wasmer/lib/runtime/tests/spectests/_common.rs

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2019-01-09 04:50:37 +00:00
use wasmer_runtime::types::{ElementType, FuncSig, Table, Type, Value};
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use wasmer_runtime::{Import, Imports, FuncRef};
use wasmer_runtime::table::TableBacking;
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use std::sync::Arc;
extern "C" fn print_i32(num: i32) {
println!("{}", num);
}
extern "C" fn print() {}
static GLOBAL_I32: i32 = 666;
pub fn spectest_importobject() -> Imports {
let mut import_object = Imports::new();
import_object.add(
"spectest",
"print_i32",
Import::Func(
unsafe { FuncRef::new(print_i32 as _) },
FuncSig {
params: vec![Type::I32],
returns: vec![],
},
),
);
import_object.add(
"spectest",
"print",
Import::Func(
unsafe { FuncRef::new(print as _) },
FuncSig {
params: vec![],
returns: vec![],
},
),
);
import_object.add(
"spectest".to_string(),
"global_i32".to_string(),
Import::Global(Value::I64(GLOBAL_I32 as _)),
);
let table = Table {
ty: ElementType::Anyfunc,
min: 0,
max: Some(30),
};
import_object.add(
"spectest".to_string(),
"table".to_string(),
Import::Table(Arc::new(TableBacking::new(&table)), table),
);
return import_object;
}
/// Bit pattern of an f32 value:
/// 1-bit sign + 8-bit mantissa + 23-bit exponent = 32 bits
///
/// Bit pattern of an f64 value:
/// 1-bit sign + 11-bit mantissa + 52-bit exponent = 64 bits
///
/// NOTE: On some old platforms (PA-RISC, some MIPS) quiet NaNs (qNaN) have
/// their mantissa MSB unset and set for signaling NaNs (sNaN).
///
/// Links:
/// * https://en.wikipedia.org/wiki/Floating-point_arithmetic
/// * https://github.com/WebAssembly/spec/issues/286
/// * https://en.wikipedia.org/wiki/NaN
///
pub trait NaNCheck {
fn is_quiet_nan(&self) -> bool;
fn is_canonical_nan(&self) -> bool;
}
impl NaNCheck for f32 {
/// The MSB of the mantissa must be set for a NaN to be a quiet NaN.
fn is_quiet_nan(&self) -> bool {
let bit_mask = 0b1 << 22; // Used to check if 23rd bit is set, which is MSB of the mantissa
self.is_nan() && (self.to_bits() & bit_mask) == bit_mask
}
/// For a NaN to be canonical, its mantissa bits must all be unset
fn is_canonical_nan(&self) -> bool {
let bit_mask: u32 = 0b1____0000_0000____011_1111_1111_1111_1111_1111;
let masked_value = self.to_bits() ^ bit_mask;
masked_value == 0xFFFF_FFFF || masked_value == 0x7FFF_FFFF
}
}
impl NaNCheck for f64 {
/// The MSB of the mantissa must be set for a NaN to be a quiet NaN.
fn is_quiet_nan(&self) -> bool {
let bit_mask = 0b1 << 51; // Used to check if 51st bit is set, which is MSB of the mantissa
self.is_nan() && (self.to_bits() & bit_mask) == bit_mask
}
/// For a NaN to be canonical, its mantissa bits must all be unset
fn is_canonical_nan(&self) -> bool {
let bit_mask: u64 =
0b1____000_0000_0000____0111_1111_1111_1111_1111_1111_1111_1111_1111_1111_1111_1111_1111;
let masked_value = self.to_bits() ^ bit_mask;
masked_value == 0x7FFF_FFFF_FFFF_FFFF || masked_value == 0xFFF_FFFF_FFFF_FFFF
}
}