paulxstretch/deps/juce/modules/juce_dsp/native/juce_neon_SIMDNativeOps.h

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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
{
#ifndef DOXYGEN
JUCE_BEGIN_IGNORE_WARNINGS_GCC_LIKE ("-Wignored-attributes")
#ifdef _MSC_VER
#define DECLARE_NEON_SIMD_CONST(type, name) \
static __declspec(align(16)) const type name [16 / sizeof (type)]
#define DEFINE_NEON_SIMD_CONST(type, class_type, name) \
__declspec(align(16)) const type SIMDNativeOps<class_type>:: name [16 / sizeof (type)]
#else
#define DECLARE_NEON_SIMD_CONST(type, name) \
static const type name [16 / sizeof (type)] __attribute__((aligned(16)))
#define DEFINE_NEON_SIMD_CONST(type, class_type, name) \
const type SIMDNativeOps<class_type>:: name [16 / sizeof (type)] __attribute__((aligned(16)))
#endif
template <typename type>
struct SIMDNativeOps;
//==============================================================================
/** Unsigned 32-bit integer NEON intrinsics.
@tags{DSP}
*/
template <>
struct SIMDNativeOps<uint32_t>
{
//==============================================================================
using vSIMDType = uint32x4_t;
using fb = SIMDFallbackOps<uint32_t, vSIMDType>;
//==============================================================================
DECLARE_NEON_SIMD_CONST (uint32_t, kAllBitsSet);
//==============================================================================
static forcedinline vSIMDType expand (uint32_t s) noexcept { return vdupq_n_u32 (s); }
static forcedinline vSIMDType load (const uint32_t* a) noexcept { return vld1q_u32 (a); }
static forcedinline void store (vSIMDType value, uint32_t* a) noexcept { vst1q_u32 (a, value); }
static forcedinline uint32_t get (vSIMDType v, size_t i) noexcept { return v[i]; }
static forcedinline vSIMDType set (vSIMDType v, size_t i, uint32_t s) noexcept { v[i] = s; return v; }
static forcedinline vSIMDType add (vSIMDType a, vSIMDType b) noexcept { return vaddq_u32 (a, b); }
static forcedinline vSIMDType sub (vSIMDType a, vSIMDType b) noexcept { return vsubq_u32 (a, b); }
static forcedinline vSIMDType mul (vSIMDType a, vSIMDType b) noexcept { return vmulq_u32 (a, b); }
static forcedinline vSIMDType bit_and (vSIMDType a, vSIMDType b) noexcept { return vandq_u32 (a, b); }
static forcedinline vSIMDType bit_or (vSIMDType a, vSIMDType b) noexcept { return vorrq_u32 (a, b); }
static forcedinline vSIMDType bit_xor (vSIMDType a, vSIMDType b) noexcept { return veorq_u32 (a, b); }
static forcedinline vSIMDType bit_notand (vSIMDType a, vSIMDType b) noexcept { return vbicq_u32 (b, a); }
static forcedinline vSIMDType bit_not (vSIMDType a) noexcept { return bit_notand (a, vld1q_u32 ((uint32_t*) kAllBitsSet)); }
static forcedinline vSIMDType min (vSIMDType a, vSIMDType b) noexcept { return vminq_u32 (a, b); }
static forcedinline vSIMDType max (vSIMDType a, vSIMDType b) noexcept { return vmaxq_u32 (a, b); }
static forcedinline vSIMDType equal (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vceqq_u32 (a, b); }
static forcedinline bool allEqual (vSIMDType a, vSIMDType b) noexcept { return (sum (notEqual (a, b)) == 0); }
static forcedinline vSIMDType notEqual (vSIMDType a, vSIMDType b) noexcept { return bit_not (equal (a, b)); }
static forcedinline vSIMDType greaterThan (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vcgtq_u32 (a, b); }
static forcedinline vSIMDType greaterThanOrEqual (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vcgeq_u32 (a, b); }
static forcedinline vSIMDType multiplyAdd (vSIMDType a, vSIMDType b, vSIMDType c) noexcept { return vmlaq_u32 (a, b, c); }
static forcedinline vSIMDType truncate (vSIMDType a) noexcept { return a; }
static forcedinline uint32_t sum (vSIMDType a) noexcept
{
auto rr = vadd_u32 (vget_high_u32 (a), vget_low_u32 (a));
return vget_lane_u32 (vpadd_u32 (rr, rr), 0);
}
};
//==============================================================================
/** Signed 32-bit integer NEON intrinsics.
