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denoland-deno/cli/lsp/testing/collectors.rs

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// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license.
use super::definitions::TestDefinition;
use deno_ast::swc::ast;
use deno_ast::swc::common::Span;
use deno_ast::swc::visit::Visit;
use deno_ast::swc::visit::VisitWith;
use deno_core::ModuleSpecifier;
use std::collections::HashSet;
/// Parse an arrow expression for any test steps and return them.
fn arrow_to_steps(
parent: &str,
level: usize,
arrow_expr: &ast::ArrowExpr,
) -> Option<Vec<TestDefinition>> {
if let Some((maybe_test_context, maybe_step_var)) =
parse_test_context_param(arrow_expr.params.get(0))
{
let mut collector = TestStepCollector::new(
parent.to_string(),
level,
maybe_test_context,
maybe_step_var,
);
arrow_expr.body.visit_with(&mut collector);
let steps = collector.take();
if !steps.is_empty() {
Some(steps)
} else {
None
}
} else {
None
}
}
/// Parse a function for any test steps and return them.
fn fn_to_steps(
parent: &str,
level: usize,
function: &ast::Function,
) -> Option<Vec<TestDefinition>> {
if let Some((maybe_test_context, maybe_step_var)) =
parse_test_context_param(function.params.get(0).map(|p| &p.pat))
{
let mut collector = TestStepCollector::new(
parent.to_string(),
level,
maybe_test_context,
maybe_step_var,
);
function.body.visit_with(&mut collector);
let steps = collector.take();
if !steps.is_empty() {
Some(steps)
} else {
None
}
} else {
None
}
}
/// Parse a param of a test function for the test context binding, or any
/// destructuring of a `steps` method from the test context.
fn parse_test_context_param(
param: Option<&ast::Pat>,
) -> Option<(Option<String>, Option<String>)> {
let mut maybe_test_context = None;
let mut maybe_step_var = None;
match param {
// handles `(testContext)`
Some(ast::Pat::Ident(binding_ident)) => {
maybe_test_context = Some(binding_ident.id.sym.to_string());
}
Some(ast::Pat::Object(object_pattern)) => {
for prop in &object_pattern.props {
match prop {
ast::ObjectPatProp::KeyValue(key_value_pat_prop) => {
match &key_value_pat_prop.key {
// handles `({ step: s })`
ast::PropName::Ident(ident) => {
if ident.sym.eq("step") {
if let ast::Pat::Ident(ident) =
key_value_pat_prop.value.as_ref()
{
maybe_step_var = Some(ident.id.sym.to_string());
}
break;
}
}
// handles `({ "step": s })`
ast::PropName::Str(string) => {
if string.value.eq("step") {
if let ast::Pat::Ident(ident) =
key_value_pat_prop.value.as_ref()
{
maybe_step_var = Some(ident.id.sym.to_string());
}
break;
}
}
_ => (),
}
}
// handles `({ step = something })`
ast::ObjectPatProp::Assign(assign_pat_prop)
if assign_pat_prop.key.sym.eq("step") =>
{
maybe_step_var = Some("step".to_string());
break;
}
// handles `({ ...ctx })`
ast::ObjectPatProp::Rest(rest_pat) => {
if let ast::Pat::Ident(ident) = rest_pat.arg.as_ref() {
maybe_test_context = Some(ident.id.sym.to_string());
}
break;
}
_ => (),
}
}
}
_ => return None,
}
if maybe_test_context.is_none() && maybe_step_var.is_none() {
None
} else {
Some((maybe_test_context, maybe_step_var))
}
}
/// Check a call expression of a test or test step to determine the name of the
/// test or test step as well as any sub steps.
