rust/miri/intrinsic.rs

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use rustc::mir;
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use rustc::ty::layout::{TyLayout, LayoutOf};
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use rustc::ty;
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use rustc::mir::interpret::{EvalResult, PrimVal, PrimValKind, Value, Pointer};
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use rustc_mir::interpret::{Place, PlaceExtra, HasMemory, EvalContext, ValTy};
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use helpers::EvalContextExt as HelperEvalContextExt;
pub trait EvalContextExt<'tcx> {
fn call_intrinsic(
&mut self,
instance: ty::Instance<'tcx>,
args: &[ValTy<'tcx>],
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dest: Place,
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dest_layout: TyLayout<'tcx>,
target: mir::BasicBlock,
) -> EvalResult<'tcx>;
}
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impl<'a, 'mir, 'tcx> EvalContextExt<'tcx> for EvalContext<'a, 'mir, 'tcx, super::Evaluator<'tcx>> {
fn call_intrinsic(
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&mut self,
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instance: ty::Instance<'tcx>,
args: &[ValTy<'tcx>],
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dest: Place,
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dest_layout: TyLayout<'tcx>,
target: mir::BasicBlock,
) -> EvalResult<'tcx> {
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let substs = instance.substs;
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let intrinsic_name = &self.tcx.item_name(instance.def_id()).as_str()[..];
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match intrinsic_name {
"align_offset" => {
// FIXME: return a real value in case the target allocation has an
// alignment bigger than the one requested
let n = u128::max_value();
let amt = 128 - self.memory.pointer_size() * 8;
self.write_primval(dest, PrimVal::Bytes((n << amt) >> amt), dest_layout.ty)?;
},
"add_with_overflow" => {
self.intrinsic_with_overflow(
mir::BinOp::Add,
args[0],
args[1],
dest,
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dest_layout.ty,
)?
}
"sub_with_overflow" => {
self.intrinsic_with_overflow(
mir::BinOp::Sub,
args[0],
args[1],
dest,
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dest_layout.ty,
)?
}
"mul_with_overflow" => {
self.intrinsic_with_overflow(
mir::BinOp::Mul,
args[0],
args[1],
dest,
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dest_layout.ty,
)?
}
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"arith_offset" => {
let offset = self.value_to_primval(args[1])?.to_i128()? as i64;
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let ptr = self.into_ptr(args[0].value)?;
let result_ptr = self.wrapping_pointer_offset(ptr, substs.type_at(0), offset)?;
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self.write_ptr(dest, result_ptr, dest_layout.ty)?;
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}
"assume" => {
let cond = self.value_to_primval(args[0])?.to_bool()?;
if !cond {
return err!(AssumptionNotHeld);
}
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}
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"atomic_load" |
"atomic_load_relaxed" |
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"atomic_load_acq" |
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"volatile_load" => {
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let ptr = self.into_ptr(args[0].value)?;
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let align = self.layout_of(args[0].ty)?.align;
let valty = ValTy {
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value: Value::ByRef(ptr, align),
ty: substs.type_at(0),
};
self.write_value(valty, dest)?;
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}
"atomic_store" |
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"atomic_store_relaxed" |
"atomic_store_rel" |
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"volatile_store" => {
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let ty = substs.type_at(0);
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let align = self.layout_of(ty)?.align;
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let dest = self.into_ptr(args[0].value)?;
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self.write_value_to_ptr(args[1].value, dest, align, ty)?;
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}
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"atomic_fence_acq" => {
// we are inherently singlethreaded and singlecored, this is a nop
}
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_ if intrinsic_name.starts_with("atomic_xchg") => {
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let ty = substs.type_at(0);
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let align = self.layout_of(ty)?.align;
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let ptr = self.into_ptr(args[0].value)?;
let change = self.value_to_primval(args[1])?;
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let old = self.read_value(ptr, align, ty)?;
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let old = match old {
Value::ByVal(val) => val,
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Value::ByRef { .. } => bug!("just read the value, can't be byref"),
