#![allow(clippy::type_complexity)] use std::fmt; use std::ops::Range; use askama::Template; #[derive(Template)] #[template(path = "for.html")] struct ForTemplate<'a> { strings: Vec<&'a str>, tuple_strings: Vec<(&'a str, &'a str)>, } #[test] fn test_for() { let s = ForTemplate { strings: vec!["A", "alfa", "1"], tuple_strings: vec![("B", "beta")], }; assert_eq!( s.render().unwrap(), "0. A (first)\n1. alfa\n2. 1\n\n0. B,beta (first)\n" ); } #[derive(Template)] #[template(path = "nested-for.html")] struct NestedForTemplate<'a> { seqs: Vec<&'a [&'a str]>, } #[test] fn test_nested_for() { let alpha = vec!["a", "b", "c"]; let numbers = vec!["one", "two"]; let s = NestedForTemplate { seqs: vec![&alpha, &numbers], }; assert_eq!(s.render().unwrap(), "1\n 0a1b2c2\n 0one1two"); } #[derive(Template)] #[template(path = "precedence-for.html")] struct PrecedenceTemplate<'a> { strings: Vec<&'a str>, } #[test] fn test_precedence_for() { let s = PrecedenceTemplate { strings: vec!["A", "alfa", "1"], }; assert_eq!( s.render().unwrap(), "0. A2 (first)\n1. alfa4\n2. 16 (last)\n" ); } #[derive(Template)] #[template(path = "for-range.html")] struct ForRangeTemplate { init: i32, end: i32, } #[test] fn test_for_range() { let s = ForRangeTemplate { init: -1, end: 1 }; assert_eq!( s.render().unwrap(), "foo (first)\nfoo (last)\nbar\nbar\nfoo\nbar\nbar\n" ); } #[derive(Template)] #[template(source = "{% for i in [1, 2, 3] %}{{ i }}{% endfor %}", ext = "txt")] struct ForArrayTemplate; #[test] fn test_for_array() { let t = ForArrayTemplate; assert_eq!(t.render().unwrap(), "123"); } #[derive(Template)] #[template( source = "{% for i in [1, 2, 3].iter() %}{{ i }}{% endfor %}", ext = "txt" )] struct ForMethodCallTemplate; #[test] fn test_for_method_call() { let t = ForMethodCallTemplate; assert_eq!(t.render().unwrap(), "123"); } #[derive(Template)] #[template( source = "{% for i in ::std::iter::repeat(\"a\").take(5) %}{{ i }}{% endfor %}", ext = "txt" )] struct ForPathCallTemplate; #[test] fn test_for_path_call() { assert_eq!(ForPathCallTemplate.render().unwrap(), "aaaaa"); } #[derive(Template)] #[template( source = "{% for i in [1, 2, 3, 4, 5][3..] %}{{ i }}{% endfor %}", ext = "txt" )] struct ForIndexTemplate; #[test] fn test_for_index() { let t = ForIndexTemplate; assert_eq!(t.render().unwrap(), "45"); } #[derive(Template)] #[template( source = "{% for (i, j) in (0..10).zip(10..20).zip(30..40) %}{{ i.0 }} {{ i.1 }} {{ j }} {% endfor %}", ext = "txt" )] struct ForZipRangesTemplate; #[test] fn test_for_zip_ranges() { let t = ForZipRangesTemplate; assert_eq!( t.render().unwrap(), "0 10 30 1 11 31 2 12 32 3 13 33 4 14 34 5 15 35 6 16 36 7 17 37 8 18 38 9 19 39 " ); } struct ForVecAttrVec { iterable: Vec, } #[derive(Template)] #[template( source = "{% for x in v %}{% for y in x.iterable %}{{ y }} {% endfor %}{% endfor %}", ext = "txt" )] struct ForVecAttrVecTemplate { v: Vec, } #[test] fn test_for_vec_attr_vec() { let t = ForVecAttrVecTemplate { v: vec![ ForVecAttrVec { iterable: vec![1, 2], }, ForVecAttrVec { iterable: vec![3, 4], }, ForVecAttrVec { iterable: vec![5, 6], }, ], }; assert_eq!(t.render().unwrap(), "1 2 3 4 5 6 "); } struct ForVecAttrSlice { iterable: &'static [i32], } #[derive(Template)] #[template( source = "{% for x in v %}{% for y in x.iterable %}{{ y }} {% endfor %}{% endfor %}", ext = "txt" )] struct ForVecAttrSliceTemplate { v: Vec, } #[test] fn test_for_vec_attr_slice() { let t = ForVecAttrSliceTemplate { v: vec![ ForVecAttrSlice { iterable: &[1, 2] }, ForVecAttrSlice { iterable: &[3, 4] }, ForVecAttrSlice { iterable: &[5, 6] }, ], }; assert_eq!