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Merge simd size and type extraction into checking whether a type is simd, as these always go together.
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@ -935,9 +935,10 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
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}
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macro_rules! require_simd {
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($ty: expr, $variant:ident) => {
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require!($ty.is_simd(), InvalidMonomorphization::$variant { span, name, ty: $ty })
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};
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($ty: expr, $variant:ident) => {{
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require!($ty.is_simd(), InvalidMonomorphization::$variant { span, name, ty: $ty });
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$ty.simd_size_and_type(bx.tcx())
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}};
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}
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let tcx = bx.tcx();
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@ -946,9 +947,7 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
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let arg_tys = sig.inputs();
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if name == sym::simd_select_bitmask {
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require_simd!(arg_tys[1], SimdArgument);
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let (len, _) = arg_tys[1].simd_size_and_type(bx.tcx());
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let (len, _) = require_simd!(arg_tys[1], SimdArgument);
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let expected_int_bits = (len.max(8) - 1).next_power_of_two();
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let expected_bytes = len / 8 + ((len % 8 > 0) as u64);
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@ -985,7 +984,7 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
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}
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// every intrinsic below takes a SIMD vector as its first argument
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require_simd!(arg_tys[0], SimdInput);
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let (in_len, in_elem) = require_simd!(arg_tys[0], SimdInput);
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let in_ty = arg_tys[0];
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let comparison = match name {
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@ -998,11 +997,8 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
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_ => None,
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};
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let (in_len, in_elem) = arg_tys[0].simd_size_and_type(bx.tcx());
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if let Some(cmp_op) = comparison {
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require_simd!(ret_ty, SimdReturn);
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let (out_len, out_ty) = ret_ty.simd_size_and_type(bx.tcx());
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let (out_len, out_ty) = require_simd!(ret_ty, SimdReturn);
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require!(
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in_len == out_len,
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@ -1038,8 +1034,7 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
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.unwrap_branch();
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let n = idx.len() as u64;
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require_simd!(ret_ty, SimdReturn);
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let (out_len, out_ty) = ret_ty.simd_size_and_type(bx.tcx());
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let (out_len, out_ty) = require_simd!(ret_ty, SimdReturn);
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require!(
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out_len == n,
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InvalidMonomorphization::ReturnLength { span, name, in_len: n, ret_ty, out_len }
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@ -1096,8 +1091,7 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
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}),
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};
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require_simd!(ret_ty, SimdReturn);
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let (out_len, out_ty) = ret_ty.simd_size_and_type(bx.tcx());
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let (out_len, out_ty) = require_simd!(ret_ty, SimdReturn);
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require!(
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out_len == n,
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InvalidMonomorphization::ReturnLength { span, name, in_len: n, ret_ty, out_len }
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@ -1176,8 +1170,7 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
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if name == sym::simd_select {
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let m_elem_ty = in_elem;
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let m_len = in_len;
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require_simd!(arg_tys[1], SimdArgument);
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let (v_len, _) = arg_tys[1].simd_size_and_type(bx.tcx());
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let (v_len, _) = require_simd!(arg_tys[1], SimdArgument);
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require!(
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m_len == v_len,
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InvalidMonomorphization::MismatchedLengths { span, name, m_len, v_len }
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@ -1395,14 +1388,16 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
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// * M: any integer width is supported, will be truncated to i1
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// All types must be simd vector types
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require_simd!(in_ty, SimdFirst);
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require_simd!(arg_tys[1], SimdSecond);
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require_simd!(arg_tys[2], SimdThird);
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// The second argument must be a simd vector with an element type that's a pointer
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// to the element type of the first argument
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let (_, element_ty0) = require_simd!(in_ty, SimdFirst);
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let (out_len, element_ty1) = require_simd!(arg_tys[1], SimdSecond);
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// The element type of the third argument must be a signed integer type of any width:
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let (out_len2, element_ty2) = require_simd!(arg_tys[2], SimdThird);
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require_simd!(ret_ty, SimdReturn);
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// Of the same length:
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let (out_len, _) = arg_tys[1].simd_size_and_type(bx.tcx());
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let (out_len2, _) = arg_tys[2].simd_size_and_type(bx.tcx());
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require!(
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in_len == out_len,
