use std::fmt::Write as _; use std::hash::{Hash, Hasher}; use indexmap::IndexMap; use meilisearch_schema::IndexedPos; use meilisearch_types::DocumentId; use ordered_float::OrderedFloat; use serde_json::Value; use siphasher::sip::SipHasher; use crate::raw_indexer::RawIndexer; use crate::serde::SerializerError; use crate::Number; /// Returns the number of words indexed or `None` if the type is unindexable. pub fn index_value( indexer: &mut RawIndexer, document_id: DocumentId, indexed_pos: IndexedPos, value: &Value, ) -> Option { match value { Value::Null => None, Value::Bool(boolean) => { let text = boolean.to_string(); let number_of_words = indexer.index_text(document_id, indexed_pos, &text); Some(number_of_words) }, Value::Number(number) => { let text = number.to_string(); Some(indexer.index_text(document_id, indexed_pos, &text)) }, Value::String(string) => { Some(indexer.index_text(document_id, indexed_pos, &string)) }, Value::Array(_) => { let text = value_to_string(value); Some(indexer.index_text(document_id, indexed_pos, &text)) }, Value::Object(_) => { let text = value_to_string(value); Some(indexer.index_text(document_id, indexed_pos, &text)) }, } } /// Transforms the JSON Value type into a String. pub fn value_to_string(value: &Value) -> String { fn internal_value_to_string(string: &mut String, value: &Value) { match value { Value::Null => (), Value::Bool(boolean) => { let _ = write!(string, "{}", &boolean); }, Value::Number(number) => { let _ = write!(string, "{}", &number); }, Value::String(text) => string.push_str(&text), Value::Array(array) => { for value in array { internal_value_to_string(string, value); let _ = string.write_str(". "); } }, Value::Object(object) => { for (key, value) in object { string.push_str(key); let _ = string.write_str(". "); internal_value_to_string(string, value); let _ = string.write_str(". "); } }, } } let mut string = String::new(); internal_value_to_string(&mut string, value); string } /// Transforms the JSON Value type into a Number. pub fn value_to_number(value: &Value) -> Option { use std::str::FromStr; match value { Value::Null => None, Value::Bool(boolean) => Some(Number::Unsigned(*boolean as u64)), Value::Number(number) => { match (number.as_i64(), number.as_u64(), number.as_f64()) { (Some(n), _, _) => Some(Number::Signed(n)), (_, Some(n), _) => Some(Number::Unsigned(n)), (_, _, Some(n)) => Some(Number::Float(OrderedFloat(n))), (None, None, None) => None, } }, Value::String(string) => Number::from_str(string).ok(), Value::Array(_array) => None, Value::Object(_object) => None, } } /// Validates a string representation to be a correct document id and /// returns the hash of the given type, this is the way we produce documents ids. pub fn compute_document_id(string: &str) -> Result { if string.chars().all(|x| x.is_ascii_alphanumeric() || x == '-' || x == '_') { let mut s = SipHasher::new(); string.hash(&mut s); Ok(DocumentId(s.finish())) } else { Err(SerializerError::InvalidDocumentIdFormat) } } /// Extracts and validates the document id of a document. pub fn extract_document_id(primary_key: &str, document: &IndexMap) -> Result { match document.get(primary_key) { Some(value) => { let string = match value { Value::Number(number) => number.to_string(), Value::String(string) => string.clone(), _ => return Err(SerializerError::InvalidDocumentIdFormat), }; compute_document_id(&string) } None => Err(SerializerError::DocumentIdNotFound), } }