mirror of
https://github.com/denoland/deno.git
synced 2024-12-20 22:34:46 -05:00
e5ae142fbe
This implements officially blessed and tested deno binaries for ARM64. Thanks to @LukeChannings for his tireless work in maintaining the deno-arm64 [1] repo, without which this project would have been far more complicated. For those of you requiring support for older GLIBC versions, that repo may still be required for the near future. Limitations: - This initial build is built on Ubuntu 22 using the stock GLIBC, which will limit the utility of these binaries in certain use-cases (eg: early versions of Ubuntu). We will attempt to support earlier versions of ARM64 GLIBC in a later revision. - Like the stock Linux x64 build, this is not a static build and requires GLIBC. Running on Alpine will require installation of GLIBC. Fixes #1846, #4862 [1] https://github.com/LukeChannings/deno-arm64
802 lines
27 KiB
JavaScript
802 lines
27 KiB
JavaScript
// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
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// deno-lint-ignore-file
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// Run using cargo test or `--v8-flags=--allow-natives-syntax`
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import {
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assertThrows,
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assert,
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assertNotEquals,
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assertInstanceOf,
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assertEquals,
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assertFalse,
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} from "../../test_util/std/assert/mod.ts";
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const targetDir = Deno.execPath().replace(/[^\/\\]+$/, "");
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const [libPrefix, libSuffix] = {
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darwin: ["lib", "dylib"],
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linux: ["lib", "so"],
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windows: ["", "dll"],
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}[Deno.build.os];
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const libPath = `${targetDir}/${libPrefix}test_ffi.${libSuffix}`;
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const resourcesPre = Deno[Deno.internal].core.resources();
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// dlopen shouldn't panic
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assertThrows(() => {
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Deno.dlopen("cli/src/main.rs", {});
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});
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assertThrows(
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() => {
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Deno.dlopen(libPath, {
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non_existent_symbol: {
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parameters: [],
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result: "void",
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},
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});
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},
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Error,
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"Failed to register symbol non_existent_symbol",
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);
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assertThrows(() => {
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Deno.dlopen(libPath, {
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print_something: {
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parameters: [],
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result: { struct: [] }
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},
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}),
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TypeError,
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"Struct must have at least one field"
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});
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assertThrows(() => {
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Deno.dlopen(libPath, {
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print_something: {
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parameters: [ { struct: [] } ],
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result: "void",
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},
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}),
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TypeError,
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"Struct must have at least one field"
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});
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const Empty = { struct: [] }
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assertThrows(() => {
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Deno.dlopen(libPath, {
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print_something: {
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parameters: [ { struct: [Empty] } ],
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result: "void",
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},
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}),
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TypeError,
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"Struct must have at least one field"
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});
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const Point = ["f64", "f64"];
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const Size = ["f64", "f64"];
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const Rect = ["f64", "f64", "f64", "f64"];
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const RectNested = [{ struct: Point }, { struct: Size }];
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const RectNestedCached = [{ struct: Size }, { struct: Size }];
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const Mixed = ["u8", "f32", { struct: Rect }, "usize", { struct: ["u32", "u32"] }];
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const dylib = Deno.dlopen(libPath, {
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"printSomething": {
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name: "print_something",
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parameters: [],
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result: "void",
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},
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"print_buffer": { parameters: ["buffer", "usize"], result: "void" },
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"print_pointer": { name: "print_buffer", parameters: ["pointer", "usize"], result: "void" },
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"print_buffer2": {
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parameters: ["buffer", "usize", "buffer", "usize"],
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result: "void",
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},
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"return_buffer": { parameters: [], result: "buffer" },
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"is_null_ptr": { parameters: ["pointer"], result: "bool" },
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"is_null_buf": { name: "is_null_ptr", parameters: ["buffer"], result: "bool" },
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"add_u32": { parameters: ["u32", "u32"], result: "u32" },
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"add_i32": { parameters: ["i32", "i32"], result: "i32" },
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"add_u64": { parameters: ["u64", "u64"], result: "u64" },
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"add_i64": { parameters: ["i64", "i64"], result: "i64" },
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"add_usize": { parameters: ["usize", "usize"], result: "usize" },
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"add_usize_fast": { parameters: ["usize", "usize"], result: "u32" },
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"add_isize": { parameters: ["isize", "isize"], result: "isize" },
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"add_f32": { parameters: ["f32", "f32"], result: "f32" },
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"add_f64": { parameters: ["f64", "f64"], result: "f64" },
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"and": { parameters: ["bool", "bool"], result: "bool" },
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"add_u32_nonblocking": {
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name: "add_u32",
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parameters: ["u32", "u32"],
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result: "u32",
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nonblocking: true,
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},
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"add_i32_nonblocking": {
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name: "add_i32",
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parameters: ["i32", "i32"],
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result: "i32",
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nonblocking: true,
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},
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"add_u64_nonblocking": {
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name: "add_u64",
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parameters: ["u64", "u64"],
