rig/
one_or_many.rs

1use serde::de::{self, Deserializer, MapAccess, SeqAccess, Visitor};
2use serde::ser::{SerializeSeq, Serializer};
3use serde::{Deserialize, Serialize};
4use std::convert::Infallible;
5use std::fmt;
6use std::marker::PhantomData;
7use std::str::FromStr;
8
9/// Struct containing either a single item or a list of items of type T.
10/// If a single item is present, `first` will contain it and `rest` will be empty.
11/// If multiple items are present, `first` will contain the first item and `rest` will contain the rest.
12/// IMPORTANT: this struct cannot be created with an empty vector.
13/// OneOrMany objects can only be created using OneOrMany::from() or OneOrMany::try_from().
14#[derive(PartialEq, Eq, Debug, Clone)]
15pub struct OneOrMany<T> {
16    /// First item in the list.
17    first: T,
18    /// Rest of the items in the list.
19    rest: Vec<T>,
20}
21
22/// Error type for when trying to create a OneOrMany object with an empty vector.
23#[derive(Debug, thiserror::Error)]
24#[error("Cannot create OneOrMany with an empty vector.")]
25pub struct EmptyListError;
26
27impl<T: Clone> OneOrMany<T> {
28    /// Get the first item in the list.
29    pub fn first(&self) -> T {
30        self.first.clone()
31    }
32
33    /// Get the rest of the items in the list (excluding the first one).
34    pub fn rest(&self) -> Vec<T> {
35        self.rest.clone()
36    }
37
38    /// After `OneOrMany<T>` is created, add an item of type T to the `rest`.
39    pub fn push(&mut self, item: T) {
40        self.rest.push(item);
41    }
42
43    /// After `OneOrMany<T>` is created, insert an item of type T at an index.
44    pub fn insert(&mut self, index: usize, item: T) {
45        if index == 0 {
46            let old_first = std::mem::replace(&mut self.first, item);
47            self.rest.insert(0, old_first);
48        } else {
49            self.rest.insert(index - 1, item);
50        }
51    }
52
53    /// Length of all items in `OneOrMany<T>`.
54    pub fn len(&self) -> usize {
55        1 + self.rest.len()
56    }
57
58    /// If `OneOrMany<T>` is empty. This will always be false because you cannot create an empty `OneOrMany<T>`.
59    /// This method is required when the method `len` exists.
60    pub fn is_empty(&self) -> bool {
61        false
62    }
63
64    /// Create a `OneOrMany` object with a single item of any type.
65    pub fn one(item: T) -> Self {
66        OneOrMany {
67            first: item,
68            rest: vec![],
69        }
70    }
71
72    /// Create a `OneOrMany` object with a vector of items of any type.
73    pub fn many<I>(items: I) -> Result<Self, EmptyListError>
74    where
75        I: IntoIterator<Item = T>,
76    {
77        let mut iter = items.into_iter();
78        Ok(OneOrMany {
79            first: match iter.next() {
80                Some(item) => item,
81                None => return Err(EmptyListError),
82            },
83            rest: iter.collect(),
84        })
85    }
86
87    /// Merge a list of OneOrMany items into a single OneOrMany item.
88    pub fn merge<I>(one_or_many_items: I) -> Result<Self, EmptyListError>
89    where
90        I: IntoIterator<Item = OneOrMany<T>>,
91    {
92        let items = one_or_many_items
93            .into_iter()
94            .flat_map(|one_or_many| one_or_many.into_iter())
95            .collect::<Vec<_>>();
96
97        OneOrMany::many(items)
98    }
99
100    /// Specialized map function for OneOrMany objects.
101    ///
102    /// Since OneOrMany objects have *atleast* 1 item, using `.collect::<Vec<_>>()` and
103    /// `OneOrMany::many()` is fallible resulting in unergonomic uses of `.expect` or `.unwrap`.
104    /// This function bypasses those hurdles by directly constructing the `OneOrMany` struct.
105    pub(crate) fn map<U, F: FnMut(T) -> U>(self, mut op: F) -> OneOrMany<U> {
106        OneOrMany {
107            first: op(self.first),
108            rest: self.rest.into_iter().map(op).collect(),
109        }
110    }
111
112    /// Specialized try map function for OneOrMany objects.
113    ///
114    /// Same as `OneOrMany::map` but fallible.
