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finish raw value queries for gitconfig

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This commit is contained in:
Edward Shen 2021-02-20 13:49:01 -05:00
parent 2fb1fa3ff4
commit 594ee8ac0c
Signed by: edward
GPG key ID: 19182661E818369F
2 changed files with 773 additions and 534 deletions
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433
src/config.rs
View file

@ -13,8 +13,11 @@ enum LookupTreeNode<'a> {
#[derive(Debug, PartialEq, Eq)]
pub enum GitConfigError<'a> {
/// The requested section does not exist.
SectionDoesNotExist(&'a str),
/// The requested subsection does not exist.
SubSectionDoesNotExist(Option<&'a str>),
/// The key does not exist in the requested section.
KeyDoesNotExist(&'a str),
}
@ -50,10 +53,6 @@ impl<'a> GitConfig<'a> {
for event in parser.into_iter() {
match event {
e @ Event::Comment(_) => match maybe_section {
Some(ref mut section) => section.push(e),
None => new_self.front_matter_events.push(e),
},
Event::SectionHeader(header) => {
new_self.push_section(
&mut current_section_name,
@ -73,33 +72,24 @@ impl<'a> GitConfig<'a> {
.section_header_separators
.insert(SectionId(new_self.section_id_counter), header.separator);
}
e @ Event::Key(_) => maybe_section
e @ Event::Key(_)
| e @ Event::Value(_)
| e @ Event::ValueNotDone(_)
| e @ Event::ValueDone(_) => maybe_section
.as_mut()
.expect("Got a section-only event before a section")
.push(e),
e @ Event::Value(_) => maybe_section
.as_mut()
.expect("Got a section-only event before a section")
.push(e),
e @ Event::Newline(_) => match maybe_section {
Some(ref mut section) => section.push(e),
None => new_self.front_matter_events.push(e),
},
e @ Event::ValueNotDone(_) => maybe_section
.as_mut()
.expect("Got a section-only event before a section")
.push(e),
e @ Event::ValueDone(_) => maybe_section
.as_mut()
.expect("Got a section-only event before a section")
.push(e),
e @ Event::Whitespace(_) => match maybe_section {
Some(ref mut section) => section.push(e),
None => new_self.front_matter_events.push(e),
},
e @ Event::Comment(_) | e @ Event::Newline(_) | e @ Event::Whitespace(_) => {
match maybe_section {
Some(ref mut section) => section.push(e),
None => new_self.front_matter_events.push(e),
}
}
}
}
// The last section doesn't get pushed since we only push if there's a
// new section header, so we need to call push one more time.
new_self.push_section(
&mut current_section_name,
&mut current_subsection_name,
@ -178,11 +168,14 @@ impl<'a> GitConfig<'a> {
/// ```
/// # use serde_git_config::config::GitConfig;
/// # let git_config = GitConfig::from_str("[core]a=b\n[core]\na=c\na=d").unwrap();
/// assert_eq!(git_config.get_raw_single_value("core", None, "a"), Ok("d"));
/// assert_eq!(git_config.get_raw_value("core", None, "a"), Ok("d"));
/// ```
///
/// The the resolution is as follows
pub fn get_raw_single_value<'b>(
/// # Errors
///
/// This function will return an error if the key is not in the requested
/// section and subsection.
pub fn get_raw_value<'b>(
&self,
section_name: &'b str,
subsection_name: Option<&'b str>,
@ -191,16 +184,13 @@ impl<'a> GitConfig<'a> {
// Note: cannot wrap around the raw_multi_value method because we need
// to guarantee that the highest section id is used (so that we follow
// the "last one wins" resolution strategy by `git-config`).
let section_id = self
.get_section_id_by_name_and_subname(section_name, subsection_name)
.ok_or(GitConfigError::SubSectionDoesNotExist(subsection_name))?;
let section_id = self.get_section_id_by_name_and_subname(section_name, subsection_name)?;
// section_id is guaranteed to exist in self.sections, else we have a
// violated invariant.
let events = self.sections.get(&section_id).unwrap();
let mut found_key = false;
let mut latest_value = None;
// logic needs fixing for last one wins rule
for event in events {
match event {
Event::Key(event_key) if *event_key == key => found_key = true,
@ -219,10 +209,13 @@ impl<'a> GitConfig<'a> {
&'a self,
section_name: &'b str,
subsection_name: Option<&'b str>,
) -> Option<SectionId> {
) -> Result<SectionId, GitConfigError<'b>> {
self.get_section_ids_by_name_and_subname(section_name, subsection_name)
.map(|vec| vec.into_iter().max())
.flatten()
.map(|vec| {
// get_section_ids_by_name_and_subname is guaranteed to return
// a non-empty vec, so max can never return empty.
*vec.into_iter().max().unwrap()
})
}
pub fn get_raw_multi_value<'b>(
@ -232,26 +225,33 @@ impl<'a> GitConfig<'a> {
key: &'b str,
) -> Result<Vec<&'a str>, GitConfigError<'b>> {
let values = self
.get_section_ids_by_name_and_subname(section_name, subsection_name)
.ok_or(GitConfigError::SubSectionDoesNotExist(subsection_name))?
