Merge pull request #3987 from TDecking/vpclmul
Implement LLVM x86 vpclmulqdq intrinsics
This commit is contained in:
commit
fb7bcd1baa
@ -95,11 +95,22 @@ fn emulate_x86_intrinsic(
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}
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}
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}
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}
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"pclmulqdq" => {
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"pclmulqdq" | "pclmulqdq.256" | "pclmulqdq.512" => {
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let mut len = 2; // in units of 64bits
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this.expect_target_feature_for_intrinsic(link_name, "pclmulqdq")?;
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if unprefixed_name.ends_with(".256") {
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this.expect_target_feature_for_intrinsic(link_name, "vpclmulqdq")?;
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len = 4;
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} else if unprefixed_name.ends_with(".512") {
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this.expect_target_feature_for_intrinsic(link_name, "vpclmulqdq")?;
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this.expect_target_feature_for_intrinsic(link_name, "avx512f")?;
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len = 8;
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}
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let [left, right, imm] =
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let [left, right, imm] =
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this.check_shim(abi, Abi::C { unwind: false }, link_name, args)?;
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this.check_shim(abi, Abi::C { unwind: false }, link_name, args)?;
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pclmulqdq(this, left, right, imm, dest)?;
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pclmulqdq(this, left, right, imm, dest, len)?;
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}
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}
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name if name.starts_with("bmi.") => {
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name if name.starts_with("bmi.") => {
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@ -1134,9 +1145,12 @@ fn pmulhrsw<'tcx>(
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/// Perform a carry-less multiplication of two 64-bit integers, selected from `left` and `right` according to `imm8`,
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/// Perform a carry-less multiplication of two 64-bit integers, selected from `left` and `right` according to `imm8`,
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/// and store the results in `dst`.
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/// and store the results in `dst`.
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///
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///
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/// `left` and `right` are both vectors of type 2 x i64. Only bits 0 and 4 of `imm8` matter;
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/// `left` and `right` are both vectors of type `len` x i64. Only bits 0 and 4 of `imm8` matter;
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/// they select the element of `left` and `right`, respectively.
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/// they select the element of `left` and `right`, respectively.
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///
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///
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/// `len` is the SIMD vector length (in counts of `i64` values). It is expected to be one of
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/// `2`, `4`, or `8`.
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///
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/// <https://www.intel.com/content/www/us/en/docs/intrinsics-guide/index.html#text=_mm_clmulepi64_si128>
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/// <https://www.intel.com/content/www/us/en/docs/intrinsics-guide/index.html#text=_mm_clmulepi64_si128>
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fn pclmulqdq<'tcx>(
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fn pclmulqdq<'tcx>(
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this: &mut MiriInterpCx<'tcx>,
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this: &mut MiriInterpCx<'tcx>,
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@ -1144,52 +1158,56 @@ fn pclmulqdq<'tcx>(
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right: &OpTy<'tcx>,
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right: &OpTy<'tcx>,
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imm8: &OpTy<'tcx>,
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imm8: &OpTy<'tcx>,
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dest: &MPlaceTy<'tcx>,
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dest: &MPlaceTy<'tcx>,
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len: u64,
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) -> InterpResult<'tcx, ()> {
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) -> InterpResult<'tcx, ()> {
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assert_eq!(left.layout, right.layout);
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assert_eq!(left.layout, right.layout);
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assert_eq!(left.layout.size, dest.layout.size);
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assert_eq!(left.layout.size, dest.layout.size);
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assert!([2u64, 4, 8].contains(&len));
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// Transmute to `[u64; 2]`
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// Transmute the input into arrays of `[u64; len]`.
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// Transmute the output into an array of `[u128, len / 2]`.
