rust/src/base.rs

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use rustc_middle::ty::adjustment::PointerCast;
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use rustc_index::vec::IndexVec;
use crate::prelude::*;
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pub(crate) fn trans_fn<'tcx, B: Backend + 'static>(
cx: &mut crate::CodegenCx<'tcx, B>,
instance: Instance<'tcx>,
linkage: Linkage,
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) {
let tcx = cx.tcx;
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let mir = tcx.instance_mir(instance.def);
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// Declare function
let (name, sig) = get_function_name_and_sig(tcx, cx.module.isa().triple(), instance, false);
let func_id = cx.module.declare_function(&name, linkage, &sig).unwrap();
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// Make the FunctionBuilder
let mut func_ctx = FunctionBuilderContext::new();
cx.cached_context.clear();
let mut func = std::mem::replace(&mut cx.cached_context.func, Function::new());
func.name = ExternalName::user(0, func_id.as_u32());
func.signature = sig;
func.collect_debug_info();
let mut bcx = FunctionBuilder::new(&mut func, &mut func_ctx);
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// Predefine blocks
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let start_block = bcx.create_block();
let block_map: IndexVec<BasicBlock, Block> = (0..mir.basic_blocks().len()).map(|_| bcx.create_block()).collect();
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// Make FunctionCx
let pointer_type = cx.module.target_config().pointer_type();
let clif_comments = crate::pretty_clif::CommentWriter::new(tcx, instance);
let mut fx = FunctionCx {
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cx,
tcx,
pointer_type,
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instance,
mir,
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bcx,
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block_map,
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local_map: FxHashMap::with_capacity_and_hasher(mir.local_decls.len(), Default::default()),
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caller_location: None, // set by `codegen_fn_prelude`
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cold_blocks: EntitySet::new(),
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clif_comments,
source_info_set: indexmap::IndexSet::new(),
next_ssa_var: 0,
inline_asm_index: 0,
};
let arg_uninhabited = fx.mir.args_iter().any(|arg| fx.layout_of(fx.monomorphize(&fx.mir.local_decls[arg].ty)).abi.is_uninhabited());
if arg_uninhabited {
fx.bcx.append_block_params_for_function_params(fx.block_map[START_BLOCK]);
fx.bcx.switch_to_block(fx.block_map[START_BLOCK]);
crate::trap::trap_unreachable(&mut fx, "function has uninhabited argument");
} else {
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tcx.sess.time("codegen clif ir", || {
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tcx.sess.time("codegen prelude", || crate::abi::codegen_fn_prelude(&mut fx, start_block));
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codegen_fn_content(&mut fx);
});
}
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// Recover all necessary data from fx, before accessing func will prevent future access to it.
let instance = fx.instance;
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let mut clif_comments = fx.clif_comments;
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let source_info_set = fx.source_info_set;
let local_map = fx.local_map;
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let cold_blocks = fx.cold_blocks;
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// Store function in context
let context = &mut cx.cached_context;
context.func = func;
crate::pretty_clif::write_clif_file(
tcx,
"unopt",
None,
instance,
&context,
&clif_comments,
);
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// Verify function
verify_func(tcx, &clif_comments, &context.func);
// Perform rust specific optimizations
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tcx.sess.time("optimize clif ir", || {
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crate::optimize::optimize_function(tcx, instance, context, &cold_blocks, &mut clif_comments);
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});
// If the return block is not reachable, then the SSA builder may have inserted a `iconst.i128`
// instruction, which doesn't have an encoding.