115    pub(crate) fn try_map<U, E, F: FnMut(T) -> Result<U, E>>(
116        self,
117        mut op: F,
118    ) -> Result<OneOrMany<U>, E> {
119        Ok(OneOrMany {
120            first: op(self.first)?,
121            rest: self
122                .rest
123                .into_iter()
124                .map(op)
125                .collect::<Result<Vec<_>, E>>()?,
126        })
127    }
128
129    pub fn iter(&self) -> Iter<T> {
130        Iter {
131            first: Some(&self.first),
132            rest: self.rest.iter(),
133        }
134    }
135
136    pub fn iter_mut(&mut self) -> IterMut<'_, T> {
137        IterMut {
138            first: Some(&mut self.first),
139            rest: self.rest.iter_mut(),
140        }
141    }
142}
143
144// ================================================================
145// Implementations of Iterator for OneOrMany
146//   - OneOrMany<T>::iter() -> iterate over references of T objects
147//   - OneOrMany<T>::into_iter() -> iterate over owned T objects
148//   - OneOrMany<T>::iter_mut() -> iterate over mutable references of T objects
149// ================================================================
150
151/// Struct returned by call to `OneOrMany::iter()`.
152pub struct Iter<'a, T> {
153    // References.
154    first: Option<&'a T>,
155    rest: std::slice::Iter<'a, T>,
156}
157
158/// Implement `Iterator` for `Iter<T>`.
159/// The Item type of the `Iterator` trait is a reference of `T`.
160impl<'a, T> Iterator for Iter<'a, T> {
161    type Item = &'a T;
162
163    fn next(&mut self) -> Option<Self::Item> {
164        if let Some(first) = self.first.take() {
165            Some(first)
166        } else {
167            self.rest.next()
168        }
169    }
170}
171
172/// Struct returned by call to `OneOrMany::into_iter()`.
173pub struct IntoIter<T> {
174    // Owned.
175    first: Option<T>,
176    rest: std::vec::IntoIter<T>,
177}
178
179/// Implement `Iterator` for `IntoIter<T>`.
180impl<T: Clone> IntoIterator for OneOrMany<T> {
181    type Item = T;
182    type IntoIter = IntoIter<T>;
183
184    fn into_iter(self) -> Self::IntoIter {
185        IntoIter {
186            first: Some(self.first),
187            rest: self.rest.into_iter(),
188        }
189    }
190}
191
192/// Implement `Iterator` for `IntoIter<T>`.
193/// The Item type of the `Iterator` trait is an owned `T`.
194impl<T: Clone> Iterator for IntoIter<T> {
195    type Item = T;
196
197    fn next(&mut self) -> Option<Self::Item> {
198        match self.first.take() {
199            Some(first) => Some(first),
200            _ => self.rest.next(),
201        }
202    }
203}
204
205/// Struct returned by call to `OneOrMany::iter_mut()`.
206pub struct IterMut<'a, T> {
207    // Mutable references.
208    first: Option<&'a mut T>,
209    rest: std::slice::IterMut<'a, T>,
210}
211
212// Implement `Iterator` for `IterMut<T>`.
213// The Item type of the `Iterator` trait is a mutable reference of `OneOrMany<T>`.
214impl<'a, T> Iterator for IterMut<'a, T> {
215    type Item = &'a mut T;
216
217    fn next(&mut self) -> Option<Self::Item> {
218        if let Some(first) = self.first.take() {
219            Some(first)
220        } else {
221            self.rest.next()
222        }
223    }
224}
225
226// Serialize `OneOrMany<T>` into a json sequence (akin to `Vec<T>`)
227impl<T: Clone> Serialize for OneOrMany<T>
228where
229    T: Serialize,
230{
231    fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
232    where
233        S: Serializer,
234    {
235        // Create a sequence serializer with the length of the OneOrMany object.
236        let mut seq = serializer.serialize_seq(Some(self.len()))?;
237        // Serialize each element in the OneOrMany object.
238        for e in self.iter() {
239            seq.serialize_element(e)?;
240        }
241        // End the sequence serialization.
242        seq.end()
243    }
244}
245
246// Deserialize a json sequence into `OneOrMany<T>` (akin to `Vec<T>`).
247// Additionally, deserialize a single element (of type `T`) into `OneOrMany<T>` using
248// `OneOrMany::one`, which is helpful to avoid `Either<T, OneOrMany<T>>` typing in serde structs.
249impl<'de, T> Deserialize<'de> for OneOrMany<T>
250where
251    T: Deserialize<'de> + Clone,
252{
253    fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
254    where
255        D: Deserializer<'de>,
256    {
257        // Visitor struct to handle deserialization.
