|
- /*
- ==============================================================================
-
- This file is part of the JUCE library.
- Copyright (c) 2013 - Raw Material Software Ltd.
-
- Permission is granted to use this software under the terms of either:
- a) the GPL v2 (or any later version)
- b) the Affero GPL v3
-
- Details of these licenses can be found at: www.gnu.org/licenses
-
- JUCE is distributed in the hope that it will be useful, but WITHOUT ANY
- WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
- A PARTICULAR PURPOSE. See the GNU General Public License for more details.
-
- ------------------------------------------------------------------------------
-
- To release a closed-source product which uses JUCE, commercial licenses are
- available: visit www.juce.com for more information.
-
- ==============================================================================
- */
-
- namespace FloatVectorHelpers
- {
- #define JUCE_INCREMENT_SRC_DEST dest += (16 / sizeof (*dest)); src += (16 / sizeof (*dest));
- #define JUCE_INCREMENT_DEST dest += (16 / sizeof (*dest));
-
- #if JUCE_USE_SSE_INTRINSICS
- static bool sse2Present = false;
-
- static bool isSSE2Available() noexcept
- {
- if (sse2Present)
- return true;
-
- sse2Present = SystemStats::hasSSE2();
- return sse2Present;
- }
-
- inline static bool isAligned (const void* p) noexcept
- {
- return (((pointer_sized_int) p) & 15) == 0;
- }
-
- struct BasicOps32
- {
- typedef float Type;
- typedef __m128 ParallelType;
- enum { numParallel = 4 };
-
- static forcedinline ParallelType load1 (Type v) noexcept { return _mm_load1_ps (&v); }
- static forcedinline ParallelType loadA (const Type* v) noexcept { return _mm_load_ps (v); }
- static forcedinline ParallelType loadU (const Type* v) noexcept { return _mm_loadu_ps (v); }
- static forcedinline void storeA (Type* dest, ParallelType a) noexcept { _mm_store_ps (dest, a); }
- static forcedinline void storeU (Type* dest, ParallelType a) noexcept { _mm_storeu_ps (dest, a); }
-
- static forcedinline ParallelType add (ParallelType a, ParallelType b) noexcept { return _mm_add_ps (a, b); }
- static forcedinline ParallelType sub (ParallelType a, ParallelType b) noexcept { return _mm_sub_ps (a, b); }
- static forcedinline ParallelType mul (ParallelType a, ParallelType b) noexcept { return _mm_mul_ps (a, b); }
- static forcedinline ParallelType max (ParallelType a, ParallelType b) noexcept { return _mm_max_ps (a, b); }
- static forcedinline ParallelType min (ParallelType a, ParallelType b) noexcept { return _mm_min_ps (a, b); }
-
- static forcedinline Type max (ParallelType a) noexcept { Type v[numParallel]; storeU (v, a); return jmax (v[0], v[1], v[2], v[3]); }
- static forcedinline Type min (ParallelType a) noexcept { Type v[numParallel]; storeU (v, a); return jmin (v[0], v[1], v[2], v[3]); }
- };
-
- struct BasicOps64
- {
- typedef double Type;
- typedef __m128d ParallelType;
- enum { numParallel = 2 };
-
- static forcedinline ParallelType load1 (Type v) noexcept { return _mm_load1_pd (&v); }
- static forcedinline ParallelType loadA (const Type* v) noexcept { return _mm_load_pd (v); }
- static forcedinline ParallelType loadU (const Type* v) noexcept { return _mm_loadu_pd (v); }
- static forcedinline void storeA (Type* dest, ParallelType a) noexcept { _mm_store_pd (dest, a); }
