use super::{PgColumn, PgTypeInfo}; use crate::column::ColumnIndex; use crate::error::Error; use crate::ext::ustr::UStr; use crate::{PgArguments, Postgres}; use std::sync::Arc; use sqlx_core::sql_str::SqlStr; pub(crate) use sqlx_core::statement::Statement; use sqlx_core::{Either, HashMap}; #[derive(Debug, Clone)] pub struct PgStatement { pub(crate) sql: SqlStr, pub(crate) metadata: Arc, } #[derive(Debug, Default)] pub(crate) struct PgStatementMetadata { pub(crate) columns: Vec, // This `Arc` is not redundant; it's used to avoid deep-copying this map for the `Any` backend. // See `sqlx-postgres/src/any.rs` pub(crate) column_names: Arc>, pub(crate) parameters: Vec, } impl Statement for PgStatement { type Database = Postgres; fn into_sql(self) -> SqlStr { self.sql } fn sql(&self) -> &SqlStr { &self.sql } fn parameters(&self) -> Option> { Some(Either::Left(&self.metadata.parameters)) } fn columns(&self) -> &[PgColumn] { &self.metadata.columns } impl_statement_query!(PgArguments); } impl ColumnIndex for &'_ str { fn index(&self, statement: &PgStatement) -> Result { statement .metadata .column_names .get(*self) .ok_or_else(|| Error::ColumnNotFound((*self).into())) .copied() } } // #[cfg(feature = "any")] // impl<'q> From> for crate::any::AnyStatement<'q> { // #[inline] // fn from(statement: PgStatement<'q>) -> Self { // crate::any::AnyStatement::<'q> { // columns: statement // .metadata // .columns // .iter() // .map(|col| col.clone().into()) // .collect(), // column_names: statement.metadata.column_names.clone(), // parameters: Some(Either::Left( // statement // .metadata // .parameters // .iter() // .map(|ty| ty.clone().into()) // .collect(), // )), // sql: statement.sql, // } // } // }