use crate::common_macro::schema_imports::*;
#[test]
fn test_unary_tuple_schema() {
assert_eq!("(bool,)", <(bool,)>::declaration());
let mut defs = Default::default();
<(bool,)>::add_definitions_recursively(&mut defs);
assert_eq!(
schema_map! {
"(bool,)" => Definition::Tuple { elements: vec!["bool".to_string()] },
"bool" => Definition::Primitive(1)
},
defs
);
}
#[test]
fn simple_tuple() {
let actual_name = <(u64, core::num::NonZeroU16, String)>::declaration();
let mut actual_defs = schema_map!();
<(u64, core::num::NonZeroU16, String)>::add_definitions_recursively(&mut actual_defs);
assert_eq!("(u64, NonZeroU16, String)", actual_name);
assert_eq!(
schema_map! {
"(u64, NonZeroU16, String)" => Definition::Tuple {
elements: vec![
"u64".to_string(),
"NonZeroU16".to_string(),
"String".to_string()
]
},
"u64" => Definition::Primitive(8),
"NonZeroU16" => Definition::Primitive(2),
"String" => Definition::Sequence {
length_width: Definition::DEFAULT_LENGTH_WIDTH,
length_range: Definition::DEFAULT_LENGTH_RANGE,
elements: "u8".to_string()
},
"u8" => Definition::Primitive(1)
},
actual_defs
);
}
#[test]
fn nested_tuple() {
let actual_name = <(u64, (u8, bool), String)>::declaration();
let mut actual_defs = schema_map!();
<(u64, (u8, bool), String)>::add_definitions_recursively(&mut actual_defs);
assert_eq!("(u64, (u8, bool), String)", actual_name);
assert_eq!(
schema_map! {
"(u64, (u8, bool), String)" => Definition::Tuple { elements: vec![
"u64".to_string(),
"(u8, bool)".to_string(),
"String".to_string(),
]},
"(u8, bool)" => Definition::Tuple { elements: vec![ "u8".to_string(), "bool".to_string()]},
"u64" => Definition::Primitive(8),
"u8" => Definition::Primitive(1),
"bool" => Definition::Primitive(1),
"String" => Definition::Sequence {
length_width: Definition::DEFAULT_LENGTH_WIDTH,
length_range: Definition::DEFAULT_LENGTH_RANGE,
elements: "u8".to_string()
}
},
actual_defs
);
}