use std::borrow::ToOwned;
use std::collections::HashMap;
use std::fmt::Write;
use std::io::BufRead;
use std::iter::Iterator;
pub struct Config {}
const HEADER: &str = "
";
const FOOTER: &str = "
";
#[derive(PartialEq, Eq, Debug)]
pub struct HTML(String);
impl HTML {
fn escape(value: &str) -> HTML {
let mut escaped: String = String::new();
for c in value.chars() {
match c {
'>' => escaped.push_str(">"),
'<' => escaped.push_str("<"),
'\'' => escaped.push_str("'"),
'"' => escaped.push_str("""),
'&' => escaped.push_str("&"),
ok_c => escaped.push(ok_c),
}
}
HTML(escaped)
}
}
impl From<&str> for HTML {
fn from(value: &str) -> HTML {
HTML(String::from(value))
}
}
impl FromIterator for HTML {
fn from_iter(iter: T) -> HTML
where
T: IntoIterator- ,
{
HTML(iter.into_iter().map(|html| html.0).collect::
())
}
}
impl std::fmt::Display for HTML {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(f, "{}", self.0)
}
}
#[derive(Debug, PartialEq, Eq)]
enum InputLine<'a> {
Blank,
RowHeader(&'a str),
Entry(&'a str, Option<&'a str>),
}
impl<'a> From<&'a str> for InputLine<'a> {
fn from(value: &'a str) -> InputLine<'a> {
let trimmed = value.trim_end();
if trimmed.is_empty() {
InputLine::Blank
} else if !trimmed.starts_with(' ') {
InputLine::RowHeader(value.trim())
} else {
match value.split_once(':') {
None => InputLine::Entry(value.trim(), None),
Some((col, instance)) => InputLine::Entry(col.trim(), Some(instance.trim())),
}
}
}
}
#[derive(Debug, PartialEq, Eq)]
struct Row {
label: String,
entries: HashMap>>,
}
struct Reader>> {
input: std::iter::Enumerate ,
row: Option,
}
impl>> Reader {
fn new(input: Input) -> Self {
Self {
input: input.enumerate(),
row: None,
}
}
}
impl>> Iterator for Reader {
type Item = Result;
fn next(&mut self) -> Option {
loop {
match self.input.next() {
None => return Ok(std::mem::take(&mut self.row)).transpose(),
Some((_, Err(e))) => return Some(Err(e)),
Some((n, Ok(line))) => match InputLine::from(line.as_ref()) {
InputLine::Blank if self.row.is_some() => {
return Ok(std::mem::take(&mut self.row)).transpose()
}
InputLine::Blank => {}
InputLine::Entry(col, instance) => match &mut self.row {
None => {
return Some(Err(std::io::Error::other(format!(
"{}: Entry with no header",
n + 1
))))
}
Some(ref mut row) => {
row.entries
.entry(col.to_owned())
.and_modify(|is| is.push(instance.map(ToOwned::to_owned)))
.or_insert_with(|| vec![instance.map(ToOwned::to_owned)]);
}
},
InputLine::RowHeader(row) => {
let prev = std::mem::take(&mut self.row);
self.row = Some(Row {
label: row.to_owned(),
entries: HashMap::new(),
});
if prev.is_some() {
return Ok(prev).transpose();
}
}
},
}
}
}
}
fn read_rows(input: impl std::io::Read) -> impl Iterator- > {
Reader::new(std::io::BufReader::new(input).lines())
}
fn column_counts(rows: &[Row]) -> Vec<(usize, String)> {
let mut counts: Vec<_> = rows
.iter()
.flat_map(|r| r.entries.keys())
.fold(HashMap::new(), |mut cs, col| {
cs.entry(col.to_owned())
.and_modify(|n| *n += 1)
.or_insert(1);
cs
})
.into_iter()
.map(|(col, n)| (n, col))
.collect();
counts.sort_unstable_by(|(an, acol), (bn, bcol)| bn.cmp(an).then(acol.cmp(bcol)));
counts
}
fn column_order(rows: &[Row]) -> Vec
{
column_counts(rows)
.into_iter()
.map(|(_, col)| col)
.collect()
}
fn render_instance(instance: &Option) -> HTML {
match instance {
None => HTML::from("✓"),
Some(instance) => HTML::escape(instance.as_ref()),
