//! Code that is useful in various codegen modules.
use llvm::{self, TypeKind};
-use llvm::{True, False, Bool, OperandBundleDef};
+use llvm::{True, False, Bool, BasicBlock};
use rustc::hir::def_id::DefId;
use rustc::middle::lang_items::LangItem;
use abi;
use type_::Type;
use type_of::LayoutLlvmExt;
use value::Value;
+use interfaces::{Backend, CommonMethods, CommonWriteMethods};
use rustc::ty::{self, Ty, TyCtxt};
use rustc::ty::layout::{HasDataLayout, LayoutOf};
use rustc::hir;
+use interfaces::BuilderMethods;
use libc::{c_uint, c_char};
-use std::iter;
-use rustc_target::spec::abi::Abi;
use syntax::symbol::LocalInternedString;
use syntax_pos::{Span, DUMMY_SP};
ty.is_freeze(tcx, ty::ParamEnv::reveal_all(), DUMMY_SP)
}
+pub struct OperandBundleDef<'a, Value : 'a> {
+ pub name: &'a str,
+ pub val: Value
+}
+
+impl OperandBundleDef<'ll, &'ll Value> {
+ pub fn new(name: &'ll str, val: &'ll Value) -> Self {
+ OperandBundleDef {
+ name,
+ val
+ }
+ }
+}
+
+pub enum IntPredicate {
+ IntEQ,
+ IntNE,
+ IntUGT,
+ IntUGE,
+ IntULT,
+ IntULE,
+ IntSGT,
+ IntSGE,
+ IntSLT,
+ IntSLE
+}
+
+#[allow(dead_code)]
+pub enum RealPredicate {
+ RealPredicateFalse,
+ RealOEQ,
+ RealOGT,
+ RealOGE,
+ RealOLT,
+ RealOLE,
+ RealONE,
+ RealORD,
+ RealUNO,
+ RealUEQ,
+ RealUGT,
+ RealUGE,
+ RealULT,
+ RealULE,
+ RealUNE,
+ RealPredicateTrue
+}
+
+pub enum AtomicRmwBinOp {
+ AtomicXchg,
+ AtomicAdd,
+ AtomicSub,
+ AtomicAnd,
+ AtomicNand,
+ AtomicOr,
+ AtomicXor,
+ AtomicMax,
+ AtomicMin,
+ AtomicUMax,
+ AtomicUMin
+}
+
+pub enum AtomicOrdering {
+ #[allow(dead_code)]
+ NotAtomic,
+ Unordered,
+ Monotonic,
+ // Consume, // Not specified yet.
+ Acquire,
+ Release,
+ AcquireRelease,
+ SequentiallyConsistent,
+}
+
+pub enum SynchronizationScope {
+ // FIXME: figure out if this variant is needed at all.
+ #[allow(dead_code)]
+ Other,
+ SingleThread,
+ CrossThread,
+}
+
/*
* A note on nomenclature of linking: "extern", "foreign", and "upcall".
*
/// the `OperandBundleDef` value created for MSVC landing pads.
pub struct Funclet<'ll> {
cleanuppad: &'ll Value,
- operand: OperandBundleDef<'ll>,
+ operand: OperandBundleDef<'ll, &'ll Value>,
}
impl Funclet<'ll> {
pub fn new(cleanuppad: &'ll Value) -> Self {
Funclet {
cleanuppad,
- operand: OperandBundleDef::new("funclet", &[cleanuppad]),
+ operand: OperandBundleDef::new("funclet", cleanuppad),
}
}
self.cleanuppad
}
- pub fn bundle(&self) -> &OperandBundleDef<'ll> {
+ pub fn bundle(&self) -> &OperandBundleDef<'ll, &'ll Value> {
&self.operand
}
}
-pub fn val_ty(v: &'ll Value) -> &'ll Type {
- unsafe {
- llvm::LLVMTypeOf(v)
- }
+impl Backend for CodegenCx<'ll, 'tcx> {
+ type Value = &'ll Value;
+ type BasicBlock = &'ll BasicBlock;
+ type Type = &'ll Type;
+ type Context = &'ll llvm::Context;
}
-// LLVM constant constructors.
-pub fn C_null(t: &'ll Type) -> &'ll Value {
- unsafe {
- llvm::LLVMConstNull(t)
+impl<'ll, 'tcx : 'll> CommonMethods for CodegenCx<'ll, 'tcx> {
+
+ // LLVM constant constructors.
