nushell/crates/nu-command/src/example_test.rs

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#[cfg(test)]
use nu_protocol::engine::Command;
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#[cfg(test)]
pub fn test_examples(cmd: impl Command + 'static) {
test_examples::test_examples(cmd);
}
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#[cfg(test)]
mod test_examples {
use super::super::{
Ansi, Date, Echo, From, If, Into, IntoString, Let, LetEnv, Math, MathEuler, MathPi,
MathRound, Path, Random, Split, SplitColumn, SplitRow, Str, StrJoin, StrLength, StrReplace,
Url, Values, Wrap,
};
use crate::{Break, Each, Mut, To};
use itertools::Itertools;
use nu_protocol::{
ast::Block,
engine::{Command, EngineState, Stack, StateDelta, StateWorkingSet},
Example, PipelineData, Signature, Span, Type, Value,
};
use std::{collections::HashSet, path::PathBuf};
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pub fn test_examples(cmd: impl Command + 'static) {
let examples = cmd.examples();
let signature = cmd.signature();
let mut engine_state = make_engine_state(cmd.clone_box());
let cwd = std::env::current_dir().expect("Could not get current working directory.");
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let mut witnessed_type_transformations = HashSet::<(Type, Type)>::new();
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for example in examples {
if example.result.is_none() {
continue;
}
witnessed_type_transformations.extend(
check_example_input_and_output_types_match_command_signature(
&example,
&cwd,
&mut make_engine_state(cmd.clone_box()),
&signature.input_output_types,
signature.operates_on_cell_paths(),
signature.vectorizes_over_list,
),
);
check_example_evaluates_to_expected_output(&example, &cwd, &mut engine_state);
}
check_all_signature_input_output_types_entries_have_examples(
signature,
witnessed_type_transformations,
);
}
fn make_engine_state(cmd: Box<dyn Command>) -> Box<EngineState> {
let mut engine_state = Box::new(EngineState::new());
let delta = {
// Base functions that are needed for testing
// Try to keep this working set small to keep tests running as fast as possible
let mut working_set = StateWorkingSet::new(&engine_state);
working_set.add_decl(Box::new(Each));
working_set.add_decl(Box::new(Let));
working_set.add_decl(Box::new(Str));
working_set.add_decl(Box::new(StrJoin));
working_set.add_decl(Box::new(StrLength));
working_set.add_decl(Box::new(StrReplace));
working_set.add_decl(Box::new(From));
working_set.add_decl(Box::new(If));
working_set.add_decl(Box::new(To));
working_set.add_decl(Box::new(Into));
working_set.add_decl(Box::new(IntoString));
working_set.add_decl(Box::new(Random));
working_set.add_decl(Box::new(Split));
working_set.add_decl(Box::new(SplitColumn));
working_set.add_decl(Box::new(SplitRow));
working_set.add_decl(Box::new(Math));
working_set.add_decl(Box::new(Path));
working_set.add_decl(Box::new(Date));
working_set.add_decl(Box::new(Url));
working_set.add_decl(Box::new(Values));
working_set.add_decl(Box::new(Ansi));
working_set.add_decl(Box::new(Wrap));
working_set.add_decl(Box::new(LetEnv));
working_set.add_decl(Box::new(Echo));
working_set.add_decl(Box::new(Break));
working_set.add_decl(Box::new(Mut));
working_set.add_decl(Box::new(MathEuler));
working_set.add_decl(Box::new(MathPi));
working_set.add_decl(Box::new(MathRound));
// Adding the command that is being tested to the working set
working_set.add_decl(cmd);
working_set.render()
};
engine_state
.merge_delta(delta)
.expect("Error merging delta");
engine_state
}
fn check_example_input_and_output_types_match_command_signature(
example: &Example,
cwd: &PathBuf,
engine_state: &mut Box<EngineState>,
signature_input_output_types: &Vec<(Type, Type)>,
signature_operates_on_cell_paths: bool,
signature_vectorizes_over_list: bool,
) -> HashSet<(Type, Type)> {
let mut witnessed_type_transformations = HashSet::<(Type, Type)>::new();
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// Skip tests that don't have results to compare to
if let Some(example_output) = example.result.as_ref() {
if let Some(example_input_type) =
eval_pipeline_without_terminal_expression(example.example, cwd, engine_state)
{
let example_input_type = example_input_type.get_type();
let example_output_type = example_output.get_type();
let example_matches_signature =
signature_input_output_types
.iter()
.any(|(sig_in_type, sig_out_type)| {
example_input_type.is_subtype(sig_in_type)
&& example_output_type.is_subtype(sig_out_type)
&& {
witnessed_type_transformations
.insert((sig_in_type.clone(), sig_out_type.clone()));
true
}
});
// The example type checks as vectorization over an input list if both:
// 1. The command is declared to vectorize over list input.
