// Copyright 2012 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. use ast; use codemap::{BytePos, Pos, span}; use ext::base::ExtCtxt; use ext::base; use ext::build::AstBuilder; use parse::token::*; use parse::token; use parse; /** * * Quasiquoting works via token trees. * * This is registered as a set of expression syntax extension called quote! * that lifts its argument token-tree to an AST representing the * construction of the same token tree, with ast::tt_nonterminal nodes * interpreted as antiquotes (splices). * */ pub mod rt { use ast; use ext::base::ExtCtxt; use parse; use print::pprust; pub use ast::*; pub use parse::token::*; pub use parse::new_parser_from_tts; pub use codemap::{BytePos, span, dummy_spanned}; pub trait ToTokens { fn to_tokens(&self, _cx: @ExtCtxt) -> ~[token_tree]; } impl ToTokens for ~[token_tree] { fn to_tokens(&self, _cx: @ExtCtxt) -> ~[token_tree] { (*self).clone() } } /* Should be (when bugs in default methods are fixed): trait ToSource : ToTokens { // Takes a thing and generates a string containing rust code for it. pub fn to_source() -> ~str; // If you can make source, you can definitely make tokens. pub fn to_tokens(cx: @ExtCtxt) -> ~[token_tree] { cx.parse_tts(self.to_source()) } } */ pub trait ToSource { // Takes a thing and generates a string containing rust code for it. fn to_source(&self) -> @str; } impl ToSource for ast::ident { fn to_source(&self) -> @str { ident_to_str(self) } } impl ToSource for @ast::item { fn to_source(&self) -> @str { pprust::item_to_str(*self, get_ident_interner()).to_managed() } } impl<'self> ToSource for &'self [@ast::item] { fn to_source(&self) -> @str { self.map(|i| i.to_source()).connect("\n\n").to_managed() } } impl ToSource for ast::Ty { fn to_source(&self) -> @str { pprust::ty_to_str(self, get_ident_interner()).to_managed() } } impl<'self> ToSource for &'self [ast::Ty] { fn to_source(&self) -> @str { self.map(|i| i.to_source()).connect(", ").to_managed() } } impl ToSource for Generics { fn to_source(&self) -> @str { pprust::generics_to_str(self, get_ident_interner()).to_managed() } } impl ToSource for @ast::expr { fn to_source(&self) -> @str { pprust::expr_to_str(*self, get_ident_interner()).to_managed() } } impl ToSource for ast::Block { fn to_source(&self) -> @str { pprust::block_to_str(self, get_ident_interner()).to_managed() } } impl<'self> ToSource for &'self str { fn to_source(&self) -> @str { let lit = dummy_spanned(ast::lit_str(self.to_managed())); pprust::lit_to_str(@lit).to_managed() } } impl ToSource for int { fn to_source(&self) -> @str { let lit = dummy_spanned(ast::lit_int(*self as i64, ast::ty_i)); pprust::lit_to_str(@lit).to_managed() } } impl ToSource for i8 { fn to_source(&self) -> @str { let lit = dummy_spanned(ast::lit_int(*self as i64, ast::ty_i8)); pprust::lit_to_str(@lit).to_managed() } } impl ToSource for i16 { fn to_source(&self) -> @str { let lit = dummy_spanned(ast::lit_int(*self as i64, ast::ty_i16)); pprust::lit_to_str(@lit).to_managed() } } impl ToSource for i32 { fn