+ fn c_null(&self, t: &'ll Type) -> &'ll Value {
+ unsafe {
+ llvm::LLVMConstNull(t)
+ }
}
-}
-pub fn C_undef(t: &'ll Type) -> &'ll Value {
- unsafe {
- llvm::LLVMGetUndef(t)
+ fn c_undef(&self, t: &'ll Type) -> &'ll Value {
+ unsafe {
+ llvm::LLVMGetUndef(t)
+ }
}
-}
-pub fn C_int(t: &'ll Type, i: i64) -> &'ll Value {
- unsafe {
- llvm::LLVMConstInt(t, i as u64, True)
+ fn c_int(&self, t: &'ll Type, i: i64) -> &'ll Value {
+ unsafe {
+ llvm::LLVMConstInt(t, i as u64, True)
+ }
}
-}
-pub fn C_uint(t: &'ll Type, i: u64) -> &'ll Value {
- unsafe {
- llvm::LLVMConstInt(t, i, False)
+ fn c_uint(&self, t: &'ll Type, i: u64) -> &'ll Value {
+ unsafe {
+ llvm::LLVMConstInt(t, i, False)
+ }
}
-}
-pub fn C_uint_big(t: &'ll Type, u: u128) -> &'ll Value {
- unsafe {
- let words = [u as u64, (u >> 64) as u64];
- llvm::LLVMConstIntOfArbitraryPrecision(t, 2, words.as_ptr())
+ fn c_uint_big(&self, t: &'ll Type, u: u128) -> &'ll Value {
+ unsafe {
+ let words = [u as u64, (u >> 64) as u64];
+ llvm::LLVMConstIntOfArbitraryPrecision(t, 2, words.as_ptr())
+ }
}
-}
-pub fn C_bool(cx: &CodegenCx<'ll, '_>, val: bool) -> &'ll Value {
- C_uint(Type::i1(cx), val as u64)
-}
+ fn c_bool(&self, val: bool) -> &'ll Value {
+ &self.c_uint(Type::i1(&self), val as u64)
+ }
-pub fn C_i32(cx: &CodegenCx<'ll, '_>, i: i32) -> &'ll Value {
- C_int(Type::i32(cx), i as i64)
-}
+ fn c_i32(&self, i: i32) -> &'ll Value {
+ &self.c_int(Type::i32(&self), i as i64)
+ }
-pub fn C_u32(cx: &CodegenCx<'ll, '_>, i: u32) -> &'ll Value {
- C_uint(Type::i32(cx), i as u64)
-}
+ fn c_u32(&self, i: u32) -> &'ll Value {
+ &self.c_uint(Type::i32(&self), i as u64)
+ }
-pub fn C_u64(cx: &CodegenCx<'ll, '_>, i: u64) -> &'ll Value {
- C_uint(Type::i64(cx), i)
-}
+ fn c_u64(&self, i: u64) -> &'ll Value {
+ &self.c_uint(Type::i64(&self), i)
+ }
-pub fn C_usize(cx: &CodegenCx<'ll, '_>, i: u64) -> &'ll Value {
- let bit_size = cx.data_layout().pointer_size.bits();
- if bit_size < 64 {
- // make sure it doesn't overflow
- assert!(i < (1<<bit_size));
+ fn c_usize(&self, i: u64) -> &'ll Value {
+ let bit_size = self.data_layout().pointer_size.bits();
+ if bit_size < 64 {
+ // make sure it doesn't overflow
+ assert!(i < (1<<bit_size));
+ }
+
+ &self.c_uint(&self.isize_ty, i)
}
- C_uint(cx.isize_ty, i)
-}
+ fn c_u8(&self, i: u8) -> &'ll Value {
+ &self.c_uint(Type::i8(&self), i as u64)
+ }
-pub fn C_u8(cx: &CodegenCx<'ll, '_>, i: u8) -> &'ll Value {
- C_uint(Type::i8(cx), i as u64)
-}
+ // This is a 'c-like' raw string, which differs from
+ // our boxed-and-length-annotated strings.
+ fn c_cstr(
+ &self,
+ s: LocalInternedString,
+ null_terminated: bool,
+ ) -> &'ll Value {
+ unsafe {
+ if let Some(&llval) = &self.const_cstr_cache.borrow().get(&s) {
+ return llval;
+ }
-// This is a 'c-like' raw string, which differs from
-// our boxed-and-length-annotated strings.