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result: "u64",
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nonblocking: true,
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},
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"add_i64_nonblocking": {
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name: "add_i64",
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parameters: ["i64", "i64"],
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result: "i64",
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nonblocking: true,
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},
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"add_usize_nonblocking": {
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name: "add_usize",
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parameters: ["usize", "usize"],
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result: "usize",
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nonblocking: true,
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},
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"add_isize_nonblocking": {
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name: "add_isize",
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parameters: ["isize", "isize"],
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result: "isize",
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nonblocking: true,
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},
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"add_f32_nonblocking": {
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name: "add_f32",
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parameters: ["f32", "f32"],
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result: "f32",
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nonblocking: true,
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},
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"add_f64_nonblocking": {
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name: "add_f64",
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parameters: ["f64", "f64"],
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result: "f64",
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nonblocking: true,
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},
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"fill_buffer": { parameters: ["u8", "buffer", "usize"], result: "void" },
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"sleep_nonblocking": {
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name: "sleep_blocking",
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parameters: ["u64"],
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result: "void",
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nonblocking: true,
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},
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"sleep_blocking": { parameters: ["u64"], result: "void" },
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"nonblocking_buffer": {
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parameters: ["buffer", "usize"],
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result: "void",
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nonblocking: true,
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},
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"get_add_u32_ptr": {
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parameters: [],
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result: "pointer",
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},
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"get_sleep_blocking_ptr": {
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parameters: [],
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result: "pointer",
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},
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// Callback function
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call_fn_ptr: {
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parameters: ["function"],
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result: "void",
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},
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call_fn_ptr_thread_safe: {
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name: "call_fn_ptr",
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parameters: ["function"],
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result: "void",
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nonblocking: true,
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},
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call_fn_ptr_many_parameters: {
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parameters: ["function"],
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result: "void",
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},
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call_fn_ptr_return_u8: {
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parameters: ["function"],
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result: "void",
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},
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call_fn_ptr_return_u8_thread_safe: {
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name: "call_fn_ptr_return_u8",
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parameters: ["function"],
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result: "void",
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},
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call_fn_ptr_return_buffer: {
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parameters: ["function"],
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result: "void",
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},
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store_function: {
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parameters: ["function"],
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result: "void",
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},
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store_function_2: {
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parameters: ["function"],
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result: "void",
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},
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call_stored_function: {
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parameters: [],
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result: "void",
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callback: true,
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},
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call_stored_function_2: {
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parameters: ["u8"],
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result: "void",
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callback: true,
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},
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log_many_parameters: {
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parameters: ["u8", "u16", "u32", "u64", "f64", "f32", "i64", "i32", "i16", "i8", "isize", "usize", "f64", "f32", "f64", "f32", "f64", "f32", "f64"],
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result: "void",
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},
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cast_u8_u32: {
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parameters: ["u8"],
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result: "u32",
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},
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cast_u32_u8: {
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parameters: ["u32"],
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result: "u8",
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},
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add_many_u16: {
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parameters: ["u16", "u16", "u16", "u16", "u16", "u16", "u16", "u16", "u16", "u16", "u16", "u16", "u16"],
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result: "u16",
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},
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// Statics
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"static_u32": {
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type: "u32",
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},
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"static_i64": {
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type: "i64",
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},
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"static_ptr": {
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type: "pointer",
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},
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/**
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* Invalid UTF-8 characters, buffer of length 14
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*/
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"static_char": {
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type: "pointer",
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optional: true,
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},
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"hash": { parameters: ["buffer", "u32"], result: "u32" },
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make_rect: {
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parameters: ["f64", "f64", "f64", "f64"],
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result: { struct: Rect },
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},