context.compute_cfg();
context.compute_domtree();
context.eliminate_unreachable_code(cx.module.isa()).unwrap();
// Define function
let module = &mut cx.module;
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tcx.sess.time(
"define function",
|| module.define_function(
func_id,
context,
&mut cranelift_codegen::binemit::NullTrapSink {},
).unwrap(),
);
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// Write optimized function to file for debugging
crate::pretty_clif::write_clif_file(
tcx,
"opt",
Some(cx.module.isa()),
instance,
&context,
&clif_comments,
);
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// Define debuginfo for function
let isa = cx.module.isa();
let debug_context = &mut cx.debug_context;
let unwind_context = &mut cx.unwind_context;
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tcx.sess.time("generate debug info", || {
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if let Some(debug_context) = debug_context {
debug_context.define_function(instance, func_id, &name, isa, context, &source_info_set, local_map);
}
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unwind_context.add_function(func_id, &context, isa);
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});
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// Clear context to make it usable for the next function
context.clear();
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}
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pub(crate) fn verify_func(tcx: TyCtxt<'_>, writer: &crate::pretty_clif::CommentWriter, func: &Function) {
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tcx.sess.time("verify clif ir", || {
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let flags = cranelift_codegen::settings::Flags::new(cranelift_codegen::settings::builder());
match cranelift_codegen::verify_function(&func, &flags) {
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Ok(_) => {}
Err(err) => {
tcx.sess.err(&format!("{:?}", err));
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let pretty_error = cranelift_codegen::print_errors::pretty_verifier_error(
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&func,
None,
Some(Box::new(writer)),
err,
);
tcx.sess
.fatal(&format!("cranelift verify error:\n{}", pretty_error));
}
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}
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});
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}
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fn codegen_fn_content(fx: &mut FunctionCx<'_, '_, impl Backend>) {
crate::constant::check_constants(fx);
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for (bb, bb_data) in fx.mir.basic_blocks().iter_enumerated() {
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let block = fx.get_block(bb);
fx.bcx.switch_to_block(block);
if bb_data.is_cleanup {
// Unwinding after panicking is not supported
continue;
// FIXME once unwinding is supported uncomment next lines
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// // Unwinding is unlikely to happen, so mark cleanup block's as cold.
// fx.cold_blocks.insert(block);
}
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fx.bcx.ins().nop();
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for stmt in &bb_data.statements {
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fx.set_debug_loc(stmt.source_info);
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trans_stmt(fx, block, stmt);
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}
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#[cfg(debug_assertions)]
{
let mut terminator_head = "\n".to_string();
bb_data
.terminator()
.kind
.fmt_head(&mut terminator_head)
.unwrap();
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let inst = fx.bcx.func.layout.last_inst(block).unwrap();
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fx.add_comment(inst, terminator_head);
}
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fx.set_debug_loc(bb_data.terminator().source_info);
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match &bb_data.terminator().kind {
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TerminatorKind::Goto { target } => {
if let TerminatorKind::Return = fx.mir[*target].terminator().kind {
let mut can_immediately_return = true;
for stmt in &fx.mir[*target].statements {
if let StatementKind::StorageDead(_) = stmt.kind {
} else {
// FIXME Can sometimes happen, see rust-lang/rust#70531
