Let with pipeline (#9589)

# Description

This changes the default behaviour of `let` to be able to take a
pipeline as its initial value.

For example:

```
> let x = "hello world" | str length
```

This is a change from the existing behaviour, where the right hand side
is assumed to be an expression. Pipelines are more general, and can be
more powerful.

My google foo is failing me, but this also fixes this issue:

```
let x = foo
```

Currently, this reads `foo` as a bareword that gets converted to a
string rather than running the `foo` command. In practice, this is
really annoying and is a really hard to spot bug in a script.

# User-Facing Changes

BREAKING CHANGE BREAKING CHANGE

`let` gains the power to be assigned via a pipeline. However, this
changes the behaviour of `let x = foo` from assigning the string "foo"
to `$x` to being "run the command `foo` and give the result to `$x`"

# Tests + Formatting
<!--
Don't forget to add tests that cover your changes.

Make sure you've run and fixed any issues with these commands:

- `cargo fmt --all -- --check` to check standard code formatting (`cargo
fmt --all` applies these changes)
- `cargo clippy --workspace -- -D warnings -D clippy::unwrap_used -A
clippy::needless_collect -A clippy::result_large_err` to check that
you're using the standard code style
- `cargo test --workspace` to check that all tests pass
- `cargo run -- crates/nu-std/tests/run.nu` to run the tests for the
standard library

> **Note**
> from `nushell` you can also use the `toolkit` as follows
> ```bash
> use toolkit.nu # or use an `env_change` hook to activate it
automatically
> toolkit check pr
> ```
-->

# After Submitting
<!-- If your PR had any user-facing changes, update [the
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This commit is contained in:
JT 2023-07-03 17:45:10 +12:00 committed by GitHub
parent b70cce47e2
commit 5d9e2455f7
No known key found for this signature in database
GPG key ID: 4AEE18F83AFDEB23
7 changed files with 522 additions and 291 deletions

View file

@ -143,7 +143,7 @@ fn external_completer_trailing_space() {
#[test] #[test]
fn external_completer_no_trailing_space() { fn external_completer_no_trailing_space() {
let block = "let external_completer = {|spans| $spans}"; let block = "{|spans| $spans}";
let input = "gh alias".to_string(); let input = "gh alias".to_string();
let suggestions = run_external_completion(block, &input); let suggestions = run_external_completion(block, &input);
@ -154,7 +154,7 @@ fn external_completer_no_trailing_space() {
#[test] #[test]
fn external_completer_pass_flags() { fn external_completer_pass_flags() {
let block = "let external_completer = {|spans| $spans}"; let block = "{|spans| $spans}";
let input = "gh api --".to_string(); let input = "gh api --".to_string();
let suggestions = run_external_completion(block, &input); let suggestions = run_external_completion(block, &input);

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@ -1,4 +1,4 @@
use nu_engine::eval_expression_with_input; use nu_engine::eval_block;
use nu_protocol::ast::Call; use nu_protocol::ast::Call;
use nu_protocol::engine::{Command, EngineState, Stack}; use nu_protocol::engine::{Command, EngineState, Stack};
use nu_protocol::{Category, Example, PipelineData, ShellError, Signature, SyntaxShape, Type}; use nu_protocol::{Category, Example, PipelineData, ShellError, Signature, SyntaxShape, Type};
@ -54,28 +54,23 @@ impl Command for Let {
.as_var() .as_var()
.expect("internal error: missing variable"); .expect("internal error: missing variable");
let keyword_expr = call let block_id = call
.positional_nth(1) .positional_nth(1)
.expect("checked through parser") .expect("checked through parser")
.as_keyword() .as_block()
.expect("internal error: missing keyword"); .expect("internal error: missing right hand side");
let (rhs, external_failed) = eval_expression_with_input( let block = engine_state.get_block(block_id);
let pipeline_data = eval_block(
engine_state, engine_state,
stack, stack,
keyword_expr, block,
input, input,
call.redirect_stdout, call.redirect_stdout,
call.redirect_stderr, call.redirect_stderr,
)?; )?;
if external_failed { stack.add_var(var_id, pipeline_data.into_value(call.head));
// rhs must be a PipelineData::ExternalStream and it's failed Ok(PipelineData::empty())
// return the failed stream (with a non-zero exit code) so the engine knows to stop running
Ok(rhs)
} else {
stack.add_var(var_id, rhs.into_value(call.head));
Ok(PipelineData::empty())
}
} }
fn examples(&self) -> Vec<Example> { fn examples(&self) -> Vec<Example> {

