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zig/test/cases.zig

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const std = @import("std");
const TestContext = @import("../src/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,
};
pub fn addCases(ctx: *TestContext) !void {
try @import("compile_errors.zig").addCases(ctx);
try @import("stage2/cbe.zig").addCases(ctx);
try @import("stage2/arm.zig").addCases(ctx);
try @import("stage2/aarch64.zig").addCases(ctx);
try @import("stage2/llvm.zig").addCases(ctx);
try @import("stage2/wasm.zig").addCases(ctx);
try @import("stage2/darwin.zig").addCases(ctx);
try @import("stage2/riscv64.zig").addCases(ctx);
try @import("stage2/plan9.zig").addCases(ctx);
{
var case = ctx.exe("hello world with updates", linux_x64);
case.addError("", &[_][]const u8{
":95:9: error: struct 'tmp.tmp' has no member named 'main'",
});
// Incorrect return type
case.addError(
\\pub export fn _start() noreturn {
\\}
, &[_][]const u8{":2:1: error: expected noreturn, found void"});
// Regular old hello world
case.addCompareOutput(
\\pub 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",
);
// Convert to pub fn main
case.addCompareOutput(
\\pub fn main() void {
\\ print();
\\}
\\
\\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;
\\}
,
"Hello, World!\n",
);
// Now change the message only
case.addCompareOutput(
\\pub fn main() void {
\\ print();
\\}
\\
\\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;
\\}
,
"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(
\\pub fn main() void {
\\ print();
\\ print();
\\}
\\
\\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;
\\}
,
\\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("adding numbers at comptime", linux_x64);
case.addCompareOutput(
\\pub 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 and comptime", linux_x64);
case.addCompareOutput(
\\pub 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;
\\}
,
"",
);
// comptime function call
case.addCompareOutput(
\\pub export fn _start() noreturn {
\\ exit();
\\}
\\
\\fn add(a: u32, b: u32) u32 {
\\ return a + b;
\\}
\\
\\const x = add(3, 4);
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (x - 7)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
// Inline function call
case.addCompareOutput(
\\pub export fn _start() noreturn {
\\ var x: usize = 3;
\\ const y = add(1, 2, x);
\\ exit(y - 6);
\\}
\\
\\fn add(a: usize, b: usize, c: usize) callconv(.Inline) usize {
\\ return a + b + c;
\\}
\\
\\fn exit(code: usize) noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (code)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
}
{
var case = ctx.exe("subtracting numbers at runtime", linux_x64);
case.addCompareOutput(
\\pub fn main() void {
\\ sub(7, 4);
\\}
\\
\\fn sub(a: u32, b: u32) void {
\\ if (a - b != 3) unreachable;
\\}
,
"",
);
}
{
var case = ctx.exe("unused vars", linux_x64);
case.addError(
\\pub fn main() void {
\\ const x = 1;
\\}
, &.{":2:11: error: unused local constant"});
}
{
var case = ctx.exe("@TypeOf", linux_x64);
case.addCompareOutput(
\\pub fn main() void {
\\ var x: usize = 0;
\\ _ = x;
\\ const z = @TypeOf(x, @as(u128, 5));
\\ assert(z == u128);
\\}
\\
\\pub fn assert(ok: bool) void {
\\ if (!ok) unreachable; // assertion failure
\\}
,
"",
);
case.addCompareOutput(
\\pub fn main() void {
\\ const z = @TypeOf(true);
\\ assert(z == bool);
\\}
\\
\\pub fn assert(ok: bool) void {
\\ if (!ok) unreachable; // assertion failure
\\}
,
"",
);
case.addError(
\\pub fn main() void {
\\ _ = @TypeOf(true, 1);
\\}
, &[_][]const u8{
":2:9: error: incompatible types: 'bool' and 'comptime_int'",
":2:17: note: type 'bool' here",
":2:23: note: type 'comptime_int' here",
});
}
{
var case = ctx.exe("multiplying numbers at runtime and comptime", linux_x64);
case.addCompareOutput(
\\pub export fn _start() noreturn {
\\ mul(3, 4);
\\
\\ exit();
\\}
\\
\\fn mul(a: u32, b: u32) void {
\\ if (a * b != 12) unreachable;
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
// comptime function call
case.addCompareOutput(
\\pub fn _start() noreturn {
\\ exit();
\\}
\\
\\fn mul(a: u32, b: u32) u32 {
\\ return a * b;
\\}
\\
\\const x = mul(3, 4);
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (x - 12)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
// Inline function call
case.addCompareOutput(
\\pub export fn _start() noreturn {
\\ var x: usize = 5;
\\ const y = mul(2, 3, x);
\\ exit(y - 30);
\\}
\\
\\fn mul(a: usize, b: usize, c: usize) callconv(.Inline) usize {
\\ return a * b * c;
\\}
\\
\\fn exit(code: usize) noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (code)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
}
{
var case = ctx.exe("assert function", linux_x64);
case.addCompareOutput(
\\pub fn main() void {
\\ add(3, 4);
\\}
\\
\\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(
\\pub fn main() void {
\\ add(3, 4);
\\}
\\
\\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
\\}
,
"",
);
// More stress on the liveness detection.