// 2. There exists an entry t -> u in the type map such that the
// example_input_type is a subtype of list<t> and the
// example_output_type is a subtype of list<u>.
let example_matches_signature_via_vectorization_over_list =
signature_vectorizes_over_list
&& match &example_input_type {
Type::List(ex_in_type) => {
match signature_input_output_types.iter().find_map(
|(sig_in_type, sig_out_type)| {
if ex_in_type.is_subtype(sig_in_type) {
Some((sig_in_type, sig_out_type))
} else {
None
}
},
) {
Some((sig_in_type, sig_out_type)) => match &example_output_type
{
Type::List(ex_out_type)
if ex_out_type.is_subtype(sig_out_type) =>
{
witnessed_type_transformations.insert((
sig_in_type.clone(),
sig_out_type.clone(),
));
true
}
_ => false,
},
None => false,
}
}
_ => false,
};
// The example type checks as a cell path operation if both:
// 1. The command is declared to operate on cell paths.
// 2. The example_input_type is list or record or table, and the example
// output shape is the same as the input shape.
let example_matches_signature_via_cell_path_operation =
signature_operates_on_cell_paths
&& example_input_type.accepts_cell_paths()
// TODO: This is too permissive; it should make use of the signature.input_output_types at least.
&& example_output_type.to_shape() == example_input_type.to_shape();
if !(example_matches_signature
|| example_matches_signature_via_vectorization_over_list
|| example_matches_signature_via_cell_path_operation)
{
panic!(
"The example `{}` demonstrates a transformation of type {:?} -> {:?}. \
However, this does not match the declared signature: {:?}.{} \
For this command, `vectorizes_over_list` is {} and `operates_on_cell_paths()` is {}.",
example.example,
example_input_type,
example_output_type,
signature_input_output_types,
if signature_input_output_types.is_empty() { " (Did you forget to declare the input and output types for the command?)" } else { "" },
signature_vectorizes_over_list,
signature_operates_on_cell_paths
);
};
};
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}
witnessed_type_transformations
}
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fn check_example_evaluates_to_expected_output(
example: &Example,
cwd: &PathBuf,
engine_state: &mut Box<EngineState>,
) {
let mut stack = Stack::new();
// Set up PWD
stack.add_env_var("PWD".to_string(), Value::test_string(cwd.to_string_lossy()));
engine_state
.merge_env(&mut stack, cwd)
.expect("Error merging environment");
let empty_input = PipelineData::empty();
let result = eval(example.example, empty_input, cwd, engine_state);
// Note. Value implements PartialEq for Bool, Int, Float, String and Block
// If the command you are testing requires to compare another case, then
// you need to define its equality in the Value struct
if let Some(expected) = example.result.as_ref() {
assert_eq!(
&result, expected,
"The example result differs from the expected value",
)
}
}
fn check_all_signature_input_output_types_entries_have_examples(
signature: Signature,
witnessed_type_transformations: HashSet<(Type, Type)>,
) {
let declared_type_transformations =
HashSet::from_iter(signature.input_output_types.into_iter());
assert!(
witnessed_type_transformations.is_subset(&declared_type_transformations),
"This should not be possible (bug in test): the type transformations \
collected in the course of matching examples to the signature type map \
contain type transformations not present in the signature type map."
