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Add comparison and shuffle SIMD intrinsics.
- simd_eq, simd_ne, simd_lt, simd_le, simd_gt, simd_ge - simd_shuffleNNN
This commit is contained in:
Huon Wilson
parent
4f4425840d
commit
1bfbde6778
@ -348,17 +348,14 @@ pub fn compare_simd_types<'blk, 'tcx>(bcx: Block<'blk, 'tcx>,
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lhs: ValueRef,
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rhs: ValueRef,
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t: Ty<'tcx>,
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ret_ty: Type,
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op: ast::BinOp_,
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debug_loc: DebugLoc)
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-> ValueRef {
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let signed = match t.sty {
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ty::TyFloat(_) => {
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// The comparison operators for floating point vectors are challenging.
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// LLVM outputs a `< size x i1 >`, but if we perform a sign extension
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// then bitcast to a floating point vector, the result will be `-NaN`
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// for each truth value. Because of this they are unsupported.
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bcx.sess().bug("compare_simd_types: comparison operators \
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not supported for floating point SIMD types")
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let cmp = bin_op_to_fcmp_predicate(bcx.ccx(), op);
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return SExt(bcx, FCmp(bcx, cmp, lhs, rhs, debug_loc), ret_ty);
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},
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ty::TyUint(_) => false,
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ty::TyInt(_) => true,
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@ -370,7 +367,7 @@ pub fn compare_simd_types<'blk, 'tcx>(bcx: Block<'blk, 'tcx>,
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// to get the correctly sized type. This will compile to a single instruction
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// once the IR is converted to assembly if the SIMD instruction is supported
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// by the target architecture.
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SExt(bcx, ICmp(bcx, cmp, lhs, rhs, debug_loc), val_ty(lhs))
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SExt(bcx, ICmp(bcx, cmp, lhs, rhs, debug_loc), ret_ty)
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}
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// Iterates through the elements of a structural type.
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@ -1797,7 +1797,7 @@ fn trans_eager_binop<'blk, 'tcx>(bcx: Block<'blk, 'tcx>,
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}
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ast::BiEq | ast::BiNe | ast::BiLt | ast::BiGe | ast::BiLe | ast::BiGt => {
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if is_simd {
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base::compare_simd_types(bcx, lhs, rhs, intype, op.node, binop_debug_loc)
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base::compare_simd_types(bcx, lhs, rhs, intype, val_ty(lhs), op.node, binop_debug_loc)
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} else {
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base::compare_scalar_types(bcx, lhs, rhs, intype, op.node, binop_debug_loc)
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}
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@ -800,7 +800,15 @@ pub fn trans_intrinsic_call<'a, 'blk, 'tcx>(mut bcx: Block<'blk, 'tcx>,
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_ => C_null(llret_ty)
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}
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}
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(_, name) if name.starts_with("simd_") => {
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generic_simd_intrinsic(bcx, name,
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substs,
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callee_ty,
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&llargs,
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ret_ty, llret_ty,
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call_debug_location,
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call_info)
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}
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// This requires that atomic intrinsics follow a specific naming pattern:
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// "atomic_<operation>[_<ordering>]", and no ordering means SeqCst
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(_, name) if name.starts_with("atomic_") => {
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@ -1263,3 +1271,125 @@ fn get_rust_try_fn<'a, 'tcx>(fcx: &FunctionContext<'a, 'tcx>,
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*ccx.rust_try_fn().borrow_mut() = Some(rust_try);
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return rust_try
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}
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fn generic_simd_intrinsic<'blk, 'tcx>(bcx: Block<'blk, 'tcx>,
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name: &str,
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_substs: subst::Substs<'tcx>,
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callee_ty: Ty<'tcx>,
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llargs: &[ValueRef],
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ret_ty: Ty<'tcx>,
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llret_ty: Type,
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call_debug_location: DebugLoc,
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call_info: NodeIdAndSpan) -> ValueRef {
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let tcx = bcx.tcx();
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let arg_tys = match callee_ty.sty {
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ty::TyBareFn(_, ref f) => {
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bcx.tcx().erase_late_bound_regions(&f.sig.inputs())
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}
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_ => unreachable!()
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};
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let comparison = match name {
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"simd_eq" => Some(ast::BiEq),
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"simd_ne" => Some(ast::BiNe),
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"simd_lt" => Some(ast::BiLt),
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"simd_le" => Some(ast::BiLe),
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"simd_gt" => Some(ast::BiGt),
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"simd_ge" => Some(ast::BiGe),
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_ => None
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};
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macro_rules! require {
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($cond: expr, $($fmt: tt)*) => {
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if !$cond {
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bcx.sess().span_err(call_info.span, &format!($($fmt)*));
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return C_null(llret_ty)
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}
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}
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}
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if let Some(cmp_op) = comparison {
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assert_eq!(arg_tys.len(), 2);
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// we need nominal equality here, not LLVM (structural)
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// equality
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require!(arg_tys[0] == arg_tys[1],
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"SIMD comparison intrinsic monomorphised with different input types");
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require!(arg_tys[0].is_simd(tcx),
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"SIMD comparison intrinsic monomorphised for non-SIMD argument type");
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require!(ret_ty.is_simd(tcx),
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"SIMD comparison intrinsic monomorphised for non-SIMD return type");
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let in_len = arg_tys[0].simd_size(tcx);
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let out_len = ret_ty.simd_size(tcx);
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require!(in_len == out_len,
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"SIMD comparison intrinsic monomorphised for non-SIMD argument type");
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require!(llret_ty.element_type().kind() == llvm::Integer,
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"SIMD comparison intrinsic monomorphised with non-integer return");
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return compare_simd_types(bcx,
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llargs[0],
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llargs[1],
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arg_tys[0].simd_type(tcx),
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llret_ty,
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cmp_op,
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call_debug_location)
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}
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if name.starts_with("simd_shuffle") {
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let n: usize = match name["simd_shuffle".len()..].parse() {
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Ok(n) => n,
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Err(_) => tcx.sess.span_bug(call_info.span,
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"bad `simd_shuffle` instruction only caught in trans?")