case.addCompareOutput(
\\pub fn main() void {
\\ add(3, 4);
\\}
\\
\\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
\\}
,
"",
);
// Requires a second move. The register allocator should figure out to re-use rax.
case.addCompareOutput(
\\pub fn main() void {
\\ add(3, 4);
\\}
\\
\\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
\\}
,
"",
);
// Now we test integer return values.
case.addCompareOutput(
\\pub fn main() void {
\\ assert(add(3, 4) == 7);
\\ assert(add(20, 10) == 30);
\\}
\\
\\fn add(a: u32, b: u32) u32 {
\\ return a + b;
\\}
\\
\\pub fn assert(ok: bool) void {
\\ if (!ok) unreachable; // assertion failure
\\}
,
"",
);
// Local mutable variables.
case.addCompareOutput(
\\pub fn main() void {
\\ assert(add(3, 4) == 7);
\\ assert(add(20, 10) == 30);
\\}
\\
\\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
\\}
,
"",
);
// Optionals
case.addCompareOutput(
\\pub fn main() void {
\\ const a: u32 = 2;
\\ const b: ?u32 = a;
\\ const c = b.?;
\\ if (c != 2) unreachable;
\\}
,
"",
);
// While loops
case.addCompareOutput(
\\pub fn main() void {
\\ var i: u32 = 0;
\\ while (i < 4) : (i += 1) print();
\\ assert(i == 4);
\\}
\\
\\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
\\}
,
"hello\nhello\nhello\nhello\n",
);
// inline while requires the condition to be comptime known.
case.addError(
\\pub fn main() void {
\\ var i: u32 = 0;
\\ inline while (i < 4) : (i += 1) print();
\\ assert(i == 4);
\\}
\\
\\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
\\}
, &[_][]const u8{":3:21: error: unable to resolve comptime value"});
// Labeled blocks (no conditional branch)
case.addCompareOutput(
\\pub fn main() void {
\\ assert(add(3, 4) == 20);
\\}
\\
\\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
\\}
,
"",
);
// This catches a possible bug in the logic for re-using dying operands.
case.addCompareOutput(
\\pub fn main() void {
\\ assert(add(3, 4) == 116);
\\}
\\
\\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
\\}
,
"",
);
// Spilling registers to the stack.
