Refactor cpuid

include/xsimd/config/xsimd_config.hpp

@@ -33,6 +33,17 @@
  * @defgroup xsimd_config_macro Instruction Set Detection
  */
 
+/**
+ * @ingroup xsimd_config_macro
+ *
+ * Set to 1 if the target is the x86 architecture family.
+ */
+#if defined(__x86_64__) || defined(__i386__) || defined(_M_AMD64) || defined(_M_IX86)
+#define XSIMD_TARGET_X86 1
+#else
+#define XSIMD_TARGET_X86 0
+#endif
+
 /**
  * @ingroup xsimd_config_macro
  *

include/xsimd/config/xsimd_cpu_features_x86.hpp

@@ -0,0 +1,298 @@
+/***************************************************************************
+ * Copyright (c) Johan Mabille, Sylvain Corlay, Wolf Vollprecht and         *
+ * Martin Renou                                                             *
+ * Copyright (c) QuantStack                                                 *
+ * Copyright (c) Serge Guelton                                              *
+ *                                                                          *
+ * Distributed under the terms of the BSD 3-Clause License.                 *
+ *                                                                          *
+ * The full license is in the file LICENSE, distributed with this software. *
+ ****************************************************************************/
+
+#ifndef XSIMD_CPU_FEATURES_X86_HPP
+#define XSIMD_CPU_FEATURES_X86_HPP
+
+#include <array>
+#include <cstdint>
+
+#include "../utils/bits.hpp"
+#include "./xsimd_config.hpp"
+
+#if XSIMD_TARGET_X86 && defined(_MSC_VER)
+#include <intrin.h> // Contains the definition of __cpuidex
+#endif
+
+namespace xsimd
+{
+    namespace detail
+    {
+        using cpuid_reg_t = std::array<int, 4>;
+        inline cpuid_reg_t get_cpuid(int level, int count = 0) noexcept;
+
+        using xcr0_reg_t = std::uint32_t;
+        inline xcr0_reg_t get_xcr0_low() noexcept;
+    }
+
+    /*
+     * Extended Control Register 0 (XCR0).
+     *
+     * Operating systems can explicitly disable the usage of instruction set (such
+     * as SSE or AVX extensions) by setting an appropriate flag in XCR0 register.
+     * This utility parses such bit values.
+     *
+     * @see https://docs.kernel.org/admin-guide/hw-vuln/gather_data_sampling.html
+     */
+    class x86_xcr0
+    {
+    public:
+        /**
+         * Create a default value with only SSE enabled.
+         *
+         * AVX and AVX512 strictly require OSXSAVE to be enabled by the OS.
+         * If OSXSAVE is disabled (e.g., via bcdedit /set xsavedisable 1), AVX state won't
+         * be preserved across context switches, so AVX cannot be used.
+         * SSE is therefore the only value safe to assume.
+         */
+        constexpr static x86_xcr0 safe_default() noexcept
+        {
+            reg_t low = {};
+            low = utils::set_bit<static_cast<reg_t>(bit::sse)>(low);
+            return x86_xcr0(low);
+        }
+
+        /** Read the XCR0 register from the CPU if on the correct architecture. */
+        inline static x86_xcr0 read()
+        {
+            return x86_xcr0(detail::get_xcr0_low());
+        }
+
+        /** Create a value which return false to everything. */
+        constexpr x86_xcr0() noexcept = default;
+
+        constexpr bool sse_enabled() const noexcept
+        {
+            return bit_is_set<bit::sse>(m_low);
+        }
+
+        constexpr bool avx_enabled() const noexcept
+        {
+            // Check both SSE and AVX bits even though AVX must imply SSE
+            return bit_is_set<bit::sse, bit::avx>(m_low);
+        }
+
+        constexpr bool avx512_enabled() const noexcept
+        {
+            // Check all SSE, AVX, and AVX512 bits even though AVX512 must
+            // imply AVX and SSE
