43a86f14d5
This also paves the way for unifying TargetIsa and MachBackend, since now they map one to one. In theory the two traits could be merged, which would be nice to limit the number of total concepts. Also they have quite different responsibilities, so it might be fine to keep them separate. Interestingly, this PR started as removing RegInfo from the TargetIsa trait since the adapter returned a dummy value there. From the fallout, noticed that all Display implementations didn't needed an ISA anymore (since these were only used to render ISA specific registers). Also the whole family of RegInfo / ValueLoc / RegUnit was exclusively used for the old backend, and these could be removed. Notably, some IR instructions needed to be removed, because they were using RegUnit too: this was the oddball of regfill / regmove / regspill / copy_special, which were IR instructions inserted by the old regalloc. Fare thee well!
216 lines
7.3 KiB
Rust
216 lines
7.3 KiB
Rust
use cranelift_codegen::binemit::{NullStackMapSink, NullTrapSink};
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use cranelift_codegen::ir::*;
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use cranelift_codegen::isa::CallConv;
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use cranelift_codegen::settings::{self, Configurable};
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use cranelift_codegen::{ir::types::I16, Context};
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use cranelift_entity::EntityRef;
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use cranelift_frontend::*;
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use cranelift_jit::*;
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use cranelift_module::*;
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#[test]
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fn error_on_incompatible_sig_in_declare_function() {
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let mut flag_builder = settings::builder();
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flag_builder.set("use_colocated_libcalls", "false").unwrap();
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// FIXME set back to true once the x64 backend supports it.
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flag_builder.set("is_pic", "false").unwrap();
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let isa_builder = cranelift_native::builder().unwrap_or_else(|msg| {
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panic!("host machine is not supported: {}", msg);
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});
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let isa = isa_builder.finish(settings::Flags::new(flag_builder));
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let mut module = JITModule::new(JITBuilder::with_isa(isa, default_libcall_names()));
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let mut sig = Signature {
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params: vec![AbiParam::new(types::I64)],
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returns: vec![],
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call_conv: CallConv::SystemV,
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};
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module
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.declare_function("abc", Linkage::Local, &sig)
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.unwrap();
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sig.params[0] = AbiParam::new(types::I32);
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module
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.declare_function("abc", Linkage::Local, &sig)
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.err()
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.unwrap(); // Make sure this is an error
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}
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fn define_simple_function(module: &mut JITModule) -> FuncId {
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let sig = Signature {
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params: vec![],
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returns: vec![],
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call_conv: CallConv::SystemV,
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};
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let func_id = module
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.declare_function("abc", Linkage::Local, &sig)
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.unwrap();
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let mut ctx = Context::new();
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ctx.func = Function::with_name_signature(ExternalName::user(0, func_id.as_u32()), sig);
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let mut func_ctx = FunctionBuilderContext::new();
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{
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let mut bcx: FunctionBuilder = FunctionBuilder::new(&mut ctx.func, &mut func_ctx);
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let block = bcx.create_block();
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bcx.switch_to_block(block);
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bcx.ins().return_(&[]);
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}
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let mut trap_sink = NullTrapSink {};
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let mut stack_map_sink = NullStackMapSink {};
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module
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.define_function(func_id, &mut ctx, &mut trap_sink, &mut stack_map_sink)
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.unwrap();
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func_id
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}
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#[test]
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#[should_panic(expected = "Result::unwrap()` on an `Err` value: DuplicateDefinition(\"abc\")")]
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fn panic_on_define_after_finalize() {
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let mut flag_builder = settings::builder();
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flag_builder.set("use_colocated_libcalls", "false").unwrap();
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// FIXME set back to true once the x64 backend supports it.