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InvalidMonomorphization::SecondArgumentLength {
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@ -1432,11 +1427,6 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
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InvalidMonomorphization::ExpectedReturnType { span, name, in_ty, ret_ty }
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);
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// The second argument must be a simd vector with an element type that's a pointer
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// to the element type of the first argument
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let (_, element_ty0) = arg_tys[0].simd_size_and_type(bx.tcx());
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let (_, element_ty1) = arg_tys[1].simd_size_and_type(bx.tcx());
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require!(
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matches!(
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element_ty1.kind(),
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@ -1453,8 +1443,6 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
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}
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);
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// The element type of the third argument must be a signed integer type of any width:
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let (_, element_ty2) = arg_tys[2].simd_size_and_type(bx.tcx());
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match element_ty2.kind() {
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ty::Int(_) => (),
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_ => {
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@ -1512,13 +1500,13 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
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// * M: any integer width is supported, will be truncated to i1
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// All types must be simd vector types
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require_simd!(in_ty, SimdFirst);
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require_simd!(arg_tys[1], SimdSecond);
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require_simd!(arg_tys[2], SimdThird);
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// The second argument must be a simd vector with an element type that's a pointer
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// to the element type of the first argument
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let (_, element_ty0) = require_simd!(in_ty, SimdFirst);
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let (element_len1, element_ty1) = require_simd!(arg_tys[1], SimdSecond);
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let (element_len2, element_ty2) = require_simd!(arg_tys[2], SimdThird);
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// Of the same length:
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let (element_len1, _) = arg_tys[1].simd_size_and_type(bx.tcx());
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let (element_len2, _) = arg_tys[2].simd_size_and_type(bx.tcx());
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require!(
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in_len == element_len1,
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InvalidMonomorphization::SecondArgumentLength {
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@ -1542,12 +1530,6 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
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}
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);
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// The second argument must be a simd vector with an element type that's a pointer
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// to the element type of the first argument
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let (_, element_ty0) = arg_tys[0].simd_size_and_type(bx.tcx());
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let (_, element_ty1) = arg_tys[1].simd_size_and_type(bx.tcx());
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let (_, element_ty2) = arg_tys[2].simd_size_and_type(bx.tcx());
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require!(
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matches!(
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element_ty1.kind(),
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@ -1770,8 +1752,7 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
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bitwise_red!(simd_reduce_any: vector_reduce_or, true);
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if name == sym::simd_cast_ptr {
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require_simd!(ret_ty, SimdReturn);
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let (out_len, out_elem) = ret_ty.simd_size_and_type(bx.tcx());
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let (out_len, out_elem) = require_simd!(ret_ty, SimdReturn);
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require!(
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in_len == out_len,
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InvalidMonomorphization::ReturnLengthInputType {
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@ -1819,8 +1800,7 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
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}
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if name == sym::simd_expose_addr {
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require_simd!(ret_ty, SimdReturn);
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let (out_len, out_elem) = ret_ty.simd_size_and_type(bx.tcx());
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let (out_len, out_elem) = require_simd!(ret_ty, SimdReturn);
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require!(
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in_len == out_len,
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InvalidMonomorphization::ReturnLengthInputType {
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@ -1848,8 +1828,7 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
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}
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if name == sym::simd_from_exposed_addr {
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require_simd!(ret_ty, SimdReturn);
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let (out_len, out_elem) = ret_ty.simd_size_and_type(bx.tcx());
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let (out_len, out_elem) = require_simd!(ret_ty, SimdReturn);
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require!(
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in_len == out_len,
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InvalidMonomorphization::ReturnLengthInputType {
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@ -1877,8 +1856,7 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
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}
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if name == sym::simd_cast || name == sym::simd_as {
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require_simd!(ret_ty, SimdReturn);
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let (out_len, out_elem) = ret_ty.simd_size_and_type(bx.tcx());
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let (out_len, out_elem) = require_simd!(ret_ty, SimdReturn);
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require!(
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in_len == out_len,
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InvalidMonomorphization::ReturnLengthInputType {
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