+            return bit_is_set<bit::sse, bit::avx, bit::zmm_hi256>(m_low);
+        }
+
+    private:
+        using reg_t = detail::xcr0_reg_t;
+
+        enum class bit : reg_t
+        {
+            /** x87 FPU/MMX support (must be 1). */
+            x87 = 0,
+            /** XSAVE support for MXCSR and XMM registers. */
+            sse = 1,
+            /** AVX enabled and XSAVE support for upper halves of YMM registers. */
+            avx = 2,
+            /** MPX enabled and XSAVE support for BND0-BND3 registers. */
+            bndreg = 3,
+            /** MPX enabled and XSAVE support for BNDCFGU and BNDSTATUS registers. */
+            bndcsr = 4,
+            /** AVX-512 enabled and XSAVE support for opmask registers k0-k7. */
+            opmask = 5,
+            /** AVX-512 enabled and XSAVE support for upper halves of lower ZMM registers. */
+            zmm_hi256 = 6,
+            /** AVX-512 enabled and XSAVE support for upper ZMM registers. */
+            hi16_zmm = 7,
+            /** XSAVE support for PKRU register. */
+            pkru = 9,
+        };
+
+        template <bit... Bits>
+        static constexpr bool bit_is_set(reg_t value) noexcept
+        {
+            return utils::bit_is_set<static_cast<reg_t>(Bits)...>(value);
+        }
+
+        /** Parse a XCR0 value into individual components. */
+        constexpr explicit x86_xcr0(reg_t low) noexcept
+            : m_low(low)
+        {
+        }
+        reg_t m_low = {};
+    };
+
+    /**
+     * CPU Identification (CPUID) instruction results.
+     *
+     * The CPUID instruction provides detailed information about the processor,
+     * including supported instruction set extensions (SSE, AVX, AVX-512, etc.).
+     * This utility parses CPUID leaf values to detect available CPU features.
+     *
+     * @see https://en.wikipedia.org/wiki/CPUID
+     */
+    class x86_cpu_id
+    {
+    public:
+        /**
+         * Read the CpuId registers from the CPU if on the correct architecture.
+         *
+         * This is only safe to call if bit 18 of CR4.OSXSAVE has been set.
+         *
+         * @see cpu_id::osxsave
+         */
+        inline static x86_cpu_id read()
+        {
+            cpu_id_regs regs = {};
+            // TODO(C++20): Use designated initializer
+            regs.reg1 = detail::get_cpuid(0x1);
+            regs.reg7 = detail::get_cpuid(0x7);
+            regs.reg7a = detail::get_cpuid(0x7, 0x1);
+            regs.reg8 = detail::get_cpuid(0x80000001);
+            return x86_cpu_id(regs);
+        }
+
+        /** Create a value which return false to everything. */
+        constexpr x86_cpu_id() noexcept = default;
+
+        constexpr bool sse2() const noexcept { return utils::bit_is_set<26>(m_regs.reg1[3]); }
+
+        constexpr bool sse3() const noexcept { return utils::bit_is_set<0>(m_regs.reg1[2]); }
+
+        constexpr bool ssse3() const noexcept { return utils::bit_is_set<9>(m_regs.reg1[2]); }
+
+        constexpr bool sse4_1() const noexcept { return utils::bit_is_set<19>(m_regs.reg1[2]); }
+
+        constexpr bool sse4_2() const noexcept { return utils::bit_is_set<20>(m_regs.reg1[2]); }
+
+        constexpr bool fma3() const noexcept { return utils::bit_is_set<12>(m_regs.reg1[2]); }
+
+        /**
+         * Indicates whether the OS has enabled extended state management.
+         *
+         * When true, the OS has set bit 18 (OSXSAVE) in the CR4 control register,
+         * enabling the XGETBV/XSETBV instructions to access XCR0 and support
+         * processor extended state management using XSAVE/XRSTOR.
+         *
+         * This value is read from CPUID leaf 0x1, ECX bit 27, which reflects
+         * the state of CR4.OSXSAVE.
+         */