);
if !signature.allow_variants_without_examples {
assert_eq!(
witnessed_type_transformations,
declared_type_transformations,
"There are entries in the signature type map which do not correspond to any example: \
{:?}",
declared_type_transformations
.difference(&witnessed_type_transformations)
.map(|(s1, s2)| format!("{} -> {}", s1, s2))
.join(", ")
);
}
}
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fn eval(
contents: &str,
input: PipelineData,
cwd: &PathBuf,
engine_state: &mut Box<EngineState>,
) -> Value {
let (block, delta) = parse(contents, engine_state);
eval_block(block, input, cwd, engine_state, delta)
}
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fn parse(contents: &str, engine_state: &EngineState) -> (Block, StateDelta) {
let mut working_set = StateWorkingSet::new(engine_state);
let (output, err) =
nu_parser::parse(&mut working_set, None, contents.as_bytes(), false, &[]);
if let Some(err) = err {
panic!("test parse error in `{}`: {:?}", contents, err)
}
(output, working_set.render())
}
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fn eval_block(
block: Block,
input: PipelineData,
cwd: &PathBuf,
engine_state: &mut Box<EngineState>,
delta: StateDelta,
) -> Value {
engine_state
.merge_delta(delta)
.expect("Error merging delta");
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let mut stack = Stack::new();
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stack.add_env_var("PWD".to_string(), Value::test_string(cwd.to_string_lossy()));
Use only $nu.env.PWD for getting the current directory (#587) * Use only $nu.env.PWD for getting current directory Because setting and reading to/from std::env changes the global state shich is problematic if we call `cd` from multiple threads (e.g., in a `par-each` block). With this change, when engine-q starts, it will either inherit existing PWD env var, or create a new one from `std::env::current_dir()`. Otherwise, everything that needs the current directory will get it from `$nu.env.PWD`. Each spawned external command will get its current directory per-process which should be thread-safe. One thing left to do is to patch nu-path for this as well since it uses `std::env::current_dir()` in its expansions. * Rename nu-path functions *_with is not *_relative which should be more descriptive and frees "with" for use in a followup commit. * Clone stack every each iter; Fix some commands Cloning the stack each iteration of `each` makes sure we're not reusing PWD between iterations. Some fixes in commands to make them use the new PWD. * Post-rebase cleanup, fmt, clippy * Change back _relative to _with in nu-path funcs Didn't use the idea I had for the new "_with". * Remove leftover current_dir from rebase * Add cwd sync at merge_delta() This makes sure the parser and completer always have up-to-date cwd. * Always pass absolute path to glob in ls * Do not allow PWD a relative path; Allow recovery Makes it possible to recover PWD by proceeding with the REPL cycle. * Clone stack in each also for byte/string stream * (WIP) Start moving env variables to engine state * (WIP) Move env vars to engine state (ugly) Quick and dirty code. * (WIP) Remove unused mut and args; Fmt * (WIP) Fix dataframe tests * (WIP) Fix missing args after rebase * (WIP) Clone only env vars, not the whole stack * (WIP) Add env var clone to `for` loop as well * Minor edits * Refactor merge_delta() to include stack merging. Less error-prone than doing it manually. * Clone env for each `update` command iteration * Mark env var hidden only when found in eng. state * Fix clippt warnings * Add TODO about env var reading * Do not clone empty environment in loops * Remove extra cwd collection * Split current_dir() into str and path; Fix autocd * Make completions respect PWD env var
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match nu_engine::eval_block(engine_state, &mut stack, &block, input, true, true) {
Err(err) => panic!("test eval error in `{}`: {:?}", "TODO", err),
Ok(result) => result.into_value(Span::test_data()),
}
}
fn eval_pipeline_without_terminal_expression(
src: &str,
cwd: &PathBuf,
engine_state: &mut Box<EngineState>,
) -> Option<Value> {
let (mut block, delta) = parse(src, engine_state);
if block.pipelines.len() == 1 {
let n_expressions = block.pipelines[0].elements.len();
block.pipelines[0].elements.truncate(&n_expressions - 1);
if !block.pipelines[0].elements.is_empty() {
let empty_input = PipelineData::empty();
Some(eval_block(block, empty_input, cwd, engine_state, delta))
} else {
Some(Value::nothing(Span::test_data()))
}
} else {
// E.g. multiple semicolon-separated statements
None
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}
}
}