can_immediately_return = false;
break;
}
}
if can_immediately_return {
crate::abi::codegen_return(fx);
continue;
}
}
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let block = fx.get_block(*target);
fx.bcx.ins().jump(block, &[]);
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}
TerminatorKind::Return => {
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crate::abi::codegen_return(fx);
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}
TerminatorKind::Assert {
cond,
expected,
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msg,
target,
cleanup: _,
} => {
if !fx.tcx.sess.overflow_checks() {
if let mir::AssertKind::OverflowNeg(_) = *msg {
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let target = fx.get_block(*target);
fx.bcx.ins().jump(target, &[]);
continue;
}
}
let cond = trans_operand(fx, cond).load_scalar(fx);
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let target = fx.get_block(*target);
let failure = fx.bcx.create_block();
fx.cold_blocks.insert(failure);
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if *expected {
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fx.bcx.ins().brz(cond, failure, &[]);
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} else {
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fx.bcx.ins().brnz(cond, failure, &[]);
};
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fx.bcx.ins().jump(target, &[]);
fx.bcx.switch_to_block(failure);
let location = fx.get_caller_location(bb_data.terminator().source_info.span).load_scalar(fx);
let args;
let lang_item = match msg {
AssertKind::BoundsCheck { ref len, ref index } => {
let len = trans_operand(fx, len).load_scalar(fx);
let index = trans_operand(fx, index).load_scalar(fx);
args = [index, len, location];
rustc_hir::lang_items::PanicBoundsCheckFnLangItem
}
_ => {
let msg_str = msg.description();
let msg_ptr = fx.anonymous_str("assert", msg_str);
let msg_len = fx.bcx.ins().iconst(fx.pointer_type, i64::try_from(msg_str.len()).unwrap());
args = [msg_ptr, msg_len, location];
rustc_hir::lang_items::PanicFnLangItem
}
};
let def_id = fx.tcx.lang_items().require(lang_item).unwrap_or_else(|s| {
fx.tcx.sess.span_fatal(bb_data.terminator().source_info.span, &s)
});
let instance = Instance::mono(fx.tcx, def_id).polymorphize(fx.tcx);
let symbol_name = fx.tcx.symbol_name(instance).name;
fx.lib_call(&*symbol_name, vec![fx.pointer_type, fx.pointer_type, fx.pointer_type], vec![], &args);
crate::trap::trap_unreachable(fx, "panic lang item returned");
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}
TerminatorKind::SwitchInt {
discr,
switch_ty: _,
values,
targets,
} => {
let discr = trans_operand(fx, discr).load_scalar(fx);
let mut switch = ::cranelift_frontend::Switch::new();
for (i, value) in values.iter().enumerate() {
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let block = fx.get_block(targets[i]);
switch.set_entry(*value, block);
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}
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let otherwise_block = fx.get_block(targets[targets.len() - 1]);
switch.emit(&mut fx.bcx, discr, otherwise_block);
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}
TerminatorKind::Call {
func,
args,
destination,
fn_span,
cleanup: _,
from_hir_call: _,
} => {
fx.tcx.sess.time("codegen call", || crate::abi::codegen_terminator_call(
fx,
*fn_span,
block,
func,
args,
*destination,
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));
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}
TerminatorKind::InlineAsm {
template,
operands,
options,
destination,
line_spans: _,
} => {
crate::inline_asm::codegen_inline_asm(
fx,
bb_data.terminator().source_info.span,
template,
operands,
*options,
);
match *destination {
Some(destination) => {
let destination_block = fx.get_block(destination);
fx.bcx.ins().jump(destination_block, &[]);
}
None => {
crate::trap::trap_unreachable(fx, "[corruption] Returned from noreturn inline asm");
}
}
}
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TerminatorKind::Resume | TerminatorKind::Abort => {
trap_unreachable(fx, "[corruption] Unwinding bb reached.");
}
TerminatorKind::Unreachable => {
trap_unreachable(fx, "[corruption] Hit unreachable code.");
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}
TerminatorKind::Yield { .. }
| TerminatorKind::FalseEdge { .. }
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| TerminatorKind::FalseUnwind { .. }