.get_section_ids_by_name_and_subname(section_name, subsection_name)?
.iter()
.map(|section_id| {
let mut found_key = false;
let mut events = vec![];
// section_id is guaranteed to exist in self.sections, else we have a
// violated invariant.
for event in self.sections.get(section_id).unwrap() {
match event {
Event::Key(event_key) if *event_key == key => found_key = true,
Event::Value(v) if found_key => return Ok(*v),
Event::Value(v) if found_key => {
events.push(*v);
found_key = false;
}
_ => (),
}
}
Err(GitConfigError::KeyDoesNotExist(key))
if events.is_empty() {
Err(GitConfigError::KeyDoesNotExist(key))
} else {
Ok(events)
}
})
.filter_map(Result::ok)
.flatten()
.collect::<Vec<_>>();
if values.is_empty() {
Err(GitConfigError::KeyDoesNotExist(key))
} else {
@ -263,85 +263,324 @@ impl<'a> GitConfig<'a> {
&'a self,
section_name: &'b str,
subsection_name: Option<&'b str>,
) -> Option<Vec<SectionId>> {
let section_ids = self.section_lookup_tree.get(section_name)?;
) -> Result<&[SectionId], GitConfigError<'b>> {
let section_ids = self
.section_lookup_tree
.get(section_name)
.ok_or(GitConfigError::SectionDoesNotExist(section_name))?;
let mut maybe_ids = None;
// Don't simplify if and matches here -- the for loop currently needs
// `n + 1` checks, while the if and matches will result in the for loop
// needing `2n` checks.
if let Some(subsect_name) = subsection_name {
let mut maybe_ids = None;
for node in section_ids {
if let LookupTreeNode::NonTerminal(subsection_lookup) = node {
maybe_ids = subsection_lookup.get(subsect_name);
break;
}
}
maybe_ids.map(|vec| vec.clone())
} else {
let mut maybe_ids = None;
for node in section_ids {
if let LookupTreeNode::Terminal(subsection_lookup) = node {
maybe_ids = subsection_lookup.iter().max();
maybe_ids = Some(subsection_lookup);
break;
}
}
maybe_ids.map(|v| vec![*v])
}
maybe_ids
.map(Vec::as_slice)
.ok_or(GitConfigError::SubSectionDoesNotExist(subsection_name))
}
}
#[cfg(test)]
mod git_config {
mod from_parser {
use super::super::*;
mod from_parser {
use super::*;
#[test]
fn parse_empty() {
let config = GitConfig::from_str("").unwrap();
assert!(config.section_header_separators.is_empty());
assert_eq!(config.section_id_counter, 0);
assert!(config.section_lookup_tree.is_empty());
assert!(config.sections.is_empty());
}
#[test]
fn parse_empty() {
let config = GitConfig::from_str("").unwrap();
assert!(config.section_header_separators.is_empty());
assert_eq!(config.section_id_counter, 0);
assert!(config.section_lookup_tree.is_empty());
assert!(config.sections.is_empty());
}
#[test]
fn parse_single_section() {
let config = GitConfig::from_str("[core]\na=b\nc=d").unwrap();
let expected_separators = {
let mut map = HashMap::new();
map.insert(SectionId(0), None);
map
};
assert_eq!(config.section_header_separators, expected_separators);
assert_eq!(config.section_id_counter, 1);
let expected_lookup_tree = {
let mut tree = HashMap::new();
tree.insert("core", vec![LookupTreeNode::Terminal(vec![SectionId(0)])]);
tree
};
assert_eq!(config.section_lookup_tree, expected_lookup_tree);
let expected_sections = {
let mut sections = HashMap::new();
sections.insert(
SectionId(0),
vec![
Event::Newline("\n"),
Event::Key("a"),
Event::Value("b"),
Event::Newline("\n"),
Event::Key("c"),
Event::Value("d"),
],
);
sections
};
assert_eq!(config.sections, expected_sections);
}
#[test]
fn parse_single_section() {
let config = GitConfig::from_str("[core]\na=b\nc=d").unwrap();
let expected_separators = {
let mut map = HashMap::new();
map.insert(SectionId(0), None);
map
};
assert_eq!(config.section_header_separators, expected_separators);
assert_eq!(config.section_id_counter, 1);
let expected_lookup_tree = {
let mut tree = HashMap::new();
tree.insert("core", vec![LookupTreeNode::Terminal(vec![SectionId(0)])]);
tree
};
assert_eq!(config.section_lookup_tree, expected_lookup_tree);
let expected_sections = {
let mut sections = HashMap::new();
sections.insert(
SectionId(0),
vec![
Event::Newline("\n"),
Event::Key("a"),
Event::Value("b"),