case.addCompareOutput(
\\pub fn main() void {
\\ assert(add(3, 4) == 1221);
\\ assert(mul(3, 4) == 21609);
\\}
\\
\\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 = j + k; // 320
\\ const m = l + c; // 327
\\ const n = m + d; // 337
\\ const o = n + e; // 351
\\ const p = o + f; // 375
\\ const q = p + g; // 413
\\ const r = q + h; // 475
\\ const s = r + i; // 575
\\ const t = s + j; // 685
\\ const u = t + k; // 895
\\ const v = u + l; // 1215
\\ break :blk v;
\\ };
\\ const y = x + a; // 1218
\\ const z = y + a; // 1221
\\ return z;
\\}
\\
\\fn mul(a: u32, b: u32) u32 {
\\ const x: u32 = blk: {
\\ const c = a * a * a * a; // 81
\\ const d = a * a * a * b; // 108
\\ const e = a * a * b * a; // 108
\\ const f = a * a * b * b; // 144
\\ const g = a * b * a * a; // 108
\\ const h = a * b * a * b; // 144
\\ const i = a * b * b * a; // 144
\\ const j = a * b * b * b; // 192
\\ const k = b * a * a * a; // 108
\\ const l = b * a * a * b; // 144
\\ const m = b * a * b * a; // 144
\\ const n = b * a * b * b; // 192
\\ const o = b * b * a * a; // 144
\\ const p = b * b * a * b; // 192
\\ const q = b * b * b * a; // 192
\\ const r = b * b * b * b; // 256
\\ const s = c + d + e + f + g + h + i + j + k + l + m + n + o + p + q + r; // 2401
\\ break :blk s;
\\ };
\\ const y = x * a; // 7203
\\ const z = y * a; // 21609
\\ return z;
\\}
\\
\\pub fn assert(ok: bool) void {
\\ if (!ok) unreachable; // assertion failure
\\}
,
"",
);
// Reusing the registers of dead operands playing nicely with conditional branching.
case.addCompareOutput(
\\pub fn main() void {
\\ assert(add(3, 4) == 791);
\\ assert(add(4, 3) == 79);
\\}
\\
\\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
\\}
,
"",
);
// Character literals and multiline strings.
case.addCompareOutput(
\\pub fn main() void {
\\ const ignore =
\\ \\ cool thx
\\ \\
\\ ;
\\ _ = ignore;
\\ add('ぁ', '\x03');
\\}
\\
\\fn add(a: u32, b: u32) void {
\\ assert(a + b == 12356);
\\}
\\
\\pub fn assert(ok: bool) void {
\\ if (!ok) unreachable; // assertion failure
\\}
,
"",
);
// Global const.
case.addCompareOutput(
\\pub fn main() void {
\\ add(aa, bb);
\\}
\\
\\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
\\}
,
"",
);
// Array access.
case.addCompareOutput(
\\pub fn main() void {
\\ assert("hello"[0] == 'h');
\\}
\\
\\pub fn assert(ok: bool) void {
\\ if (!ok) unreachable; // assertion failure
\\}
,
"",
);
// Array access to a global array.
case.addCompareOutput(
\\const hello = "hello".*;
\\pub fn main() void {
\\ assert(hello[1] == 'e');
\\}
\\
\\pub fn assert(ok: bool) void {
\\ if (!ok) unreachable; // assertion failure
\\}
,
"",
);
// 64bit set stack
case.addCompareOutput(
\\pub fn main() void {
\\ var i: u64 = 0xFFEEDDCCBBAA9988;
\\ assert(i == 0xFFEEDDCCBBAA9988);
\\}
\\
\\pub fn assert(ok: bool) void {
\\ if (!ok) unreachable; // assertion failure
\\}
,
"",
);
// Basic for loop
case.addCompareOutput(
\\pub fn main() void {
\\ for ("hello") |_| print();
\\}
\\
\\fn print() void {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (1),
\\ [arg1] "{rdi}" (1),
\\ [arg2] "{rsi}" (@ptrToInt("hello\n")),
\\ [arg3] "{rdx}" (6)
\\ : "rcx", "r11", "memory"
\\ );
\\ return;
\\}
,
"hello\nhello\nhello\nhello\nhello\n",
);
}
{
var case = ctx.exe("basic import", linux_x64);
case.addCompareOutput(
\\pub fn main() void {
\\ @import("print.zig").print();
\\}
,
"Hello, World!\n",
);
try case.files.append(.{
.src =
