use crate::extensions::ResolveInfo; use crate::parser::types::Field; use crate::{ContextSelectionSet, OutputType, PathSegment, Positioned, ServerResult, Type, Value}; /// Resolve an list by executing each of the items concurrently. pub async fn resolve_list<'a, T: OutputType + 'a>( ctx: &ContextSelectionSet<'a>, field: &Positioned, iter: impl IntoIterator, len: Option, ) -> ServerResult { let extensions = &ctx.query_env.extensions; if extensions.is_empty() { let mut futures = len.map(Vec::with_capacity).unwrap_or_default(); for (idx, item) in iter.into_iter().enumerate() { futures.push({ let ctx = ctx.clone(); async move { let ctx_idx = ctx.with_index(idx); let resolve_info = ResolveInfo { path_node: ctx_idx.path_node.as_ref().unwrap(), parent_type: &Vec::::type_name(), return_type: &T::qualified_type_name(), }; let resolve_fut = async { OutputType::resolve(&item, &ctx_idx, field) .await .map(Option::Some) .map_err(|e| e.path(PathSegment::Index(idx))) }; futures_util::pin_mut!(resolve_fut); extensions .resolve(resolve_info, &mut resolve_fut) .await .map(|value| value.expect("You definitely encountered a bug!")) } }); } Ok(Value::List( futures_util::future::try_join_all(futures).await?, )) } else { let mut futures = len.map(Vec::with_capacity).unwrap_or_default(); for (idx, item) in iter.into_iter().enumerate() { let ctx_idx = ctx.with_index(idx); futures.push(async move { OutputType::resolve(&item, &ctx_idx, field) .await .map_err(|e| e.path(PathSegment::Index(idx))) }); } Ok(Value::List( futures_util::future::try_join_all(futures).await?, )) } }