fn check_call_expr(
parent: &str,
node: &ast::CallExpr,
level: usize,
) -> Option<(String, Option<Vec<TestDefinition>>)> {
if let Some(expr) = node.args.get(0).map(|es| es.expr.as_ref()) {
match expr {
ast::Expr::Object(obj_lit) => {
let mut maybe_name = None;
let mut steps = None;
for prop in &obj_lit.props {
if let ast::PropOrSpread::Prop(prop) = prop {
match prop.as_ref() {
ast::Prop::KeyValue(key_value_prop) => {
if let ast::PropName::Ident(ast::Ident { sym, .. }) =
&key_value_prop.key
{
match sym.to_string().as_str() {
"name" => match key_value_prop.value.as_ref() {
// matches string literals (e.g. "test name" or
// 'test name')
ast::Expr::Lit(ast::Lit::Str(lit_str)) => {
maybe_name = Some(lit_str.value.to_string());
}
// matches template literals with only a single quasis
// (e.g. `test name`)
ast::Expr::Tpl(tpl) => {
if tpl.quasis.len() == 1 {
if let Some(tpl_element) = tpl.quasis.get(0) {
maybe_name = Some(tpl_element.raw.to_string());
}
}
}
_ => (),
},
"fn" => match key_value_prop.value.as_ref() {
ast::Expr::Arrow(arrow_expr) => {
steps = arrow_to_steps(parent, level, arrow_expr);
}
ast::Expr::Fn(fn_expr) => {
steps = fn_to_steps(parent, level, &fn_expr.function);
}
_ => (),
},
_ => (),
}
}
}
ast::Prop::Method(method_prop) => {
steps = fn_to_steps(parent, level, &method_prop.function);
}
_ => (),
}
}
}
maybe_name.map(|name| (name, steps))
}
ast::Expr::Fn(fn_expr) => {
if let Some(ast::Ident { sym, .. }) = fn_expr.ident.as_ref() {
let name = sym.to_string();
let steps = fn_to_steps(parent, level, &fn_expr.function);
Some((name, steps))
} else {
None
}
}
ast::Expr::Lit(ast::Lit::Str(lit_str)) => {
let name = lit_str.value.to_string();
let mut steps = None;
match node.args.get(1).map(|es| es.expr.as_ref()) {
Some(ast::Expr::Fn(fn_expr)) => {
steps = fn_to_steps(parent, level, &fn_expr.function);
}
Some(ast::Expr::Arrow(arrow_expr)) => {
steps = arrow_to_steps(parent, level, arrow_expr);
}
_ => (),
}
Some((name, steps))
}
_ => None,
}
} else {
None
}
}
/// A structure which can be used to walk a branch of AST determining if the
/// branch contains any testing steps.
struct TestStepCollector {
steps: Vec<TestDefinition>,
level: usize,
parent: String,
maybe_test_context: Option<String>,
vars: HashSet<String>,
}
impl TestStepCollector {
fn new(
parent: String,
level: usize,
maybe_test_context: Option<String>,
maybe_step_var: Option<String>,
) -> Self {
let mut vars = HashSet::new();
if let Some(var) = maybe_step_var {
vars.insert(var);
}
Self {
steps: Vec::default(),
level,
parent,
maybe_test_context,
vars,
}
}
fn add_step<N: AsRef<str>>(
&mut self,
name: N,
span: &Span,
steps: Option<Vec<TestDefinition>>,
) {
let step = TestDefinition::new_step(
name.as_ref().to_string(),
*span,
self.parent.clone(),
self.level,
steps,
);
self.steps.push(step);
}
fn check_call_expr(&mut self, node: &ast::CallExpr, span: &Span) {
if let Some((name, steps)) =
check_call_expr(&self.parent, node, self.level + 1)
{
self.add_step(name, span, steps);
}
}
/// Move out the test definitions
pub fn take(self) -> Vec<TestDefinition> {
self.steps
}
}
impl Visit for TestStepCollector {
fn visit_call_expr(&mut self, node: &ast::CallExpr) {
if let ast::Callee::Expr(callee_expr) = &node.callee {
match callee_expr.as_ref() {
// Identify calls to identified variables
ast::Expr::Ident(ident) => {
if self.vars.contains(&ident.sym.to_string()) {
self.check_call_expr(node, &ident.span);
}
}
// Identify calls to `test.step()`
