nushell/crates/nu-protocol/src/pipeline_data.rs
WindSoilder 84caf8859f
add -e flag to print, to print the value to stderr (#5935)
* Refactor: make stdout write all and flush as generic function

* support print to stderr
2022-07-02 09:54:49 -05:00

634 lines
21 KiB
Rust

use crate::{
ast::{Call, PathMember},
engine::{EngineState, Stack, StateWorkingSet},
format_error, Config, ListStream, RawStream, ShellError, Span, Value,
};
use nu_utils::{stderr_write_all_and_flush, stdout_write_all_and_flush};
use std::sync::{atomic::AtomicBool, Arc};
/// The foundational abstraction for input and output to commands
///
/// This represents either a single Value or a stream of values coming into the command or leaving a command.
///
/// A note on implementation:
///
/// We've tried a few variations of this structure. Listing these below so we have a record.
///
/// * We tried always assuming a stream in Nushell. This was a great 80% solution, but it had some rough edges.
/// Namely, how do you know the difference between a single string and a list of one string. How do you know
/// when to flatten the data given to you from a data source into the stream or to keep it as an unflattened
/// list?
///
/// * We tried putting the stream into Value. This had some interesting properties as now commands "just worked
/// on values", but lead to a few unfortunate issues.
///
/// The first is that you can't easily clone Values in a way that felt largely immutable. For example, if
/// you cloned a Value which contained a stream, and in one variable drained some part of it, then the second
/// variable would see different values based on what you did to the first.
///
/// To make this kind of mutation thread-safe, we would have had to produce a lock for the stream, which in
/// practice would have meant always locking the stream before reading from it. But more fundamentally, it
/// felt wrong in practice that observation of a value at runtime could affect other values which happen to
/// alias the same stream. By separating these, we don't have this effect. Instead, variables could get
/// concrete list values rather than streams, and be able to view them without non-local effects.
///
/// * A balance of the two approaches is what we've landed on: Values are thread-safe to pass, and we can stream
/// them into any sources. Streams are still available to model the infinite streams approach of original
/// Nushell.
#[derive(Debug)]
pub enum PipelineData {
Value(Value, Option<PipelineMetadata>),
ListStream(ListStream, Option<PipelineMetadata>),
ExternalStream {
stdout: Option<RawStream>,
stderr: Option<RawStream>,
exit_code: Option<ListStream>,
span: Span,
metadata: Option<PipelineMetadata>,
},
}
#[derive(Debug, Clone)]
pub struct PipelineMetadata {
pub data_source: DataSource,
}
#[derive(Debug, Clone)]
pub enum DataSource {
Ls,
}
impl PipelineData {
pub fn new(span: Span) -> PipelineData {
PipelineData::Value(Value::Nothing { span }, None)
}
pub fn new_with_metadata(metadata: Option<PipelineMetadata>, span: Span) -> PipelineData {
PipelineData::Value(Value::Nothing { span }, metadata)
}
pub fn metadata(&self) -> Option<PipelineMetadata> {
match self {
PipelineData::ListStream(_, x) => x.clone(),
PipelineData::ExternalStream { metadata: x, .. } => x.clone(),
PipelineData::Value(_, x) => x.clone(),
}
}
pub fn set_metadata(mut self, metadata: Option<PipelineMetadata>) -> Self {
match &mut self {
PipelineData::ListStream(_, x) => *x = metadata,
PipelineData::ExternalStream { metadata: x, .. } => *x = metadata,
PipelineData::Value(_, x) => *x = metadata,
}
self
}
pub fn is_nothing(&self) -> bool {
matches!(self, PipelineData::Value(Value::Nothing { .. }, ..))
}
pub fn into_value(self, span: Span) -> Value {
match self {
PipelineData::Value(Value::Nothing { .. }, ..) => Value::nothing(span),
PipelineData::Value(v, ..) => v,
PipelineData::ListStream(s, ..) => Value::List {
vals: s.collect(),
span, // FIXME?
},
PipelineData::ExternalStream {
stdout: None,
exit_code,
..
} => {
// Make sure everything has finished
if let Some(exit_code) = exit_code {
let _: Vec<_> = exit_code.into_iter().collect();
}
Value::Nothing { span }
}
PipelineData::ExternalStream {
stdout: Some(mut s),
exit_code,
..