(t.render().unwrap(), "1 2 3 4 5 6 "); } struct ForVecAttrRange { iterable: Range, } #[derive(Template)] #[template( source = "{% for x in v %}{% for y in x.iterable.clone() %}{{ y }} {% endfor %}{% endfor %}", ext = "txt" )] struct ForVecAttrRangeTemplate { v: Vec, } #[test] fn test_for_vec_attr_range() { let t = ForVecAttrRangeTemplate { v: vec![ ForVecAttrRange { iterable: 1..3 }, ForVecAttrRange { iterable: 3..5 }, ForVecAttrRange { iterable: 5..7 }, ], }; assert_eq!(t.render().unwrap(), "1 2 3 4 5 6 "); } #[derive(Template)] #[template( source = "{% for v in v %}{% let v = v %}{% for v in v.iterable %}{% let v = v %}{{ v }} {% endfor %}{% endfor %}", ext = "txt" )] struct ForVecAttrSliceShadowingTemplate { v: Vec, } #[test] fn test_for_vec_attr_slice_shadowing() { let t = ForVecAttrSliceShadowingTemplate { v: vec![ ForVecAttrSlice { iterable: &[1, 2] }, ForVecAttrSlice { iterable: &[3, 4] }, ForVecAttrSlice { iterable: &[5, 6] }, ], }; assert_eq!(t.render().unwrap(), "1 2 3 4 5 6 "); } struct NotClonable(T); impl fmt::Display for NotClonable { fn fmt(&self, formatter: &mut fmt::Formatter<'_>) -> fmt::Result { self.0.fmt(formatter) } } #[derive(Template)] #[template( source = "{% for (((a,), b), c) in v %}{{a}}{{b}}{{c}}-{% endfor %}", ext = "txt" )] struct ForDestructoringRefTupleTemplate<'a> { v: &'a [(((char,), NotClonable), &'a char)], } #[test] fn test_for_destructoring_ref_tuple() { let v = [ ((('a',), NotClonable('b')), &'c'), ((('d',), NotClonable('e')), &'f'), ((('g',), NotClonable('h')), &'i'), ]; let t = ForDestructoringRefTupleTemplate { v: &v }; assert_eq!(t.render().unwrap(), "abc-def-ghi-"); } #[derive(Template)] #[template( source = "{% for (((a,), b), c) in v %}{{a}}{{b}}{{c}}-{% endfor %}", ext = "txt" )] struct ForDestructoringTupleTemplate<'a, const N: usize> { v: [(((char,), NotClonable), &'a char); N], } #[test] fn test_for_destructoring_tuple() { let t = ForDestructoringTupleTemplate { v: [ ((('a',), NotClonable('b')), &'c'), ((('d',), NotClonable('e')), &'f'), ((('g',), NotClonable('h')), &'i'), ], }; assert_eq!(t.render().unwrap(), "abc-def-ghi-"); } #[derive(Template)] #[template( source = "{% for (i, msg) in messages.iter().enumerate() %}{{i}}={{msg}}-{% endfor %}", ext = "txt" )] struct ForEnumerateTemplate<'a> { messages: &'a [&'a str], } #[test] fn test_for_enumerate() { let t = ForEnumerateTemplate { messages: &["hello", "world", "!"], }; assert_eq!(t.render().unwrap(), "0=hello-1=world-2=!-"); } #[derive(Template)] #[template( source = "{% for v in values.iter() %}x{{v}}{% if matches!(v, x if *x==3) %}{% break %}{% endif %}y{% endfor %}", ext = "txt" )] struct Break<'a> { values: &'a [i32], } #[test] fn test_loop_break() { let t = Break { values: &[1, 2, 3, 4, 5], }; assert_eq!(t.render().unwrap(), "x1yx2yx3"); let t = Break { values: &[1, 2, 4, 5], }; assert_eq!(t.render().unwrap(), "x1yx2yx4yx5y"); } #[derive(Template)] #[template( source = "{% for v in values %}x{{v}}{% if matches!(v, x if *x==3) %}{% continue %}{% endif %}y{% endfor %}", ext = "txt" )] struct Continue<'a> { values: &'a [i32], } #[test] fn test_loop_continue() { let t = Continue { values: &[1, 2, 3, 4, 5], }; assert_eq!(t.render().unwrap(), "x1yx2yx3x4yx5y"); let t = Continue { values: &[1, 2, 4, 5], }; assert_eq!(t.render().unwrap(), "x1yx2yx4yx5y"); } #[derive(Template)] #[template(path = "for-break-continue.html")] struct BreakContinue<'a> { values: &'a [i32], } #[test] fn test_loop_break_continue() { let t = BreakContinue { values: &[1, 2, 3, 4, 5], }; assert_eq!(t.render().unwrap(), "x1yx2yx3yx4yx5y"); let t = BreakContinue { values: &[1, 2, 3, 10, 4, 5], }; assert_eq!(t.render().unwrap(), "x1yx2yx3yx10"); let t = BreakContinue { values: &[1, 2, 3, 11, 4, 5], }; assert_eq!(t.render().unwrap(), "x1yx2yx3yx11x4yx5y"); }