#![doc = include_str!("../README.md")] use std::collections::HashSet; use serde_json::*; type Document = Map; const SPLIT_SYMBOL: char = '.'; /// Returns `true` if the `selector` match the `key`. /// /// ```text /// Example: /// `animaux` match `animaux` /// `animaux.chien` match `animaux` /// `animaux.chien` match `animaux` /// `animaux.chien.nom` match `animaux` /// `animaux.chien.nom` match `animaux.chien` /// ----------------------------------------- /// `animaux` doesn't match `animaux.chien` /// `animaux.` doesn't match `animaux` /// `animaux.ch` doesn't match `animaux.chien` /// `animau` doesn't match `animaux` /// ``` fn contained_in(selector: &str, key: &str) -> bool { selector.starts_with(key) && selector[key.len()..] .chars() .next() .map(|c| c == SPLIT_SYMBOL) .unwrap_or(true) } /// Map the selected leaf values of a json allowing you to update only the fields that were selected. /// ``` /// use serde_json::{Value, json}; /// use permissive_json_pointer::map_leaf_values; /// /// let mut value: Value = json!({ /// "jean": { /// "age": 8, /// "race": { /// "name": "bernese mountain", /// "size": "80cm", /// } /// } /// }); /// map_leaf_values( /// value.as_object_mut().unwrap(), /// ["jean.race.name"], /// |key, value| match (value, key) { /// (Value::String(name), "jean.race.name") => *name = "patou".to_string(), /// _ => unreachable!(), /// }, /// ); /// assert_eq!( /// value, /// json!({ /// "jean": { /// "age": 8, /// "race": { /// "name": "patou", /// "size": "80cm", /// } /// } /// }) /// ); /// ``` pub fn map_leaf_values<'a>( value: &mut Map, selectors: impl IntoIterator, mut mapper: impl FnMut(&str, &mut Value), ) { let selectors: Vec<_> = selectors.into_iter().collect(); map_leaf_values_in_object(value, &selectors, "", &mut mapper); } pub fn map_leaf_values_in_object<'a>( value: &mut Map, selectors: &[&'a str], base_key: &str, mapper: &mut impl FnMut(&str, &mut Value), ) { for (key, value) in value.iter_mut() { let base_key = if base_key.is_empty() { key.to_string() } else { format!("{}{}{}", base_key, SPLIT_SYMBOL, key) }; // here if the user only specified `doggo` we need to iterate in all the fields of `doggo` // so we check the contained_in on both side let should_continue = selectors .iter() .any(|selector| contained_in(selector, &base_key) || contained_in(&base_key, selector)); if should_continue { match value { Value::Object(object) => { map_leaf_values_in_object(object, selectors, &base_key, mapper) } Value::Array(array) => { map_leaf_values_in_array(array, selectors, &base_key, mapper) } value => mapper(&base_key, value), } } } } pub fn map_leaf_values_in_array( values: &mut [Value], selectors: &[&str], base_key: &str, mapper: &mut impl FnMut(&str, &mut Value), ) { for value in values.iter_mut() { match value { Value::Object(object) => map_leaf_values_in_object(object, selectors, base_key, mapper), Value::Array(array) => map_leaf_values_in_array(array, selectors, base_key, mapper), value => mapper(base_key, value), } } } /// Permissively selects values in a json with a list of selectors. /// Returns a new json containing all the selected fields. /// ``` /// use serde_json::*; /// use permissive_json_pointer::select_values; /// /// let value: Value = json!({ /// "name": "peanut", /// "age": 8, /// "race": { /// "name": "bernese mountain", /// "avg_age": 12, /// "size": "80cm", /// }, /// }); /// let value: &Map = value.as_object().unwrap(); /// /// let res: Value = select_values(value, vec!["name", "race.name"]).into(); /// assert_eq!( /// res, /// json!({ /// "name": "peanut", /// "race": { /// "name": "bernese mountain", /// }, /// }) /// ); /// ``` pub fn select_values<'a>( value: &Map, selectors: impl IntoIterator, ) -> Map { let selectors = selectors.into_iter().collect(); create_value(value, selectors) } fn create_value(value: &Document, mut selectors: HashSet<&str>) -> Document { let mut new_value: Document = Map::new(); for (key, value) in value.iter() { // first we insert all the key at the root level if selectors.contains(key as &str) { new_value.insert(key.to_string(), value.clone()); // if the key was simple we can delete it and move to // the next key if is_simple(key) { selectors.remove(key as &str); continue; } } // we extract all the sub selectors matching the current field // if there was [person.name, person.age] and if we are on the field // `person`. Then we generate