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make_rect_async: {
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name: "make_rect",
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nonblocking: true,
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parameters: ["f64", "f64", "f64", "f64"],
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result: { struct: RectNested },
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},
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print_rect: {
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parameters: [{ struct: RectNestedCached }],
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result: "void",
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},
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print_rect_async: {
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name: "print_rect",
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nonblocking: true,
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parameters: [{ struct: Rect }],
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result: "void",
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},
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create_mixed: {
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parameters: ["u8", "f32", { struct: Rect }, "pointer", "buffer"],
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result: { struct: Mixed }
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},
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print_mixed: {
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parameters: [{ struct: Mixed }],
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result: "void",
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optional: true,
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},
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non_existent_symbol: {
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parameters: [],
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result: "void",
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optional: true,
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},
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non_existent_nonblocking_symbol: {
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parameters: [],
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result: "void",
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nonblocking: true,
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optional: true,
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},
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non_existent_static: {
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type: "u32",
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optional: true,
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},
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});
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const { symbols } = dylib;
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symbols.printSomething();
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const buffer = new Uint8Array([1, 2, 3, 4, 5, 6, 7, 8]);
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const buffer2 = new Uint8Array([9, 10]);
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dylib.symbols.print_buffer(buffer, buffer.length);
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// Test subarrays
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const subarray = buffer.subarray(3);
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dylib.symbols.print_buffer(subarray, subarray.length - 2);
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dylib.symbols.print_buffer2(buffer, buffer.length, buffer2, buffer2.length);
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const { return_buffer } = symbols;
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function returnBuffer() { return return_buffer(); };
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%PrepareFunctionForOptimization(returnBuffer);
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returnBuffer();
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%OptimizeFunctionOnNextCall(returnBuffer);
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const ptr0 = returnBuffer();
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assertIsOptimized(returnBuffer);
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dylib.symbols.print_pointer(ptr0, 8);
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const ptrView = new Deno.UnsafePointerView(ptr0);
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const into = new Uint8Array(6);
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const into2 = new Uint8Array(3);
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const into2ptr = Deno.UnsafePointer.of(into2);
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const into2ptrView = new Deno.UnsafePointerView(into2ptr);
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const into3 = new Uint8Array(3);
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const into4 = new Uint16Array(3);
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ptrView.copyInto(into4);
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ptrView.copyInto(into);
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console.log([...into]);
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ptrView.copyInto(into2, 3);
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console.log([...into2]);
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into2ptrView.copyInto(into3);
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console.log([...into3]);
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const string = new Uint8Array([
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...new TextEncoder().encode("Hello from pointer!"),
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0,
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]);
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const stringPtr = Deno.UnsafePointer.of(string);
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const stringPtrview = new Deno.UnsafePointerView(stringPtr);
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console.log(stringPtrview.getCString());
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console.log(stringPtrview.getCString(11));
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console.log("false", dylib.symbols.is_null_ptr(ptr0));
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console.log("true", dylib.symbols.is_null_ptr(null));
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console.log("false", dylib.symbols.is_null_ptr(Deno.UnsafePointer.of(into)));
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const emptyBuffer = new Uint8Array(0);
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console.log("true", dylib.symbols.is_null_ptr(Deno.UnsafePointer.of(emptyBuffer)));
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const emptySlice = into.subarray(6);
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console.log("false", dylib.symbols.is_null_ptr(Deno.UnsafePointer.of(emptySlice)));
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const { is_null_buf } = symbols;
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function isNullBuffer(buffer) { return is_null_buf(buffer); };
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function isNullBufferDeopt(buffer) { return is_null_buf(buffer); };
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%PrepareFunctionForOptimization(isNullBuffer);
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isNullBuffer(emptyBuffer);
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%NeverOptimizeFunction(isNullBufferDeopt);
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%OptimizeFunctionOnNextCall(isNullBuffer);
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isNullBuffer(emptyBuffer);
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assertIsOptimized(isNullBuffer);
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// ==== ZERO LENGTH BUFFER TESTS ====
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assertEquals(isNullBuffer(emptyBuffer), true, "isNullBuffer(emptyBuffer) !== true");
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assertEquals(isNullBufferDeopt(emptyBuffer), true, "isNullBufferDeopt(emptyBuffer) !== true");
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assertEquals(isNullBuffer(emptySlice), false, "isNullBuffer(emptySlice) !== false");
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assertEquals(isNullBufferDeopt(emptySlice), false, "isNullBufferDeopt(emptySlice) !== false");
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assertEquals(isNullBufferDeopt(new Uint8Array()), true, "isNullBufferDeopt(new Uint8Array()) !== true");
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// ==== V8 ZERO LENGTH BUFFER ANOMALIES ====
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// V8 bug: inline Uint8Array creation to fast call sees non-null pointer
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// https://bugs.chromium.org/p/v8/issues/detail?id=13489
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if (Deno.build.os != "linux" || Deno.build.arch != "aarch64") {
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assertEquals(isNullBuffer(new Uint8Array()), false, "isNullBuffer(new Uint8Array()) !== false");
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}
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// Externally backed ArrayBuffer has a non-null data pointer, even though its length is zero.
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const externalZeroBuffer = new Uint8Array(Deno.UnsafePointerView.getArrayBuffer(ptr0, 0));
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// V8 Fast calls used to get null pointers for all zero-sized buffers no matter their external backing.