- static forcedinline void storeU (Type* dest, ParallelType a) noexcept { _mm_storeu_pd (dest, a); }
-
- static forcedinline ParallelType add (ParallelType a, ParallelType b) noexcept { return _mm_add_pd (a, b); }
- static forcedinline ParallelType sub (ParallelType a, ParallelType b) noexcept { return _mm_sub_pd (a, b); }
- static forcedinline ParallelType mul (ParallelType a, ParallelType b) noexcept { return _mm_mul_pd (a, b); }
- static forcedinline ParallelType max (ParallelType a, ParallelType b) noexcept { return _mm_max_pd (a, b); }
- static forcedinline ParallelType min (ParallelType a, ParallelType b) noexcept { return _mm_min_pd (a, b); }
-
- static forcedinline Type max (ParallelType a) noexcept { Type v[numParallel]; storeU (v, a); return jmax (v[0], v[1]); }
- static forcedinline Type min (ParallelType a) noexcept { Type v[numParallel]; storeU (v, a); return jmin (v[0], v[1]); }
- };
-
- #define JUCE_BEGIN_VEC_OP \
- typedef FloatVectorHelpers::ModeType<sizeof(*dest)>::Mode Mode; \
- if (FloatVectorHelpers::isSSE2Available()) \
- { \
- const int numLongOps = num / Mode::numParallel;
-
- #define JUCE_FINISH_VEC_OP(normalOp) \
- num &= (Mode::numParallel - 1); \
- if (num == 0) return; \
- } \
- for (int i = 0; i < num; ++i) normalOp;
-
- #define JUCE_PERFORM_VEC_OP_DEST(normalOp, vecOp, locals, setupOp) \
- JUCE_BEGIN_VEC_OP \
- setupOp \
- if (FloatVectorHelpers::isAligned (dest)) JUCE_VEC_LOOP (vecOp, dummy, Mode::loadA, Mode::storeA, locals, JUCE_INCREMENT_DEST) \
- else JUCE_VEC_LOOP (vecOp, dummy, Mode::loadU, Mode::storeU, locals, JUCE_INCREMENT_DEST) \
- JUCE_FINISH_VEC_OP (normalOp)
-
- #define JUCE_PERFORM_VEC_OP_SRC_DEST(normalOp, vecOp, locals, increment, setupOp) \
- JUCE_BEGIN_VEC_OP \
- setupOp \
- if (FloatVectorHelpers::isAligned (dest)) \
- { \
- if (FloatVectorHelpers::isAligned (src)) JUCE_VEC_LOOP (vecOp, Mode::loadA, Mode::loadA, Mode::storeA, locals, increment) \
- else JUCE_VEC_LOOP (vecOp, Mode::loadU, Mode::loadA, Mode::storeA, locals, increment) \
- }\
- else \
- { \
- if (FloatVectorHelpers::isAligned (src)) JUCE_VEC_LOOP (vecOp, Mode::loadA, Mode::loadU, Mode::storeU, locals, increment) \
- else JUCE_VEC_LOOP (vecOp, Mode::loadU, Mode::loadU, Mode::storeU, locals, increment) \
- } \
- JUCE_FINISH_VEC_OP (normalOp)
-
- //==============================================================================
- #elif JUCE_USE_ARM_NEON
-
- struct BasicOps32
- {
- typedef float Type;
- typedef float32x4_t ParallelType;
- enum { numParallel = 4 };
-
- static forcedinline ParallelType load1 (Type v) noexcept { return vld1q_dup_f32 (&v); }
- static forcedinline ParallelType loadA (const Type* v) noexcept { return vld1q_f32 (v); }
- static forcedinline ParallelType loadU (const Type* v) noexcept { return vld1q_f32 (v); }
- static forcedinline void storeA (Type* dest, ParallelType a) noexcept { vst1q_f32 (dest, a); }
- static forcedinline void storeU (Type* dest, ParallelType a) noexcept { vst1q_f32 (dest, a); }
-
- static forcedinline ParallelType add (ParallelType a, ParallelType b) noexcept { return vaddq_f32 (a, b); }
- static forcedinline ParallelType sub (ParallelType a, ParallelType b) noexcept { return vsubq_f32 (a, b); }
- static forcedinline ParallelType mul (ParallelType a, ParallelType b) noexcept { return vmulq_f32 (a, b); }
- static forcedinline ParallelType max (ParallelType a, ParallelType b) noexcept { return vmaxq_f32 (a, b); }