-pub fn C_cstr(
- cx: &CodegenCx<'ll, '_>,
- s: LocalInternedString,
- null_terminated: bool,
-) -> &'ll Value {
- unsafe {
- if let Some(&llval) = cx.const_cstr_cache.borrow().get(&s) {
- return llval;
+ let sc = llvm::LLVMConstStringInContext(&self.llcx,
+ s.as_ptr() as *const c_char,
+ s.len() as c_uint,
+ !null_terminated as Bool);
+ let sym = &self.generate_local_symbol_name("str");
+ let g = declare::define_global(&self, &sym[..], &self.val_ty(sc)).unwrap_or_else(||{
+ bug!("symbol `{}` is already defined", sym);
+ });
+ llvm::LLVMSetInitializer(g, sc);
+ llvm::LLVMSetGlobalConstant(g, True);
+ llvm::LLVMRustSetLinkage(g, llvm::Linkage::InternalLinkage);
+
+ &self.const_cstr_cache.borrow_mut().insert(s, g);
+ g
}
+ }
- let sc = llvm::LLVMConstStringInContext(cx.llcx,
- s.as_ptr() as *const c_char,
- s.len() as c_uint,
- !null_terminated as Bool);
- let sym = cx.generate_local_symbol_name("str");
- let g = declare::define_global(cx, &sym[..], val_ty(sc)).unwrap_or_else(||{
- bug!("symbol `{}` is already defined", sym);
- });
- llvm::LLVMSetInitializer(g, sc);
- llvm::LLVMSetGlobalConstant(g, True);
- llvm::LLVMRustSetLinkage(g, llvm::Linkage::InternalLinkage);
-
- cx.const_cstr_cache.borrow_mut().insert(s, g);
- g
+ // NB: Do not use `do_spill_noroot` to make this into a constant string, or
+ // you will be kicked off fast isel. See issue #4352 for an example of this.
+ fn c_str_slice(&self, s: LocalInternedString) -> &'ll Value {
+ let len = s.len();
+ let cs = consts::ptrcast(&self.c_cstr(s, false),
+ &self.layout_of(&self.tcx.mk_str()).llvm_type(&self).ptr_to());
+ &self.c_fat_ptr(cs, &self.c_usize(len as u64))
}
-}
-// NB: Do not use `do_spill_noroot` to make this into a constant string, or
-// you will be kicked off fast isel. See issue #4352 for an example of this.
-pub fn C_str_slice(cx: &CodegenCx<'ll, '_>, s: LocalInternedString) -> &'ll Value {
- let len = s.len();
- let cs = consts::ptrcast(C_cstr(cx, s, false),
- cx.layout_of(cx.tcx.mk_str()).llvm_type(cx).ptr_to());
- C_fat_ptr(cx, cs, C_usize(cx, len as u64))
-}
+ fn c_fat_ptr(
+ &self,
+ ptr: &'ll Value,
+ meta: &'ll Value
+ ) -> &'ll Value {
+ assert_eq!(abi::FAT_PTR_ADDR, 0);
+ assert_eq!(abi::FAT_PTR_EXTRA, 1);
+ &self.c_struct(&[ptr, meta], false)
+ }
-pub fn C_fat_ptr(cx: &CodegenCx<'ll, '_>, ptr: &'ll Value, meta: &'ll Value) -> &'ll Value {
- assert_eq!(abi::FAT_PTR_ADDR, 0);
- assert_eq!(abi::FAT_PTR_EXTRA, 1);
- C_struct(cx, &[ptr, meta], false)
-}
+ fn c_struct(
+ &self,
+ elts: &[&'ll Value],
+ packed: bool
+ ) -> &'ll Value {
+ &self.c_struct_in_context(&self.llcx, elts, packed)
+ }
-pub fn C_struct(cx: &CodegenCx<'ll, '_>, elts: &[&'ll Value], packed: bool) -> &'ll Value {
- C_struct_in_context(cx.llcx, elts, packed)
-}
+ fn c_array(ty: &'ll Type, elts: &[&'ll Value]) -> &'ll Value {
+ unsafe {
+ return llvm::LLVMConstArray(ty, elts.as_ptr(), elts.len() as c_uint);
+ }
+ }
-pub fn C_struct_in_context(
- llcx: &'ll llvm::Context,
- elts: &[&'ll Value],
- packed: bool,
-) -> &'ll Value {
- unsafe {
- llvm::LLVMConstStructInContext(llcx,
- elts.as_ptr(), elts.len() as c_uint,
