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cat.rs
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cat.rs
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static USAGE: &str = r#"
Concatenate CSV files by row or by column.
When concatenating by column, the columns will be written in the same order as
the inputs given. The number of rows in the result is always equivalent to
the minimum number of rows across all given CSV data. (This behavior can be
reversed with the '--pad' flag.)
Concatenating by rows can be done in two ways:
'rows' subcommand:
All CSV data must have the same number of columns (unless --flexible is enabled)
and in the same order.
If you need to rearrange the columns or fix the lengths of records, use the
'select' or 'fixlengths' commands. Also, only the headers of the *first* CSV
data given are used. Headers in subsequent inputs are ignored. (This behavior
can be disabled with --no-headers.)
'rowskey' subcommand:
CSV data can have different numbers of columns and in different orders. All
columns are written in insertion order. If a column is missing in a row, an
empty field is written. If a column is missing in the header, an empty field
is written for all rows.
For examples, see https://github.com/dathere/qsv/blob/master/tests/test_cat.rs.
Usage:
qsv cat rows [options] [<input>...]
qsv cat rowskey [options] [<input>...]
qsv cat columns [options] [<input>...]
qsv cat --help
cat arguments:
<input>... The CSV file(s) to read. Use '-' for standard input.
If input is a directory, all files in the directory will
be read as input.
If the input is a file with a '.infile-list' extension,
the file will be read as a list of input files.
If the input are snappy-compressed files(s), it will be
decompressed automatically.
cat options:
COLUMNS OPTION:
-p, --pad When concatenating columns, this flag will cause
all records to appear. It will pad each row if
other CSV data isn't long enough.
ROWS OPTION:
--flexible When concatenating rows, this flag turns off validation
that the input and output CSVs have the same number of columns.
This is faster, but may result in invalid CSV data.
ROWSKEY OPTIONS:
-g, --group <grpkind> When concatenating with rowskey, you can specify a grouping value
which will be used as the first column in the output. This is useful
when you want to know which file a row came from. Valid values are
'fullpath', 'parentdirfname', 'parentdirfstem', 'fname', 'fstem' and 'none'.
A new column will be added to the beginning of each row using --group-name.
If 'none' is specified, no grouping column will be added.
[default: none]
-N, --group-name <arg> When concatenating with rowskey, this flag provides the name
for the new grouping column. [default: file]
Common options:
-h, --help Display this message
-o, --output <file> Write output to <file> instead of stdout.
-n, --no-headers When set, the first row will NOT be interpreted
as column names. Note that this has no effect when
concatenating columns.
-d, --delimiter <arg> The field delimiter for reading CSV data.
Must be a single character. (default: ,)
"#;
use std::{
path::{Path, PathBuf},
str::FromStr,
};
use indexmap::{IndexMap, IndexSet};
use serde::Deserialize;
use strum_macros::EnumString;
use crate::{
config::{Config, Delimiter, DEFAULT_WTR_BUFFER_CAPACITY},
util, CliResult,
};
#[derive(Deserialize)]
struct Args {
cmd_rows: bool,
cmd_rowskey: bool,
cmd_columns: bool,
flag_group: String,
flag_group_name: String,
arg_input: Vec<PathBuf>,
flag_pad: bool,
flag_flexible: bool,
flag_output: Option<String>,
flag_no_headers: bool,
flag_delimiter: Option<Delimiter>,
}
#[derive(Debug, EnumString, PartialEq)]
#[strum(ascii_case_insensitive)]
enum GroupKind {
FullPath,
ParentDirFName,
ParentDirFStem,
FName,
FStem,
None,
}
fn get_parentdir_and_file(path: &Path, stem_only: bool) -> String {
//safety: we know that this is a valid pathbuf
let file_info = if stem_only {
path.file_stem()
} else {
path.file_name()
}
.unwrap();
let parent_dir = path.parent().unwrap();
parent_dir.join(file_info).to_string_lossy().into_owned()
}
pub fn run(argv: &[&str]) -> CliResult<()> {
let mut args: Args = util::get_args(USAGE, argv)?;
let tmpdir = tempfile::tempdir()?;
args.arg_input = util::process_input(args.arg_input, &tmpdir, "")?;
if args.cmd_rows {
args.cat_rows()
} else if args.cmd_rowskey {
args.cat_rowskey()
} else if args.cmd_columns {
args.cat_columns()
} else {
unreachable!();
}
}
impl Args {
#[inline]
fn configs(&self) -> CliResult<Vec<Config>> {
util::many_configs(
&self.arg_input,
self.flag_delimiter,
self.flag_no_headers,
// we can set flexible to true if we are using rowskey
// as we don't need to validate that the number of columns
// are the same across all files, increasing performance
self.flag_flexible || self.cmd_rowskey,
)
.map_err(From::from)
}
fn cat_rows(&self) -> CliResult<()> {
let mut row = csv::ByteRecord::new();
let mut wtr = Config::new(self.flag_output.as_ref())
.flexible(self.flag_flexible)
.writer()?;
let mut rdr;
let mut configs = self.configs()?.into_iter();
// the first file is special, as it has the headers
// if --no-headers is set, we just write the first file
if let Some(conf) = configs.next() {
rdr = conf.reader()?;
conf.write_headers(&mut rdr, &mut wtr)?;
while rdr.read_byte_record(&mut row)? {
wtr.write_byte_record(&row)?;
}
}
// the rest of the files are just written
// as fast as possible, as we don't need to
// worry about headers
for conf in configs {
rdr = conf.reader()?;
while rdr.read_byte_record(&mut row)? {
wtr.write_byte_record(&row)?;
}
}
Ok(wtr.flush()?)
