cairo_lang_lowering/optimizations/split_structs.rs
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#[cfg(test)]
#[path = "split_structs_test.rs"]
mod test;
use std::vec;
use cairo_lang_utils::ordered_hash_map::OrderedHashMap;
use cairo_lang_utils::unordered_hash_map::UnorderedHashMap;
use id_arena::Arena;
use itertools::{Itertools, zip_eq};
use super::var_renamer::VarRenamer;
use crate::ids::LocationId;
use crate::utils::{Rebuilder, RebuilderEx};
use crate::{
BlockId, FlatBlockEnd, FlatLowered, Statement, StatementStructConstruct,
StatementStructDestructure, VarRemapping, VarUsage, Variable, VariableId,
};
/// Splits all the variables that were created by struct_construct and reintroduces the
/// struct_construct statement when needed.
///
/// Note that if a member is used after the struct then is means that that struct is copyable.
pub fn split_structs(lowered: &mut FlatLowered) {
if lowered.blocks.is_empty() {
return;
}
let split = get_var_split(lowered);
rebuild_blocks(lowered, split);
}
/// Information about a split variable.
struct SplitInfo {
/// The block_id where the variable was defined.
block_id: BlockId,
/// The variables resulting from the split.
vars: Vec<VariableId>,
}
type SplitMapping = UnorderedHashMap<VariableId, SplitInfo>;
/// Keeps track of the variables that were reconstructed.
/// If the value is None the variable was reconstructed at the first usage.
/// If the value is Some(Block_id) then the variable needs to be reconstructed at the end of
/// `block_id`
type ReconstructionMapping = OrderedHashMap<VariableId, Option<BlockId>>;
/// Returns a mapping from variables that should be split to the variables resulting from the split.
fn get_var_split(lowered: &mut FlatLowered) -> SplitMapping {
let mut split = UnorderedHashMap::<VariableId, SplitInfo>::default();
let mut stack = vec![BlockId::root()];
let mut visited = vec![false; lowered.blocks.len()];
while let Some(block_id) = stack.pop() {
if visited[block_id.0] {
continue;
}
visited[block_id.0] = true;
let block = &lowered.blocks[block_id];
for stmt in block.statements.iter() {
if let Statement::StructConstruct(stmt) = stmt {
assert!(
split
.insert(stmt.output, SplitInfo {
block_id,
vars: stmt.inputs.iter().map(|input| input.var_id).collect_vec(),
},)
.is_none()
);
}
}
match &block.end {
FlatBlockEnd::Goto(block_id, remappings) => {
stack.push(*block_id);
for (dst, src) in remappings.iter() {
split_remapping(
*block_id,
&mut split,
&mut lowered.variables,
*dst,
src.var_id,
);
}
}
FlatBlockEnd::Match { info } => {
stack.extend(info.arms().iter().map(|arm| arm.block_id));
}
FlatBlockEnd::Return(..) => {}
FlatBlockEnd::Panic(_) | FlatBlockEnd::NotSet => unreachable!(),
}
}
split
}
/// Splits 'dst' according to the split of 'src'.
///
/// For example if we have
/// split('dst') is None
/// split('src') = (v0, v1) and split(`v1`) = (v3, v4, v5).
/// The function will create new variables and set:
/// split('dst') = (v100, v101) and split(`v101`) = (v102, v103, v104).
fn split_remapping(
target_block_id: BlockId,
split: &mut SplitMapping,
variables: &mut Arena<Variable>,
dst: VariableId,
src: VariableId,
) {
let mut stack = vec![(dst, src)];
while let Some((dst, src)) = stack.pop() {
if split.contains_key(&dst) {
continue;
}
if let Some(SplitInfo { block_id: _, vars: src_vars }) = split.get(&src) {
let mut dst_vars = vec![];
for split_src in src_vars {
let new_var = variables.alloc(variables[*split_src].clone());
// Queue inner remmapping for possible splitting.