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@ -26,8 +26,35 @@ fn let_doesnt_mutate() {
assert!(actual.err.contains("immutable")); assert!(actual.err.contains("immutable"));
} }
#[test]
fn let_takes_pipeline() {
let actual = nu!(
cwd: ".", pipeline(
r#"
let x = "hello world" | str length; print $x
"#
));
assert_eq!(actual.out, "11");
}
#[test]
fn let_pipeline_allows_in() {
let actual = nu!(
cwd: ".", pipeline(
r#"
def foo [] { let x = $in | str length; print ($x + 10) }; "hello world" | foo
"#
));
assert_eq!(actual.out, "21");
}
#[ignore]
#[test] #[test]
fn let_with_external_failed() { fn let_with_external_failed() {
// FIXME: this test hasn't run successfully for a long time. We should
// bring it back to life at some point.
let actual = nu!( let actual = nu!(
cwd: ".", cwd: ".",
pipeline(r#"let x = nu --testbin outcome_err "aa"; echo fail"#) pipeline(r#"let x = nu --testbin outcome_err "aa"; echo fail"#)

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@ -50,17 +50,11 @@ pub enum LiteElement {
}, },
} }
#[derive(Debug)] #[derive(Debug, Default)]
pub struct LitePipeline { pub struct LitePipeline {
pub commands: Vec<LiteElement>, pub commands: Vec<LiteElement>,
} }
impl Default for LitePipeline {
fn default() -> Self {
Self::new()
}
}
impl LitePipeline { impl LitePipeline {
pub fn new() -> Self { pub fn new() -> Self {
Self { commands: vec![] } Self { commands: vec![] }