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Value::ByValPair(..) => bug!("atomic_xchg doesn't work with nonprimitives"),
};
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self.write_primval(dest, old, ty)?;
self.write_primval(
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Place::from_primval_ptr(ptr, align),
change,
ty,
)?;
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}
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_ if intrinsic_name.starts_with("atomic_cxchg") => {
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let ty = substs.type_at(0);
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let align = self.layout_of(ty)?.align;
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let ptr = self.into_ptr(args[0].value)?;
let expect_old = self.value_to_primval(args[1])?;
let change = self.value_to_primval(args[2])?;
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let old = self.read_value(ptr, align, ty)?;
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let old = match old {
Value::ByVal(val) => val,
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Value::ByRef { .. } => bug!("just read the value, can't be byref"),
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Value::ByValPair(..) => bug!("atomic_cxchg doesn't work with nonprimitives"),
};
let (val, _) = self.binary_op(mir::BinOp::Eq, old, ty, expect_old, ty)?;
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let valty = ValTy {
value: Value::ByValPair(old, val),
ty: dest_layout.ty,
};
self.write_value(valty, dest)?;
self.write_primval(
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Place::from_primval_ptr(ptr, dest_layout.align),
change,
ty,
)?;
}
"atomic_or" |
"atomic_or_acq" |
"atomic_or_rel" |
"atomic_or_acqrel" |
"atomic_or_relaxed" |
"atomic_xor" |
"atomic_xor_acq" |
"atomic_xor_rel" |
"atomic_xor_acqrel" |
"atomic_xor_relaxed" |
"atomic_and" |
"atomic_and_acq" |
"atomic_and_rel" |
"atomic_and_acqrel" |
"atomic_and_relaxed" |
"atomic_xadd" |
"atomic_xadd_acq" |
"atomic_xadd_rel" |
"atomic_xadd_acqrel" |
"atomic_xadd_relaxed" |
"atomic_xsub" |
"atomic_xsub_acq" |
"atomic_xsub_rel" |
"atomic_xsub_acqrel" |
"atomic_xsub_relaxed" => {
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let ty = substs.type_at(0);
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let align = self.layout_of(ty)?.align;
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let ptr = self.into_ptr(args[0].value)?;
let change = self.value_to_primval(args[1])?;
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let old = self.read_value(ptr, align, ty)?;
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let old = match old {
Value::ByVal(val) => val,
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Value::ByRef { .. } => bug!("just read the value, can't be byref"),
Value::ByValPair(..) => {
bug!("atomic_xadd_relaxed doesn't work with nonprimitives")
}
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};
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self.write_primval(dest, old, ty)?;
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let op = match intrinsic_name.split('_').nth(1).unwrap() {
"or" => mir::BinOp::BitOr,
"xor" => mir::BinOp::BitXor,
"and" => mir::BinOp::BitAnd,
"xadd" => mir::BinOp::Add,
"xsub" => mir::BinOp::Sub,
_ => bug!(),
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};
// FIXME: what do atomics do on overflow?
let (val, _) = self.binary_op(op, old, ty, change, ty)?;
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self.write_primval(Place::from_primval_ptr(ptr, dest_layout.align), val, ty)?;
}
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"breakpoint" => unimplemented!(), // halt miri
"copy" |
"copy_nonoverlapping" => {
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let elem_ty = substs.type_at(0);
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let elem_layout = self.layout_of(elem_ty)?;
let elem_size = elem_layout.size.bytes();
let count = self.value_to_primval(args[2])?.to_u64()?;
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if count * elem_size != 0 {
// TODO: We do not even validate alignment for the 0-bytes case. libstd relies on this in vec::IntoIter::next.
// Also see the write_bytes intrinsic.
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let elem_align = elem_layout.align;
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let src = self.into_ptr(args[0].value)?;
let dest = self.into_ptr(args[1].value)?;
self.memory.copy(
src,
elem_align,
dest,
elem_align,
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count * elem_size,
intrinsic_name.ends_with("_nonoverlapping"),
)?;
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}
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}
"ctpop" | "cttz" | "cttz_nonzero" | "ctlz" | "ctlz_nonzero" | "bswap" => {
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let ty = substs.type_at(0);
let num = self.value_to_primval(args[0])?.to_bytes()?;
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let kind = self.ty_to_primval_kind(ty)?;
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let num = if intrinsic_name.ends_with("_nonzero") {
if num == 0 {
return err!(Intrinsic(format!("{} called on 0", intrinsic_name)));
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}
numeric_intrinsic(intrinsic_name.trim_right_matches("_nonzero"), num, kind)?