} => {
let mut items = vec![];
for val in &mut s {
match val {
Ok(val) => {
items.push(val);
}
Err(e) => {
return Value::Error { error: e };
}
}
}
// Make sure everything has finished
if let Some(exit_code) = exit_code {
let _: Vec<_> = exit_code.into_iter().collect();
}
if s.is_binary {
let mut output = vec![];
for item in items {
match item.as_binary() {
Ok(item) => {
output.extend(item);
}
Err(err) => {
return Value::Error { error: err };
}
}
}
Value::Binary {
val: output,
span, // FIXME?
}
} else {
let mut output = String::new();
for item in items {
match item.as_string() {
Ok(s) => output.push_str(&s),
Err(err) => {
return Value::Error { error: err };
}
}
}
Value::String {
val: output,
span, // FIXME?
}
}
}
}
}
pub fn into_interruptible_iter(self, ctrlc: Option<Arc<AtomicBool>>) -> PipelineIterator {
let mut iter = self.into_iter();
if let PipelineIterator(PipelineData::ListStream(s, ..)) = &mut iter {
s.ctrlc = ctrlc;
}
iter
}
pub fn collect_string(self, separator: &str, config: &Config) -> Result<String, ShellError> {
match self {
PipelineData::Value(v, ..) => Ok(v.into_string(separator, config)),
PipelineData::ListStream(s, ..) => Ok(s.into_string(separator, config)),
PipelineData::ExternalStream { stdout: None, .. } => Ok(String::new()),
PipelineData::ExternalStream {
stdout: Some(s), ..
} => {
let mut items = vec![];
for val in s {
match val {
Ok(val) => {
items.push(val);
}
Err(e) => {
return Err(e);
}
}
}
let mut output = String::new();
for item in items {
match item.as_string() {
Ok(s) => output.push_str(&s),
Err(err) => {
return Err(err);
}
}
}
Ok(output)
}
}
}
pub fn follow_cell_path(
self,
cell_path: &[PathMember],
head: Span,
insensitive: bool,
) -> Result<Value, ShellError> {
match self {
// FIXME: there are probably better ways of doing this
PipelineData::ListStream(stream, ..) => Value::List {
vals: stream.collect(),
span: head,
}
.follow_cell_path(cell_path, insensitive),
PipelineData::Value(v, ..) => v.follow_cell_path(cell_path, insensitive),
_ => Err(ShellError::IOError("can't follow stream paths".into())),
}
}
pub fn upsert_cell_path(
&mut self,
cell_path: &[PathMember],
callback: Box<dyn FnOnce(&Value) -> Value>,
head: Span,
) -> Result<(), ShellError> {
match self {
// FIXME: there are probably better ways of doing this
PipelineData::ListStream(stream, ..) => Value::List {
vals: stream.collect(),
span: head,
}
.upsert_cell_path(cell_path, callback),
PipelineData::Value(v, ..) => v.upsert_cell_path(cell_path, callback),
_ => Ok(()),
}
}
/// Simplified mapper to help with simple values also. For full iterator support use `.into_iter()` instead
pub fn map<F>(
self,
mut f: F,
ctrlc: Option<Arc<AtomicBool>>,
) -> Result<PipelineData, ShellError>
where
Self: Sized,
F: FnMut(Value) -> Value + 'static + Send,
{
match self {
PipelineData::Value(Value::List { vals, .. }, ..) => {
Ok(vals.into_iter().map(f).into_pipeline_data(ctrlc))
}
PipelineData::ListStream(stream, ..) => Ok(stream.map(f).into_pipeline_data(ctrlc)),
PipelineData::ExternalStream { stdout: None, .. } => {
Ok(PipelineData::new(Span { start: 0, end: 0 }))
}
PipelineData::ExternalStream {
stdout: Some(stream),
..
} => {
let collected = stream.into_bytes()?;
if let Ok(st) = String::from_utf8(collected.clone().item) {
Ok(f(Value::String {
val: st,
span: collected.span,
})
.into_pipeline_data())
} else {
Ok(f(Value::Binary {
val: collected.item,
span: collected.span,
})
.into_pipeline_data())
}
}
PipelineData::Value(Value::Range { val, .. }, ..) => Ok(val
.into_range_iter(ctrlc.clone())?
