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|
#![allow(non_camel_case_types)]
use std::str::FromStr;
use std::string::{ ToString };
use std::borrow::{ ToOwned };
use std::ops::Range;
use ::IrscError;
#[derive(Copy, Clone, Debug, PartialEq, Eq, Hash)]
pub enum MsgType {
/// Plain old IRC messages, as defined in [rfc2812][rfc]
/// rfc: http://tools.ietf.org/html/rfc2812
Irc,
/// Ctcp messages, wrapped in \u{1}
Ctcp
}
#[derive(Debug, PartialEq, Eq, Clone)]
pub struct Message {
pub source: String,
prefix: Option<Range<u16>>,
command: Range<u16>,
content: Vec<Range<u16>>,
suffix: Option<Range<u16>>,
pub msg_type: MsgType
}
impl Message {
pub fn new(source: String, prefix: Option<Range<u16>>, command: Range<u16>, content: Vec<Range<u16>>, suffix: Option<Range<u16>>, msg_type: MsgType) -> Message {
Message {
source: source,
prefix: prefix,
command: command,
content: content,
suffix: suffix,
msg_type: msg_type
}
}
#[allow(unused_assignments)]
pub fn format(prefix: Option<&str>, command: &str, content: Vec<&str>, suffix: Option<&str>, msg_type: MsgType) -> Message {
let mut s = String::with_capacity(512);
let mut i = 0;
let mut i_prefix = None;
if let Some(ref p) = prefix {
i_prefix = Some((i + 1) as u16..(i + 2 + p.len()) as u16);
s.push(':');
s.push_str(p);
s.push(' ');
i += 2 + p.len();
}
let i_command = i as u16..(i + command.len()) as u16;
s.push_str(command);
s.push(' ');
i += 1 + command.len();
let mut i_content = Vec::new();
for part in content.iter() {
i_content.push(i as u16..(i + part.len()) as u16);
s.push_str(part);
s.push(' ');
i += 1 + part.len();
}
let mut i_suffix = None;
if let Some(ref p) = suffix {
s.push(':');
if let MsgType::Ctcp = msg_type { s.push('\u{1}'); i += 1; }
let n = i;
s.push_str(p);
if let MsgType::Ctcp = msg_type { s.push('\u{1}'); i += 1; }
i_suffix = Some(n as u16..(n + p.len()) as u16);
i += 1 + p.len();
}
s.push_str("\r\n");
i += 2;
Message::new(s, i_prefix, i_command, i_content, i_suffix, msg_type)
}
pub fn range(&self, r: &Range<u16>) -> &str {
self.source.slice_chars(r.start as usize, r.end as usize)
}
pub fn prefix(&self) -> Option<&str> { self.prefix.as_ref().map(|r| self.range(r)) }
pub fn command(&self) -> &str { self.range(&self.command) }
pub fn content(&self) -> Vec<&str> { self.content.iter().map(|r| self.range(&r)).collect() }
pub fn suffix(&self) -> Option<&str> { self.suffix.as_ref().map(|r| self.range(r)) }
}
impl FromStr for Message {
type Err = IrscError;
fn from_str(i: &str) -> Result<Message, IrscError> {
info!("Attempting to parse message: {}", i);
let len = i.len();
let mut s = 0;
let prefix = if len >= 1 && i[s..].chars().next() == Some(':') {
i[s..].find(' ').map(|i| 1u16..i as u16)
} else { None };
let command = i[s..].find(' ').map(|n| {
let p = s as u16..n as u16;
s = n;
p
});
// TODO: Parse last non-suffix argument as suffix if no suffix
// with colon is available.
let mut content = Vec::with_capacity(15);
let mut suffix = None;
while i[s..].len() > 0 {
if i[s..].chars().next() == Some(':') {
suffix = Some(s as u16 + 1 as u16..i.len() as u16);
break
}
i[s..].find(' ').map(|i| {
if i > 0 {
content.push(s as u16..(s + i) as u16);
s = i;
}
});
// if s.chars().next() == Some(' ') { s = &s[1..] };
s += 1;
}
let msg_type = if suffix.as_ref()
.and_then(|s| i[s.start as usize..].chars().next()) == Some('\u{1}') { MsgType::Ctcp } else { MsgType::Irc };
command.map(move |c|
Ok(Message::new(
i.to_owned(),
prefix,
c,
content,
// strip \{1} if CTCP message
// strip \r\n for each line, relying on their existence
match msg_type {
MsgType::Irc => suffix.map(|s| s.start..s.end - 2),
MsgType::Ctcp => suffix.map(|s| s.start + 1..s.end - 3)
},
msg_type
))
).unwrap()
}
}
impl ToString for Message {
fn to_string(&self) -> String {
self.source.clone()
/*
let mut s = String::with_capacity(512);
if let Some(ref p) = self.prefix() {
s.push(':');
s.push_str(p);
s.push(' ');
}
s.push_str(self.command());
s.push(' ');
for part in self.content.iter() {
s.push_str(self.range(&part));
s.push(' ');
}
if let Some(ref p) = self.suffix() {
s.push(':');
if let MsgType::Ctcp = self.msg_type { s.push('\u{1}') }
