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nushell/crates/nu-parser/tests/test_lex.rs
Kira ae0e13733d
Fix parsing record values containing colons (#13413) 
This PR is an attempt to fix #8257 and fix #10985 (which is
duplicate-ish)

# Description
The parser currently doesn't know how to deal with colons appearing
while lexing whitespace-terminated tokens specifying a record value.
Most notably, this means you can't use datetime literals in record value
position (and as a consequence, `| to nuon | from nuon` roundtrips can
fail), but it also means that bare words containing colons cause a
non-useful error message.

![image](https://github.com/user-attachments/assets/f04a8417-ee18-44e7-90eb-a0ecef943a0f)

`parser::parse_record` calls `lex::lex` with the `:` colon character in
the `special_tokens` argument. This allows colons to terminate record
keys, but as a side effect, it also causes colons to terminate record
*values*. I added a new function `lex::lex_n_tokens`, which allows the
caller to drive the lexing process more explicitly, and used it in
`parser::parse_record` to let colons terminate record keys while not
giving them special treatment when appearing in record values.

This PR description previously said: *Another approach suggested in one
of the issues was to support an additional datetime literal format that
doesn't require colons. I like that that wouldn't require new
`lex::lex_internal` behaviour, but an advantage of my approach is that
it also newly allows for string record values given as bare words
containing colons. I think this eliminates another possible source of
confusion.* It was determined that this is undesirable, and in the
current state of this PR, bare word record values with colons are
rejected explicitly. The better error message is still a win.

# User-Facing Changes
In addition to the above, this PR also disables the use of "special"
(non-item) tokens in record key and value position, and the use of a
single bare `:` as a record key.

Examples of behaviour *before* this PR:
```nu
{ a: b } # Valid, same as { 'a': 'b' }
{ a: b:c } # Error: expected ':'
{ a: 2024-08-13T22:11:09 } # Error: expected ':'
{ :: 1 } # Valid, same as { ':': 1 }
{ ;: 1 } # Valid, same as { ';': 1 }
{ a: || } # Valid, same as { 'a': '||' }
```

Examples of behaviour *after* this PR:
```nu
{ a: b } # (Unchanged) Valid, same as { 'a': 'b' }
{ a: b:c } # Error: colon in bare word specifying record value
{ a: 2024-08-13T22:11:09 } # Valid, same as { a: (2024-08-13T22:11:09) }
{ :: 1 } # Error: colon in bare word specifying record key
{ ;: 1 } # Error: expected item in record key position
{ a: || } # Error: expected item in record value position
```

# Tests + Formatting
I added tests, but I'm not sure if they're sufficient and in the right
place.

# After Submitting
I don't think documentation changes are needed for this, but please let
me know if you disagree.
2024-08-28 22:53:56 +02:00

