/*! This module provides a regular expression printer for `Ast`. */ use std::fmt; use crate::ast::visitor::{self, Visitor}; use crate::ast::{self, Ast}; /// A builder for constructing a printer. /// /// Note that since a printer doesn't have any configuration knobs, this type /// remains unexported. #[derive(Clone, Debug)] struct PrinterBuilder { _priv: (), } impl Default for PrinterBuilder { fn default() -> PrinterBuilder { PrinterBuilder::new() } } impl PrinterBuilder { fn new() -> PrinterBuilder { PrinterBuilder { _priv: () } } fn build(&self) -> Printer { Printer { _priv: () } } } /// A printer for a regular expression abstract syntax tree. /// /// A printer converts an abstract syntax tree (AST) to a regular expression /// pattern string. This particular printer uses constant stack space and heap /// space proportional to the size of the AST. /// /// This printer will not necessarily preserve the original formatting of the /// regular expression pattern string. For example, all whitespace and comments /// are ignored. #[derive(Debug)] pub struct Printer { _priv: (), } impl Printer { /// Create a new printer. pub fn new() -> Printer { PrinterBuilder::new().build() } /// Print the given `Ast` to the given writer. The writer must implement /// `fmt::Write`. Typical implementations of `fmt::Write` that can be used /// here are a `fmt::Formatter` (which is available in `fmt::Display` /// implementations) or a `&mut String`. pub fn print(&mut self, ast: &Ast, wtr: W) -> fmt::Result { visitor::visit(ast, Writer { wtr }) } } #[derive(Debug)] struct Writer { wtr: W, } impl Visitor for Writer { type Output = (); type Err = fmt::Error; fn finish(self) -> fmt::Result { Ok(()) } fn visit_pre(&mut self, ast: &Ast) -> fmt::Result { match *ast { Ast::Group(ref x) => self.fmt_group_pre(x), Ast::Class(ast::Class::Bracketed(ref x)) => { self.fmt_class_bracketed_pre(x) } _ => Ok(()), } } fn visit_post(&mut self, ast: &Ast) -> fmt::Result { use crate::ast::Class; match *ast { Ast::Empty(_) => Ok(()), Ast::Flags(ref x) => self.fmt_set_flags(x), Ast::Literal(ref x) => self.fmt_literal(x), Ast::Dot(_) => self.wtr.write_str("."), Ast::Assertion(ref x) => self.fmt_assertion(x), Ast::Class(Class::Perl(ref x)) => self.fmt_class_perl(x), Ast::Class(Class::Unicode(ref x)) => self.fmt_class_unicode(x), Ast::Class(Class::Bracketed(ref x)) => { self.fmt_class_bracketed_post(x) } Ast::Repetition(ref x) => self.fmt_repetition(x), Ast::Group(ref x) => self.fmt_group_post(x), Ast::Alternation(_) => Ok(()), Ast::Concat(_) => Ok(()), } } fn visit_alternation_in(&mut self) -> fmt::Result { self.wtr.write_str("|") } fn visit_class_set_item_pre( &mut self, ast: &ast::ClassSetItem, ) -> Result<(), Self::Err> { match *ast { ast::ClassSetItem::Bracketed(ref x) => { self.fmt_class_bracketed_pre(x) } _ => Ok(()), } } fn visit_class_set_item_post( &mut self, ast: &ast::ClassSetItem, ) -> Result<(), Self::Err> { use crate::ast::ClassSetItem::*; match *ast { Empty(_) => Ok(()), Literal(ref x) => self.fmt_literal(x), Range(ref x) => { self.fmt_literal(&x.start)?; self.wtr.write_str("-")?; self.fmt_literal(&x.end)?; Ok(()) } Ascii(ref x) => self.fmt_class_ascii(x), Unicode(ref x) => self.fmt_class_unicode(x), Perl(ref x) => self.fmt_class_perl(x), Bracketed(ref x) => self.fmt_class_bracketed_post(x), Union(_) => Ok(()), } } fn visit_class_set_binary_op_in( &mut self, ast: &ast::ClassSetBinaryOp, ) -> Result<(), Self::Err> { self.fmt_class_set_binary_op_kind(&ast.kind) } } impl Writer { fn fmt_group_pre(&mut self, ast: &ast::Group) -> fmt::Result { use crate::ast::GroupKind::*; match ast.kind { CaptureIndex(_) => self.wtr.write_str("("), CaptureName(ref x) => { self.wtr.write_str("(?P<")?; self.wtr.write_str(&x.name)?; self.wtr.write_str(">")?; Ok(()) } NonCapturing(ref flags) => { self.wtr.write_str("(?")