Event::Newline("\n"),
Event::Key("c"),
Event::Value("d"),
],
);
sections
};
assert_eq!(config.sections, expected_sections);
}
#[test]
fn parse_single_subsection() {}
#[test]
fn parse_single_subsection() {
let config = GitConfig::from_str("[core.subsec]\na=b\nc=d").unwrap();
let expected_separators = {
let mut map = HashMap::new();
map.insert(SectionId(0), Some("."));
map
};
assert_eq!(config.section_header_separators, expected_separators);
assert_eq!(config.section_id_counter, 1);
let expected_lookup_tree = {
let mut tree = HashMap::new();
let mut inner_tree = HashMap::new();
inner_tree.insert("subsec", vec![SectionId(0)]);
tree.insert("core", vec![LookupTreeNode::NonTerminal(inner_tree)]);
tree
};
assert_eq!(config.section_lookup_tree, expected_lookup_tree);
let expected_sections = {
let mut sections = HashMap::new();
sections.insert(
SectionId(0),
vec![
Event::Newline("\n"),
Event::Key("a"),
Event::Value("b"),
Event::Newline("\n"),
Event::Key("c"),
Event::Value("d"),
],
);
sections
};
assert_eq!(config.sections, expected_sections);
}
#[test]
fn parse_multiple_sections() {}
#[test]
fn parse_multiple_sections() {
let config = GitConfig::from_str("[core]\na=b\nc=d\n[other]e=f").unwrap();
let expected_separators = {
let mut map = HashMap::new();
map.insert(SectionId(0), None);
map.insert(SectionId(1), None);
map
};
assert_eq!(config.section_header_separators, expected_separators);
assert_eq!(config.section_id_counter, 2);
let expected_lookup_tree = {
let mut tree = HashMap::new();
tree.insert("core", vec![LookupTreeNode::Terminal(vec![SectionId(0)])]);
tree.insert("other", vec![LookupTreeNode::Terminal(vec![SectionId(1)])]);
tree
};
assert_eq!(config.section_lookup_tree, expected_lookup_tree);
let expected_sections = {
let mut sections = HashMap::new();
sections.insert(
SectionId(0),
vec![
Event::Newline("\n"),
Event::Key("a"),
Event::Value("b"),
Event::Newline("\n"),
Event::Key("c"),
Event::Value("d"),
Event::Newline("\n"),
],
);
sections.insert(SectionId(1), vec![Event::Key("e"), Event::Value("f")]);
sections
};
assert_eq!(config.sections, expected_sections);
}
#[test]
fn parse_multiple_duplicate_sections() {}
#[test]
fn parse_multiple_duplicate_sections() {
let config = GitConfig::from_str("[core]\na=b\nc=d\n[core]e=f").unwrap();
let expected_separators = {
let mut map = HashMap::new();
map.insert(SectionId(0), None);
map.insert(SectionId(1), None);
map
};
assert_eq!(config.section_header_separators, expected_separators);
assert_eq!(config.section_id_counter, 2);
let expected_lookup_tree = {
let mut tree = HashMap::new();
tree.insert(
"core",
vec![LookupTreeNode::Terminal(vec![SectionId(0), SectionId(1)])],
);
tree
};
assert_eq!(config.section_lookup_tree, expected_lookup_tree);
let expected_sections = {
let mut sections = HashMap::new();
sections.insert(
SectionId(0),
vec![
Event::Newline("\n"),
Event::Key("a"),
Event::Value("b"),
Event::Newline("\n"),
Event::Key("c"),
Event::Value("d"),
Event::Newline("\n"),
],
);
sections.insert(SectionId(1), vec![Event::Key("e"), Event::Value("f")]);
sections
};
assert_eq!(config.sections, expected_sections);
}
}
#[cfg(test)]
mod get_raw_value {
use super::*;
#[test]
fn single_section() {
let config = GitConfig::from_str("[core]\na=b\nc=d").unwrap();
assert_eq!(config.get_raw_value("core", None, "a"), Ok("b"));
assert_eq!(config.get_raw_value("core", None, "c"), Ok("d"));
}
#[test]
fn last_one_wins_respected_in_section() {
let config = GitConfig::from_str("[core]\na=b\na=d").unwrap();
assert_eq!(config.get_raw_value("core", None, "a"), Ok("d"));
}
#[test]
fn last_one_wins_respected_across_section() {
let config = GitConfig::from_str("[core]\na=b\n[core]\na=d").unwrap();
assert_eq!(config.get_raw_value("core", None, "a"), Ok("d"));
}
#[test]
fn section_not_found() {
let config = GitConfig::from_str("[core]\na=b\nc=d").unwrap();
assert_eq!(
config.get_raw_value("foo", None, "a"),
Err(GitConfigError::SectionDoesNotExist("foo"))
);
}
#[test]
fn subsection_not_found() {
