motiejus/zig
1
Fork 0
Code Releases Activity
Files
01a7affb87f74e33e674891d77d4b720d3014013
zig/test/stage2/test.zig
Andrew Kelley 2a8fc1a18e stage2: caching system integration & Module/Compilation splitting 
* update to the new cache hash API
 * std.Target defaultVersionRange moves to std.Target.Os.Tag
 * std.Target.Os gains getVersionRange which returns a tagged union
 * start the process of splitting Module into Compilation and "zig
   module".
   - The parts of Module having to do with only compiling zig code are
     extracted into ZigModule.zig.
   - Next step is to rename Module to Compilation.
   - After that rename ZigModule back to Module.
 * implement proper cache hash usage when compiling C objects, and
   properly manage the file lock of the build artifacts.
 * make versions optional to match recent changes to master branch.
 * proper cache hash integration for compiling zig code
 * proper cache hash integration for linking even when not compiling zig
   code.
 * ELF LLD linking integrates with the caching system. A comment from
   the source code:

   Here we want to determine whether we can save time by not invoking LLD when the
   output is unchanged. None of the linker options or the object files that are being
   linked are in the hash that namespaces the directory we are outputting to. Therefore,
   we must hash those now, and the resulting digest will form the "id" of the linking
   job we are about to perform.
   After a successful link, we store the id in the metadata of a symlink named "id.txt" in
   the artifact directory. So, now, we check if this symlink exists, and if it matches
   our digest. If so, we can skip linking. Otherwise, we proceed with invoking LLD.

 * implement disable_c_depfile option
 * add tracy to a few more functions
2020-09-13 19:29:07 -07:00

989 lines
30 KiB
Zig
Raw Blame History

const std = @import("std");
const TestContext = @import("../../src-self-hosted/test.zig").TestContext;
// Self-hosted has differing levels of support for various architectures. For now we pass explicit
// target parameters to each test case. At some point we will take this to the next level and have
// a set of targets that all test cases run on unless specifically overridden. For now, each test
// case applies to only the specified target.
const linux_x64 = std.zig.CrossTarget{
.cpu_arch = .x86_64,
.os_tag = .linux,
};
const macosx_x64 = std.zig.CrossTarget{
.cpu_arch = .x86_64,
.os_tag = .macosx,
};
const linux_riscv64 = std.zig.CrossTarget{
.cpu_arch = .riscv64,
.os_tag = .linux,
};
const linux_arm = std.zig.CrossTarget{
.cpu_arch = .arm,
.os_tag = .linux,
};
const wasi = std.zig.CrossTarget{
.cpu_arch = .wasm32,
.os_tag = .wasi,
};
pub fn addCases(ctx: *TestContext) !void {
try @import("zir.zig").addCases(ctx);
try @import("cbe.zig").addCases(ctx);
try @import("spu-ii.zig").addCases(ctx);
{
var case = ctx.exe("hello world with updates", linux_x64);
case.addError("", &[_][]const u8{":1:1: error: no entry point found"});
// Incorrect return type
case.addError(
\\export fn _start() noreturn {
\\}
, &[_][]const u8{":2:1: error: expected noreturn, found void"});
// Regular old hello world
case.addCompareOutput(
\\export fn _start() noreturn {
\\ print();
\\
\\ exit();
\\}
\\
\\fn print() void {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (1),
\\ [arg1] "{rdi}" (1),
\\ [arg2] "{rsi}" (@ptrToInt("Hello, World!\n")),
\\ [arg3] "{rdx}" (14)
\\ : "rcx", "r11", "memory"
\\ );
\\ return;
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"Hello, World!\n",
);
// Now change the message only
case.addCompareOutput(
\\export fn _start() noreturn {
\\ print();
\\
\\ exit();
\\}
\\
\\fn print() void {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (1),
\\ [arg1] "{rdi}" (1),
\\ [arg2] "{rsi}" (@ptrToInt("What is up? This is a longer message that will force the data to be relocated in virtual address space.\n")),
\\ [arg3] "{rdx}" (104)
\\ : "rcx", "r11", "memory"
\\ );
\\ return;
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"What is up? This is a longer message that will force the data to be relocated in virtual address space.\n",
);
// Now we print it twice.