the following sub selectors: [name, age]. let sub_selectors: HashSet<&str> = selectors .iter() .filter(|s| contained_in(s, key)) .filter_map(|s| s.trim_start_matches(key).get(SPLIT_SYMBOL.len_utf8()..)) .collect(); if !sub_selectors.is_empty() { match value { Value::Array(array) => { let array = create_array(array, &sub_selectors); if !array.is_empty() { new_value.insert(key.to_string(), array.into()); } } Value::Object(object) => { let object = create_value(object, sub_selectors); if !object.is_empty() { new_value.insert(key.to_string(), object.into()); } } _ => (), } } } new_value } fn create_array(array: &[Value], selectors: &HashSet<&str>) -> Vec { let mut res = Vec::new(); for value in array { match value { Value::Array(array) => { let array = create_array(array, selectors); if !array.is_empty() { res.push(array.into()); } } Value::Object(object) => { let object = create_value(object, selectors.clone()); if !object.is_empty() { res.push(object.into()); } } _ => (), } } res } fn is_simple(key: impl AsRef) -> bool { !key.as_ref().contains(SPLIT_SYMBOL) } #[cfg(test)] mod tests { use big_s::S; use super::*; #[test] fn test_contained_in() { assert!(contained_in("animaux", "animaux")); assert!(contained_in("animaux.chien", "animaux")); assert!(contained_in( "animaux.chien.race.bouvier bernois.fourrure.couleur", "animaux" )); assert!(contained_in( "animaux.chien.race.bouvier bernois.fourrure.couleur", "animaux.chien" )); assert!(contained_in( "animaux.chien.race.bouvier bernois.fourrure.couleur", "animaux.chien.race.bouvier bernois" )); assert!(contained_in( "animaux.chien.race.bouvier bernois.fourrure.couleur", "animaux.chien.race.bouvier bernois.fourrure" )); assert!(contained_in( "animaux.chien.race.bouvier bernois.fourrure.couleur", "animaux.chien.race.bouvier bernois.fourrure.couleur" )); // -- the wrongs assert!(!contained_in("chien", "chat")); assert!(!contained_in("animaux", "animaux.chien")); assert!(!contained_in("animaux.chien", "animaux.chat")); // -- the strange edge cases assert!(!contained_in("animaux.chien", "anima")); assert!(!contained_in("animaux.chien", "animau")); assert!(!contained_in("animaux.chien", "animaux.")); assert!(!contained_in("animaux.chien", "animaux.c")); assert!(!contained_in("animaux.chien", "animaux.ch")); assert!(!contained_in("animaux.chien", "animaux.chi")); assert!(!contained_in("animaux.chien", "animaux.chie")); } #[test] fn simple_key() { let value: Value = json!({ "name": "peanut", "age": 8, "race": { "name": "bernese mountain", "avg_age": 12, "size": "80cm", } }); let value: &Document = value.as_object().unwrap(); let res: Value = select_values(value, vec!["name"]).into(); assert_eq!( res, json!({ "name": "peanut", }) ); let res: Value = select_values(value, vec!["age"]).into(); assert_eq!( res, json!({ "age": 8, }) ); let res: Value = select_values(value, vec!["name", "age"]).into(); assert_eq!( res, json!({ "name": "peanut", "age": 8, }) ); let res: Value = select_values(value, vec!["race"]).into(); assert_eq!( res, json!({ "race": { "name": "bernese mountain", "avg_age": 12, "size": "80cm", } }) ); let res: Value = select_values(value, vec!["name", "age", "race"]).into(); assert_eq!( res, json!({ "name": "peanut", "age": 8, "race": { "name": "bernese mountain", "avg_age": 12, "size": "80cm", } }) ); } #[test] fn complex_key() { let value: Value = json!({ "name": "peanut", "age": 8, "race": { "name": "bernese mountain", "avg_age": 12, "size": "80cm", } }); let value: &Document = value.as_object().unwrap(); let res: Value = select_values(value, vec!["race"]).into(); assert_eq!( res, json!({ "race": { "name": "bernese mountain", "avg_age": 12, "size": "80cm", } }) ); println!("RIGHT BEFORE"); let res: Value = select_values(value, vec!["race.name"]).into(); assert_eq!( res, json!({ "race": { "name": "bernese mountain", } }) ); let res: Value = select_values(value, vec!["race.name", "race.size"]).into(); assert_eq!( res, json!({ "race": { "name": "bernese mountain", "size": "80cm", } }) ); let res: Value = select_values( value, vec!["race.name", "race.size", "race.avg_age", "race.size", "age"], ) .into(); assert_eq!( res, json!({ "age": 8, "race": { "name": "bernese mountain", "avg_age": 12, "size": "80cm", } }) ); let res: Value = select_values(value, vec!["race.name", "race"]).into(); assert_eq!( res, json!({ "race": { "name": "bernese mountain", "avg_age": 12, "size": "80cm", } }) ); let res: Value = select_values(value, vec!