.map(f)
.into_pipeline_data(ctrlc)),
PipelineData::Value(v, ..) => match f(v) {
Value::Error { error } => Err(error),
v => Ok(v.into_pipeline_data()),
},
}
}
/// Simplified flatmapper. For full iterator support use `.into_iter()` instead
pub fn flat_map<U: 'static, F>(
self,
mut f: F,
ctrlc: Option<Arc<AtomicBool>>,
) -> Result<PipelineData, ShellError>
where
Self: Sized,
U: IntoIterator<Item = Value>,
<U as IntoIterator>::IntoIter: 'static + Send,
F: FnMut(Value) -> U + 'static + Send,
{
match self {
PipelineData::Value(Value::List { vals, .. }, ..) => {
Ok(vals.into_iter().flat_map(f).into_pipeline_data(ctrlc))
}
PipelineData::ListStream(stream, ..) => {
Ok(stream.flat_map(f).into_pipeline_data(ctrlc))
}
PipelineData::ExternalStream { stdout: None, .. } => {
Ok(PipelineData::new(Span { start: 0, end: 0 }))
}
PipelineData::ExternalStream {
stdout: Some(stream),
..
} => {
let collected = stream.into_bytes()?;
if let Ok(st) = String::from_utf8(collected.clone().item) {
Ok(f(Value::String {
val: st,
span: collected.span,
})
.into_iter()
.into_pipeline_data(ctrlc))
} else {
Ok(f(Value::Binary {
val: collected.item,
span: collected.span,
})
.into_iter()
.into_pipeline_data(ctrlc))
}
}
PipelineData::Value(Value::Range { val, .. }, ..) => {
match val.into_range_iter(ctrlc.clone()) {
Ok(iter) => Ok(iter.flat_map(f).into_pipeline_data(ctrlc)),
Err(error) => Err(error),
}
}
PipelineData::Value(v, ..) => Ok(f(v).into_iter().into_pipeline_data(ctrlc)),
}
}
pub fn filter<F>(
self,
mut f: F,
ctrlc: Option<Arc<AtomicBool>>,
) -> Result<PipelineData, ShellError>
where
Self: Sized,
F: FnMut(&Value) -> bool + 'static + Send,
{
match self {
PipelineData::Value(Value::List { vals, .. }, ..) => {
Ok(vals.into_iter().filter(f).into_pipeline_data(ctrlc))
}
PipelineData::ListStream(stream, ..) => Ok(stream.filter(f).into_pipeline_data(ctrlc)),
PipelineData::ExternalStream { stdout: None, .. } => {
Ok(PipelineData::new(Span { start: 0, end: 0 }))
}
PipelineData::ExternalStream {
stdout: Some(stream),
..
} => {
let collected = stream.into_bytes()?;
if let Ok(st) = String::from_utf8(collected.clone().item) {
let v = Value::String {
val: st,
span: collected.span,
};
if f(&v) {
Ok(v.into_pipeline_data())
} else {
Ok(PipelineData::new(collected.span))
}
} else {
let v = Value::Binary {
val: collected.item,
span: collected.span,
};
if f(&v) {
Ok(v.into_pipeline_data())
} else {
Ok(PipelineData::new(collected.span))
}
}
}
PipelineData::Value(Value::Range { val, .. }, ..) => Ok(val
.into_range_iter(ctrlc.clone())?
.filter(f)
.into_pipeline_data(ctrlc)),
PipelineData::Value(v, ..) => {
if f(&v) {
Ok(v.into_pipeline_data())
} else {
Ok(Value::Nothing { span: v.span()? }.into_pipeline_data())
}
}
}
}
/// Consume and print self data immediately.
///
/// `no_newline` controls if we need to attach newline character to output.
/// `to_stderr` controls if data is output to stderr, when the value is false, the data is ouput to stdout.
pub fn print(
self,
engine_state: &EngineState,
stack: &mut Stack,
no_newline: bool,
to_stderr: bool,
) -> Result<(), ShellError> {
// If the table function is in the declarations, then we can use it
// to create the table value that will be printed in the terminal
let config = engine_state.get_config();
// let stdout = std::io::stdout();
if let PipelineData::ExternalStream {
stdout: stream,
exit_code,
..
} = self
{
if let Some(stream) = stream {
for s in stream {
let s_live = s?;
let bin_output = s_live.as_binary()?;
if !to_stderr {
stdout_write_all_and_flush(bin_output)?
