use crate::{
ast::{
Directive, Document, Field, Fragment, FragmentSpread, InlineFragment, InputValue,
Operation, Selection, VariableDefinition,
},
parser::Spanning,
validation::{ValidatorContext, Visitor},
value::ScalarValue,
Span,
};
#[doc(hidden)]
pub struct MultiVisitorNil;
#[doc(hidden)]
impl MultiVisitorNil {
pub fn with<V>(self, visitor: V) -> MultiVisitorCons<V, Self> {
MultiVisitorCons(visitor, self)
}
}
#[doc(hidden)]
pub struct MultiVisitorCons<A, B>(A, B);
impl<A, B> MultiVisitorCons<A, B> {
pub fn with<V>(self, visitor: V) -> MultiVisitorCons<V, Self> {
MultiVisitorCons(visitor, self)
}
}
impl<'a, S> Visitor<'a, S> for MultiVisitorNil where S: ScalarValue {}
impl<'a, A, B, S> Visitor<'a, S> for MultiVisitorCons<A, B>
where
S: ScalarValue,
A: Visitor<'a, S> + 'a,
B: Visitor<'a, S> + 'a,
{
fn enter_document(&mut self, ctx: &mut ValidatorContext<'a, S>, doc: &'a Document<S>) {
self.0.enter_document(ctx, doc);
self.1.enter_document(ctx, doc);
}
fn exit_document(&mut self, ctx: &mut ValidatorContext<'a, S>, doc: &'a Document<S>) {
self.0.exit_document(ctx, doc);
self.1.exit_document(ctx, doc);
}
fn enter_operation_definition(
&mut self,
ctx: &mut ValidatorContext<'a, S>,
op: &'a Spanning<Operation<S>>,
) {
self.0.enter_operation_definition(ctx, op);
self.1.enter_operation_definition(ctx, op);
}
fn exit_operation_definition(
&mut self,
ctx: &mut ValidatorContext<'a, S>,
op: &'a Spanning<Operation<S>>,
) {
self.0.exit_operation_definition(ctx, op);
self.1.exit_operation_definition(ctx, op);
}
fn enter_fragment_definition(
&mut self,
ctx: &mut ValidatorContext<'a, S>,
f: &'a Spanning<Fragment<S>>,
) {
self.0.enter_fragment_definition(ctx, f);
self.1.enter_fragment_definition(ctx, f);
}
fn exit_fragment_definition(
&mut self,
ctx: &mut ValidatorContext<'a, S>,
f: &'a Spanning<Fragment<S>>,
) {
self.0.exit_fragment_definition(ctx, f);
self.1.exit_fragment_definition(ctx, f);
}
fn enter_variable_definition(
&mut self,
ctx: &mut ValidatorContext<'a, S>,
def: &'a (Spanning<&'a str>, VariableDefinition<S>),
) {
self.0.enter_variable_definition(ctx, def);
self.1.enter_variable_definition(ctx, def);
}
fn exit_variable_definition(
&mut self,
ctx: &mut ValidatorContext<'a, S>,
def: &'a (Spanning<&'a str>, VariableDefinition<S>),
) {
self.0.exit_variable_definition(ctx, def);
self.1.exit_variable_definition(ctx, def);
}
fn enter_directive(
&mut self,
ctx: &mut ValidatorContext<'a, S>,
d: &'a Spanning<Directive<S>>,
) {
self.0.enter_directive(ctx, d);
self.1.enter_directive(ctx, d);
}
fn exit_directive(&mut self, ctx: &mut ValidatorContext<'a, S>, d: &'a Spanning<Directive<S>>) {
self.0.exit_directive(ctx, d);
self.1.exit_directive(ctx, d);
}
fn enter_argument(
&mut self,
ctx: &mut ValidatorContext<'a, S>,
arg: &'a (Spanning<&'a str>, Spanning<InputValue<S>>),
) {
self.0.enter_argument(ctx, arg);
self.1.enter_argument(ctx, arg);
}
fn exit_argument(
&mut self,
ctx: &mut ValidatorContext<'a, S>,
arg: &'a (Spanning<&'a str>, Spanning<InputValue<S>>),
) {
self.0.exit_argument(ctx, arg);
self.1.exit_argument(ctx, arg);
}
fn enter_selection_set(&mut self, ctx: &mut ValidatorContext<'a, S>, s: &'a [Selection<S>]) {
self.0.enter_selection_set(ctx, s);
self.1.enter_selection_set(ctx, s);
}
fn exit_selection_set(&mut self, ctx: &mut ValidatorContext<'a, S>, s: &'a [Selection<S>]) {
self.0.exit_selection_set(ctx, s);
self.1.exit_selection_set(ctx, s);
}
fn enter_field(&mut self, ctx: &mut ValidatorContext<'a, S>, f: &'a Spanning<Field<S>>) {
self.0.enter_field(ctx, f);