- static forcedinline ParallelType min (ParallelType a, ParallelType b) noexcept { return vminq_f32 (a, b); }
-
- static forcedinline Type max (ParallelType a) noexcept { Type v[numParallel]; storeU (v, a); return jmax (v[0], v[1], v[2], v[3]); }
- static forcedinline Type min (ParallelType a) noexcept { Type v[numParallel]; storeU (v, a); return jmin (v[0], v[1], v[2], v[3]); }
- };
-
- struct BasicOps64
- {
- typedef double Type;
- typedef double ParallelType;
- enum { numParallel = 1 };
-
- static forcedinline ParallelType load1 (Type v) noexcept { return v; }
- static forcedinline ParallelType loadA (const Type* v) noexcept { return *v; }
- static forcedinline ParallelType loadU (const Type* v) noexcept { return *v; }
- static forcedinline void storeA (Type* dest, ParallelType a) noexcept { *dest = a; }
- static forcedinline void storeU (Type* dest, ParallelType a) noexcept { *dest = a; }
-
- static forcedinline ParallelType add (ParallelType a, ParallelType b) noexcept { return a + b; }
- static forcedinline ParallelType sub (ParallelType a, ParallelType b) noexcept { return a - b; }
- static forcedinline ParallelType mul (ParallelType a, ParallelType b) noexcept { return a * b; }
- static forcedinline ParallelType max (ParallelType a, ParallelType b) noexcept { return jmax (a, b); }
- static forcedinline ParallelType min (ParallelType a, ParallelType b) noexcept { return jmin (a, b); }
-
- static forcedinline Type max (ParallelType a) noexcept { return a; }
- static forcedinline Type min (ParallelType a) noexcept { return a; }
- };
-
- #define JUCE_BEGIN_VEC_OP \
- typedef FloatVectorHelpers::ModeType<sizeof(*dest)>::Mode Mode; \
- if (Mode::numParallel > 1) \
- { \
- const int numLongOps = num / Mode::numParallel;
-
- #define JUCE_FINISH_VEC_OP(normalOp) \
- num &= (Mode::numParallel - 1); \
- if (num == 0) return; \
- } \
- for (int i = 0; i < num; ++i) normalOp;
-
- #define JUCE_PERFORM_VEC_OP_DEST(normalOp, vecOp, locals, setupOp) \
- JUCE_BEGIN_VEC_OP \
- setupOp \
- JUCE_VEC_LOOP (vecOp, dummy, Mode::loadU, Mode::storeU, locals, JUCE_INCREMENT_DEST) \
- JUCE_FINISH_VEC_OP (normalOp)
-
- #define JUCE_PERFORM_VEC_OP_SRC_DEST(normalOp, vecOp, locals, increment, setupOp) \
- JUCE_BEGIN_VEC_OP \
- setupOp \
- JUCE_VEC_LOOP (vecOp, Mode::loadU, Mode::loadU, Mode::storeU, locals, increment) \
- JUCE_FINISH_VEC_OP (normalOp)
-
- //==============================================================================
- #else
- #define JUCE_PERFORM_VEC_OP_DEST(normalOp, vecOp, locals, setupOp) \
- for (int i = 0; i < num; ++i) normalOp;
-
- #define JUCE_PERFORM_VEC_OP_SRC_DEST(normalOp, vecOp, locals, increment, setupOp) \
- for (int i = 0; i < num; ++i) normalOp;
-
- #endif
-
- //==============================================================================
- #define JUCE_VEC_LOOP(vecOp, srcLoad, dstLoad, dstStore, locals, increment) \
- for (int i = 0; i < numLongOps; ++i) \
- { \
- locals (srcLoad, dstLoad); \
- dstStore (dest, vecOp); \
- increment; \
- }
-
- #define JUCE_LOAD_NONE(srcLoad, dstLoad)
- #define JUCE_LOAD_DEST(srcLoad, dstLoad) const Mode::ParallelType d = dstLoad (dest);
- #define JUCE_LOAD_SRC(srcLoad, dstLoad) const Mode::ParallelType s = srcLoad (src);
- #define JUCE_LOAD_SRC_DEST(srcLoad, dstLoad) const Mode::ParallelType d = dstLoad (dest), s = srcLoad (src);
-