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| TerminatorKind::DropAndReplace { .. }
| TerminatorKind::GeneratorDrop => {
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bug!("shouldn't exist at trans {:?}", bb_data.terminator());
}
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TerminatorKind::Drop {
place,
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target,
unwind: _,
} => {
let drop_place = trans_place(fx, *place);
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crate::abi::codegen_drop(fx, bb_data.terminator().source_info.span, drop_place);
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let target_block = fx.get_block(*target);
fx.bcx.ins().jump(target_block, &[]);
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}
};
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}
fx.bcx.seal_all_blocks();
fx.bcx.finalize();
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}
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fn trans_stmt<'tcx>(
fx: &mut FunctionCx<'_, 'tcx, impl Backend>,
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#[allow(unused_variables)]
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cur_block: Block,
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stmt: &Statement<'tcx>,
) {
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let _print_guard = crate::PrintOnPanic(|| format!("stmt {:?}", stmt));
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fx.set_debug_loc(stmt.source_info);
#[cfg(false_debug_assertions)]
match &stmt.kind {
StatementKind::StorageLive(..) | StatementKind::StorageDead(..) => {} // Those are not very useful
_ => {
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let inst = fx.bcx.func.layout.last_inst(cur_block).unwrap();
fx.add_comment(inst, format!("{:?}", stmt));
}
}
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match &stmt.kind {
StatementKind::SetDiscriminant {
place,
variant_index,
} => {
let place = trans_place(fx, **place);
crate::discriminant::codegen_set_discriminant(fx, place, *variant_index);
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}
StatementKind::Assign(to_place_and_rval) => {
let lval = trans_place(fx, to_place_and_rval.0);
let dest_layout = lval.layout();
match &to_place_and_rval.1 {
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Rvalue::Use(operand) => {
let val = trans_operand(fx, operand);
lval.write_cvalue(fx, val);
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}
Rvalue::Ref(_, _, place) | Rvalue::AddressOf(_, place) => {
let place = trans_place(fx, *place);
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place.write_place_ref(fx, lval);
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}
Rvalue::ThreadLocalRef(def_id) => {
let val = crate::constant::codegen_tls_ref(fx, *def_id, lval.layout());
lval.write_cvalue(fx, val);
}
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Rvalue::BinaryOp(bin_op, lhs, rhs) => {
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let lhs = trans_operand(fx, lhs);
let rhs = trans_operand(fx, rhs);
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let res = crate::num::codegen_binop(fx, *bin_op, lhs, rhs);
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lval.write_cvalue(fx, res);
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}
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Rvalue::CheckedBinaryOp(bin_op, lhs, rhs) => {
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let lhs = trans_operand(fx, lhs);
let rhs = trans_operand(fx, rhs);
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let res = if !fx.tcx.sess.overflow_checks() {
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let val =
crate::num::trans_int_binop(fx, *bin_op, lhs, rhs).load_scalar(fx);
let is_overflow = fx.bcx.ins().iconst(types::I8, 0);
CValue::by_val_pair(val, is_overflow, lval.layout())
} else {
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crate::num::trans_checked_int_binop(fx, *bin_op, lhs, rhs)
};
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lval.write_cvalue(fx, res);
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}
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Rvalue::UnaryOp(un_op, operand) => {
let operand = trans_operand(fx, operand);
let layout = operand.layout();
let val = operand.load_scalar(fx);
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let res = match un_op {
UnOp::Not => {
match layout.ty.kind {
