From 36d22d82aa202bb199967e9512281e9a53db42c9 Mon Sep 17 00:00:00 2001
From: Daniel Baumann <daniel.baumann@progress-linux.org>
Date: Sun, 7 Apr 2024 21:33:14 +0200
Subject: Adding upstream version 115.7.0esr.

Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
---
 .../jpeg-xl/lib/jxl/rational_polynomial-inl.h      | 98 ++++++++++++++++++++++
 1 file changed, 98 insertions(+)
 create mode 100644 third_party/jpeg-xl/lib/jxl/rational_polynomial-inl.h

(limited to 'third_party/jpeg-xl/lib/jxl/rational_polynomial-inl.h')

diff --git a/third_party/jpeg-xl/lib/jxl/rational_polynomial-inl.h b/third_party/jpeg-xl/lib/jxl/rational_polynomial-inl.h
new file mode 100644
index 0000000000..176e24092c
--- /dev/null
+++ b/third_party/jpeg-xl/lib/jxl/rational_polynomial-inl.h
@@ -0,0 +1,98 @@
+// 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.
+
+// Fast SIMD evaluation of rational polynomials for approximating functions.
+
+#if defined(LIB_JXL_RATIONAL_POLYNOMIAL_INL_H_) == defined(HWY_TARGET_TOGGLE)
+#ifdef LIB_JXL_RATIONAL_POLYNOMIAL_INL_H_
+#undef LIB_JXL_RATIONAL_POLYNOMIAL_INL_H_
+#else
+#define LIB_JXL_RATIONAL_POLYNOMIAL_INL_H_
+#endif
+
+#include <stddef.h>
+
+#include <hwy/highway.h>
+HWY_BEFORE_NAMESPACE();
+namespace jxl {
+namespace HWY_NAMESPACE {
+namespace {
+
+// These templates are not found via ADL.
+using hwy::HWY_NAMESPACE::Div;
+using hwy::HWY_NAMESPACE::MulAdd;
+
+// Primary template: default to actual division.
+template <typename T, class V>
+struct FastDivision {
+  HWY_INLINE V operator()(const V n, const V d) const { return n / d; }
+};
+// Partial specialization for float vectors.
+template <class V>
+struct FastDivision<float, V> {
+  // One Newton-Raphson iteration.
+  static HWY_INLINE V ReciprocalNR(const V x) {
+    const auto rcp = ApproximateReciprocal(x);
+    const auto sum = Add(rcp, rcp);
+    const auto x_rcp = Mul(x, rcp);
+    return NegMulAdd(x_rcp, rcp, sum);
+  }
+
+  V operator()(const V n, const V d) const {
+#if 1  // Faster on SKX
+    return Div(n, d);
+#else
+    return n * ReciprocalNR(d);
+#endif
+  }
+};
+
+// Approximates smooth functions via rational polynomials (i.e. dividing two
+// polynomials). Evaluates polynomials via Horner's scheme, which is faster than
+// Clenshaw recurrence for Chebyshev polynomials. LoadDup128 allows us to
+// specify constants (replicated 4x) independently of the lane count.
+template <size_t NP, size_t NQ, class D, class V, typename T>
+HWY_INLINE HWY_MAYBE_UNUSED V EvalRationalPolynomial(const D d, const V x,
+                                                     const T (&p)[NP],
+                                                     const T (&q)[NQ]) {
+  constexpr size_t kDegP = NP / 4 - 1;
+  constexpr size_t kDegQ = NQ / 4 - 1;
+  auto yp = LoadDup128(d, &p[kDegP * 4]);
+  auto yq = LoadDup128(d, &q[kDegQ * 4]);
+  // We use pointer arithmetic to refer to &p[(kDegP - n) * 4] to avoid a
+  // compiler warning that the index is out of bounds since we are already
+  // checking that it is not out of bounds with (kDegP >= n) and the access
+  // will be optimized away. Similarly with q and kDegQ.
+  HWY_FENCE;
+  if (kDegP >= 1) yp = MulAdd(yp, x, LoadDup128(d, p + ((kDegP - 1) * 4)));
+  if (kDegQ >= 1) yq = MulAdd(yq, x, LoadDup128(d, q + ((kDegQ - 1) * 4)));
+  HWY_FENCE;
+  if (kDegP >= 2) yp = MulAdd(yp, x, LoadDup128(d, p + ((kDegP - 2) * 4)));
+  if (kDegQ >= 2) yq = MulAdd(yq, x, LoadDup128(d, q + ((kDegQ - 2) * 4)));
+  HWY_FENCE;
+  if (kDegP >= 3) yp = MulAdd(yp, x, LoadDup128(d, p + ((kDegP - 3) * 4)));
+  if (kDegQ >= 3) yq = MulAdd(yq, x, LoadDup128(d, q + ((kDegQ - 3) * 4)));
+  HWY_FENCE;
+  if (kDegP >= 4) yp = MulAdd(yp, x, LoadDup128(d, p + ((kDegP - 4) * 4)));
+  if (kDegQ >= 4) yq = MulAdd(yq, x, LoadDup128(d, q + ((kDegQ - 4) * 4)));
+  HWY_FENCE;
+  if (kDegP >= 5) yp = MulAdd(yp, x, LoadDup128(d, p + ((kDegP - 5) * 4)));
+  if (kDegQ >= 5) yq = MulAdd(yq, x, LoadDup128(d, q + ((kDegQ - 5) * 4)));
+  HWY_FENCE;
+  if (kDegP >= 6) yp = MulAdd(yp, x, LoadDup128(d, p + ((kDegP - 6) * 4)));
+  if (kDegQ >= 6) yq = MulAdd(yq, x, LoadDup128(d, q + ((kDegQ - 6) * 4)));
+  HWY_FENCE;
+  if (kDegP >= 7) yp = MulAdd(yp, x, LoadDup128(d, p + ((kDegP - 7) * 4)));
+  if (kDegQ >= 7) yq = MulAdd(yq, x, LoadDup128(d, q + ((kDegQ - 7) * 4)));
+
+  return FastDivision<T, V>()(yp, yq);
+}
+
+}  // namespace
+// NOLINTNEXTLINE(google-readability-namespace-comments)
+}  // namespace HWY_NAMESPACE
+}  // namespace jxl
+HWY_AFTER_NAMESPACE();
+#endif  // LIB_JXL_RATIONAL_POLYNOMIAL_INL_H_
-- 
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