["race", "race.name"]).into(); assert_eq!( res, json!({ "race": { "name": "bernese mountain", "avg_age": 12, "size": "80cm", } }) ); } #[test] fn multi_level_nested() { let value: Value = json!({ "jean": { "age": 8, "race": { "name": "bernese mountain", "size": "80cm", } } }); let value: &Document = value.as_object().unwrap(); let res: Value = select_values(value, vec!["jean"]).into(); assert_eq!( res, json!({ "jean": { "age": 8, "race": { "name": "bernese mountain", "size": "80cm", } } }) ); let res: Value = select_values(value, vec!["jean.age"]).into(); assert_eq!( res, json!({ "jean": { "age": 8, } }) ); let res: Value = select_values(value, vec!["jean.race.size"]).into(); assert_eq!( res, json!({ "jean": { "race": { "size": "80cm", } } }) ); let res: Value = select_values(value, vec!["jean.race.name", "jean.age"]).into(); assert_eq!( res, json!({ "jean": { "age": 8, "race": { "name": "bernese mountain", } } }) ); let res: Value = select_values(value, vec!["jean.race"]).into(); assert_eq!( res, json!({ "jean": { "race": { "name": "bernese mountain", "size": "80cm", } } }) ); } #[test] fn array_and_deep_nested() { let value: Value = json!({ "doggos": [ { "jean": { "age": 8, "race": { "name": "bernese mountain", "size": "80cm", } } }, { "marc": { "age": 4, "race": { "name": "golden retriever", "size": "60cm", } } }, ] }); let value: &Document = value.as_object().unwrap(); let res: Value = select_values(value, vec!["doggos.jean"]).into(); assert_eq!( res, json!({ "doggos": [ { "jean": { "age": 8, "race": { "name": "bernese mountain", "size": "80cm", } } } ] }) ); let res: Value = select_values(value, vec!["doggos.marc"]).into(); assert_eq!( res, json!({ "doggos": [ { "marc": { "age": 4, "race": { "name": "golden retriever", "size": "60cm", } } } ] }) ); let res: Value = select_values(value, vec!["doggos.marc.race"]).into(); assert_eq!( res, json!({ "doggos": [ { "marc": { "race": { "name": "golden retriever", "size": "60cm", } } } ] }) ); let res: Value = select_values(value, vec!["doggos.marc.race.name", "doggos.marc.age"]).into(); assert_eq!( res, json!({ "doggos": [ { "marc": { "age": 4, "race": { "name": "golden retriever", } } } ] }) ); let res: Value = select_values( value, vec![ "doggos.marc.race.name", "doggos.marc.age", "doggos.jean.race.name", "other.field", ], ) .into(); assert_eq!( res, json!({ "doggos": [ { "jean": { "race": { "name": "bernese mountain", } } }, { "marc": { "age": 4, "race": { "name": "golden retriever", } } } ] }) ); } #[test] fn all_conflict_variation() { let value: Value = json!({ "pet.dog.name": "jean", "pet.dog": { "name": "bob" }, "pet": { "dog.name": "michel" }, "pet": { "dog": { "name": "milan" } } }); let value: &Document = value.as_object().unwrap(); let res: Value = select_values(value, vec!["pet.dog.name"]).into(); assert_eq!( res, json!({ "pet.dog.name": "jean", "pet.dog": { "name": "bob" }, "pet": { "dog.name": "michel" }, "pet": { "dog": { "name": "milan" } } }) ); let value: Value = json!({ "pet.dog.name": "jean", "pet.dog": { "name": "bob", }, "pet": { "dog.name": "michel", "dog": { "name": "milan", } } }); let value: &Document = value.as_object().unwrap(); let res: Value = select_values(value, vec!["pet.dog.name", "pet.dog", "pet"]).into(); assert_eq!( res, json!({ "pet.dog.name": "jean", "pet.dog": { "name": "bob", }, "pet": { "dog.name": "michel", "dog": { "name": "milan", } } }) ); } #[test] fn map_object() { let mut value: Value = json!({ "jean": { "age": 8, "race": { "name": "bernese mountain", "size": "80cm", } } }); map_leaf_values( value.as_object_mut().unwrap(), ["jean.race.name"], |key, value| match (value, key) { (Value::String(name), "jean.race.name") => *name = S("patou"), _ => unreachable!(), }, ); assert_eq!( value, json!({ "jean": { "age": 8, "race": { "name": "patou", "size": "80cm", } } }) ); let mut value: Value = json!({ "jean": { "age": 8, "race": { "name": "bernese mountain", "size": "80cm", } }, "bob": "lolpied", }); let mut calls = 0; map_leaf_values(value.as_object_mut().unwrap(), ["jean"], |key, value| { calls += 1; match (value, key) { (Value::String(name), "jean.race.name") => *name = S("patou"), _ => println!("Called with {key}"), } }); assert_eq!(calls, 3); assert_eq!( value, json!({ "jean": { "age": 8, "race": { "name": "patou", "size": "80cm", } }, "bob": "lolpied", }) ); } }