use conjure_object::serde::{ser, de};
use conjure_object::serde::ser::SerializeMap as SerializeMap_;
use conjure_object::private::{UnionField_, UnionTypeField_};
use std::fmt;
#[derive(Debug, Clone, conjure_object::private::DeriveWith)]
#[derive_with(PartialEq, Eq, PartialOrd, Ord, Hash)]
pub enum EnumSeriesNode {
Literal(super::LiteralEnumSeriesNode),
Raw(super::RawEnumSeriesNode),
Resample(super::EnumResampleSeriesNode),
TimeRangeFilter(super::EnumTimeRangeFilterSeriesNode),
Union(super::EnumUnionSeriesNode),
Aggregate(super::AggregateEnumSeriesNode),
FilterTransformation(super::EnumFilterTransformationSeriesNode),
ValueMap(super::ValueMapSeriesNode),
ArraySelect(super::SelectIndexFromEnumArraySeriesNode),
ExtractFromStruct(super::ExtractEnumFromStructSeriesNode),
GenericTransform(Box<super::GenericTransformNode>),
ScalarUdf(super::ScalarUdfSeriesNode),
Unknown(Unknown),
}
impl ser::Serialize for EnumSeriesNode {
fn serialize<S>(&self, s: S) -> Result<S::Ok, S::Error>
where
S: ser::Serializer,
{
let mut map = s.serialize_map(Some(2))?;
match self {
EnumSeriesNode::Literal(value) => {
map.serialize_entry(&"type", &"literal")?;
map.serialize_entry(&"literal", value)?;
}
EnumSeriesNode::Raw(value) => {
map.serialize_entry(&"type", &"raw")?;
map.serialize_entry(&"raw", value)?;
}
EnumSeriesNode::Resample(value) => {
map.serialize_entry(&"type", &"resample")?;
map.serialize_entry(&"resample", value)?;
}
EnumSeriesNode::TimeRangeFilter(value) => {
map.serialize_entry(&"type", &"timeRangeFilter")?;
map.serialize_entry(&"timeRangeFilter", value)?;
}
EnumSeriesNode::Union(value) => {
map.serialize_entry(&"type", &"union")?;
map.serialize_entry(&"union", value)?;
}
EnumSeriesNode::Aggregate(value) => {
map.serialize_entry(&"type", &"aggregate")?;
map.serialize_entry(&"aggregate", value)?;
}
EnumSeriesNode::FilterTransformation(value) => {
map.serialize_entry(&"type", &"filterTransformation")?;
map.serialize_entry(&"filterTransformation", value)?;
}
EnumSeriesNode::ValueMap(value) => {
map.serialize_entry(&"type", &"valueMap")?;
map.serialize_entry(&"valueMap", value)?;
}
EnumSeriesNode::ArraySelect(value) => {
map.serialize_entry(&"type", &"arraySelect")?;
map.serialize_entry(&"arraySelect", value)?;
}
EnumSeriesNode::ExtractFromStruct(value) => {
map.serialize_entry(&"type", &"extractFromStruct")?;
map.serialize_entry(&"extractFromStruct", value)?;
}
EnumSeriesNode::GenericTransform(value) => {
map.serialize_entry(&"type", &"genericTransform")?;
map.serialize_entry(&"genericTransform", value)?;
}
EnumSeriesNode::ScalarUdf(value) => {
map.serialize_entry(&"type", &"scalarUdf")?;
map.serialize_entry(&"scalarUdf", value)?;
}
EnumSeriesNode::Unknown(value) => {
map.serialize_entry(&"type", &value.type_)?;
map.serialize_entry(&value.type_, &value.value)?;
}
}
map.end()
}
}
impl<'de> de::Deserialize<'de> for EnumSeriesNode {
fn deserialize<D>(d: D) -> Result<EnumSeriesNode, D::Error>
where
D: de::Deserializer<'de>,
{
d.deserialize_map(Visitor_)
}
}
struct Visitor_;
impl<'de> de::Visitor<'de> for Visitor_ {
type Value = EnumSeriesNode;