let config = GitConfig::from_str("[core]\na=b\nc=d").unwrap();
assert_eq!(
config.get_raw_value("core", Some("a"), "a"),
Err(GitConfigError::SubSectionDoesNotExist(Some("a")))
);
}
#[test]
fn key_not_found() {
let config = GitConfig::from_str("[core]\na=b\nc=d").unwrap();
assert_eq!(
config.get_raw_value("core", None, "aaaaaa"),
Err(GitConfigError::KeyDoesNotExist("aaaaaa"))
);
}
#[test]
fn subsection_must_be_respected() {
let config = GitConfig::from_str("[core]a=b\n[core.a]a=c").unwrap();
assert_eq!(config.get_raw_value("core", None, "a"), Ok("b"));
assert_eq!(config.get_raw_value("core", Some("a"), "a"), Ok("c"));
}
}
#[cfg(test)]
mod get_raw_multi_value {
use super::*;
#[test]
fn single_value_is_identical_to_single_value_query() {
let config = GitConfig::from_str("[core]\na=b\nc=d").unwrap();
assert_eq!(
vec![config.get_raw_value("core", None, "a").unwrap()],
config.get_raw_multi_value("core", None, "a").unwrap()
);
}
#[test]
fn multi_value_in_section() {
let config = GitConfig::from_str("[core]\na=b\na=c").unwrap();
assert_eq!(
config.get_raw_multi_value("core", None, "a").unwrap(),
vec!["b", "c"]
);
}
#[test]
fn multi_value_across_sections() {
let config = GitConfig::from_str("[core]\na=b\na=c\n[core]a=d").unwrap();
assert_eq!(
config.get_raw_multi_value("core", None, "a").unwrap(),
vec!["b", "c", "d"]
);
}
#[test]
fn section_not_found() {
let config = GitConfig::from_str("[core]\na=b\nc=d").unwrap();
assert_eq!(
config.get_raw_multi_value("foo", None, "a"),
Err(GitConfigError::SectionDoesNotExist("foo"))
);
}
#[test]
fn subsection_not_found() {
let config = GitConfig::from_str("[core]\na=b\nc=d").unwrap();
assert_eq!(
config.get_raw_multi_value("core", Some("a"), "a"),
Err(GitConfigError::SubSectionDoesNotExist(Some("a")))
);
}
#[test]
fn key_not_found() {
let config = GitConfig::from_str("[core]\na=b\nc=d").unwrap();
assert_eq!(
config.get_raw_multi_value("core", None, "aaaaaa"),
Err(GitConfigError::KeyDoesNotExist("aaaaaa"))
);
}
#[test]
fn subsection_must_be_respected() {
let config = GitConfig::from_str("[core]a=b\n[core.a]a=c").unwrap();
assert_eq!(
config.get_raw_multi_value("core", None, "a").unwrap(),
vec!["b"]
);
assert_eq!(
config.get_raw_multi_value("core", Some("a"), "a").unwrap(),
vec!["c"]
);
}
}

874
src/parser.rs
View file

@ -1,11 +1,13 @@
//! This module handles parsing a `git-config`. Generally speaking, you want to
//! use a higher abstraction unless you have some explicit reason to work with
//! events instead.
//! use a higher abstraction such as [`GitConfig`] unless you have some explicit
//! reason to work with events instead.
//!
//! The general workflow for interacting with this is to use one of the
//! `parse_from_*` function variants. These will return a [`Parser`] on success,
//! which can be converted into an [`Event`] iterator. The [`Parser`] also has
//! additional methods for accessing leading comments or events by section.
//!
//! [`GitConfig`]: crate::config::GitConfig
use nom::bytes::complete::{escaped, tag, take_till, take_while};
use nom::character::complete::{char, none_of, one_of};
@ -616,477 +618,475 @@ fn take_common<'a, F: Fn(char) -> bool>(i: &'a str, f: F) -> IResult<&'a str, &'
Ok((i, v))
}
}
#[cfg(test)]
mod parse {
fn fully_consumed<T>(t: T) -> (&'static str, T) {
("", t)
}
#[cfg(test)]
fn gen_section_header(
name: &str,
subsection: impl Into<Option<(&'static str, &'static str)>>,
) -> ParsedSectionHeader<'_> {
if let Some((separator, subsection_name)) = subsection.into() {
ParsedSectionHeader {
name,
separator: Some(separator),
subsection_name: Some(subsection_name),
}
} else {
ParsedSectionHeader {
name,
separator: None,
subsection_name: None,
}
}
}
#[cfg(test)]
mod comments {
use super::*;
fn fully_consumed<T>(t: T) -> (&'static str, T) {
("", t)
#[test]
fn semicolon() {
assert_eq!(
comment("; this is a semicolon comment").unwrap(),
fully_consumed(ParsedComment {
comment_tag: ';',
comment: " this is a semicolon comment",
})
);
}
fn gen_section_header(
name: &str,
subsection: impl Into<Option<(&'static str, &'static str)>>,