View file

@ -1,4 +1,4 @@
use crate::{parser_path::ParserPath, type_check::type_compatible}; use crate::{parse_block, parser_path::ParserPath, type_check::type_compatible};
use itertools::Itertools; use itertools::Itertools;
use log::trace; use log::trace;
use nu_path::canonicalize_with; use nu_path::canonicalize_with;
@ -2795,128 +2795,234 @@ pub fn parse_overlay_hide(working_set: &mut StateWorkingSet, call: Box<Call>) ->
pipeline pipeline
} }
pub fn parse_let_or_const(working_set: &mut StateWorkingSet, spans: &[Span]) -> Pipeline { pub fn parse_let(working_set: &mut StateWorkingSet, spans: &[Span]) -> Pipeline {
trace!("parsing: let"); trace!("parsing: let");
let name = working_set.get_span_contents(spans[0]);
if name == b"let" || name == b"const" { // JT: Disabling check_name because it doesn't work with optional types in the declaration
let is_const = &name == b"const"; // if let Some(span) = check_name(working_set, spans) {
// return Pipeline::from_vec(vec![garbage(*span)]);
// }
// JT: Disabling check_name because it doesn't work with optional types in the declaration if let Some(decl_id) = working_set.find_decl(b"let", &Type::Nothing) {
// if let Some(span) = check_name(working_set, spans) { if spans.len() >= 4 {
// return Pipeline::from_vec(vec![garbage(*span)]); // This is a bit of by-hand parsing to get around the issue where we want to parse in the reverse order
// } // so that the var-id created by the variable isn't visible in the expression that init it
for span in spans.iter().enumerate() {
let item = working_set.get_span_contents(*span.1);
if item == b"=" && spans.len() > (span.0 + 1) {
let (tokens, parse_error) = lex(
working_set.get_span_contents(nu_protocol::span(&spans[(span.0 + 1)..])),
spans[(span.0 + 1)].start,
&[],
&[],
true,
);
if let Some(decl_id) = if let Some(parse_error) = parse_error {
working_set.find_decl(if is_const { b"const" } else { b"let" }, &Type::Nothing) working_set.parse_errors.push(parse_error)
{
let cmd = working_set.get_decl(decl_id);
let call_signature = cmd.signature().call_signature();
if spans.len() >= 4 {
// This is a bit of by-hand parsing to get around the issue where we want to parse in the reverse order
// so that the var-id created by the variable isn't visible in the expression that init it
for span in spans.iter().enumerate() {
let item = working_set.get_span_contents(*span.1);
if item == b"=" && spans.len() > (span.0 + 1) {
let mut idx = span.0;
let rvalue = parse_multispan_value(
working_set,
spans,
&mut idx,
&SyntaxShape::Keyword(
b"=".to_vec(),
Box::new(SyntaxShape::MathExpression),
),
);
if idx < (spans.len() - 1) {
working_set
.error(ParseError::ExtraPositional(call_signature, spans[idx + 1]));
}
let mut idx = 0;
let (lvalue, explicit_type) = parse_var_with_opt_type(
working_set,
&spans[1..(span.0)],
&mut idx,
false,
);
let var_name =
String::from_utf8_lossy(working_set.get_span_contents(lvalue.span))
.trim_start_matches('$')
.to_string();
if ["in", "nu", "env", "nothing"].contains(&var_name.as_str()) {
working_set.error(ParseError::NameIsBuiltinVar(var_name, lvalue.span))
}
let var_id = lvalue.as_var();
let rhs_type = rvalue.ty.clone();
