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|
use rustc::mir;
use crate::traits::BuilderMethods;
use super::FunctionCx;
use super::LocalRef;
use super::OperandValue;
use crate::traits::*;
impl<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>> FunctionCx<'a, 'tcx, Bx> {
pub fn codegen_statement(
&mut self,
mut bx: Bx,
statement: &mir::Statement<'tcx>
) -> Bx {
debug!("codegen_statement(statement={:?})", statement);
self.set_debug_loc(&mut bx, statement.source_info);
match statement.kind {
mir::StatementKind::Assign(box(ref place, ref rvalue)) => {
if let Some(index) = place.as_local() {
match self.locals[index] {
LocalRef::Place(cg_dest) => {
self.codegen_rvalue(bx, cg_dest, rvalue)
}
LocalRef::UnsizedPlace(cg_indirect_dest) => {
self.codegen_rvalue_unsized(bx, cg_indirect_dest, rvalue)
}
LocalRef::Operand(None) => {
let (mut bx, operand) = self.codegen_rvalue_operand(bx, rvalue);
self.locals[index] = LocalRef::Operand(Some(operand));
self.debug_introduce_local(&mut bx, index);
bx
}
LocalRef::Operand(Some(op)) => {
if !op.layout.is_zst() {
span_bug!(statement.source_info.span,
"operand {:?} already assigned",
rvalue);
}
// If the type is zero-sized, it's already been set here,
// but we still need to make sure we codegen the operand
self.codegen_rvalue_operand(bx, rvalue).0
}
}
} else {
let cg_dest = self.codegen_place(&mut bx, &place.as_ref());
self.codegen_rvalue(bx, cg_dest, rvalue)
}
}
mir::StatementKind::SetDiscriminant{box ref place, variant_index} => {
self.codegen_place(&mut bx, &place.as_ref())
.codegen_set_discr(&mut bx, variant_index);
bx
}
mir::StatementKind::StorageLive(local) => {
if let LocalRef::Place(cg_place) = self.locals[local] {
cg_place.storage_live(&mut bx);
} else if let LocalRef::UnsizedPlace(cg_indirect_place) = self.locals[local] {
cg_indirect_place.storage_live(&mut bx);
}
bx
}
mir::StatementKind::StorageDead(local) => {
if let LocalRef::Place(cg_place) = self.locals[local] {
cg_place.storage_dead(&mut bx);
} else if let LocalRef::UnsizedPlace(cg_indirect_place) = self.locals[local] {
cg_indirect_place.storage_dead(&mut bx);
}
bx
}
mir::StatementKind::InlineAsm(ref asm) => {
let outputs = asm.outputs.iter().map(|output| {
self.codegen_place(&mut bx, &output.as_ref())
}).collect();
let input_vals = asm.inputs.iter()
.fold(Vec::with_capacity(asm.inputs.len()), |mut acc, (span, input)| {
let op = self.codegen_operand(&mut bx, input);
if let OperandValue::Immediate(_) = op.val {
acc.push(op.immediate());
} else {
span_err!(bx.sess(), span.to_owned(), E0669,
"invalid value for constraint in inline assembly");
}
acc
});
if input_vals.len() == asm.inputs.len() {
let res = bx.codegen_inline_asm(
&asm.asm,
outputs,
input_vals,
statement.source_info.span,
);
if !res {
span_err!(bx.sess(), statement.source_info.span, E0668,
"malformed inline assembly");
}
}
bx
}
mir::StatementKind::FakeRead(..) |
mir::StatementKind::Retag { .. } |
mir::StatementKind::AscribeUserType(..) |
mir::StatementKind::Nop => bx,
}
}
}
|