) -> ParsedSectionHeader<'_> {
if let Some((separator, subsection_name)) = subsection.into() {
ParsedSectionHeader {
name,
separator: Some(separator),
subsection_name: Some(subsection_name),
}
} else {
ParsedSectionHeader {
name,
separator: None,
subsection_name: None,
}
}
#[test]
fn octothorpe() {
assert_eq!(
comment("# this is an octothorpe comment").unwrap(),
fully_consumed(ParsedComment {
comment_tag: '#',
comment: " this is an octothorpe comment",
})
);
}
mod comments {
use super::super::*;
use super::*;
#[test]
fn multiple_markers() {
assert_eq!(
comment("###### this is an octothorpe comment").unwrap(),
fully_consumed(ParsedComment {
comment_tag: '#',
comment: "##### this is an octothorpe comment",
})
);
}
}
#[test]
fn semicolon() {
assert_eq!(
comment("; this is a semicolon comment").unwrap(),
fully_consumed(ParsedComment {
comment_tag: ';',
comment: " this is a semicolon comment",
})
);
}
#[cfg(test)]
mod section_headers {
use super::*;
#[test]
fn octothorpe() {
assert_eq!(
comment("# this is an octothorpe comment").unwrap(),
fully_consumed(ParsedComment {
comment_tag: '#',
comment: " this is an octothorpe comment",
})
);
}
#[test]
fn multiple_markers() {
assert_eq!(
comment("###### this is an octothorpe comment").unwrap(),
fully_consumed(ParsedComment {
comment_tag: '#',
comment: "##### this is an octothorpe comment",
})
);
}
#[test]
fn no_subsection() {
assert_eq!(
section_header("[hello]").unwrap(),
fully_consumed(gen_section_header("hello", None)),
);
}
mod section_headers {
use super::super::*;
use super::*;
#[test]
fn no_subsection() {
assert_eq!(
section_header("[hello]").unwrap(),
fully_consumed(gen_section_header("hello", None)),
);
}
#[test]
fn modern_subsection() {
assert_eq!(
section_header(r#"[hello "world"]"#).unwrap(),
fully_consumed(gen_section_header("hello", (" ", "world"))),
);
}
#[test]
fn escaped_subsection() {
assert_eq!(
section_header(r#"[hello "foo\\bar\""]"#).unwrap(),
fully_consumed(gen_section_header("hello", (" ", r#"foo\\bar\""#))),
);
}
#[test]
fn deprecated_subsection() {
assert_eq!(
section_header(r#"[hello.world]"#).unwrap(),
fully_consumed(gen_section_header("hello", (".", "world")))
);
}
#[test]
fn empty_legacy_subsection_name() {
assert_eq!(
section_header(r#"[hello.]"#).unwrap(),
fully_consumed(gen_section_header("hello", (".", "")))
);
}
#[test]
fn empty_modern_subsection_name() {
assert_eq!(
section_header(r#"[hello ""]"#).unwrap(),
fully_consumed(gen_section_header("hello", (" ", "")))
);
}
#[test]
fn newline_in_header() {
assert!(section_header("[hello\n]").is_err())
}
#[test]
fn null_byte_in_header() {
assert!(section_header("[hello\0]").is_err())
}
#[test]
fn right_brace_in_subsection_name() {
assert_eq!(
section_header(r#"[hello "]"]"#).unwrap(),
fully_consumed(gen_section_header("hello", (" ", "]")))
);
}
#[test]
fn modern_subsection() {
assert_eq!(
section_header(r#"[hello "world"]"#).unwrap(),
fully_consumed(gen_section_header("hello", (" ", "world"))),
);
}
mod config_name {
use super::super::*;
use super::*;
#[test]
fn just_name() {
assert_eq!(config_name("name").unwrap(), fully_consumed("name"));
}
#[test]
fn must_start_with_alphabetic() {
assert!(config_name("4aaa").is_err());
assert!(config_name("-aaa").is_err());
}
#[test]
fn cannot_be_empty() {
assert!(config_name("").is_err())
}
#[test]
fn escaped_subsection() {
assert_eq!(
section_header(r#"[hello "foo\\bar\""]"#).unwrap(),
fully_consumed(gen_section_header("hello", (" ", r#"foo\\bar\""#))),
);
}
mod value_no_continuation {
use super::super::*;
use super::*;
#[test]
fn no_comment() {
assert_eq!(
value_impl("hello").unwrap(),
fully_consumed(vec![Event::Value("hello")])
);
}
#[test]
fn no_comment_newline() {
assert_eq!(
value_impl("hello\na").unwrap(),
("\na", vec![Event::Value("hello")])
)
}
#[test]
fn semicolon_comment_not_consumed() {
assert_eq!(
value_impl("hello;world").unwrap(),
(";world", vec![Event::Value("hello"),])
);
}
#[test]
fn octothorpe_comment_not_consumed() {
assert_eq!(
