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denoland-deno/cli/tests/integration/coverage_tests.rs

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// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
use std::fs;
use test_util as util;
use test_util::TempDir;
use util::TestContext;
use util::TestContextBuilder;
#[test]
fn branch() {
run_coverage_text("branch", "ts");
}
#[test]
fn complex() {
run_coverage_text("complex", "ts");
}
#[test]
fn final_blankline() {
run_coverage_text("final_blankline", "js");
}
#[test]
fn no_snaps() {
no_snaps_included("no_snaps_included", "ts");
}
#[test]
fn error_if_invalid_cache() {
let context = TestContextBuilder::new().use_temp_cwd().build();
let deno_dir = context.deno_dir();
let deno_dir_path = deno_dir.path();
let tempdir = TempDir::new();
let tempdir = tempdir.path().join("cov");
let invalid_cache_path = util::testdata_path().join("coverage/invalid_cache");
let mod_before_path = util::testdata_path()
.join(&invalid_cache_path)
.join("mod_before.ts");
let mod_after_path = util::testdata_path()
.join(&invalid_cache_path)
.join("mod_after.ts");
let mod_test_path = util::testdata_path()
.join(&invalid_cache_path)
.join("mod.test.ts");
let mod_temp_path = deno_dir_path.join("mod.ts");
let mod_test_temp_path = deno_dir_path.join("mod.test.ts");
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// Write the initial mod.ts file
std::fs::copy(mod_before_path, &mod_temp_path).unwrap();
// And the test file
std::fs::copy(mod_test_path, mod_test_temp_path).unwrap();
// Generate coverage
let output = context
.new_command()
.args_vec(vec![
"test".to_string(),
"--quiet".to_string(),
format!("--coverage={}", tempdir.to_str().unwrap()),
])
.run();
output.assert_exit_code(0);
output.skip_output_check();
// Modify the file between deno test and deno coverage, thus invalidating the cache
std::fs::copy(mod_after_path, mod_temp_path).unwrap();
let output = context
.new_command()
.args_vec(vec![
"coverage".to_string(),
format!("{}/", tempdir.to_str().unwrap()),
])
.run();
output.assert_exit_code(1);
let out = output.combined_output();
// Expect error
let error = util::strip_ansi_codes(out).to_string();
assert!(error.contains("error: Missing transpiled source code"));
assert!(error.contains("Before generating coverage report, run `deno test --coverage` to ensure consistent state."));
}
fn run_coverage_text(test_name: &str, extension: &str) {
let context = TestContext::default();
let tempdir = context.deno_dir();
let tempdir = tempdir.path().join("cov");
let output = context
.new_command()
.args_vec(vec![
"test".to_string(),
"-A".to_string(),
"--quiet".to_string(),
format!("--coverage={}", tempdir.to_str().unwrap()),
format!("coverage/{test_name}_test.{extension}"),
])
.run();
output.assert_exit_code(0);
output.skip_output_check();
let output = context
.new_command()
.args_vec(vec![
"coverage".to_string(),
format!("{}/", tempdir.to_str().unwrap()),
])
.split_output()
.run();
// Verify there's no "Check" being printed
assert!(output.stderr().is_empty());
let actual = util::strip_ansi_codes(output.stdout()).to_string();
let expected = fs::read_to_string(
util::testdata_path().join(format!("coverage/{test_name}_expected.out")),
)
.unwrap();
if !util::wildcard_match(&expected, &actual) {
println!("OUTPUT\n{actual}\nOUTPUT");
println!("EXPECTED\n{expected}\nEXPECTED");
panic!("pattern match failed");
}
output.assert_exit_code(0);
let output = context
.new_command()
.args_vec(vec![
"coverage".to_string(),
"--quiet".to_string(),
"--lcov".to_string(),
format!("{}/", tempdir.to_str().unwrap()),
])
.run();
let actual = util::strip_ansi_codes(output.combined_output()).to_string();
let expected = fs::read_to_string(
util::testdata_path().join(format!("coverage/{test_name}_expected.lcov")),
)
.unwrap();
if !util::wildcard_match(&expected, &actual) {
println!("OUTPUT\n{actual}\nOUTPUT");
println!("EXPECTED\n{expected}\nEXPECTED");
panic!("pattern match failed");
}
output.assert_exit_code(0);
}
#[test]
fn multifile_coverage() {
let context = TestContext::default();
let tempdir = context.deno_dir();
let tempdir = tempdir.path().join("cov");