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let array_layout = this.layout_of(Ty::new_array(this.tcx.tcx, this.tcx.types.u64, 2))?;
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let src_layout = this.layout_of(Ty::new_array(this.tcx.tcx, this.tcx.types.u64, len))?;
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let left = left.transmute(array_layout, this)?;
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let dest_layout = this.layout_of(Ty::new_array(this.tcx.tcx, this.tcx.types.u128, len / 2))?;
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let right = right.transmute(array_layout, this)?;
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let dest = dest.transmute(array_layout, this)?;
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let left = left.transmute(src_layout, this)?;
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let right = right.transmute(src_layout, this)?;
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let dest = dest.transmute(dest_layout, this)?;
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let imm8 = this.read_scalar(imm8)?.to_u8()?;
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let imm8 = this.read_scalar(imm8)?.to_u8()?;
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// select the 64-bit integer from left that the user specified (low or high)
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for i in 0..(len / 2) {
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let index = if (imm8 & 0x01) == 0 { 0 } else { 1 };
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let lo = i.strict_mul(2);
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let left = this.read_scalar(&this.project_index(&left, index)?)?.to_u64()?;
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let hi = i.strict_mul(2).strict_add(1);
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// select the 64-bit integer from right that the user specified (low or high)
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// select the 64-bit integer from left that the user specified (low or high)
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let index = if (imm8 & 0x10) == 0 { 0 } else { 1 };
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let index = if (imm8 & 0x01) == 0 { lo } else { hi };
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let right = this.read_scalar(&this.project_index(&right, index)?)?.to_u64()?;
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let left = this.read_scalar(&this.project_index(&left, index)?)?.to_u64()?;
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// Perform carry-less multiplication
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// select the 64-bit integer from right that the user specified (low or high)
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//
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let index = if (imm8 & 0x10) == 0 { lo } else { hi };
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// This operation is like long multiplication, but ignores all carries.
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let right = this.read_scalar(&this.project_index(&right, index)?)?.to_u64()?;
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// That idea corresponds to the xor operator, which is used in the implementation.
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//
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// Wikipedia has an example https://en.wikipedia.org/wiki/Carry-less_product#Example
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let mut result: u128 = 0;
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for i in 0..64 {
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// Perform carry-less multiplication.
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// if the i-th bit in right is set
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//
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if (right & (1 << i)) != 0 {
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// This operation is like long multiplication, but ignores all carries.
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// xor result with `left` shifted to the left by i positions
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// That idea corresponds to the xor operator, which is used in the implementation.
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result ^= u128::from(left) << i;
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//
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// Wikipedia has an example https://en.wikipedia.org/wiki/Carry-less_product#Example
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let mut result: u128 = 0;
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for i in 0..64 {
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// if the i-th bit in right is set
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if (right & (1 << i)) != 0 {
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// xor result with `left` shifted to the left by i positions
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result ^= u128::from(left) << i;
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}
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}
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}
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let dest = this.project_index(&dest, i)?;
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this.write_scalar(Scalar::from_u128(result), &dest)?;
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}
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}
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let result_low = (result & 0xFFFF_FFFF_FFFF_FFFF) as u64;
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let result_high = (result >> 64) as u64;
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let dest_low = this.project_index(&dest, 0)?;
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this.write_scalar(Scalar::from_u64(result_low), &dest_low)?;
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let dest_high = this.project_index(&dest, 1)?;
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this.write_scalar(Scalar::from_u64(result_high), &dest_high)?;
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interp_ok(())
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interp_ok(())
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}
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}
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193
src/tools/miri/tests/pass/shims/x86/intrinsics-x86-vpclmulqdq.rs
Normal file
193
src/tools/miri/tests/pass/shims/x86/intrinsics-x86-vpclmulqdq.rs
Normal file
@ -0,0 +1,193 @@
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// We're testing x86 target specific features
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//@revisions: avx512 avx
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//@only-target: x86_64 i686
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//@[avx512]compile-flags: -C target-feature=+vpclmulqdq,+avx512f
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//@[avx]compile-flags: -C target-feature=+vpclmulqdq,+avx2
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// The constants in the tests below are just bit patterns. They should not
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// be interpreted as integers; signedness does not make sense for them, but
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// __mXXXi happens to be defined in terms of signed integers.