}
}
fn render_cell(col: &str, row: &mut Row) -> HTML {
let row_label = HTML::escape(row.label.as_ref());
let col_label = HTML::escape(col);
let instances: Option<&Vec>> = row.entries.get(col);
let class = HTML::from(if instances.is_none() { "" } else { "yes" });
let all_empty = instances
.iter()
.flat_map(|is| is.iter())
.all(Option::is_none);
let contents = if instances.is_none() || (all_empty && instances.unwrap().len() == 1) {
HTML::from("")
} else if all_empty {
HTML(format!("{}", instances.unwrap().len()))
} else {
HTML(
instances
.unwrap()
.iter()
.map(render_instance)
.map(|html| html.0) // Waiting for slice_concat_trait to stabilize
.collect::>()
.join(" "),
)
};
row.entries.remove(col);
HTML(format!("{contents} "))
}
fn render_row(columns: &[String], row: &mut Row) -> HTML {
let row_label = HTML::escape(row.label.as_ref());
HTML(format!(
"{row_label} {} \n",
&columns
.iter()
.map(|col| render_cell(col, row))
.collect::()
))
}
fn render_column_headers(columns: &[String]) -> HTML {
HTML(
String::from(" ")
+ &columns.iter().fold(String::new(), |mut acc, col| {
let col_header = HTML::escape(col.as_ref());
write!(
&mut acc,
""
)
.unwrap();
acc
})
+ " \n",
)
}
/// # Errors
///
/// Will return `Err` if
/// * there's an i/o error while reading `input`
/// * the log has invalid syntax:
/// * an indented line with no preceding non-indented line
pub fn tablify(config: &Config, input: impl std::io::Read) -> Result {
let rows = read_rows(input).collect::, _>>()?;
let columns = column_order(&rows);
Ok(HTML(format!(
"{HEADER}{}{}{FOOTER}",
render_column_headers(&columns),
rows.into_iter()
.map(|mut r| render_row(&columns, &mut r))
.collect::()
)))
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_parse_line() {
assert_eq!(InputLine::from(""), InputLine::Blank);
assert_eq!(InputLine::from(" "), InputLine::Blank);
assert_eq!(InputLine::from("foo"), InputLine::RowHeader("foo"));
assert_eq!(InputLine::from("foo "), InputLine::RowHeader("foo"));
assert_eq!(InputLine::from(" foo"), InputLine::Entry("foo", None));
assert_eq!(
InputLine::from(" foo:bar"),
InputLine::Entry("foo", Some("bar"))
);
assert_eq!(
InputLine::from(" foo: bar"),
InputLine::Entry("foo", Some("bar"))
);
assert_eq!(
InputLine::from(" foo: bar "),
InputLine::Entry("foo", Some("bar"))
);
assert_eq!(
InputLine::from(" foo: bar "),
InputLine::Entry("foo", Some("bar"))
);
assert_eq!(
InputLine::from(" foo : bar "),
InputLine::Entry("foo", Some("bar"))
);
}
#[test]
fn test_read_rows() {
assert_eq!(
read_rows(&b"foo"[..]).flatten().collect::>(),
vec![Row {
label: "foo".to_owned(),
entries: HashMap::new(),
}]
);
assert_eq!(
read_rows(&b"bar"[..]).flatten().collect::>(),
vec![Row {
label: "bar".to_owned(),
entries: HashMap::new(),
}]
);
assert_eq!(
read_rows(&b"foo\nbar\n"[..]).flatten().collect::>(),
vec![
Row {
label: "foo".to_owned(),
entries: HashMap::new(),
},
Row {
label: "bar".to_owned(),
entries: HashMap::new(),
}
]
);
assert_eq!(
read_rows(&b"foo\n bar\n"[..]).flatten().collect::>(),
vec![Row {
label: "foo".to_owned(),
entries: HashMap::from([("bar".to_owned(), vec![None])]),
}]
);
assert_eq!(
read_rows(&b"foo\n bar\n baz\n"[..])
.flatten()
.collect::>(),
vec![Row {
label: "foo".to_owned(),
entries: HashMap::from([
("bar".to_owned(), vec![None]),
("baz".to_owned(), vec![None])
]),
}]
);
assert_eq!(
read_rows(&b"foo\n\nbar\n"[..])
