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Implement
llvm.x86.sse41.*
intrinsics
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use rustc_apfloat::Float as _; | ||
use rustc_middle::mir; | ||
use rustc_span::Symbol; | ||
use rustc_target::spec::abi::Abi; | ||
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use crate::*; | ||
use shims::foreign_items::EmulateForeignItemResult; | ||
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impl<'mir, 'tcx: 'mir> EvalContextExt<'mir, 'tcx> for crate::MiriInterpCx<'mir, 'tcx> {} | ||
pub(super) trait EvalContextExt<'mir, 'tcx: 'mir>: | ||
crate::MiriInterpCxExt<'mir, 'tcx> | ||
{ | ||
fn emulate_x86_sse41_intrinsic( | ||
&mut self, | ||
link_name: Symbol, | ||
abi: Abi, | ||
args: &[OpTy<'tcx, Provenance>], | ||
dest: &PlaceTy<'tcx, Provenance>, | ||
) -> InterpResult<'tcx, EmulateForeignItemResult> { | ||
let this = self.eval_context_mut(); | ||
// Prefix should have already been checked. | ||
let unprefixed_name = link_name.as_str().strip_prefix("llvm.x86.sse41.").unwrap(); | ||
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match unprefixed_name { | ||
// Used to implement the _mm_insert_ps function. | ||
// Takes one element of `right` and inserts it into `left` and | ||
// optionally zero some elements. Source index, destination index | ||
// and zeroed indices are specified by `imm`. | ||
"insertps" => { | ||
let [left, right, imm] = | ||
this.check_shim(abi, Abi::C { unwind: false }, link_name, args)?; | ||
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let (left, left_len) = this.operand_to_simd(left)?; | ||
let (right, right_len) = this.operand_to_simd(right)?; | ||
let (dest, dest_len) = this.place_to_simd(dest)?; | ||
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assert_eq!(dest_len, left_len); | ||
assert_eq!(dest_len, right_len); | ||
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let imm = this.read_scalar(imm)?.to_u8()?; | ||
let src_index = u64::from((imm >> 6) & 0b11); | ||
let dst_index = u64::from((imm >> 4) & 0b11); | ||
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for i in 0..dest_len { | ||
let dest = this.project_index(&dest, i)?; | ||
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if imm & (1 << i) != 0 { | ||
// zeroed | ||
this.write_scalar(Scalar::from_u32(0), &dest)?; | ||
} else if i == dst_index { | ||
// copy from `right` | ||
this.copy_op( | ||
&this.project_index(&right, src_index)?, | ||
&dest, | ||
/*allow_transmute*/ false, | ||
)?; | ||
} else { | ||
// copy from `left` | ||
this.copy_op( | ||
&this.project_index(&left, i)?, | ||
&dest, | ||
/*allow_transmute*/ false, | ||
)?; | ||
} | ||
} | ||
} | ||
// Used to implement the _mm_packus_epi32 function. | ||
// Converts two 32-bit signed integer vectors to a single 16-bit | ||
// unsigned integer vector with saturation. | ||
"packusdw" => { | ||
let [left, right] = | ||
this.check_shim(abi, Abi::C { unwind: false }, link_name, args)?; | ||
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let (left, left_len) = this.operand_to_simd(left)?; | ||
let (right, right_len) = this.operand_to_simd(right)?; | ||
let (dest, dest_len) = this.place_to_simd(dest)?; | ||
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assert_eq!(left_len, right_len); | ||
assert_eq!(dest_len, left_len.checked_mul(2).unwrap()); | ||
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for i in 0..left_len { | ||
let left = this.read_scalar(&this.project_index(&left, i)?)?.to_i32()?; | ||
let right = this.read_scalar(&this.project_index(&right, i)?)?.to_i32()?; | ||
let left_dest = this.project_index(&dest, i)?; | ||
let right_dest = this.project_index(&dest, i.checked_add(left_len).unwrap())?; | ||
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let left_res = | ||
u16::try_from(left).unwrap_or(if left < 0 { 0 } else { u16::MAX }); | ||
let right_res = | ||
u16::try_from(right).unwrap_or(if right < 0 { 0 } else { u16::MAX }); | ||
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this.write_scalar(Scalar::from_u16(left_res), &left_dest)?; | ||
this.write_scalar(Scalar::from_u16(right_res), &right_dest)?; | ||
} | ||
} | ||
// Used to implement the _mm_dp_ps and _mm_dp_pd functions. | ||
// Conditionally multiplies the packed floating-point elements in | ||
// `left` and `right` using the high 4 bits in `imm`, sums the four | ||
// products, and conditionally stores the sum in `dest` using the low | ||
// 4 bits of `imm`. | ||
"dpps" | "dppd" => { | ||
let [left, right, imm] = | ||
this.check_shim(abi, Abi::C { unwind: false }, link_name, args)?; | ||