} else {
stderr_write_all_and_flush(bin_output)?
}
}
}
// Make sure everything has finished
if let Some(exit_code) = exit_code {
let _: Vec<_> = exit_code.into_iter().collect();
}
return Ok(());
}
match engine_state.find_decl("table".as_bytes(), &[]) {
Some(decl_id) => {
let table = engine_state.get_decl(decl_id).run(
engine_state,
stack,
&Call::new(Span::new(0, 0)),
self,
)?;
for item in table {
let mut out = if let Value::Error { error } = item {
let working_set = StateWorkingSet::new(engine_state);
format_error(&working_set, &error)
} else if no_newline {
item.into_string("", config)
} else {
item.into_string("\n", config)
};
if !no_newline {
out.push('\n');
}
if !to_stderr {
stdout_write_all_and_flush(out)?
} else {
stderr_write_all_and_flush(out)?
}
}
}
None => {
for item in self {
let mut out = if let Value::Error { error } = item {
let working_set = StateWorkingSet::new(engine_state);
format_error(&working_set, &error)
} else if no_newline {
item.into_string("", config)
} else {
item.into_string("\n", config)
};
if !no_newline {
out.push('\n');
}
if !to_stderr {
stdout_write_all_and_flush(out)?
} else {
stderr_write_all_and_flush(out)?
}
}
}
};
Ok(())
}
}
pub struct PipelineIterator(PipelineData);
impl IntoIterator for PipelineData {
type Item = Value;
type IntoIter = PipelineIterator;
fn into_iter(self) -> Self::IntoIter {
match self {
PipelineData::Value(Value::List { vals, .. }, metadata) => {
PipelineIterator(PipelineData::ListStream(
ListStream {
stream: Box::new(vals.into_iter()),
ctrlc: None,
},
metadata,
))
}
PipelineData::Value(Value::Range { val, .. }, metadata) => {
match val.into_range_iter(None) {
Ok(iter) => PipelineIterator(PipelineData::ListStream(
ListStream {
stream: Box::new(iter),
ctrlc: None,
},
metadata,
)),
Err(error) => PipelineIterator(PipelineData::ListStream(
ListStream {
stream: Box::new(std::iter::once(Value::Error { error })),
ctrlc: None,
},
metadata,
)),
}
}
x => PipelineIterator(x),
}
}
}
impl Iterator for PipelineIterator {
type Item = Value;
fn next(&mut self) -> Option<Self::Item> {
match &mut self.0 {
PipelineData::Value(Value::Nothing { .. }, ..) => None,
PipelineData::Value(v, ..) => Some(std::mem::take(v)),
PipelineData::ListStream(stream, ..) => stream.next(),
PipelineData::ExternalStream { stdout: None, .. } => None,
PipelineData::ExternalStream {
stdout: Some(stream),
..
} => stream.next().map(|x| match x {
Ok(x) => x,
Err(err) => Value::Error { error: err },
}),
}
}
}
pub trait IntoPipelineData {
fn into_pipeline_data(self) -> PipelineData;
}
impl<V> IntoPipelineData for V
where
V: Into<Value>,
{
fn into_pipeline_data(self) -> PipelineData {
PipelineData::Value(self.into(), None)
}
}
pub trait IntoInterruptiblePipelineData {
fn into_pipeline_data(self, ctrlc: Option<Arc<AtomicBool>>) -> PipelineData;
fn into_pipeline_data_with_metadata(
self,
metadata: PipelineMetadata,
ctrlc: Option<Arc<AtomicBool>>,
) -> PipelineData;
}
impl<I> IntoInterruptiblePipelineData for I
where
I: IntoIterator + Send + 'static,
I::IntoIter: Send + 'static,
<I::IntoIter as Iterator>::Item: Into<Value>,
{
fn into_pipeline_data(self, ctrlc: Option<Arc<AtomicBool>>) -> PipelineData {
PipelineData::ListStream(
ListStream {
stream: Box::new(self.into_iter().map(Into::into)),
ctrlc,
},
None,
)
}
fn into_pipeline_data_with_metadata(
self,
metadata: PipelineMetadata,
ctrlc: Option<Arc<AtomicBool>>,
) -> PipelineData {
PipelineData::ListStream(
ListStream {
stream: Box::new(self.into_iter().map(Into::into)),
ctrlc,
},
Some(metadata),
)
}
}