case.addCompareOutput(
\\export fn _start() noreturn {
\\ print();
\\ print();
\\
\\ exit();
\\}
\\
\\fn print() void {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (1),
\\ [arg1] "{rdi}" (1),
\\ [arg2] "{rsi}" (@ptrToInt("What is up? This is a longer message that will force the data to be relocated in virtual address space.\n")),
\\ [arg3] "{rdx}" (104)
\\ : "rcx", "r11", "memory"
\\ );
\\ return;
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
\\What is up? This is a longer message that will force the data to be relocated in virtual address space.
\\What is up? This is a longer message that will force the data to be relocated in virtual address space.
\\
);
}
{
var case = ctx.exe("hello world", macosx_x64);
case.addError("", &[_][]const u8{":1:1: error: no entry point found"});
}
{
var case = ctx.exe("hello world", linux_riscv64);
// Regular old hello world
case.addCompareOutput(
\\export fn _start() noreturn {
\\ print();
\\
\\ exit();
\\}
\\
\\fn print() void {
\\ asm volatile ("ecall"
\\ :
\\ : [number] "{a7}" (64),
\\ [arg1] "{a0}" (1),
\\ [arg2] "{a1}" (@ptrToInt("Hello, World!\n")),
\\ [arg3] "{a2}" ("Hello, World!\n".len)
\\ : "rcx", "r11", "memory"
\\ );
\\ return;
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("ecall"
\\ :
\\ : [number] "{a7}" (94),
\\ [arg1] "{a0}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"Hello, World!\n",
);
}
{
var case = ctx.exe("hello world", linux_arm);
// Regular old hello world
case.addCompareOutput(
\\export fn _start() noreturn {
\\ print();
\\ exit();
\\}
\\
\\fn print() void {
\\ asm volatile ("svc #0"
\\ :
\\ : [number] "{r7}" (4),
\\ [arg1] "{r0}" (1),
\\ [arg2] "{r1}" (@ptrToInt("Hello, World!\n")),
\\ [arg3] "{r2}" (14)
\\ : "memory"
\\ );
\\ return;
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("svc #0"
\\ :
\\ : [number] "{r7}" (1),
\\ [arg1] "{r0}" (0)
\\ : "memory"
\\ );
\\ unreachable;
\\}
,
"Hello, World!\n",
);
}
{
var case = ctx.exe("adding numbers at comptime", linux_x64);
case.addCompareOutput(
\\export fn _start() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (1),
\\ [arg1] "{rdi}" (1),
\\ [arg2] "{rsi}" (@ptrToInt("Hello, World!\n")),
\\ [arg3] "{rdx}" (10 + 4)
\\ : "rcx", "r11", "memory"
\\ );
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (@as(usize, 230) + @as(usize, 1)),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"Hello, World!\n",
);
}
{
var case = ctx.exe("adding numbers at runtime", linux_x64);
case.addCompareOutput(
\\export fn _start() noreturn {
\\ add(3, 4);
\\
\\ exit();
\\}
\\
\\fn add(a: u32, b: u32) void {
\\ if (a + b != 7) unreachable;
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
}
{
var case = ctx.exe("subtracting numbers at runtime", linux_x64);
case.addCompareOutput(
\\export fn _start() noreturn {
\\ sub(7, 4);
\\
\\ exit();
\\}
\\
\\fn sub(a: u32, b: u32) void {
\\ if (a - b != 3) unreachable;
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
}
{
var case = ctx.exe("assert function", linux_x64);
case.addCompareOutput(
\\export fn _start() noreturn {
\\ add(3, 4);
\\
\\ exit();
\\}
\\
\\fn add(a: u32, b: u32) void {
\\ assert(a + b == 7);
\\}
\\
\\pub fn assert(ok: bool) void {
\\ if (!ok) unreachable; // assertion failure
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
// Tests copying a register. For the `c = a + b`, it has to
// preserve both a and b, because they are both used later.