@tags{DSP}
*/
template <>
struct SIMDNativeOps<int32_t>
{
//==============================================================================
using vSIMDType = int32x4_t;
using fb = SIMDFallbackOps<int32_t, vSIMDType>;
//==============================================================================
DECLARE_NEON_SIMD_CONST (int32_t, kAllBitsSet);
//==============================================================================
static forcedinline vSIMDType expand (int32_t s) noexcept { return vdupq_n_s32 (s); }
static forcedinline vSIMDType load (const int32_t* a) noexcept { return vld1q_s32 (a); }
static forcedinline void store (vSIMDType value, int32_t* a) noexcept { vst1q_s32 (a, value); }
static forcedinline int32_t get (vSIMDType v, size_t i) noexcept { return v[i]; }
static forcedinline vSIMDType set (vSIMDType v, size_t i, int32_t s) noexcept { v[i] = s; return v; }
static forcedinline vSIMDType add (vSIMDType a, vSIMDType b) noexcept { return vaddq_s32 (a, b); }
static forcedinline vSIMDType sub (vSIMDType a, vSIMDType b) noexcept { return vsubq_s32 (a, b); }
static forcedinline vSIMDType mul (vSIMDType a, vSIMDType b) noexcept { return vmulq_s32 (a, b); }
static forcedinline vSIMDType bit_and (vSIMDType a, vSIMDType b) noexcept { return vandq_s32 (a, b); }
static forcedinline vSIMDType bit_or (vSIMDType a, vSIMDType b) noexcept { return vorrq_s32 (a, b); }
static forcedinline vSIMDType bit_xor (vSIMDType a, vSIMDType b) noexcept { return veorq_s32 (a, b); }
static forcedinline vSIMDType bit_notand (vSIMDType a, vSIMDType b) noexcept { return vbicq_s32 (b, a); }
static forcedinline vSIMDType bit_not (vSIMDType a) noexcept { return bit_notand (a, vld1q_s32 ((int32_t*) kAllBitsSet)); }
static forcedinline vSIMDType min (vSIMDType a, vSIMDType b) noexcept { return vminq_s32 (a, b); }
static forcedinline vSIMDType max (vSIMDType a, vSIMDType b) noexcept { return vmaxq_s32 (a, b); }
static forcedinline vSIMDType equal (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vceqq_s32 (a, b); }
static forcedinline bool allEqual (vSIMDType a, vSIMDType b) noexcept { return (sum (notEqual (a, b)) == 0); }
static forcedinline vSIMDType notEqual (vSIMDType a, vSIMDType b) noexcept { return bit_not (equal (a, b)); }
static forcedinline vSIMDType greaterThan (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vcgtq_s32 (a, b); }
static forcedinline vSIMDType greaterThanOrEqual (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vcgeq_s32 (a, b); }
static forcedinline vSIMDType multiplyAdd (vSIMDType a, vSIMDType b, vSIMDType c) noexcept { return vmlaq_s32 (a, b, c); }
static forcedinline vSIMDType truncate (vSIMDType a) noexcept { return a; }
static forcedinline int32_t sum (vSIMDType a) noexcept
{
auto rr = vadd_s32 (vget_high_s32 (a), vget_low_s32 (a));
rr = vpadd_s32 (rr, rr);
return vget_lane_s32 (rr, 0);
}
};
//==============================================================================
/** Signed 8-bit integer NEON intrinsics.
