Port detect columns (#892)

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JT 2022-01-30 07:52:24 -05:00 committed by GitHub
parent 95a5e9229a
commit 060a4b3f48
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4 changed files with 317 additions and 1 deletions

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@ -133,6 +133,7 @@ pub fn create_default_context(cwd: impl AsRef<Path>) -> EngineState {
BuildString,
Char,
Decode,
DetectColumns,
Format,
Parse,
Size,

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@ -138,7 +138,7 @@ fn rename(
}
None => {
for (idx, val) in columns.iter().enumerate() {
if idx > cols.len() - 1 {
if idx >= cols.len() {
// skip extra new columns names if we already reached the final column
break;
}

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@ -0,0 +1,313 @@
use std::iter::Peekable;
use std::str::CharIndices;
use nu_engine::CallExt;
use nu_protocol::ast::Call;
use nu_protocol::engine::{Command, EngineState, Stack};
use nu_protocol::{
Category, IntoInterruptiblePipelineData, PipelineData, ShellError, Signature, Span, Spanned,
SyntaxShape, Value,
};
type Input<'t> = Peekable<CharIndices<'t>>;
#[derive(Clone)]
pub struct DetectColumns;
impl Command for DetectColumns {
fn name(&self) -> &str {
"detect columns"
}
fn signature(&self) -> Signature {
Signature::build("detect columns")
.named(
"skip",
SyntaxShape::Int,
"number of rows to skip before detecting",
Some('s'),
)
.switch("no_headers", "don't detect headers", Some('n'))
.category(Category::Strings)
}
fn usage(&self) -> &str {
"splits contents across multiple columns via the separator."
}
fn run(
&self,
engine_state: &EngineState,
stack: &mut Stack,
call: &Call,
input: PipelineData,
) -> Result<PipelineData, ShellError> {
detect_columns(engine_state, stack, call, input)
}
}
fn detect_columns(
engine_state: &EngineState,
stack: &mut Stack,
call: &Call,
input: PipelineData,
) -> Result<PipelineData, ShellError> {
let name_span = call.head;
let num_rows_to_skip: Option<usize> = call.get_flag(engine_state, stack, "skip")?;
let noheader = call.has_flag("no_headers");
let ctrlc = engine_state.ctrlc.clone();
let config = stack.get_config()?;
let input = input.collect_string("", &config)?;
let input: Vec<_> = input
.lines()
.skip(num_rows_to_skip.unwrap_or_default())
.map(|x| x.to_string())
.collect();
let mut input = input.into_iter();
let headers = input.next();
if let Some(orig_headers) = headers {
let mut headers = find_columns(&orig_headers);
if noheader {
for header in headers.iter_mut().enumerate() {
header.1.item = format!("Column{}", header.0);
}
}
Ok((if noheader {
vec![orig_headers].into_iter().chain(input)
} else {
vec![].into_iter().chain(input)
})
.map(move |x| {
let row = find_columns(&x);
let mut cols = vec![];
let mut vals = vec![];
if headers.len() == row.len() {
for (header, val) in headers.iter().zip(row.iter()) {
cols.push(header.item.clone());
vals.push(Value::String {
val: val.item.clone(),
span: name_span,
});
}
} else {
let mut pre_output = vec![];
// column counts don't line up, so see if we can figure out why
for cell in row {
for header in &headers {
if cell.span.start <= header.span.end && cell.span.end > header.span.start {
pre_output.push((
header.item.to_string(),
Value::string(&cell.item, name_span),
));
}
}
}
for header in &headers {
let mut found = false;
for pre_o in &pre_output {
if pre_o.0 == header.item {
found = true;
break;
}
}
if !found {
pre_output.push((header.item.to_string(), Value::nothing(name_span)));
}
}
for header in &headers {
for pre_o in &pre_output {
if pre_o.0 == header.item {
cols.push(header.item.clone());
vals.push(pre_o.1.clone())
}
}
}
}
Value::Record {
cols,
vals,
span: name_span,
}
})
.into_pipeline_data(ctrlc))
} else {
Ok(PipelineData::new(name_span))
}
}
pub fn find_columns(input: &str) -> Vec<Spanned<String>> {
let mut chars = input.char_indices().peekable();
let mut output = vec![];
while let Some((_, c)) = chars.peek() {
if c.is_whitespace() {
// If the next character is non-newline whitespace, skip it.
let _ = chars.next();
} else {
// Otherwise, try to consume an unclassified token.
let result = baseline(&mut chars);
output.push(result);
}
}
output
}
#[derive(Clone, Copy)]
enum BlockKind {
Paren,
