comm-central/third_party/rust/wasmparser/src/validator/operators/simd.rs

Revision control

Copy as Markdown

Other Tools

use super::OperatorValidatorTemp;
use crate::{MemArg, Result, ValType, WasmModuleResources};
use crate::{V128, VisitSimdOperator};
impl<'resources, R> OperatorValidatorTemp<'_, 'resources, R>
where
R: WasmModuleResources,
{
fn check_simd_lane_index(&self, index: u8, max: u8) -> Result<()> {
if index >= max {
bail!(self.offset, "SIMD index out of bounds");
}
Ok(())
}
/// Checks a [`V128`] splat operator.
fn check_v128_splat(&mut self, src_ty: ValType) -> Result<()> {
self.pop_operand(Some(src_ty))?;
self.push_operand(ValType::V128)?;
Ok(())
}
/// Checks a [`V128`] binary operator.
fn check_v128_binary_op(&mut self) -> Result<()> {
self.pop_operand(Some(ValType::V128))?;
self.pop_operand(Some(ValType::V128))?;
self.push_operand(ValType::V128)?;
Ok(())
}
/// Checks a [`V128`] binary float operator.
fn check_v128_fbinary_op(&mut self) -> Result<()> {
self.check_floats_enabled()?;
self.check_v128_binary_op()
}
/// Checks a [`V128`] unary operator.
fn check_v128_unary_op(&mut self) -> Result<()> {
self.pop_operand(Some(ValType::V128))?;
self.push_operand(ValType::V128)?;
Ok(())
}
/// Checks a [`V128`] unary float operator.
fn check_v128_funary_op(&mut self) -> Result<()> {
self.check_floats_enabled()?;
self.check_v128_unary_op()
}
/// Checks a [`V128`] relaxed ternary operator.
fn check_v128_ternary_op(&mut self) -> Result<()> {
self.pop_operand(Some(ValType::V128))?;
self.pop_operand(Some(ValType::V128))?;
self.pop_operand(Some(ValType::V128))?;
self.push_operand(ValType::V128)?;
Ok(())
}
/// Checks a [`V128`] test operator.
fn check_v128_bitmask_op(&mut self) -> Result<()> {
self.pop_operand(Some(ValType::V128))?;
self.push_operand(ValType::I32)?;
Ok(())
}
/// Checks a [`V128`] shift operator.
fn check_v128_shift_op(&mut self) -> Result<()> {
self.pop_operand(Some(ValType::I32))?;
self.pop_operand(Some(ValType::V128))?;
self.push_operand(ValType::V128)?;
Ok(())
}
/// Checks a [`V128`] common load operator.
fn check_v128_load_op(&mut self, memarg: MemArg) -> Result<()> {
let idx = self.check_memarg(memarg)?;
self.pop_operand(Some(idx))?;
self.push_operand(ValType::V128)?;
Ok(())
}
}
impl<'a, T> VisitSimdOperator<'a> for OperatorValidatorTemp<'_, '_, T>
where
T: WasmModuleResources,
{
fn visit_v128_load(&mut self, memarg: MemArg) -> Self::Output {
let ty = self.check_memarg(memarg)?;
self.pop_operand(Some(ty))?;
self.push_operand(ValType::V128)?;
Ok(())
}
fn visit_v128_store(&mut self, memarg: MemArg) -> Self::Output {
let ty = self.check_memarg(memarg)?;
self.pop_operand(Some(ValType::V128))?;
self.pop_operand(Some(ty))?;
Ok(())
}
fn visit_v128_const(&mut self, _value: V128) -> Self::Output {
self.push_operand(ValType::V128)?;
Ok(())
}
fn visit_i8x16_splat(&mut self) -> Self::Output {
self.check_v128_splat(ValType::I32)
}
fn visit_i16x8_splat(&mut self) -> Self::Output {
self.check_v128_splat(ValType::I32)
}
fn visit_i32x4_splat(&mut self) -> Self::Output {
self.check_v128_splat(ValType::I32)
}
fn visit_i64x2_splat(&mut self) -> Self::Output {
self.check_v128_splat(ValType::I64)
}
fn visit_f32x4_splat(&mut self) -> Self::Output {
self.check_floats_enabled()?;
self.check_v128_splat(ValType::F32)
}
fn visit_f64x2_splat(&mut self) -> Self::Output {
self.check_floats_enabled()?;
self.check_v128_splat(ValType::F64)
}
fn visit_i8x16_extract_lane_s(&mut self, lane: u8) -> Self::Output {
self.check_simd_lane_index(lane, 16)?;
self.pop_operand(Some(ValType::V128))?;
self.push_operand(ValType::I32)?;
Ok(())
}
fn visit_i8x16_extract_lane_u(&mut self, lane: u8) -> Self::Output {
self.visit_i8x16_extract_lane_s(lane)
}
fn visit_i16x8_extract_lane_s(&mut self, lane: u8) -> Self::Output {
self.check_simd_lane_index(lane, 8)?;
self.pop_operand(Some(ValType::V128))?;
self.push_operand(ValType::I32)?;
Ok(())
}
fn visit_i16x8_extract_lane_u(&mut self, lane: u8) -> Self::Output {
self.visit_i16x8_extract_lane_s(lane)
}
fn visit_i32x4_extract_lane(&mut self, lane: u8) -> Self::Output {
self.check_simd_lane_index(lane, 4)?;
self.pop_operand(Some(ValType::V128))?;
self.push_operand(ValType::I32)?;
Ok(())
}
fn visit_i8x16_replace_lane(&mut self, lane: u8) -> Self::Output {
self.check_simd_lane_index(lane, 16)?;
self.pop_operand(Some(ValType::I32))?;
self.pop_operand(Some(ValType::V128))?;
self.push_operand(ValType::V128)?;
Ok(())
}
fn visit_i16x8_replace_lane(&mut self, lane: u8) -> Self::Output {
self.check_simd_lane_index(lane, 8)?;
self.pop_operand(Some(ValType::I32))?;
self.pop_operand(Some(ValType::V128))?;
self.push_operand(ValType::V128)?;
Ok(())
}
fn visit_i32x4_replace_lane(&mut self, lane: u8) -> Self::Output {
self.check_simd_lane_index(lane, 4)?;
self.pop_operand(Some(ValType::I32))?;
self.pop_operand(Some(ValType::V128))?;
self.push_operand(ValType::V128)?;
Ok(())
}
fn visit_i64x2_extract_lane(&mut self, lane: u8) -> Self::Output {
self.check_simd_lane_index(lane, 2)?;
self.pop_operand(Some(ValType::V128))?;