@tags{DSP}
*/
template <>
struct SIMDNativeOps<int8_t>
{
//==============================================================================
using vSIMDType = int8x16_t;
using fb = SIMDFallbackOps<int8_t, vSIMDType>;
//==============================================================================
DECLARE_NEON_SIMD_CONST (int8_t, kAllBitsSet);
//==============================================================================
static forcedinline vSIMDType expand (int8_t s) noexcept { return vdupq_n_s8 (s); }
static forcedinline vSIMDType load (const int8_t* a) noexcept { return vld1q_s8 (a); }
static forcedinline void store (vSIMDType value, int8_t* a) noexcept { vst1q_s8 (a, value); }
static forcedinline int8_t get (vSIMDType v, size_t i) noexcept { return v[i]; }
static forcedinline vSIMDType set (vSIMDType v, size_t i, int8_t s) noexcept { v[i] = s; return v; }
static forcedinline vSIMDType add (vSIMDType a, vSIMDType b) noexcept { return vaddq_s8 (a, b); }
static forcedinline vSIMDType sub (vSIMDType a, vSIMDType b) noexcept { return vsubq_s8 (a, b); }
static forcedinline vSIMDType mul (vSIMDType a, vSIMDType b) noexcept { return vmulq_s8 (a, b); }
static forcedinline vSIMDType bit_and (vSIMDType a, vSIMDType b) noexcept { return vandq_s8 (a, b); }
static forcedinline vSIMDType bit_or (vSIMDType a, vSIMDType b) noexcept { return vorrq_s8 (a, b); }
static forcedinline vSIMDType bit_xor (vSIMDType a, vSIMDType b) noexcept { return veorq_s8 (a, b); }
static forcedinline vSIMDType bit_notand (vSIMDType a, vSIMDType b) noexcept { return vbicq_s8 (b, a); }
static forcedinline vSIMDType bit_not (vSIMDType a) noexcept { return bit_notand (a, vld1q_s8 ((int8_t*) kAllBitsSet)); }
static forcedinline vSIMDType min (vSIMDType a, vSIMDType b) noexcept { return vminq_s8 (a, b); }
static forcedinline vSIMDType max (vSIMDType a, vSIMDType b) noexcept { return vmaxq_s8 (a, b); }
static forcedinline vSIMDType equal (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vceqq_s8 (a, b); }
static forcedinline vSIMDType notEqual (vSIMDType a, vSIMDType b) noexcept { return bit_not (equal (a, b)); }
static forcedinline vSIMDType greaterThan (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vcgtq_s8 (a, b); }
static forcedinline vSIMDType greaterThanOrEqual (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vcgeq_s8 (a, b); }
static forcedinline bool allEqual (vSIMDType a, vSIMDType b) noexcept { return (SIMDNativeOps<int32_t>::sum ((SIMDNativeOps<int32_t>::vSIMDType) notEqual (a, b)) == 0); }
static forcedinline vSIMDType multiplyAdd (vSIMDType a, vSIMDType b, vSIMDType c) noexcept { return vmlaq_s8 (a, b, c); }
static forcedinline int8_t sum (vSIMDType a) noexcept { return fb::sum (a); }
static forcedinline vSIMDType truncate (vSIMDType a) noexcept { return a; }
};
//==============================================================================
/** Unsigned 8-bit integer NEON intrinsics.
@tags{DSP}
*/
template <>
struct SIMDNativeOps<uint8_t>
{
//==============================================================================
using vSIMDType = uint8x16_t;
using fb = SIMDFallbackOps<uint8_t, vSIMDType>;
//==============================================================================
DECLARE_NEON_SIMD_CONST (uint8_t, kAllBitsSet);
//==============================================================================
static forcedinline vSIMDType expand (uint8_t s) noexcept { return vdupq_n_u8 (s); }
static forcedinline vSIMDType load (const uint8_t* a) noexcept { return vld1q_u8 (a); }
static forcedinline void store (vSIMDType value, uint8_t* a) noexcept { vst1q_u8 (a, value); }
static forcedinline uint8_t get (vSIMDType v, size_t i) noexcept { return v[i]; }
static forcedinline vSIMDType set (vSIMDType v, size_t i, uint8_t s) noexcept { v[i] = s; return v; }
static forcedinline vSIMDType add (vSIMDType a, vSIMDType b) noexcept { return vaddq_u8 (a, b); }
static forcedinline vSIMDType sub (vSIMDType a, vSIMDType b) noexcept { return vsubq_u8 (a, b); }
static forcedinline vSIMDType mul (vSIMDType a, vSIMDType b) noexcept { return vmulq_u8 (a, b); }
static forcedinline vSIMDType bit_and (vSIMDType a, vSIMDType b) noexcept { return vandq_u8 (a, b); }
static forcedinline vSIMDType bit_or (vSIMDType a, vSIMDType b) noexcept { return vorrq_u8 (a, b); }
static forcedinline vSIMDType bit_xor (vSIMDType a, vSIMDType b) noexcept { return veorq_u8 (a, b); }
static forcedinline vSIMDType bit_notand (vSIMDType a, vSIMDType b) noexcept { return vbicq_u8 (b, a); }
static forcedinline vSIMDType bit_not (vSIMDType a) noexcept { return bit_notand (a, vld1q_u8 ((uint8_t*) kAllBitsSet)); }
static forcedinline vSIMDType min (vSIMDType a, vSIMDType b) noexcept { return vminq_u8 (a, b); }
static forcedinline vSIMDType max (vSIMDType a, vSIMDType b) noexcept { return vmaxq_u8 (a, b); }
static forcedinline vSIMDType equal (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vceqq_u8 (a, b); }
static forcedinline vSIMDType notEqual (vSIMDType a, vSIMDType b) noexcept { return bit_not (equal (a, b)); }
static forcedinline vSIMDType greaterThan (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vcgtq_u8 (a, b); }
static forcedinline vSIMDType greaterThanOrEqual (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vcgeq_u8 (a, b); }
static forcedinline bool allEqual (vSIMDType a, vSIMDType b) noexcept { return (SIMDNativeOps<uint32_t>::sum ((SIMDNativeOps<uint32_t>::vSIMDType) notEqual (a, b)) == 0); }
static forcedinline vSIMDType multiplyAdd (vSIMDType a, vSIMDType b, vSIMDType c) noexcept { return vmlaq_u8 (a, b, c); }
static forcedinline uint8_t sum (vSIMDType a) noexcept { return fb::sum (a); }
static forcedinline vSIMDType truncate (vSIMDType a) noexcept { return a; }
};
//==============================================================================
/** Signed 16-bit integer NEON intrinsics.