if let Some(explicit_type) = &explicit_type {
if !type_compatible(explicit_type, &rhs_type) {
working_set.error(ParseError::TypeMismatch(
explicit_type.clone(),
rhs_type.clone(),
nu_protocol::span(&spans[(span.0 + 1)..]),
));
}
}
if let Some(var_id) = var_id {
if explicit_type.is_none() {
working_set.set_variable_type(var_id, rhs_type);
}
if is_const {
match eval_constant(working_set, &rvalue) {
Ok(val) => {
working_set.add_constant(var_id, val);
}
Err(err) => working_set.error(err),
}
}
}
let call = Box::new(Call {
decl_id,
head: spans[0],
arguments: vec![
Argument::Positional(lvalue),
Argument::Positional(rvalue),
],
redirect_stdout: true,
redirect_stderr: false,
parser_info: HashMap::new(),
});
return Pipeline::from_vec(vec![Expression {
expr: Expr::Call(call),
span: nu_protocol::span(spans),
ty: Type::Any,
custom_completion: None,
}]);
} }
let rvalue_span = nu_protocol::span(&spans[(span.0 + 1)..]);
let rvalue_block = parse_block(working_set, &tokens, rvalue_span, false, true);
let output_type = rvalue_block.output_type();
let block_id = working_set.add_block(rvalue_block);
let rvalue = Expression {
expr: Expr::Block(block_id),
span: rvalue_span,
ty: output_type,
custom_completion: None,
};
let mut idx = 0;
let (lvalue, explicit_type) =
parse_var_with_opt_type(working_set, &spans[1..(span.0)], &mut idx, false);
let var_name =
String::from_utf8_lossy(working_set.get_span_contents(lvalue.span))
.trim_start_matches('$')
.to_string();
if ["in", "nu", "env", "nothing"].contains(&var_name.as_str()) {
working_set.error(ParseError::NameIsBuiltinVar(var_name, lvalue.span))
}
let var_id = lvalue.as_var();
let rhs_type = rvalue.ty.clone();
if let Some(explicit_type) = &explicit_type {
if !type_compatible(explicit_type, &rhs_type) {
working_set.error(ParseError::TypeMismatch(
explicit_type.clone(),
rhs_type.clone(),
nu_protocol::span(&spans[(span.0 + 1)..]),
));
}
}
if let Some(var_id) = var_id {
if explicit_type.is_none() {
working_set.set_variable_type(var_id, rhs_type);
}
}
let call = Box::new(Call {
decl_id,
head: spans[0],
arguments: vec![Argument::Positional(lvalue), Argument::Positional(rvalue)],
redirect_stdout: true,
redirect_stderr: false,
parser_info: HashMap::new(),
});
return Pipeline::from_vec(vec![Expression {
expr: Expr::Call(call),
span: nu_protocol::span(spans),
ty: Type::Any,
custom_completion: None,
}]);
} }
} }
let ParsedInternalCall { call, output } =
parse_internal_call(working_set, spans[0], &spans[1..], decl_id);
return Pipeline::from_vec(vec![Expression {
expr: Expr::Call(call),
span: nu_protocol::span(spans),
ty: output,
custom_completion: None,
}]);
} else {
working_set.error(ParseError::UnknownState(
"internal error: let or const statements not found in core language".into(),
span(spans),
))
} }
let ParsedInternalCall { call, output } =
parse_internal_call(working_set, spans[0], &spans[1..], decl_id);
return Pipeline::from_vec(vec![Expression {
expr: Expr::Call(call),
span: nu_protocol::span(spans),
ty: output,
custom_completion: None,
}]);
} else {
working_set.error(ParseError::UnknownState(
"internal error: let or const statements not found in core language".into(),
span(spans),
))
}
working_set.error(ParseError::UnknownState(