} else {
numeric_intrinsic(intrinsic_name, num, kind)?
};
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self.write_primval(dest, num, ty)?;
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}
"discriminant_value" => {
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let ty = substs.type_at(0);
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let adt_ptr = self.into_ptr(args[0].value)?;
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let adt_align = self.layout_of(args[0].ty)?.align;
let place = Place::from_primval_ptr(adt_ptr, adt_align);
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let discr_val = self.read_discriminant_value(place, ty)?;
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self.write_primval(dest, PrimVal::Bytes(discr_val), dest_layout.ty)?;
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}
"sinf32" | "fabsf32" | "cosf32" | "sqrtf32" | "expf32" | "exp2f32" | "logf32" |
"log10f32" | "log2f32" | "floorf32" | "ceilf32" | "truncf32" => {
let f = self.value_to_primval(args[0])?.to_bytes()?;
let f = f32::from_bits(f as u32);
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let f = match intrinsic_name {
"sinf32" => f.sin(),
"fabsf32" => f.abs(),
"cosf32" => f.cos(),
"sqrtf32" => f.sqrt(),
"expf32" => f.exp(),
"exp2f32" => f.exp2(),
"logf32" => f.ln(),
"log10f32" => f.log10(),
"log2f32" => f.log2(),
"floorf32" => f.floor(),
"ceilf32" => f.ceil(),
"truncf32" => f.trunc(),
_ => bug!(),
};
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self.write_primval(dest, PrimVal::Bytes(f.to_bits() as u128), dest_layout.ty)?;
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}
"sinf64" | "fabsf64" | "cosf64" | "sqrtf64" | "expf64" | "exp2f64" | "logf64" |
"log10f64" | "log2f64" | "floorf64" | "ceilf64" | "truncf64" => {
let f = self.value_to_primval(args[0])?.to_bytes()?;
let f = f64::from_bits(f as u64);
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let f = match intrinsic_name {
"sinf64" => f.sin(),
"fabsf64" => f.abs(),
"cosf64" => f.cos(),
"sqrtf64" => f.sqrt(),
"expf64" => f.exp(),
"exp2f64" => f.exp2(),
"logf64" => f.ln(),
"log10f64" => f.log10(),
"log2f64" => f.log2(),
"floorf64" => f.floor(),
"ceilf64" => f.ceil(),
"truncf64" => f.trunc(),
_ => bug!(),
};
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self.write_primval(dest, PrimVal::Bytes(f.to_bits() as u128), dest_layout.ty)?;
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}
"fadd_fast" | "fsub_fast" | "fmul_fast" | "fdiv_fast" | "frem_fast" => {
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let ty = substs.type_at(0);
let a = self.value_to_primval(args[0])?;
let b = self.value_to_primval(args[1])?;
let op = match intrinsic_name {
"fadd_fast" => mir::BinOp::Add,
"fsub_fast" => mir::BinOp::Sub,
"fmul_fast" => mir::BinOp::Mul,
"fdiv_fast" => mir::BinOp::Div,
"frem_fast" => mir::BinOp::Rem,
_ => bug!(),
};
let result = self.binary_op(op, a, ty, b, ty)?;
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self.write_primval(dest, result.0, dest_layout.ty)?;
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}
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"exact_div" => {
// Performs an exact division, resulting in undefined behavior where
// `x % y != 0` or `y == 0` or `x == T::min_value() && y == -1`
let ty = substs.type_at(0);
let a = self.value_to_primval(args[0])?;
let b = self.value_to_primval(args[1])?;
// check x % y != 0
if self.binary_op(mir::BinOp::Rem, a, ty, b, ty)?.0 != PrimVal::Bytes(0) {
return err!(ValidationFailure(format!("exact_div: {:?} cannot be divided by {:?}", a, b)));
}
let result = self.binary_op(mir::BinOp::Div, a, ty, b, ty)?;
self.write_primval(dest, result.0, dest_layout.ty)?;
},
"likely" | "unlikely" | "forget" => {}
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"init" => {
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let size = dest_layout.size.bytes();
let init = |this: &mut Self, val: Value| {
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let zero_val = match val {
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Value::ByRef(ptr, _) => {
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// These writes have no alignment restriction anyway.
this.memory.write_repeat(ptr, 0, size)?;
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val
}
// TODO(solson): Revisit this, it's fishy to check for Undef here.