to_source(&self) -> @str { let lit = dummy_spanned(ast::lit_int(*self as i64, ast::ty_i32)); pprust::lit_to_str(@lit).to_managed() } } impl ToSource for i64 { fn to_source(&self) -> @str { let lit = dummy_spanned(ast::lit_int(*self as i64, ast::ty_i64)); pprust::lit_to_str(@lit).to_managed() } } impl ToSource for uint { fn to_source(&self) -> @str { let lit = dummy_spanned(ast::lit_uint(*self as u64, ast::ty_u)); pprust::lit_to_str(@lit).to_managed() } } impl ToSource for u8 { fn to_source(&self) -> @str { let lit = dummy_spanned(ast::lit_uint(*self as u64, ast::ty_u8)); pprust::lit_to_str(@lit).to_managed() } } impl ToSource for u16 { fn to_source(&self) -> @str { let lit = dummy_spanned(ast::lit_uint(*self as u64, ast::ty_u16)); pprust::lit_to_str(@lit).to_managed() } } impl ToSource for u32 { fn to_source(&self) -> @str { let lit = dummy_spanned(ast::lit_uint(*self as u64, ast::ty_u32)); pprust::lit_to_str(@lit).to_managed() } } impl ToSource for u64 { fn to_source(&self) -> @str { let lit = dummy_spanned(ast::lit_uint(*self as u64, ast::ty_u64)); pprust::lit_to_str(@lit).to_managed() } } // Alas ... we write these out instead. All redundant. macro_rules! impl_to_tokens( ($t:ty) => ( impl ToTokens for $t { fn to_tokens(&self, cx: @ExtCtxt) -> ~[token_tree] { cx.parse_tts(self.to_source()) } } ) ) macro_rules! impl_to_tokens_self( ($t:ty) => ( impl<'self> ToTokens for $t { fn to_tokens(&self, cx: @ExtCtxt) -> ~[token_tree] { cx.parse_tts(self.to_source()) } } ) ) impl_to_tokens!(ast::ident) impl_to_tokens!(@ast::item) impl_to_tokens_self!(&'self [@ast::item]) impl_to_tokens!(ast::Ty) impl_to_tokens_self!(&'self [ast::Ty]) impl_to_tokens!(Generics) impl_to_tokens!(@ast::expr) impl_to_tokens!(ast::Block) impl_to_tokens_self!(&'self str) impl_to_tokens!(int) impl_to_tokens!(i8) impl_to_tokens!(i16) impl_to_tokens!(i32) impl_to_tokens!(i64) impl_to_tokens!(uint) impl_to_tokens!(u8) impl_to_tokens!(u16) impl_to_tokens!(u32) impl_to_tokens!(u64) pub trait ExtParseUtils { fn parse_item(&self, s: @str) -> @ast::item; fn parse_expr(&self, s: @str) -> @ast::expr; fn parse_stmt(&self, s: @str) -> @ast::stmt; fn parse_tts(&self, s: @str) -> ~[ast::token_tree]; } impl ExtParseUtils for ExtCtxt { fn parse_item(&self, s: @str) -> @ast::item { let res = parse::parse_item_from_source_str( @"", s, self.cfg(), ~[], self.parse_sess()); match res { Some(ast) => ast, None => { error!("Parse error with ```\n%s\n```", s); fail!() } } } fn parse_stmt(&self, s: @str) -> @ast::stmt { parse::parse_stmt_from_source_str( @"", s, self.cfg(), ~[], self.parse_sess()) } fn parse_expr(&self, s: @str) -> @ast::expr { parse::parse_expr_from_source_str( @"", s, self.cfg(), self.parse_sess()) } fn parse_tts(&self, s: @str) -> ~[ast::token_tree] { parse::parse_tts_from_source_str( @"", s, self.cfg(), self.parse_sess()) } } } pub fn expand_quote_tokens(cx: @ExtCtxt, sp: span, tts: &[ast::token_tree]) -> base::MacResult { let (cx_expr, expr) = expand_tts(cx, sp, tts); base::MRExpr(expand_wrapper(cx, sp, cx_expr, expr)) } pub fn