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//! This module provides the functionality to scrape and gathers all the results from the upstream
//! search engines and then removes duplicate results.
use std::{collections::HashMap, time::Duration};
use rand::Rng;
use tokio::join;
use super::{
aggregation_models::{RawSearchResult, SearchResult, SearchResults},
user_agent::random_user_agent,
};
use crate::engines::{duckduckgo, searx};
/// A function that aggregates all the scraped results from the above upstream engines and
/// then removes duplicate results and if two results are found to be from two or more engines
/// then puts their names together to show the results are fetched from these upstream engines
/// and then removes all data from the HashMap and puts into a struct of all results aggregated
/// into a vector and also adds the query used into the struct this is necessary because
/// otherwise the search bar in search remains empty if searched from the query url
///
/// # Example:
///
/// If you search from the url like `https://127.0.0.1/search?q=huston` then the search bar should
/// contain the word huston and not remain empty.
///
/// # Arguments
///
/// * `query` - Accepts a string to query with the above upstream search engines.
/// * `page` - Accepts an u32 page number.
/// * `random_delay` - Accepts a boolean value to add a random delay before making the request.
///
/// # Error
///
/// Returns an error a reqwest and scraping selector errors if any error occurs in the results
/// function in either `searx` or `duckduckgo` or both otherwise returns a `SearchResults struct`
/// containing appropriate values.
pub async fn aggregate(
query: &str,
page: u32,
random_delay: bool,
debug: bool,
) -> Result<SearchResults, Box<dyn std::error::Error>> {
let user_agent: String = random_user_agent();
let mut result_map: HashMap<String, RawSearchResult> = HashMap::new();
// Add a random delay before making the request.
if random_delay || !debug {
let mut rng = rand::thread_rng();
let delay_secs = rng.gen_range(1..10);
std::thread::sleep(Duration::from_secs(delay_secs));
}
// fetch results from upstream search engines simultaneously/concurrently.
let (ddg_map_results, searx_map_results) = join!(
duckduckgo::results(query, page, &user_agent),
searx::results(query, page, &user_agent)
);
let ddg_map_results = ddg_map_results.unwrap_or_else(|e| {
if debug {
log::error!("Error fetching results from DuckDuckGo: {:?}", e);
}
HashMap::new()
});
let searx_map_results = searx_map_results.unwrap_or_else(|e| {
if debug {
log::error!("Error fetching results from Searx: {:?}", e);
}
HashMap::new()
});
result_map.extend(ddg_map_results);
searx_map_results.into_iter().for_each(|(key, value)| {
result_map
.entry(key)
.and_modify(|result| {
result.add_engines(value.clone().engine());
})
.or_insert_with(|| -> RawSearchResult {
RawSearchResult::new(
value.title.clone(),
value.visiting_url.clone(),
value.description.clone(),
value.engine.clone(),
)
});
});
Ok(SearchResults::new(
result_map
.into_iter()
.map(|(key, value)| {
SearchResult::new(
value.title,
value.visiting_url,
key,
value.description,
value.engine,
)
})
.collect(),
query.to_string(),
))
}