Value::ByVal(PrimVal::Undef) => {
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match this.ty_to_primval_kind(dest_layout.ty) {
Ok(_) => Value::ByVal(PrimVal::Bytes(0)),
Err(_) => {
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// FIXME(oli-obk): pass TyLayout to alloc_ptr instead of Ty
let ptr = this.alloc_ptr(dest_layout.ty)?;
let ptr = Pointer::from(PrimVal::Ptr(ptr));
this.memory.write_repeat(ptr, 0, size)?;
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Value::ByRef(ptr, dest_layout.align)
}
}
}
Value::ByVal(_) => Value::ByVal(PrimVal::Bytes(0)),
Value::ByValPair(..) => {
Value::ByValPair(PrimVal::Bytes(0), PrimVal::Bytes(0))
}
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};
Ok(zero_val)
};
match dest {
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Place::Local { frame, local } => self.modify_local(frame, local, init)?,
Place::Ptr {
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ptr,
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align: _align,
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extra: PlaceExtra::None,
} => self.memory.write_repeat(ptr, 0, size)?,
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Place::Ptr { .. } => {
bug!("init intrinsic tried to write to fat or unaligned ptr target")
}
}
}
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"min_align_of" => {
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let elem_ty = substs.type_at(0);
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let elem_align = self.layout_of(elem_ty)?.align.abi();
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let align_val = PrimVal::from_u128(elem_align as u128);
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self.write_primval(dest, align_val, dest_layout.ty)?;
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}
"pref_align_of" => {
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let ty = substs.type_at(0);
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let layout = self.layout_of(ty)?;
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let align = layout.align.pref();
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let align_val = PrimVal::from_u128(align as u128);
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self.write_primval(dest, align_val, dest_layout.ty)?;
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}
"move_val_init" => {
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let ty = substs.type_at(0);
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let ptr = self.into_ptr(args[0].value)?;
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let align = self.layout_of(args[0].ty)?.align;
self.write_value_to_ptr(args[1].value, ptr, align, ty)?;
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}
"needs_drop" => {
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let ty = substs.type_at(0);
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let env = ty::ParamEnv::reveal_all();
let needs_drop = ty.needs_drop(self.tcx.tcx, env);
self.write_primval(
dest,
PrimVal::from_bool(needs_drop),
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dest_layout.ty,
)?;
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}
"offset" => {
let offset = self.value_to_primval(args[1])?.to_i128()? as i64;
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let ptr = self.into_ptr(args[0].value)?;
let result_ptr = self.pointer_offset(ptr, substs.type_at(0), offset)?;
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self.write_ptr(dest, result_ptr, dest_layout.ty)?;
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}
"overflowing_sub" => {
self.intrinsic_overflowing(
mir::BinOp::Sub,
args[0],
args[1],
dest,
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dest_layout.ty,
)?;
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}
"overflowing_mul" => {
self.intrinsic_overflowing(
mir::BinOp::Mul,
args[0],
args[1],
dest,
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dest_layout.ty,
)?;
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}
"overflowing_add" => {
self.intrinsic_overflowing(
mir::BinOp::Add,
args[0],
args[1],
dest,
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dest_layout.ty,
)?;
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}
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"powf32" => {
let f = self.value_to_primval(args[0])?.to_bytes()?;
let f = f32::from_bits(f as u32);
let f2 = self.value_to_primval(args[1])?.to_bytes()?;
let f2 = f32::from_bits(f2 as u32);
self.write_primval(
dest,
PrimVal::Bytes(f.powf(f2).to_bits() as u128),
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dest_layout.ty,
)?;
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}
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"powf64" => {
let f = self.value_to_primval(args[0])?.to_bytes()?;
let f = f64::from_bits(f as u64);
let f2 = self.value_to_primval(args[1])?.to_bytes()?;
let f2 = f64::from_bits(f2 as u64);
self.write_primval(
dest,
PrimVal::Bytes(f.powf(f2).to_bits() as u128),
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dest_layout.ty,
)?;