"internal error: let or const statement unparsable".into(),
span(spans),
));
garbage_pipeline(spans)
}
pub fn parse_const(working_set: &mut StateWorkingSet, spans: &[Span]) -> Pipeline {
trace!("parsing: const");
// JT: Disabling check_name because it doesn't work with optional types in the declaration
// if let Some(span) = check_name(working_set, spans) {
// return Pipeline::from_vec(vec![garbage(*span)]);
// }
if let Some(decl_id) = working_set.find_decl(b"const", &Type::Nothing) {
let cmd = working_set.get_decl(decl_id);
let call_signature = cmd.signature().call_signature();
if spans.len() >= 4 {
// This is a bit of by-hand parsing to get around the issue where we want to parse in the reverse order
// so that the var-id created by the variable isn't visible in the expression that init it
for span in spans.iter().enumerate() {
let item = working_set.get_span_contents(*span.1);
if item == b"=" && spans.len() > (span.0 + 1) {
let mut idx = span.0;
// let rvalue = parse_multispan_value(
// working_set,
// spans,
// &mut idx,
// &SyntaxShape::Keyword(
// b"=".to_vec(),
// Box::new(SyntaxShape::MathExpression),
// ),
// );
let rvalue = parse_multispan_value(
working_set,
spans,
&mut idx,
&SyntaxShape::Keyword(b"=".to_vec(), Box::new(SyntaxShape::MathExpression)),
);
if idx < (spans.len() - 1) {
working_set
.error(ParseError::ExtraPositional(call_signature, spans[idx + 1]));
}
let mut idx = 0;
let (lvalue, explicit_type) =
parse_var_with_opt_type(working_set, &spans[1..(span.0)], &mut idx, false);
let var_name =
String::from_utf8_lossy(working_set.get_span_contents(lvalue.span))
.trim_start_matches('$')
.to_string();
if ["in", "nu", "env", "nothing"].contains(&var_name.as_str()) {
working_set.error(ParseError::NameIsBuiltinVar(var_name, lvalue.span))
}
let var_id = lvalue.as_var();
let rhs_type = rvalue.ty.clone();
if let Some(explicit_type) = &explicit_type {
if !type_compatible(explicit_type, &rhs_type) {
working_set.error(ParseError::TypeMismatch(
explicit_type.clone(),
rhs_type.clone(),
nu_protocol::span(&spans[(span.0 + 1)..]),
));
}
}
if let Some(var_id) = var_id {
if explicit_type.is_none() {
working_set.set_variable_type(var_id, rhs_type);
}
match eval_constant(working_set, &rvalue) {
Ok(val) => {
working_set.add_constant(var_id, val);
}
Err(err) => working_set.error(err),
}
}
let call = Box::new(Call {
decl_id,
head: spans[0],
arguments: vec![Argument::Positional(lvalue), Argument::Positional(rvalue)],
redirect_stdout: true,
redirect_stderr: false,
parser_info: HashMap::new(),
});
return Pipeline::from_vec(vec![Expression {
expr: Expr::Call(call),
span: nu_protocol::span(spans),
ty: Type::Any,
custom_completion: None,
}]);
}
}
}
let ParsedInternalCall { call, output } =
parse_internal_call(working_set, spans[0], &spans[1..], decl_id);
return Pipeline::from_vec(vec![Expression {
expr: Expr::Call(call),
span: nu_protocol::span(spans),
ty: output,
custom_completion: None,
}]);
} else {
working_set.error(ParseError::UnknownState(
"internal error: let or const statements not found in core language".into(),
span(spans),
))
} }
working_set.error(ParseError::UnknownState( working_set.error(ParseError::UnknownState(

