add test cases for fold traversing macros
This commit is contained in:
John Clements
parent
a51fae097f
commit
2d59ebadb9
@ -13,6 +13,7 @@ use core::prelude::*;
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use ast::*;
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use ast;
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use codemap::{span, spanned};
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use parse::token;
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use opt_vec::OptVec;
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use core::vec;
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@ -904,3 +905,74 @@ impl AstFoldExtensions for @ast_fold {
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pub fn make_fold(afp: ast_fold_fns) -> @ast_fold {
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afp as @ast_fold
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}
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#[cfg(test)]
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mod test {
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use ast;
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use util::parser_testing::{string_to_crate, matches_codepattern};
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use parse::token;
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use print::pprust;
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use super::*;
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// taken from expand
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// given a function from idents to idents, produce
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// an ast_fold that applies that function:
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pub fn fun_to_ident_folder(f: @fn(ast::ident)->ast::ident) -> @ast_fold{
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let afp = default_ast_fold();
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let f_pre = @AstFoldFns{
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fold_ident : |id, _| f(id),
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.. *afp
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};
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make_fold(f_pre)
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}
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// this version doesn't care about getting comments or docstrings in.
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fn fake_print_crate(s: @pprust::ps, crate: ast::crate) {
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pprust::print_mod(s, &crate.node.module, crate.node.attrs);
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}
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// change every identifier to "zz"
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pub fn to_zz() -> @fn(ast::ident)->ast::ident {
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let zz_id = token::str_to_ident("zz");
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|id| {zz_id}
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}
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// maybe add to expand.rs...
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macro_rules! assert_pred (
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($pred:expr, $predname:expr, $a:expr , $b:expr) => (
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{
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let pred_val = $pred;
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let a_val = $a;
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let b_val = $b;
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if !(pred_val(a_val,b_val)) {
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fail!("expected args satisfying %s, got %? and %?",
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$predname, a_val, b_val);
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}
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}
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)
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)
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// make sure idents get transformed everywhere
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#[test] fn ident_transformation () {
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let zz_fold = fun_to_ident_folder(to_zz());
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let ast = string_to_crate(@~"#[a] mod b {fn c (d : e, f : g) {h!(i,j,k);l;m}}");
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assert_pred!(matches_codepattern,
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"matches_codepattern",
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pprust::to_str(zz_fold.fold_crate(ast),fake_print_crate,
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token::get_ident_interner()),
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~"#[a]mod zz{fn zz(zz:zz,zz:zz){zz!(zz,zz,zz);zz;zz}}");
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}
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// even inside macro defs....
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#[test] fn ident_transformation_in_defs () {
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let zz_fold = fun_to_ident_folder(to_zz());
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let ast = string_to_crate(@~"macro_rules! a {(b $c:expr $(d $e:token)f+
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=> (g $(d $d $e)+))} ");
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assert_pred!(matches_codepattern,
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"matches_codepattern",
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pprust::to_str(zz_fold.fold_crate(ast),fake_print_crate,
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token::get_ident_interner()),
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~"zz!zz((zz$zz:zz$(zz $zz:zz)zz+=>(zz$(zz$zz$zz)+)))");
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}
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}
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@ -69,3 +69,81 @@ pub fn string_to_pat(source_str : @~str) -> @ast::pat {
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pub fn strs_to_idents(ids: ~[&str]) -> ~[ast::ident] {
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ids.map(|u| token::str_to_ident(*u))
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}
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// does the given string match the pattern? whitespace in the first string
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// may be deleted or replaced with other whitespace to match the pattern.
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// this function is unicode-ignorant; fortunately, the careful design of
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// UTF-8 mitigates this ignorance. In particular, this function only collapses
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// sequences of \n, \r, ' ', and \t, but it should otherwise tolerate unicode
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// chars. Unsurprisingly, it doesn't do NKF-normalization(?).
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pub fn matches_codepattern(a : &str, b : &str) -> bool {
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let mut idx_a = 0;
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let mut idx_b = 0;
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loop {
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if (idx_a == a.len() && idx_b == b.len()) {
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return true;
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}
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else if (idx_a == a.len()) {return false;}
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else if (idx_b == b.len()) {
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// maybe the stuff left in a is all ws?
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if (is_whitespace(a.char_at(idx_a))) {
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return (scan_for_non_ws_or_end(a,idx_a) == a.len());
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} else {
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return false;
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}
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}
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// ws in both given and pattern:
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else if (is_whitespace(a.char_at(idx_a))
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&& is_whitespace(b.char_at(idx_b))) {
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idx_a = scan_for_non_ws_or_end(a,idx_a);
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idx_b = scan_for_non_ws_or_end(b,idx_b);
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}
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// ws in given only:
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else if (is_whitespace(a.char_at(idx_a))) {
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idx_a = scan_for_non_ws_or_end(a,idx_a);
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}
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// *don't* silently eat ws in expected only.
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else if (a.char_at(idx_a) == b.char_at(idx_b)) {
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idx_a += 1;
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idx_b += 1;
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}
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else {
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return false;
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}
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}
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}
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// given a string and an index, return the first uint >= idx
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// that is a non-ws-char or is outside of the legal range of
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// the string.
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fn scan_for_non_ws_or_end(a : &str, idx: uint) -> uint {
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let mut i = idx;
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let len = a.len();
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while ((i < len) && (is_whitespace(a.char_at(i)))) {
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i += 1;
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}
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i
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}
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// copied from lexer.
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pub fn is_whitespace(c: char) -> bool {
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return c == ' ' || c == '\t' || c == '\r' || c == '\n';
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}
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#[cfg(test)]
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mod test {
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use super::*;
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#[test] fn eqmodws() {
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assert_eq!(matches_codepattern("",""),true);
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assert_eq!(matches_codepattern("","a"),false);
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assert_eq!(matches_codepattern("a",""),false);
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assert_eq!(matches_codepattern("a","a"),true);
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assert_eq!(matches_codepattern("a b","a \n\t\r b"),true);
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assert_eq!(matches_codepattern("a b ","a \n\t\r b"),true);
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assert_eq!(matches_codepattern("a b","a \n\t\r b "),false);
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assert_eq!(matches_codepattern("a b","a b"),true);
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assert_eq!(matches_codepattern("ab","a b"),false);
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assert_eq!(matches_codepattern("a b","ab"),true);
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}
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}
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