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}
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"fmaf32" => {
let a = self.value_to_primval(args[0])?.to_bytes()?;
let a = f32::from_bits(a as u32);
let b = self.value_to_primval(args[1])?.to_bytes()?;
let b = f32::from_bits(b as u32);
let c = self.value_to_primval(args[2])?.to_bytes()?;
let c = f32::from_bits(c as u32);
self.write_primval(
dest,
PrimVal::Bytes((a * b + c).to_bits() as u128),
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dest_layout.ty,
)?;
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}
"fmaf64" => {
let a = self.value_to_primval(args[0])?.to_bytes()?;
let a = f64::from_bits(a as u64);
let b = self.value_to_primval(args[1])?.to_bytes()?;
let b = f64::from_bits(b as u64);
let c = self.value_to_primval(args[2])?.to_bytes()?;
let c = f64::from_bits(c as u64);
self.write_primval(
dest,
PrimVal::Bytes((a * b + c).to_bits() as u128),
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dest_layout.ty,
)?;
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}
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"powif32" => {
let f = self.value_to_primval(args[0])?.to_bytes()?;
let f = f32::from_bits(f as u32);
let i = self.value_to_primval(args[1])?.to_i128()?;
self.write_primval(
dest,
PrimVal::Bytes(f.powi(i as i32).to_bits() as u128),
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dest_layout.ty,
)?;
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}
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"powif64" => {
let f = self.value_to_primval(args[0])?.to_bytes()?;
let f = f64::from_bits(f as u64);
let i = self.value_to_primval(args[1])?.to_i128()?;
self.write_primval(
dest,
PrimVal::Bytes(f.powi(i as i32).to_bits() as u128),
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dest_layout.ty,
)?;
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}
"size_of" => {
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let ty = substs.type_at(0);
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let size = self.layout_of(ty)?.size.bytes().into();
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self.write_primval(dest, PrimVal::from_u128(size), dest_layout.ty)?;
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}
"size_of_val" => {
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let ty = substs.type_at(0);
let (size, _) = self.size_and_align_of_dst(ty, args[0].value)?;
self.write_primval(
dest,
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PrimVal::from_u128(size.bytes() as u128),
dest_layout.ty,
)?;
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}
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"min_align_of_val" |
"align_of_val" => {
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let ty = substs.type_at(0);
let (_, align) = self.size_and_align_of_dst(ty, args[0].value)?;
self.write_primval(
dest,
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PrimVal::from_u128(align.abi() as u128),
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dest_layout.ty,
)?;
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}
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"type_name" => {
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let ty = substs.type_at(0);
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let ty_name = ty.to_string();
let value = self.str_to_value(&ty_name)?;
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self.write_value(ValTy { value, ty: dest_layout.ty }, dest)?;
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}
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"type_id" => {
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let ty = substs.type_at(0);
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let n = self.tcx.type_id_hash(ty);
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self.write_primval(dest, PrimVal::Bytes(n as u128), dest_layout.ty)?;
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}
"transmute" => {
let src_ty = substs.type_at(0);
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let _src_align = self.layout_of(src_ty)?.align;
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let ptr = self.force_allocation(dest)?.to_ptr()?;
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let dest_align = self.layout_of(substs.type_at(1))?.align;
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self.write_value_to_ptr(args[0].value, ptr.into(), dest_align, src_ty).unwrap();
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}
"unchecked_shl" => {
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let bits = dest_layout.size.bytes() as u128 * 8;
let rhs = self.value_to_primval(args[1])?
.to_bytes()?;
if rhs >= bits {
return err!(Intrinsic(
format!("Overflowing shift by {} in unchecked_shl", rhs),
));
}
self.intrinsic_overflowing(
mir::BinOp::Shl,
args[0],
args[1],
dest,
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dest_layout.ty,
)?;
}
"unchecked_shr" => {
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let bits = dest_layout.size.bytes() as u128 * 8;
let rhs = self.value_to_primval(args[1])?