- #if JUCE_USE_SSE_INTRINSICS || JUCE_USE_ARM_NEON
- template<int typeSize> struct ModeType { typedef BasicOps32 Mode; };
- template<> struct ModeType<8> { typedef BasicOps64 Mode; };
-
- template <typename Mode>
- struct MinMax
- {
- typedef typename Mode::Type Type;
- typedef typename Mode::ParallelType ParallelType;
-
- static Type findMinOrMax (const Type* src, int num, const bool isMinimum) noexcept
- {
- const int numLongOps = num / Mode::numParallel;
-
- #if JUCE_USE_SSE_INTRINSICS
- if (numLongOps > 1 && isSSE2Available())
- #else
- if (numLongOps > 1)
- #endif
- {
- ParallelType val;
-
- #if ! JUCE_USE_ARM_NEON
- if (isAligned (src))
- {
- val = Mode::loadA (src);
-
- if (isMinimum)
- {
- for (int i = 1; i < numLongOps; ++i)
- {
- src += Mode::numParallel;
- val = Mode::min (val, Mode::loadA (src));
- }
- }
- else
- {
- for (int i = 1; i < numLongOps; ++i)
- {
- src += Mode::numParallel;
- val = Mode::max (val, Mode::loadA (src));
- }
- }
- }
- else
- #endif
- {
- val = Mode::loadU (src);
-
- if (isMinimum)
- {
- for (int i = 1; i < numLongOps; ++i)
- {
- src += Mode::numParallel;
- val = Mode::min (val, Mode::loadU (src));
- }
- }
- else
- {
- for (int i = 1; i < numLongOps; ++i)
- {
- src += Mode::numParallel;
- val = Mode::max (val, Mode::loadU (src));
- }
- }
- }
-
- Type result = isMinimum ? Mode::min (val)
- : Mode::max (val);
-
- num &= (Mode::numParallel - 1);
-
- for (int i = 0; i < num; ++i)
- result = isMinimum ? jmin (result, src[i])
- : jmax (result, src[i]);
-
- return result;
- }
-
- return isMinimum ? juce::findMinimum (src, num)
- : juce::findMaximum (src, num);
- }
-
- static Range<Type> findMinAndMax (const Type* src, int num) noexcept
- {
- const int numLongOps = num / Mode::numParallel;
-
- #if JUCE_USE_SSE_INTRINSICS
- if (numLongOps > 1 && isSSE2Available())
- #else
- if (numLongOps > 1)
- #endif
- {
- ParallelType mn, mx;
-
- #if ! JUCE_USE_ARM_NEON
- if (isAligned (src))
- {
- mn = Mode::loadA (src);
- mx = mn;
-
- for (int i = 1; i < numLongOps; ++i)
- {
- src += Mode::numParallel;
- const ParallelType v = Mode::loadA (src);
- mn = Mode::min (mn, v);
- mx = Mode::max (mx, v);
- }
- }
- else
- #endif
- {
- mn = Mode::loadU (src);
- mx = mn;
-
- for (int i = 1; i < numLongOps; ++i)
- {
- src += Mode::numParallel;
- const ParallelType v = Mode::loadU (src);
- mn = Mode::min (mn, v);
- mx = Mode::max (mx, v);
- }
- }
-
- Range<Type> result (Mode::min (mn),
- Mode::max (mx));
-
- num &= 3;
- for (int i = 0; i < num; ++i)
- result = result.getUnionWith (src[i]);
-
- return result;
- }
-
- return Range<Type>::findMinAndMax (src, num);
- }
- };
- #endif
- }
-
- //==============================================================================
- void JUCE_CALLTYPE FloatVectorOperations::clear (float* dest, int num) noexcept
- {
- #if JUCE_USE_VDSP_FRAMEWORK
- vDSP_vclr (dest, 1, (size_t) num);
- #else
- zeromem (dest, num * sizeof (float));
- #endif
- }
-
- void JUCE_CALLTYPE FloatVectorOperations::clear (double* dest, int num) noexcept
- {
- #if JUCE_USE_VDSP_FRAMEWORK
- vDSP_vclrD (dest, 1, (size_t) num);
- #else
- zeromem (dest, num * sizeof (double));
- #endif
- }
-
- void JUCE_CALLTYPE FloatVectorOperations::fill (float* dest, float valueToFill, int num) noexcept
- {
- #if JUCE_USE_VDSP_FRAMEWORK
- vDSP_vfill (&valueToFill, dest, 1, (size_t) num);
- #else
- JUCE_PERFORM_VEC_OP_DEST (dest[i] = valueToFill, val, JUCE_LOAD_NONE,
