iterator); buf } } impl Extendable for StrBuf { fn extend>(&mut self, mut iterator: I) { for ch in iterator { self.push_char(ch) } } } impl Str for StrBuf { #[inline] fn as_slice<'a>(&'a self) -> &'a str { unsafe { cast::transmute(self.vec.as_slice()) } } } impl StrAllocating for StrBuf { #[inline] fn into_owned(self) -> ~str { unsafe { cast::transmute(self.vec.as_slice().to_owned()) } } #[inline] fn into_strbuf(self) -> StrBuf { self } } impl fmt::Show for StrBuf { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { self.as_slice().fmt(f) } } impl ::hash::Hash for StrBuf { #[inline] fn hash(&self, hasher: &mut H) { self.as_slice().hash(hasher) } } #[cfg(test)] mod tests { extern crate test; use self::test::Bencher; use str::{Str, StrSlice}; use super::StrBuf; #[bench] fn bench_with_capacity(b: &mut Bencher) { b.iter(|| { StrBuf::with_capacity(100) }); } #[bench] fn bench_push_str(b: &mut Bencher) { let s = "ศไทย中华Việt Nam; Mary had a little lamb, Little lamb"; b.iter(|| { let mut r = StrBuf::new(); r.push_str(s); }); } #[test] fn test_push_bytes() { let mut s = StrBuf::from_str("ABC"); unsafe { s.push_bytes([ 'D' as u8 ]); } assert_eq!(s.as_slice(), "ABCD"); } #[test] fn test_push_str() { let mut s = StrBuf::new(); s.push_str(""); assert_eq!(s.as_slice().slice_from(0), ""); s.push_str("abc"); assert_eq!(s.as_slice().slice_from(0), "abc"); s.push_str("ประเทศไทย中华Việt Nam"); assert_eq!(s.as_slice().slice_from(0), "abcประเทศไทย中华Việt Nam"); } #[test] fn test_push_char() { let mut data = StrBuf::from_str("ประเทศไทย中"); data.push_char('华'); data.push_char('b'); // 1 byte data.push_char('¢'); // 2 byte data.push_char('€'); // 3 byte data.push_char('𤭢'); // 4 byte assert_eq!(data.as_slice(), "ประเทศไทย中华b¢€𤭢"); } #[test] fn test_str_truncate() { let mut s = StrBuf::from_str("12345"); s.truncate(5); assert_eq!(s.as_slice(), "12345"); s.truncate(3); assert_eq!(s.as_slice(), "123"); s.truncate(0); assert_eq!(s.as_slice(), ""); let mut s = StrBuf::from_str("12345"); let p = s.as_slice().as_ptr(); s.truncate(3); s.push_str("6"); let p_ = s.as_slice().as_ptr(); assert_eq!(p_, p); } #[test] #[should_fail] fn test_str_truncate_invalid_len() { let mut s = StrBuf::from_str("12345"); s.truncate(6); } #[test] #[should_fail] fn test_str_truncate_split_codepoint() { let mut s = StrBuf::from_str("\u00FC"); // ü s.truncate(1); } }