cairo_lang_lowering/implicits/
mod.rsuse std::collections::{HashMap, HashSet};
use cairo_lang_defs::diagnostic_utils::StableLocation;
use cairo_lang_defs::ids::LanguageElementId;
use cairo_lang_diagnostics::Maybe;
use cairo_lang_semantic as semantic;
use cairo_lang_semantic::db::SemanticGroup;
use cairo_lang_utils::{LookupIntern, Upcast};
use itertools::{chain, zip_eq, Itertools};
use semantic::TypeId;
use crate::blocks::Blocks;
use crate::db::{ConcreteSCCRepresentative, LoweringGroup};
use crate::graph_algorithms::strongly_connected_components::concrete_function_with_body_postpanic_scc;
use crate::ids::{ConcreteFunctionWithBodyId, FunctionId, FunctionLongId, LocationId};
use crate::lower::context::{VarRequest, VariableAllocator};
use crate::{
BlockId, DependencyType, FlatBlockEnd, FlatLowered, MatchArm, MatchInfo, Statement, VarUsage,
};
struct Context<'a> {
db: &'a dyn LoweringGroup,
variables: &'a mut VariableAllocator<'a>,
lowered: &'a mut FlatLowered,
implicit_index: HashMap<TypeId, usize>,
implicits_tys: Vec<TypeId>,
implicit_vars_for_block: HashMap<BlockId, Vec<VarUsage>>,
visited: HashSet<BlockId>,
location: LocationId,
}
pub fn lower_implicits(
db: &dyn LoweringGroup,
function_id: ConcreteFunctionWithBodyId,
lowered: &mut FlatLowered,
) {
if let Err(diag_added) = inner_lower_implicits(db, function_id, lowered) {
lowered.blocks = Blocks::new_errored(diag_added);
}
}
pub fn inner_lower_implicits(
db: &dyn LoweringGroup,
function_id: ConcreteFunctionWithBodyId,
lowered: &mut FlatLowered,
) -> Maybe<()> {
let semantic_function = function_id.function_with_body_id(db).base_semantic_function(db);
let location = LocationId::from_stable_location(
db,
StableLocation::new(semantic_function.untyped_stable_ptr(db.upcast())),
);
lowered.blocks.has_root()?;
let root_block_id = BlockId::root();
let mut variables = VariableAllocator::new(
db,
function_id.function_with_body_id(db).base_semantic_function(db),
lowered.variables.clone(),
)?;
let implicits_tys = db.function_with_body_implicits(function_id)?;
let implicit_index =
HashMap::from_iter(implicits_tys.iter().enumerate().map(|(i, ty)| (*ty, i)));
let mut ctx = Context {
db,
variables: &mut variables,
lowered,
implicit_index,
implicits_tys,
implicit_vars_for_block: Default::default(),
visited: Default::default(),
location,
};
lower_function_blocks_implicits(&mut ctx, root_block_id)?;
let implicit_vars = &ctx.implicit_vars_for_block[&root_block_id];
ctx.lowered.parameters.splice(0..0, implicit_vars.iter().map(|var_usage| var_usage.var_id));
lowered.variables = std::mem::take(&mut ctx.variables.variables);
Ok(())
}
fn alloc_implicits(
ctx: &mut VariableAllocator<'_>,
implicits_tys: &[TypeId],
location: LocationId,
) -> Vec<VarUsage> {
implicits_tys
.iter()
.copied()
.map(|ty| VarUsage { var_id: ctx.new_var(VarRequest { ty, location }), location })
.collect_vec()
}
fn block_body_implicits(
ctx: &mut Context<'_>,
block_id: BlockId,
) -> Result<Vec<VarUsage>, cairo_lang_diagnostics::DiagnosticAdded> {
let mut implicits = ctx
.implicit_vars_for_block
.entry(block_id)
.or_insert_with(|| {
alloc_implicits(
ctx.variables,
&ctx.implicits_tys,
ctx.location.with_auto_generation_note(ctx.db, "implicits"),
)
})
.clone();
let require_implicits_libfunc_id =
semantic::corelib::internal_require_implicit(ctx.db.upcast());
let mut remove = vec![];
for (i, statement) in ctx.lowered.blocks[block_id].statements.iter_mut().enumerate() {
if let Statement::Call(stmt) = statement {
if matches!(
stmt.function.lookup_intern(ctx.db),
FunctionLongId::Semantic(func_id)
if func_id.get_concrete(ctx.db.upcast()).generic_function == require_implicits_libfunc_id
) {
remove.push(i);
continue;
}
let callee_implicits = ctx.db.function_implicits(stmt.function)?;
let location = stmt.location.with_auto_generation_note(ctx.db, "implicits");
let indices = callee_implicits.iter().map(|ty| ctx.implicit_index[ty]).collect_vec();
let implicit_input_vars = indices.iter().map(|i| implicits[*i]);
stmt.inputs.splice(0..0, implicit_input_vars);
let implicit_output_vars = callee_implicits
.iter()
.copied()
.map(|ty| ctx.variables.new_var(VarRequest { ty, location }))
.collect_vec();
for (i, var) in zip_eq(indices, implicit_output_vars.iter()) {
implicits[i] = VarUsage { var_id: *var, location: ctx.variables[*var].location };
}
stmt.outputs.splice(0..0, implicit_output_vars);
}
}
for i in remove.into_iter().rev() {
ctx.lowered.blocks[block_id].statements.remove(i);
}
Ok(implicits)
}
fn lower_function_blocks_implicits(ctx: &mut Context<'_>, root_block_id: BlockId) -> Maybe<()> {
let mut blocks_to_visit = vec![root_block_id];
while let Some(block_id) = blocks_to_visit.pop() {
if !ctx.visited.insert(block_id) {
continue;
}
let implicits = block_body_implicits(ctx, block_id)?;
match &mut ctx.lowered.blocks[block_id].end {
FlatBlockEnd::Return(rets, _location) => {
rets.splice(0..0, implicits.iter().cloned());
}
FlatBlockEnd::Panic(_) => {
unreachable!("Panics should have been stripped in a previous phase.")