ty::Bool => {
let res = fx.bcx.ins().icmp_imm(IntCC::Equal, val, 0);
CValue::by_val(fx.bcx.ins().bint(types::I8, res), layout)
}
ty::Uint(_) | ty::Int(_) => {
CValue::by_val(fx.bcx.ins().bnot(val), layout)
}
_ => unreachable!("un op Not for {:?}", layout.ty),
}
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}
UnOp::Neg => match layout.ty.kind {
ty::Int(IntTy::I128) => {
// FIXME remove this case once ineg.i128 works
let zero = CValue::const_val(fx, layout, 0);
crate::num::trans_int_binop(fx, BinOp::Sub, zero, operand)
}
ty::Int(_) => {
CValue::by_val(fx.bcx.ins().ineg(val), layout)
}
ty::Float(_) => {
CValue::by_val(fx.bcx.ins().fneg(val), layout)
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}
_ => unreachable!("un op Neg for {:?}", layout.ty),
},
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};
lval.write_cvalue(fx, res);
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}
Rvalue::Cast(CastKind::Pointer(PointerCast::ReifyFnPointer), operand, to_ty) => {
let from_ty = fx.monomorphize(&operand.ty(&fx.mir.local_decls, fx.tcx));
let to_layout = fx.layout_of(fx.monomorphize(to_ty));
match from_ty.kind {
ty::FnDef(def_id, substs) => {
let func_ref = fx.get_function_ref(
Instance::resolve_for_fn_ptr(fx.tcx, ParamEnv::reveal_all(), def_id, substs)
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.unwrap()
.polymorphize(fx.tcx),
);
let func_addr = fx.bcx.ins().func_addr(fx.pointer_type, func_ref);
lval.write_cvalue(fx, CValue::by_val(func_addr, to_layout));
}
_ => bug!("Trying to ReifyFnPointer on non FnDef {:?}", from_ty),
}
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}
Rvalue::Cast(CastKind::Pointer(PointerCast::UnsafeFnPointer), operand, to_ty)
| Rvalue::Cast(CastKind::Pointer(PointerCast::MutToConstPointer), operand, to_ty)
| Rvalue::Cast(CastKind::Pointer(PointerCast::ArrayToPointer), operand, to_ty) => {
let to_layout = fx.layout_of(fx.monomorphize(to_ty));
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let operand = trans_operand(fx, operand);
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lval.write_cvalue(fx, operand.cast_pointer_to(to_layout));
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}
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Rvalue::Cast(CastKind::Misc, operand, to_ty) => {
let operand = trans_operand(fx, operand);
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let from_ty = operand.layout().ty;
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let to_ty = fx.monomorphize(to_ty);
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fn is_fat_ptr<'tcx>(
fx: &FunctionCx<'_, 'tcx, impl Backend>,
ty: Ty<'tcx>,
) -> bool {
ty.builtin_deref(true)
.map(
|ty::TypeAndMut {
ty: pointee_ty,
mutbl: _,
}| has_ptr_meta(fx.tcx, pointee_ty),
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)
.unwrap_or(false)
}
if is_fat_ptr(fx, from_ty) {
if is_fat_ptr(fx, to_ty) {
// fat-ptr -> fat-ptr
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lval.write_cvalue(fx, operand.cast_pointer_to(dest_layout));
} else {
// fat-ptr -> thin-ptr
let (ptr, _extra) = operand.load_scalar_pair(fx);
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lval.write_cvalue(fx, CValue::by_val(ptr, dest_layout))
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}
} else if let ty::Adt(adt_def, _substs) = from_ty.kind {
// enum -> discriminant value
assert!(adt_def.is_enum());
match to_ty.kind {
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ty::Uint(_) | ty::Int(_) => {}
_ => unreachable!("cast adt {} -> {}", from_ty, to_ty),
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}
use rustc_target::abi::{TagEncoding, Int, Variants};
match &operand.layout().variants {
Variants::Single { index } => {
let discr = operand.layout().ty.discriminant_for_variant(fx.tcx, *index).unwrap();
let discr = if discr.ty.is_signed() {
rustc_middle::mir::interpret::sign_extend(discr.val, fx.layout_of(discr.ty).size)
} else {
discr.val
};
let discr = CValue::const_val(fx, fx.layout_of(to_ty), discr);
lval.write_cvalue(fx, discr);
}
Variants::Multiple {
tag,
tag_field,
tag_encoding: TagEncoding::Direct,
variants: _,
} => {
let cast_to = fx.clif_type(dest_layout.ty).unwrap();
// Read the tag/niche-encoded discriminant from memory.
let encoded_discr = operand.value_field(fx, mir::Field::new(*tag_field));
let encoded_discr = encoded_discr.load_scalar(fx);
// Decode the discriminant (specifically if it's niche-encoded).