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};
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assert_eq!(llargs.len(), 2 + n);
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require!(arg_tys[0] == arg_tys[1],
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"SIMD shuffle intrinsic monomorphised with different input types");
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require!(ret_ty.is_simd(tcx),
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"SIMD shuffle intrinsic monomorphised for non-SIMD return type");
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let in_len = arg_tys[0].simd_size(tcx);
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let out_len = ret_ty.simd_size(tcx);
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require!(out_len == n,
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"SIMD shuffle intrinsic monomorphised with return type of length {} (expected {})",
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out_len, n);
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require!(arg_tys[0].simd_type(tcx) == ret_ty.simd_type(tcx),
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"SIMD shuffle intrinsic monomorphised with different \
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input and return element types");
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let total_len = in_len as u64 * 2;
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let indices: Option<Vec<_>> = llargs[2..]
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.iter()
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.enumerate()
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.map(|(i, val)| {
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let arg_idx = i + 2;
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let c = const_to_opt_uint(*val);
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match c {
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None => {
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bcx.sess().span_err(call_info.span,
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&format!("SIMD shuffle intrinsic argument #{} \
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is not a constant",
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arg_idx));
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None
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}
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Some(idx) if idx >= total_len => {
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bcx.sess().span_err(call_info.span,
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&format!("SIMD shuffle intrinsic argument #{} \
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is out of bounds (limit {})",
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arg_idx, total_len));
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None
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}
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Some(idx) => Some(C_i32(bcx.ccx(), idx as i32)),
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}
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})
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.collect();
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let indices = match indices {
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Some(i) => i,
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None => return C_null(llret_ty)
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};
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return ShuffleVector(bcx, llargs[0], llargs[1], C_vector(&indices))
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}
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C_null(llret_ty)
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}
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@ -110,6 +110,7 @@ use util::lev_distance::lev_distance;
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use std::cell::{Cell, Ref, RefCell};
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use std::collections::HashSet;
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use std::iter;
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use std::mem::replace;
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use std::slice;
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use syntax::{self, abi, attr};
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@ -5091,6 +5092,7 @@ pub fn check_intrinsic_type(ccx: &CrateCtxt, it: &ast::ForeignItem) {
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let tcx = ccx.tcx;
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let name = it.ident.name.as_str();
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let mut infer_ctxt = None;
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let (n_tps, inputs, output) = if name.starts_with("atomic_") {
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let split : Vec<&str> = name.split('_').collect();
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assert!(split.len() >= 2, "Atomic intrinsic not correct format");
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@ -5338,7 +5340,28 @@ pub fn check_intrinsic_type(ccx: &CrateCtxt, it: &ast::ForeignItem) {
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"discriminant_value" => (1, vec![
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tcx.mk_imm_ref(tcx.mk_region(ty::ReLateBound(ty::DebruijnIndex::new(1),
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ty::BrAnon(0))),
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param(ccx, 0))], tcx.types.u64),
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param(ccx, 0))], tcx.types.u64),
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"simd_eq" | "simd_ne" | "simd_lt" | "simd_le" | "simd_gt" | "simd_ge" => {
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(2, vec![param(ccx, 0), param(ccx, 0)], param(ccx, 1))
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}
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name if name.starts_with("simd_shuffle") => {
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match name["simd_shuffle".len()..].parse() {
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Ok(n) => {
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let mut params = vec![param(ccx, 0), param(ccx, 0)];
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params.extend(iter::repeat(tcx.types.u32).take(n));
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let ictxt = infer::new_infer_ctxt(tcx, &tcx.tables, None, false);
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let ret = ictxt.next_ty_var();
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infer_ctxt = Some(ictxt);
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(2, params, ret)
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}
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Err(_) => {
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span_err!(tcx.sess, it.span, E0439,
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"invalid `simd_shuffle`, needs length: `{}`", name);
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return
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}
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}
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}
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"try" => {
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let mut_u8 = tcx.mk_mut_ptr(tcx.types.u8);
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@ -5381,7 +5404,7 @@ pub fn check_intrinsic_type(ccx: &CrateCtxt, it: &ast::ForeignItem) {
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i_n_tps, n_tps);
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} else {
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require_same_types(tcx,
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None,
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infer_ctxt.as_ref(),
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false,
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it.span,
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i_ty.ty,
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@ -2800,5 +2800,6 @@ register_diagnostics! {
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// type because its default value `{}` references the type `Self`"
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E0399, // trait items need to be implemented because the associated
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// type `{}` was overridden
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E0436 // functional record update requires a struct
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E0436, // functional record update requires a struct
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E0439 // invalid `simd_shuffle`, needs length: `{}`
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}
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