self.push_operand(ValType::I64)?;
Ok(())
}
fn visit_i64x2_replace_lane(&mut self, lane: u8) -> Self::Output {
self.check_simd_lane_index(lane, 2)?;
self.pop_operand(Some(ValType::I64))?;
self.pop_operand(Some(ValType::V128))?;
self.push_operand(ValType::V128)?;
Ok(())
}
fn visit_f32x4_extract_lane(&mut self, lane: u8) -> Self::Output {
self.check_floats_enabled()?;
self.check_simd_lane_index(lane, 4)?;
self.pop_operand(Some(ValType::V128))?;
self.push_operand(ValType::F32)?;
Ok(())
}
fn visit_f32x4_replace_lane(&mut self, lane: u8) -> Self::Output {
self.check_floats_enabled()?;
self.check_simd_lane_index(lane, 4)?;
self.pop_operand(Some(ValType::F32))?;
self.pop_operand(Some(ValType::V128))?;
self.push_operand(ValType::V128)?;
Ok(())
}
fn visit_f64x2_extract_lane(&mut self, lane: u8) -> Self::Output {
self.check_floats_enabled()?;
self.check_simd_lane_index(lane, 2)?;
self.pop_operand(Some(ValType::V128))?;
self.push_operand(ValType::F64)?;
Ok(())
}
fn visit_f64x2_replace_lane(&mut self, lane: u8) -> Self::Output {
self.check_floats_enabled()?;
self.check_simd_lane_index(lane, 2)?;
self.pop_operand(Some(ValType::F64))?;
self.pop_operand(Some(ValType::V128))?;
self.push_operand(ValType::V128)?;
Ok(())
}
fn visit_f32x4_eq(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f32x4_ne(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f32x4_lt(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f32x4_gt(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f32x4_le(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f32x4_ge(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f64x2_eq(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f64x2_ne(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f64x2_lt(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f64x2_gt(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f64x2_le(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f64x2_ge(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f32x4_add(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f32x4_sub(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f32x4_mul(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f32x4_div(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f32x4_min(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f32x4_max(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f32x4_pmin(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f32x4_pmax(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f64x2_add(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f64x2_sub(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f64x2_mul(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f64x2_div(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f64x2_min(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f64x2_max(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f64x2_pmin(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_f64x2_pmax(&mut self) -> Self::Output {
self.check_v128_fbinary_op()
}
fn visit_i8x16_eq(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i8x16_ne(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i8x16_lt_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i8x16_lt_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i8x16_gt_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i8x16_gt_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i8x16_le_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i8x16_le_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i8x16_ge_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i8x16_ge_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_eq(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_ne(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_lt_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_lt_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_gt_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_gt_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_le_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_le_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_ge_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_ge_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i32x4_eq(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i32x4_ne(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i32x4_lt_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i32x4_lt_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i32x4_gt_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i32x4_gt_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i32x4_le_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i32x4_le_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i32x4_ge_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i32x4_ge_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i64x2_eq(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i64x2_ne(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i64x2_lt_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i64x2_gt_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