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use crate::attribute::ExtendedAttributeList;
use crate::common::{Generics, Identifier, Parenthesized, Punctuated};
use crate::term;
use crate::Parse;
/// Parses a union of types
pub type UnionType<'a> = Parenthesized<Punctuated<UnionMemberType<'a>, term!(or)>>;
ast_types! {
/// Parses either single type or a union type
enum Type<'a> {
/// Parses one of the single types
Single(enum SingleType<'a> {
Any(term!(any)),
NonAny(NonAnyType<'a>),
}),
Union(MayBeNull<UnionType<'a>>),
}
// Parses any single non-any type
enum NonAnyType<'a> {
Promise(PromiseType<'a>),
Integer(MayBeNull<IntegerType>),
FloatingPoint(MayBeNull<FloatingPointType>),
Boolean(MayBeNull<term!(boolean)>),
Byte(MayBeNull<term!(byte)>),
Octet(MayBeNull<term!(octet)>),
ByteString(MayBeNull<term!(ByteString)>),
DOMString(MayBeNull<term!(DOMString)>),
USVString(MayBeNull<term!(USVString)>),
Sequence(MayBeNull<SequenceType<'a>>),
Object(MayBeNull<term!(object)>),
Symbol(MayBeNull<term!(symbol)>),
Error(MayBeNull<term!(Error)>),
ArrayBuffer(MayBeNull<term!(ArrayBuffer)>),
DataView(MayBeNull<term!(DataView)>),
Int8Array(MayBeNull<term!(Int8Array)>),
Int16Array(MayBeNull<term!(Int16Array)>),
Int32Array(MayBeNull<term!(Int32Array)>),
Uint8Array(MayBeNull<term!(Uint8Array)>),
Uint16Array(MayBeNull<term!(Uint16Array)>),
Uint32Array(MayBeNull<term!(Uint32Array)>),
Uint8ClampedArray(MayBeNull<term!(Uint8ClampedArray)>),
Float32Array(MayBeNull<term!(Float32Array)>),
Float64Array(MayBeNull<term!(Float64Array)>),
ArrayBufferView(MayBeNull<term!(ArrayBufferView)>),
BufferSource(MayBeNull<term!(BufferSource)>),
FrozenArrayType(MayBeNull<FrozenArrayType<'a>>),
RecordType(MayBeNull<RecordType<'a>>),
Identifier(MayBeNull<Identifier<'a>>),
}
/// Parses `sequence<Type>`
struct SequenceType<'a> {
sequence: term!(sequence),
generics: Generics<Box<Type<'a>>>,
}
/// Parses `FrozenArray<Type>`
struct FrozenArrayType<'a> {
frozen_array: term!(FrozenArray),
generics: Generics<Box<Type<'a>>>,
}
/// Parses a nullable type. Ex: `object | object??`
///
/// `??` means an actual ? not an optional requirement
#[derive(Copy)]
struct MayBeNull<T> where [T: Parse<'a>] {
type_: T,
q_mark: Option<term::QMark>,
}
/// Parses a `Promise<Type|undefined>` type
struct PromiseType<'a> {
promise: term!(Promise),
generics: Generics<Box<ReturnType<'a>>>,
}
/// Parses `unsigned? short|long|(long long)`
#[derive(Copy)]
enum IntegerType {
/// Parses `unsigned? long long`
#[derive(Copy)]
LongLong(struct LongLongType {
unsigned: Option<term!(unsigned)>,
long_long: (term!(long), term!(long)),
}),
/// Parses `unsigned? long`
#[derive(Copy)]
Long(struct LongType {
unsigned: Option<term!(unsigned)>,
long: term!(long),
}),
/// Parses `unsigned? short`
#[derive(Copy)]
Short(struct ShortType {
unsigned: Option<term!(unsigned)>,
short: term!(short),
}),
}
/// Parses `unrestricted? float|double`
#[derive(Copy)]
enum FloatingPointType {
/// Parses `unrestricted? float`
#[derive(Copy)]
Float(struct FloatType {
unrestricted: Option<term!(unrestricted)>,
float: term!(float),
}),
/// Parses `unrestricted? double`
#[derive(Copy)]
Double(struct DoubleType {
unrestricted: Option<term!(unrestricted)>,
double: term!(double),
}),
}
/// Parses `record<StringType, Type>`
struct RecordType<'a> {
record: term!(record),
generics: Generics<(Box<RecordKeyType<'a>>, term!(,), Box<Type<'a>>)>,
}
/// Parses one of the string types `ByteString|DOMString|USVString` or any other type.