ast::Expr::Member(member_expr) => {
if let Some(test_context) = &self.maybe_test_context {
if let ast::MemberProp::Ident(ns_prop_ident) = &member_expr.prop {
if ns_prop_ident.sym.eq("step") {
if let ast::Expr::Ident(ident) = member_expr.obj.as_ref() {
if ident.sym == *test_context {
self.check_call_expr(node, &ns_prop_ident.span);
}
}
}
}
}
}
_ => (),
}
}
}
fn visit_var_decl(&mut self, node: &ast::VarDecl) {
if let Some(test_context) = &self.maybe_test_context {
for decl in &node.decls {
if let Some(init) = &decl.init {
match init.as_ref() {
// Identify destructured assignments of `step` from test context
ast::Expr::Ident(ident) => {
if ident.sym == *test_context {
if let ast::Pat::Object(object_pat) = &decl.name {
for prop in &object_pat.props {
match prop {
ast::ObjectPatProp::Assign(prop) => {
if prop.key.sym.eq("step") {
self.vars.insert(prop.key.sym.to_string());
}
}
ast::ObjectPatProp::KeyValue(prop) => {
if let ast::PropName::Ident(key_ident) = &prop.key {
if key_ident.sym.eq("step") {
if let ast::Pat::Ident(value_ident) =
&prop.value.as_ref()
{
self.vars.insert(value_ident.id.sym.to_string());
}
}
}
}
_ => (),
}
}
}
}
}
// Identify variable assignments where the init is test context
// `.step`
ast::Expr::Member(member_expr) => {
if let ast::Expr::Ident(obj_ident) = member_expr.obj.as_ref() {
if obj_ident.sym == *test_context {
if let ast::MemberProp::Ident(prop_ident) = &member_expr.prop
{
if prop_ident.sym.eq("step") {
if let ast::Pat::Ident(binding_ident) = &decl.name {
self.vars.insert(binding_ident.id.sym.to_string());
}
}
}
}
}
}
_ => (),
}
}
}
}
}
}
/// Walk an AST and determine if it contains any `Deno.test` tests.
pub struct TestCollector {
definitions: Vec<TestDefinition>,
specifier: ModuleSpecifier,
vars: HashSet<String>,
}
impl TestCollector {
pub fn new(specifier: ModuleSpecifier) -> Self {
Self {
definitions: Vec::new(),
specifier,
vars: HashSet::new(),
}
}
fn add_definition<N: AsRef<str>>(
&mut self,
name: N,
span: &Span,
steps: Option<Vec<TestDefinition>>,
) {
let definition = TestDefinition::new(
&self.specifier,
name.as_ref().to_string(),
*span,
steps,
);
self.definitions.push(definition);
}
fn check_call_expr(&mut self, node: &ast::CallExpr, span: &Span) {
if let Some((name, steps)) =
check_call_expr(self.specifier.as_str(), node, 1)
{
self.add_definition(name, span, steps);
}
}
/// Move out the test definitions
pub fn take(self) -> Vec<TestDefinition> {
self.definitions
}
}
impl Visit for TestCollector {
fn visit_call_expr(&mut self, node: &ast::CallExpr) {
if let ast::Callee::Expr(callee_expr) = &node.callee {
match callee_expr.as_ref() {
ast::Expr::Ident(ident) => {
if self.vars.contains(&ident.sym.to_string()) {
self.check_call_expr(node, &ident.span);
}
}
ast::Expr::Member(member_expr) => {
if let ast::MemberProp::Ident(ns_prop_ident) = &member_expr.prop {
if ns_prop_ident.sym.to_string() == "test" {
if let ast::Expr::Ident(ident) = member_expr.obj.as_ref() {
if ident.sym.to_string() == "Deno" {
self.check_call_expr(node, &ns_prop_ident.span);
}
}
}
}
}
_ => (),
}
}
}
fn visit_var_decl(&mut self, node: &ast::VarDecl) {
for decl in &node.decls {
if let Some(init) = &decl.init {
match init.as_ref() {
// Identify destructured assignments of `test` from `Deno`
ast::Expr::Ident(ident) => {
if ident.sym.to_string() == "Deno" {
if let ast::Pat::Object(object_pat) = &decl.name {
for prop in &object_pat.props {
match prop {
ast::ObjectPatProp::Assign(prop) => {
let name = prop.key.sym.to_string();