258        struct OneOrManyVisitor<T>(std::marker::PhantomData<T>);
259
260        impl<'de, T> Visitor<'de> for OneOrManyVisitor<T>
261        where
262            T: Deserialize<'de> + Clone,
263        {
264            type Value = OneOrMany<T>;
265
266            fn expecting(&self, formatter: &mut fmt::Formatter) -> fmt::Result {
267                formatter.write_str("a sequence of at least one element")
268            }
269
270            // Visit a sequence and deserialize it into OneOrMany.
271            fn visit_seq<A>(self, mut seq: A) -> Result<Self::Value, A::Error>
272            where
273                A: SeqAccess<'de>,
274            {
275                // Get the first element.
276                let first = seq
277                    .next_element()?
278                    .ok_or_else(|| de::Error::invalid_length(0, &self))?;
279
280                // Collect the rest of the elements.
281                let mut rest = Vec::new();
282                while let Some(value) = seq.next_element()? {
283                    rest.push(value);
284                }
285
286                // Return the deserialized OneOrMany object.
287                Ok(OneOrMany { first, rest })
288            }
289        }
290
291        // Deserialize any type into OneOrMany using the visitor.
292        deserializer.deserialize_any(OneOrManyVisitor(std::marker::PhantomData))
293    }
294}
295
296// A special deserialize_with function for fields with `OneOrMany<T: FromStr>`
297//
298// Usage:
299// #[derive(Deserialize)]
300// struct MyStruct {
301//     #[serde(deserialize_with = "string_or_one_or_many")]
302//     field: OneOrMany<String>,
303// }
304pub fn string_or_one_or_many<'de, T, D>(deserializer: D) -> Result<OneOrMany<T>, D::Error>
305where
306    T: Deserialize<'de> + FromStr<Err = Infallible> + Clone,
307    D: Deserializer<'de>,
308{
309    struct StringOrOneOrMany<T>(PhantomData<fn() -> T>);
310
311    impl<'de, T> Visitor<'de> for StringOrOneOrMany<T>
312    where
313        T: Deserialize<'de> + FromStr<Err = Infallible> + Clone,
314    {
315        type Value = OneOrMany<T>;
316
317        fn expecting(&self, formatter: &mut fmt::Formatter) -> fmt::Result {
318            formatter.write_str("a string or sequence")
319        }
320
321        fn visit_str<E>(self, value: &str) -> Result<OneOrMany<T>, E>
322        where
323            E: de::Error,
324        {
325            let item = FromStr::from_str(value).map_err(de::Error::custom)?;
326            Ok(OneOrMany::one(item))
327        }
328
329        fn visit_seq<A>(self, seq: A) -> Result<OneOrMany<T>, A::Error>
330        where
331            A: SeqAccess<'de>,
332        {
333            Deserialize::deserialize(de::value::SeqAccessDeserializer::new(seq))
334        }
335
336        fn visit_map<M>(self, map: M) -> Result<OneOrMany<T>, M::Error>
337        where
338            M: MapAccess<'de>,
339        {
340            let item = Deserialize::deserialize(de::value::MapAccessDeserializer::new(map))?;
341            Ok(OneOrMany::one(item))
342        }
343    }
344
345    deserializer.deserialize_any(StringOrOneOrMany(PhantomData))
346}
347
348// A variant of the `string_or_one_or_many` function that returns an `Option<OneOrMany<T>>`.