CurlyBracket,
SquareBracket,
}
fn baseline(src: &mut Input) -> Spanned<String> {
let mut token_contents = String::new();
let start_offset = if let Some((pos, _)) = src.peek() {
*pos
} else {
0
};
// This variable tracks the starting character of a string literal, so that
// we remain inside the string literal lexer mode until we encounter the
// closing quote.
let mut quote_start: Option<char> = None;
// This Vec tracks paired delimiters
let mut block_level: Vec<BlockKind> = vec![];
// A baseline token is terminated if it's not nested inside of a paired
// delimiter and the next character is one of: `|`, `;`, `#` or any
// whitespace.
fn is_termination(block_level: &[BlockKind], c: char) -> bool {
block_level.is_empty() && (c.is_whitespace())
}
// The process of slurping up a baseline token repeats:
//
// - String literal, which begins with `'`, `"` or `\``, and continues until
// the same character is encountered again.
// - Delimiter pair, which begins with `[`, `(`, or `{`, and continues until
// the matching closing delimiter is found, skipping comments and string
// literals.
// - When not nested inside of a delimiter pair, when a terminating
// character (whitespace, `|`, `;` or `#`) is encountered, the baseline
// token is done.
// - Otherwise, accumulate the character into the current baseline token.
while let Some((_, c)) = src.peek() {
let c = *c;
if quote_start.is_some() {
// If we encountered the closing quote character for the current
// string, we're done with the current string.
if Some(c) == quote_start {
quote_start = None;
}
} else if c == '\n' {
if is_termination(&block_level, c) {
break;
}
} else if c == '\'' || c == '"' || c == '`' {
// We encountered the opening quote of a string literal.
quote_start = Some(c);
} else if c == '[' {
// We encountered an opening `[` delimiter.
block_level.push(BlockKind::SquareBracket);
} else if c == ']' {
// We encountered a closing `]` delimiter. Pop off the opening `[`
// delimiter.
if let Some(BlockKind::SquareBracket) = block_level.last() {
let _ = block_level.pop();
}
} else if c == '{' {
// We encountered an opening `{` delimiter.
block_level.push(BlockKind::CurlyBracket);
} else if c == '}' {
// We encountered a closing `}` delimiter. Pop off the opening `{`.
if let Some(BlockKind::CurlyBracket) = block_level.last() {
let _ = block_level.pop();
}
} else if c == '(' {
// We enceountered an opening `(` delimiter.
block_level.push(BlockKind::Paren);
} else if c == ')' {
// We encountered a closing `)` delimiter. Pop off the opening `(`.
if let Some(BlockKind::Paren) = block_level.last() {
let _ = block_level.pop();
}
} else if is_termination(&block_level, c) {
break;
}
// Otherwise, accumulate the character into the current token.
token_contents.push(c);
// Consume the character.
let _ = src.next();
}
let span = Span::new(start_offset, start_offset + token_contents.len());
// If there is still unclosed opening delimiters, close them and add
// synthetic closing characters to the accumulated token.
if block_level.last().is_some() {
// let delim: char = (*block).closing();
// let cause = ParseError::unexpected_eof(delim.to_string(), span);
// while let Some(bk) = block_level.pop() {
// token_contents.push(bk.closing());
// }
return Spanned {
item: token_contents,
span,
};
}
if quote_start.is_some() {
// The non-lite parse trims quotes on both sides, so we add the expected quote so that
// anyone wanting to consume this partial parse (e.g., completions) will be able to get
// correct information from the non-lite parse.
// token_contents.push(delimiter);
// return (
// token_contents.spanned(span),
// Some(ParseError::unexpected_eof(delimiter.to_string(), span)),
// );
return Spanned {
item: token_contents,
span,
};
}
Spanned {
item: token_contents,
span,
}
}
#[cfg(test)]
mod test {
use super::*;
#[test]
fn test_examples() {
crate::test_examples(DetectColumns)
}
}

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@ -1,6 +1,7 @@
mod build_string;
mod char_;
mod decode;
mod detect_columns;
mod format;
mod parse;
mod size;
@ -10,6 +11,7 @@ mod str_;
pub use build_string::BuildString;
pub use char_::Char;
pub use decode::*;
pub use detect_columns::*;
pub use format::*;
pub use parse::*;
pub use size::Size;