@tags{DSP}
*/
template <>
struct SIMDNativeOps<int16_t>
{
//==============================================================================
using vSIMDType = int16x8_t;
using fb = SIMDFallbackOps<int16_t, vSIMDType>;
//==============================================================================
DECLARE_NEON_SIMD_CONST (int16_t, kAllBitsSet);
//==============================================================================
static forcedinline vSIMDType expand (int16_t s) noexcept { return vdupq_n_s16 (s); }
static forcedinline vSIMDType load (const int16_t* a) noexcept { return vld1q_s16 (a); }
static forcedinline void store (vSIMDType value, int16_t* a) noexcept { vst1q_s16 (a, value); }
static forcedinline int16_t get (vSIMDType v, size_t i) noexcept { return v[i]; }
static forcedinline vSIMDType set (vSIMDType v, size_t i, int16_t s) noexcept { v[i] = s; return v; }
static forcedinline vSIMDType add (vSIMDType a, vSIMDType b) noexcept { return vaddq_s16 (a, b); }
static forcedinline vSIMDType sub (vSIMDType a, vSIMDType b) noexcept { return vsubq_s16 (a, b); }
static forcedinline vSIMDType mul (vSIMDType a, vSIMDType b) noexcept { return vmulq_s16 (a, b); }
static forcedinline vSIMDType bit_and (vSIMDType a, vSIMDType b) noexcept { return vandq_s16 (a, b); }
static forcedinline vSIMDType bit_or (vSIMDType a, vSIMDType b) noexcept { return vorrq_s16 (a, b); }
static forcedinline vSIMDType bit_xor (vSIMDType a, vSIMDType b) noexcept { return veorq_s16 (a, b); }
static forcedinline vSIMDType bit_notand (vSIMDType a, vSIMDType b) noexcept { return vbicq_s16 (b, a); }
static forcedinline vSIMDType bit_not (vSIMDType a) noexcept { return bit_notand (a, vld1q_s16 ((int16_t*) kAllBitsSet)); }
static forcedinline vSIMDType min (vSIMDType a, vSIMDType b) noexcept { return vminq_s16 (a, b); }
static forcedinline vSIMDType max (vSIMDType a, vSIMDType b) noexcept { return vmaxq_s16 (a, b); }
static forcedinline vSIMDType equal (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vceqq_s16 (a, b); }
static forcedinline vSIMDType notEqual (vSIMDType a, vSIMDType b) noexcept { return bit_not (equal (a, b)); }
static forcedinline vSIMDType greaterThan (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vcgtq_s16 (a, b); }
static forcedinline vSIMDType greaterThanOrEqual (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vcgeq_s16 (a, b); }
static forcedinline bool allEqual (vSIMDType a, vSIMDType b) noexcept { return (SIMDNativeOps<int32_t>::sum ((SIMDNativeOps<int32_t>::vSIMDType) notEqual (a, b)) == 0); }
static forcedinline vSIMDType multiplyAdd (vSIMDType a, vSIMDType b, vSIMDType c) noexcept { return vmlaq_s16 (a, b, c); }
static forcedinline int16_t sum (vSIMDType a) noexcept { return fb::sum (a); }
static forcedinline vSIMDType truncate (vSIMDType a) noexcept { return a; }
};
//==============================================================================
/** Unsigned 16-bit integer NEON intrinsics.