349//
350// Usage:
351// #[derive(Deserialize)]
352// struct MyStruct {
353//     #[serde(deserialize_with = "string_or_option_one_or_many")]
354//     field: Option<OneOrMany<String>>,
355// }
356pub fn string_or_option_one_or_many<'de, T, D>(
357    deserializer: D,
358) -> Result<Option<OneOrMany<T>>, D::Error>
359where
360    T: Deserialize<'de> + FromStr<Err = Infallible> + Clone,
361    D: Deserializer<'de>,
362{
363    struct StringOrOptionOneOrMany<T>(PhantomData<fn() -> T>);
364
365    impl<'de, T> Visitor<'de> for StringOrOptionOneOrMany<T>
366    where
367        T: Deserialize<'de> + FromStr<Err = Infallible> + Clone,
368    {
369        type Value = Option<OneOrMany<T>>;
370
371        fn expecting(&self, formatter: &mut fmt::Formatter) -> fmt::Result {
372            formatter.write_str("null, a string, or a sequence")
373        }
374
375        fn visit_none<E>(self) -> Result<Option<OneOrMany<T>>, E>
376        where
377            E: de::Error,
378        {
379            Ok(None)
380        }
381
382        fn visit_unit<E>(self) -> Result<Option<OneOrMany<T>>, E>
383        where
384            E: de::Error,
385        {
386            Ok(None)
387        }
388
389        fn visit_some<D>(self, deserializer: D) -> Result<Option<OneOrMany<T>>, D::Error>
390        where
391            D: Deserializer<'de>,
392        {
393            string_or_one_or_many(deserializer).map(Some)
394        }
395    }
396
397    deserializer.deserialize_option(StringOrOptionOneOrMany(PhantomData))
398}
399
400#[cfg(test)]
401mod test {
402    use serde::{self, Deserialize};
403    use serde_json::json;
404
405    use super::*;
406
407    #[test]
408    fn test_single() {
409        let one_or_many = OneOrMany::one("hello".to_string());
410
411        assert_eq!(one_or_many.iter().count(), 1);
412
413        one_or_many.iter().for_each(|i| {
414            assert_eq!(i, "hello");
415        });
416    }
417
418    #[test]
419    fn test() {
420        let one_or_many = OneOrMany::many(vec!["hello".to_string(), "word".to_string()]).unwrap();
421
422        assert_eq!(one_or_many.iter().count(), 2);
423
424        one_or_many.iter().enumerate().for_each(|(i, item)| {
425            if i == 0 {
426                assert_eq!(item, "hello");
427            }
428            if i == 1 {
429                assert_eq!(item, "word");
430            }
431        });
432    }
433
434    #[test]
435    fn test_one_or_many_into_iter_single() {
436        let one_or_many = OneOrMany::one("hello".to_string());
437
438        assert_eq!(one_or_many.clone().into_iter().count(), 1);
439
440        one_or_many.into_iter().for_each(|i| {
441            assert_eq!(i, "hello".to_string());
442        });
443    }
444
445    #[test]
446    fn test_one_or_many_into_iter() {
447        let one_or_many = OneOrMany::many(vec!["hello".to_string(), "word".to_string()]).unwrap();
448
449        assert_eq!(one_or_many.clone().into_iter().count(), 2);
450
451        one_or_many.into_iter().enumerate().for_each(|(i, item)| {
452            if i == 0 {
453                assert_eq!(item, "hello".to_string());
454            }
455            if i == 1 {
456                assert_eq!(item, "word".to_string());
457            }
458        });
459    }
460
461    #[test]
462    fn test_one_or_many_merge() {
463        let one_or_many_1 = OneOrMany::many(vec!["hello".to_string(), "word".to_string()]).unwrap();
464
465        let one_or_many_2 = OneOrMany::one("sup".to_string());
466
467        let merged = OneOrMany::merge(vec![one_or_many_1, one_or_many_2]).unwrap();
468
469        assert_eq!(merged.iter().count(), 3);
470
471        merged.iter().enumerate().for_each(|(i, item)| {
472            if i == 0 {
473                assert_eq!(item, "hello");
474            }
475            if i == 1 {
476                assert_eq!(item, "word");
477            }
478            if i == 2 {
479                assert_eq!(item, "sup");
480            }
481        });
482    }
483
484    #[test]
485    fn test_mut_single() {
486        let mut one_or_many = OneOrMany::one("hello".to_string());
487
488        assert_eq!(one_or_many.iter_mut().count(), 1);
489
490        one_or_many.iter_mut().for_each(|i| {
491            assert_eq!(i, "hello");
492        });
493    }
494
495    #[test]
496    fn test_mut() {
497        let mut one_or_many =
498            OneOrMany::many(vec!["hello".to_string(), "word".to_string()]).unwrap();
499
500        assert_eq!(one_or_many.iter_mut().count(), 2);
501
502        one_or_many.iter_mut().enumerate().for_each(|(i, item)| {
503            if i == 0 {
