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nominal_api_conjure/conjure/objects/scout/compute/api/
compute_node.rs

1use conjure_object::serde::{ser, de};
2use conjure_object::serde::ser::SerializeMap as SerializeMap_;
3use conjure_object::private::{UnionField_, UnionTypeField_};
4use std::fmt;
5#[derive(Debug, Clone, conjure_object::private::DeriveWith)]
6#[derive_with(PartialEq, Eq, PartialOrd, Ord, Hash)]
7pub enum ComputeNode {
8    Enum(Box<super::EnumSeries>),
9    Numeric(Box<super::NumericSeries>),
10    Log(Box<super::LogSeries>),
11    Ranges(Box<super::RangeSeries>),
12    Array(Box<super::ArraySeries>),
13    Struct(Box<super::StructSeries>),
14    /// Deprecated: use `curveV2` (CurveFitV2) instead.
15    CurveFit(super::CurveFit),
16    CurveV2(super::CurveFitV2),
17    Video(super::Reference),
18    #[deprecated(note = "wrap raw references in a typed compute node.")]
19    Raw(super::Reference),
20    /// An unknown variant.
21    Unknown(Unknown),
22}
23impl ser::Serialize for ComputeNode {
24    fn serialize<S>(&self, s: S) -> Result<S::Ok, S::Error>
25    where
26        S: ser::Serializer,
27    {
28        let mut map = s.serialize_map(Some(2))?;
29        match self {
30            ComputeNode::Enum(value) => {
31                map.serialize_entry(&"type", &"enum")?;
32                map.serialize_entry(&"enum", value)?;
33            }
34            ComputeNode::Numeric(value) => {
35                map.serialize_entry(&"type", &"numeric")?;
36                map.serialize_entry(&"numeric", value)?;
37            }
38            ComputeNode::Log(value) => {
39                map.serialize_entry(&"type", &"log")?;
40                map.serialize_entry(&"log", value)?;
41            }
42            ComputeNode::Ranges(value) => {
43                map.serialize_entry(&"type", &"ranges")?;
44                map.serialize_entry(&"ranges", value)?;
45            }
46            ComputeNode::Array(value) => {
47                map.serialize_entry(&"type", &"array")?;
48                map.serialize_entry(&"array", value)?;
49            }
50            ComputeNode::Struct(value) => {
51                map.serialize_entry(&"type", &"struct")?;
52                map.serialize_entry(&"struct", value)?;
53            }
54            ComputeNode::CurveFit(value) => {
55                map.serialize_entry(&"type", &"curveFit")?;
56                map.serialize_entry(&"curveFit", value)?;
57            }
58            ComputeNode::CurveV2(value) => {
59                map.serialize_entry(&"type", &"curveV2")?;
60                map.serialize_entry(&"curveV2", value)?;
61            }
62            ComputeNode::Video(value) => {
63                map.serialize_entry(&"type", &"video")?;
64                map.serialize_entry(&"video", value)?;
65            }
66            #[allow(deprecated)]
67            ComputeNode::Raw(value) => {
68                map.serialize_entry(&"type", &"raw")?;
69                map.serialize_entry(&"raw", value)?;
70            }
71            ComputeNode::Unknown(value) => {
72                map.serialize_entry(&"type", &value.type_)?;
73                map.serialize_entry(&value.type_, &value.value)?;
74            }
75        }
76        map.end()
77    }
78}
79impl<'de> de::Deserialize<'de> for ComputeNode {
80    fn deserialize<D>(d: D) -> Result<ComputeNode, D::Error>
81    where
82        D: de::Deserializer<'de>,
83    {
84        d.deserialize_map(Visitor_)
85    }
86}
87struct Visitor_;
88impl<'de> de::Visitor<'de> for Visitor_ {
89    type Value = ComputeNode;
90    fn expecting(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
91        fmt.write_str("union ComputeNode")
92    }
93    fn visit_map<A>(self, mut map: A) -> Result<ComputeNode, A::Error>
94    where
95        A: de::MapAccess<'de>,
96    {
97        let v = match map.next_key::<UnionField_<Variant_>>()? {
98            Some(UnionField_::Type) => {
99                let variant = map.next_value()?;
100                let key = map.next_key()?;
101                match (variant, key) {
102                    (Variant_::Enum, Some(Variant_::Enum)) => {
103                        let value = map.next_value()?;
104                        ComputeNode::Enum(value)
105                    }
106                    (Variant_::Numeric, Some(Variant_::Numeric)) => {
107                        let value = map.next_value()?;
108                        ComputeNode::Numeric(value)
109                    }
110                    (Variant_::Log, Some(Variant_::Log)) => {
111                        let value = map.next_value()?;
112                        ComputeNode::Log(value)
113                    }
114                    (Variant_::Ranges, Some(Variant_::Ranges)) => {
115                        let value = map.next_value()?;
116                        ComputeNode::Ranges(value)
117                    }
118                    (Variant_::Array, Some(Variant_::Array)) => {
119                        let value = map.next_value()?;
120                        ComputeNode::Array(value)
121                    }
122                    (Variant_::Struct, Some(Variant_::Struct)) => {
123                        let value = map.next_value()?;
124                        ComputeNode::Struct(value)
125                    }
126                    (Variant_::CurveFit, Some(Variant_::CurveFit)) => {
127                        let value = map.next_value()?;
128                        ComputeNode::CurveFit(value)
129                    }
130                    (Variant_::CurveV2, Some(Variant_::CurveV2)) => {
131                        let value = map.next_value()?;
132                        ComputeNode::CurveV2(value)
133                    }
134                    (Variant_::Video, Some(Variant_::Video)) => {
135                        let value = map.next_value()?;
136                        ComputeNode::Video(value)
137                    }
138                    #[allow(deprecated)]
139                    (Variant_::Raw, Some(Variant_::Raw)) => {
140                        let value = map.next_value()?;
141                        ComputeNode::Raw(value)
142                    }
143                    (Variant_::Unknown(type_), Some(Variant_::Unknown(b))) => {
144                        if type_ == b {
145                            let value = map.next_value()?;
