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#![allow(clippy::from_over_into)]
use rowan::{GreenToken, SyntaxKind};
use crate::{ast, ast::AstNode, SyntaxNode, TokenText};
impl ast::Name {
pub fn text(&self) -> TokenText {
text_of_first_token(self.syntax())
}
}
impl ast::Variable {
pub fn text(&self) -> TokenText {
self.name()
.expect("Cannot get variable's NAME token")
.text()
}
}
impl ast::EnumValue {
pub fn text(&self) -> TokenText {
self.name()
.expect("Cannot get enum value's NAME token")
.text()
}
}
impl ast::DirectiveLocation {
pub fn text(self) -> Option<TokenText> {
let txt = if self.query_token().is_some() {
Some("QUERY")
} else if self.mutation_token().is_some() {
Some("MUTATION")
} else if self.subscription_token().is_some() {
Some("SUBSCRIPTION")
} else if self.field_token().is_some() {
Some("FIELD")
} else if self.fragment_definition_token().is_some() {
Some("FRAGMENT_DEFINITION")
} else if self.fragment_spread_token().is_some() {
Some("FRAGMENT_SPREAD")
} else if self.inline_fragment_token().is_some() {
Some("INLINE_FRAGMENT")
} else if self.variable_definition_token().is_some() {
Some("VARIABLE_DEFINITION")
} else if self.schema_token().is_some() {
Some("SCHEMA")
} else if self.scalar_token().is_some() {
Some("SCALAR")
} else if self.object_token().is_some() {
Some("OBJECT")
} else if self.field_definition_token().is_some() {
Some("FIELD_DEFINITION")
} else if self.argument_definition_token().is_some() {
Some("ARGUMENT_DEFINITION")
} else if self.interface_token().is_some() {
Some("INTERFACE")
} else if self.union_token().is_some() {
Some("UNION")
} else if self.enum_token().is_some() {
Some("ENUM")
} else if self.enum_value_token().is_some() {
Some("ENUM_VALUE")
} else if self.input_object_token().is_some() {
Some("INPUT_OBJECT")
} else if self.input_field_definition_token().is_some() {
Some("INPUT_FIELD_DEFINITION")
} else {
None
};
txt.map(|txt| {
TokenText(GreenToken::new(
SyntaxKind(crate::SyntaxKind::DIRECTIVE_LOCATION as u16),
txt,
))
})
}
}
impl Into<String> for ast::StringValue {
fn into(self) -> String {
let text = text_of_first_token(self.syntax());
text.trim_start_matches('"')
.trim_end_matches('"')
.to_string()
}
}
impl Into<i32> for ast::IntValue {
fn into(self) -> i32 {
let text = text_of_first_token(self.syntax());
text.parse().expect("Cannot parse IntValue")
}
}
impl Into<f64> for ast::FloatValue {
fn into(self) -> f64 {
let text = text_of_first_token(self.syntax());
text.parse().expect("Cannot parse FloatValue")
}
}
impl Into<bool> for ast::BooleanValue {
fn into(self) -> bool {
let text = text_of_first_token(self.syntax());
text.parse().expect("Cannot parse BooleanValue")
}
}
fn text_of_first_token(node: &SyntaxNode) -> TokenText {
let first_token = node
.green()
.children()
.next()
.and_then(|it| it.into_token())
.unwrap()
.to_owned();
TokenText(first_token)
}