?; self.fmt_flags(flags)?; self.wtr.write_str(":")?; Ok(()) } } } fn fmt_group_post(&mut self, _ast: &ast::Group) -> fmt::Result { self.wtr.write_str(")") } fn fmt_repetition(&mut self, ast: &ast::Repetition) -> fmt::Result { use crate::ast::RepetitionKind::*; match ast.op.kind { ZeroOrOne if ast.greedy => self.wtr.write_str("?"), ZeroOrOne => self.wtr.write_str("??"), ZeroOrMore if ast.greedy => self.wtr.write_str("*"), ZeroOrMore => self.wtr.write_str("*?"), OneOrMore if ast.greedy => self.wtr.write_str("+"), OneOrMore => self.wtr.write_str("+?"), Range(ref x) => { self.fmt_repetition_range(x)?; if !ast.greedy { self.wtr.write_str("?")?; } Ok(()) } } } fn fmt_repetition_range( &mut self, ast: &ast::RepetitionRange, ) -> fmt::Result { use crate::ast::RepetitionRange::*; match *ast { Exactly(x) => write!(self.wtr, "{{{}}}", x), AtLeast(x) => write!(self.wtr, "{{{},}}", x), Bounded(x, y) => write!(self.wtr, "{{{},{}}}", x, y), } } fn fmt_literal(&mut self, ast: &ast::Literal) -> fmt::Result { use crate::ast::LiteralKind::*; match ast.kind { Verbatim => self.wtr.write_char(ast.c), Punctuation => write!(self.wtr, r"\{}", ast.c), Octal => write!(self.wtr, r"\{:o}", ast.c as u32), HexFixed(ast::HexLiteralKind::X) => { write!(self.wtr, r"\x{:02X}", ast.c as u32) } HexFixed(ast::HexLiteralKind::UnicodeShort) => { write!(self.wtr, r"\u{:04X}", ast.c as u32) } HexFixed(ast::HexLiteralKind::UnicodeLong) => { write!(self.wtr, r"\U{:08X}", ast.c as u32) } HexBrace(ast::HexLiteralKind::X) => { write!(self.wtr, r"\x{{{:X}}}", ast.c as u32) } HexBrace(ast::HexLiteralKind::UnicodeShort) => { write!(self.wtr, r"\u{{{:X}}}", ast.c as u32) } HexBrace(ast::HexLiteralKind::UnicodeLong) => { write!(self.wtr, r"\U{{{:X}}}", ast.c as u32) } Special(ast::SpecialLiteralKind::Bell) => { self.wtr.write_str(r"\a") } Special(ast::SpecialLiteralKind::FormFeed) => { self.wtr.write_str(r"\f") } Special(ast::SpecialLiteralKind::Tab) => self.wtr.write_str(r"\t"), Special(ast::SpecialLiteralKind::LineFeed) => { self.wtr.write_str(r"\n") } Special(ast::SpecialLiteralKind::CarriageReturn) => { self.wtr.write_str(r"\r") } Special(ast::SpecialLiteralKind::VerticalTab) => { self.wtr.write_str(r"\v") } Special(ast::SpecialLiteralKind::Space) => { self.wtr.write_str(r"\ ") } } } fn fmt_assertion(&mut self, ast: &ast::Assertion) -> fmt::Result { use crate::ast::AssertionKind::*; match ast.kind { StartLine => self.wtr.write_str("^"), EndLine => self.wtr.write_str("$"), StartText => self.wtr.write_str(r"\A"), EndText => self.wtr.write_str(r"\z"), WordBoundary => self.wtr.write_str(r"\b"), NotWordBoundary => self.wtr.write_str(r"\B"), } } fn fmt_set_flags(&mut self, ast: &ast::SetFlags) -> fmt::Result { self.wtr.write_str("(?")