i64x2_le_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i64x2_ge_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_v128_and(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_v128_andnot(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_v128_or(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_v128_xor(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i8x16_add(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i8x16_add_sat_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i8x16_add_sat_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i8x16_sub(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i8x16_sub_sat_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i8x16_sub_sat_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i8x16_min_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i8x16_min_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i8x16_max_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i8x16_max_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_add(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_add_sat_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_add_sat_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_sub(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_sub_sat_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_sub_sat_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_mul(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_min_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_min_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_max_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_max_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i32x4_add(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i32x4_sub(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i32x4_mul(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i32x4_min_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i32x4_min_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i32x4_max_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i32x4_max_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i32x4_dot_i16x8_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i64x2_add(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i64x2_sub(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i64x2_mul(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i8x16_avgr_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_avgr_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i8x16_narrow_i16x8_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i8x16_narrow_i16x8_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_narrow_i32x4_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_narrow_i32x4_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_extmul_low_i8x16_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_extmul_high_i8x16_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_extmul_low_i8x16_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_extmul_high_i8x16_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i32x4_extmul_low_i16x8_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i32x4_extmul_high_i16x8_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i32x4_extmul_low_i16x8_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i32x4_extmul_high_i16x8_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i64x2_extmul_low_i32x4_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i64x2_extmul_high_i32x4_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i64x2_extmul_low_i32x4_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i64x2_extmul_high_i32x4_u(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_q15mulr_sat_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_f32x4_ceil(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_f32x4_floor(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_f32x4_trunc(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_f32x4_nearest(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_f64x2_ceil(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_f64x2_floor(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_f64x2_trunc(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_f64x2_nearest(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_f32x4_abs(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_f32x4_neg(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_f32x4_sqrt(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_f64x2_abs(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_f64x2_neg(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_f64x2_sqrt(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_f32x4_demote_f64x2_zero(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_f64x2_promote_low_f32x4(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_f64x2_convert_low_i32x4_s(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_f64x2_convert_low_i32x4_u(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_i32x4_trunc_sat_f32x4_s(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_i32x4_trunc_sat_f32x4_u(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_i32x4_trunc_sat_f64x2_s_zero(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_i32x4_trunc_sat_f64x2_u_zero(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_f32x4_convert_i32x4_s(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_f32x4_convert_i32x4_u(&mut self) -> Self::Output {