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assertEquals(isNullBuffer(externalZeroBuffer), false, "isNullBuffer(externalZeroBuffer) !== false");
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// V8's `Local<ArrayBuffer>->Data()` method also used to similarly return null pointers for all
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// zero-sized buffers which would not match what `Local<ArrayBuffer>->GetBackingStore()->Data()`
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// API returned. These issues have been fixed in https://bugs.chromium.org/p/v8/issues/detail?id=13488.
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assertEquals(isNullBufferDeopt(externalZeroBuffer), false, "isNullBufferDeopt(externalZeroBuffer) !== false");
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// The same pointer with a non-zero byte length for the buffer will return non-null pointers in
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// both Fast call and V8 API calls.
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const externalOneBuffer = new Uint8Array(Deno.UnsafePointerView.getArrayBuffer(ptr0, 1));
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assertEquals(isNullBuffer(externalOneBuffer), false, "isNullBuffer(externalOneBuffer) !== false");
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assertEquals(isNullBufferDeopt(externalOneBuffer), false, "isNullBufferDeopt(externalOneBuffer) !== false");
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// UnsafePointer.of uses an exact-pointer fallback for zero-length buffers and slices to ensure that it always gets
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// the underlying pointer right.
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assertNotEquals(Deno.UnsafePointer.of(externalZeroBuffer), null, "Deno.UnsafePointer.of(externalZeroBuffer) === null");
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assertNotEquals(Deno.UnsafePointer.of(externalOneBuffer), null, "Deno.UnsafePointer.of(externalOneBuffer) === null");
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const addU32Ptr = dylib.symbols.get_add_u32_ptr();
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const addU32 = new Deno.UnsafeFnPointer(addU32Ptr, {
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parameters: ["u32", "u32"],
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result: "u32",
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});
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console.log(addU32.call(123, 456));
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const sleepBlockingPtr = dylib.symbols.get_sleep_blocking_ptr();
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const sleepNonBlocking = new Deno.UnsafeFnPointer(sleepBlockingPtr, {
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nonblocking: true,
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parameters: ["u64"],
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result: "void",
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});
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const before = performance.now();
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await sleepNonBlocking.call(100);
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console.log(performance.now() - before >= 100);
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const { add_u32, add_usize_fast } = symbols;
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function addU32Fast(a, b) {
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return add_u32(a, b);
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};
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testOptimized(addU32Fast, () => addU32Fast(123, 456));
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function addU64Fast(a, b) { return add_usize_fast(a, b); };
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testOptimized(addU64Fast, () => addU64Fast(2, 3));
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console.log(dylib.symbols.add_i32(123, 456));
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console.log(dylib.symbols.add_u64(0xffffffffn, 0xffffffffn));
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console.log(dylib.symbols.add_i64(-0xffffffffn, -0xffffffffn));
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console.log(dylib.symbols.add_usize(0xffffffffn, 0xffffffffn));
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console.log(dylib.symbols.add_isize(-0xffffffffn, -0xffffffffn));