fn expecting(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
fmt.write_str("union EnumSeriesNode")
}
fn visit_map<A>(self, mut map: A) -> Result<EnumSeriesNode, A::Error>
where
A: de::MapAccess<'de>,
{
let v = match map.next_key::<UnionField_<Variant_>>()? {
Some(UnionField_::Type) => {
let variant = map.next_value()?;
let key = map.next_key()?;
match (variant, key) {
(Variant_::Literal, Some(Variant_::Literal)) => {
let value = map.next_value()?;
EnumSeriesNode::Literal(value)
}
(Variant_::Raw, Some(Variant_::Raw)) => {
let value = map.next_value()?;
EnumSeriesNode::Raw(value)
}
(Variant_::Resample, Some(Variant_::Resample)) => {
let value = map.next_value()?;
EnumSeriesNode::Resample(value)
}
(Variant_::TimeRangeFilter, Some(Variant_::TimeRangeFilter)) => {
let value = map.next_value()?;
EnumSeriesNode::TimeRangeFilter(value)
}
(Variant_::Union, Some(Variant_::Union)) => {
let value = map.next_value()?;
EnumSeriesNode::Union(value)
}
(Variant_::Aggregate, Some(Variant_::Aggregate)) => {
let value = map.next_value()?;
EnumSeriesNode::Aggregate(value)
}
(
Variant_::FilterTransformation,
Some(Variant_::FilterTransformation),
) => {
let value = map.next_value()?;
EnumSeriesNode::FilterTransformation(value)
}
(Variant_::ValueMap, Some(Variant_::ValueMap)) => {
let value = map.next_value()?;
EnumSeriesNode::ValueMap(value)
}
(Variant_::ArraySelect, Some(Variant_::ArraySelect)) => {
let value = map.next_value()?;
EnumSeriesNode::ArraySelect(value)
}
(Variant_::ExtractFromStruct, Some(Variant_::ExtractFromStruct)) => {
let value = map.next_value()?;
EnumSeriesNode::ExtractFromStruct(value)
}
(Variant_::GenericTransform, Some(Variant_::GenericTransform)) => {
let value = map.next_value()?;
EnumSeriesNode::GenericTransform(value)
}
(Variant_::ScalarUdf, Some(Variant_::ScalarUdf)) => {
let value = map.next_value()?;
EnumSeriesNode::ScalarUdf(value)
}
(Variant_::Unknown(type_), Some(Variant_::Unknown(b))) => {
if type_ == b {
let value = map.next_value()?;
EnumSeriesNode::Unknown(Unknown { type_, value })
} else {
return Err(
de::Error::invalid_value(de::Unexpected::Str(&type_), &&*b),
)
}
}
(variant, Some(key)) => {
return Err(
de::Error::invalid_value(
de::Unexpected::Str(key.as_str()),
&variant.as_str(),
),
);
}
(variant, None) => {
return Err(de::Error::missing_field(variant.as_str()));
}
}
}
Some(UnionField_::Value(variant)) => {
let value = match &variant {
Variant_::Literal => {
let value = map.next_value()?;
EnumSeriesNode::Literal(value)
}
Variant_::Raw => {
let value = map.next_value()?;
EnumSeriesNode::Raw(value)
}
Variant_::Resample => {
let value = map.next_value()?;
EnumSeriesNode::Resample(value)
}
Variant_::TimeRangeFilter => {
let value = map.next_value()?;
EnumSeriesNode::TimeRangeFilter(value)
}
Variant_::Union => {
let value = map.next_value()?;
EnumSeriesNode::Union(value)
}
Variant_::Aggregate => {
let value = map.next_value()?;
EnumSeriesNode::Aggregate(value)
}
Variant_::FilterTransformation => {
let value = map.next_value()?;
EnumSeriesNode::FilterTransformation(value)
}
Variant_::ValueMap => {
let value = map.next_value()?;