value_impl("hello#world").unwrap(),
("#world", vec![Event::Value("hello"),])
);
}
#[test]
fn values_with_extraneous_whitespace_without_comment() {
assert_eq!(
value_impl("hello ").unwrap(),
(" ", vec![Event::Value("hello")])
);
}
#[test]
fn values_with_extraneous_whitespace_before_comment() {
assert_eq!(
value_impl("hello #world").unwrap(),
(" #world", vec![Event::Value("hello"),])
);
assert_eq!(
value_impl("hello ;world").unwrap(),
(" ;world", vec![Event::Value("hello"),])
);
}
#[test]
fn trans_escaped_comment_marker_not_consumed() {
assert_eq!(
value_impl(r##"hello"#"world; a"##).unwrap(),
("; a", vec![Event::Value(r##"hello"#"world"##)])
);
}
#[test]
fn complex_test() {
assert_eq!(
value_impl(r#"value";";ahhhh"#).unwrap(),
(";ahhhh", vec![Event::Value(r#"value";""#)])
);
}
#[test]
fn garbage_after_continution_is_err() {
assert!(value_impl("hello \\afwjdls").is_err());
}
#[test]
fn deprecated_subsection() {
assert_eq!(
section_header(r#"[hello.world]"#).unwrap(),
fully_consumed(gen_section_header("hello", (".", "world")))
);
}
mod value_continuation {
use super::super::*;
use super::*;
#[test]
fn empty_legacy_subsection_name() {
assert_eq!(
section_header(r#"[hello.]"#).unwrap(),
fully_consumed(gen_section_header("hello", (".", "")))
);
}
#[test]
fn simple_continuation() {
assert_eq!(
value_impl("hello\\\nworld").unwrap(),
fully_consumed(vec![
Event::ValueNotDone("hello"),
#[test]
fn empty_modern_subsection_name() {
assert_eq!(
section_header(r#"[hello ""]"#).unwrap(),
fully_consumed(gen_section_header("hello", (" ", "")))
);
}
#[test]
fn newline_in_header() {
assert!(section_header("[hello\n]").is_err())
}
#[test]
fn null_byte_in_header() {
assert!(section_header("[hello\0]").is_err())
}
#[test]
fn right_brace_in_subsection_name() {
assert_eq!(
section_header(r#"[hello "]"]"#).unwrap(),
fully_consumed(gen_section_header("hello", (" ", "]")))
);
}
}
#[cfg(test)]
mod config_name {
use super::*;
#[test]
fn just_name() {
assert_eq!(config_name("name").unwrap(), fully_consumed("name"));
}
#[test]
fn must_start_with_alphabetic() {
assert!(config_name("4aaa").is_err());
assert!(config_name("-aaa").is_err());
}
#[test]
fn cannot_be_empty() {
assert!(config_name("").is_err())
}
}
#[cfg(test)]
mod value_no_continuation {
use super::*;
#[test]
fn no_comment() {
assert_eq!(
value_impl("hello").unwrap(),
fully_consumed(vec![Event::Value("hello")])
);
}
#[test]
fn no_comment_newline() {
assert_eq!(
value_impl("hello\na").unwrap(),
("\na", vec![Event::Value("hello")])
)
}
#[test]
fn semicolon_comment_not_consumed() {
assert_eq!(
value_impl("hello;world").unwrap(),
(";world", vec![Event::Value("hello"),])
);
}
#[test]
fn octothorpe_comment_not_consumed() {
assert_eq!(
value_impl("hello#world").unwrap(),
("#world", vec![Event::Value("hello"),])
);
}
#[test]
fn values_with_extraneous_whitespace_without_comment() {
assert_eq!(
value_impl("hello ").unwrap(),
(" ", vec![Event::Value("hello")])
);
}
#[test]
fn values_with_extraneous_whitespace_before_comment() {
assert_eq!(
value_impl("hello #world").unwrap(),
(" #world", vec![Event::Value("hello"),])
);
assert_eq!(
value_impl("hello ;world").unwrap(),
(" ;world", vec![Event::Value("hello"),])
);
}
#[test]
fn trans_escaped_comment_marker_not_consumed() {
assert_eq!(
value_impl(r##"hello"#"world; a"##).unwrap(),
("; a", vec![Event::Value(r##"hello"#"world"##)])
);
}
#[test]
fn complex_test() {
assert_eq!(
value_impl(r#"value";";ahhhh"#).unwrap(),
(";ahhhh", vec![Event::Value(r#"value";""#)])
);
}
#[test]
fn garbage_after_continution_is_err() {
assert!(value_impl("hello \\afwjdls").is_err());
}
}
#[cfg(test)]
mod value_continuation {
use super::*;
#[test]
fn simple_continuation() {
assert_eq!(
value_impl("hello\\\nworld").unwrap(),
fully_consumed(vec![
Event::ValueNotDone("hello"),
Event::Newline("\n"),
Event::ValueDone("world")
])
);
}
#[test]
fn continuation_with_whitespace() {
assert_eq!(
value_impl("hello\\\n world").unwrap(),
fully_consumed(vec![
Event::ValueNotDone("hello"),
Event::Newline("\n"),