@tags{DSP}
*/
template <>
struct SIMDNativeOps<uint16_t>
{
//==============================================================================
using vSIMDType = uint16x8_t;
using fb = SIMDFallbackOps<uint16_t, vSIMDType>;
//==============================================================================
DECLARE_NEON_SIMD_CONST (uint16_t, kAllBitsSet);
//==============================================================================
static forcedinline vSIMDType expand (uint16_t s) noexcept { return vdupq_n_u16 (s); }
static forcedinline vSIMDType load (const uint16_t* a) noexcept { return vld1q_u16 (a); }
static forcedinline void store (vSIMDType value, uint16_t* a) noexcept { vst1q_u16 (a, value); }
static forcedinline uint16_t get (vSIMDType v, size_t i) noexcept { return v[i]; }
static forcedinline vSIMDType set (vSIMDType v, size_t i, uint16_t s) noexcept { v[i] = s; return v; }
static forcedinline vSIMDType add (vSIMDType a, vSIMDType b) noexcept { return vaddq_u16 (a, b); }
static forcedinline vSIMDType sub (vSIMDType a, vSIMDType b) noexcept { return vsubq_u16 (a, b); }
static forcedinline vSIMDType mul (vSIMDType a, vSIMDType b) noexcept { return vmulq_u16 (a, b); }
static forcedinline vSIMDType bit_and (vSIMDType a, vSIMDType b) noexcept { return vandq_u16 (a, b); }
static forcedinline vSIMDType bit_or (vSIMDType a, vSIMDType b) noexcept { return vorrq_u16 (a, b); }
static forcedinline vSIMDType bit_xor (vSIMDType a, vSIMDType b) noexcept { return veorq_u16 (a, b); }
static forcedinline vSIMDType bit_notand (vSIMDType a, vSIMDType b) noexcept { return vbicq_u16 (b, a); }
static forcedinline vSIMDType bit_not (vSIMDType a) noexcept { return bit_notand (a, vld1q_u16 ((uint16_t*) kAllBitsSet)); }
static forcedinline vSIMDType min (vSIMDType a, vSIMDType b) noexcept { return vminq_u16 (a, b); }
static forcedinline vSIMDType max (vSIMDType a, vSIMDType b) noexcept { return vmaxq_u16 (a, b); }
static forcedinline vSIMDType equal (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vceqq_u16 (a, b); }
static forcedinline vSIMDType notEqual (vSIMDType a, vSIMDType b) noexcept { return bit_not (equal (a, b)); }
static forcedinline vSIMDType greaterThan (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vcgtq_u16 (a, b); }
static forcedinline vSIMDType greaterThanOrEqual (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vcgeq_u16 (a, b); }
static forcedinline bool allEqual (vSIMDType a, vSIMDType b) noexcept { return (SIMDNativeOps<uint32_t>::sum ((SIMDNativeOps<uint32_t>::vSIMDType) notEqual (a, b)) == 0); }
static forcedinline vSIMDType multiplyAdd (vSIMDType a, vSIMDType b, vSIMDType c) noexcept { return vmlaq_u16 (a, b, c); }
static forcedinline uint16_t sum (vSIMDType a) noexcept { return fb::sum (a); }
static forcedinline vSIMDType truncate (vSIMDType a) noexcept { return a; }
};
//==============================================================================
/** Signed 64-bit integer NEON intrinsics.
@tags{DSP}
*/
template <>
struct SIMDNativeOps<int64_t>
{
//==============================================================================
using vSIMDType = int64x2_t;
using fb = SIMDFallbackOps<int64_t, vSIMDType>;
//==============================================================================
DECLARE_NEON_SIMD_CONST (int64_t, kAllBitsSet);
//==============================================================================
static forcedinline vSIMDType expand (int64_t s) noexcept { return vdupq_n_s64 (s); }
static forcedinline vSIMDType load (const int64_t* a) noexcept { return vld1q_s64 (a); }
static forcedinline void store (vSIMDType value, int64_t* a) noexcept { vst1q_s64 (a, value); }
static forcedinline int64_t get (vSIMDType v, size_t i) noexcept { return v[i]; }
static forcedinline vSIMDType set (vSIMDType v, size_t i, int64_t s) noexcept { v[i] = s; return v; }
static forcedinline vSIMDType add (vSIMDType a, vSIMDType b) noexcept { return vaddq_s64 (a, b); }
static forcedinline vSIMDType sub (vSIMDType a, vSIMDType b) noexcept { return vsubq_s64 (a, b); }
static forcedinline vSIMDType mul (vSIMDType a, vSIMDType b) noexcept { return fb::mul (a, b); }
static forcedinline vSIMDType bit_and (vSIMDType a, vSIMDType b) noexcept { return vandq_s64 (a, b); }
static forcedinline vSIMDType bit_or (vSIMDType a, vSIMDType b) noexcept { return vorrq_s64 (a, b); }
static forcedinline vSIMDType bit_xor (vSIMDType a, vSIMDType b) noexcept { return veorq_s64 (a, b); }