self.check_v128_funary_op()
}
fn visit_v128_not(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i8x16_abs(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i8x16_neg(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i8x16_popcnt(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i16x8_abs(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i16x8_neg(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i32x4_abs(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i32x4_neg(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i64x2_abs(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i64x2_neg(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i16x8_extend_low_i8x16_s(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i16x8_extend_high_i8x16_s(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i16x8_extend_low_i8x16_u(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i16x8_extend_high_i8x16_u(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i32x4_extend_low_i16x8_s(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i32x4_extend_high_i16x8_s(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i32x4_extend_low_i16x8_u(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i32x4_extend_high_i16x8_u(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i64x2_extend_low_i32x4_s(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i64x2_extend_high_i32x4_s(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i64x2_extend_low_i32x4_u(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i64x2_extend_high_i32x4_u(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i16x8_extadd_pairwise_i8x16_s(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i16x8_extadd_pairwise_i8x16_u(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i32x4_extadd_pairwise_i16x8_s(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i32x4_extadd_pairwise_i16x8_u(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_v128_bitselect(&mut self) -> Self::Output {
self.pop_operand(Some(ValType::V128))?;
self.pop_operand(Some(ValType::V128))?;
self.pop_operand(Some(ValType::V128))?;
self.push_operand(ValType::V128)?;
Ok(())
}
fn visit_i8x16_relaxed_swizzle(&mut self) -> Self::Output {
self.pop_operand(Some(ValType::V128))?;
self.pop_operand(Some(ValType::V128))?;
self.push_operand(ValType::V128)?;
Ok(())
}
fn visit_i32x4_relaxed_trunc_f32x4_s(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i32x4_relaxed_trunc_f32x4_u(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i32x4_relaxed_trunc_f64x2_s_zero(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_i32x4_relaxed_trunc_f64x2_u_zero(&mut self) -> Self::Output {
self.check_v128_unary_op()
}
fn visit_f32x4_relaxed_madd(&mut self) -> Self::Output {
self.check_v128_ternary_op()
}
fn visit_f32x4_relaxed_nmadd(&mut self) -> Self::Output {
self.check_v128_ternary_op()
}
fn visit_f64x2_relaxed_madd(&mut self) -> Self::Output {
self.check_v128_ternary_op()
}
fn visit_f64x2_relaxed_nmadd(&mut self) -> Self::Output {
self.check_v128_ternary_op()
}
fn visit_i8x16_relaxed_laneselect(&mut self) -> Self::Output {
self.check_v128_ternary_op()
}
fn visit_i16x8_relaxed_laneselect(&mut self) -> Self::Output {
self.check_v128_ternary_op()
}
fn visit_i32x4_relaxed_laneselect(&mut self) -> Self::Output {
self.check_v128_ternary_op()
}
fn visit_i64x2_relaxed_laneselect(&mut self) -> Self::Output {
self.check_v128_ternary_op()
}
fn visit_f32x4_relaxed_min(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_f32x4_relaxed_max(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_f64x2_relaxed_min(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_f64x2_relaxed_max(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_relaxed_q15mulr_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i16x8_relaxed_dot_i8x16_i7x16_s(&mut self) -> Self::Output {
self.check_v128_binary_op()
}
fn visit_i32x4_relaxed_dot_i8x16_i7x16_add_s(&mut self) -> Self::Output {
self.check_v128_ternary_op()
}
fn visit_v128_any_true(&mut self) -> Self::Output {
self.check_v128_bitmask_op()
}
fn visit_i8x16_all_true(&mut self) -> Self::Output {
self.check_v128_bitmask_op()
}
fn visit_i8x16_bitmask(&mut self) -> Self::Output {
self.check_v128_bitmask_op()
}
fn visit_i16x8_all_true(&mut self) -> Self::Output {
self.check_v128_bitmask_op()
}
fn visit_i16x8_bitmask(&mut self) -> Self::Output {
self.check_v128_bitmask_op()
}
fn visit_i32x4_all_true(&mut self) -> Self::Output {
self.check_v128_bitmask_op()
}
fn visit_i32x4_bitmask(&mut self) -> Self::Output {
self.check_v128_bitmask_op()
}
fn visit_i64x2_all_true(&mut self) -> Self::Output {