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let (left, left_len) = this.operand_to_simd(left)?; | ||
let (right, right_len) = this.operand_to_simd(right)?; | ||
let (dest, dest_len) = this.place_to_simd(dest)?; | ||
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assert_eq!(left_len, right_len); | ||
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let imm = this.read_scalar(imm)?.to_u8()?; | ||
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let element_layout = left.layout.field(this, 0); | ||
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// Calculate dot product | ||
// Elements are floating point number, but we can use `from_int` | ||
// because the representation of 0.0 is all zero bits. | ||
let mut sum = ImmTy::from_int(0u8, element_layout); | ||
for i in 0..left_len { | ||
if imm & (1 << i.checked_add(4).unwrap()) != 0 { | ||
let left = this.read_immediate(&this.project_index(&left, i)?)?; | ||
let right = this.read_immediate(&this.project_index(&right, i)?)?; | ||
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let mul = this.wrapping_binary_op(mir::BinOp::Mul, &left, &right)?; | ||
sum = this.wrapping_binary_op(mir::BinOp::Add, &sum, &mul)?; | ||
} | ||
} | ||
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// Write to destination (conditioned to imm) | ||
for i in 0..dest_len { | ||
let dest = this.project_index(&dest, i)?; | ||
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if imm & (1 << i) != 0 { | ||
this.write_immediate(*sum, &dest)?; | ||
} else { | ||
this.write_scalar(Scalar::from_int(0u8, element_layout.size), &dest)?; | ||
} | ||
} | ||
} | ||
// Used to implement the _mm_floor_ss, _mm_ceil_ss and _mm_round_ss | ||
// functions. Rounds the first element of `right` according to `rounding` | ||
// and copies the remaining from `left`. | ||
"round.ss" => { | ||
let [left, right, rounding] = | ||
this.check_shim(abi, Abi::C { unwind: false }, link_name, args)?; | ||
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let (left, left_len) = this.operand_to_simd(left)?; | ||
let (right, right_len) = this.operand_to_simd(right)?; | ||
let (dest, dest_len) = this.place_to_simd(dest)?; | ||
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assert_eq!(dest_len, left_len); | ||
assert_eq!(dest_len, right_len); | ||
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let rounding = match this.read_scalar(rounding)?.to_i32()? & !0x80 { | ||
0x00 => rustc_apfloat::Round::NearestTiesToEven, | ||
0x01 => rustc_apfloat::Round::TowardNegative, | ||
0x02 => rustc_apfloat::Round::TowardPositive, | ||
0x03 => rustc_apfloat::Round::TowardZero, | ||
rounding => throw_unsup_format!("unsupported rounding mode 0x{rounding:02x}"), | ||
}; | ||
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let op0 = this.read_scalar(&this.project_index(&right, 0)?)?.to_f32()?; | ||
let res = op0.round_to_integral(rounding).value; | ||
this.write_scalar(Scalar::from_f32(res), &this.project_index(&dest, 0)?)?; | ||
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for i in 1..dest_len { | ||
this.copy_op( | ||
&this.project_index(&left, i)?, | ||
&this.project_index(&dest, i)?, | ||
/*allow_transmute*/ false, | ||
)?; | ||
} | ||
} | ||
// Used to implement the _mm_floor_sd, _mm_ceil_sd and _mm_round_sd | ||
// functions. Rounds the first element of `right` according to `rounding` | ||
// and copies the remaining from `left`. | ||
"round.sd" => { | ||
let [left, right, rounding] = | ||
this.check_shim(abi, Abi::C { unwind: false }, link_name, args)?; | ||
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let (left, left_len) = this.operand_to_simd(left)?; | ||
let (right, right_len) = this.operand_to_simd(right)?; | ||
let (dest, dest_len) = this.place_to_simd(dest)?; | ||
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assert_eq!(dest_len, left_len); | ||
assert_eq!(dest_len, right_len); | ||
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let rounding = match this.read_scalar(rounding)?.to_i32()? { | ||
0x00 | 0x80 => rustc_apfloat::Round::NearestTiesToEven, | ||
0x01 | 0x81 => rustc_apfloat::Round::TowardNegative, | ||
0x02 | 0x82 => rustc_apfloat::Round::TowardPositive, | ||
0x03 | 0x83 => rustc_apfloat::Round::TowardZero, | ||
rounding => throw_unsup_format!("unsupported rounding mode 0x{rounding:02x}"), | ||
}; | ||
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let op0 = this.read_scalar(&this.project_index(&right, 0)?)?.to_f64()?; | ||
let res = op0.round_to_integral(rounding).value; | ||
this.write_scalar(Scalar::from_f64(res), &this.project_index(&dest, 0)?)?; | ||
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for i in 1..dest_len { | ||