case.addCompareOutput(
\\export fn _start() noreturn {
\\ add(3, 4);
\\
\\ exit();
\\}
\\
\\fn add(a: u32, b: u32) void {
\\ const c = a + b; // 7
\\ const d = a + c; // 10
\\ const e = d + b; // 14
\\ assert(e == 14);
\\}
\\
\\pub fn assert(ok: bool) void {
\\ if (!ok) unreachable; // assertion failure
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
// More stress on the liveness detection.
case.addCompareOutput(
\\export fn _start() noreturn {
\\ add(3, 4);
\\
\\ exit();
\\}
\\
\\fn add(a: u32, b: u32) void {
\\ const c = a + b; // 7
\\ const d = a + c; // 10
\\ const e = d + b; // 14
\\ const f = d + e; // 24
\\ const g = e + f; // 38
\\ const h = f + g; // 62
\\ const i = g + h; // 100
\\ assert(i == 100);
\\}
\\
\\pub fn assert(ok: bool) void {
\\ if (!ok) unreachable; // assertion failure
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
// Requires a second move. The register allocator should figure out to re-use rax.
case.addCompareOutput(
\\export fn _start() noreturn {
\\ add(3, 4);
\\
\\ exit();
\\}
\\
\\fn add(a: u32, b: u32) void {
\\ const c = a + b; // 7
\\ const d = a + c; // 10
\\ const e = d + b; // 14
\\ const f = d + e; // 24
\\ const g = e + f; // 38
\\ const h = f + g; // 62
\\ const i = g + h; // 100
\\ const j = i + d; // 110
\\ assert(j == 110);
\\}
\\
\\pub fn assert(ok: bool) void {
\\ if (!ok) unreachable; // assertion failure
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
// Now we test integer return values.
case.addCompareOutput(
\\export fn _start() noreturn {
\\ assert(add(3, 4) == 7);
\\ assert(add(20, 10) == 30);
\\
\\ exit();
\\}
\\
\\fn add(a: u32, b: u32) u32 {
\\ return a + b;
\\}
\\
\\pub fn assert(ok: bool) void {
\\ if (!ok) unreachable; // assertion failure
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
// Local mutable variables.
case.addCompareOutput(
\\export fn _start() noreturn {
\\ assert(add(3, 4) == 7);
\\ assert(add(20, 10) == 30);
\\
\\ exit();
\\}
\\
\\fn add(a: u32, b: u32) u32 {
\\ var x: u32 = undefined;
\\ x = 0;
\\ x += a;
\\ x += b;
\\ return x;
\\}
\\
\\pub fn assert(ok: bool) void {
\\ if (!ok) unreachable; // assertion failure
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
// Optionals
case.addCompareOutput(
\\export fn _start() noreturn {
\\ const a: u32 = 2;
\\ const b: ?u32 = a;
\\ const c = b.?;
\\ if (c != 2) unreachable;
\\
\\ exit();
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
// While loops
case.addCompareOutput(
\\export fn _start() noreturn {
\\ var i: u32 = 0;
\\ while (i < 4) : (i += 1) print();
\\ assert(i == 4);
\\
\\ exit();
\\}
\\
\\fn print() void {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (1),
\\ [arg1] "{rdi}" (1),
\\ [arg2] "{rsi}" (@ptrToInt("hello\n")),
\\ [arg3] "{rdx}" (6)
\\ : "rcx", "r11", "memory"
\\ );
\\ return;
\\}
\\
\\pub fn assert(ok: bool) void {
\\ if (!ok) unreachable; // assertion failure
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"hello\nhello\nhello\nhello\n",
);
// Labeled blocks (no conditional branch)
case.addCompareOutput(
\\export fn _start() noreturn {
\\ assert(add(3, 4) == 20);
\\
\\ exit();
\\}
\\
\\fn add(a: u32, b: u32) u32 {
\\ const x: u32 = blk: {
\\ const c = a + b; // 7
\\ const d = a + c; // 10
\\ const e = d + b; // 14
\\ break :blk e;
\\ };
\\ const y = x + a; // 17
\\ const z = y + a; // 20
\\ return z;
\\}
\\
\\pub fn assert(ok: bool) void {
\\ if (!ok) unreachable; // assertion failure
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
// This catches a possible bug in the logic for re-using dying operands.
