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nominal_api_conjure/conjure/objects/scout/compute/resolved/api/
resolved_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 ResolvedNode {
8    Ranges(super::SummarizeRangesNode),
9    Series(super::SummarizeSeriesNode),
10    Value(Box<super::SelectValueNode>),
11    Cartesian(super::SummarizeCartesianNode),
12    Cartesian3d(super::SummarizeCartesian3dNode),
13    Frequency(Box<super::FrequencyDomainNode>),
14    FrequencyV2(Box<super::FrequencyDomainNodeV2>),
15    Histogram(Box<super::HistogramNode>),
16    Curve(super::CurveFitV2Node),
17    CurveV2(super::CurveFitV2Node),
18    Multivariate(super::SummarizeMultivariateNode),
19    /// An unknown variant.
20    Unknown(Unknown),
21}
22impl ser::Serialize for ResolvedNode {
23    fn serialize<S>(&self, s: S) -> Result<S::Ok, S::Error>
24    where
25        S: ser::Serializer,
26    {
27        let mut map = s.serialize_map(Some(2))?;
28        match self {
29            ResolvedNode::Ranges(value) => {
30                map.serialize_entry(&"type", &"ranges")?;
31                map.serialize_entry(&"ranges", value)?;
32            }
33            ResolvedNode::Series(value) => {
34                map.serialize_entry(&"type", &"series")?;
35                map.serialize_entry(&"series", value)?;
36            }
37            ResolvedNode::Value(value) => {
38                map.serialize_entry(&"type", &"value")?;
39                map.serialize_entry(&"value", value)?;
40            }
41            ResolvedNode::Cartesian(value) => {
42                map.serialize_entry(&"type", &"cartesian")?;
43                map.serialize_entry(&"cartesian", value)?;
44            }
45            ResolvedNode::Cartesian3d(value) => {
46                map.serialize_entry(&"type", &"cartesian3d")?;
47                map.serialize_entry(&"cartesian3d", value)?;
48            }
49            ResolvedNode::Frequency(value) => {
50                map.serialize_entry(&"type", &"frequency")?;
51                map.serialize_entry(&"frequency", value)?;
52            }
53            ResolvedNode::FrequencyV2(value) => {
54                map.serialize_entry(&"type", &"frequencyV2")?;
55                map.serialize_entry(&"frequencyV2", value)?;
56            }
57            ResolvedNode::Histogram(value) => {
58                map.serialize_entry(&"type", &"histogram")?;
59                map.serialize_entry(&"histogram", value)?;
60            }
61            ResolvedNode::Curve(value) => {
62                map.serialize_entry(&"type", &"curve")?;
63                map.serialize_entry(&"curve", value)?;
64            }
65            ResolvedNode::CurveV2(value) => {
66                map.serialize_entry(&"type", &"curveV2")?;
67                map.serialize_entry(&"curveV2", value)?;
68            }
69            ResolvedNode::Multivariate(value) => {
70                map.serialize_entry(&"type", &"multivariate")?;
71                map.serialize_entry(&"multivariate", value)?;
72            }
73            ResolvedNode::Unknown(value) => {
74                map.serialize_entry(&"type", &value.type_)?;
75                map.serialize_entry(&value.type_, &value.value)?;
76            }
77        }
78        map.end()
79    }
80}
81impl<'de> de::Deserialize<'de> for ResolvedNode {
82    fn deserialize<D>(d: D) -> Result<ResolvedNode, D::Error>
83    where
84        D: de::Deserializer<'de>,
85    {
86        d.deserialize_map(Visitor_)
87    }
88}
89struct Visitor_;
90impl<'de> de::Visitor<'de> for Visitor_ {
91    type Value = ResolvedNode;
92    fn expecting(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
93        fmt.write_str("union ResolvedNode")
94    }
95    fn visit_map<A>(self, mut map: A) -> Result<ResolvedNode, A::Error>
96    where
97        A: de::MapAccess<'de>,
98    {
99        let v = match map.next_key::<UnionField_<Variant_>>()? {
100            Some(UnionField_::Type) => {
101                let variant = map.next_value()?;
102                let key = map.next_key()?;
103                match (variant, key) {
104                    (Variant_::Ranges, Some(Variant_::Ranges)) => {
105                        let value = map.next_value()?;
106                        ResolvedNode::Ranges(value)
107                    }
108                    (Variant_::Series, Some(Variant_::Series)) => {
109                        let value = map.next_value()?;
110                        ResolvedNode::Series(value)
111                    }