let signed = match tag.value {
Int(_, signed) => signed,
_ => false,
};
let val = clif_intcast(fx, encoded_discr, cast_to, signed);
let val = CValue::by_val(val, dest_layout);
lval.write_cvalue(fx, val);
}
Variants::Multiple { ..} => unreachable!(),
}
} else {
let to_clif_ty = fx.clif_type(to_ty).unwrap();
let from = operand.load_scalar(fx);
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let res = clif_int_or_float_cast(
fx,
from,
type_sign(from_ty),
to_clif_ty,
type_sign(to_ty),
);
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lval.write_cvalue(fx, CValue::by_val(res, dest_layout));
}
}
Rvalue::Cast(CastKind::Pointer(PointerCast::ClosureFnPointer(_)), operand, _to_ty) => {
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let operand = trans_operand(fx, operand);
match operand.layout().ty.kind {
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ty::Closure(def_id, substs) => {
let instance = Instance::resolve_closure(
fx.tcx,
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def_id,
substs,
ty::ClosureKind::FnOnce,
).polymorphize(fx.tcx);
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let func_ref = fx.get_function_ref(instance);
let func_addr = fx.bcx.ins().func_addr(fx.pointer_type, func_ref);
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lval.write_cvalue(fx, CValue::by_val(func_addr, lval.layout()));
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}
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_ => bug!("{} cannot be cast to a fn ptr", operand.layout().ty),
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}
}
Rvalue::Cast(CastKind::Pointer(PointerCast::Unsize), operand, _to_ty) => {
let operand = trans_operand(fx, operand);
operand.unsize_value(fx, lval);
}
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Rvalue::Discriminant(place) => {
let place = trans_place(fx, *place);
let value = place.to_cvalue(fx);
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let discr =
crate::discriminant::codegen_get_discriminant(fx, value, dest_layout);
lval.write_cvalue(fx, discr);
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}
Rvalue::Repeat(operand, times) => {
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let operand = trans_operand(fx, operand);
let times = fx
.monomorphize(times)
.eval(fx.tcx, ParamEnv::reveal_all())
.val
.try_to_bits(fx.tcx.data_layout.pointer_size)
.unwrap();
for i in 0..times {
let index = fx.bcx.ins().iconst(fx.pointer_type, i as i64);
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let to = lval.place_index(fx, index);
to.write_cvalue(fx, operand);
}
}
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Rvalue::Len(place) => {
let place = trans_place(fx, *place);
let usize_layout = fx.layout_of(fx.tcx.types.usize);
let len = codegen_array_len(fx, place);
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lval.write_cvalue(fx, CValue::by_val(len, usize_layout));
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}
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Rvalue::NullaryOp(NullOp::Box, content_ty) => {
use rustc_hir::lang_items::ExchangeMallocFnLangItem;
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let usize_type = fx.clif_type(fx.tcx.types.usize).unwrap();
let content_ty = fx.monomorphize(content_ty);
let layout = fx.layout_of(content_ty);
let llsize = fx.bcx.ins().iconst(usize_type, layout.size.bytes() as i64);
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let llalign = fx
.bcx
.ins()
.iconst(usize_type, layout.align.abi.bytes() as i64);
let box_layout = fx.layout_of(fx.tcx.mk_box(content_ty));
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// Allocate space:
let def_id = match fx.tcx.lang_items().require(ExchangeMallocFnLangItem) {
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Ok(id) => id,
Err(s) => {
fx.tcx
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.sess
.fatal(&format!("allocation of `{}` {}", box_layout.ty, s));
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}
};
let instance = ty::Instance::mono(fx.tcx, def_id).polymorphize(fx.tcx);
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let func_ref = fx.get_function_ref(instance);
let call = fx.bcx.ins().call(func_ref, &[llsize, llalign]);
let ptr = fx.bcx.inst_results(call)[0];
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lval.write_cvalue(fx, CValue::by_val(ptr, box_layout));
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}
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Rvalue::NullaryOp(NullOp::SizeOf, ty) => {
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assert!(lval
.layout()
.ty
.is_sized(fx.tcx.at(stmt.source_info.span), ParamEnv::reveal_all()));
let ty_size = fx.layout_of(fx.monomorphize(ty)).size.bytes();
let val = CValue::const_val(fx, fx.layout_of(fx.tcx.types.usize), ty_size.into());
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lval.write_cvalue(fx, val);
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}
Rvalue::Aggregate(kind, operands) => match **kind {
AggregateKind::Array(_ty) => {
for (i, operand) in operands.into_iter().enumerate() {
let operand = trans_operand(fx, operand);
let index = fx.bcx.ins().iconst(fx.pointer_type, i as i64);
let to = lval.place_index(fx, index);
to.write_cvalue(fx, operand);
}
}
_ => unreachable!("shouldn't exist at trans {:?}", to_place_and_rval.1),
},
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}
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}
StatementKind::StorageLive(_)
| StatementKind::StorageDead(_)
| StatementKind::Nop
| StatementKind::FakeRead(..)