case.addCompareOutput(
\\export fn _start() noreturn {
\\ assert(add(3, 4) == 116);
\\
\\ exit();
\\}
\\
\\fn add(a: u32, b: u32) u32 {
\\ const x: u32 = blk: {
\\ const c = a + b; // 7
\\ const d = a + c; // 10
\\ const e = d + b; // 14
\\ const f = d + e; // 24
\\ const g = e + f; // 38
\\ const h = f + g; // 62
\\ const i = g + h; // 100
\\ const j = i + d; // 110
\\ break :blk j;
\\ };
\\ const y = x + a; // 113
\\ const z = y + a; // 116
\\ return z;
\\}
\\
\\pub fn assert(ok: bool) void {
\\ if (!ok) unreachable; // assertion failure
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
// Spilling registers to the stack.
case.addCompareOutput(
\\export fn _start() noreturn {
\\ assert(add(3, 4) == 791);
\\
\\ exit();
\\}
\\
\\fn add(a: u32, b: u32) u32 {
\\ const x: u32 = blk: {
\\ const c = a + b; // 7
\\ const d = a + c; // 10
\\ const e = d + b; // 14
\\ const f = d + e; // 24
\\ const g = e + f; // 38
\\ const h = f + g; // 62
\\ const i = g + h; // 100
\\ const j = i + d; // 110
\\ const k = i + j; // 210
\\ const l = k + c; // 217
\\ const m = l + d; // 227
\\ const n = m + e; // 241
\\ const o = n + f; // 265
\\ const p = o + g; // 303
\\ const q = p + h; // 365
\\ const r = q + i; // 465
\\ const s = r + j; // 575
\\ const t = s + k; // 785
\\ break :blk t;
\\ };
\\ const y = x + a; // 788
\\ const z = y + a; // 791
\\ return z;
\\}
\\
\\pub fn assert(ok: bool) void {
\\ if (!ok) unreachable; // assertion failure
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
// Reusing the registers of dead operands playing nicely with conditional branching.
case.addCompareOutput(
\\export fn _start() noreturn {
\\ assert(add(3, 4) == 791);
\\ assert(add(4, 3) == 79);
\\
\\ exit();
\\}
\\
\\fn add(a: u32, b: u32) u32 {
\\ const x: u32 = if (a < b) blk: {
\\ const c = a + b; // 7
\\ const d = a + c; // 10
\\ const e = d + b; // 14
\\ const f = d + e; // 24
\\ const g = e + f; // 38
\\ const h = f + g; // 62
\\ const i = g + h; // 100
\\ const j = i + d; // 110
\\ const k = i + j; // 210
\\ const l = k + c; // 217
\\ const m = l + d; // 227
\\ const n = m + e; // 241
\\ const o = n + f; // 265
\\ const p = o + g; // 303
\\ const q = p + h; // 365
\\ const r = q + i; // 465
\\ const s = r + j; // 575
\\ const t = s + k; // 785
\\ break :blk t;
\\ } else blk: {
\\ const t = b + b + a; // 10
\\ const c = a + t; // 14
\\ const d = c + t; // 24
\\ const e = d + t; // 34
\\ const f = e + t; // 44
\\ const g = f + t; // 54
\\ const h = c + g; // 68
\\ break :blk h + b; // 71
\\ };
\\ const y = x + a; // 788, 75
\\ const z = y + a; // 791, 79
\\ return z;
\\}
\\
\\pub fn assert(ok: bool) void {
\\ if (!ok) unreachable; // assertion failure
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
// Character literals and multiline strings.