static forcedinline vSIMDType bit_notand (vSIMDType a, vSIMDType b) noexcept { return vbicq_s64 (b, a); }
static forcedinline vSIMDType bit_not (vSIMDType a) noexcept { return bit_notand (a, vld1q_s64 ((int64_t*) kAllBitsSet)); }
static forcedinline vSIMDType min (vSIMDType a, vSIMDType b) noexcept { return fb::min (a, b); }
static forcedinline vSIMDType max (vSIMDType a, vSIMDType b) noexcept { return fb::max (a, b); }
static forcedinline vSIMDType equal (vSIMDType a, vSIMDType b) noexcept { return fb::equal (a, b); }
static forcedinline vSIMDType notEqual (vSIMDType a, vSIMDType b) noexcept { return fb::notEqual (a, b); }
static forcedinline vSIMDType greaterThan (vSIMDType a, vSIMDType b) noexcept { return fb::greaterThan (a, b); }
static forcedinline vSIMDType greaterThanOrEqual (vSIMDType a, vSIMDType b) noexcept { return fb::greaterThanOrEqual (a, b); }
static forcedinline bool allEqual (vSIMDType a, vSIMDType b) noexcept { return (SIMDNativeOps<int32_t>::sum ((SIMDNativeOps<int32_t>::vSIMDType) notEqual (a, b)) == 0); }
static forcedinline vSIMDType multiplyAdd (vSIMDType a, vSIMDType b, vSIMDType c) noexcept { return fb::multiplyAdd (a, b, c); }
static forcedinline int64_t sum (vSIMDType a) noexcept { return fb::sum (a); }
static forcedinline vSIMDType truncate (vSIMDType a) noexcept { return a; }
};
//==============================================================================
/** Unsigned 64-bit integer NEON intrinsics.
@tags{DSP}
*/
template <>
struct SIMDNativeOps<uint64_t>
{
//==============================================================================
using vSIMDType = uint64x2_t;
using fb = SIMDFallbackOps<uint64_t, vSIMDType>;
//==============================================================================
DECLARE_NEON_SIMD_CONST (uint64_t, kAllBitsSet);
//==============================================================================
static forcedinline vSIMDType expand (uint64_t s) noexcept { return vdupq_n_u64 (s); }
static forcedinline vSIMDType load (const uint64_t* a) noexcept { return vld1q_u64 (a); }
static forcedinline void store (vSIMDType value, uint64_t* a) noexcept { vst1q_u64 (a, value); }
static forcedinline uint64_t get (vSIMDType v, size_t i) noexcept { return v[i]; }
static forcedinline vSIMDType set (vSIMDType v, size_t i, uint64_t s) noexcept { v[i] = s; return v; }
static forcedinline vSIMDType add (vSIMDType a, vSIMDType b) noexcept { return vaddq_u64 (a, b); }
static forcedinline vSIMDType sub (vSIMDType a, vSIMDType b) noexcept { return vsubq_u64 (a, b); }
static forcedinline vSIMDType mul (vSIMDType a, vSIMDType b) noexcept { return fb::mul (a, b); }
static forcedinline vSIMDType bit_and (vSIMDType a, vSIMDType b) noexcept { return vandq_u64 (a, b); }
static forcedinline vSIMDType bit_or (vSIMDType a, vSIMDType b) noexcept { return vorrq_u64 (a, b); }
static forcedinline vSIMDType bit_xor (vSIMDType a, vSIMDType b) noexcept { return veorq_u64 (a, b); }
static forcedinline vSIMDType bit_notand (vSIMDType a, vSIMDType b) noexcept { return vbicq_u64 (b, a); }
static forcedinline vSIMDType bit_not (vSIMDType a) noexcept { return bit_notand (a, vld1q_u64 ((uint64_t*) kAllBitsSet)); }
static forcedinline vSIMDType min (vSIMDType a, vSIMDType b) noexcept { return fb::min (a, b); }
static forcedinline vSIMDType max (vSIMDType a, vSIMDType b) noexcept { return fb::max (a, b); }
static forcedinline vSIMDType equal (vSIMDType a, vSIMDType b) noexcept { return fb::equal (a, b); }
static forcedinline vSIMDType notEqual (vSIMDType a, vSIMDType b) noexcept { return fb::notEqual (a, b); }
static forcedinline vSIMDType greaterThan (vSIMDType a, vSIMDType b) noexcept { return fb::greaterThan (a, b); }
static forcedinline vSIMDType greaterThanOrEqual (vSIMDType a, vSIMDType b) noexcept { return fb::greaterThanOrEqual (a, b); }
static forcedinline bool allEqual (vSIMDType a, vSIMDType b) noexcept { return (SIMDNativeOps<uint32_t>::sum ((SIMDNativeOps<uint32_t>::vSIMDType) notEqual (a, b)) == 0); }
static forcedinline vSIMDType multiplyAdd (vSIMDType a, vSIMDType b, vSIMDType c) noexcept { return fb::multiplyAdd (a, b, c); }
static forcedinline uint64_t sum (vSIMDType a) noexcept { return fb::sum (a); }
static forcedinline vSIMDType truncate (vSIMDType a) noexcept { return a; }
};
//==============================================================================
/** Single-precision floating point NEON intrinsics.
