#[macro_use] extern crate askama; use askama::Template; #[derive(Template)] #[template(path = "simple.html")] struct VariablesTemplate<'a> { strvar: &'a str, num: i64, i18n: String, } #[test] fn test_variables() { let s = VariablesTemplate { strvar: "foo", num: 42, i18n: "Iñtërnâtiônàlizætiøn".to_string(), }; assert_eq!( s.render().unwrap(), "\nhello world, foo\n\ with number: 42\n\ Iñtërnâtiônàlizætiøn is important\n\ in vars too: Iñtërnâtiônàlizætiøn" ); } #[derive(Template)] #[template(path = "if.html")] struct IfTemplate { cond: bool, } #[test] fn test_if() { let s = IfTemplate { cond: true }; assert_eq!(s.render().unwrap(), "true"); } #[derive(Template)] #[template(path = "else.html")] struct ElseTemplate { cond: bool, } #[test] fn test_else() { let s = ElseTemplate { cond: false }; assert_eq!(s.render().unwrap(), "false"); } #[derive(Template)] #[template(path = "else-if.html")] struct ElseIfTemplate { cond: bool, check: bool, } #[test] fn test_else_if() { let s = ElseIfTemplate { cond: false, check: true }; assert_eq!(s.render().unwrap(), "checked"); } #[derive(Template)] #[template(path = "literals.html")] struct LiteralsTemplate {} #[test] fn test_literals() { let s = LiteralsTemplate {}; assert_eq!(s.render().unwrap(), "a"); } struct Holder { a: usize, } #[derive(Template)] #[template(path = "attr.html")] struct AttrTemplate { inner: Holder, } #[test] fn test_attr() { let t = AttrTemplate { inner: Holder { a: 5 } }; assert_eq!(t.render().unwrap(), "5"); } #[derive(Template)] #[template(path = "tuple-attr.html")] struct TupleAttrTemplate<'a> { tuple: (&'a str, &'a str), } #[test] fn test_tuple_attr() { let t = TupleAttrTemplate { tuple: ("foo", "bar") }; assert_eq!(t.render().unwrap(), "foobar"); } struct NestedHolder { holder: Holder, } #[derive(Template)] #[template(path = "nested-attr.html")] struct NestedAttrTemplate { inner: NestedHolder, } #[test] fn test_nested_attr() { let t = NestedAttrTemplate { inner: NestedHolder { holder: Holder { a: 5 } } }; assert_eq!(t.render().unwrap(), "5"); } #[derive(Template)] #[template(path = "option.html")] struct OptionTemplate<'a> { var: Option<&'a str>, } #[test] fn test_option() { let some = OptionTemplate { var: Some("foo") }; assert_eq!(some.render().unwrap(), "some: foo"); let none = OptionTemplate { var: None }; assert_eq!(none.render().unwrap(), "none"); } #[derive(Template)] #[template(path = "generics.html")] struct GenericsTemplate where U: std::fmt::Display { t: T, u: U, } #[test] fn test_generics() { let t = GenericsTemplate { t: "a", u: 42 }; assert_eq!(t.render().unwrap(), "a42"); } #[derive(Template)] #[template(path = "composition.html")] struct CompositionTemplate { foo: IfTemplate, } #[test] fn test_composition() { let t = CompositionTemplate { foo: IfTemplate { cond: true } }; assert_eq!(t.render().unwrap(), "composed: true"); } #[derive(PartialEq, Eq)] enum Alphabet { Alpha, } #[derive(Template)] #[template(source = "{% if x == Alphabet::Alpha %}true{% endif %}", ext = "txt")] struct PathCompareTemplate { x: Alphabet, } #[test] fn test_path_compare() { let t = PathCompareTemplate { x: Alphabet::Alpha }; assert_eq!(t.render().unwrap(), "true"); } #[derive(Template)] #[template(source = "{% for i in [\"a\", \"\"] %}{{ i }}{% endfor %}", ext = "txt")] struct ArrayTemplate {} #[test] fn test_slice_literal() { let t = ArrayTemplate {}; assert_eq!(t.render().unwrap(), "a"); } #[derive(Template)] #[template(source = " {# foo -#} ", ext = "txt")] struct CommentTemplate {} #[test] fn test_comment() { let t = CommentTemplate {}; assert_eq!(t.render().unwrap(), " "); } #[derive(Template)] #[template(source = "{% if !foo %}Hello{% endif %}", ext = "txt")] struct NegationTemplate { foo: bool, } #[test] fn test_negation() { let t = NegationTemplate { foo: false }; assert_eq!(t.render().unwrap(), "Hello"); }