112                    (Variant_::Value, Some(Variant_::Value)) => {
113                        let value = map.next_value()?;
114                        ResolvedNode::Value(value)
115                    }
116                    (Variant_::Cartesian, Some(Variant_::Cartesian)) => {
117                        let value = map.next_value()?;
118                        ResolvedNode::Cartesian(value)
119                    }
120                    (Variant_::Cartesian3d, Some(Variant_::Cartesian3d)) => {
121                        let value = map.next_value()?;
122                        ResolvedNode::Cartesian3d(value)
123                    }
124                    (Variant_::Frequency, Some(Variant_::Frequency)) => {
125                        let value = map.next_value()?;
126                        ResolvedNode::Frequency(value)
127                    }
128                    (Variant_::FrequencyV2, Some(Variant_::FrequencyV2)) => {
129                        let value = map.next_value()?;
130                        ResolvedNode::FrequencyV2(value)
131                    }
132                    (Variant_::Histogram, Some(Variant_::Histogram)) => {
133                        let value = map.next_value()?;
134                        ResolvedNode::Histogram(value)
135                    }
136                    (Variant_::Curve, Some(Variant_::Curve)) => {
137                        let value = map.next_value()?;
138                        ResolvedNode::Curve(value)
139                    }
140                    (Variant_::CurveV2, Some(Variant_::CurveV2)) => {
141                        let value = map.next_value()?;
142                        ResolvedNode::CurveV2(value)
143                    }
144                    (Variant_::Multivariate, Some(Variant_::Multivariate)) => {
145                        let value = map.next_value()?;
146                        ResolvedNode::Multivariate(value)
147                    }
148                    (Variant_::Unknown(type_), Some(Variant_::Unknown(b))) => {
149                        if type_ == b {
150                            let value = map.next_value()?;
151                            ResolvedNode::Unknown(Unknown { type_, value })
152                        } else {
153                            return Err(
154                                de::Error::invalid_value(de::Unexpected::Str(&type_), &&*b),
155                            )
156                        }
157                    }
158                    (variant, Some(key)) => {
159                        return Err(
160                            de::Error::invalid_value(
161                                de::Unexpected::Str(key.as_str()),
162                                &variant.as_str(),
163                            ),
164                        );
165                    }
166                    (variant, None) => {
167                        return Err(de::Error::missing_field(variant.as_str()));
168                    }
169                }
170            }
171            Some(UnionField_::Value(variant)) => {
172                let value = match &variant {
173                    Variant_::Ranges => {
174                        let value = map.next_value()?;
175                        ResolvedNode::Ranges(value)
176                    }
177                    Variant_::Series => {
178                        let value = map.next_value()?;
179                        ResolvedNode::Series(value)
180                    }
181                    Variant_::Value => {
182                        let value = map.next_value()?;
183                        ResolvedNode::Value(value)
184                    }
185                    Variant_::Cartesian => {
186                        let value = map.next_value()?;
187                        ResolvedNode::Cartesian(value)
188                    }
189                    Variant_::Cartesian3d => {
190                        let value = map.next_value()?;
191                        ResolvedNode::Cartesian3d(value)
192                    }
193                    Variant_::Frequency => {
194                        let value = map.next_value()?;
195                        ResolvedNode::Frequency(value)
196                    }
197                    Variant_::FrequencyV2 => {
198                        let value = map.next_value()?;
199                        ResolvedNode::FrequencyV2(value)
200                    }
201                    Variant_::Histogram => {
