use rustc_errors::struct_span_err; use rustc_middle::mir; use super::FunctionCx; use super::LocalRef; use super::OperandValue; use crate::traits::BuilderMethods; 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::LlvmInlineAsm(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 { struct_span_err!( bx.sess(), span.to_owned(), E0669, "invalid value for constraint in inline assembly" ) .emit(); } acc }, ); if input_vals.len() == asm.inputs.len() { let res = bx.codegen_llvm_inline_asm( &asm.asm, outputs, input_vals, statement.source_info.span, ); if !res { struct_span_err!( bx.sess(), statement.source_info.span, E0668, "malformed inline assembly" ) .emit(); } } bx } mir::StatementKind::Coverage(box ref coverage) => { self.codegen_coverage(&mut bx, coverage.clone(), statement.source_info.scope); bx } mir::StatementKind::CopyNonOverlapping(box mir::CopyNonOverlapping { ref src, ref dst, ref count, }) => { let dst_val = self.codegen_operand(&mut bx, dst); let src_val = self.codegen_operand(&mut bx, src); let count = self.codegen_operand(&mut bx, count).immediate(); let pointee_layout = dst_val .layout .pointee_info_at(&mut bx, rustc_target::abi::Size::ZERO) .expect("Expected pointer"); let bytes = bx.mul(count, bx.const_usize(pointee_layout.size.bytes())); let align = pointee_layout.align; let dst = dst_val.immediate(); let src = src_val.immediate(); bx.memcpy(dst, align, src, align, bytes, crate::MemFlags::empty()); bx } mir::StatementKind::FakeRead(..) | mir::StatementKind::Retag { .. } | mir::StatementKind::AscribeUserType(..) | mir::StatementKind::Nop => bx, } } }