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paulxstretch/deps/juce/modules/juce_dsp/native/juce_fallback_SIMDNativeOps.h
essej 25bd5d8adb git subrepo clone --branch=sono6good https://github.com/essej/JUCE.git deps/juce 
subrepo:
  subdir:   "deps/juce"
  merged:   "b13f9084e"
upstream:
  origin:   "https://github.com/essej/JUCE.git"
  branch:   "sono6good"
  commit:   "b13f9084e"
git-subrepo:
  version:  "0.4.3"
  origin:   "https://github.com/ingydotnet/git-subrepo.git"
  commit:   "2f68596"
2022-04-18 17:51:22 -04:00

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/*
==============================================================================
This file is part of the JUCE library.
Copyright (c) 2020 - Raw Material Software Limited
JUCE is an open source library subject to commercial or open-source
licensing.
By using JUCE, you agree to the terms of both the JUCE 6 End-User License
Agreement and JUCE Privacy Policy (both effective as of the 16th June 2020).
End User License Agreement: www.juce.com/juce-6-licence
Privacy Policy: www.juce.com/juce-privacy-policy
Or: You may also use this code under the terms of the GPL v3 (see
www.gnu.org/licenses).
JUCE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER
EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE
DISCLAIMED.
==============================================================================
*/
namespace juce
{
namespace dsp
{
/** A template specialisation to find corresponding mask type for primitives. */
namespace SIMDInternal
{
template <typename Primitive> struct MaskTypeFor { using type = Primitive; };
template <> struct MaskTypeFor <float> { using type = uint32_t; };
template <> struct MaskTypeFor <double> { using type = uint64_t; };
template <> struct MaskTypeFor <char> { using type = uint8_t; };
template <> struct MaskTypeFor <int8_t> { using type = uint8_t; };
template <> struct MaskTypeFor <int16_t> { using type = uint16_t; };
template <> struct MaskTypeFor <int32_t> { using type = uint32_t; };
template <> struct MaskTypeFor <int64_t> { using type = uint64_t; };
template <> struct MaskTypeFor <std::complex<float>> { using type = uint32_t; };
template <> struct MaskTypeFor <std::complex<double>> { using type = uint64_t; };
template <typename Primitive> struct PrimitiveType { using type = typename std::remove_cv<Primitive>::type; };
template <typename Primitive> struct PrimitiveType<std::complex<Primitive>> { using type = typename std::remove_cv<Primitive>::type; };
template <int n> struct Log2Helper { enum { value = Log2Helper<n/2>::value + 1 }; };
template <> struct Log2Helper<1> { enum { value = 0 }; };
}
/**
Useful fallback routines to use if the native SIMD op is not supported. You
should never need to use this directly. Use juce_SIMDRegister instead.
@tags{DSP}
*/
template <typename ScalarType, typename vSIMDType>
struct SIMDFallbackOps
{
static constexpr size_t n = sizeof (vSIMDType) / sizeof (ScalarType);
static constexpr size_t mask = (sizeof (vSIMDType) / sizeof (ScalarType)) - 1;
static constexpr size_t bits = SIMDInternal::Log2Helper<(int) n>::value;
// helper types
using MaskType = typename SIMDInternal::MaskTypeFor<ScalarType>::type;
union UnionType { vSIMDType v; ScalarType s[n]; };
union UnionMaskType { vSIMDType v; MaskType m[n]; };
// fallback methods
static forcedinline vSIMDType add (vSIMDType a, vSIMDType b) noexcept { return apply<ScalarAdd> (a, b); }
static forcedinline vSIMDType sub (vSIMDType a, vSIMDType b) noexcept { return apply<ScalarSub> (a, b); }
static forcedinline vSIMDType mul (vSIMDType a, vSIMDType b) noexcept { return apply<ScalarMul> (a, b); }
static forcedinline vSIMDType bit_and (vSIMDType a, vSIMDType b) noexcept { return bitapply<ScalarAnd> (a, b); }
static forcedinline vSIMDType bit_or (vSIMDType a, vSIMDType b) noexcept { return bitapply<ScalarOr > (a, b); }
static forcedinline vSIMDType bit_xor (vSIMDType a, vSIMDType b) noexcept { return bitapply<ScalarXor> (a, b); }
static forcedinline vSIMDType bit_notand (vSIMDType a, vSIMDType b) noexcept { return bitapply<ScalarNot> (a, b); }
static forcedinline vSIMDType min (vSIMDType a, vSIMDType b) noexcept { return apply<ScalarMin> (a, b); }
static forcedinline vSIMDType max (vSIMDType a, vSIMDType b) noexcept { return apply<ScalarMax> (a, b); }
static forcedinline vSIMDType equal (vSIMDType a, vSIMDType b) noexcept { return cmp<ScalarEq > (a, b); }
static forcedinline vSIMDType notEqual (vSIMDType a, vSIMDType b) noexcept { return cmp<ScalarNeq> (a, b); }
static forcedinline vSIMDType greaterThan (vSIMDType a, vSIMDType b) noexcept { return cmp<ScalarGt > (a, b); }
static forcedinline vSIMDType greaterThanOrEqual (vSIMDType a, vSIMDType b) noexcept { return cmp<ScalarGeq> (a, b); }