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console.log(dylib.symbols.add_u64(Number.MAX_SAFE_INTEGER, 1));
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console.log(dylib.symbols.add_i64(Number.MAX_SAFE_INTEGER, 1));
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console.log(dylib.symbols.add_i64(Number.MIN_SAFE_INTEGER, -1));
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console.log(dylib.symbols.add_usize(Number.MAX_SAFE_INTEGER, 1));
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console.log(dylib.symbols.add_isize(Number.MAX_SAFE_INTEGER, 1));
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console.log(dylib.symbols.add_isize(Number.MIN_SAFE_INTEGER, -1));
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console.log(dylib.symbols.add_f32(123.123, 456.789));
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console.log(dylib.symbols.add_f64(123.123, 456.789));
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console.log(dylib.symbols.and(true, true));
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console.log(dylib.symbols.and(true, false));
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function addF32Fast(a, b) {
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return dylib.symbols.add_f32(a, b);
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};
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testOptimized(addF32Fast, () => addF32Fast(123.123, 456.789));
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function addF64Fast(a, b) {
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return dylib.symbols.add_f64(a, b);
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};
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testOptimized(addF64Fast, () => addF64Fast(123.123, 456.789));
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// Test adders as nonblocking calls
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console.log(await dylib.symbols.add_i32_nonblocking(123, 456));
|
|
console.log(await dylib.symbols.add_u64_nonblocking(0xffffffffn, 0xffffffffn));
|
|
console.log(
|
|
await dylib.symbols.add_i64_nonblocking(-0xffffffffn, -0xffffffffn),
|
|
);
|
|
console.log(
|
|
await dylib.symbols.add_usize_nonblocking(0xffffffffn, 0xffffffffn),
|
|
);
|
|
console.log(
|
|
await dylib.symbols.add_isize_nonblocking(-0xffffffffn, -0xffffffffn),
|
|
);
|
|
console.log(await dylib.symbols.add_u64_nonblocking(Number.MAX_SAFE_INTEGER, 1));
|
|
console.log(await dylib.symbols.add_i64_nonblocking(Number.MAX_SAFE_INTEGER, 1));
|
|
console.log(await dylib.symbols.add_i64_nonblocking(Number.MIN_SAFE_INTEGER, -1));
|
|
console.log(await dylib.symbols.add_usize_nonblocking(Number.MAX_SAFE_INTEGER, 1));
|
|
console.log(await dylib.symbols.add_isize_nonblocking(Number.MAX_SAFE_INTEGER, 1));
|
|
console.log(await dylib.symbols.add_isize_nonblocking(Number.MIN_SAFE_INTEGER, -1));
|
|
console.log(await dylib.symbols.add_f32_nonblocking(123.123, 456.789));
|
|
console.log(await dylib.symbols.add_f64_nonblocking(123.123, 456.789));
|
|
|
|
// test mutating sync calls
|
|
|
|
function test_fill_buffer(fillValue, arr) {
|
|
let buf = new Uint8Array(arr);
|
|
dylib.symbols.fill_buffer(fillValue, buf, buf.length);
|
|
for (let i = 0; i < buf.length; i++) {
|
|
if (buf[i] !== fillValue) {
|
|
throw new Error(`Found '${buf[i]}' in buffer, expected '${fillValue}'.`);
|
|
}
|
|
}
|
|
}
|
|
|
|
test_fill_buffer(0, [2, 3, 4]);
|
|
test_fill_buffer(5, [2, 7, 3, 2, 1]);
|
|
|
|
const deferred = Promise.withResolvers();
|
|
const buffer3 = new Uint8Array([1, 2, 3, 4, 5, 6, 7, 8]);
|
|
dylib.symbols.nonblocking_buffer(buffer3, buffer3.length).then(() => {
|
|
deferred.resolve();
|
|
});
|
|
await deferred.promise;
|
|
|
|
let start = performance.now();
|
|
dylib.symbols.sleep_blocking(100);
|
|
assert(performance.now() - start >= 100);
|
|
|
|
start = performance.now();
|
|
const promise_2 = dylib.symbols.sleep_nonblocking(100).then(() => {
|
|
console.log("After");
|
|
assert(performance.now() - start >= 100);
|
|
});
|
|
console.log("Before");
|
|
assert(performance.now() - start < 100);
|
|
|
|
// Await to make sure `sleep_nonblocking` calls and logs before we proceed
|
|
await promise_2;
|
|
|
|
// Test calls with callback parameters
|
|
const logCallback = new Deno.UnsafeCallback(
|
|
{ parameters: [], result: "void" },
|
|
() => console.log("logCallback"),
|
|
);
|
|
const logManyParametersCallback = new Deno.UnsafeCallback({
|
|
parameters: [
|
|
"u8",
|
|
"i8",
|
|
"u16",
|
|
"i16",
|
|
"u32",
|
|
"i32",
|
|
"u64",
|
|
"i64",
|
|
"f32",
|
|
"f64",
|
|
"pointer",
|
|
],
|
|
result: "void",
|
|