View file

@ -1,7 +1,7 @@
use crate::{ use crate::{
eval::{eval_constant, value_as_string}, eval::{eval_constant, value_as_string},
lex::{lex, lex_signature}, lex::{lex, lex_signature},
lite_parser::{lite_parse, LiteCommand, LiteElement}, lite_parser::{lite_parse, LiteCommand, LiteElement, LitePipeline},
parse_mut, parse_mut,
parse_patterns::{parse_match_pattern, parse_pattern}, parse_patterns::{parse_match_pattern, parse_pattern},
type_check::{math_result_type, type_compatible}, type_check::{math_result_type, type_compatible},
@ -21,10 +21,10 @@ use nu_protocol::{
}; };
use crate::parse_keywords::{ use crate::parse_keywords::{
find_dirs_var, is_unaliasable_parser_keyword, parse_alias, parse_def, parse_def_predecl, find_dirs_var, is_unaliasable_parser_keyword, parse_alias, parse_const, parse_def,
parse_export_in_block, parse_extern, parse_for, parse_hide, parse_keyword, parse_let_or_const, parse_def_predecl, parse_export_in_block, parse_extern, parse_for, parse_hide, parse_keyword,
parse_module, parse_overlay_hide, parse_overlay_new, parse_overlay_use, parse_source, parse_let, parse_module, parse_overlay_hide, parse_overlay_new, parse_overlay_use,
parse_use, parse_where, parse_where_expr, LIB_DIRS_VAR, parse_source, parse_use, parse_where, parse_where_expr, LIB_DIRS_VAR,
}; };
use itertools::Itertools; use itertools::Itertools;
@ -5139,7 +5139,8 @@ pub fn parse_builtin_commands(
match name { match name {
b"def" | b"def-env" => parse_def(working_set, lite_command, None), b"def" | b"def-env" => parse_def(working_set, lite_command, None),
b"extern" => parse_extern(working_set, lite_command, None), b"extern" => parse_extern(working_set, lite_command, None),
b"let" | b"const" => parse_let_or_const(working_set, &lite_command.parts), b"let" => parse_let(working_set, &lite_command.parts),
b"const" => parse_const(working_set, &lite_command.parts),
b"mut" => parse_mut(working_set, &lite_command.parts), b"mut" => parse_mut(working_set, &lite_command.parts),
b"for" => { b"for" => {
let expr = parse_for(working_set, &lite_command.parts); let expr = parse_for(working_set, &lite_command.parts);
@ -5239,6 +5240,258 @@ pub fn parse_record(working_set: &mut StateWorkingSet, span: Span) -> Expression
} }
} }
pub fn parse_pipeline(
working_set: &mut StateWorkingSet,
pipeline: &LitePipeline,
is_subexpression: bool,
pipeline_index: usize,
) -> Pipeline {
if pipeline.commands.len() > 1 {
// Special case: allow `let` to consume the whole pipeline, eg) `let abc = "foo" | str length`
match &pipeline.commands[0] {
LiteElement::Command(_, command) if !command.parts.is_empty() => {
if working_set.get_span_contents(command.parts[0]) == b"let" {
let mut new_command = LiteCommand {
comments: vec![],
parts: command.parts.clone(),
};
for command in &pipeline.commands[1..] {
match command {
LiteElement::Command(Some(pipe_span), command) => {
new_command.parts.push(*pipe_span);
new_command.comments.extend_from_slice(&command.comments);
new_command.parts.extend_from_slice(&command.parts);
}
_ => panic!("unsupported"),
}
}
// if the 'let' is complete enough, use it, if not, fall through for now
if new_command.parts.len() > 3 {
let rhs_span = nu_protocol::span(&new_command.parts[3..]);
new_command.parts.truncate(3);
new_command.parts.push(rhs_span);
let mut pipeline =
parse_builtin_commands(working_set, &new_command, is_subexpression);
if pipeline_index == 0 {
if let Some(let_decl_id) = working_set.find_decl(b"let", &Type::Nothing)
{
for element in pipeline.elements.iter_mut() {
if let PipelineElement::Expression(
_,
Expression {
expr: Expr::Call(call),
..
},
) = element
{
if call.decl_id == let_decl_id {
// Do an expansion
if let Some(Expression {
expr: Expr::Block(block_id),
..
}) = call.positional_iter_mut().nth(1)
{
let block = working_set.get_block(*block_id);
let element =
block.pipelines[0].elements[0].clone();
if let PipelineElement::Expression(prepend, expr) =
element
{
if expr.has_in_variable(working_set) {
let new_expr = PipelineElement::Expression(
prepend,
wrap_expr_with_collect(
working_set,
&expr,
),
);
let block =
working_set.get_block_mut(*block_id);
block.pipelines[0].elements[0] = new_expr;
}
}
}
continue;
} else if element.has_in_variable(working_set)
&& !is_subexpression
{
*element =
wrap_element_with_collect(working_set, element);
}
} else if element.has_in_variable(working_set)
&& !is_subexpression
{