- packed as Bool)
+ fn c_vector(elts: &[&'ll Value]) -> &'ll Value {
+ unsafe {
+ return llvm::LLVMConstVector(elts.as_ptr(), elts.len() as c_uint);
+ }
}
-}
-pub fn C_array(ty: &'ll Type, elts: &[&'ll Value]) -> &'ll Value {
- unsafe {
- return llvm::LLVMConstArray(ty, elts.as_ptr(), elts.len() as c_uint);
+ fn c_bytes(&self, bytes: &[u8]) -> &'ll Value {
+ &self.c_bytes_in_context(&self.llcx, bytes)
}
-}
-pub fn C_vector(elts: &[&'ll Value]) -> &'ll Value {
- unsafe {
- return llvm::LLVMConstVector(elts.as_ptr(), elts.len() as c_uint);
+ fn const_get_elt(v: &'ll Value, idx: u64) -> &'ll Value {
+ unsafe {
+ assert_eq!(idx as c_uint as u64, idx);
+ let us = &[idx as c_uint];
+ let r = llvm::LLVMConstExtractValue(v, us.as_ptr(), us.len() as c_uint);
+
+ debug!("const_get_elt(v={:?}, idx={}, r={:?})",
+ v, idx, r);
+
+ r
+ }
}
-}
-pub fn C_bytes(cx: &CodegenCx<'ll, '_>, bytes: &[u8]) -> &'ll Value {
- C_bytes_in_context(cx.llcx, bytes)
-}
+ fn const_get_real(v: &'ll Value) -> Option<(f64, bool)> {
+ unsafe {
+ if Self::is_const_real(v) {
+ let mut loses_info: llvm::Bool = ::std::mem::uninitialized();
+ let r = llvm::LLVMConstRealGetDouble(v, &mut loses_info);
+ let loses_info = if loses_info == 1 { true } else { false };
+ Some((r, loses_info))
+ } else {
+ None
+ }
+ }
+ }
-pub fn C_bytes_in_context(llcx: &'ll llvm::Context, bytes: &[u8]) -> &'ll Value {
- unsafe {
- let ptr = bytes.as_ptr() as *const c_char;
- return llvm::LLVMConstStringInContext(llcx, ptr, bytes.len() as c_uint, True);
+ fn const_to_uint(v: &'ll Value) -> u64 {
+ unsafe {
+ llvm::LLVMConstIntGetZExtValue(v)
+ }
}
-}
-pub fn const_get_elt(v: &'ll Value, idx: u64) -> &'ll Value {
- unsafe {
- assert_eq!(idx as c_uint as u64, idx);
- let us = &[idx as c_uint];
- let r = llvm::LLVMConstExtractValue(v, us.as_ptr(), us.len() as c_uint);
+ fn is_const_integral(v: &'ll Value) -> bool {
+ unsafe {
+ llvm::LLVMIsAConstantInt(v).is_some()
+ }
+ }
- debug!("const_get_elt(v={:?}, idx={}, r={:?})",
- v, idx, r);
+ fn is_const_real(v: &'ll Value) -> bool {
+ unsafe {
+ llvm::LLVMIsAConstantFP(v).is_some()
+ }
+ }
- r
+ fn const_to_opt_u128(v: &'ll Value, sign_ext: bool) -> Option<u128> {
+ unsafe {
+ if Self::is_const_integral(v) {
+ let (mut lo, mut hi) = (0u64, 0u64);
+ let success = llvm::LLVMRustConstInt128Get(v, sign_ext,
+ &mut hi, &mut lo);
+ if success {
+ Some(hi_lo_to_u128(lo, hi))
+ } else {
+ None
+ }
+ } else {
+ None
+ }
+ }
}
}
-pub fn const_get_real(v: &'ll Value) -> Option<(f64, bool)> {
+pub fn val_ty(v: &'ll Value) -> &'ll Type {
unsafe {
- if is_const_real(v) {
- let mut loses_info: llvm::Bool = ::std::mem::uninitialized();
- let r = llvm::LLVMConstRealGetDouble(v, &mut loses_info);
- let loses_info = if loses_info == 1 { true } else { false };
- Some((r, loses_info))
- } else {
- None
- }
+ llvm::LLVMTypeOf(v)
}
}
-pub fn const_to_uint(v: &'ll Value) -> u64 {
+pub fn c_bytes_in_context(llcx: &'ll llvm::Context, bytes: &[u8]) -> &'ll Value {
unsafe {
- llvm::LLVMConstIntGetZExtValue(v)
+ let ptr = bytes.as_ptr() as *const c_char;
+ return llvm::LLVMConstStringInContext(llcx, ptr, bytes.len() as c_uint, True);