}
// this algorithm is largely inspired by https://github.com/vi/csvcatrow by @vi
// https://github.com/dathere/qsv/issues/527
fn cat_rowskey(&self) -> CliResult<()> {
// ahash is a faster hasher than the default one used by IndexSet and IndexMap
type AhashIndexSet<T> = IndexSet<T, ahash::RandomState>;
type AhashIndexMap<T, T2> = IndexMap<T, T2, ahash::RandomState>;
let Ok(group_kind) = GroupKind::from_str(&self.flag_group) else {
return fail_incorrectusage_clierror!(
"Invalid grouping value `{}`. Valid values are 'fullpath', 'parentdirfname', \
'parentdirfstem', 'fname', 'fstem' and 'none'.",
self.flag_group
);
};
let mut columns_global: AhashIndexSet<Box<[u8]>> = AhashIndexSet::default();
if group_kind != GroupKind::None {
columns_global.insert(self.flag_group_name.as_bytes().to_vec().into_boxed_slice());
}
// we're creating a temp_dir in case we have stdin input, as we need to save it to a
// file named "stdin" under the temp_dir. This is required as we need to scan
// the files twice. temp_dir will be automatically deleted when it goes out of scope.
let temp_dir = tempfile::tempdir()?;
let mut stdin_tempfilename = std::path::PathBuf::new();
// we need to create a temporary header in case --no-headers is set
let mut temp_header = csv::ByteRecord::new();
// First pass, add all column headers to an IndexSet
for conf in &self.configs()? {
if conf.is_stdin() {
stdin_tempfilename = temp_dir.path().join("stdin");
let tmp_file = std::fs::File::create(&stdin_tempfilename)?;
let mut tmp_file =
std::io::BufWriter::with_capacity(DEFAULT_WTR_BUFFER_CAPACITY, tmp_file);
std::io::copy(&mut std::io::stdin(), &mut tmp_file)?;
}
let mut rdr = conf.reader()?;
// if self.flag_no_headers is set, we create temporary headers
// to use as keys, using the convention "_c_1", "_c_2", "_c_3", etc.
let header = if self.flag_no_headers {
let mut header = csv::ByteRecord::new();
rdr.read_byte_record(&mut header)?;
temp_header.clear();
for (n, _) in header.iter().enumerate() {
temp_header.push_field(format!("_c_{}", n + 1).as_bytes());
}
&temp_header
} else {
rdr.byte_headers()?