}
FlatBlockEnd::Goto(block_id, remapping) => {
let target_implicits = ctx
.implicit_vars_for_block
.entry(*block_id)
.or_insert_with(|| {
alloc_implicits(ctx.variables, &ctx.implicits_tys, ctx.location)
})
.clone();
let old_remapping = std::mem::take(&mut remapping.remapping);
remapping.remapping = chain!(
zip_eq(
target_implicits.into_iter().map(|var_usage| var_usage.var_id),
implicits
),
old_remapping
)
.collect();
blocks_to_visit.push(*block_id);
}
FlatBlockEnd::Match { info } => {
blocks_to_visit.extend(info.arms().iter().rev().map(|a| a.block_id));
match info {
MatchInfo::Enum(_) | MatchInfo::Value(_) => {
for MatchArm { arm_selector: _, block_id, var_ids: _ } in info.arms() {
assert!(
ctx.implicit_vars_for_block
.insert(*block_id, implicits.clone())
.is_none(),
"Multiple jumps to arm blocks are not allowed."
);
}
}
MatchInfo::Extern(stmt) => {
let callee_implicits = ctx.db.function_implicits(stmt.function)?;
let indices =
callee_implicits.iter().map(|ty| ctx.implicit_index[ty]).collect_vec();
let implicit_input_vars = indices.iter().map(|i| implicits[*i]);
stmt.inputs.splice(0..0, implicit_input_vars);
let location = stmt.location.with_auto_generation_note(ctx.db, "implicits");
for MatchArm { arm_selector: _, block_id, var_ids } in stmt.arms.iter_mut()
{
let mut arm_implicits = implicits.clone();
let mut implicit_input_vars = vec![];
for ty in callee_implicits.iter().copied() {
let var = ctx.variables.new_var(VarRequest { ty, location });
implicit_input_vars.push(var);
let implicit_index = ctx.implicit_index[&ty];
arm_implicits[implicit_index] = VarUsage { var_id: var, location };
}
assert!(
ctx.implicit_vars_for_block
.insert(*block_id, arm_implicits)
.is_none(),
"Multiple jumps to arm blocks are not allowed."
);
var_ids.splice(0..0, implicit_input_vars);
}
}
}
}
FlatBlockEnd::NotSet => unreachable!(),
}
}
Ok(())
}
pub fn function_implicits(db: &dyn LoweringGroup, function: FunctionId) -> Maybe<Vec<TypeId>> {
if let Some(body) = function.body(db.upcast())? {
return db.function_with_body_implicits(body);
}
Ok(function.signature(db)?.implicits)
}
pub trait FunctionImplicitsTrait<'a>: Upcast<dyn LoweringGroup + 'a> {
fn function_with_body_implicits(
&self,
function: ConcreteFunctionWithBodyId,
) -> Maybe<Vec<TypeId>> {
let db: &dyn LoweringGroup = self.upcast();
let semantic_db: &dyn SemanticGroup = db.upcast();
let scc_representative = db.concrete_function_with_body_scc_postpanic_representative(
function,
DependencyType::Call,
);
let mut implicits = db.scc_implicits(scc_representative)?;
let precedence = db.function_declaration_implicit_precedence(
function.function_with_body_id(db).base_semantic_function(db),
)?;
precedence.apply(&mut implicits, semantic_db);
Ok(implicits)
}
}
impl<'a, T: Upcast<dyn LoweringGroup + 'a> + ?Sized> FunctionImplicitsTrait<'a> for T {}
pub fn scc_implicits(db: &dyn LoweringGroup, scc: ConcreteSCCRepresentative) -> Maybe<Vec<TypeId>> {
let scc_functions = concrete_function_with_body_postpanic_scc(db, scc.0, DependencyType::Call);
let mut all_implicits = HashSet::new();
for function in scc_functions {
all_implicits.extend(function.function_id(db)?.signature(db)?.implicits);
let direct_callees = db
.concrete_function_with_body_postpanic_direct_callees(function, DependencyType::Call)?;
for direct_callee in direct_callees {
if let Some(callee_body) = direct_callee.body(db.upcast())? {
let callee_scc = db.concrete_function_with_body_scc_postpanic_representative(
callee_body,
DependencyType::Call,
);
if callee_scc != scc {
all_implicits.extend(db.scc_implicits(callee_scc)?);
}
} else {
all_implicits.extend(direct_callee.signature(db)?.implicits);
}
}
}
Ok(all_implicits.into_iter().collect())
}