}, (u8, i8, u16, i16, u32, i32, u64, i64, f32, f64, pointer) => {
|
|
const view = new Deno.UnsafePointerView(pointer);
|
|
const copy_buffer = new Uint8Array(8);
|
|
view.copyInto(copy_buffer);
|
|
console.log(u8, i8, u16, i16, u32, i32, u64, i64, f32, f64, ...copy_buffer);
|
|
});
|
|
const returnU8Callback = new Deno.UnsafeCallback(
|
|
{ parameters: [], result: "u8" },
|
|
() => 8,
|
|
);
|
|
const returnBufferCallback = new Deno.UnsafeCallback({
|
|
parameters: [],
|
|
result: "buffer",
|
|
}, () => {
|
|
return buffer;
|
|
});
|
|
const add10Callback = new Deno.UnsafeCallback({
|
|
parameters: ["u8"],
|
|
result: "u8",
|
|
}, (value) => value + 10);
|
|
const throwCallback = new Deno.UnsafeCallback({
|
|
parameters: [],
|
|
result: "void",
|
|
}, () => {
|
|
throw new TypeError("hi");
|
|
});
|
|
|
|
assertThrows(
|
|
() => {
|
|
dylib.symbols.call_fn_ptr(throwCallback.pointer);
|
|
},
|
|
TypeError,
|
|
"hi",
|
|
);
|
|
|
|
const { call_stored_function } = dylib.symbols;
|
|
|
|
dylib.symbols.call_fn_ptr(logCallback.pointer);
|
|
dylib.symbols.call_fn_ptr_many_parameters(logManyParametersCallback.pointer);
|
|
dylib.symbols.call_fn_ptr_return_u8(returnU8Callback.pointer);
|
|
dylib.symbols.call_fn_ptr_return_buffer(returnBufferCallback.pointer);
|
|
dylib.symbols.store_function(logCallback.pointer);
|
|
call_stored_function();
|
|
dylib.symbols.store_function_2(add10Callback.pointer);
|
|
dylib.symbols.call_stored_function_2(20);
|
|
|
|
function logManyParametersFast(a, b, c, d, e, f, g, h, i, j, k, l, m, n, o, p, q, r, s) {
|
|
return symbols.log_many_parameters(a, b, c, d, e, f, g, h, i, j, k, l, m, n, o, p, q, r, s);
|
|
};
|
|
testOptimized(
|
|
logManyParametersFast,
|
|
() => logManyParametersFast(
|
|
255, 65535, 4294967295, 4294967296, 123.456, 789.876, -1, -2, -3, -4, -1000, 1000,
|
|
12345.678910, 12345.678910, 12345.678910, 12345.678910, 12345.678910, 12345.678910, 12345.678910
|
|
)
|
|
);
|
|
|
|
// Some ABIs rely on the convention to zero/sign-extend arguments by the caller to optimize the callee function.
|
|
// If the trampoline did not zero/sign-extend arguments, this would return 256 instead of the expected 0 (in optimized builds)
|
|
function castU8U32Fast(x) { return symbols.cast_u8_u32(x); };
|
|
testOptimized(castU8U32Fast, () => castU8U32Fast(256));
|
|
|
|
// Some ABIs rely on the convention to expect garbage in the bits beyond the size of the return value to optimize the callee function.
|
|
// If the trampoline did not zero/sign-extend the return value, this would return 256 instead of the expected 0 (in optimized builds)
|
|
function castU32U8Fast(x) { return symbols.cast_u32_u8(x); };
|
|
testOptimized(castU32U8Fast, () => castU32U8Fast(256));
|
|
|
|
// Generally the trampoline tail-calls into the FFI function, but in certain cases (e.g. when returning 8 or 16 bit integers)
|
|
// the tail call is not possible and a new stack frame must be created. We need enough parameters to have some on the stack
|
|
function addManyU16Fast(a, b, c, d, e, f, g, h, i, j, k, l, m) {
|
|
return symbols.add_many_u16(a, b, c, d, e, f, g, h, i, j, k, l, m);
|
|
};
|
|
// N.B. V8 does not currently follow Aarch64 Apple's calling convention.
|
|
// The current implementation of the JIT trampoline follows the V8 incorrect calling convention. This test covers the use-case
|
|
// and is expected to fail once Deno uses a V8 version with the bug fixed.
|
|
// The V8 bug is being tracked in https://bugs.chromium.org/p/v8/issues/detail?id=13171
|
|
testOptimized(addManyU16Fast, () => addManyU16Fast(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12));
|
|
|
|
|
|
const nestedCallback = new Deno.UnsafeCallback(
|
|
{ parameters: [], result: "void" },
|
|
() => {
|
|
dylib.symbols.call_stored_function_2(10);
|
|
},
|
|
);
|
|
dylib.symbols.store_function(nestedCallback.pointer);
|
|
|
|
dylib.symbols.store_function(null);
|
|
dylib.symbols.store_function_2(null);
|
|
|
|
let counter = 0;
|
|
const addToFooCallback = new Deno.UnsafeCallback({
|
|
parameters: [],
|
|
result: "void",
|
|
}, () => counter++);
|
|
|
|
// Test thread safe callbacks
|
|
assertEquals(counter, 0);
|
|
addToFooCallback.ref();
|
|
await dylib.symbols.call_fn_ptr_thread_safe(addToFooCallback.pointer);
|
|
addToFooCallback.unref();
|
|
logCallback.ref();
|
|
await dylib.symbols.call_fn_ptr_thread_safe(logCallback.pointer);
|
|
logCallback.unref();
|
|
assertEquals(counter, 1);
|
|
returnU8Callback.ref();
|
|
await dylib.symbols.call_fn_ptr_return_u8_thread_safe(returnU8Callback.pointer);
|
|
// Purposefully do not unref returnU8Callback: Instead use it to test close() unrefing.