enum RecordKeyType<'a> {
Byte(term!(ByteString)),
DOM(term!(DOMString)),
USV(term!(USVString)),
NonAny(NonAnyType<'a>),
}
/// Parses one of the member of a union type
enum UnionMemberType<'a> {
Single(AttributedNonAnyType<'a>),
Union(MayBeNull<UnionType<'a>>),
}
/// Parses a const type
enum ConstType<'a> {
Integer(MayBeNull<IntegerType>),
FloatingPoint(MayBeNull<FloatingPointType>),
Boolean(MayBeNull<term!(boolean)>),
Byte(MayBeNull<term!(byte)>),
Octet(MayBeNull<term!(octet)>),
Identifier(MayBeNull<Identifier<'a>>),
}
/// Parses the return type which may be `undefined` or any given Type
enum ReturnType<'a> {
Undefined(term!(undefined)),
Type(Type<'a>),
}
/// Parses `[attributes]? type`
struct AttributedType<'a> {
attributes: Option<ExtendedAttributeList<'a>>,
type_: Type<'a>,
}
/// Parses `[attributes]? type` where the type is a single non-any type
struct AttributedNonAnyType<'a> {
attributes: Option<ExtendedAttributeList<'a>>,
type_: NonAnyType<'a>,
}
}
#[cfg(test)]
mod test {
use super::*;
test!(should_parse_may_be_null { "short" =>
"";
MayBeNull<crate::types::IntegerType>;
q_mark.is_none();
});
test!(should_parse_nullable { "short?" =>
"";
MayBeNull<crate::types::IntegerType>;
q_mark.is_some();
});
test_variants!(
ReturnType {
Undefined == "undefined",
Type == "any",
}
);
test_variants!(
ConstType {
Integer == "short",
FloatingPoint == "float",
Boolean == "boolean",
Byte == "byte",
Octet == "octet",
Identifier == "name",
}
);
test_variants!(
NonAnyType {
Promise == "Promise<long>",
Integer == "long",
FloatingPoint == "float",
Boolean == "boolean",
Byte == "byte",
Octet == "octet",
ByteString == "ByteString",
DOMString == "DOMString",
USVString == "USVString",
Sequence == "sequence<short>",
Object == "object",
Symbol == "symbol",
Error == "Error",
ArrayBuffer == "ArrayBuffer",
DataView == "DataView",
Int8Array == "Int8Array",
Int16Array == "Int16Array",
Int32Array == "Int32Array",
Uint8Array == "Uint8Array",
Uint16Array == "Uint16Array",
Uint32Array == "Uint32Array",
Uint8ClampedArray == "Uint8ClampedArray",
Float32Array == "Float32Array",
Float64Array == "Float64Array",
ArrayBufferView == "ArrayBufferView",
BufferSource == "BufferSource",
FrozenArrayType == "FrozenArray<short>",
RecordType == "record<DOMString, short>",
Identifier == "mango"
}
);
test_variants!(
UnionMemberType {
Single == "byte",
Union == "([Clamp] unsigned long or byte)"
}
);
test_variants!(
RecordKeyType {
DOM == "DOMString",
USV == "USVString",
Byte == "ByteString"
}
);
test!(should_parse_record_type { "record<DOMString, short>" =>
"";
RecordType;
});
test!(should_parse_record_type_alt_types { "record<u64, short>" =>
"";
RecordType;
});
test!(should_parse_double_type { "double" =>
"";
DoubleType;
});
test!(should_parse_float_type { "float" =>
"";
FloatType;
});
test_variants!(
FloatingPointType {
Float == "float",
Double == "double"
}
);
test!(should_parse_long_long_type { "long long" =>
"";
LongLongType;
});
test!(should_parse_long_type { "long" =>
"";
LongType;
});
test!(should_parse_short_type { "short" =>
"";
ShortType;
});
test_variants!(
IntegerType {
Short == "short",
Long == "long",
LongLong == "long long"
}
);
test!(should_parse_promise_type { "Promise<short>" =>
"";
PromiseType;
});
test!(should_parse_frozen_array_type { "FrozenArray<short>" =>
"";
FrozenArrayType;
});
test!(should_parse_sequence_type { "sequence<short>" =>
"";
SequenceType;
});
test_variants!(
SingleType {
Any == "any",
NonAny == "Promise<short>",
}
);
test_variants!(
Type {
Single == "short",
Union == "(short or float)"
}
);
test!(should_parse_attributed_type { "[Named] short" =>
"";
AttributedType;
attributes.is_some();
});
test!(should_parse_type_as_identifier { "DOMStringMap" =>
// if type is not parsed as identifier, it is parsed as `DOMString` and 'Map' is left
"";
crate::types::Type;
});
#[test]
fn should_parse_union_member_type_attributed_union() {
use crate::types::UnionMemberType;
let (rem, parsed) = UnionMemberType::parse("([Clamp] byte or [Named] byte)").unwrap();
assert_eq!(rem, "");
match parsed {
UnionMemberType::Union(MayBeNull {
type_:
Parenthesized {
body: Punctuated { list, .. },
..
},
..
}) => {
assert_eq!(list.len(), 2);
match list[0] {
UnionMemberType::Single(AttributedNonAnyType { ref attributes, .. }) => {
assert!(attributes.is_some());
}
_ => {
panic!("Failed to parse list[0] attributes");
}
};
match list[1] {
UnionMemberType::Single(AttributedNonAnyType { ref attributes, .. }) => {
assert!(attributes.is_some());
}
_ => {
panic!("Failed to parse list[1] attributes");
}
};
}
_ => {
panic!("Failed to parse");
}
}
}
}