Event::ValueDone(" world")
])
)
}
#[test]
fn complex_continuation_with_leftover_comment() {
assert_eq!(
value_impl("1 \"\\\"\\\na ; e \"\\\"\\\nd # \"b\t ; c").unwrap(),
(
" # \"b\t ; c",
vec![
Event::ValueNotDone(r#"1 "\""#),
Event::Newline("\n"),
Event::ValueDone("world")
])
);
}
#[test]
fn continuation_with_whitespace() {
assert_eq!(
value_impl("hello\\\n world").unwrap(),
fully_consumed(vec![
Event::ValueNotDone("hello"),
Event::ValueNotDone(r#"a ; e "\""#),
Event::Newline("\n"),
Event::ValueDone(" world")
])
Event::ValueDone("d"),
]
)
}
#[test]
fn complex_continuation_with_leftover_comment() {
assert_eq!(
value_impl("1 \"\\\"\\\na ; e \"\\\"\\\nd # \"b\t ; c").unwrap(),
(
" # \"b\t ; c",
vec![
Event::ValueNotDone(r#"1 "\""#),
Event::Newline("\n"),
Event::ValueNotDone(r#"a ; e "\""#),
Event::Newline("\n"),
Event::ValueDone("d"),
]
)
);
}
#[test]
fn quote_split_over_two_lines_with_leftover_comment() {
assert_eq!(
value_impl("\"\\\n;\";a").unwrap(),
(
";a",
vec![
Event::ValueNotDone("\""),
Event::Newline("\n"),
Event::ValueDone(";\""),
]
)
)
}
);
}
mod section {
use super::super::*;
use super::*;
#[test]
fn quote_split_over_two_lines_with_leftover_comment() {
assert_eq!(
value_impl("\"\\\n;\";a").unwrap(),
(
";a",
vec![
Event::ValueNotDone("\""),
Event::Newline("\n"),
Event::ValueDone(";\""),
]
)
)
}
}
#[test]
fn empty_section() {
assert_eq!(
section("[test]").unwrap(),
fully_consumed(ParsedSection {
section_header: gen_section_header("test", None),
events: vec![]
})
);
}
#[cfg(test)]
mod section {
use super::*;
#[test]
fn simple_section() {
let section_data = r#"[hello]
#[test]
fn empty_section() {
assert_eq!(
section("[test]").unwrap(),
fully_consumed(ParsedSection {
section_header: gen_section_header("test", None),
events: vec![]
})
);
}
#[test]
fn simple_section() {
let section_data = r#"[hello]
a = b
c
d = "lol""#;
assert_eq!(
section(section_data).unwrap(),
fully_consumed(ParsedSection {
section_header: gen_section_header("hello", None),
events: vec![
Event::Newline("\n"),
Event::Whitespace(" "),
Event::Key("a"),
Event::Whitespace(" "),
Event::Whitespace(" "),
Event::Value("b"),
Event::Newline("\n"),
Event::Whitespace(" "),
Event::Key("c"),
Event::Value(""),
Event::Newline("\n"),
Event::Whitespace(" "),
Event::Key("d"),
Event::Whitespace(" "),
Event::Whitespace(" "),
Event::Value("\"lol\"")
]
})
)
}
assert_eq!(
section(section_data).unwrap(),
fully_consumed(ParsedSection {
section_header: gen_section_header("hello", None),
events: vec![
Event::Newline("\n"),
Event::Whitespace(" "),
Event::Key("a"),
Event::Whitespace(" "),
Event::Whitespace(" "),
Event::Value("b"),
Event::Newline("\n"),
Event::Whitespace(" "),
Event::Key("c"),
Event::Value(""),
Event::Newline("\n"),
Event::Whitespace(" "),
Event::Key("d"),
Event::Whitespace(" "),
Event::Whitespace(" "),
Event::Value("\"lol\"")
]
})
)
}
#[test]
fn section_single_line() {
assert_eq!(
section("[hello] c").unwrap(),
fully_consumed(ParsedSection {
section_header: gen_section_header("hello", None),
events: vec![Event::Whitespace(" "), Event::Key("c"), Event::Value("")]
})
);
}
#[test]
fn section_single_line() {
assert_eq!(
section("[hello] c").unwrap(),
fully_consumed(ParsedSection {
section_header: gen_section_header("hello", None),
events: vec![Event::Whitespace(" "), Event::Key("c"), Event::Value("")]
})
);
}
#[test]
fn section_very_commented() {
let section_data = r#"[hello] ; commentA
#[test]
fn section_very_commented() {
let section_data = r#"[hello] ; commentA
a = b # commentB
; commentC
; commentD
c = d"#;
assert_eq!(
section(section_data).unwrap(),
fully_consumed(ParsedSection {
section_header: gen_section_header("hello", None),
events: vec![
Event::Whitespace(" "),
Event::Comment(ParsedComment {
comment_tag: ';',
comment: " commentA",
}),
Event::Newline("\n"),
Event::Whitespace(" "),
Event::Key("a"),
Event::Whitespace(" "),
Event::Whitespace(" "),
Event::Value("b"),
Event::Whitespace(" "),
Event::Comment(ParsedComment {
comment_tag: '#',
comment: " commentB",
}),
