Crates.io | test-generator |
lib.rs | test-generator |
version | 0.3.1 |
source | src |
created_at | 2019-01-17 22:48:28.858985 |
updated_at | 2022-12-08 14:56:05.791931 |
description | Rust Test generator: enumerating entries according to file-system pattern and generating a test function for each entry. |
homepage | https://github.com/frehberg/test-generator.git |
repository | https://github.com/frehberg/test-generator.git |
max_upload_size | |
id | 109228 |
size | 86,322 |
This crate provides #[test_resources]
and #[bench_resources]
procedural macro attributes
that generates multiple parametrized tests using one body with different resource input parameters.
A test is generated for each resource matching the specific resource location pattern.
The following examples assume the package layout is as follows:
├── build.rs
├── Cargo.toml
├── LICENSE-APACHE
├── LICENSE-MIT
├── README.md
├── res
│ ├── set1
│ │ ├── expect.txt
│ │ └── input.txt
│ ├── set2
│ │ ├── expect.txt
│ │ └── input.txt
│ └── set3
│ ├── expect.txt
│ └── input.txt
├── src
│ └── main.rs
├── benches
│ └── mybenches.rs
└── tests
└── mytests.rs
This is the package layout of the example package,
here the tests are located in file mytests.rs
and bench-tests are located in file mybenches.rs
; the tests and benches depend
on the content of the res/
directory.
The build-script build.rs
is used to realize conditional re-runs, in case a resource-file has changed or
(more interesting) if new resource-files have been added to the sub-folder structure res/
.
test
:The following test function verify_resource(str)
shall be executed for all items matching the
glob pattern res/*/input.txt
in the resource-folder res/
.
#![cfg(test)]
extern crate test_generator;
use test_generator::test_resources;
#[test_resources("res/*/input.txt")]
fn verify_resource(resource: &str) {
assert!(std::path::Path::new(resource).exists());
}
Output from cargo test
for 3 test-input-files matching the pattern, for this example:
$ cargo test
running 3 tests
test tests::verify_resource_res_set1_input_txt ... ok
test tests::verify_resource_res_set2_input_txt ... ok
test tests::verify_resource_res_set3_input_txt ... ok
test result: ok. 3 passed; 0 failed; 0 ignored; 0 measured; 0 filtered out
bench
:#![feature(test)] // nightly feature required for API test::Bencher
extern crate test; /* required for test::Bencher */
extern crate test_generator;
use test_generator::bench_resources;
mod bench {
#[bench_resources("res/*/input.txt")]
fn measure_resource(b: &mut test::Bencher, resource: &str) {
let path = std::path::Path::new(resource);
b.iter(|| path.exists());
}
}
Output from cargo +nightly bench
for 3 bench-input-files matching the pattern, for this example:
running 3 tests
test bench::measure_resource_res_set1_input_txt ... bench: 2,492 ns/iter (+/- 4,027)
test bench::measure_resource_res_set2_input_txt ... bench: 2,345 ns/iter (+/- 2,167)
test bench::measure_resource_res_set3_input_txt ... bench: 2,269 ns/iter (+/- 1,527)
test result: ok. 0 passed; 0 failed; 0 ignored; 3 measured; 0 filtered out
The example demonstrates usage
and configuration of these macros, in combination with the crate
build-deps
monitoring for any change of these resource files and conditional rebuild.
Let's assume the following code and 3 files matching the pattern "res/*/input.txt"
#[test_resources("res/*/input.txt")]
fn verify_resource(resource: &str) {
assert!(std::path::Path::new(resource).exists());
}
the generated code for this input resource will look like
fn verify_resource(resource: &str) {
assert!(std::path::Path::new(resource).exists());
}
#[test]
#[allow(non_snake_case)]
fn verify_resource_res_set1_input_txt() { verify_resource("res/set1/input.txt".into()); }
#[test]
#[allow(non_snake_case)]
fn verify_resource_res_set2_input_txt() { verify_resource("res/set2/input.txt".into()); }
#[test]
#[allow(non_snake_case)]
fn verify_resource_res_set3_input_txt() { verify_resource("res/set3/input.txt".into()); }
Note: The trailing into()
method-call permits users to implement the Into
-Trait for auto-conversations.
The test-function-generator shall be rerun every time a new resource-file is added or one of the existing ones have been changed.
The conditional build can be realized using the crate build-deps, expanding
a glob
pattern such as res/*/input.txt
and registering these elements in cargo-monitoring list.
The user specifies a directory or a set of files, or a a filter-pattern to be watched by
cargo process shall for changes. In case of changes, the build-process of the Rust-sources is re-run.
The following diagram illustrates the integration of the build-script into the conditional cargo build-process.
The filter may be a glob-pattern containing wildcards, for example:
"res/*"
will enumerate all files/directories in directory "res/" and watching changes
"res/"
- will add the directory itself to the watch-list, triggering a rerun in case new entities are added.
"res/**/*.protobuf"
will traverse all sub-directories enumerating all protobuf files.
"res/**"
will traverse all sub-directories enumerating all directories