static forcedinline ScalarType get (vSIMDType v, size_t i) noexcept
{
UnionType u {v};
return u.s[i];
}
static forcedinline vSIMDType set (vSIMDType v, size_t i, ScalarType s) noexcept
{
UnionType u {v};
u.s[i] = s;
return u.v;
}
static forcedinline vSIMDType bit_not (vSIMDType av) noexcept
{
UnionMaskType a {av};
for (size_t i = 0; i < n; ++i)
a.m[i] = ~a.m[i];
return a.v;
}
static forcedinline ScalarType sum (vSIMDType av) noexcept
{
UnionType a {av};
auto retval = static_cast<ScalarType> (0);
for (size_t i = 0; i < n; ++i)
retval = static_cast<ScalarType> (retval + a.s[i]);
return retval;
}
static forcedinline vSIMDType truncate (vSIMDType av) noexcept
{
UnionType a {av};
for (size_t i = 0; i < n; ++i)
a.s[i] = static_cast<ScalarType> (static_cast<int> (a.s[i]));
return a.v;
}
static forcedinline vSIMDType multiplyAdd (vSIMDType av, vSIMDType bv, vSIMDType cv) noexcept
{
UnionType a {av}, b {bv}, c {cv};
for (size_t i = 0; i < n; ++i)
a.s[i] += b.s[i] * c.s[i];
return a.v;
}
//==============================================================================
static forcedinline bool allEqual (vSIMDType av, vSIMDType bv) noexcept
{
UnionType a {av}, b {bv};
for (size_t i = 0; i < n; ++i)
if (a.s[i] != b.s[i])
return false;
return true;
}
//==============================================================================
static forcedinline vSIMDType cmplxmul (vSIMDType av, vSIMDType bv) noexcept
{
UnionType a {av}, b {bv}, r;
const int m = n >> 1;
for (int i = 0; i < m; ++i)
{
std::complex<ScalarType> result
= std::complex<ScalarType> (a.s[i<<1], a.s[(i<<1)|1])
* std::complex<ScalarType> (b.s[i<<1], b.s[(i<<1)|1]);
r.s[i<<1] = result.real();
r.s[(i<<1)|1] = result.imag();
}
return r.v;
}
struct ScalarAdd { static forcedinline ScalarType op (ScalarType a, ScalarType b) noexcept { return a + b; } };
struct ScalarSub { static forcedinline ScalarType op (ScalarType a, ScalarType b) noexcept { return a - b; } };
struct ScalarMul { static forcedinline ScalarType op (ScalarType a, ScalarType b) noexcept { return a * b; } };
struct ScalarMin { static forcedinline ScalarType op (ScalarType a, ScalarType b) noexcept { return jmin (a, b); } };
struct ScalarMax { static forcedinline ScalarType op (ScalarType a, ScalarType b) noexcept { return jmax (a, b); } };
struct ScalarAnd { static forcedinline MaskType op (MaskType a, MaskType b) noexcept { return a & b; } };
struct ScalarOr { static forcedinline MaskType op (MaskType a, MaskType b) noexcept { return a | b; } };
struct ScalarXor { static forcedinline MaskType op (MaskType a, MaskType b) noexcept { return a ^ b; } };
struct ScalarNot { static forcedinline MaskType op (MaskType a, MaskType b) noexcept { return (~a) & b; } };
struct ScalarEq { static forcedinline bool op (ScalarType a, ScalarType b) noexcept { return (a == b); } };
struct ScalarNeq { static forcedinline bool op (ScalarType a, ScalarType b) noexcept { return (a != b); } };
struct ScalarGt { static forcedinline bool op (ScalarType a, ScalarType b) noexcept { return (a > b); } };
struct ScalarGeq { static forcedinline bool op (ScalarType a, ScalarType b) noexcept { return (a >= b); } };
// generic apply routines for operations above
template <typename Op>
static forcedinline vSIMDType apply (vSIMDType av, vSIMDType bv) noexcept
{
UnionType a {av}, b {bv};
for (size_t i = 0; i < n; ++i)
a.s[i] = Op::op (a.s[i], b.s[i]);
return a.v;
}
template <typename Op>
static forcedinline vSIMDType cmp (vSIMDType av, vSIMDType bv) noexcept
{
UnionType a {av}, b {bv};
UnionMaskType r;
for (size_t i = 0; i < n; ++i)
r.m[i] = Op::op (a.s[i], b.s[i]) ? static_cast<MaskType> (-1) : static_cast<MaskType> (0);
return r.v;
}
template <typename Op>
static forcedinline vSIMDType bitapply (vSIMDType av, vSIMDType bv) noexcept
{
UnionMaskType a {av}, b {bv};
for (size_t i = 0; i < n; ++i)
a.m[i] = Op::op (a.m[i], b.m[i]);
return a.v;
}
static forcedinline vSIMDType expand (ScalarType s) noexcept
{
UnionType r;
for (size_t i = 0; i < n; ++i)
r.s[i] = s;
return r.v;
}
static forcedinline vSIMDType load (const ScalarType* a) noexcept
{
UnionType r;
for (size_t i = 0; i < n; ++i)
r.s[i] = a[i];
return r.v;
}
static forcedinline void store (vSIMDType av, ScalarType* dest) noexcept
{
UnionType a {av};
for (size_t i = 0; i < n; ++i)
dest[i] = a.s[i];
}
template <unsigned int shuffle_idx>
static forcedinline vSIMDType shuffle (vSIMDType av) noexcept
{
UnionType a {av}, r;
// the compiler will unroll this loop and the index can
// be computed at compile-time, so this will be super fast
for (size_t i = 0; i < n; ++i)
r.s[i] = a.s[(shuffle_idx >> (bits * i)) & mask];
return r.v;
}
};
} // namespace dsp
} // namespace juce
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