Event::Newline("\n"),
Event::Whitespace(" "),
Event::Comment(ParsedComment {
comment_tag: ';',
comment: " commentC",
}),
Event::Newline("\n"),
Event::Whitespace(" "),
Event::Comment(ParsedComment {
comment_tag: ';',
comment: " commentD",
}),
Event::Newline("\n"),
Event::Whitespace(" "),
Event::Key("c"),
Event::Whitespace(" "),
Event::Whitespace(" "),
Event::Value("d"),
]
})
);
}
assert_eq!(
section(section_data).unwrap(),
fully_consumed(ParsedSection {
section_header: gen_section_header("hello", None),
events: vec![
Event::Whitespace(" "),
Event::Comment(ParsedComment {
comment_tag: ';',
comment: " commentA",
}),
Event::Newline("\n"),
Event::Whitespace(" "),
Event::Key("a"),
Event::Whitespace(" "),
Event::Whitespace(" "),
Event::Value("b"),
Event::Whitespace(" "),
Event::Comment(ParsedComment {
comment_tag: '#',
comment: " commentB",
}),
Event::Newline("\n"),
Event::Whitespace(" "),
Event::Comment(ParsedComment {
comment_tag: ';',
comment: " commentC",
}),
Event::Newline("\n"),
Event::Whitespace(" "),
Event::Comment(ParsedComment {
comment_tag: ';',
comment: " commentD",
}),
Event::Newline("\n"),
Event::Whitespace(" "),
Event::Key("c"),
Event::Whitespace(" "),
Event::Whitespace(" "),
Event::Value("d"),
]
})
);
}
#[test]
fn complex_continuation() {
// This test is absolute hell. Good luck if this fails.
assert_eq!(
section("[section] a = 1 \"\\\"\\\na ; e \"\\\"\\\nd # \"b\t ; c").unwrap(),
fully_consumed(ParsedSection {
section_header: gen_section_header("section", None),
events: vec![
Event::Whitespace(" "),
Event::Key("a"),
Event::Whitespace(" "),
Event::Whitespace(" "),
Event::ValueNotDone(r#"1 "\""#),
Event::Newline("\n"),
Event::ValueNotDone(r#"a ; e "\""#),
Event::Newline("\n"),
Event::ValueDone("d"),
Event::Whitespace(" "),
Event::Comment(ParsedComment {
comment_tag: '#',
comment: " \"b\t ; c"
})
]
})
);
}
#[test]
fn complex_continuation() {
// This test is absolute hell. Good luck if this fails.
assert_eq!(
section("[section] a = 1 \"\\\"\\\na ; e \"\\\"\\\nd # \"b\t ; c").unwrap(),
fully_consumed(ParsedSection {
section_header: gen_section_header("section", None),
events: vec![
Event::Whitespace(" "),
Event::Key("a"),
Event::Whitespace(" "),
Event::Whitespace(" "),
Event::ValueNotDone(r#"1 "\""#),
Event::Newline("\n"),
Event::ValueNotDone(r#"a ; e "\""#),
Event::Newline("\n"),
Event::ValueDone("d"),
Event::Whitespace(" "),
Event::Comment(ParsedComment {
comment_tag: '#',
comment: " \"b\t ; c"
})
]
})
);
}
#[test]
fn quote_split_over_two_lines() {
assert_eq!(
section("[section \"a\"] b =\"\\\n;\";a").unwrap(),
fully_consumed(ParsedSection {
section_header: gen_section_header("section", (" ", "a")),
events: vec![
Event::Whitespace(" "),
Event::Key("b"),
Event::Whitespace(" "),
Event::ValueNotDone("\""),
Event::Newline("\n"),
Event::ValueDone(";\""),
Event::Comment(ParsedComment {
comment_tag: ';',
comment: "a",
})
]
})
)
}
#[test]
fn quote_split_over_two_lines() {
assert_eq!(
section("[section \"a\"] b =\"\\\n;\";a").unwrap(),
fully_consumed(ParsedSection {
section_header: gen_section_header("section", (" ", "a")),
events: vec![
Event::Whitespace(" "),
Event::Key("b"),
Event::Whitespace(" "),
Event::ValueNotDone("\""),
Event::Newline("\n"),
Event::ValueDone(";\""),
Event::Comment(ParsedComment {
comment_tag: ';',
comment: "a",
})
]
})
)
}
#[test]
fn section_handles_extranous_whitespace_before_comment() {
assert_eq!(
section("[s]hello #world").unwrap(),
fully_consumed(ParsedSection {
section_header: gen_section_header("s", None),
events: vec![
Event::Key("hello"),
Event::Whitespace(" "),
Event::Value(""),
Event::Comment(ParsedComment {
comment_tag: '#',
comment: "world",
}),
]
})
);
}
#[test]
fn section_handles_extranous_whitespace_before_comment() {
assert_eq!(
section("[s]hello #world").unwrap(),
fully_consumed(ParsedSection {
section_header: gen_section_header("s", None),
events: vec![
Event::Key("hello"),
Event::Whitespace(" "),
Event::Value(""),
Event::Comment(ParsedComment {
comment_tag: '#',
comment: "world",
}),
]
})
);
}
}