- const Mode::ParallelType val = Mode::load1 (valueToFill);)
- #endif
- }
-
- void JUCE_CALLTYPE FloatVectorOperations::fill (double* dest, double valueToFill, int num) noexcept
- {
- #if JUCE_USE_VDSP_FRAMEWORK
- vDSP_vfillD (&valueToFill, dest, 1, (size_t) num);
- #else
- JUCE_PERFORM_VEC_OP_DEST (dest[i] = valueToFill, val, JUCE_LOAD_NONE,
- const Mode::ParallelType val = Mode::load1 (valueToFill);)
- #endif
- }
-
- void JUCE_CALLTYPE FloatVectorOperations::copy (float* dest, const float* src, int num) noexcept
- {
- memcpy (dest, src, (size_t) num * sizeof (float));
- }
-
- void JUCE_CALLTYPE FloatVectorOperations::copy (double* dest, const double* src, int num) noexcept
- {
- memcpy (dest, src, (size_t) num * sizeof (double));
- }
-
- void JUCE_CALLTYPE FloatVectorOperations::copyWithMultiply (float* dest, const float* src, float multiplier, int num) noexcept
- {
- #if JUCE_USE_VDSP_FRAMEWORK
- vDSP_vsmul (src, 1, &multiplier, dest, 1, num);
- #else
- JUCE_PERFORM_VEC_OP_SRC_DEST (dest[i] = src[i] * multiplier, Mode::mul (mult, s),
- JUCE_LOAD_SRC, JUCE_INCREMENT_SRC_DEST,
- const Mode::ParallelType mult = Mode::load1 (multiplier);)
- #endif
- }
-
- void JUCE_CALLTYPE FloatVectorOperations::copyWithMultiply (double* dest, const double* src, double multiplier, int num) noexcept
- {
- #if JUCE_USE_VDSP_FRAMEWORK
- vDSP_vsmulD (src, 1, &multiplier, dest, 1, num);
- #else
- JUCE_PERFORM_VEC_OP_SRC_DEST (dest[i] = src[i] * multiplier, Mode::mul (mult, s),
- JUCE_LOAD_SRC, JUCE_INCREMENT_SRC_DEST,
- const Mode::ParallelType mult = Mode::load1 (multiplier);)
- #endif
- }
-
- void JUCE_CALLTYPE FloatVectorOperations::add (float* dest, float amount, int num) noexcept
- {
- JUCE_PERFORM_VEC_OP_DEST (dest[i] += amount, Mode::add (d, amountToAdd), JUCE_LOAD_DEST,
- const Mode::ParallelType amountToAdd = Mode::load1 (amount);)
- }
-
- void JUCE_CALLTYPE FloatVectorOperations::add (double* dest, double amount, int num) noexcept
- {
- JUCE_PERFORM_VEC_OP_DEST (dest[i] += amount, Mode::add (d, amountToAdd), JUCE_LOAD_DEST,
- const Mode::ParallelType amountToAdd = Mode::load1 (amount);)
- }
-
- void JUCE_CALLTYPE FloatVectorOperations::add (float* dest, const float* src, int num) noexcept
- {
- #if JUCE_USE_VDSP_FRAMEWORK
- vDSP_vadd (src, 1, dest, 1, dest, 1, num);
- #else
- JUCE_PERFORM_VEC_OP_SRC_DEST (dest[i] += src[i], Mode::add (d, s), JUCE_LOAD_SRC_DEST, JUCE_INCREMENT_SRC_DEST, )
- #endif
- }
-
- void JUCE_CALLTYPE FloatVectorOperations::add (double* dest, const double* src, int num) noexcept
- {
- #if JUCE_USE_VDSP_FRAMEWORK
- vDSP_vaddD (src, 1, dest, 1, dest, 1, num);
- #else
- JUCE_PERFORM_VEC_OP_SRC_DEST (dest[i] += src[i], Mode::add (d, s), JUCE_LOAD_SRC_DEST, JUCE_INCREMENT_SRC_DEST, )
- #endif
- }
-
- void JUCE_CALLTYPE FloatVectorOperations::subtract (float* dest, const float* src, int num) noexcept
- {
- #if JUCE_USE_VDSP_FRAMEWORK
- vDSP_vsub (src, 1, dest, 1, dest, 1, num);
- #else
- JUCE_PERFORM_VEC_OP_SRC_DEST (dest[i] -= src[i], Mode::sub (d, s), JUCE_LOAD_SRC_DEST, JUCE_INCREMENT_SRC_DEST, )
- #endif
- }
-
- void JUCE_CALLTYPE FloatVectorOperations::subtract (double* dest, const double* src, int num) noexcept
- {
- #if JUCE_USE_VDSP_FRAMEWORK
- vDSP_vsubD (src, 1, dest, 1, dest, 1, num);
- #else
- JUCE_PERFORM_VEC_OP_SRC_DEST (dest[i] -= src[i], Mode::sub (d, s), JUCE_LOAD_SRC_DEST, JUCE_INCREMENT_SRC_DEST, )
