ladybird/AK/SIMDMath.h

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/*
* Copyright (c) 2021, Stephan Unverwerth <s.unverwerth@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
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#include <AK/Math.h>
#include <AK/SIMD.h>
#include <AK/SIMDExtras.h>
#include <math.h>
// Functions returning vectors or accepting vector arguments have different calling conventions
// depending on whether the target architecture supports SSE or not. GCC generates warning "psabi"
// when compiling for non-SSE architectures. We disable this warning because these functions
// are static and should never be visible from outside the translation unit that includes this header.
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wpsabi"
namespace AK::SIMD {
// Functions ending in "_int_range" only accept arguments within range [INT_MIN, INT_MAX].
// Other inputs will generate unexpected results.
ALWAYS_INLINE static f32x4 truncate_int_range(f32x4 v)
{
return to_f32x4(to_i32x4(v));
}
ALWAYS_INLINE static f32x4 floor_int_range(f32x4 v)
{
auto t = truncate_int_range(v);
return t > v ? t - 1.0f : t;
}
ALWAYS_INLINE static f32x4 ceil_int_range(f32x4 v)
{
auto t = truncate_int_range(v);
return t < v ? t + 1.0f : t;
}
ALWAYS_INLINE static f32x4 frac_int_range(f32x4 v)
{
return v - floor_int_range(v);
}
ALWAYS_INLINE static f32x4 clamp(f32x4 v, f32x4 min, f32x4 max)
{
return v < min ? min : (v > max ? max : v);
}
ALWAYS_INLINE static f32x4 clamp(f32x4 v, float min, float max)
{
return v < min ? min : (v > max ? max : v);
}
ALWAYS_INLINE static f32x4 exp(f32x4 v)
{
// FIXME: This should be replaced with a vectorized algorithm instead of calling the scalar expf 4 times
return f32x4 {
expf(v[0]),
expf(v[1]),
expf(v[2]),
expf(v[3]),
};
}
ALWAYS_INLINE static f32x4 sqrt(f32x4 v)
{
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#if ARCH(x86_64)
return __builtin_ia32_sqrtps(v);
#else
return f32x4 {
AK::sqrt(v[0]),
AK::sqrt(v[1]),
AK::sqrt(v[2]),
AK::sqrt(v[3]),
};
#endif
}
ALWAYS_INLINE static f32x4 rsqrt(f32x4 v)
{
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#if ARCH(x86_64)
return __builtin_ia32_rsqrtps(v);
#else
return f32x4 {
1.f / AK::sqrt(v[0]),
1.f / AK::sqrt(v[1]),
1.f / AK::sqrt(v[2]),
1.f / AK::sqrt(v[3]),
};
#endif
}
}
#pragma GCC diagnostic pop