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flag_builder.set("is_pic", "false").unwrap();
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let isa_builder = cranelift_native::builder().unwrap_or_else(|msg| {
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panic!("host machine is not supported: {}", msg);
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});
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let isa = isa_builder.finish(settings::Flags::new(flag_builder));
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let mut module = JITModule::new(JITBuilder::with_isa(isa, default_libcall_names()));
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define_simple_function(&mut module);
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define_simple_function(&mut module);
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}
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#[test]
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fn switch_error() {
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use cranelift_codegen::settings;
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let sig = Signature {
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params: vec![AbiParam::new(types::I32)],
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returns: vec![AbiParam::new(types::I32)],
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call_conv: CallConv::SystemV,
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};
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let mut func = Function::with_name_signature(ExternalName::user(0, 0), sig);
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let mut func_ctx = FunctionBuilderContext::new();
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{
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let mut bcx: FunctionBuilder = FunctionBuilder::new(&mut func, &mut func_ctx);
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let start = bcx.create_block();
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let bb0 = bcx.create_block();
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let bb1 = bcx.create_block();
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let bb2 = bcx.create_block();
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let bb3 = bcx.create_block();
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println!("{} {} {} {} {}", start, bb0, bb1, bb2, bb3);
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bcx.declare_var(Variable::new(0), types::I32);
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bcx.declare_var(Variable::new(1), types::I32);
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let in_val = bcx.append_block_param(start, types::I32);
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bcx.switch_to_block(start);
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bcx.def_var(Variable::new(0), in_val);
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bcx.ins().jump(bb0, &[]);
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bcx.switch_to_block(bb0);
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let discr = bcx.use_var(Variable::new(0));
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let mut switch = cranelift_frontend::Switch::new();
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for &(index, bb) in &[
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(9, bb1),
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(13, bb1),
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(10, bb1),
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(92, bb1),
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(39, bb1),
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(34, bb1),
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] {
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switch.set_entry(index, bb);
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}
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switch.emit(&mut bcx, discr, bb2);
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bcx.switch_to_block(bb1);
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let v = bcx.use_var(Variable::new(0));
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bcx.def_var(Variable::new(1), v);
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bcx.ins().jump(bb3, &[]);
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bcx.switch_to_block(bb2);
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let v = bcx.use_var(Variable::new(0));
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bcx.def_var(Variable::new(1), v);
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bcx.ins().jump(bb3, &[]);
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bcx.switch_to_block(bb3);
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let r = bcx.use_var(Variable::new(1));
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bcx.ins().return_(&[r]);
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bcx.seal_all_blocks();
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bcx.finalize();
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}
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let flags = settings::Flags::new(settings::builder());
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match cranelift_codegen::verify_function(&func, &flags) {
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Ok(_) => {}
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Err(err) => {
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let pretty_error =
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cranelift_codegen::print_errors::pretty_verifier_error(&func, None, err);
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panic!("pretty_error:\n{}", pretty_error);
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}
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}
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}
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#[test]
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fn libcall_function() {
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let mut flag_builder = settings::builder();
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flag_builder.set("use_colocated_libcalls", "false").unwrap();
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// FIXME set back to true once the x64 backend supports it.
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flag_builder.set("is_pic", "false").unwrap();
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let isa_builder = cranelift_native::builder().unwrap_or_else(|msg| {
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panic!("host machine is not supported: {}", msg);
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});
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let isa = isa_builder.finish(settings::Flags::new(flag_builder));
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let mut module = JITModule::new(JITBuilder::with_isa(isa, default_libcall_names()));
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let sig = Signature {
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params: vec![],
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returns: vec![],
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call_conv: CallConv::SystemV,
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};
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let func_id = module
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.declare_function("function", Linkage::Local, &sig)
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.unwrap();
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let mut ctx = Context::new();
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ctx.func = Function::with_name_signature(ExternalName::user(0, func_id.as_u32()), sig);
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let mut func_ctx = FunctionBuilderContext::new();
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{
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let mut bcx: FunctionBuilder = FunctionBuilder::new(&mut ctx.func, &mut func_ctx);
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let block = bcx.create_block();
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bcx.switch_to_block(block);
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let int = module.target_config().pointer_type();
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let zero = bcx.ins().iconst(I16, 0);
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let size = bcx.ins().iconst(int, 10);
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let mut signature = module.make_signature();
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signature.params.push(AbiParam::new(int));
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signature.returns.push(AbiParam::new(int));
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let callee = module
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.declare_function("malloc", Linkage::Import, &signature)
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.expect("declare malloc function");
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let local_callee = module.declare_func_in_func(callee, &mut bcx.func);
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let argument_exprs = vec![size];
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let call = bcx.ins().call(local_callee, &argument_exprs);
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let buffer = bcx.inst_results(call)[0];
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bcx.call_memset(module.target_config(), buffer, zero, size);
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bcx.ins().return_(&[]);
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}
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let mut trap_sink = NullTrapSink {};
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let mut stack_map_sink = NullStackMapSink {};
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module
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.define_function(func_id, &mut ctx, &mut trap_sink, &mut stack_map_sink)
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.unwrap();
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module.finalize_definitions();
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}
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