\\pub fn print() void {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (@as(usize, 1)),
\\ [arg1] "{rdi}" (@as(usize, 1)),
\\ [arg2] "{rsi}" (@ptrToInt("Hello, World!\n")),
\\ [arg3] "{rdx}" (@as(usize, 14))
\\ : "rcx", "r11", "memory"
\\ );
\\ return;
\\}
,
.path = "print.zig",
});
}
{
var case = ctx.exe("redundant comptime", linux_x64);
case.addError(
\\pub fn main() void {
\\ var a: comptime u32 = 0;
\\}
,
&.{":2:12: error: redundant comptime keyword in already comptime scope"},
);
case.addError(
\\pub fn main() void {
\\ comptime {
\\ var a: u32 = comptime 0;
\\ }
\\}
,
&.{":3:22: error: redundant comptime keyword in already comptime scope"},
);
}
{
var case = ctx.exe("try in comptime in struct in test", linux_x64);
case.addError(
\\test "@unionInit on union w/ tag but no fields" {
\\ const S = struct {
\\ comptime {
\\ try expect(false);
\\ }
\\ };
\\ _ = S;
\\}
,
&.{":4:13: error: 'try' outside function scope"},
);
}
{
var case = ctx.exe("import private", linux_x64);
case.addError(
\\pub fn main() void {
\\ @import("print.zig").print();
\\}
,
&.{
":2:25: error: 'print' is not marked 'pub'",
"print.zig:2:1: note: declared here",
},
);
try case.files.append(.{
.src =
\\// dummy comment to make print be on line 2
\\fn print() void {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (@as(usize, 1)),
\\ [arg1] "{rdi}" (@as(usize, 1)),
\\ [arg2] "{rsi}" (@ptrToInt("Hello, World!\n")),
\\ [arg3] "{rdx}" (@as(usize, 14))
\\ : "rcx", "r11", "memory"
\\ );
\\ return;
\\}
,
.path = "print.zig",
});
}
ctx.compileError("function redeclaration", linux_x64,
\\// dummy comment
\\fn entry() void {}
\\fn entry() void {}
\\
\\fn foo() void {
\\ var foo = 1234;
\\}
, &[_][]const u8{
":3:1: error: redeclaration of 'entry'",
":2:1: note: other declaration here",
":6:9: error: local shadows declaration of 'foo'",
":5:1: note: declared here",
});
ctx.compileError("returns in try", linux_x64,
\\pub fn main() !void {
\\ try a();
\\ try b();
\\}
\\
\\pub fn a() !void {
\\ defer try b();
\\}
\\pub fn b() !void {
\\ defer return a();
\\}
, &[_][]const u8{
":7:8: error: 'try' not allowed inside defer expression",
":10:8: error: cannot return from defer expression",
});
ctx.compileError("ambiguous references", linux_x64,
\\const T = struct {
\\ const T = struct {
\\ fn f() void {
\\ _ = T;
\\ }
\\ };
\\};
, &.{
":4:17: error: ambiguous reference",
":2:5: note: declared here",
":1:1: note: also declared here",
});
ctx.compileError("inner func accessing outer var", linux_x64,
\\pub fn f() void {
\\ var bar: bool = true;
\\ const S = struct {
\\ fn baz() bool {
\\ return bar;
\\ }
\\ };
\\ _ = S;
\\}
, &.{
":5:20: error: mutable 'bar' not accessible from here",
":2:9: note: declared mutable here",
":3:15: note: crosses namespace boundary here",
});
ctx.compileError("global variable redeclaration", linux_x64,
\\// dummy comment
\\var foo = false;
\\var foo = true;
, &[_][]const u8{
":3:1: error: redeclaration of 'foo'",
":2:1: note: other declaration here",
});
ctx.compileError("compileError", linux_x64,
\\export fn foo() void {
\\ @compileError("this is an error");
\\}
, &[_][]const u8{":2:3: error: this is an error"});
{
var case = ctx.exe("intToPtr", linux_x64);
case.addError(
\\pub fn main() void {
\\ _ = @intToPtr(*u8, 0);
\\}
, &[_][]const u8{
":2:24: error: pointer type '*u8' does not allow address zero",
});
case.addError(
\\pub fn main() void {
\\ _ = @intToPtr(*u32, 2);
\\}
, &[_][]const u8{