.flatten()
.collect::>(),
vec![
Row {
label: "foo".to_owned(),
entries: HashMap::new(),
},
Row {
label: "bar".to_owned(),
entries: HashMap::new(),
}
]
);
assert_eq!(
read_rows(&b"foo\n \nbar\n"[..])
.flatten()
.collect::>(),
vec![
Row {
label: "foo".to_owned(),
entries: HashMap::new(),
},
Row {
label: "bar".to_owned(),
entries: HashMap::new(),
}
]
);
assert_eq!(
read_rows(&b"foo \n bar \n"[..])
.flatten()
.collect::>(),
vec![Row {
label: "foo".to_owned(),
entries: HashMap::from([("bar".to_owned(), vec![None])]),
}]
);
let bad = read_rows(&b" foo"[..]).next().unwrap();
assert!(bad.is_err());
assert!(format!("{bad:?}").contains("1: Entry with no header"));
let bad2 = read_rows(&b"foo\n\n bar"[..]).nth(1).unwrap();
assert!(bad2.is_err());
assert!(format!("{bad2:?}").contains("3: Entry with no header"));
}
#[test]
fn test_column_counts() {
assert_eq!(
column_counts(
&read_rows(&b"foo\n bar\n baz\n"[..])
.collect::, _>>()
.unwrap()
),
vec![(1, String::from("bar")), (1, String::from("baz"))]
);
assert_eq!(
column_counts(
&read_rows(&b"foo\n bar\n baz\nquux\n baz"[..])
.collect::, _>>()
.unwrap()
),
vec![(2, String::from("baz")), (1, String::from("bar"))]
);
assert_eq!(
column_counts(
&read_rows(&b"foo\n bar\n bar\n baz\n bar\nquux\n baz"[..])
.collect::, _>>()
.unwrap()
),
vec![(2, String::from("baz")), (1, String::from("bar"))]
);
assert_eq!(
column_counts(
&read_rows(&b"foo\n bar: 1\n bar: 2\n baz\n bar\nquux\n baz"[..])
.collect::, _>>()
.unwrap()
),
vec![(2, String::from("baz")), (1, String::from("bar"))]
);
}
#[test]
fn test_render_cell() {
assert_eq!(
render_cell(
"foo",
&mut Row {
label: "nope".to_owned(),
entries: HashMap::new(),
}
),
HTML::from(" ")
);
assert_eq!(
render_cell(
"foo",
&mut Row {
label: "nope".to_owned(),
entries: HashMap::from([("bar".to_owned(), vec![None])]),
}
),
HTML::from(" ")
);
assert_eq!(
render_cell(
"foo",
&mut Row {
label: "nope".to_owned(),
entries: HashMap::from([("foo".to_owned(), vec![None])]),
}
),
HTML::from(" ")
);
assert_eq!(
render_cell(
"foo",
&mut Row {
label: "nope".to_owned(),
entries: HashMap::from([("foo".to_owned(), vec![None, None])]),
}
),
HTML::from("2 ")
);
assert_eq!(
render_cell(
"foo",
&mut Row {
label: "nope".to_owned(),
entries: HashMap::from([("foo".to_owned(), vec![Some("5".to_owned()), Some("10".to_owned())])]),
}
),
HTML::from("5 10 ")
);
assert_eq!(
render_cell(
"foo",
&mut Row {
label: "nope".to_owned(),
entries: HashMap::from([("foo".to_owned(), vec![Some("5".to_owned()), None])]),
}
),
HTML::from("5 ✓ ")
);
assert_eq!(
render_cell(
"heart",
&mut Row {
label: "nope".to_owned(),
entries: HashMap::from([("heart".to_owned(), vec![Some("<3".to_owned())])]),
}
),
HTML::from("<3 ")
);
assert_eq!(
render_cell(
"foo",
&mut Row {
label: "bob's".to_owned(),
entries: HashMap::from([("foo".to_owned(), vec![None])]),
}
),
HTML::from(" ")
);
let mut r = Row {
label: "nope".to_owned(),
entries: HashMap::from([
("foo".to_owned(), vec![None]),
("baz".to_owned(), vec![None]),
]),
};
assert_eq!(r.entries.len(), 2);
render_cell("foo", &mut r);
assert_eq!(r.entries.len(), 1);
render_cell("bar", &mut r);
assert_eq!(r.entries.len(), 1);
render_cell("baz", &mut r);
assert_eq!(r.entries.len(), 0);
}
}