| StatementKind::Retag { .. }
| StatementKind::AscribeUserType(..) => {}
StatementKind::LlvmInlineAsm(asm) => {
use rustc_span::symbol::Symbol;
let LlvmInlineAsm {
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asm,
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outputs,
inputs,
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} = &**asm;
let rustc_hir::LlvmInlineAsmInner {
asm: asm_code, // Name
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outputs: output_names, // Vec<LlvmInlineAsmOutput>
inputs: input_names, // Vec<Name>
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clobbers, // Vec<Name>
volatile, // bool
alignstack, // bool
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dialect: _,
asm_str_style: _,
} = asm;
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match asm_code.as_str().trim() {
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"" => {
// Black box
}
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"mov %rbx, %rsi\n cpuid\n xchg %rbx, %rsi" => {
assert_eq!(input_names, &[Symbol::intern("{eax}"), Symbol::intern("{ecx}")]);
assert_eq!(output_names.len(), 4);
for (i, c) in (&["={eax}", "={esi}", "={ecx}", "={edx}"]).iter().enumerate() {
assert_eq!(&output_names[i].constraint.as_str(), c);
assert!(!output_names[i].is_rw);
assert!(!output_names[i].is_indirect);
}
assert_eq!(clobbers, &[]);
assert!(!volatile);
assert!(!alignstack);
assert_eq!(inputs.len(), 2);
let leaf = trans_operand(fx, &inputs[0].1).load_scalar(fx); // %eax
let subleaf = trans_operand(fx, &inputs[1].1).load_scalar(fx); // %ecx
let (eax, ebx, ecx, edx) = crate::intrinsics::codegen_cpuid_call(fx, leaf, subleaf);
assert_eq!(outputs.len(), 4);
trans_place(fx, outputs[0]).write_cvalue(fx, CValue::by_val(eax, fx.layout_of(fx.tcx.types.u32)));
trans_place(fx, outputs[1]).write_cvalue(fx, CValue::by_val(ebx, fx.layout_of(fx.tcx.types.u32)));
trans_place(fx, outputs[2]).write_cvalue(fx, CValue::by_val(ecx, fx.layout_of(fx.tcx.types.u32)));
trans_place(fx, outputs[3]).write_cvalue(fx, CValue::by_val(edx, fx.layout_of(fx.tcx.types.u32)));
}
"xgetbv" => {
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assert_eq!(input_names, &[Symbol::intern("{ecx}")]);
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assert_eq!(output_names.len(), 2);
for (i, c) in (&["={eax}", "={edx}"]).iter().enumerate() {
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assert_eq!(&output_names[i].constraint.as_str(), c);
assert!(!output_names[i].is_rw);
assert!(!output_names[i].is_indirect);
}
assert_eq!(clobbers, &[]);
assert!(!volatile);
assert!(!alignstack);
crate::trap::trap_unimplemented(fx, "_xgetbv arch intrinsic is not supported");
}
// ___chkstk, ___chkstk_ms and __alloca are only used on Windows
_ if fx.tcx.symbol_name(fx.instance).name.starts_with("___chkstk") => {
crate::trap::trap_unimplemented(fx, "Stack probes are not supported");
}
_ if fx.tcx.symbol_name(fx.instance).name == "__alloca" => {
crate::trap::trap_unimplemented(fx, "Alloca is not supported");
}
// Used in sys::windows::abort_internal
"int $$0x29" => {
crate::trap::trap_unimplemented(fx, "Windows abort");
}
_ => fx.tcx.sess.span_fatal(stmt.source_info.span, "Inline assembly is not supported"),
}
}
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}
}
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fn codegen_array_len<'tcx>(
