// Copyright (c) the JPEG XL Project Authors. All rights reserved. // // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file.
// These templates are not found via ADL. using hwy::HWY_NAMESPACE::Mul; using hwy::HWY_NAMESPACE::MulAdd; using hwy::HWY_NAMESPACE::Vec;
#if HWY_CAP_GE512 using hwy::HWY_NAMESPACE::Half; using hwy::HWY_NAMESPACE::Vec; template <size_t i, class DF, class V>
HWY_INLINE Vec<Half<Half<DF>>> Quarter(const DF df, V v) { using HF = Half<DF>; using HHF = Half<HF>; auto half = i >= 2 ? UpperHalf(HF(), v) : LowerHalf(HF(), v); return i & 1 ? UpperHalf(HHF(), half) : LowerHalf(HHF(), half);
}
template <class DF, class V>
HWY_INLINE Vec<DF> Concat4(const DF df, V v0, V v1, V v2, V v3) { using HF = Half<DF>; return Combine(DF(), Combine(HF(), v3, v2), Combine(HF(), v1, v0));
}
#endif
// Stores v0[0], v1[0], v0[1], v1[1], ... to mem, in this order. Mem must be // aligned. template <class DF, class V, typename T> void StoreInterleaved(const DF df, V v0, V v1, T* mem) {
static_assert(sizeof(T) == 4, "only use StoreInterleaved for 4-byte types"); #if HWY_TARGET == HWY_SCALAR
Store(v0, df, mem);
Store(v1, df, mem + 1); #elif !HWY_CAP_GE256
Store(InterleaveLower(df, v0, v1), df, mem);
Store(InterleaveUpper(df, v0, v1), df, mem + Lanes(df)); #else if (!HWY_CAP_GE512 || Lanes(df) == 8) { auto t0 = InterleaveLower(df, v0, v1); auto t1 = InterleaveUpper(df, v0, v1);
Store(ConcatLowerLower(df, t1, t0), df, mem);
Store(ConcatUpperUpper(df, t1, t0), df, mem + Lanes(df));
} else { #if HWY_CAP_GE512 auto t0 = InterleaveLower(df, v0, v1); auto t1 = InterleaveUpper(df, v0, v1);
Store(Concat4(df, Quarter<0>(df, t0), Quarter<0>(df, t1),
Quarter<1>(df, t0), Quarter<1>(df, t1)),
df, mem);
Store(Concat4(df, Quarter<2>(df, t0), Quarter<2>(df, t1),
Quarter<3>(df, t0), Quarter<3>(df, t1)),
df, mem + Lanes(df)); #endif
} #endif
}
void Upsample2Horizontal(float* JXL_RESTRICT row, float* JXL_RESTRICT scratch_space, size_t len_out) {
HWY_FULL(float) df; auto threefour = Set(df, 0.75f); auto onefour = Set(df, 0.25f); const size_t len_in = (len_out + 1) >> 1;
memcpy(scratch_space, row, len_in * sizeof(row[0]));
scratch_space[-1] = scratch_space[0];
scratch_space[len_in] = scratch_space[len_in - 1]; for (size_t x = 0; x < len_in; x += Lanes(df)) { auto current = Mul(Load(df, scratch_space + x), threefour); auto prev = LoadU(df, scratch_space + x - 1); auto next = LoadU(df, scratch_space + x + 1); auto left = MulAdd(onefour, prev, current); auto right = MulAdd(onefour, next, current);
StoreInterleaved(df, left, right, row + x * 2);
}
}
void Upsample2Vertical(constfloat* JXL_RESTRICT row_top, constfloat* JXL_RESTRICT row_mid, constfloat* JXL_RESTRICT row_bot, float* JXL_RESTRICT row_out0, float* JXL_RESTRICT row_out1, size_t len) {
HWY_FULL(float) df; auto threefour = Set(df, 0.75f); auto onefour = Set(df, 0.25f); for (size_t x = 0; x < len; x += Lanes(df)) { auto it = Load(df, row_top + x); auto im = Load(df, row_mid + x); auto ib = Load(df, row_bot + x); auto im_scaled = Mul(im, threefour);
Store(MulAdd(it, onefour, im_scaled), df, row_out0 + x);
Store(MulAdd(ib, onefour, im_scaled), df, row_out1 + x);
}
}
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