EnumSeriesNode::ValueMap(value)
}
Variant_::ArraySelect => {
let value = map.next_value()?;
EnumSeriesNode::ArraySelect(value)
}
Variant_::ExtractFromStruct => {
let value = map.next_value()?;
EnumSeriesNode::ExtractFromStruct(value)
}
Variant_::GenericTransform => {
let value = map.next_value()?;
EnumSeriesNode::GenericTransform(value)
}
Variant_::ScalarUdf => {
let value = map.next_value()?;
EnumSeriesNode::ScalarUdf(value)
}
Variant_::Unknown(type_) => {
let value = map.next_value()?;
EnumSeriesNode::Unknown(Unknown {
type_: type_.clone(),
value,
})
}
};
if map.next_key::<UnionTypeField_>()?.is_none() {
return Err(de::Error::missing_field("type"));
}
let type_variant = map.next_value::<Variant_>()?;
if variant != type_variant {
return Err(
de::Error::invalid_value(
de::Unexpected::Str(type_variant.as_str()),
&variant.as_str(),
),
);
}
value
}
None => return Err(de::Error::missing_field("type")),
};
if map.next_key::<UnionField_<Variant_>>()?.is_some() {
return Err(de::Error::invalid_length(3, &"type and value fields"));
}
Ok(v)
}
}
#[derive(PartialEq)]
enum Variant_ {
Literal,
Raw,
Resample,
TimeRangeFilter,
Union,
Aggregate,
FilterTransformation,
ValueMap,
ArraySelect,
ExtractFromStruct,
GenericTransform,
ScalarUdf,
Unknown(Box<str>),
}
impl Variant_ {
fn as_str(&self) -> &'static str {
match *self {
Variant_::Literal => "literal",
Variant_::Raw => "raw",
Variant_::Resample => "resample",
Variant_::TimeRangeFilter => "timeRangeFilter",
Variant_::Union => "union",
Variant_::Aggregate => "aggregate",
Variant_::FilterTransformation => "filterTransformation",
Variant_::ValueMap => "valueMap",
Variant_::ArraySelect => "arraySelect",
Variant_::ExtractFromStruct => "extractFromStruct",
Variant_::GenericTransform => "genericTransform",
Variant_::ScalarUdf => "scalarUdf",
Variant_::Unknown(_) => "unknown variant",
}
}
}
impl<'de> de::Deserialize<'de> for Variant_ {
fn deserialize<D>(d: D) -> Result<Variant_, D::Error>
where
D: de::Deserializer<'de>,
{
d.deserialize_str(VariantVisitor_)
}
}
struct VariantVisitor_;
impl<'de> de::Visitor<'de> for VariantVisitor_ {
type Value = Variant_;
fn expecting(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
fmt.write_str("string")
}
fn visit_str<E>(self, value: &str) -> Result<Variant_, E>
where
E: de::Error,
{
let v = match value {
"literal" => Variant_::Literal,
"raw" => Variant_::Raw,
"resample" => Variant_::Resample,
"timeRangeFilter" => Variant_::TimeRangeFilter,
"union" => Variant_::Union,
"aggregate" => Variant_::Aggregate,
"filterTransformation" => Variant_::FilterTransformation,
"valueMap" => Variant_::ValueMap,
"arraySelect" => Variant_::ArraySelect,
"extractFromStruct" => Variant_::ExtractFromStruct,
"genericTransform" => Variant_::GenericTransform,
"scalarUdf" => Variant_::ScalarUdf,
value => Variant_::Unknown(value.to_string().into_boxed_str()),
};
Ok(v)
}
}
#[derive(Debug, Clone, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub struct Unknown {
type_: Box<str>,
value: conjure_object::Any,
}
impl Unknown {
#[inline]
pub fn type_(&self) -> &str {
&self.type_
}
}