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a0a801cd38
This fixes the changes brought to codegen tests when effect params are added to libcore, by not attempting to monomorphize functions that get the host param by being `const fn`.
181 lines
8.2 KiB
Rust
181 lines
8.2 KiB
Rust
//! Handles codegen of callees as well as other call-related
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//! things. Callees are a superset of normal rust values and sometimes
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//! have different representations. In particular, top-level fn items
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//! and methods are represented as just a fn ptr and not a full
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//! closure.
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use crate::attributes;
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use crate::common;
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use crate::context::CodegenCx;
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use crate::llvm;
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use crate::value::Value;
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use rustc_middle::ty::layout::{FnAbiOf, HasTyCtxt};
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use rustc_middle::ty::{self, Instance, TypeVisitableExt};
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/// Codegens a reference to a fn/method item, monomorphizing and
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/// inlining as it goes.
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///
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/// # Parameters
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///
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/// - `cx`: the crate context
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/// - `instance`: the instance to be instantiated
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pub fn get_fn<'ll, 'tcx>(cx: &CodegenCx<'ll, 'tcx>, instance: Instance<'tcx>) -> &'ll Value {
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let tcx = cx.tcx();
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debug!("get_fn(instance={:?})", instance);
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assert!(!instance.args.has_infer());
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assert!(!instance.args.has_escaping_bound_vars());
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if let Some(&llfn) = cx.instances.borrow().get(&instance) {
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return llfn;
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}
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let sym = tcx.symbol_name(instance).name;
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debug!(
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"get_fn({:?}: {:?}) => {}",
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instance,
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instance.ty(cx.tcx(), ty::ParamEnv::reveal_all()),
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sym
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);
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let fn_abi = cx.fn_abi_of_instance(instance, ty::List::empty());
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let llfn = if let Some(llfn) = cx.get_declared_value(sym) {
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llfn
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} else {
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let instance_def_id = instance.def_id();
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let llfn = if tcx.sess.target.arch == "x86" &&
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let Some(dllimport) = common::get_dllimport(tcx, instance_def_id, sym)
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{
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// Fix for https://github.com/rust-lang/rust/issues/104453
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// On x86 Windows, LLVM uses 'L' as the prefix for any private
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// global symbols, so when we create an undecorated function symbol
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// that begins with an 'L' LLVM misinterprets that as a private
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// global symbol that it created and so fails the compilation at a
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// later stage since such a symbol must have a definition.
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//
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// To avoid this, we set the Storage Class to "DllImport" so that
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// LLVM will prefix the name with `__imp_`. Ideally, we'd like the
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// existing logic below to set the Storage Class, but it has an
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// exemption for MinGW for backwards compatability.
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let llfn = cx.declare_fn(&common::i686_decorated_name(&dllimport, common::is_mingw_gnu_toolchain(&tcx.sess.target), true), fn_abi, Some(instance));
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unsafe { llvm::LLVMSetDLLStorageClass(llfn, llvm::DLLStorageClass::DllImport); }
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llfn
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} else {
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cx.declare_fn(sym, fn_abi, Some(instance))
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};
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debug!("get_fn: not casting pointer!");
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attributes::from_fn_attrs(cx, llfn, instance);
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// Apply an appropriate linkage/visibility value to our item that we
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// just declared.
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//
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// This is sort of subtle. Inside our codegen unit we started off
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// compilation by predefining all our own `MonoItem` instances. That
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// is, everything we're codegenning ourselves is already defined. That
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// means that anything we're actually codegenning in this codegen unit
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// will have hit the above branch in `get_declared_value`. As a result,
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// we're guaranteed here that we're declaring a symbol that won't get
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// defined, or in other words we're referencing a value from another
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// codegen unit or even another crate.
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//
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// So because this is a foreign value we blanket apply an external
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// linkage directive because it's coming from a different object file.
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// The visibility here is where it gets tricky. This symbol could be
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// referencing some foreign crate or foreign library (an `extern`
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// block) in which case we want to leave the default visibility. We may
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// also, though, have multiple codegen units. It could be a
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// monomorphization, in which case its expected visibility depends on
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// whether we are sharing generics or not. The important thing here is
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// that the visibility we apply to the declaration is the same one that
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// has been applied to the definition (wherever that definition may be).
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unsafe {
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llvm::LLVMRustSetLinkage(llfn, llvm::Linkage::ExternalLinkage);
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let is_generic =
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instance.args.non_erasable_generics(tcx, instance.def_id()).next().is_some();
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if is_generic {
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// This is a monomorphization. Its expected visibility depends
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// on whether we are in share-generics mode.
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if cx.tcx.sess.opts.share_generics() {
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// We are in share_generics mode.
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if let Some(instance_def_id) = instance_def_id.as_local() {
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// This is a definition from the current crate. If the
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// definition is unreachable for downstream crates or
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// the current crate does not re-export generics, the
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// definition of the instance will have been declared
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// as `hidden`.
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if cx.tcx.is_unreachable_local_definition(instance_def_id)
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|| !cx.tcx.local_crate_exports_generics()
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{
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llvm::LLVMRustSetVisibility(llfn, llvm::Visibility::Hidden);
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}
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} else {
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// This is a monomorphization of a generic function
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// defined in an upstream crate.
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if instance.upstream_monomorphization(tcx).is_some() {
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// This is instantiated in another crate. It cannot
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// be `hidden`.
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} else {
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// This is a local instantiation of an upstream definition.
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// If the current crate does not re-export it
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// (because it is a C library or an executable), it
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// will have been declared `hidden`.
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if !cx.tcx.local_crate_exports_generics() {
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llvm::LLVMRustSetVisibility(llfn, llvm::Visibility::Hidden);
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}
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}
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}
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} else {
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// When not sharing generics, all instances are in the same
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// crate and have hidden visibility
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llvm::LLVMRustSetVisibility(llfn, llvm::Visibility::Hidden);
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}
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} else {
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// This is a non-generic function
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if cx.tcx.is_codegened_item(instance_def_id) {
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// This is a function that is instantiated in the local crate
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if instance_def_id.is_local() {
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// This is function that is defined in the local crate.
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// If it is not reachable, it is hidden.
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if !cx.tcx.is_reachable_non_generic(instance_def_id) {
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llvm::LLVMRustSetVisibility(llfn, llvm::Visibility::Hidden);
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}
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} else {
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// This is a function from an upstream crate that has
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// been instantiated here. These are always hidden.
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llvm::LLVMRustSetVisibility(llfn, llvm::Visibility::Hidden);
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}
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}
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}
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// MinGW: For backward compatibility we rely on the linker to decide whether it
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// should use dllimport for functions.
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if cx.use_dll_storage_attrs
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&& let Some(library) = tcx.native_library(instance_def_id)
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&& library.kind.is_dllimport()
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&& !matches!(tcx.sess.target.env.as_ref(), "gnu" | "uclibc")
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{
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llvm::LLVMSetDLLStorageClass(llfn, llvm::DLLStorageClass::DllImport);
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}
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if cx.should_assume_dso_local(llfn, true) {
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llvm::LLVMRustSetDSOLocal(llfn, true);
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}
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}
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llfn
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};
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cx.instances.borrow_mut().insert(instance, llfn);
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llfn
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}
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