307 lines
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use nu_parser::{lex, lex_n_tokens, lex_signature, LexState, Token, TokenContents};
use nu_protocol::{ParseError, Span};
#[test]
fn lex_basic() {
let file = b"let x = 4";
let output = lex(file, 0, &[], &[], true);
assert!(output.1.is_none());
}
#[test]
fn lex_newline() {
let file = b"let x = 300\nlet y = 500;";
let output = lex(file, 0, &[], &[], true);
assert!(output.0.contains(&Token {
contents: TokenContents::Eol,
span: Span::new(11, 12)
}));
}
#[test]
fn lex_annotations_list() {
let file = b"items: list<string>";
let (output, err) = lex_signature(file, 0, &[b'\n', b'\r'], &[b':', b'=', b','], false);
assert!(err.is_none());
assert_eq!(output.len(), 3);
}
#[test]
fn lex_annotations_record() {
let file = b"config: record<name: string>";
let (output, err) = lex_signature(file, 0, &[b'\n', b'\r'], &[b':', b'=', b','], false);
assert!(err.is_none());
assert_eq!(output.len(), 3);
}
#[test]
fn lex_annotations_empty() {
let file = b"items: list<>";
let (output, err) = lex_signature(file, 0, &[b'\n', b'\r'], &[b':', b'=', b','], false);
assert!(err.is_none());
assert_eq!(output.len(), 3);
}
#[test]
fn lex_annotations_space_before_annotations() {
let file = b"items: list <string>";
let (output, err) = lex_signature(file, 0, &[b'\n', b'\r'], &[b':', b'=', b','], false);
assert!(err.is_none());
assert_eq!(output.len(), 4);
}
#[test]
fn lex_annotations_space_within_annotations() {
let file = b"items: list< string>";
let (output, err) = lex_signature(file, 0, &[b'\n', b'\r'], &[b':', b'=', b','], false);
assert!(err.is_none());
assert_eq!(output.len(), 3);
let file = b"items: list<string >";
let (output, err) = lex_signature(file, 0, &[b'\n', b'\r'], &[b':', b'=', b','], false);
assert!(err.is_none());
assert_eq!(output.len(), 3);
let file = b"items: list< string >";
let (output, err) = lex_signature(file, 0, &[b'\n', b'\r'], &[b':', b'=', b','], false);
assert!(err.is_none());
assert_eq!(output.len(), 3);
}
#[test]
fn lex_annotations_nested() {
let file = b"items: list<record<name: string>>";
let (output, err) = lex_signature(file, 0, &[b'\n', b'\r'], &[b':', b'=', b','], false);
assert!(err.is_none());
assert_eq!(output.len(), 3);
}
#[test]
fn lex_annotations_nested_unterminated() {
let file = b"items: list<record<name: string>";
let (output, err) = lex_signature(file, 0, &[b'\n', b'\r'], &[b':', b'=', b','], false);
assert!(matches!(err.unwrap(), ParseError::UnexpectedEof(_, _)));
assert_eq!(output.len(), 3);
}
#[test]
fn lex_annotations_unterminated() {
let file = b"items: list<string";
let (output, err) = lex_signature(file, 0, &[b'\n', b'\r'], &[b':', b'=', b','], false);
assert!(matches!(err.unwrap(), ParseError::UnexpectedEof(_, _)));
assert_eq!(output.len(), 3);
}
#[test]
fn lex_empty() {
let file = b"";
let output = lex(file, 0, &[], &[], true);
assert!(output.0.is_empty());
assert!(output.1.is_none());
}
#[test]
fn lex_parenthesis() {
// The whole parenthesis is an item for the lexer
let file = b"let x = (300 + (322 * 444));";
let output = lex(file, 0, &[], &[], true);
assert_eq!(
output.0.get(3).unwrap(),
&Token {
contents: TokenContents::Item,
span: Span::new(8, 27)
}
);
}
#[test]
fn lex_comment() {
let file = b"let x = 300 # a comment \n $x + 444";
let output = lex(file, 0, &[], &[], false);
assert_eq!(
output.0.get(4).unwrap(),
&Token {
contents: TokenContents::Comment,
span: Span::new(12, 24)
}
);
}
#[test]
fn lex_is_incomplete() {
let file = b"let x = 300 | ;";
let output = lex(file, 0, &[], &[], true);
let err = output.1.unwrap();
assert!(matches!(err, ParseError::ExtraTokens(_)));
}
#[test]
fn lex_incomplete_paren() {
let file = b"let x = (300 + ( 4 + 1)";
let output = lex(file, 0, &[], &[], true);
let err = output.1.unwrap();
assert!(matches!(err, ParseError::UnexpectedEof(v, _) if v == ")"));
}
#[test]
fn lex_incomplete_quote() {
let file = b"let x = '300 + 4 + 1";
let output = lex(file, 0, &[], &[], true);
let err = output.1.unwrap();
assert!(matches!(err, ParseError::UnexpectedEof(v, _) if v == "'"));
}
#[test]
fn lex_comments_no_space() {
// test for parses that contain tokens that normally introduce comments
// Code:
// let z = 42 #the comment
// let x#y = 69 #hello
// let flk = nixpkgs#hello #hello
let file = b"let z = 42 #the comment \n let x#y = 69 #hello \n let flk = nixpkgs#hello #hello";
let output = lex(file, 0, &[], &[], false);
assert_eq!(
output.0.get(4).unwrap(),
&Token {
contents: TokenContents::Comment,
span: Span::new(11, 24)
}
);
assert_eq!(
output.0.get(7).unwrap(),
&Token {
contents: TokenContents::Item,
span: Span::new(30, 33)
}
);
assert_eq!(
output.0.get(10).unwrap(),
&Token {
contents: TokenContents::Comment,
span: Span::new(39, 46)
}
);
assert_eq!(
output.0.get(15).unwrap(),
&Token {
contents: TokenContents::Item,
span: Span::new(58, 71)
}
);
assert_eq!(
output.0.get(16).unwrap(),
&Token {
contents: TokenContents::Comment,
span: Span::new(72, 78)
}
);
}
#[test]
fn lex_comments() {
// Comments should keep the end of line token
// Code:
// let z = 4
// let x = 4 #comment
// let y = 1 # comment
let file = b"let z = 4 #comment \n let x = 4 # comment\n let y = 1 # comment";
let output = lex(file, 0, &[], &[], false);
assert_eq!(
output.0.get(4).unwrap(),
&Token {
contents: TokenContents::Comment,
span: Span::new(10, 19)
}
);
assert_eq!(
output.0.get(5).unwrap(),
&Token {
contents: TokenContents::Eol,
span: Span::new(19, 20)
}
);
// When there is no space between the comment and the new line the span
// for the command and the EOL overlaps
assert_eq!(
output.0.get(10).unwrap(),
&Token {
contents: TokenContents::Comment,
span: Span::new(31, 40)
}
);
assert_eq!(
output.0.get(11).unwrap(),
&Token {
contents: TokenContents::Eol,
span: Span::new(40, 41)
}
);
}
#[test]
fn lex_manually() {
let file = b"'a'\n#comment\n#comment again\n| continue";
let mut lex_state = LexState {
input: file,
output: Vec::new(),
error: None,
span_offset: 10,
};
assert_eq!(lex_n_tokens(&mut lex_state, &[], &[], false, 1), 1);
assert_eq!(lex_state.output.len(), 1);
assert_eq!(lex_n_tokens(&mut lex_state, &[], &[], false, 5), 5);
assert_eq!(lex_state.output.len(), 6);
// Next token is the pipe.
// This shortens the output because it exhausts the input before it can
// compensate for the EOL tokens lost to the line continuation
assert_eq!(lex_n_tokens(&mut lex_state, &[], &[], false, 1), -1);
assert_eq!(lex_state.output.len(), 5);
assert_eq!(file.len(), lex_state.span_offset - 10);
let last_span = lex_state.output.last().unwrap().span;
assert_eq!(&file[last_span.start - 10..last_span.end - 10], b"continue");
}
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