self.check_v128_bitmask_op()
}
fn visit_i64x2_bitmask(&mut self) -> Self::Output {
self.check_v128_bitmask_op()
}
fn visit_i8x16_shl(&mut self) -> Self::Output {
self.check_v128_shift_op()
}
fn visit_i8x16_shr_s(&mut self) -> Self::Output {
self.check_v128_shift_op()
}
fn visit_i8x16_shr_u(&mut self) -> Self::Output {
self.check_v128_shift_op()
}
fn visit_i16x8_shl(&mut self) -> Self::Output {
self.check_v128_shift_op()
}
fn visit_i16x8_shr_s(&mut self) -> Self::Output {
self.check_v128_shift_op()
}
fn visit_i16x8_shr_u(&mut self) -> Self::Output {
self.check_v128_shift_op()
}
fn visit_i32x4_shl(&mut self) -> Self::Output {
self.check_v128_shift_op()
}
fn visit_i32x4_shr_s(&mut self) -> Self::Output {
self.check_v128_shift_op()
}
fn visit_i32x4_shr_u(&mut self) -> Self::Output {
self.check_v128_shift_op()
}
fn visit_i64x2_shl(&mut self) -> Self::Output {
self.check_v128_shift_op()
}
fn visit_i64x2_shr_s(&mut self) -> Self::Output {
self.check_v128_shift_op()
}
fn visit_i64x2_shr_u(&mut self) -> Self::Output {
self.check_v128_shift_op()
}
fn visit_i8x16_swizzle(&mut self) -> Self::Output {
self.pop_operand(Some(ValType::V128))?;
self.pop_operand(Some(ValType::V128))?;
self.push_operand(ValType::V128)?;
Ok(())
}
fn visit_i8x16_shuffle(&mut self, lanes: [u8; 16]) -> Self::Output {
self.pop_operand(Some(ValType::V128))?;
self.pop_operand(Some(ValType::V128))?;
for i in lanes {
self.check_simd_lane_index(i, 32)?;
}
self.push_operand(ValType::V128)?;
Ok(())
}
fn visit_v128_load8_splat(&mut self, memarg: MemArg) -> Self::Output {
let ty = self.check_memarg(memarg)?;
self.pop_operand(Some(ty))?;
self.push_operand(ValType::V128)?;
Ok(())
}
fn visit_v128_load16_splat(&mut self, memarg: MemArg) -> Self::Output {
let ty = self.check_memarg(memarg)?;
self.pop_operand(Some(ty))?;
self.push_operand(ValType::V128)?;
Ok(())
}
fn visit_v128_load32_splat(&mut self, memarg: MemArg) -> Self::Output {
let ty = self.check_memarg(memarg)?;
self.pop_operand(Some(ty))?;
self.push_operand(ValType::V128)?;
Ok(())
}
fn visit_v128_load32_zero(&mut self, memarg: MemArg) -> Self::Output {
self.visit_v128_load32_splat(memarg)
}
fn visit_v128_load64_splat(&mut self, memarg: MemArg) -> Self::Output {
self.check_v128_load_op(memarg)
}
fn visit_v128_load64_zero(&mut self, memarg: MemArg) -> Self::Output {
self.check_v128_load_op(memarg)
}
fn visit_v128_load8x8_s(&mut self, memarg: MemArg) -> Self::Output {
self.check_v128_load_op(memarg)
}
fn visit_v128_load8x8_u(&mut self, memarg: MemArg) -> Self::Output {
self.check_v128_load_op(memarg)
}
fn visit_v128_load16x4_s(&mut self, memarg: MemArg) -> Self::Output {
self.check_v128_load_op(memarg)
}
fn visit_v128_load16x4_u(&mut self, memarg: MemArg) -> Self::Output {
self.check_v128_load_op(memarg)
}
fn visit_v128_load32x2_s(&mut self, memarg: MemArg) -> Self::Output {
self.check_v128_load_op(memarg)
}
fn visit_v128_load32x2_u(&mut self, memarg: MemArg) -> Self::Output {
self.check_v128_load_op(memarg)
}
fn visit_v128_load8_lane(&mut self, memarg: MemArg, lane: u8) -> Self::Output {
let idx = self.check_memarg(memarg)?;
self.check_simd_lane_index(lane, 16)?;
self.pop_operand(Some(ValType::V128))?;
self.pop_operand(Some(idx))?;
self.push_operand(ValType::V128)?;
Ok(())
}
fn visit_v128_load16_lane(&mut self, memarg: MemArg, lane: u8) -> Self::Output {
let idx = self.check_memarg(memarg)?;
self.check_simd_lane_index(lane, 8)?;
self.pop_operand(Some(ValType::V128))?;
self.pop_operand(Some(idx))?;
self.push_operand(ValType::V128)?;
Ok(())
}
fn visit_v128_load32_lane(&mut self, memarg: MemArg, lane: u8) -> Self::Output {
let idx = self.check_memarg(memarg)?;
self.check_simd_lane_index(lane, 4)?;
self.pop_operand(Some(ValType::V128))?;
self.pop_operand(Some(idx))?;
self.push_operand(ValType::V128)?;
Ok(())
}
fn visit_v128_load64_lane(&mut self, memarg: MemArg, lane: u8) -> Self::Output {
let idx = self.check_memarg(memarg)?;
self.check_simd_lane_index(lane, 2)?;
self.pop_operand(Some(ValType::V128))?;
self.pop_operand(Some(idx))?;
self.push_operand(ValType::V128)?;
Ok(())
}
fn visit_v128_store8_lane(&mut self, memarg: MemArg, lane: u8) -> Self::Output {
let idx = self.check_memarg(memarg)?;
self.check_simd_lane_index(lane, 16)?;
self.pop_operand(Some(ValType::V128))?;
self.pop_operand(Some(idx))?;
Ok(())
}
fn visit_v128_store16_lane(&mut self, memarg: MemArg, lane: u8) -> Self::Output {
let idx = self.check_memarg(memarg)?;
self.check_simd_lane_index(lane, 8)?;
self.pop_operand(Some(ValType::V128))?;
self.pop_operand(Some(idx))?;
Ok(())
}
fn visit_v128_store32_lane(&mut self, memarg: MemArg, lane: u8) -> Self::Output {
let idx = self.check_memarg(memarg)?;
self.check_simd_lane_index(lane, 4)?;
self.pop_operand(Some(ValType::V128))?;
self.pop_operand(Some(idx))?;
Ok(())
}
fn visit_v128_store64_lane(&mut self, memarg: MemArg, lane: u8) -> Self::Output {
let idx = self.check_memarg(memarg)?;
self.check_simd_lane_index(lane, 2)?;
self.pop_operand(Some(ValType::V128))?;
self.pop_operand(Some(idx))?;
Ok(())
}
}