- #endif
- }
-
- void JUCE_CALLTYPE FloatVectorOperations::addWithMultiply (float* dest, const float* src, float multiplier, int num) noexcept
- {
- JUCE_PERFORM_VEC_OP_SRC_DEST (dest[i] += src[i] * multiplier, Mode::add (d, Mode::mul (mult, s)),
- JUCE_LOAD_SRC_DEST, JUCE_INCREMENT_SRC_DEST,
- const Mode::ParallelType mult = Mode::load1 (multiplier);)
- }
-
- void JUCE_CALLTYPE FloatVectorOperations::addWithMultiply (double* dest, const double* src, double multiplier, int num) noexcept
- {
- JUCE_PERFORM_VEC_OP_SRC_DEST (dest[i] += src[i] * multiplier, Mode::add (d, Mode::mul (mult, s)),
- JUCE_LOAD_SRC_DEST, JUCE_INCREMENT_SRC_DEST,
- const Mode::ParallelType mult = Mode::load1 (multiplier);)
- }
-
- void JUCE_CALLTYPE FloatVectorOperations::multiply (float* dest, const float* src, int num) noexcept
- {
- #if JUCE_USE_VDSP_FRAMEWORK
- vDSP_vmul (src, 1, dest, 1, dest, 1, num);
- #else
- JUCE_PERFORM_VEC_OP_SRC_DEST (dest[i] *= src[i], Mode::mul (d, s), JUCE_LOAD_SRC_DEST, JUCE_INCREMENT_SRC_DEST, )
- #endif
- }
-
- void JUCE_CALLTYPE FloatVectorOperations::multiply (double* dest, const double* src, int num) noexcept
- {
- #if JUCE_USE_VDSP_FRAMEWORK
- vDSP_vmulD (src, 1, dest, 1, dest, 1, num);
- #else
- JUCE_PERFORM_VEC_OP_SRC_DEST (dest[i] *= src[i], Mode::mul (d, s), JUCE_LOAD_SRC_DEST, JUCE_INCREMENT_SRC_DEST, )
- #endif
- }
-
- void JUCE_CALLTYPE FloatVectorOperations::multiply (float* dest, float multiplier, int num) noexcept
- {
- #if JUCE_USE_VDSP_FRAMEWORK
- vDSP_vsmul (dest, 1, &multiplier, dest, 1, num);
- #else
- JUCE_PERFORM_VEC_OP_DEST (dest[i] *= multiplier, Mode::mul (d, mult), JUCE_LOAD_DEST,
- const Mode::ParallelType mult = Mode::load1 (multiplier);)
- #endif
- }
-
- void JUCE_CALLTYPE FloatVectorOperations::multiply (double* dest, double multiplier, int num) noexcept
- {
- #if JUCE_USE_VDSP_FRAMEWORK
- vDSP_vsmulD (dest, 1, &multiplier, dest, 1, num);
- #else
- JUCE_PERFORM_VEC_OP_DEST (dest[i] *= multiplier, Mode::mul (d, mult), JUCE_LOAD_DEST,
- const Mode::ParallelType mult = Mode::load1 (multiplier);)
- #endif
- }
-
- void FloatVectorOperations::negate (float* dest, const float* src, int num) noexcept
- {
- #if JUCE_USE_VDSP_FRAMEWORK
- vDSP_vneg ((float*) src, 1, dest, 1, (vDSP_Length) num);
- #else
- copyWithMultiply (dest, src, -1.0f, num);
- #endif
- }
-
- void FloatVectorOperations::negate (double* dest, const double* src, int num) noexcept
- {
- #if JUCE_USE_VDSP_FRAMEWORK
- vDSP_vnegD ((double*) src, 1, dest, 1, (vDSP_Length) num);
- #else
- copyWithMultiply (dest, src, -1.0f, num);
- #endif
- }
-
- void JUCE_CALLTYPE FloatVectorOperations::convertFixedToFloat (float* dest, const int* src, float multiplier, int num) noexcept
- {
- #if JUCE_USE_ARM_NEON
- JUCE_PERFORM_VEC_OP_SRC_DEST (dest[i] = src[i] * multiplier,
- vmulq_n_f32 (vcvtq_f32_s32 (vld1q_s32 (src)), multiplier),
- JUCE_LOAD_NONE, JUCE_INCREMENT_SRC_DEST, )
- #else
- JUCE_PERFORM_VEC_OP_SRC_DEST (dest[i] = src[i] * multiplier,
- Mode::mul (mult, _mm_cvtepi32_ps (_mm_loadu_si128 ((const __m128i*) src))),
- JUCE_LOAD_NONE, JUCE_INCREMENT_SRC_DEST,
- const Mode::ParallelType mult = Mode::load1 (multiplier);)
- #endif
- }
-
- Range<float> JUCE_CALLTYPE FloatVectorOperations::findMinAndMax (const float* src, int num) noexcept
- {
- #if JUCE_USE_SSE_INTRINSICS || JUCE_USE_ARM_NEON