expand_quote_expr(cx: @ExtCtxt, sp: span, tts: &[ast::token_tree]) -> base::MacResult { base::MRExpr(expand_parse_call(cx, sp, "parse_expr", ~[], tts)) } pub fn expand_quote_item(cx: @ExtCtxt, sp: span, tts: &[ast::token_tree]) -> base::MacResult { let e_attrs = cx.expr_vec_uniq(sp, ~[]); base::MRExpr(expand_parse_call(cx, sp, "parse_item", ~[e_attrs], tts)) } pub fn expand_quote_pat(cx: @ExtCtxt, sp: span, tts: &[ast::token_tree]) -> base::MacResult { let e_refutable = cx.expr_lit(sp, ast::lit_bool(true)); base::MRExpr(expand_parse_call(cx, sp, "parse_pat", ~[e_refutable], tts)) } pub fn expand_quote_ty(cx: @ExtCtxt, sp: span, tts: &[ast::token_tree]) -> base::MacResult { let e_param_colons = cx.expr_lit(sp, ast::lit_bool(false)); base::MRExpr(expand_parse_call(cx, sp, "parse_ty", ~[e_param_colons], tts)) } pub fn expand_quote_stmt(cx: @ExtCtxt, sp: span, tts: &[ast::token_tree]) -> base::MacResult { let e_attrs = cx.expr_vec_uniq(sp, ~[]); base::MRExpr(expand_parse_call(cx, sp, "parse_stmt", ~[e_attrs], tts)) } fn ids_ext(strs: ~[~str]) -> ~[ast::ident] { strs.map(|str| str_to_ident(*str)) } fn id_ext(str: &str) -> ast::ident { str_to_ident(str) } // Lift an ident to the expr that evaluates to that ident. fn mk_ident(cx: @ExtCtxt, sp: span, ident: ast::ident) -> @ast::expr { let e_str = cx.expr_str(sp, cx.str_of(ident)); cx.expr_method_call(sp, cx.expr_ident(sp, id_ext("ext_cx")), id_ext("ident_of"), ~[e_str]) } fn mk_bytepos(cx: @ExtCtxt, sp: span, bpos: BytePos) -> @ast::expr { let path = id_ext("BytePos"); let arg = cx.expr_uint(sp, bpos.to_uint()); cx.expr_call_ident(sp, path, ~[arg]) } fn mk_binop(cx: @ExtCtxt, sp: span, bop: token::binop) -> @ast::expr { let name = match bop { PLUS => "PLUS", MINUS => "MINUS", STAR => "STAR", SLASH => "SLASH", PERCENT => "PERCENT", CARET => "CARET", AND => "AND", OR => "OR", SHL => "SHL", SHR => "SHR" }; cx.expr_ident(sp, id_ext(name)) } fn mk_token(cx: @ExtCtxt, sp: span, tok: &token::Token) -> @ast::expr { match *tok { BINOP(binop) => { return cx.expr_call_ident(sp, id_ext("BINOP"), ~[mk_binop(cx, sp, binop)]); } BINOPEQ(binop) => { return cx.expr_call_ident(sp, id_ext("BINOPEQ"), ~[mk_binop(cx, sp, binop)]); } LIT_INT(i, ity) => { let s_ity = match ity { ast::ty_i => ~"ty_i", ast::ty_char => ~"ty_char", ast::ty_i8 => ~"ty_i8", ast::ty_i16 => ~"ty_i16", ast::ty_i32 => ~"ty_i32", ast::ty_i64 => ~"ty_i64" }; let e_ity = cx.expr_ident(sp, id_ext(s_ity)); let e_i64 = cx.expr_lit(sp, ast::lit_int(i, ast::ty_i64)); return cx.expr_call_ident(sp, id_ext("LIT_INT"), ~[e_i64, e_ity]); } LIT_UINT(u, uty) => { let s_uty = match uty { ast::ty_u => ~"ty_u", ast::ty_u8 => ~"ty_u8", ast::ty_u16 => ~"ty_u16", ast::ty_u32 => ~"ty_u32", ast::ty_u64 => ~"ty_u64" }; let e_uty = cx.expr_ident(sp, id_ext(s_uty)); let e_u64 = cx.expr_lit(sp, ast::lit_uint(u, ast::ty_u64)); return cx.expr_call_ident(sp, id_ext("LIT_UINT"), ~[e_u64, e_uty]); } LIT_INT_UNSUFFIXED(i) => { let e_i64 = cx.expr_lit(sp, ast::lit_int(i, ast::ty_i64)); return