|
|
|
|
// Test statics
|
|
assertEquals(dylib.symbols.static_u32, 42);
|
|
assertEquals(dylib.symbols.static_i64, -1242464576485);
|
|
assert(
|
|
typeof dylib.symbols.static_ptr === "object"
|
|
);
|
|
assertEquals(
|
|
Object.keys(dylib.symbols.static_ptr).length, 0
|
|
);
|
|
const view = new Deno.UnsafePointerView(dylib.symbols.static_ptr);
|
|
assertEquals(view.getUint32(), 42);
|
|
|
|
// Test struct returning
|
|
const rect_sync = dylib.symbols.make_rect(10, 20, 100, 200);
|
|
assertInstanceOf(rect_sync, Uint8Array);
|
|
assertEquals(rect_sync.length, 4 * 8);
|
|
assertEquals(Array.from(new Float64Array(rect_sync.buffer)), [10, 20, 100, 200]);
|
|
// Test struct passing
|
|
dylib.symbols.print_rect(rect_sync);
|
|
// Test struct passing asynchronously
|
|
await dylib.symbols.print_rect_async(rect_sync);
|
|
dylib.symbols.print_rect(new Float64Array([20, 20, 100, 200]));
|
|
// Test struct returning asynchronously
|
|
const rect_async = await dylib.symbols.make_rect_async(10, 20, 100, 200);
|
|
assertInstanceOf(rect_async, Uint8Array);
|
|
assertEquals(rect_async.length, 4 * 8);
|
|
assertEquals(Array.from(new Float64Array(rect_async.buffer)), [10, 20, 100, 200]);
|
|
|
|
// Test complex, mixed struct returning and passing
|
|
const mixedStruct = dylib.symbols.create_mixed(3, 12.515000343322754, rect_async, Deno.UnsafePointer.create(12456789), new Uint32Array([8, 32]));
|
|
assertEquals(mixedStruct.length, 56);
|
|
assertEquals(Array.from(mixedStruct.subarray(0, 4)), [3, 0, 0, 0]);
|
|
assertEquals(new Float32Array(mixedStruct.buffer, 4, 1)[0], 12.515000343322754);
|
|
assertEquals(new Float64Array(mixedStruct.buffer, 8, 4), new Float64Array(rect_async.buffer));
|
|
assertEquals(new BigUint64Array(mixedStruct.buffer, 40, 1)[0], 12456789n);
|
|
assertEquals(new Uint32Array(mixedStruct.buffer, 48, 2), new Uint32Array([8, 32]));
|
|
dylib.symbols.print_mixed(mixedStruct);
|
|
|
|
const cb = new Deno.UnsafeCallback({
|
|
parameters: [{ struct: Rect }],
|
|
result: { struct: Rect },
|
|
}, (innerRect) => {
|
|
innerRect = new Float64Array(innerRect.buffer);
|
|
return new Float64Array([innerRect[0] + 10, innerRect[1] + 10, innerRect[2] + 10, innerRect[3] + 10]);
|
|
});
|
|
|
|
const cbFfi = new Deno.UnsafeFnPointer(cb.pointer, cb.definition);
|
|
const cbResult = new Float64Array(cbFfi.call(rect_async).buffer);
|
|
assertEquals(Array.from(cbResult), [20, 30, 110, 210]);
|
|
|
|
cb.close();
|
|
|
|
const arrayBuffer = view.getArrayBuffer(4);
|
|
const uint32Array = new Uint32Array(arrayBuffer);
|
|
assertEquals(arrayBuffer.byteLength, 4);
|
|
assertEquals(uint32Array.length, 1);
|
|
assertEquals(uint32Array[0], 42);
|
|
uint32Array[0] = 55; // MUTATES!
|
|
assertEquals(uint32Array[0], 55);
|
|
assertEquals(view.getUint32(), 55);
|
|
|
|
|
|
{
|
|
// Test UnsafePointer APIs
|
|
assertEquals(Deno.UnsafePointer.create(0), null);
|
|
const createdPointer = Deno.UnsafePointer.create(1);
|
|
assertNotEquals(createdPointer, null);
|
|
assertEquals(typeof createdPointer, "object");
|
|
assertEquals(Deno.UnsafePointer.value(null), 0);
|
|
assertEquals(Deno.UnsafePointer.value(createdPointer), 1);
|
|
assert(Deno.UnsafePointer.equals(null, null));
|
|
assertFalse(Deno.UnsafePointer.equals(null, createdPointer));
|
|
assertFalse(Deno.UnsafePointer.equals(Deno.UnsafePointer.create(2), createdPointer));
|
|
// Do not allow offsetting from null, `create` function should be used instead.