case.addCompareOutput(
\\export fn _start() noreturn {
\\ const ignore =
\\ \\ cool thx
\\ \\
\\ ;
\\ add('ぁ', '\x03');
\\
\\ exit();
\\}
\\
\\fn add(a: u32, b: u32) void {
\\ assert(a + b == 12356);
\\}
\\
\\pub fn assert(ok: bool) void {
\\ if (!ok) unreachable; // assertion failure
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
// Global const.
case.addCompareOutput(
\\export fn _start() noreturn {
\\ add(aa, bb);
\\
\\ exit();
\\}
\\
\\const aa = 'ぁ';
\\const bb = '\x03';
\\
\\fn add(a: u32, b: u32) void {
\\ assert(a + b == 12356);
\\}
\\
\\pub fn assert(ok: bool) void {
\\ if (!ok) unreachable; // assertion failure
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
// Array access.
case.addCompareOutput(
\\export fn _start() noreturn {
\\ assert("hello"[0] == 'h');
\\
\\ exit();
\\}
\\
\\pub fn assert(ok: bool) void {
\\ if (!ok) unreachable; // assertion failure
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
// 64bit set stack
case.addCompareOutput(
\\export fn _start() noreturn {
\\ var i: u64 = 0xFFEEDDCCBBAA9988;
\\ assert(i == 0xFFEEDDCCBBAA9988);
\\
\\ exit();
\\}
\\
\\pub fn assert(ok: bool) void {
\\ if (!ok) unreachable; // assertion failure
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
// Basic for loop
case.addCompareOutput(
\\export fn _start() noreturn {
\\ for ("hello") |_| print();
\\
\\ exit();
\\}
\\
\\fn print() void {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (1),
\\ [arg1] "{rdi}" (1),
\\ [arg2] "{rsi}" (@ptrToInt("hello\n")),
\\ [arg3] "{rdx}" (6)
\\ : "rcx", "r11", "memory"
\\ );
\\ return;
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"hello\nhello\nhello\nhello\nhello\n",
);
}
{
var case = ctx.exe("wasm function calls", wasi);
case.addCompareOutput(
\\export fn _start() u32 {
\\ foo();
\\ bar();
\\ return 42;
\\}
\\fn foo() void {
\\ bar();
\\ bar();
\\}
\\fn bar() void {}
,
"42\n",
);
case.addCompareOutput(
\\export fn _start() i64 {
\\ bar();
\\ foo();
\\ foo();
\\ bar();
\\ foo();
\\ bar();
\\ return 42;
\\}
\\fn foo() void {
\\ bar();
\\}
\\fn bar() void {}
,
"42\n",
);
case.addCompareOutput(
\\export fn _start() f32 {
\\ bar();
\\ foo();
\\ return 42.0;
\\}
\\fn foo() void {
\\ bar();
\\ bar();
\\ bar();
\\}
\\fn bar() void {}
,
// This is what you get when you take the bits of the IEE-754
// representation of 42.0 and reinterpret them as an unsigned
// integer. Guess that's a bug in wasmtime.
"1109917696\n",
);
}
ctx.compileError("function redefinition", linux_x64,
\\fn entry() void {}
\\fn entry() void {}
, &[_][]const u8{":2:4: error: redefinition of 'entry'"});
{
var case = ctx.obj("extern variable has no type", linux_x64);
case.addError(
\\comptime {
\\ _ = foo;
\\}
\\extern var foo: i32;
, &[_][]const u8{":2:9: error: unable to resolve comptime value"});
case.addError(
\\export fn entry() void {
\\ _ = foo;
\\}
\\extern var foo;
, &[_][]const u8{":4:1: error: unable to infer variable type"});
}
}
View Git Blame Copy Permalink