146                            ComputeNode::Unknown(Unknown { type_, value })
147                        } else {
148                            return Err(
149                                de::Error::invalid_value(de::Unexpected::Str(&type_), &&*b),
150                            )
151                        }
152                    }
153                    (variant, Some(key)) => {
154                        return Err(
155                            de::Error::invalid_value(
156                                de::Unexpected::Str(key.as_str()),
157                                &variant.as_str(),
158                            ),
159                        );
160                    }
161                    (variant, None) => {
162                        return Err(de::Error::missing_field(variant.as_str()));
163                    }
164                }
165            }
166            Some(UnionField_::Value(variant)) => {
167                let value = match &variant {
168                    Variant_::Enum => {
169                        let value = map.next_value()?;
170                        ComputeNode::Enum(value)
171                    }
172                    Variant_::Numeric => {
173                        let value = map.next_value()?;
174                        ComputeNode::Numeric(value)
175                    }
176                    Variant_::Log => {
177                        let value = map.next_value()?;
178                        ComputeNode::Log(value)
179                    }
180                    Variant_::Ranges => {
181                        let value = map.next_value()?;
182                        ComputeNode::Ranges(value)
183                    }
184                    Variant_::Array => {
185                        let value = map.next_value()?;
186                        ComputeNode::Array(value)
187                    }
188                    Variant_::Struct => {
189                        let value = map.next_value()?;
190                        ComputeNode::Struct(value)
191                    }
192                    Variant_::CurveFit => {
193                        let value = map.next_value()?;
194                        ComputeNode::CurveFit(value)
195                    }
196                    Variant_::CurveV2 => {
197                        let value = map.next_value()?;
198                        ComputeNode::CurveV2(value)
199                    }
200                    Variant_::Video => {
201                        let value = map.next_value()?;
202                        ComputeNode::Video(value)
203                    }
204                    Variant_::Raw => {
205                        let value = map.next_value()?;
206                        #[allow(deprecated)] ComputeNode::Raw(value)
207                    }
208                    Variant_::Unknown(type_) => {
209                        let value = map.next_value()?;
210                        ComputeNode::Unknown(Unknown {
211                            type_: type_.clone(),
212                            value,
213                        })
214                    }
215                };
216                if map.next_key::<UnionTypeField_>()?.is_none() {
217                    return Err(de::Error::missing_field("type"));
218                }
219                let type_variant = map.next_value::<Variant_>()?;
220                if variant != type_variant {
221                    return Err(
222                        de::Error::invalid_value(
223                            de::Unexpected::Str(type_variant.as_str()),
224                            &variant.as_str(),
225                        ),
226                    );
227                }
228                value
229            }
230            None => return Err(de::Error::missing_field("type")),
231        };
232        if map.next_key::<UnionField_<Variant_>>()?.is_some() {
233            return Err(de::Error::invalid_length(3, &"type and value fields"));
234        }
235        Ok(v)
236    }
237}
238#[derive(PartialEq)]
239enum Variant_ {
240    Enum,
241    Numeric,
242    Log,
243    Ranges,
244    Array,
245    Struct,
246    CurveFit,
247    CurveV2,
248    Video,
249    Raw,
250    Unknown(Box<str>),
251}
252impl Variant_ {
253    fn as_str(&self) -> &'static str {
254        match *self {
255            Variant_::Enum => "enum",
256            Variant_::Numeric => "numeric",
257            Variant_::Log => "log",
258            Variant_::Ranges => "ranges",
259            Variant_::Array => "array",
260            Variant_::Struct => "struct",
261            Variant_::CurveFit => "curveFit",
262            Variant_::CurveV2 => "curveV2",
263            Variant_::Video => "video",
264            Variant_::Raw => "raw",
265            Variant_::Unknown(_) => "unknown variant",
266        }
267    }
268}
269impl<'de> de::Deserialize<'de> for Variant_ {
270    fn deserialize<D>(d: D) -> Result<Variant_, D::Error>
271    where
272        D: de::Deserializer<'de>,
273    {
274        d.deserialize_str(VariantVisitor_)
275    }
276}
277struct VariantVisitor_;
278impl<'de> de::Visitor<'de> for VariantVisitor_ {
279    type Value = Variant_;
280    fn expecting(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
281        fmt.write_str("string")
282    }
283    fn visit_str<E>(self, value: &str) -> Result<Variant_, E>
284    where
285        E: de::Error,
286    {
287        let v = match value {
288            "enum" => Variant_::Enum,
289            "numeric" => Variant_::Numeric,
290            "log" => Variant_::Log,
291            "ranges" => Variant_::Ranges,
292            "array" => Variant_::Array,
293            "struct" => Variant_::Struct,
294            "curveFit" => Variant_::CurveFit,
295            "curveV2" => Variant_::CurveV2,
296            "video" => Variant_::Video,
297            "raw" => Variant_::Raw,
298            value => Variant_::Unknown(value.to_string().into_boxed_str()),
299        };
300        Ok(v)
301    }
302}
303///An unknown variant of the ComputeNode union.
304#[derive(Debug, Clone, PartialEq, Eq, PartialOrd, Ord, Hash)]
305pub struct Unknown {
306    type_: Box<str>,
307    value: conjure_object::Any,
308}
309impl Unknown {
310    /// Returns the unknown variant's type name.
311    #[inline]
312    pub fn type_(&self) -> &str {
313        &self.type_
314    }
315}