202                        let value = map.next_value()?;
203                        ResolvedNode::Histogram(value)
204                    }
205                    Variant_::Curve => {
206                        let value = map.next_value()?;
207                        ResolvedNode::Curve(value)
208                    }
209                    Variant_::CurveV2 => {
210                        let value = map.next_value()?;
211                        ResolvedNode::CurveV2(value)
212                    }
213                    Variant_::Multivariate => {
214                        let value = map.next_value()?;
215                        ResolvedNode::Multivariate(value)
216                    }
217                    Variant_::Unknown(type_) => {
218                        let value = map.next_value()?;
219                        ResolvedNode::Unknown(Unknown {
220                            type_: type_.clone(),
221                            value,
222                        })
223                    }
224                };
225                if map.next_key::<UnionTypeField_>()?.is_none() {
226                    return Err(de::Error::missing_field("type"));
227                }
228                let type_variant = map.next_value::<Variant_>()?;
229                if variant != type_variant {
230                    return Err(
231                        de::Error::invalid_value(
232                            de::Unexpected::Str(type_variant.as_str()),
233                            &variant.as_str(),
234                        ),
235                    );
236                }
237                value
238            }
239            None => return Err(de::Error::missing_field("type")),
240        };
241        if map.next_key::<UnionField_<Variant_>>()?.is_some() {
242            return Err(de::Error::invalid_length(3, &"type and value fields"));
243        }
244        Ok(v)
245    }
246}
247#[derive(PartialEq)]
248enum Variant_ {
249    Ranges,
250    Series,
251    Value,
252    Cartesian,
253    Cartesian3d,
254    Frequency,
255    FrequencyV2,
256    Histogram,
257    Curve,
258    CurveV2,
259    Multivariate,
260    Unknown(Box<str>),
261}
262impl Variant_ {
263    fn as_str(&self) -> &'static str {
264        match *self {
265            Variant_::Ranges => "ranges",
266            Variant_::Series => "series",
267            Variant_::Value => "value",
268            Variant_::Cartesian => "cartesian",
269            Variant_::Cartesian3d => "cartesian3d",
270            Variant_::Frequency => "frequency",
271            Variant_::FrequencyV2 => "frequencyV2",
272            Variant_::Histogram => "histogram",
273            Variant_::Curve => "curve",
274            Variant_::CurveV2 => "curveV2",
275            Variant_::Multivariate => "multivariate",
276            Variant_::Unknown(_) => "unknown variant",
277        }
278    }
279}
280impl<'de> de::Deserialize<'de> for Variant_ {
281    fn deserialize<D>(d: D) -> Result<Variant_, D::Error>
282    where
283        D: de::Deserializer<'de>,
284    {
285        d.deserialize_str(VariantVisitor_)
286    }
287}
288struct VariantVisitor_;
289impl<'de> de::Visitor<'de> for VariantVisitor_ {
290    type Value = Variant_;
291    fn expecting(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
292        fmt.write_str("string")
293    }
294    fn visit_str<E>(self, value: &str) -> Result<Variant_, E>
295    where
296        E: de::Error,
297    {
298        let v = match value {
299            "ranges" => Variant_::Ranges,
300            "series" => Variant_::Series,
301            "value" => Variant_::Value,
302            "cartesian" => Variant_::Cartesian,
303            "cartesian3d" => Variant_::Cartesian3d,
304            "frequency" => Variant_::Frequency,
305            "frequencyV2" => Variant_::FrequencyV2,
306            "histogram" => Variant_::Histogram,
307            "curve" => Variant_::Curve,
308            "curveV2" => Variant_::CurveV2,
309            "multivariate" => Variant_::Multivariate,
310            value => Variant_::Unknown(value.to_string().into_boxed_str()),
311        };
312        Ok(v)
313    }
314}
315///An unknown variant of the ResolvedNode union.
316#[derive(Debug, Clone, PartialEq, Eq, PartialOrd, Ord, Hash)]
317pub struct Unknown {
318    type_: Box<str>,
319    value: conjure_object::Any,
320}
321impl Unknown {
322    /// Returns the unknown variant's type name.
323    #[inline]
324    pub fn type_(&self) -> &str {
325        &self.type_
326    }
327}