add documentation

src/lib.rs

@@ -1,16 +1,74 @@
+//! Circular, a stream abstraction designed for use with nom
+//!
+//! Circular provides a `Buffer` type that wraps a `Vec<u8>` with a position
+//! and end. Compared to a stream abstraction that would use `std::io::Read`,
+//! it separates the reading and consuming phases. `Read` is designed to write
+//! the data in a mutable slice and consume it from the stream as it does that.
+//!
+//! When used in streaming mode, nom will try to parse a slice, then tell you
+//! how much it consumed. So you don't know how much data was actually used
+//! until the parser returns. `Circular::Buffer` exposes a `data()` method
+//! that gives an immutable slice of all the currently readable data,
+//! and a `consume()` method to advance the position in the stream.
+//! The `space()` and `fill()` methods are the write counterparts to those methods.
+//!
+//! ```
+//! extern crate circular;
+//!
+//! use circular::Buffer;
+//! use std::io::Write;
+//!
+//! fn main() {
+//!
+//!   // allocate a new Buffer
+//!   let mut b = Buffer::with_capacity(10);
+//!   assert_eq!(b.available_data(), 0);
+//!   assert_eq!(b.available_space(), 10);
+//!
+//!   let res = b.write(&b"abcd"[..]);
+//!   assert_eq!(res.ok(), Some(4));
+//!   assert_eq!(b.available_data(), 4);
+//!   assert_eq!(b.available_space(), 6);
+//!
+//!   //the 4 bytes we wrote are immediately available and usable for parsing
+//!   assert_eq!(b.data(), &b"abcd"[..]);
+//!
+//!   // this will advance the position from 0 to 2. it does not modify the underlying Vec
+//!   b.consume(2);
+//!   assert_eq!(b.available_data(), 2);
+//!   assert_eq!(b.available_space(), 6);
+//!   assert_eq!(b.data(), &b"cd"[..]);
+//!
+//!   // shift moves the available data at the beginning of the buffer.
+//!   // the position is now 0
+//!   b.shift();
+//!   assert_eq!(b.available_data(), 2);
+//!   assert_eq!(b.available_space(), 8);
+//!   assert_eq!(b.data(), &b"cd"[..]);
+//! }
+//!
 use std::{cmp, ptr};
 use std::io::{self,Write,Read};
 use std::iter::repeat;
 
+/// the Buffer contains the underlying memory and data positions
+///
+/// In all cases, `0 ≤ position ≤ end ≤ capacity` should be true
 #[derive(Debug,PartialEq,Clone)]
 pub struct Buffer {
+  /// the Vec containing the data
   memory:   Vec<u8>,
+  /// the current capacity of the Buffer
   capacity: usize,
+  /// the current beginning of the available data
   position: usize,
+  /// the current end of the available data
+  /// and beginning of the available space
   end:      usize
 }
 
 impl Buffer {
+  /// allocates a new buffer of maximum size `capacity`
   pub fn with_capacity(capacity: usize) -> Buffer {
     let mut v = Vec::with_capacity(capacity);
     v.extend(repeat(0).take(capacity));
@@ -22,15 +80,21 @@ impl Buffer {
     }
   }
 
-  pub fn from_slice(sl: &[u8]) -> Buffer {
+  /// allocates a new buffer containing the slice `data`
+  ///
+  /// the buffer starts full, its available data size is exactly `data.len()`
+  pub fn from_slice(data: &[u8]) -> Buffer {
     Buffer {
-      memory:   Vec::from(sl),
-      capacity: sl.len(),
+      memory:   Vec::from(data),
+      capacity: data.len(),
       position: 0,
-      end:      sl.len()
+      end:      data.len()
     }
   }
 
+  /// increases the size of the buffer
+  ///
+  /// this does nothing if the buffer is already large enough
   pub fn grow(&mut self, new_size: usize) -> bool {
     if self.capacity >= new_size {
       return false;
@@ -41,22 +105,31 @@ impl Buffer {
     true
   }
 
+  /// returns how much data can be read from the buffer
   pub fn available_data(&self) -> usize {
     self.end - self.position
   }
 
+  /// returns how much free space is available to write to
   pub fn available_space(&self) -> usize {
     self.capacity - self.end
   }
 
+  /// returns the underlying vector's size
   pub fn capacity(&self) -> usize {
     self.capacity
   }
 
+  /// returns true if there is no more data to read
   pub fn empty(&self) -> bool {
     self.position == self.end
   }
 
+  /// advances the position tracker
+  ///
+  /// if the position gets past the buffer's half,
+  /// this will call `shift()` to move the remaining data
+  /// to the beginning of the buffer
   pub fn consume(&mut self, count: usize) -> usize {
     let cnt        = cmp::min(count, self.available_data());
     self.position += cnt;
@@ -67,6 +140,12 @@ impl Buffer {
     cnt
   }
 
+  /// after having written data to the buffer, use this function
+  /// to indicate how many bytes were written
+  ///
+  /// if there is not enough available space, this function can call
+  /// `shift()` to move the remaining data to the beginning of the
+  /// buffer
   pub fn fill(&mut self, count: usize) -> usize {
     let cnt   = cmp::min(count, self.available_space());
     self.end += cnt;
@@ -101,19 +180,27 @@ impl Buffer {
       self.position
   }
 
+  /// moves the position and end trackers to the beginning
+  /// this function does not modify the data
   pub fn reset(&mut self) {
     self.position = 0;
     self.end      = 0;
   }
 
+  /// returns a slice with all the available data
   pub fn data(&self) -> &[u8] {
     &self.memory[self.position..self.end]
   }
 
+  /// returns a mutable slice with all the available space to
+  /// write to
   pub fn space(&mut self) -> &mut[u8] {
     &mut self.memory[self.end..self.capacity]
   }
 
+  /// moves the data at the beginning of the buffer
+  ///
+  /// if the position was more than 0, it is now 0
   pub fn shift(&mut self) {
     if self.position > 0 {
       unsafe {
@@ -125,6 +212,8 @@ impl Buffer {
     }
   }
 
+  //FIXME: this should probably be rewritten, and tested extensively
+  #[doc(hidden)]
   pub fn delete_slice(&mut self, start: usize, length: usize) -> Option<usize> {
     if start + length >= self.available_data() {
       return None
@@ -143,6 +232,8 @@ impl Buffer {
     Some(self.available_data())
   }
 
+  //FIXME: this should probably be rewritten, and tested extensively
+  #[doc(hidden)]
   pub fn replace_slice(&mut self, data: &[u8], start: usize, length: usize) -> Option<usize> {
     let data_len = data.len();
     if start + length > self.available_data() ||
@@ -170,6 +261,8 @@ impl Buffer {
     Some(self.available_data())
   }
 
+  //FIXME: this should probably be rewritten, and tested extensively
+  #[doc(hidden)]
   pub fn insert_slice(&mut self, data: &[u8], start: usize) -> Option<usize> {
     let data_len = data.len();
     if start > self.available_data() ||