*element = wrap_element_with_collect(working_set, element);
}
}
}
}
return pipeline;
}
}
}
_ => {}
};
let mut output = pipeline
.commands
.iter()
.map(|command| match command {
LiteElement::Command(span, command) => {
trace!("parsing: pipeline element: command");
let expr = parse_expression(working_set, &command.parts, is_subexpression);
working_set.type_scope.add_type(expr.ty.clone());
PipelineElement::Expression(*span, expr)
}
LiteElement::Redirection(span, redirection, command) => {
trace!("parsing: pipeline element: redirection");
let expr = parse_string(working_set, command.parts[0]);
working_set.type_scope.add_type(expr.ty.clone());
PipelineElement::Redirection(*span, redirection.clone(), expr)
}
LiteElement::SeparateRedirection {
out: (out_span, out_command),
err: (err_span, err_command),
} => {
trace!("parsing: pipeline element: separate redirection");
let out_expr = parse_string(working_set, out_command.parts[0]);
working_set.type_scope.add_type(out_expr.ty.clone());
let err_expr = parse_string(working_set, err_command.parts[0]);
working_set.type_scope.add_type(err_expr.ty.clone());
PipelineElement::SeparateRedirection {
out: (*out_span, out_expr),
err: (*err_span, err_expr),
}
}
LiteElement::SameTargetRedirection {
cmd: (cmd_span, command),
redirection: (redirect_span, redirect_command),
} => {
trace!("parsing: pipeline element: same target redirection");
let expr = parse_expression(working_set, &command.parts, is_subexpression);
working_set.type_scope.add_type(expr.ty.clone());
let redirect_expr = parse_string(working_set, redirect_command.parts[0]);
working_set.type_scope.add_type(redirect_expr.ty.clone());
PipelineElement::SameTargetRedirection {
cmd: (*cmd_span, expr),
redirection: (*redirect_span, redirect_expr),
}
}
})
.collect::<Vec<PipelineElement>>();
if is_subexpression {
for element in output.iter_mut().skip(1) {
if element.has_in_variable(working_set) {
*element = wrap_element_with_collect(working_set, element);
}
}
} else {
for element in output.iter_mut() {
if element.has_in_variable(working_set) {
*element = wrap_element_with_collect(working_set, element);
}
}
}
Pipeline { elements: output }
} else {
match &pipeline.commands[0] {
LiteElement::Command(_, command)
| LiteElement::Redirection(_, _, command)
| LiteElement::SeparateRedirection {
out: (_, command), ..
} => {
let mut pipeline = parse_builtin_commands(working_set, command, is_subexpression);
if pipeline_index == 0 {
if let Some(let_decl_id) = working_set.find_decl(b"let", &Type::Nothing) {
for element in pipeline.elements.iter_mut() {
if let PipelineElement::Expression(
_,
Expression {
expr: Expr::Call(call),
..
},
) = element
{
if call.decl_id == let_decl_id {
// Do an expansion
if let Some(Expression {
expr: Expr::Block(block_id),
..
}) = call.positional_iter_mut().nth(1)
{
let block = working_set.get_block(*block_id);
let element = block.pipelines[0].elements[0].clone();
if let PipelineElement::Expression(prepend, expr) = element
{
if expr.has_in_variable(working_set) {
let new_expr = PipelineElement::Expression(
prepend,
wrap_expr_with_collect(working_set, &expr),
);
let block = working_set.get_block_mut(*block_id);
block.pipelines[0].elements[0] = new_expr;
}
}
}
continue;
} else if element.has_in_variable(working_set) && !is_subexpression
{
*element = wrap_element_with_collect(working_set, element);
}
} else if element.has_in_variable(working_set) && !is_subexpression {
*element = wrap_element_with_collect(working_set, element);
}
}
}
}
pipeline
}
LiteElement::SameTargetRedirection {
cmd: (span, command),
redirection: (redirect_span, redirect_cmd),
} => {
trace!("parsing: pipeline element: same target redirection");
let expr = parse_expression(working_set, &command.parts, is_subexpression);
working_set.type_scope.add_type(expr.ty.clone());
let redirect_expr = parse_string(working_set, redirect_cmd.parts[0]);
working_set.type_scope.add_type(redirect_expr.ty.clone());
Pipeline {
elements: vec![PipelineElement::SameTargetRedirection {
cmd: (*span, expr),
redirection: (*redirect_span, redirect_expr),
}],
}
}
}
}
}
pub fn parse_block( pub fn parse_block(
working_set: &mut StateWorkingSet, working_set: &mut StateWorkingSet,
tokens: &[Token], tokens: &[Token],
@ -5277,148 +5530,9 @@ pub fn parse_block(
let mut block = Block::new_with_capacity(lite_block.block.len()); let mut block = Block::new_with_capacity(lite_block.block.len());