self.1.enter_field(ctx, f);
}
fn exit_field(&mut self, ctx: &mut ValidatorContext<'a, S>, f: &'a Spanning<Field<S>>) {
self.0.exit_field(ctx, f);
self.1.exit_field(ctx, f);
}
fn enter_fragment_spread(
&mut self,
ctx: &mut ValidatorContext<'a, S>,
s: &'a Spanning<FragmentSpread<S>>,
) {
self.0.enter_fragment_spread(ctx, s);
self.1.enter_fragment_spread(ctx, s);
}
fn exit_fragment_spread(
&mut self,
ctx: &mut ValidatorContext<'a, S>,
s: &'a Spanning<FragmentSpread<S>>,
) {
self.0.exit_fragment_spread(ctx, s);
self.1.exit_fragment_spread(ctx, s);
}
fn enter_inline_fragment(
&mut self,
ctx: &mut ValidatorContext<'a, S>,
f: &'a Spanning<InlineFragment<S>>,
) {
self.0.enter_inline_fragment(ctx, f);
self.1.enter_inline_fragment(ctx, f);
}
fn exit_inline_fragment(
&mut self,
ctx: &mut ValidatorContext<'a, S>,
f: &'a Spanning<InlineFragment<S>>,
) {
self.0.exit_inline_fragment(ctx, f);
self.1.exit_inline_fragment(ctx, f);
}
fn enter_null_value(&mut self, ctx: &mut ValidatorContext<'a, S>, n: SpannedInput<'a, ()>) {
self.0.enter_null_value(ctx, n);
self.1.enter_null_value(ctx, n);
}
fn exit_null_value(&mut self, ctx: &mut ValidatorContext<'a, S>, n: SpannedInput<'a, ()>) {
self.0.exit_null_value(ctx, n);
self.1.exit_null_value(ctx, n);
}
fn enter_scalar_value(&mut self, ctx: &mut ValidatorContext<'a, S>, n: SpannedInput<'a, S>) {
self.0.enter_scalar_value(ctx, n);
self.1.enter_scalar_value(ctx, n);
}
fn exit_scalar_value(&mut self, ctx: &mut ValidatorContext<'a, S>, n: SpannedInput<'a, S>) {
self.0.exit_scalar_value(ctx, n);
self.1.exit_scalar_value(ctx, n);
}
fn enter_enum_value(&mut self, ctx: &mut ValidatorContext<'a, S>, s: SpannedInput<'a, String>) {
self.0.enter_enum_value(ctx, s);
self.1.enter_enum_value(ctx, s);
}
fn exit_enum_value(&mut self, ctx: &mut ValidatorContext<'a, S>, s: SpannedInput<'a, String>) {
self.0.exit_enum_value(ctx, s);
self.1.exit_enum_value(ctx, s);
}
fn enter_variable_value(
&mut self,
ctx: &mut ValidatorContext<'a, S>,
s: SpannedInput<'a, String>,
) {
self.0.enter_variable_value(ctx, s);
self.1.enter_variable_value(ctx, s);
}
fn exit_variable_value(
&mut self,
ctx: &mut ValidatorContext<'a, S>,
s: SpannedInput<'a, String>,
) {
self.0.exit_variable_value(ctx, s);
self.1.exit_variable_value(ctx, s);
}
fn enter_list_value(
&mut self,
ctx: &mut ValidatorContext<'a, S>,
l: SpannedInput<'a, Vec<Spanning<InputValue<S>>>>,
) {
self.0.enter_list_value(ctx, l);
self.1.enter_list_value(ctx, l);
}
fn exit_list_value(
&mut self,
ctx: &mut ValidatorContext<'a, S>,
l: SpannedInput<'a, Vec<Spanning<InputValue<S>>>>,
) {
self.0.exit_list_value(ctx, l);
self.1.exit_list_value(ctx, l);
}
fn enter_object_value(&mut self, ctx: &mut ValidatorContext<'a, S>, o: SpannedObject<'a, S>) {
self.0.enter_object_value(ctx, o);
self.1.enter_object_value(ctx, o);
}
fn exit_object_value(&mut self, ctx: &mut ValidatorContext<'a, S>, o: SpannedObject<'a, S>) {
self.0.exit_object_value(ctx, o);
self.1.exit_object_value(ctx, o);
}
fn enter_object_field(
&mut self,
ctx: &mut ValidatorContext<'a, S>,
f: (SpannedInput<'a, String>, SpannedInput<'a, InputValue<S>>),
) {
self.0.enter_object_field(ctx, f);
self.1.enter_object_field(ctx, f);
}
fn exit_object_field(
&mut self,
ctx: &mut ValidatorContext<'a, S>,
f: (SpannedInput<'a, String>, SpannedInput<'a, InputValue<S>>),
) {
self.0.exit_object_field(ctx, f);
self.1.exit_object_field(ctx, f);
}
}
type SpannedInput<'a, T> = Spanning<&'a T, &'a Span>;
type SpannedObject<'a, S> = SpannedInput<'a, Vec<(Spanning<String>, Spanning<InputValue<S>>)>>;