trunc: Wasm text instruction
The trunc instruction, short for truncate, is used for getting the value of a floating point number without its fractional part.
trunc differs from floor when used on negative numbers — floor will round down in those cases while trunc will round up.
There are separate truncate instructions that truncate the fractional part of a floating point and convert it to an integer:
Try it
(module
(import "console" "log" (func $log (param f32)))
(func $main
f32.const -2.7 ;; load a number onto the stack
f32.trunc ;; discard everything after the decimal point
call $log ;; log the result
)
(start $main)
)
const url = "{%wasm-url%}";
await WebAssembly.instantiateStreaming(fetch(url), { console });
Syntax
value_type.trunc
value_type-
The type of value the instruction is being run on. The following types support
trunc:f32f64v128interpretations:f32x4f64x2
trunc-
The
truncinstruction. Must always be included after thevalue_typeand a period (.).
Type
[input] -> [output]
For a non-SIMD trunc, these will be basic numeric values such as 14.3 or 3.0.
For a SIMD trunc, these will be v128 value interpretations, for example i32x4 100.5 6.0 7.8 83.1. Each lane of the output pushed to the stack is equal to the input value's corresponding lane with the fractional part removed.
Binary encoding
| Instruction | Binary format | Example text => binary |
|---|---|---|
f32.trunc |
0x8f |
f32.trunc => 0x8f |
f64.trunc |
0x9d |
f64.trunc => 0x9d |
f32x4.trunc |
0xfd 105:u32 |
f32x4.trunc => 0xfd 0x69 |
f64x2.trunc |
0xfd 122:u32 |
f64x2.trunc => 0xfd 0x7a |
Examples
SIMD trunc example
In this example, we demonstrate running trunc on a SIMD value and outputting one of the lane values of the result.
JavaScript
In our script, we grab a reference to a <p> element that we will output our result to, then define an object for import into Wasm containing a single function that writes a value to the output <p>. We then compile and instantiate our Wasm module using the WebAssembly.instantiateStreaming() method, importing the object in the process.
const outputElem = document.querySelector("p");
const obj = {
output(val) {
outputElem.textContent += val;
},
};
WebAssembly.instantiateStreaming(fetch("{%wasm-url%}"), {
obj,
});
Wasm
In our Wasm module, we first import the JavaScript output() function, making sure to declare that it has an f64 parameter. We then declare a SIMD f64x2 value and use f64x2.trunc to remove the fractional part of each lane. Finally we extract the value stored in lane 1 of the output value using the extract_lane instruction, and output it to the DOM by calling the imported output() function.
(module
;; Import output function
(import "obj" "output" (func $output (param f64)))
(func $main
;; load a SIMD value onto the stack
v128.const f64x2 3.9 2000.1
f64x2.trunc ;; truncate each value
f64x2.extract_lane 1 ;; Extract a value from the result
call $output
)
(start $main)
)
Result
The output is as follows:
2000 is output because this is the result of removing the fractional part from lane 1 of the input value (2000.1).