};
for field in header {
let fi = field.to_vec().into_boxed_slice();
columns_global.insert(fi);
}
}
let num_columns_global = columns_global.len();
// Second pass, write all columns to a new file
// set flexible to true for faster writes
// as we know that all columns are already in columns_global and we don't need to
// validate that the number of columns are the same every time we write a row
let mut wtr = Config::new(self.flag_output.as_ref())
.flexible(true)
.writer()?;
let mut new_row = csv::ByteRecord::with_capacity(500, num_columns_global);
// write the header
if !self.flag_no_headers {
for c in &columns_global {
new_row.push_field(c);
}
wtr.write_byte_record(&new_row)?;
}
// amortize allocations
let mut grouping_value = String::new();
let mut conf_path;
let mut rdr;
let mut header: &csv::ByteRecord;
let mut columns_of_this_file: AhashIndexMap<Box<[u8]>, usize> = AhashIndexMap::default();
columns_of_this_file.reserve(num_columns_global);
let mut row: csv::ByteRecord = csv::ByteRecord::with_capacity(500, num_columns_global);
for conf in self.configs()? {
if conf.is_stdin() {
rdr = Config::new(Some(stdin_tempfilename.to_string_lossy().to_string()).as_ref())
.reader()?;
conf_path = Some(stdin_tempfilename.clone());
} else {
rdr = conf.reader()?;
conf_path = conf.path.clone();
}
header = if self.flag_no_headers {
&temp_header
} else {
rdr.byte_headers()?
};
columns_of_this_file.clear();
for (n, field) in header.iter().enumerate() {
let fi = field.to_vec().into_boxed_slice();
if columns_of_this_file.contains_key(&fi) {
wwarn!(
"Duplicate column `{}` name in file `{:?}`.",
String::from_utf8_lossy(&fi),
conf.path,
);
}
columns_of_this_file.insert(fi, n);
}
// safety: we know that this is a valid file path
let conf_pathbuf = conf_path.unwrap();
// set grouping_value
// safety: we know that this is a valid file path and if the file path
// is not utf8, we convert it to lossy utf8
match group_kind {
GroupKind::FullPath => {
grouping_value.clear();
grouping_value
.push_str(&conf_pathbuf.canonicalize().unwrap().to_string_lossy());
},
GroupKind::ParentDirFName => {
grouping_value = get_parentdir_and_file(&conf_pathbuf, false);
},
GroupKind::ParentDirFStem => {
grouping_value = get_parentdir_and_file(&conf_pathbuf, true);
},
GroupKind::FName => {
grouping_value.clear();
grouping_value.push_str(&conf_pathbuf.file_name().unwrap().to_string_lossy());
},
GroupKind::FStem => {
grouping_value.clear();
grouping_value.push_str(&conf_pathbuf.file_stem().unwrap().to_string_lossy());
},
GroupKind::None => {},
}
let group_flag = group_kind != GroupKind::None;
let grouping_value_bytes = grouping_value.as_bytes();
while rdr.read_byte_record(&mut row)? {
new_row.clear();
for (col_idx, c) in columns_global.iter().enumerate() {
if let Some(idx) = columns_of_this_file.get(c) {
if let Some(d) = row.get(*idx) {
new_row.push_field(d);
} else {
new_row.push_field(b"");
}
} else if group_flag && col_idx == 0 {
// we are in the first column, and --group is set
// so we write the grouping value
new_row.push_field(grouping_value_bytes);
} else {
new_row.push_field(b"");
}
}
wtr.write_byte_record(&new_row)?;
}
}
Ok(wtr.flush()?)
}
fn cat_columns(&self) -> CliResult<()> {
let mut wtr = Config::new(self.flag_output.as_ref()).writer()?;
let mut rdrs = self
.configs()?
.into_iter()
.map(|conf| conf.no_headers(true).reader())
.collect::<Result<Vec<_>, _>>()?;
// Find the lengths of each record. If a length varies, then an error
// will occur so we can rely on the first length being the correct one.
let mut lengths = vec![];
for rdr in &mut rdrs {
lengths.push(rdr.byte_headers()?.len());
}
let mut iters = rdrs
.iter_mut()
.map(csv::Reader::byte_records)
.collect::<Vec<_>>();
// safety: there's always a first element
let mut record = csv::ByteRecord::with_capacity(1024, *lengths.first().unwrap());
'OUTER: loop {
record.clear();
let mut num_done = 0;
for (iter, &len) in iters.iter_mut().zip(lengths.iter()) {
match iter.next() {
None => {
num_done += 1;
if self.flag_pad {
for _ in 0..len {
record.push_field(b"");
}
} else {
break 'OUTER;
}
},
Some(Ok(next)) => record.extend(&next),
Some(Err(err)) => return fail!(err),
}
}
// Only needed when `--pad` is set.
// When not set, the OUTER loop breaks when the shortest iterator
// is exhausted.
if num_done >= iters.len() {
break 'OUTER;
}
wtr.write_byte_record(&record)?;
}
Ok(wtr.flush()?)
}
}