}
}
-pub fn is_const_integral(v: &'ll Value) -> bool {
+pub fn c_struct_in_context(
+ llcx: &'a llvm::Context,
+ elts: &[&'a Value],
+ packed: bool,
+) -> &'a Value {
unsafe {
- llvm::LLVMIsAConstantInt(v).is_some()
+ llvm::LLVMConstStructInContext(llcx,
+ elts.as_ptr(), elts.len() as c_uint,
+ packed as Bool)
}
}
-pub fn is_const_real(v: &'ll Value) -> bool {
- unsafe {
- llvm::LLVMIsAConstantFP(v).is_some()
+impl<'ll, 'tcx : 'll> CommonWriteMethods for CodegenCx<'ll, 'tcx> {
+ fn val_ty(&self, v: &'ll Value) -> &'ll Type {
+ val_ty(v)
+ }
+
+ fn c_bytes_in_context(&self, llcx: &'ll llvm::Context, bytes: &[u8]) -> &'ll Value {
+ c_bytes_in_context(llcx, bytes)
+ }
+
+ fn c_struct_in_context(
+ &self,
+ llcx: &'a llvm::Context,
+ elts: &[&'a Value],
+ packed: bool,
+ ) -> &'a Value {
+ c_struct_in_context(llcx, elts, packed)
}
}
((hi as u128) << 64) | (lo as u128)
}
-pub fn const_to_opt_u128(v: &'ll Value, sign_ext: bool) -> Option<u128> {
- unsafe {
- if is_const_integral(v) {
- let (mut lo, mut hi) = (0u64, 0u64);
- let success = llvm::LLVMRustConstInt128Get(v, sign_ext,
- &mut hi, &mut lo);
- if success {
- Some(hi_lo_to_u128(lo, hi))
- } else {
- None
- }
- } else {
- None
- }
- }
-}
-
pub fn langcall(tcx: TyCtxt,
span: Option<Span>,
msg: &str,
}
fn shift_mask_rhs(bx: &Builder<'a, 'll, 'tcx>, rhs: &'ll Value) -> &'ll Value {
- let rhs_llty = val_ty(rhs);
+ let rhs_llty = bx.cx().val_ty(rhs);
bx.and(rhs, shift_mask_val(bx, rhs_llty, rhs_llty, false))
}
// i8/u8 can shift by at most 7, i16/u16 by at most 15, etc.
let val = llty.int_width() - 1;
if invert {
- C_int(mask_llty, !val as i64)
+ bx.cx.c_int(mask_llty, !val as i64)
} else {
- C_uint(mask_llty, val)
+ bx.cx.c_uint(mask_llty, val)
}
},
TypeKind::Vector => {
_ => bug!("shift_mask_val: expected Integer or Vector, found {:?}", kind),
}
}
-
-pub fn ty_fn_sig<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>,
- ty: Ty<'tcx>)
- -> ty::PolyFnSig<'tcx>
-{
- match ty.sty {
- ty::FnDef(..) |
- // Shims currently have type FnPtr. Not sure this should remain.
- ty::FnPtr(_) => ty.fn_sig(cx.tcx),
- ty::Closure(def_id, substs) => {
- let tcx = cx.tcx;
- let sig = substs.closure_sig(def_id, tcx);
-
- let env_ty = tcx.closure_env_ty(def_id, substs).unwrap();
- sig.map_bound(|sig| tcx.mk_fn_sig(
- iter::once(*env_ty.skip_binder()).chain(sig.inputs().iter().cloned()),
- sig.output(),
- sig.variadic,
- sig.unsafety,
- sig.abi
- ))
- }
- ty::Generator(def_id, substs, _) => {
- let tcx = cx.tcx;
- let sig = substs.poly_sig(def_id, cx.tcx);
-
- let env_region = ty::ReLateBound(ty::INNERMOST, ty::BrEnv);
- let env_ty = tcx.mk_mut_ref(tcx.mk_region(env_region), ty);
-
- sig.map_bound(|sig| {
- let state_did = tcx.lang_items().gen_state().unwrap();
- let state_adt_ref = tcx.adt_def(state_did);
- let state_substs = tcx.intern_substs(&[
- sig.yield_ty.into(),
- sig.return_ty.into(),
- ]);
- let ret_ty = tcx.mk_adt(state_adt_ref, state_substs);
-
- tcx.mk_fn_sig(iter::once(env_ty),
- ret_ty,
- false,
- hir::Unsafety::Normal,
- Abi::Rust
- )
- })
- }
- _ => bug!("unexpected type {:?} to ty_fn_sig", ty)
- }
-}