cx.expr_call_ident(sp, id_ext("LIT_INT_UNSUFFIXED"), ~[e_i64]); } LIT_FLOAT(fident, fty) => { let s_fty = match fty { ast::ty_f => ~"ty_f", ast::ty_f32 => ~"ty_f32", ast::ty_f64 => ~"ty_f64" }; let e_fty = cx.expr_ident(sp, id_ext(s_fty)); let e_fident = mk_ident(cx, sp, fident); return cx.expr_call_ident(sp, id_ext("LIT_FLOAT"), ~[e_fident, e_fty]); } LIT_STR(ident) => { return cx.expr_call_ident(sp, id_ext("LIT_STR"), ~[mk_ident(cx, sp, ident)]); } IDENT(ident, b) => { return cx.expr_call_ident(sp, id_ext("IDENT"), ~[mk_ident(cx, sp, ident), cx.expr_bool(sp, b)]); } LIFETIME(ident) => { return cx.expr_call_ident(sp, id_ext("LIFETIME"), ~[mk_ident(cx, sp, ident)]); } DOC_COMMENT(ident) => { return cx.expr_call_ident(sp, id_ext("DOC_COMMENT"), ~[mk_ident(cx, sp, ident)]); } INTERPOLATED(_) => fail!("quote! with interpolated token"), _ => () } let name = match *tok { EQ => "EQ", LT => "LT", LE => "LE", EQEQ => "EQEQ", NE => "NE", GE => "GE", GT => "GT", ANDAND => "ANDAND", OROR => "OROR", NOT => "NOT", TILDE => "TILDE", AT => "AT", DOT => "DOT", DOTDOT => "DOTDOT", COMMA => "COMMA", SEMI => "SEMI", COLON => "COLON", MOD_SEP => "MOD_SEP", RARROW => "RARROW", LARROW => "LARROW", DARROW => "DARROW", FAT_ARROW => "FAT_ARROW", LPAREN => "LPAREN", RPAREN => "RPAREN", LBRACKET => "LBRACKET", RBRACKET => "RBRACKET", LBRACE => "LBRACE", RBRACE => "RBRACE", POUND => "POUND", DOLLAR => "DOLLAR", UNDERSCORE => "UNDERSCORE", EOF => "EOF", _ => fail!() }; cx.expr_ident(sp, id_ext(name)) } fn mk_tt(cx: @ExtCtxt, sp: span, tt: &ast::token_tree) -> ~[@ast::stmt] { match *tt { ast::tt_tok(sp, ref tok) => { let e_sp = cx.expr_ident(sp, id_ext("sp")); let e_tok = cx.expr_call_ident(sp, id_ext("tt_tok"), ~[e_sp, mk_token(cx, sp, tok)]); let e_push = cx.expr_method_call(sp, cx.expr_ident(sp, id_ext("tt")), id_ext("push"), ~[e_tok]); ~[cx.stmt_expr(e_push)] } ast::tt_delim(ref tts) => mk_tts(cx, sp, **tts), ast::tt_seq(*) => fail!("tt_seq in quote!"), ast::tt_nonterminal(sp, ident) => { // tt.push_all_move($ident.to_tokens(ext_cx)) let e_to_toks = cx.expr_method_call(sp, cx.expr_ident(sp, ident), id_ext("to_tokens"), ~[cx.expr_ident(sp, id_ext("ext_cx"))]); let e_push = cx.expr_method_call(sp, cx.expr_ident(sp, id_ext("tt")), id_ext("push_all_move"), ~[e_to_toks]); ~[cx.stmt_expr(e_push)] } } } fn mk_tts(cx: @ExtCtxt, sp: span, tts: &[ast::token_tree]) -> ~[@ast::stmt] { let mut ss = ~[]; for tt in tts.iter() { ss.push_all_move(mk_tt(cx, sp, tt)); } ss } fn expand_tts(cx: @ExtCtxt, sp: span, tts: &[ast::token_tree]) -> (@ast::expr, @ast::expr) { // NB: It appears that the main parser loses its mind if we consider // $foo as a tt_nonterminal during the main parse, so we have to re-parse // under quote_depth > 0. This is silly and should go away; the _guess_ is // it has to do with transition away from supporting old-style macros, so // try removing it when enough of them are gone. let p = parse::new_parser_from_tts( cx.parse_sess(), cx.cfg(), tts.to_owned() ); *p.quote_depth += 1u; let cx_expr = p.parse_expr(); if !p.eat(&token::COMMA) { p.fatal("Expected