?; self.fmt_flags(&ast.flags)?; self.wtr.write_str(")")?; Ok(()) } fn fmt_flags(&mut self, ast: &ast::Flags) -> fmt::Result { use crate::ast::{Flag, FlagsItemKind}; for item in &ast.items { match item.kind { FlagsItemKind::Negation => self.wtr.write_str("-"), FlagsItemKind::Flag(ref flag) => match *flag { Flag::CaseInsensitive => self.wtr.write_str("i"), Flag::MultiLine => self.wtr.write_str("m"), Flag::DotMatchesNewLine => self.wtr.write_str("s"), Flag::SwapGreed => self.wtr.write_str("U"), Flag::Unicode => self.wtr.write_str("u"), Flag::IgnoreWhitespace => self.wtr.write_str("x"), }, }?; } Ok(()) } fn fmt_class_bracketed_pre( &mut self, ast: &ast::ClassBracketed, ) -> fmt::Result { if ast.negated { self.wtr.write_str("[^") } else { self.wtr.write_str("[") } } fn fmt_class_bracketed_post( &mut self, _ast: &ast::ClassBracketed, ) -> fmt::Result { self.wtr.write_str("]") } fn fmt_class_set_binary_op_kind( &mut self, ast: &ast::ClassSetBinaryOpKind, ) -> fmt::Result { use crate::ast::ClassSetBinaryOpKind::*; match *ast { Intersection => self.wtr.write_str("&&"), Difference => self.wtr.write_str("--"), SymmetricDifference => self.wtr.write_str("~~"), } } fn fmt_class_perl(&mut self, ast: &ast::ClassPerl) -> fmt::Result { use crate::ast::ClassPerlKind::*; match ast.kind { Digit if ast.negated => self.wtr.write_str(r"\D"), Digit => self.wtr.write_str(r"\d"), Space if ast.negated => self.wtr.write_str(r"\S"), Space => self.wtr.write_str(r"\s"), Word if ast.negated => self.wtr.write_str(r"\W"), Word => self.wtr.write_str(r"\w"), } } fn fmt_class_ascii(&mut self, ast: &ast::ClassAscii) -> fmt::Result { use crate::ast::ClassAsciiKind::*; match ast.kind { Alnum if ast.negated => self.wtr.write_str("[:^alnum:]"), Alnum => self.wtr.write_str("[:alnum:]"), Alpha if ast.negated => self.wtr.write_str("[:^alpha:]"), Alpha => self.wtr.write_str("[:alpha:]"), Ascii if ast.negated => self.wtr.write_str("[:^ascii:]"), Ascii => self.wtr.write_str("[:ascii:]"), Blank if ast.negated => self.wtr.write_str("[:^blank:]"), Blank => self.wtr.write_str("[:blank:]"), Cntrl if ast.negated => self.wtr.write_str("[:^cntrl:]"), Cntrl => self.wtr.write_str("[:cntrl:]"), Digit if ast.negated => self.wtr.write_str("[:^digit:]"), Digit => self.wtr.write_str("[:digit:]"), Graph if ast.negated => self.wtr.write_str("[:^graph:]"), Graph => self.wtr.write_str("[:graph:]"), Lower if ast.negated => self.wtr.write_str("[:^lower:]"), Lower => self.wtr.write_str("[:lower:]"), Print if ast.negated => self.wtr.write_str("[:^print:]"), Print => self.wtr.write_str("[:print:]"), Punct if ast.negated => self.wtr.write_str("[:^punct:]"), Punct => self.wtr.write_str("[:punct:]"), Space if ast.negated => self.wtr.write_str("[:^space:]"), Space => self.wtr.write_str("[:space:]"), Upper if ast.negated => self.wtr.write_str("[:^upper:]"), Upper => self.wtr.write_str("[:upper:]"), Word if ast.negated => self.wtr.write_str("[:^word:]"), Word => self.wtr.write_str("[:word:]"), Xdigit if ast.negated => self.wtr.write_str("[:^xdigit:]"), Xdigit => self.wtr.write_str("[:xdigit:]"), } } fn fmt_class_unicode(&mut self, ast: &ast::ClassUnicode) -> fmt::Result { use crate::ast::ClassUnicodeKind::*; use crate::ast::ClassUnicodeOpKind::*; if ast.negated { self.wtr.write_str(r"\P")?; } else { self.wtr.write_str(r"\p")?; } match ast.kind { OneLetter(c) => self.wtr.write_char(c), Named(ref x) => write!(self.wtr, "{{{}}}", x), NamedValue { op: Equal, ref name, ref value } => { write!(self.wtr, "{{{}={}}}", name, value) } NamedValue { op: Colon, ref name, ref value } => { write!