for (idx, pipeline) in lite_block.block.iter().enumerate() { for (idx, lite_pipeline) in lite_block.block.iter().enumerate() {
if pipeline.commands.len() > 1 { let pipeline = parse_pipeline(working_set, lite_pipeline, is_subexpression, idx);
let mut output = pipeline block.pipelines.push(pipeline);
.commands
.iter()
.map(|command| match command {
LiteElement::Command(span, command) => {
trace!("parsing: pipeline element: command");
let expr = parse_expression(working_set, &command.parts, is_subexpression);
working_set.type_scope.add_type(expr.ty.clone());
PipelineElement::Expression(*span, expr)
}
LiteElement::Redirection(span, redirection, command) => {
trace!("parsing: pipeline element: redirection");
let expr = parse_string(working_set, command.parts[0]);
working_set.type_scope.add_type(expr.ty.clone());
PipelineElement::Redirection(*span, redirection.clone(), expr)
}
LiteElement::SeparateRedirection {
out: (out_span, out_command),
err: (err_span, err_command),
} => {
trace!("parsing: pipeline element: separate redirection");
let out_expr = parse_string(working_set, out_command.parts[0]);
working_set.type_scope.add_type(out_expr.ty.clone());
let err_expr = parse_string(working_set, err_command.parts[0]);
working_set.type_scope.add_type(err_expr.ty.clone());
PipelineElement::SeparateRedirection {
out: (*out_span, out_expr),
err: (*err_span, err_expr),
}
}
LiteElement::SameTargetRedirection {
cmd: (cmd_span, command),
redirection: (redirect_span, redirect_command),
} => {
trace!("parsing: pipeline element: same target redirection");
let expr = parse_expression(working_set, &command.parts, is_subexpression);
working_set.type_scope.add_type(expr.ty.clone());
let redirect_expr = parse_string(working_set, redirect_command.parts[0]);
working_set.type_scope.add_type(redirect_expr.ty.clone());
PipelineElement::SameTargetRedirection {
cmd: (*cmd_span, expr),
redirection: (*redirect_span, redirect_expr),
}
}
})
.collect::<Vec<PipelineElement>>();
if is_subexpression {
for element in output.iter_mut().skip(1) {
if element.has_in_variable(working_set) {
*element = wrap_element_with_collect(working_set, element);
}
}
} else {
for element in output.iter_mut() {
if element.has_in_variable(working_set) {
*element = wrap_element_with_collect(working_set, element);
}
}
}
block.pipelines.push(Pipeline { elements: output })
} else {
match &pipeline.commands[0] {
LiteElement::Command(_, command)
| LiteElement::Redirection(_, _, command)
| LiteElement::SeparateRedirection {
out: (_, command), ..
} => {
let mut pipeline =
parse_builtin_commands(working_set, command, is_subexpression);
if idx == 0 {
if let Some(let_decl_id) = working_set.find_decl(b"let", &Type::Nothing) {
for element in pipeline.elements.iter_mut() {
if let PipelineElement::Expression(
_,
Expression {
expr: Expr::Call(call),
..
},
) = element
{
if call.decl_id == let_decl_id {
// Do an expansion
if let Some(Expression {
expr: Expr::Keyword(_, _, expr),
..
}) = call.positional_iter_mut().nth(1)
{
if expr.has_in_variable(working_set) {
*expr = Box::new(wrap_expr_with_collect(
working_set,
expr,
));
}
}
continue;
} else if element.has_in_variable(working_set)
&& !is_subexpression
{
*element = wrap_element_with_collect(working_set, element);
}
} else if element.has_in_variable(working_set) && !is_subexpression
{
*element = wrap_element_with_collect(working_set, element);
}
}
}
}
block.pipelines.push(pipeline)
}
LiteElement::SameTargetRedirection {
cmd: (span, command),
redirection: (redirect_span, redirect_cmd),
} => {
trace!("parsing: pipeline element: same target redirection");
let expr = parse_expression(working_set, &command.parts, is_subexpression);
working_set.type_scope.add_type(expr.ty.clone());
let redirect_expr = parse_string(working_set, redirect_cmd.parts[0]);
working_set.type_scope.add_type(redirect_expr.ty.clone());
block.pipelines.push(Pipeline {
elements: vec![PipelineElement::SameTargetRedirection {
cmd: (*span, expr),
redirection: (*redirect_span, redirect_expr),
}],
})
}
}
}
} }
if scoped { if scoped {

View file

@ -153,11 +153,6 @@ fn long_flag() -> TestResult {
) )
} }
#[test]
fn let_not_statement() -> TestResult {
fail_test(r#"let x = "hello" | str length"#, "used in pipeline")
}
#[test] #[test]
fn for_in_missing_var_name() -> TestResult { fn for_in_missing_var_name() -> TestResult {
fail_test("for in", "missing") fail_test("for in", "missing")