stack.push((new_var, *split_src));
dst_vars.push(new_var);
}
split.insert(dst, SplitInfo { block_id: target_block_id, vars: dst_vars });
}
}
}
// Context for rebuilding the blocks.
struct SplitStructsContext<'a> {
/// The variables that were reconstructed as they were needed.
reconstructed: ReconstructionMapping,
// A renamer that keeps track of renamed vars.
var_remapper: VarRenamer,
// The variables arena.
variables: &'a mut Arena<Variable>,
}
/// Rebuilds the blocks, with the splitting.
fn rebuild_blocks(lowered: &mut FlatLowered, split: SplitMapping) {
let mut ctx = SplitStructsContext {
reconstructed: Default::default(),
var_remapper: VarRenamer::default(),
variables: &mut lowered.variables,
};
let mut stack = vec![BlockId::root()];
let mut visited = vec![false; lowered.blocks.len()];
while let Some(block_id) = stack.pop() {
if visited[block_id.0] {
continue;
}
visited[block_id.0] = true;
let block = &mut lowered.blocks[block_id];
let old_statements = std::mem::take(&mut block.statements);
let statements = &mut block.statements;
for mut stmt in old_statements.into_iter() {
match stmt {
Statement::StructDestructure(stmt) => {
if let Some(output_split) =
split.get(&ctx.var_remapper.map_var_id(stmt.input.var_id))
{
for (output, new_var) in
zip_eq(stmt.outputs.iter(), output_split.vars.to_vec())
{
assert!(
ctx.var_remapper.renamed_vars.insert(*output, new_var).is_none()
)
}
} else {
statements.push(Statement::StructDestructure(stmt));
}
}
Statement::StructConstruct(stmt)
if split.contains_key(&ctx.var_remapper.map_var_id(stmt.output)) =>
{
// Remove StructConstruct statement.
}
_ => {
for input in stmt.inputs_mut() {
input.var_id = ctx.maybe_reconstruct_var(
&split,
input.var_id,
block_id,
statements,
input.location,
);
}
statements.push(stmt);
}
}
}
match &mut block.end {
FlatBlockEnd::Goto(target_block_id, remappings) => {
stack.push(*target_block_id);
let mut old_remappings = std::mem::take(remappings);
ctx.rebuild_remapping(
&split,
block_id,
&mut block.statements,
std::mem::take(&mut old_remappings.remapping).into_iter(),
remappings,
);
}
FlatBlockEnd::Match { info } => {
stack.extend(info.arms().iter().map(|arm| arm.block_id));
for input in info.inputs_mut() {
input.var_id = ctx.maybe_reconstruct_var(
&split,
input.var_id,
block_id,
statements,
input.location,
);
}
}
FlatBlockEnd::Return(vars, _location) => {
for var in vars.iter_mut() {
var.var_id = ctx.maybe_reconstruct_var(
&split,
var.var_id,
block_id,
statements,
var.location,
);
}
}
FlatBlockEnd::Panic(_) | FlatBlockEnd::NotSet => unreachable!(),
}
// Remap block variables.
*block = ctx.var_remapper.rebuild_block(block);
}
// Add all the end of block reconstructions.
for (var_id, opt_block_id) in ctx.reconstructed.iter() {
if let Some(block_id) = opt_block_id {
let split_vars =
split.get(var_id).expect("Should be check in `maybe_reconstruct_var`.");
lowered.blocks[*block_id].statements.push(Statement::StructConstruct(
StatementStructConstruct {
inputs: split_vars
.vars
.iter()
.map(|var_id| VarUsage {
var_id: ctx.var_remapper.map_var_id(*var_id),
location: ctx.variables[*var_id].location,
})
.collect_vec(),
output: *var_id,
},
));
}
}
}
impl SplitStructsContext<'_> {
/// Given 'var_id' check if `var_remapper.map_var_id(*var_id)` was split and not reconstructed
/// yet, if this is the case, reconstructs the var or marks the variable for reconstruction and
/// returns the reconstructed variable id.