s.push_str(p);
if let MsgType::Ctcp = self.msg_type { s.push('\u{1}') }
}
s.push_str("\r\n");
s*/
}
}
/*
pub trait Command {
fn name(&self) -> String;
fn to_message(&self) -> Message;
fn from_message(msg: &Message) -> Option<Self>
}
macro_rules! command (
($name: ident { $($field: ident: $t: ty),* } to $to_msg: expr; from $from_msg: expr;) => (
pub struct $name {
$(pub $field: $t),*
}
impl Command for $name {
fn name(&self) -> String { stringify!($name).to_owned() }
fn to_message(&self) -> Message { ($to_msg)(self) }
fn from_message(msg: &Message) -> Option<$name> { ($from_msg)(msg) }
}
)
);*/
/*
command!(Pass { password: String }
to |&:s: &Pass| Message::new(None, "PASS".to_owned(), Vec::new(), Some(s.password.clone()));
from |&:msg: &Message| msg.clone().suffix.map(|s| Pass { password: s }););
command!(Ping { server1: Option<String>, server2: Option<String> }
to |&:s :&Ping| {
let mut v = Vec::new();
if let Some(ref s) = s.server1 { v.push(s.clone()) }
if let Some(ref s) = s.server2 { v.push(s.clone()) }
Message::new(None, "PING".to_owned(), v, None)
};
from |&:msg: &Message| {
let mut c = msg.content.clone();
Some(Ping { server2: c.pop(), server1: c.pop() }) }; );
command!(Pong { server1: Option<String>, server2: Option<String> }
to |&:s: &Pong| {
let mut v = Vec::new();
if let Some(ref s) = s.server1 { v.push(s.clone()) }
if let Some(ref s) = s.server2 { v.push(s.clone()) }
Message::new(None, "PONG".to_owned(), v, None)
};
from |&:msg: &Message| {
let mut c = msg.content.clone();
Some(Pong { server2: c.pop(), server1: c.pop() })
}; );
command!(PrivMsg { from: Option<String>, to: String, content: String }
to |&:s: &PrivMsg| {
Message::new(s.from.clone(), "PRIVMSG".to_owned(), vec![s.to.clone()], Some(s.content.clone()))
};
from |&:msg: &Message| {
msg.content.clone().pop().map(
|c| PrivMsg {
from: msg.prefix.clone(),
to: c,
content: msg.suffix.clone().unwrap_or(String::new())
})
}; );
*/
#[derive(Clone, PartialEq, Eq, Hash)]
pub enum Mode {
Away,
Invisible,
Wallops,
Restricted,
Operator,
LocalOperator,
ServerNotices,
Custom(String)
}
#[derive(Copy, Clone, PartialEq, Eq, Hash)]
pub enum SetMode {
Plus,
Minus
}
/// If you hoped it couldn't get any uglier... I'm sorry, it does.
/// Why a giant match? API.
///
/// I tried structuring it as a bunch of structs that impl a `Command` trait,
/// but the user would have to use Any and lots of cats. Also, extensibility isn't
/// really a goal; the IRC protocol doesn't seem to evolve very fast.
///
/// Granted, I *could* have used a phf-map to map to functions to parse this, which
/// - while more readable - shouldn't have resulted in performance gains.
///
/// Please don't cry.
/*pub fn join(v: Vec<String>, from: usize) -> String {
let mut msg = if v[from].chars().next().unwrap() == ':' {
v[from][1..].to_owned()
} else { v[from].clone() };
for m in v.iter().skip(from + 1) {
msg.push_str(" ");
msg.push_str(m.trim_right());
}
msg
}*/
/*pub struct PrivMsg {
pub from: Ident,
pub to: String,
pub content: String
}
impl ParseResult for PrivMsg {
fn parse(message: Message) -> Option<PrivMsg> {
let from = Ident::parse(message.prefix.unwrap()[]);
let to = message.content[0].clone();
match from {
Some(from) => Some(PrivMsg {
from: from,
to: to,
content: join(message.content, 1)
}),
None => None
}
}
}*/
#[cfg(test)]
mod test {
use std::borrow::{ ToOwned };
use message::{ Message, MsgType };
#[test]
fn parse_message() {
/*let a = ":a.b.c NOTICE AUTH :*** Looking up your hostname...\r\n";
// I'm not even kidding...
let a2 = Message::new(
a.to_owned(),
Some(Cow::Owned("a.b.c".to_owned())),
Cow::Owned("NOTICE".to_owned()),
vec![Cow::Owned("AUTH".to_owned())],
Some(Cow::Owned("*** Looking up your hostname...".to_owned())),
MsgType::Irc
);
assert_eq!(a.parse::<Message>().unwrap(), a2.clone());
assert_eq!(a2.to_string(), a);*/
let b = ":d PRIVMSG You :\u{1}ACTION sends you funny pictures of cats!\u{1}\r\n";
let b2 = Message::new(
b.to_owned(),
Some(1..2),
3..10,
vec![11..14],
Some(17..57),
MsgType::Ctcp
);
assert_eq!(b.parse::<Message>().unwrap(), b2.clone());
assert_eq!(b2.to_string(), b);
}
}
|