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#![allow(overflowing_literals)]
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#![feature(avx512_target_feature)]
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#![feature(stdarch_x86_avx512)]
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#[cfg(target_arch = "x86")]
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use std::arch::x86::*;
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#[cfg(target_arch = "x86_64")]
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use std::arch::x86_64::*;
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use std::mem::transmute;
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fn main() {
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// Mostly copied from library/stdarch/crates/core_arch/src/x86/vpclmulqdq.rs
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assert!(is_x86_feature_detected!("pclmulqdq"));
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assert!(is_x86_feature_detected!("vpclmulqdq"));
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unsafe {
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test_mm256_clmulepi64_epi128();
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if is_x86_feature_detected!("avx512f") {
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test_mm512_clmulepi64_epi128();
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}
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}
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}
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macro_rules! verify_kat_pclmul {
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($broadcast:ident, $clmul:ident, $assert:ident) => {
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// Constants taken from https://software.intel.com/sites/default/files/managed/72/cc/clmul-wp-rev-2.02-2014-04-20.pdf
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let a = _mm_set_epi64x(0x7b5b546573745665, 0x63746f725d53475d);
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let a = $broadcast(a);
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let b = _mm_set_epi64x(0x4869285368617929, 0x5b477565726f6e5d);
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let b = $broadcast(b);
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let r00 = _mm_set_epi64x(0x1d4d84c85c3440c0, 0x929633d5d36f0451);
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let r00 = $broadcast(r00);
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let r01 = _mm_set_epi64x(0x1bd17c8d556ab5a1, 0x7fa540ac2a281315);
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let r01 = $broadcast(r01);
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let r10 = _mm_set_epi64x(0x1a2bf6db3a30862f, 0xbabf262df4b7d5c9);
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let r10 = $broadcast(r10);
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let r11 = _mm_set_epi64x(0x1d1e1f2c592e7c45, 0xd66ee03e410fd4ed);
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let r11 = $broadcast(r11);
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$assert($clmul::<0x00>(a, b), r00);
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$assert($clmul::<0x10>(a, b), r01);
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$assert($clmul::<0x01>(a, b), r10);
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$assert($clmul::<0x11>(a, b), r11);
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let a0 = _mm_set_epi64x(0x0000000000000000, 0x8000000000000000);
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let a0 = $broadcast(a0);
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let r = _mm_set_epi64x(0x4000000000000000, 0x0000000000000000);
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let r = $broadcast(r);
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$assert($clmul::<0x00>(a0, a0), r);
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}
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}
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// this function tests one of the possible 4 instances
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// with different inputs across lanes for the 512-bit version
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#[target_feature(enable = "vpclmulqdq,avx512f")]
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unsafe fn verify_512_helper(
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linear: unsafe fn(__m128i, __m128i) -> __m128i,
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vectorized: unsafe fn(__m512i, __m512i) -> __m512i,
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) {
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let a = _mm512_set_epi64(
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0xDCB4DB3657BF0B7D,
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0x18DB0601068EDD9F,
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0xB76B908233200DC5,
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0xE478235FA8E22D5E,
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0xAB05CFFA2621154C,
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0x1171B47A186174C9,
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0x8C6B6C0E7595CEC9,
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0xBE3E7D4934E961BD,
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);
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let b = _mm512_set_epi64(
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0x672F6F105A94CEA7,
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0x8298B8FFCA5F829C,
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0xA3927047B3FB61D8,
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0x978093862CDE7187,
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0xB1927AB22F31D0EC,
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0xA9A5DA619BE4D7AF,
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0xCA2590F56884FDC6,
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0x19BE9F660038BDB5,
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);
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let a_decomp = transmute::<_, [__m128i; 4]>(a);
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let b_decomp = transmute::<_, [__m128i; 4]>(b);
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let r = vectorized(a, b);
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let e_decomp = [
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linear(a_decomp[0], b_decomp[0]),