let output = context
.new_command()
.args_vec(vec![
"test".to_string(),
"--quiet".to_string(),
format!("--coverage={}", tempdir.to_str().unwrap()),
format!("coverage/multifile/"),
])
.run();
output.assert_exit_code(0);
output.skip_output_check();
let output = context
.new_command()
.args_vec(vec![
"coverage".to_string(),
format!("{}/", tempdir.to_str().unwrap()),
])
.split_output()
.run();
// Verify there's no "Check" being printed
assert!(output.stderr().is_empty());
let actual = util::strip_ansi_codes(output.stdout()).to_string();
let expected = fs::read_to_string(
util::testdata_path().join("coverage/multifile/expected.out"),
)
.unwrap();
if !util::wildcard_match(&expected, &actual) {
println!("OUTPUT\n{actual}\nOUTPUT");
println!("EXPECTED\n{expected}\nEXPECTED");
panic!("pattern match failed");
}
output.assert_exit_code(0);
let output = context
.new_command()
.args_vec(vec![
"coverage".to_string(),
"--quiet".to_string(),
"--lcov".to_string(),
format!("{}/", tempdir.to_str().unwrap()),
])
.run();
let actual = util::strip_ansi_codes(output.combined_output()).to_string();
let expected = fs::read_to_string(
util::testdata_path().join("coverage/multifile/expected.lcov"),
)
.unwrap();
if !util::wildcard_match(&expected, &actual) {
println!("OUTPUT\n{actual}\nOUTPUT");
println!("EXPECTED\n{expected}\nEXPECTED");
panic!("pattern match failed");
}
output.assert_exit_code(0);
}
fn no_snaps_included(test_name: &str, extension: &str) {
let context = TestContext::default();
let tempdir = context.deno_dir();
let tempdir = tempdir.path().join("cov");
let output = context
.new_command()
.args_vec(vec![
"test".to_string(),
"--quiet".to_string(),
"--allow-read".to_string(),
format!("--coverage={}", tempdir.to_str().unwrap()),
format!("coverage/no_snaps_included/{test_name}_test.{extension}"),
])
.run();
output.assert_exit_code(0);
output.skip_output_check();
let output = context
.new_command()
.args_vec(vec![
"coverage".to_string(),
"--include=no_snaps_included.ts".to_string(),
format!("{}/", tempdir.to_str().unwrap()),
])
.split_output()
.run();
// Verify there's no "Check" being printed
assert!(output.stderr().is_empty());
let actual = util::strip_ansi_codes(output.stdout()).to_string();
let expected = fs::read_to_string(
util::testdata_path().join("coverage/no_snaps_included/expected.out"),
)
.unwrap();
if !util::wildcard_match(&expected, &actual) {
println!("OUTPUT\n{actual}\nOUTPUT");
println!("EXPECTED\n{expected}\nEXPECTED");
panic!("pattern match failed");
}
output.assert_exit_code(0);
}
#[test]
fn no_transpiled_lines() {
let context = TestContext::default();
let tempdir = context.deno_dir();
let tempdir = tempdir.path().join("cov");
let output = context
.new_command()
.args_vec(vec![
"test".to_string(),
"--quiet".to_string(),
format!("--coverage={}", tempdir.to_str().unwrap()),
"coverage/no_transpiled_lines/".to_string(),
])
.run();
output.assert_exit_code(0);
output.skip_output_check();
let output = context
.new_command()
.args_vec(vec![
"coverage".to_string(),
"--include=no_transpiled_lines/index.ts".to_string(),
format!("{}/", tempdir.to_str().unwrap()),
])
.run();
let actual = util::strip_ansi_codes(output.combined_output()).to_string();
let expected = fs::read_to_string(
util::testdata_path().join("coverage/no_transpiled_lines/expected.out"),
)
.unwrap();
if !util::wildcard_match(&expected, &actual) {
println!("OUTPUT\n{actual}\nOUTPUT");
println!("EXPECTED\n{expected}\nEXPECTED");
panic!("pattern match failed");
}
output.assert_exit_code(0);
let output = context
.new_command()
.args_vec(vec![
"coverage".to_string(),
"--lcov".to_string(),
"--include=no_transpiled_lines/index.ts".to_string(),
format!("{}/", tempdir.to_str().unwrap()),
])
.run();
let actual = util::strip_ansi_codes(output.combined_output()).to_string();
let expected = fs::read_to_string(
util::testdata_path().join("coverage/no_transpiled_lines/expected.lcov"),
)
.unwrap();
if !util::wildcard_match(&expected, &actual) {
println!("OUTPUT\n{actual}\nOUTPUT");
println!("EXPECTED\n{expected}\nEXPECTED");
panic!("pattern match failed");
}
output.assert_exit_code(0);
}