.to_bytes()?;
if rhs >= bits {
return err!(Intrinsic(
format!("Overflowing shift by {} in unchecked_shr", rhs),
));
}
self.intrinsic_overflowing(
mir::BinOp::Shr,
args[0],
args[1],
dest,
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dest_layout.ty,
)?;
}
"unchecked_div" => {
let rhs = self.value_to_primval(args[1])?
.to_bytes()?;
if rhs == 0 {
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return err!(Intrinsic(format!("Division by 0 in unchecked_div")));
}
self.intrinsic_overflowing(
mir::BinOp::Div,
args[0],
args[1],
dest,
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dest_layout.ty,
)?;
}
"unchecked_rem" => {
let rhs = self.value_to_primval(args[1])?
.to_bytes()?;
if rhs == 0 {
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return err!(Intrinsic(format!("Division by 0 in unchecked_rem")));
}
self.intrinsic_overflowing(
mir::BinOp::Rem,
args[0],
args[1],
dest,
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dest_layout.ty,
)?;
}
"uninit" => {
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let size = dest_layout.size.bytes();
let uninit = |this: &mut Self, val: Value| match val {
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Value::ByRef(ptr, _) => {
this.memory.mark_definedness(ptr, size, false)?;
Ok(val)
}
_ => Ok(Value::ByVal(PrimVal::Undef)),
};
match dest {
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Place::Local { frame, local } => self.modify_local(frame, local, uninit)?,
Place::Ptr {
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ptr,
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align: _align,
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extra: PlaceExtra::None,
} => self.memory.mark_definedness(ptr, size, false)?,
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Place::Ptr { .. } => {
bug!("uninit intrinsic tried to write to fat or unaligned ptr target")
}
}
}
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"write_bytes" => {
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let ty = substs.type_at(0);
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let ty_layout = self.layout_of(ty)?;
let val_byte = self.value_to_primval(args[1])?.to_u128()? as u8;
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let ptr = self.into_ptr(args[0].value)?;
let count = self.value_to_primval(args[2])?.to_u64()?;
if count > 0 {
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// HashMap relies on write_bytes on a NULL ptr with count == 0 to work
// TODO: Should we, at least, validate the alignment? (Also see the copy intrinsic)
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self.memory.check_align(ptr, ty_layout.align)?;
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self.memory.write_repeat(ptr, val_byte, ty_layout.size.bytes() * count)?;
}
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}
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name => return err!(Unimplemented(format!("unimplemented intrinsic: {}", name))),
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}
self.goto_block(target);
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// Since we pushed no stack frame, the main loop will act
// as if the call just completed and it's returning to the
// current frame.
Ok(())
}
}
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fn numeric_intrinsic<'tcx>(
name: &str,
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bytes: u128,
kind: PrimValKind,
) -> EvalResult<'tcx, PrimVal> {
macro_rules! integer_intrinsic {
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($method:ident) => ({
use rustc::mir::interpret::PrimValKind::*;
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let result_bytes = match kind {
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I8 => (bytes as i8).$method() as u128,
U8 => (bytes as u8).$method() as u128,
I16 => (bytes as i16).$method() as u128,
U16 => (bytes as u16).$method() as u128,
I32 => (bytes as i32).$method() as u128,
U32 => (bytes as u32).$method() as u128,
I64 => (bytes as i64).$method() as u128,
U64 => (bytes as u64).$method() as u128,
I128 => (bytes as i128).$method() as u128,
U128 => bytes.$method() as u128,
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_ => bug!("invalid `{}` argument: {:?}", name, bytes),
};
PrimVal::Bytes(result_bytes)
});
}
let result_val = match name {
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"bswap" => integer_intrinsic!(swap_bytes),
"ctlz" => integer_intrinsic!(leading_zeros),
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"ctpop" => integer_intrinsic!(count_ones),
"cttz" => integer_intrinsic!(trailing_zeros),
_ => bug!("not a numeric intrinsic: {}", name),
};
Ok(result_val)
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}