this.copy_op( | ||
&this.project_index(&left, i)?, | ||
&this.project_index(&dest, i)?, | ||
/*allow_transmute*/ false, | ||
)?; | ||
} | ||
} | ||
// Used to implement the _mm_minpos_epu16 function. | ||
// Find the minimum unsinged 16-bit integer in `op` and | ||
// returns its value and position. | ||
"phminposuw" => { | ||
let [op] = this.check_shim(abi, Abi::C { unwind: false }, link_name, args)?; | ||
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let (op, op_len) = this.operand_to_simd(op)?; | ||
let (dest, dest_len) = this.place_to_simd(dest)?; | ||
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// Find minimum | ||
let mut min_value = u16::MAX; | ||
let mut min_index = 0; | ||
for i in 0..op_len { | ||
let op = this.read_scalar(&this.project_index(&op, i)?)?.to_u16()?; | ||
if op < min_value { | ||
min_value = op; | ||
min_index = i; | ||
} | ||
} | ||
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// Write value and index | ||
this.write_scalar(Scalar::from_u16(min_value), &this.project_index(&dest, 0)?)?; | ||
this.write_scalar( | ||
Scalar::from_u16(min_index.try_into().unwrap()), | ||
&this.project_index(&dest, 1)?, | ||
)?; | ||
// Fill remaining with zeros | ||
for i in 2..dest_len { | ||
this.write_scalar(Scalar::from_u16(0), &this.project_index(&dest, i)?)?; | ||
} | ||
} | ||
// Used to implement the _mm_mpsadbw_epu8 function. | ||
// Compute the sum of absolute differences of quadruplets of unsigned | ||
// 8-bit integers in `left` and `right`, and store the 16-bit results | ||
// in `right`. Quadruplets are selected from `left` and `right` with | ||
// offsets specified in `imm`. | ||
// https://www.intel.com/content/www/us/en/docs/intrinsics-guide/index.html#text=_mm_mpsadbw_epu8 | ||
"mpsadbw" => { | ||
let [left, right, imm] = | ||
this.check_shim(abi, Abi::C { unwind: false }, link_name, args)?; | ||
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let (left, left_len) = this.operand_to_simd(left)?; | ||
let (right, right_len) = this.operand_to_simd(right)?; | ||
let (dest, dest_len) = this.place_to_simd(dest)?; | ||
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assert_eq!(left_len, right_len); | ||
assert_eq!(left_len, dest_len.checked_mul(2).unwrap()); | ||
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let imm = this.read_scalar(imm)?.to_u8()?; | ||
let left_offset = u64::from((imm >> 2) & 1).checked_mul(4).unwrap(); | ||
let right_offset = u64::from(imm & 0b11).checked_mul(4).unwrap(); | ||
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for i in 0..dest_len { | ||
let left_offset = left_offset.checked_add(i).unwrap(); | ||
let mut res: u16 = 0; | ||
for j in 0..4 { | ||
let left = this | ||
.read_scalar( | ||
&this.project_index(&left, left_offset.checked_add(j).unwrap())?, | ||
)? | ||
.to_u8()?; | ||
let right = this | ||
.read_scalar( | ||
&this | ||
.project_index(&right, right_offset.checked_add(j).unwrap())?, | ||
)? | ||
.to_u8()?; | ||
res = res.checked_add(left.abs_diff(right).into()).unwrap(); | ||
} | ||
this.write_scalar(Scalar::from_u16(res), &this.project_index(&dest, i)?)?; | ||
} | ||
} | ||
// Used to implement the _mm_testz_si128, _mm_testc_si128 | ||
// and _mm_testnzc_si128 functions. | ||
// Tests `op & mask == 0`, `op & mask == mask` or | ||
// `op & mask != 0 && op & mask != mask` | ||
"ptestz" | "ptestc" | "ptestnzc" => { | ||
let [op, mask] = this.check_shim(abi, Abi::C { unwind: false }, link_name, args)?; | ||
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let (op, op_len) = this.operand_to_simd(op)?; | ||
let (mask, mask_len) = this.operand_to_simd(mask)?; | ||
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assert_eq!(op_len, mask_len); | ||
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let f = match unprefixed_name { | ||
"ptestz" => |op, mask| op & mask == 0, | ||
"ptestc" => |op, mask| op & mask == mask, | ||
"ptestnzc" => |op, mask| op & mask != 0 && op & mask != mask, | ||
_ => unreachable!(), | ||
}; | ||
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let mut all_zero = true; | ||
for i in 0..op_len { | ||
let op = this.read_scalar(&this.project_index(&op, i)?)?.to_u64()?; | ||
let mask = this.read_scalar(&this.project_index(&mask, i)?)?.to_u64()?; | ||
all_zero &= f(op, mask); | ||
} | ||
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this.write_scalar(Scalar::from_i32(all_zero.into()), dest)?; | ||
} | ||
_ => return Ok(EmulateForeignItemResult::NotSupported), | ||
} | ||
Ok(EmulateForeignItemResult::NeedsJumping) | ||
} | ||
} |
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