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denoland-deno/tests/testdata/webgpu/computepass_shader.wgsl
Matt Mastracci f5e46c9bf2
chore: move cli/tests/ -> tests/ (#22369)
This looks like a massive PR, but it's only a move from cli/tests ->
tests, and updates of relative paths for files.

This is the first step towards aggregate all of the integration test
files under tests/, which will lead to a set of integration tests that
can run without the CLI binary being built.

While we could leave these tests under `cli`, it would require us to
keep a more complex directory structure for the various test runners. In
addition, we have a lot of complexity to ignore various test files in
the `cli` project itself (cargo publish exclusion rules, autotests =
false, etc).

And finally, the `tests/` folder will eventually house the `test_ffi`,
`test_napi` and other testing code, reducing the size of the root repo
directory.

For easier review, the extremely large and noisy "move" is in the first
commit (with no changes -- just a move), while the remainder of the
changes to actual files is in the second commit.
2024-02-10 20:22:13 +00:00

38 lines
1.1 KiB
WebGPU Shading Language

@group(0)
@binding(0)
var<storage, read_write> v_indices: array<u32>; // this is used as both input and output for convenience
// The Collatz Conjecture states that for any integer n:
// If n is even, n = n/2
// If n is odd, n = 3n+1
// And repeat this process for each new n, you will always eventually reach 1.
// Though the conjecture has not been proven, no counterexample has ever been found.
// This function returns how many times this recurrence needs to be applied to reach 1.
fn collatz_iterations(n_base: u32) -> u32{
var n: u32 = n_base;
var i: u32 = 0u;
loop {
if (n <= 1u) {
break;
}
if (n % 2u == 0u) {
n = n / 2u;
}
else {
// Overflow? (i.e. 3*n + 1 > 0xffffffffu?)
if (n >= 1431655765u) { // 0x55555555u
return 4294967295u; // 0xffffffffu
}
n = 3u * n + 1u;
}
i = i + 1u;
}
return i;
}
@compute
@workgroup_size(1)
fn main(@builtin(global_invocation_id) global_id: vec3<u32>) {
v_indices[global_id.x] = collatz_iterations(v_indices[global_id.x]);
}