+        constexpr bool osxsave() const noexcept { return utils::bit_is_set<27>(m_regs.reg1[2]); }
+
+        constexpr bool avx() const noexcept { return utils::bit_is_set<28>(m_regs.reg1[2]); }
+
+        constexpr bool avx2() const noexcept { return utils::bit_is_set<5>(m_regs.reg7[1]); }
+
+        constexpr bool avx512f() const noexcept { return utils::bit_is_set<16>(m_regs.reg7[1]); }
+
+        constexpr bool avx512dq() const noexcept { return utils::bit_is_set<17>(m_regs.reg7[1]); }
+
+        constexpr bool avx512ifma() const noexcept { return utils::bit_is_set<21>(m_regs.reg7[1]); }
+
+        constexpr bool avx512pf() const noexcept { return utils::bit_is_set<26>(m_regs.reg7[1]); }
+
+        constexpr bool avx512er() const noexcept { return utils::bit_is_set<27>(m_regs.reg7[1]); }
+
+        constexpr bool avx512cd() const noexcept { return utils::bit_is_set<28>(m_regs.reg7[1]); }
+
+        constexpr bool avx512bw() const noexcept { return utils::bit_is_set<30>(m_regs.reg7[1]); }
+
+        constexpr bool avx512vbmi() const noexcept { return utils::bit_is_set<1>(m_regs.reg7[2]); }
+
+        constexpr bool avx512vbmi2() const noexcept { return utils::bit_is_set<6>(m_regs.reg7[2]); }
+
+        constexpr bool avx512vnni_bw() const noexcept { return utils::bit_is_set<11>(m_regs.reg7[2]); }
+
+        constexpr bool avxvnni() const noexcept { return utils::bit_is_set<4>(m_regs.reg7a[0]); }
+
+        constexpr bool fma4() const noexcept { return utils::bit_is_set<16>(m_regs.reg8[2]); }
+
+    private:
+        struct cpu_id_regs
+        {
+            using reg_t = detail::cpuid_reg_t;
+
+            reg_t reg1 = {};
+            reg_t reg7 = {};
+            reg_t reg7a = {};
+            reg_t reg8 = {};
+        };
+
+        /** Parse CpuInfo register values into individual components. */
+        constexpr explicit x86_cpu_id(const cpu_id_regs& regs) noexcept
+            : m_regs(regs)
+        {
+        }
+        cpu_id_regs m_regs = {};
+    };
+
+    namespace detail
+    {
+        inline cpuid_reg_t get_cpuid(int level, int count) noexcept
+        {
+            cpuid_reg_t reg = {};
+
+#if !XSIMD_TARGET_X86
+            (void)level;
+            (void)count;
+            return {}; // All bits to zero
+
+#elif defined(_MSC_VER)
+            __cpuidex(reg.data(), level, count);
+
+#elif defined(__INTEL_COMPILER)
+            __cpuid(reg.data(), level);
+
+#elif defined(__GNUC__) || defined(__clang__)
+
+#if defined(__i386__) && defined(__PIC__)
+            // %ebx may be the PIC register
+            __asm__("xchg{l}\t{%%}ebx, %1\n\t"
+                    "cpuid\n\t"
+                    "xchg{l}\t{%%}ebx, %1\n\t"
+                    : "=a"(reg[0]), "=r"(reg[1]), "=c"(reg[2]), "=d"(reg[3])
+                    : "0"(level), "2"(count));
+
+#else
+            __asm__("cpuid\n\t"
+                    : "=a"(reg[0]), "=b"(reg[1]), "=c"(reg[2]), "=d"(reg[3])
+                    : "0"(level), "2"(count));
+#endif
+#endif
+            return reg;
+        }
+
+        inline xcr0_reg_t get_xcr0_low() noexcept
+        {
+#if !XSIMD_TARGET_X86
+            return {}; // All bits to zero
+
+#elif defined(_MSC_VER) && _MSC_VER >= 1400
+            return static_cast<xcr0_reg_t>(_xgetbv(0));
+
+#elif defined(__GNUC__)
+            xcr0_reg_t xcr0 = {};
+            __asm__(
+                "xorl %%ecx, %%ecx\n"
+                "xgetbv\n"
+                : "=a"(xcr0)
+                :
+#if defined(__i386__)
+                : "ecx", "edx"
+#else
+                : "rcx", "rdx"
+#endif
+            );
+            return xcr0;
+
+#else /* _MSC_VER < 1400 */
+#error "_MSC_VER < 1400 is not supported"
+#endif /* _MSC_VER && _MSC_VER >= 1400 */
+        };
+    }
+}
+#endif