polars_stream/
skeleton.rs#![allow(unused)] use std::cmp::Reverse;
use polars_core::prelude::*;
use polars_core::POOL;
use polars_expr::planner::{create_physical_expr, get_expr_depth_limit, ExpressionConversionState};
use polars_plan::plans::{Context, IRPlan, IR};
use polars_plan::prelude::expr_ir::ExprIR;
use polars_plan::prelude::AExpr;
use polars_utils::arena::{Arena, Node};
use slotmap::{SecondaryMap, SlotMap};
pub fn run_query(
node: Node,
mut ir_arena: Arena<IR>,
expr_arena: &mut Arena<AExpr>,
) -> PolarsResult<Option<DataFrame>> {
if let Ok(visual_path) = std::env::var("POLARS_VISUALIZE_IR") {
let plan = IRPlan {
lp_top: node,
lp_arena: ir_arena.clone(),
expr_arena: expr_arena.clone(),
};
let visualization = plan.display_dot().to_string();
std::fs::write(visual_path, visualization).unwrap();
}
let mut phys_sm = SlotMap::with_capacity_and_key(ir_arena.len());
let root =
crate::physical_plan::build_physical_plan(node, &mut ir_arena, expr_arena, &mut phys_sm)?;
if let Ok(visual_path) = std::env::var("POLARS_VISUALIZE_PHYSICAL_PLAN") {
let visualization = crate::physical_plan::visualize_plan(root, &phys_sm, expr_arena);
std::fs::write(visual_path, visualization).unwrap();
}
let (mut graph, phys_to_graph) =
crate::physical_plan::physical_plan_to_graph(root, &phys_sm, expr_arena)?;
crate::async_executor::clear_task_wait_statistics();
let mut results = crate::execute::execute_graph(&mut graph)?;
if std::env::var("POLARS_TRACK_WAIT_STATS").as_deref() == Ok("1") {
let mut stats = crate::async_executor::get_task_wait_statistics();
stats.sort_by_key(|(_l, w)| Reverse(*w));
eprintln!("Time spent waiting for async tasks:");
for (loc, wait_time) in stats {
eprintln!("{}:{} - {:?}", loc.file(), loc.line(), wait_time);
}
}
Ok(results.remove(phys_to_graph[root]))
}