if name == "test" {
self.vars.insert(name);
}
}
ast::ObjectPatProp::KeyValue(prop) => {
if let ast::PropName::Ident(key_ident) = &prop.key {
if key_ident.sym.to_string() == "test" {
if let ast::Pat::Ident(value_ident) =
&prop.value.as_ref()
{
self.vars.insert(value_ident.id.sym.to_string());
}
}
}
}
_ => (),
}
}
}
}
}
// Identify variable assignments where the init is `Deno.test`
ast::Expr::Member(member_expr) => {
if let ast::Expr::Ident(obj_ident) = member_expr.obj.as_ref() {
if obj_ident.sym.to_string() == "Deno" {
if let ast::MemberProp::Ident(prop_ident) = &member_expr.prop {
if prop_ident.sym.to_string() == "test" {
if let ast::Pat::Ident(binding_ident) = &decl.name {
self.vars.insert(binding_ident.id.sym.to_string());
}
}
}
}
}
}
_ => (),
}
}
}
}
}
#[cfg(test)]
pub mod tests {
use super::*;
use deno_ast::swc::common::BytePos;
use deno_ast::swc::common::SyntaxContext;
use deno_core::resolve_url;
use std::sync::Arc;
pub fn new_span(lo: u32, hi: u32, ctxt: u32) -> Span {
Span {
lo: BytePos(lo),
hi: BytePos(hi),
ctxt: SyntaxContext::from_u32(ctxt),
}
}
#[test]
fn test_test_collector() {
let specifier = resolve_url("file:///a/example.ts").unwrap();
let source = Arc::new(
r#"
Deno.test({
name: "test a",
async fn(t) {
await t.step("a step", ({ step }) => {
await step({
name: "sub step",
fn() {}
})
});
}
});
Deno.test(async function useFnName({ step: s }) {
await s("step c", () => {});
});
Deno.test("test b", () => {});
const { test } = Deno;
test("test c", () => {});
const t = Deno.test;
t("test d", () => {});
"#
.to_string(),
);
let parsed_module = deno_ast::parse_module(deno_ast::ParseParams {
specifier: specifier.to_string(),
source: deno_ast::SourceTextInfo::new(source),
media_type: deno_ast::MediaType::TypeScript,
capture_tokens: true,
scope_analysis: true,
maybe_syntax: None,
})
.unwrap();
let mut collector = TestCollector::new(specifier);
parsed_module.module().visit_with(&mut collector);
assert_eq!(
collector.take(),
vec![
TestDefinition {
id: "cf31850c831233526df427cdfd25b6b84b2af0d6ce5f8ee1d22c465234b46348".to_string(),
level: 0,
name: "test a".to_string(),
span: new_span(12, 16, 0),
steps: Some(vec![
TestDefinition {
id: "4c7333a1e47721631224408c467f32751fe34b876cab5ec1f6ac71980ff15ad3".to_string(),
level: 1,
name: "a step".to_string(),
span: new_span(83, 87, 0),
steps: Some(vec![
TestDefinition {
id: "abf356f59139b77574089615f896a6f501c010985d95b8a93abeb0069ccb2201".to_string(),
level: 2,
name: "sub step".to_string(),
span: new_span(132, 136, 3),
steps: None,
}
])
}
]),
},
TestDefinition {
id: "86b4c821900e38fc89f24bceb0e45193608ab3f9d2a6019c7b6a5aceff5d7df2".to_string(),
level: 0,
name: "useFnName".to_string(),
span: new_span(254, 258, 0),
steps: Some(vec![
TestDefinition {
id: "67a390d0084ae5fb88f3510c470a72a553581f1d0d5ba5fa89aee7a754f3953a".to_string(),
level: 1,
name: "step c".to_string(),
span: new_span(313, 314, 4),
steps: None,
}
])
},
TestDefinition {
id: "580eda89d7f5e619774c20e13b7d07a8e77c39cba101d60565144d48faa837cb".to_string(),
level: 0,
name: "test b".to_string(),
span: new_span(358, 362, 0),
steps: None,
},
TestDefinition {
id: "0b7c6bf3cd617018d33a1bf982a08fe088c5bb54fcd5eb9e802e7c137ec1af94".to_string(),
level: 0,
name: "test c".to_string(),
span: new_span(420, 424, 1),
steps: None,
},
TestDefinition {
id: "69d9fe87f64f5b66cb8b631d4fd2064e8224b8715a049be54276c42189ff8f9f".to_string(),
level: 0,
name: "test d".to_string(),
span: new_span(480, 481, 1),
steps: None,
}
]
);
}
}