- return FloatVectorHelpers::MinMax<FloatVectorHelpers::BasicOps32>::findMinAndMax (src, num);
- #else
- return Range<float>::findMinAndMax (src, num);
- #endif
- }
-
- Range<double> JUCE_CALLTYPE FloatVectorOperations::findMinAndMax (const double* src, int num) noexcept
- {
- #if JUCE_USE_SSE_INTRINSICS || JUCE_USE_ARM_NEON
- return FloatVectorHelpers::MinMax<FloatVectorHelpers::BasicOps64>::findMinAndMax (src, num);
- #else
- return Range<double>::findMinAndMax (src, num);
- #endif
- }
-
- float JUCE_CALLTYPE FloatVectorOperations::findMinimum (const float* src, int num) noexcept
- {
- #if JUCE_USE_SSE_INTRINSICS || JUCE_USE_ARM_NEON
- return FloatVectorHelpers::MinMax<FloatVectorHelpers::BasicOps32>::findMinOrMax (src, num, true);
- #else
- return juce::findMinimum (src, num);
- #endif
- }
-
- double JUCE_CALLTYPE FloatVectorOperations::findMinimum (const double* src, int num) noexcept
- {
- #if JUCE_USE_SSE_INTRINSICS || JUCE_USE_ARM_NEON
- return FloatVectorHelpers::MinMax<FloatVectorHelpers::BasicOps64>::findMinOrMax (src, num, true);
- #else
- return juce::findMinimum (src, num);
- #endif
- }
-
- float JUCE_CALLTYPE FloatVectorOperations::findMaximum (const float* src, int num) noexcept
- {
- #if JUCE_USE_SSE_INTRINSICS || JUCE_USE_ARM_NEON
- return FloatVectorHelpers::MinMax<FloatVectorHelpers::BasicOps32>::findMinOrMax (src, num, false);
- #else
- return juce::findMaximum (src, num);
- #endif
- }
-
- double JUCE_CALLTYPE FloatVectorOperations::findMaximum (const double* src, int num) noexcept
- {
- #if JUCE_USE_SSE_INTRINSICS || JUCE_USE_ARM_NEON
- return FloatVectorHelpers::MinMax<FloatVectorHelpers::BasicOps64>::findMinOrMax (src, num, false);
- #else
- return juce::findMaximum (src, num);
- #endif
- }
-
- void JUCE_CALLTYPE FloatVectorOperations::enableFlushToZeroMode (bool shouldEnable) noexcept
- {
- #if JUCE_USE_SSE_INTRINSICS
- if (FloatVectorHelpers::isSSE2Available())
- _MM_SET_FLUSH_ZERO_MODE (shouldEnable ? _MM_FLUSH_ZERO_ON : _MM_FLUSH_ZERO_OFF);
- #endif
- (void) shouldEnable;
- }
-
- //==============================================================================
- //==============================================================================
- #if JUCE_UNIT_TESTS
-
- class FloatVectorOperationsTests : public UnitTest
- {
- public:
- FloatVectorOperationsTests() : UnitTest ("FloatVectorOperations") {}
-
- template <typename ValueType>
- struct TestRunner
- {
- static void runTest (UnitTest& u, Random random)
- {
- const int range = random.nextBool() ? 500 : 10;
- const int num = random.nextInt (range) + 1;
-
- HeapBlock<ValueType> buffer1 (num + 16), buffer2 (num + 16);
- HeapBlock<int> buffer3 (num + 16);
-
- #if JUCE_ARM
- ValueType* const data1 = buffer1;
- ValueType* const data2 = buffer2;
- int* const int1 = buffer3;
- #else
- ValueType* const data1 = addBytesToPointer (buffer1.getData(), random.nextInt (16));
- ValueType* const data2 = addBytesToPointer (buffer2.getData(), random.nextInt (16));
- int* const int1 = addBytesToPointer (buffer3.getData(), random.nextInt (16));
- #endif
-
- fillRandomly (random, data1, num);
- fillRandomly (random, data2, num);
-
- Range<ValueType> minMax1 (FloatVectorOperations::findMinAndMax (data1, num));
- Range<ValueType> minMax2 (Range<ValueType>::findMinAndMax (data1, num));
- u.expect (minMax1 == minMax2);
-