@tags{DSP}
*/
template <>
struct SIMDNativeOps<float>
{
//==============================================================================
using vSIMDType = float32x4_t;
using vMaskType = uint32x4_t;
using fb = SIMDFallbackOps<float, vSIMDType>;
//==============================================================================
DECLARE_NEON_SIMD_CONST (int32_t, kAllBitsSet);
DECLARE_NEON_SIMD_CONST (int32_t, kEvenHighBit);
DECLARE_NEON_SIMD_CONST (float, kOne);
//==============================================================================
static forcedinline vSIMDType expand (float s) noexcept { return vdupq_n_f32 (s); }
static forcedinline vSIMDType load (const float* a) noexcept { return vld1q_f32 (a); }
static forcedinline float get (vSIMDType v, size_t i) noexcept { return v[i]; }
static forcedinline vSIMDType set (vSIMDType v, size_t i, float s) noexcept { v[i] = s; return v; }
static forcedinline void store (vSIMDType value, float* a) noexcept { vst1q_f32 (a, value); }
static forcedinline vSIMDType add (vSIMDType a, vSIMDType b) noexcept { return vaddq_f32 (a, b); }
static forcedinline vSIMDType sub (vSIMDType a, vSIMDType b) noexcept { return vsubq_f32 (a, b); }
static forcedinline vSIMDType mul (vSIMDType a, vSIMDType b) noexcept { return vmulq_f32 (a, b); }
static forcedinline vSIMDType bit_and (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vandq_u32 ((vMaskType) a, (vMaskType) b); }
static forcedinline vSIMDType bit_or (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vorrq_u32 ((vMaskType) a, (vMaskType) b); }
static forcedinline vSIMDType bit_xor (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) veorq_u32 ((vMaskType) a, (vMaskType) b); }
static forcedinline vSIMDType bit_notand (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vbicq_u32 ((vMaskType) b, (vMaskType) a); }
static forcedinline vSIMDType bit_not (vSIMDType a) noexcept { return bit_notand (a, vld1q_f32 ((float*) kAllBitsSet)); }
static forcedinline vSIMDType min (vSIMDType a, vSIMDType b) noexcept { return vminq_f32 (a, b); }
static forcedinline vSIMDType max (vSIMDType a, vSIMDType b) noexcept { return vmaxq_f32 (a, b); }
static forcedinline vSIMDType equal (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vceqq_f32 (a, b); }
static forcedinline vSIMDType notEqual (vSIMDType a, vSIMDType b) noexcept { return bit_not (equal (a, b)); }
static forcedinline vSIMDType greaterThan (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vcgtq_f32 (a, b); }
static forcedinline vSIMDType greaterThanOrEqual (vSIMDType a, vSIMDType b) noexcept { return (vSIMDType) vcgeq_f32 (a, b); }
static forcedinline bool allEqual (vSIMDType a, vSIMDType b) noexcept { return (SIMDNativeOps<uint32_t>::sum ((SIMDNativeOps<uint32_t>::vSIMDType) notEqual (a, b)) == 0); }
static forcedinline vSIMDType multiplyAdd (vSIMDType a, vSIMDType b, vSIMDType c) noexcept { return vmlaq_f32 (a, b, c); }
static forcedinline vSIMDType dupeven (vSIMDType a) noexcept { return fb::shuffle<(0 << 0) | (0 << 2) | (2 << 4) | (2 << 6)> (a); }
static forcedinline vSIMDType dupodd (vSIMDType a) noexcept { return fb::shuffle<(1 << 0) | (1 << 2) | (3 << 4) | (3 << 6)> (a); }
static forcedinline vSIMDType swapevenodd (vSIMDType a) noexcept { return fb::shuffle<(1 << 0) | (0 << 2) | (3 << 4) | (2 << 6)> (a); }
static forcedinline vSIMDType oddevensum (vSIMDType a) noexcept { return add (fb::shuffle<(2 << 0) | (3 << 2) | (0 << 4) | (1 << 6)> (a), a); }
static forcedinline vSIMDType truncate (vSIMDType a) noexcept { return vcvtq_f32_s32 (vcvtq_s32_f32 (a)); }
//==============================================================================
static forcedinline vSIMDType cmplxmul (vSIMDType a, vSIMDType b) noexcept
{
vSIMDType rr_ir = mul (a, dupeven (b));
vSIMDType ii_ri = mul (swapevenodd (a), dupodd (b));
return add (rr_ir, bit_xor (ii_ri, vld1q_f32 ((float*) kEvenHighBit)));
}
static forcedinline float sum (vSIMDType a) noexcept
{
auto rr = vadd_f32 (vget_high_f32 (a), vget_low_f32 (a));
return vget_lane_f32 (vpadd_f32 (rr, rr), 0);
}
};
//==============================================================================
/** Double-precision floating point NEON intrinsics does not exist in NEON
so we need to emulate this.