fn maybe_reconstruct_var(
&mut self,
split: &SplitMapping,
var_id: VariableId,
block_id: BlockId,
statements: &mut Vec<Statement>,
location: LocationId,
) -> VariableId {
let var_id = self.var_remapper.map_var_id(var_id);
if self.reconstructed.contains_key(&var_id) {
return var_id;
}
let Some(split_info) = split.get(&var_id) else {
return var_id;
};
let inputs = split_info
.vars
.iter()
.map(|input_var_id| VarUsage {
var_id: self.maybe_reconstruct_var(
split,
*input_var_id,
block_id,
statements,
location,
),
location,
})
.collect_vec();
// If the variable was defined in the same block or it is non-copyable then we can
// reconstruct it before the first usage. If not we need to reconstruct it at the
// end of the of the original block as it might be used by more then one of the
// children.
if block_id == split_info.block_id || self.variables[var_id].copyable.is_err() {
let reconstructed_var_id = if block_id == split_info.block_id {
// If the reconstruction is in the original block we can reuse the variable id
// and mark the variable as reconstructed.
self.reconstructed.insert(var_id, None);
var_id
} else {
// Use a new variable id in case the variable is also reconstructed elsewhere.
self.variables.alloc(self.variables[var_id].clone())
};
statements.push(Statement::StructConstruct(StatementStructConstruct {
inputs,
output: reconstructed_var_id,
}));
reconstructed_var_id
} else {
// All the inputs should use the original var names.
assert!(
zip_eq(&inputs, &split_info.vars)
.all(|(input, var_id)| input.var_id == self.var_remapper.map_var_id(*var_id))
);
// Mark `var_id` for reconstruction at the end of `split_info.block_id`
self.reconstructed.insert(var_id, Some(split_info.block_id));
var_id
}
}
/// Given an iterator over the original remapping, rebuilds the remapping with the given
/// splitting of variables.
fn rebuild_remapping(
&mut self,
split: &SplitMapping,
block_id: BlockId,
statements: &mut Vec<Statement>,
remappings: impl DoubleEndedIterator<Item = (VariableId, VarUsage)>,
new_remappings: &mut VarRemapping,
) {
let mut stack = remappings.rev().collect_vec();
while let Some((orig_dst, orig_src)) = stack.pop() {
let dst = self.var_remapper.map_var_id(orig_dst);
let src = self.var_remapper.map_var_id(orig_src.var_id);
match (split.get(&dst), split.get(&src)) {
(None, None) => {
new_remappings
.insert(dst, VarUsage { var_id: src, location: orig_src.location });
}
(Some(dst_split), Some(src_split)) => {
stack.extend(zip_eq(
dst_split.vars.iter().cloned().rev(),
src_split
.vars
.iter()
.map(|var_id| VarUsage { var_id: *var_id, location: orig_src.location })
.rev(),
));
}
(Some(dst_split), None) => {
let mut src_vars = vec![];
for dst in &dst_split.vars {
src_vars.push(self.variables.alloc(self.variables[*dst].clone()));
}
statements.push(Statement::StructDestructure(StatementStructDestructure {
input: VarUsage { var_id: src, location: orig_src.location },
outputs: src_vars.clone(),
}));
stack.extend(zip_eq(
dst_split.vars.iter().cloned().rev(),
src_vars
.into_iter()
.map(|var_id| VarUsage { var_id, location: orig_src.location })
.rev(),
));
}
(None, Some(_src_vars)) => {
let reconstructed_src = self.maybe_reconstruct_var(
split,
src,
block_id,
statements,
orig_src.location,
);
new_remappings.insert(dst, VarUsage {
var_id: reconstructed_src,
location: orig_src.location,
});
}
}
}
}
}