token `,`"); } let tts = p.parse_all_token_trees(); p.abort_if_errors(); // We also bind a single value, sp, to ext_cx.call_site() // // This causes every span in a token-tree quote to be attributed to the // call site of the extension using the quote. We can't really do much // better since the source of the quote may well be in a library that // was not even parsed by this compilation run, that the user has no // source code for (eg. in libsyntax, which they're just _using_). // // The old quasiquoter had an elaborate mechanism for denoting input // file locations from which quotes originated; unfortunately this // relied on feeding the source string of the quote back into the // compiler (which we don't really want to do) and, in any case, only // pushed the problem a very small step further back: an error // resulting from a parse of the resulting quote is still attributed to // the site the string literal occurred, which was in a source file // _other_ than the one the user has control over. For example, an // error in a quote from the protocol compiler, invoked in user code // using macro_rules! for example, will be attributed to the macro_rules.rs // file in libsyntax, which the user might not even have source to (unless // they happen to have a compiler on hand). Over all, the phase distinction // just makes quotes "hard to attribute". Possibly this could be fixed // by recreating some of the original qq machinery in the tt regime // (pushing fake FileMaps onto the parser to account for original sites // of quotes, for example) but at this point it seems not likely to be // worth the hassle. let e_sp = cx.expr_method_call(sp, cx.expr_ident(sp, id_ext("ext_cx")), id_ext("call_site"), ~[]); let stmt_let_sp = cx.stmt_let(sp, false, id_ext("sp"), e_sp); let stmt_let_tt = cx.stmt_let(sp, true, id_ext("tt"), cx.expr_vec_uniq(sp, ~[])); let block = cx.expr_block( cx.block_all(sp, ~[], ~[stmt_let_sp, stmt_let_tt] + mk_tts(cx, sp, tts), Some(cx.expr_ident(sp, id_ext("tt"))))); (cx_expr, block) } fn expand_wrapper(cx: @ExtCtxt, sp: span, cx_expr: @ast::expr, expr: @ast::expr) -> @ast::expr { let uses = ~[ cx.view_use_glob(sp, ast::public, ids_ext(~[~"syntax", ~"ext", ~"quote", ~"rt"])) ]; let stmt_let_ext_cx = cx.stmt_let(sp, false, id_ext("ext_cx"), cx_expr); cx.expr_block(cx.block_all(sp, uses, ~[stmt_let_ext_cx], Some(expr))) } fn expand_parse_call(cx: @ExtCtxt, sp: span, parse_method: &str, arg_exprs: ~[@ast::expr], tts: &[ast::token_tree]) -> @ast::expr { let (cx_expr, tts_expr) = expand_tts(cx, sp, tts); let cfg_call = || cx.expr_method_call( sp, cx.expr_ident(sp, id_ext("ext_cx")), id_ext("cfg"), ~[]); let parse_sess_call = || cx.expr_method_call( sp, cx.expr_ident(sp, id_ext("ext_cx")), id_ext("parse_sess"), ~[]); let new_parser_call = cx.expr_call(sp, cx.expr_ident(sp, id_ext("new_parser_from_tts")), ~[parse_sess_call(), cfg_call(), tts_expr]); let expr = cx.expr_method_call(sp, new_parser_call, id_ext(parse_method), arg_exprs); expand_wrapper(cx, sp, cx_expr, expr) }