|
|
assertThrows(() => Deno.UnsafePointer.offset(null, 5));
|
|
const offsetPointer = Deno.UnsafePointer.offset(createdPointer, 5);
|
|
assertEquals(Deno.UnsafePointer.value(offsetPointer), 6);
|
|
const zeroPointer = Deno.UnsafePointer.offset(offsetPointer, -6);
|
|
assertEquals(Deno.UnsafePointer.value(zeroPointer), 0);
|
|
assertEquals(zeroPointer, null);
|
|
}
|
|
|
|
// Test non-UTF-8 characters
|
|
|
|
const charView = new Deno.UnsafePointerView(dylib.symbols.static_char);
|
|
|
|
const charArrayBuffer = charView.getArrayBuffer(14);
|
|
const uint8Array = new Uint8Array(charArrayBuffer);
|
|
assertEquals([...uint8Array], [
|
|
0xC0, 0xC1, 0xF5, 0xF6, 0xF7, 0xF8, 0xF9, 0xFA, 0xFB, 0xFC, 0xFD, 0xFE, 0xFF,
|
|
0x00
|
|
]);
|
|
|
|
// Check that `getCString` works equally to `TextDecoder`
|
|
assertEquals(charView.getCString(), new TextDecoder().decode(uint8Array.subarray(0, uint8Array.length - 1)));
|
|
|
|
// Check a selection of various invalid UTF-8 sequences in C strings and verify
|
|
// that the `getCString` API does not cause unexpected behaviour.
|
|
for (const charBuffer of [
|
|
Uint8Array.from([0xA0, 0xA1, 0x00]),
|
|
Uint8Array.from([0xE2, 0x28, 0xA1, 0x00]),
|
|
Uint8Array.from([0xE2, 0x82, 0x28, 0x00]),
|
|
Uint8Array.from([0xF0, 0x28, 0x8C, 0xBC, 0x00]),
|
|
Uint8Array.from([0xF0, 0x90, 0x28, 0xBC, 0x00]),
|
|
Uint8Array.from([0xF0, 0x28, 0x8C, 0x28, 0x00]),
|
|
Uint8Array.from([0xF8, 0xA1, 0xA1, 0xA1, 0xA1, 0x00]),
|
|
Uint8Array.from([0xFC, 0xA1, 0xA1, 0xA1, 0xA1, 0xA1, 0x00]),
|
|
]) {
|
|
const charBufferPointer = Deno.UnsafePointer.of(charBuffer);
|
|
const charString = Deno.UnsafePointerView.getCString(charBufferPointer);
|
|
const charBufferPointerArrayBuffer = new Uint8Array(Deno.UnsafePointerView.getArrayBuffer(charBufferPointer, charBuffer.length - 1));
|
|
assertEquals(charString, new TextDecoder().decode(charBufferPointerArrayBuffer));
|
|
assertEquals([...charBuffer.subarray(0, charBuffer.length - 1)], [...charBufferPointerArrayBuffer]);
|
|
}
|
|
|
|
|
|
const bytes = new Uint8Array([0, 1, 2, 3, 4, 5, 6, 7, 8, 9]);
|
|
function hash() { return dylib.symbols.hash(bytes, bytes.byteLength); };
|
|
|
|
testOptimized(hash, () => hash());
|
|
|
|
(function cleanup() {
|
|
dylib.close();
|
|
throwCallback.close();
|
|
logCallback.close();
|
|
logManyParametersCallback.close();
|
|
returnU8Callback.close();
|
|
returnBufferCallback.close();
|
|
add10Callback.close();
|
|
nestedCallback.close();
|
|
addToFooCallback.close();
|
|
|
|
const resourcesPost = Deno[Deno.internal].core.resources();
|
|
|
|
const preStr = JSON.stringify(resourcesPre, null, 2);
|
|
const postStr = JSON.stringify(resourcesPost, null, 2);
|
|
if (preStr !== postStr) {
|
|
throw new Error(
|
|
`Difference in open resources before dlopen and after closing:
|
|
Before: ${preStr}
|
|
After: ${postStr}`,
|
|
);
|
|
}
|
|
|
|
console.log("Correct number of resources");
|
|
})();
|
|
|
|
function assertIsOptimized(fn) {
|
|
const status = %GetOptimizationStatus(fn);
|
|
assert(status & (1 << 4), `expected ${fn.name} to be optimized, but wasn't`);
|
|
}
|
|
|
|
function testOptimized(fn, callback) {
|
|
%PrepareFunctionForOptimization(fn);
|
|
const r1 = callback();
|
|
if (r1 !== undefined) {
|
|
console.log(r1);
|
|
}
|
|
%OptimizeFunctionOnNextCall(fn);
|
|
const r2 = callback();
|
|
if (r2 !== undefined) {
|
|
console.log(r2);
|
|
}
|
|
assertIsOptimized(fn);
|
|
}
|