- u.expect (valuesMatch (FloatVectorOperations::findMinimum (data1, num), juce::findMinimum (data1, num)));
- u.expect (valuesMatch (FloatVectorOperations::findMaximum (data1, num), juce::findMaximum (data1, num)));
-
- u.expect (valuesMatch (FloatVectorOperations::findMinimum (data2, num), juce::findMinimum (data2, num)));
- u.expect (valuesMatch (FloatVectorOperations::findMaximum (data2, num), juce::findMaximum (data2, num)));
-
- FloatVectorOperations::clear (data1, num);
- u.expect (areAllValuesEqual (data1, num, 0));
-
- FloatVectorOperations::fill (data1, (ValueType) 2, num);
- u.expect (areAllValuesEqual (data1, num, (ValueType) 2));
-
- FloatVectorOperations::add (data1, (ValueType) 2, num);
- u.expect (areAllValuesEqual (data1, num, (ValueType) 4));
-
- FloatVectorOperations::copy (data2, data1, num);
- u.expect (areAllValuesEqual (data2, num, (ValueType) 4));
-
- FloatVectorOperations::add (data2, data1, num);
- u.expect (areAllValuesEqual (data2, num, (ValueType) 8));
-
- FloatVectorOperations::copyWithMultiply (data2, data1, (ValueType) 4, num);
- u.expect (areAllValuesEqual (data2, num, (ValueType) 16));
-
- FloatVectorOperations::addWithMultiply (data2, data1, (ValueType) 4, num);
- u.expect (areAllValuesEqual (data2, num, (ValueType) 32));
-
- FloatVectorOperations::multiply (data1, (ValueType) 2, num);
- u.expect (areAllValuesEqual (data1, num, (ValueType) 8));
-
- FloatVectorOperations::multiply (data1, data2, num);
- u.expect (areAllValuesEqual (data1, num, (ValueType) 256));
-
- FloatVectorOperations::negate (data2, data1, num);
- u.expect (areAllValuesEqual (data2, num, (ValueType) -256));
-
- FloatVectorOperations::subtract (data1, data2, num);
- u.expect (areAllValuesEqual (data1, num, (ValueType) 512));
-
- fillRandomly (random, int1, num);
- doConversionTest (u, data1, data2, int1, num);
- }
-
- static void doConversionTest (UnitTest& u, float* data1, float* data2, int* const int1, int num)
- {
- FloatVectorOperations::convertFixedToFloat (data1, int1, 2.0f, num);
- convertFixed (data2, int1, 2.0f, num);
- u.expect (buffersMatch (data1, data2, num));
- }
-
- static void doConversionTest (UnitTest&, double*, double*, int*, int) {}
-
- static void fillRandomly (Random& random, ValueType* d, int num)
- {
- while (--num >= 0)
- *d++ = (ValueType) (random.nextDouble() * 1000.0);
- }
-
- static void fillRandomly (Random& random, int* d, int num)
- {
- while (--num >= 0)
- *d++ = random.nextInt();
- }
-
- static void convertFixed (float* d, const int* s, ValueType multiplier, int num)
- {
- while (--num >= 0)
- *d++ = *s++ * multiplier;
- }
-
- static bool areAllValuesEqual (const ValueType* d, int num, ValueType target)
- {
- while (--num >= 0)
- if (*d++ != target)
- return false;
-
- return true;
- }
-
- static bool buffersMatch (const ValueType* d1, const ValueType* d2, int num)
- {
- while (--num >= 0)
- if (! valuesMatch (*d1++, *d2++))
- return false;
-
- return true;
- }
-
- static bool valuesMatch (ValueType v1, ValueType v2)
- {
- return std::abs (v1 - v2) < std::numeric_limits<ValueType>::epsilon();
- }
- };
-
- void runTest()
- {
- beginTest ("FloatVectorOperations");
-
- for (int i = 1000; --i >= 0;)
- {
- TestRunner<float>::runTest (*this, getRandom());
- TestRunner<double>::runTest (*this, getRandom());
- }
- }
- };
-
- static FloatVectorOperationsTests vectorOpTests;
-
- #endif
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