(self.wtr, "{{{}:{}}}", name, value) } NamedValue { op: NotEqual, ref name, ref value } => { write!(self.wtr, "{{{}!={}}}", name, value) } } } } #[cfg(test)] mod tests { use super::Printer; use crate::ast::parse::ParserBuilder; fn roundtrip(given: &str) { roundtrip_with(|b| b, given); } fn roundtrip_with(mut f: F, given: &str) where F: FnMut(&mut ParserBuilder) -> &mut ParserBuilder, { let mut builder = ParserBuilder::new(); f(&mut builder); let ast = builder.build().parse(given).unwrap(); let mut printer = Printer::new(); let mut dst = String::new(); printer.print(&ast, &mut dst).unwrap(); assert_eq!(given, dst); } #[test] fn print_literal() { roundtrip("a"); roundtrip(r"\["); roundtrip_with(|b| b.octal(true), r"\141"); roundtrip(r"\x61"); roundtrip(r"\x7F"); roundtrip(r"\u0061"); roundtrip(r"\U00000061"); roundtrip(r"\x{61}"); roundtrip(r"\x{7F}"); roundtrip(r"\u{61}"); roundtrip(r"\U{61}"); roundtrip(r"\a"); roundtrip(r"\f"); roundtrip(r"\t"); roundtrip(r"\n"); roundtrip(r"\r"); roundtrip(r"\v"); roundtrip(r"(?x)\ "); } #[test] fn print_dot() { roundtrip("."); } #[test] fn print_concat() { roundtrip("ab"); roundtrip("abcde"); roundtrip("a(bcd)ef"); } #[test] fn print_alternation() { roundtrip("a|b"); roundtrip("a|b|c|d|e"); roundtrip("|a|b|c|d|e"); roundtrip("|a|b|c|d|e|"); roundtrip("a(b|c|d)|e|f"); } #[test] fn print_assertion() { roundtrip(r"^"); roundtrip(r"$"); roundtrip(r"\A"); roundtrip(r"\z"); roundtrip(r"\b"); roundtrip(r"\B"); } #[test] fn print_repetition() { roundtrip("a?"); roundtrip("a??"); roundtrip("a*"); roundtrip("a*?"); roundtrip("a+"); roundtrip("a+?"); roundtrip("a{5}"); roundtrip("a{5}?"); roundtrip("a{5,}"); roundtrip("a{5,}?"); roundtrip("a{5,10}"); roundtrip("a{5,10}?"); } #[test] fn print_flags() { roundtrip("(?i)"); roundtrip("(?-i)"); roundtrip("(?s-i)"); roundtrip("(?-si)"); roundtrip("(?siUmux)"); } #[test] fn print_group() { roundtrip("(?i:a)"); roundtrip("(?Pa)"); roundtrip("(a)"); } #[test] fn print_class() { roundtrip(r"[abc]"); roundtrip(r"[a-z]"); roundtrip(r"[^a-z]"); roundtrip(r"[a-z0-9]"); roundtrip(r"[-a-z0-9]"); roundtrip(r"[-a-z0-9]"); roundtrip(r"[a-z0-9---]"); roundtrip(r"[a-z&&m-n]"); roundtrip(r"[[a-z&&m-n]]"); roundtrip(r"[a-z--m-n]"); roundtrip(r"[a-z~~m-n]"); roundtrip(r"[a-z[0-9]]"); roundtrip(r"[a-z[^0-9]]"); roundtrip(r"\d"); roundtrip(r"\D"); roundtrip(r"\s"); roundtrip(r"\S"); roundtrip(r"\w"); roundtrip(r"\W"); roundtrip(r"[[:alnum:]]"); roundtrip(r"[[:^alnum:]]"); roundtrip(r"[[:alpha:]]"); roundtrip(r"[[:^alpha:]]"); roundtrip(r"[[:ascii:]]"); roundtrip(r"[[:^ascii:]]"); roundtrip(r"[[:blank:]]"); roundtrip(r"[[:^blank:]]"); roundtrip(r"[[:cntrl:]]"); roundtrip(r"[[:^cntrl:]]"); roundtrip(r"[[:digit:]]"); roundtrip(r"[[:^digit:]]"); roundtrip(r"[[:graph:]]"); roundtrip(r"[[:^graph:]]"); roundtrip(r"[[:lower:]]"); roundtrip(r"[[:^lower:]]"); roundtrip(r"[[:print:]]"); roundtrip(r"[[:^print:]]"); roundtrip(r"[[:punct:]]"); roundtrip(r"[[:^punct:]]"); roundtrip(r"[[:space:]]"); roundtrip(r"[[:^space:]]"); roundtrip(r"[[:upper:]]"); roundtrip(r"[[:^upper:]]"); roundtrip(r"[[:word:]]"); roundtrip(r"[[:^word:]]"); roundtrip(r"[[:xdigit:]]"); roundtrip(r"[[:^xdigit:]]"); roundtrip(r"\pL"); roundtrip(r"\PL"); roundtrip(r"\p{L}"); roundtrip(r"\P{L}"); roundtrip(r"\p{X=Y}"); roundtrip(r"\P{X=Y}"); roundtrip(r"\p{X:Y}"); roundtrip(r"\P{X:Y}"); roundtrip(r"\p{X!=Y}"); roundtrip(r"\P{X!=Y}"); } }