fx: &mut FunctionCx<'_, 'tcx, impl Backend>,
place: CPlace<'tcx>,
) -> Value {
match place.layout().ty.kind {
ty::Array(_elem_ty, len) => {
let len = fx.monomorphize(&len)
.eval(fx.tcx, ParamEnv::reveal_all())
.eval_usize(fx.tcx, ParamEnv::reveal_all()) as i64;
fx.bcx.ins().iconst(fx.pointer_type, len)
}
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ty::Slice(_elem_ty) => place
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.to_ptr_maybe_unsized()
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.1
.expect("Length metadata for slice place"),
_ => bug!("Rvalue::Len({:?})", place),
}
}
pub(crate) fn trans_place<'tcx>(
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fx: &mut FunctionCx<'_, 'tcx, impl Backend>,
place: Place<'tcx>,
) -> CPlace<'tcx> {
let mut cplace = fx.get_local_place(place.local);
for elem in place.projection {
match elem {
PlaceElem::Deref => {
cplace = cplace.place_deref(fx);
}
PlaceElem::Field(field, _ty) => {
cplace = cplace.place_field(fx, field);
}
PlaceElem::Index(local) => {
let index = fx.get_local_place(local).to_cvalue(fx).load_scalar(fx);
cplace = cplace.place_index(fx, index);
}
PlaceElem::ConstantIndex {
offset,
min_length: _,
from_end,
} => {
let index = if !from_end {
fx.bcx.ins().iconst(fx.pointer_type, i64::from(offset))
} else {
let len = codegen_array_len(fx, cplace);
fx.bcx.ins().iadd_imm(len, -i64::from(offset))
};
cplace = cplace.place_index(fx, index);
}
PlaceElem::Subslice { from, to, from_end } => {
// These indices are generated by slice patterns.
// slice[from:-to] in Python terms.
match cplace.layout().ty.kind {
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ty::Array(elem_ty, _len) => {
assert!(!from_end, "array subslices are never `from_end`");
let elem_layout = fx.layout_of(elem_ty);
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let ptr = cplace.to_ptr();
cplace = CPlace::for_ptr(
ptr.offset_i64(fx, elem_layout.size.bytes() as i64 * i64::from(from)),
fx.layout_of(fx.tcx.mk_array(elem_ty, u64::from(to) - u64::from(from))),
);
}
ty::Slice(elem_ty) => {
assert!(from_end, "slice subslices should be `from_end`");
let elem_layout = fx.layout_of(elem_ty);
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let (ptr, len) = cplace.to_ptr_maybe_unsized();
let len = len.unwrap();
cplace = CPlace::for_ptr_with_extra(
ptr.offset_i64(fx, elem_layout.size.bytes() as i64 * i64::from(from)),
fx.bcx.ins().iadd_imm(len, -(i64::from(from) + i64::from(to))),
cplace.layout(),
);
}
_ => unreachable!(),
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}
}
PlaceElem::Downcast(_adt_def, variant) => {
cplace = cplace.downcast_variant(fx, variant);
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}
}
}
cplace
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}
pub(crate) fn trans_operand<'tcx>(
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fx: &mut FunctionCx<'_, 'tcx, impl Backend>,
operand: &Operand<'tcx>,
) -> CValue<'tcx> {
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match operand {
Operand::Move(place) | Operand::Copy(place) => {
let cplace = trans_place(fx, *place);
cplace.to_cvalue(fx)
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}
Operand::Constant(const_) => crate::constant::trans_constant(fx, const_),
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}
}