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linear(a_decomp[1], b_decomp[1]),
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linear(a_decomp[2], b_decomp[2]),
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linear(a_decomp[3], b_decomp[3]),
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];
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let e = transmute::<_, __m512i>(e_decomp);
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assert_eq_m512i(r, e)
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}
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// this function tests one of the possible 4 instances
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// with different inputs across lanes for the 256-bit version
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#[target_feature(enable = "vpclmulqdq")]
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unsafe fn verify_256_helper(
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linear: unsafe fn(__m128i, __m128i) -> __m128i,
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vectorized: unsafe fn(__m256i, __m256i) -> __m256i,
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) {
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let a = _mm256_set_epi64x(
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0xDCB4DB3657BF0B7D,
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0x18DB0601068EDD9F,
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0xB76B908233200DC5,
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0xE478235FA8E22D5E,
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);
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let b = _mm256_set_epi64x(
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0x672F6F105A94CEA7,
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0x8298B8FFCA5F829C,
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0xA3927047B3FB61D8,
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0x978093862CDE7187,
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);
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let a_decomp = transmute::<_, [__m128i; 2]>(a);
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let b_decomp = transmute::<_, [__m128i; 2]>(b);
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let r = vectorized(a, b);
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let e_decomp = [linear(a_decomp[0], b_decomp[0]), linear(a_decomp[1], b_decomp[1])];
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let e = transmute::<_, __m256i>(e_decomp);
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assert_eq_m256i(r, e)
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}
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#[target_feature(enable = "vpclmulqdq,avx512f")]
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unsafe fn test_mm512_clmulepi64_epi128() {
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verify_kat_pclmul!(_mm512_broadcast_i32x4, _mm512_clmulepi64_epi128, assert_eq_m512i);
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verify_512_helper(
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|a, b| _mm_clmulepi64_si128::<0x00>(a, b),
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|a, b| _mm512_clmulepi64_epi128::<0x00>(a, b),
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);
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verify_512_helper(
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|a, b| _mm_clmulepi64_si128::<0x01>(a, b),
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|a, b| _mm512_clmulepi64_epi128::<0x01>(a, b),
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);
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verify_512_helper(
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|a, b| _mm_clmulepi64_si128::<0x10>(a, b),
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|a, b| _mm512_clmulepi64_epi128::<0x10>(a, b),
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);
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verify_512_helper(
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|a, b| _mm_clmulepi64_si128::<0x11>(a, b),
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|a, b| _mm512_clmulepi64_epi128::<0x11>(a, b),
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);
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}
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#[target_feature(enable = "vpclmulqdq")]
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unsafe fn test_mm256_clmulepi64_epi128() {
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verify_kat_pclmul!(_mm256_broadcastsi128_si256, _mm256_clmulepi64_epi128, assert_eq_m256i);
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verify_256_helper(
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|a, b| _mm_clmulepi64_si128::<0x00>(a, b),
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|a, b| _mm256_clmulepi64_epi128::<0x00>(a, b),
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);
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verify_256_helper(
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|a, b| _mm_clmulepi64_si128::<0x01>(a, b),
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|a, b| _mm256_clmulepi64_epi128::<0x01>(a, b),
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);
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verify_256_helper(
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|a, b| _mm_clmulepi64_si128::<0x10>(a, b),
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|a, b| _mm256_clmulepi64_epi128::<0x10>(a, b),
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);
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verify_256_helper(
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|a, b| _mm_clmulepi64_si128::<0x11>(a, b),
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|a, b| _mm256_clmulepi64_epi128::<0x11>(a, b),
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);
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}
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|
#[track_caller]
|
||||||
|
#[target_feature(enable = "avx512f")]
|
||||||
|
unsafe fn assert_eq_m512i(a: __m512i, b: __m512i) {
|
||||||
|
assert_eq!(transmute::<_, [u64; 8]>(a), transmute::<_, [u64; 8]>(b))
|
||||||
|
}
|
||||||
|
|
||||||
|
#[track_caller]
|
||||||
|
#[target_feature(enable = "avx")]
|
||||||
|
unsafe fn assert_eq_m256i(a: __m256i, b: __m256i) {
|
||||||
|
assert_eq!(transmute::<_, [u64; 4]>(a), transmute::<_, [u64; 4]>(b))
|
||||||
|
}
|
Loading…
Reference in New Issue
Block a user