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#![deny(missing_docs)]
#[macro_use]
extern crate nom;
#[macro_use]
extern crate log;
extern crate petgraph;
extern crate mowl;
#[macro_use]
pub mod error;
pub mod parser;
pub mod example;
use std::fs::File;
use std::io::prelude::*;
use std::collections::HashMap;
use log::LogLevel;
use nom::{IResult, generate_colors, prepare_errors, print_codes, print_offsets};
use petgraph::{Graph, Direction};
use petgraph::dot::{Dot, Config};
use petgraph::graph::NodeIndex;
use petgraph::stable_graph::StableGraph;
use petgraph::visit::{EdgeRef, IntoEdgeReferences};
use prelude::*;
use parser::Parser;
pub mod prelude {
pub use super::{Peel, PeelResult};
pub use error::{PeelError, ErrorType};
pub use parser::{Parsable, ParserResult, ParserResultVec};
}
#[derive(Debug)]
pub struct PeelResult<'a> {
pub result: ParserResultVec,
pub left_input: &'a [u8],
pub error: Option<PeelError>,
}
impl<'a> PeelResult<'a> {
fn new(result: ParserResultVec, left_input: &'a [u8], error: Option<PeelError>) -> Self {
PeelResult {
result: result,
left_input: left_input,
error: error,
}
}
}
pub struct Peel<D> {
pub graph: StableGraph<Parser<D>, ()>,
pub root: Option<NodeIndex>,
pub data: Option<D>,
last_position: NodeIndex,
}
impl<D> Peel<D> {
pub fn new() -> Self {
Peel {
graph: StableGraph::new(),
root: None,
data: None,
last_position: NodeIndex::new(0),
}
}
pub fn set_log_level(&mut self, level: LogLevel) {
if mowl::init_with_level(level).is_err() {
warn!("Logger already set.");
} else {
info!("Log level set to: {:?}", level);
}
}
pub fn new_parser<T>(&mut self, parser: T) -> NodeIndex
where T: Parsable<D> + 'static
{
info!("New parser: {}", parser);
let new_node = self.graph.add_node(Box::new(parser));
if self.root.is_none() {
self.root = Some(new_node);
}
new_node
}
pub fn link(&mut self, left: NodeIndex, right: NodeIndex) {
info!("Link: {} → {}", self.graph[left], self.graph[right]);
self.graph.add_edge(left, right, ());
}
pub fn remove(&mut self, node: NodeIndex) -> Option<Parser<D>> {
info!("Removed: {}", self.graph[node]);
self.graph.remove_node(node)
}
pub fn link_nodes(&mut self, edges: &[(NodeIndex, NodeIndex)]) {
for &(left, right) in edges {
self.link(left, right);
}
}
pub fn link_new_parser<T>(&mut self, left: NodeIndex, parser: T) -> NodeIndex
where T: Parsable<D> + 'static
{
let new_parser = self.new_parser(parser);
self.link(left, new_parser);
new_parser
}
pub fn traverse<'a>(&mut self, input: &'a [u8], result: ParserResultVec) -> PeelResult<'a> {
match self.root {
Some(node) => self.traverse_recursive(node, PeelResult::new(result, input, None)),
None => PeelResult::new(result,
input,
Some(PeelError::new(ErrorType::NoTreeRoot, "No tree root found"))),
}
}
pub fn continue_traverse<'a>(&mut self, input: &'a [u8], result: ParserResultVec) -> PeelResult<'a> {
let start_node = self.last_position;
let result = PeelResult::new(result, input, None);
trace!("Continue traversal at {:?}", start_node);
self.traverse_recursive(start_node, result)
}
fn traverse_recursive<'a>(&mut self, node_id: NodeIndex, mut peel_result: PeelResult<'a>) -> PeelResult<'a> {
let error = {
let parser = &mut self.graph[node_id];
self.last_position = node_id;
match parser.parse(peel_result.left_input,
Some(&peel_result.result),
if let Some(ref mut data) = self.data {
Some(data)
} else {
None
}) {
IResult::Done(left_input, parser_result) => {
debug!("{} parsing succeed, left input length: {}",
parser,
left_input.len());
peel_result.result.push(parser_result);
peel_result.left_input = left_input;
None
}
IResult::Incomplete(needed) => {
debug!("{} needs more data", parser);
peel_result.error = Some(PeelError::new(ErrorType::Incomplete(needed),
&format!("Incomplete parser: '{}'", parser)));
return peel_result;
}
IResult::Error(error) => {
trace!("Failed parser: {}", parser);
if peel_result.result.is_empty() {
peel_result.error = Some(PeelError::new(ErrorType::NoParserSucceed,
"No parser succeed at all"));
return peel_result;
}
Some(IResult::Error(error))
}
}
};
match error {
Some(error) => {
if log_enabled!(log::LogLevel::Trace) {
self.display_error(peel_result.left_input, error);
}
}
_ => {
let mut edges = self.graph.neighbors_directed(node_id, Direction::Outgoing).detach();
while let Some(node) = edges.next_node(&self.graph) {
let prev_len = peel_result.result.len();
peel_result = self.traverse_recursive(node, peel_result);
if prev_len < peel_result.result.len() {
break;
}
}
}
};
peel_result
}
pub fn create_dot_file(&mut self) -> Result<(), PeelError> {
let mut graph = Graph::<_, ()>::new();
for node_id in self.graph.node_indices() {
let parser = &self.graph[node_id];
graph.add_node(format!("{}", parser));
}
for edge in self.graph.edge_references() {
graph.add_edge(edge.source(), edge.target(), ());
}
let mut f = File::create("graph.dot")?;
f.write_all(format!("{:?}", Dot::with_config(&graph, &[Config::EdgeNoLabel])).as_bytes())?;
Ok(())
}
pub fn display_error(&self, input: &[u8], res: IResult<&[u8], ParserResult>) {
let mut h: HashMap<u32, &str> = HashMap::new();
let parsers = ["Custom",
"Tag",
"MapRes",
"MapOpt",
"Alt",
"IsNot",
"IsA",
"SeparatedList",
"SeparatedNonEmptyList",
"Many1",
"Count",
"TakeUntilAndConsume",
"TakeUntil",
"TakeUntilEitherAndConsume",
"TakeUntilEither",
"LengthValue",
"TagClosure",
"Alpha",
"Digit",
"AlphaNumeric",
"Space",
"MultiSpace",
"LengthValueFn",
"Eof",
"ExprOpt",
"ExprRes",
"CondReduce",
"Switch",
"TagBits",
"OneOf",
"NoneOf",
"Char",
"CrLf",
"RegexpMatch",
"RegexpMatches",
"RegexpFind",
"RegexpCapture",
"RegexpCaptures",
"TakeWhile1",
"Complete",
"Fix",
"Escaped",
"EscapedTransform",
"TagStr",
"IsNotStr",
"IsAStr",
"TakeWhile1Str",
"NonEmpty",
"ManyMN",
"TakeUntilAndConsumeStr",
"HexDigit",
"TakeUntilStr",
"OctDigit",
"Many0",
"Not",
"Permutation",
"ManyTill"];
for (i, literal) in parsers.iter().enumerate() {
h.insert(i as u32, literal);
}
if let Some(v) = prepare_errors(input, res) {
let colors = generate_colors(&v);
println!("Colors: {}", print_codes(colors, h));
println!("Dump: \n{}", print_offsets(input, 0, &v));
}
}
}