504                item.push_str(" world");
505                assert_eq!(item, "hello world");
506            }
507            if i == 1 {
508                assert_eq!(item, "word");
509            }
510        });
511    }
512
513    #[test]
514    fn test_one_or_many_error() {
515        assert!(OneOrMany::<String>::many(vec![]).is_err())
516    }
517
518    #[test]
519    fn test_len_single() {
520        let one_or_many = OneOrMany::one("hello".to_string());
521
522        assert_eq!(one_or_many.len(), 1);
523    }
524
525    #[test]
526    fn test_len_many() {
527        let one_or_many = OneOrMany::many(vec!["hello".to_string(), "word".to_string()]).unwrap();
528
529        assert_eq!(one_or_many.len(), 2);
530    }
531
532    // Testing deserialization
533    #[test]
534    fn test_deserialize_list() {
535        let json_data = json!({"field": [1, 2, 3]});
536        let one_or_many: OneOrMany<i32> =
537            serde_json::from_value(json_data["field"].clone()).unwrap();
538
539        assert_eq!(one_or_many.len(), 3);
540        assert_eq!(one_or_many.first(), 1);
541        assert_eq!(one_or_many.rest(), vec![2, 3]);
542    }
543
544    #[test]
545    fn test_deserialize_list_of_maps() {
546        let json_data = json!({"field": [{"key": "value1"}, {"key": "value2"}]});
547        let one_or_many: OneOrMany<serde_json::Value> =
548            serde_json::from_value(json_data["field"].clone()).unwrap();
549
550        assert_eq!(one_or_many.len(), 2);
551        assert_eq!(one_or_many.first(), json!({"key": "value1"}));
552        assert_eq!(one_or_many.rest(), vec![json!({"key": "value2"})]);
553    }
554
555    #[derive(Debug, Deserialize, PartialEq)]
556    struct DummyStruct {
557        #[serde(deserialize_with = "string_or_one_or_many")]
558        field: OneOrMany<DummyString>,
559    }
560
561    #[derive(Debug, Deserialize, PartialEq)]
562    struct DummyStructOption {
563        #[serde(deserialize_with = "string_or_option_one_or_many")]
564        field: Option<OneOrMany<DummyString>>,
565    }
566
567    #[derive(Debug, Clone, Deserialize, PartialEq)]
568    struct DummyString {
569        pub string: String,
570    }
571
572    impl FromStr for DummyString {
573        type Err = Infallible;
574
575        fn from_str(s: &str) -> Result<Self, Self::Err> {
576            Ok(DummyString {
577                string: s.to_string(),
578            })
579        }
580    }
581
582    #[derive(Debug, Deserialize, PartialEq)]
583    #[serde(tag = "role", rename_all = "lowercase")]
584    enum DummyMessage {
585        Assistant {
586            #[serde(deserialize_with = "string_or_option_one_or_many")]
587            content: Option<OneOrMany<DummyString>>,
588        },
589    }
590
591    #[test]
592    fn test_deserialize_unit() {
593        let raw_json = r#"
594        {
595            "role": "assistant",
596            "content": null
597        }
598        "#;
599        let dummy: DummyMessage = serde_json::from_str(raw_json).unwrap();
600
601        assert_eq!(dummy, DummyMessage::Assistant { content: None });
602    }
603
604    #[test]
605    fn test_deserialize_string() {
606        let json_data = json!({"field": "hello"});
607        let dummy: DummyStruct = serde_json::from_value(json_data).unwrap();
608
609        assert_eq!(dummy.field.len(), 1);
610        assert_eq!(dummy.field.first(), DummyString::from_str("hello").unwrap());
611    }
612
613    #[test]
614    fn test_deserialize_string_option() {
615        let json_data = json!({"field": "hello"});
616        let dummy: DummyStructOption = serde_json::from_value(json_data).unwrap();
617
618        assert!(dummy.field.is_some());
619        let field = dummy.field.unwrap();
620        assert_eq!(field.len(), 1);
621        assert_eq!(field.first(), DummyString::from_str("hello").unwrap());
622    }
623
624    #[test]
625    fn test_deserialize_list_option() {
626        let json_data = json!({"field": [{"string": "hello"}, {"string": "world"}]});
627        let dummy: DummyStructOption = serde_json::from_value(json_data).unwrap();
628
629        assert!(dummy.field.is_some());
630        let field = dummy.field.unwrap();
631        assert_eq!(field.len(), 2);
632        assert_eq!(field.first(), DummyString::from_str("hello").unwrap());
633        assert_eq!(field.rest(), vec![DummyString::from_str("world").unwrap()]);
634    }
635
636    #[test]
637    fn test_deserialize_null_option() {
638        let json_data = json!({"field": null});
639        let dummy: DummyStructOption = serde_json::from_value(json_data).unwrap();
640
641        assert!(dummy.field.is_none());
642    }
643}