@tags{DSP}
*/
template <>
struct SIMDNativeOps<double>
{
//==============================================================================
using vSIMDType = struct { double v[2]; };
using fb = SIMDFallbackOps<double, vSIMDType>;
static forcedinline vSIMDType expand (double s) noexcept { return {{s, s}}; }
static forcedinline vSIMDType load (const double* a) noexcept { return {{a[0], a[1]}}; }
static forcedinline void store (vSIMDType v, double* a) noexcept { a[0] = v.v[0]; a[1] = v.v[1]; }
static forcedinline double get (vSIMDType v, size_t i) noexcept { return v.v[i]; }
static forcedinline vSIMDType set (vSIMDType v, size_t i, double s) noexcept { v.v[i] = s; return v; }
static forcedinline vSIMDType add (vSIMDType a, vSIMDType b) noexcept { return {{a.v[0] + b.v[0], a.v[1] + b.v[1]}}; }
static forcedinline vSIMDType sub (vSIMDType a, vSIMDType b) noexcept { return {{a.v[0] - b.v[0], a.v[1] - b.v[1]}}; }
static forcedinline vSIMDType mul (vSIMDType a, vSIMDType b) noexcept { return {{a.v[0] * b.v[0], a.v[1] * b.v[1]}}; }
static forcedinline vSIMDType bit_and (vSIMDType a, vSIMDType b) noexcept { return fb::bit_and (a, b); }
static forcedinline vSIMDType bit_or (vSIMDType a, vSIMDType b) noexcept { return fb::bit_or (a, b); }
static forcedinline vSIMDType bit_xor (vSIMDType a, vSIMDType b) noexcept { return fb::bit_xor (a, b); }
static forcedinline vSIMDType bit_notand (vSIMDType a, vSIMDType b) noexcept { return fb::bit_notand (a, b); }
static forcedinline vSIMDType bit_not (vSIMDType a) noexcept { return fb::bit_not (a); }
static forcedinline vSIMDType min (vSIMDType a, vSIMDType b) noexcept { return fb::min (a, b); }
static forcedinline vSIMDType max (vSIMDType a, vSIMDType b) noexcept { return fb::max (a, b); }
static forcedinline vSIMDType equal (vSIMDType a, vSIMDType b) noexcept { return fb::equal (a, b); }
static forcedinline vSIMDType notEqual (vSIMDType a, vSIMDType b) noexcept { return fb::notEqual (a, b); }
static forcedinline vSIMDType greaterThan (vSIMDType a, vSIMDType b) noexcept { return fb::greaterThan (a, b); }
static forcedinline vSIMDType greaterThanOrEqual (vSIMDType a, vSIMDType b) noexcept { return fb::greaterThanOrEqual (a, b); }
static forcedinline bool allEqual (vSIMDType a, vSIMDType b) noexcept { return fb::allEqual (a, b); }
static forcedinline vSIMDType multiplyAdd (vSIMDType a, vSIMDType b, vSIMDType c) noexcept { return fb::multiplyAdd (a, b, c); }
static forcedinline vSIMDType cmplxmul (vSIMDType a, vSIMDType b) noexcept { return fb::cmplxmul (a, b); }
static forcedinline double sum (vSIMDType a) noexcept { return fb::sum (a); }
static forcedinline vSIMDType oddevensum (vSIMDType a) noexcept { return a; }
static forcedinline vSIMDType truncate (vSIMDType a) noexcept { return fb::truncate (a); }
};
#endif
JUCE_END_IGNORE_WARNINGS_GCC_LIKE
} // namespace dsp
} // namespace juce