":2:25: error: pointer type '*u32' requires aligned address",
});
}
{
var case = ctx.obj("variable shadowing", linux_x64);
case.addError(
\\pub fn main() void {
\\ var i: u32 = 10;
\\ var i: u32 = 10;
\\}
, &[_][]const u8{
":3:9: error: redeclaration of local variable 'i'",
":2:9: note: previous declaration here",
});
case.addError(
\\var testing: i64 = 10;
\\pub fn main() void {
\\ var testing: i64 = 20;
\\}
, &[_][]const u8{
":3:9: error: local shadows declaration of 'testing'",
":1:1: note: declared here",
});
case.addError(
\\fn a() type {
\\ return struct {
\\ pub fn b() void {
\\ const c = 6;
\\ const c = 69;
\\ }
\\ };
\\}
, &[_][]const u8{
":5:19: error: redeclaration of local constant 'c'",
":4:19: note: previous declaration here",
});
case.addError(
\\pub fn main() void {
\\ var i = 0;
\\ for ("n") |_, i| {
\\ }
\\}
, &[_][]const u8{
":3:19: error: redeclaration of local variable 'i'",
":2:9: note: previous declaration here",
});
case.addError(
\\pub fn main() void {
\\ var i = 0;
\\ for ("n") |i| {
\\ }
\\}
, &[_][]const u8{
":3:16: error: redeclaration of local variable 'i'",
":2:9: note: previous declaration here",
});
case.addError(
\\pub fn main() void {
\\ var i = 0;
\\ while ("n") |i| {
\\ }
\\}
, &[_][]const u8{
":3:18: error: redeclaration of local variable 'i'",
":2:9: note: previous declaration here",
});
case.addError(
\\pub fn main() void {
\\ var i = 0;
\\ while ("n") |bruh| {
\\ _ = bruh;
\\ } else |i| {
\\
\\ }
\\}
, &[_][]const u8{
":5:13: error: redeclaration of local variable 'i'",
":2:9: note: previous declaration here",
});
case.addError(
\\pub fn main() void {
\\ var i = 0;
\\ if (true) |i| {}
\\}
, &[_][]const u8{
":3:16: error: redeclaration of local variable 'i'",
":2:9: note: previous declaration here",
});
case.addError(
\\pub fn main() void {
\\ var i = 0;
\\ if (true) |i| {} else |e| {}
\\}
, &[_][]const u8{
":3:16: error: redeclaration of local variable 'i'",
":2:9: note: previous declaration here",
});
case.addError(
\\pub fn main() void {
\\ var i = 0;
\\ if (true) |_| {} else |i| {}
\\}
, &[_][]const u8{
":3:28: error: redeclaration of local variable 'i'",
":2:9: note: previous declaration here",
});
}
{
// TODO make the test harness support checking the compile log output too
var case = ctx.obj("@compileLog", linux_x64);
// The other compile error prevents emission of a "found compile log" statement.
case.addError(
\\export fn _start() noreturn {
\\ const b = true;
\\ var f: u32 = 1;
\\ @compileLog(b, 20, f, x);
\\ @compileLog(1000);
\\ var bruh: usize = true;
\\ _ = bruh;
\\ unreachable;
\\}
\\export fn other() void {
\\ @compileLog(1234);
\\}
\\fn x() void {}
, &[_][]const u8{
":6:23: error: expected usize, found bool",
});
// Now only compile log statements remain. One per Decl.
case.addError(
\\export fn _start() noreturn {
\\ const b = true;
\\ var f: u32 = 1;
\\ @compileLog(b, 20, f, x);
\\ @compileLog(1000);
\\ unreachable;
\\}
\\export fn other() void {
\\ @compileLog(1234);
\\}
\\fn x() void {}
, &[_][]const u8{
":9:5: error: found compile log statement",
":4:5: note: also here",
});
}
{
var case = ctx.obj("extern variable has no type", linux_x64);
case.addError(
\\comptime {
\\ const x = foo + foo;
\\ _ = x;
\\}
\\extern var foo: i32;
, &[_][]const u8{":2:15: error: unable to resolve comptime value"});
case.addError(
\\export fn entry() void {
\\ _ = foo;
\\}
\\extern var foo;
, &[_][]const u8{":4:8: error: unable to infer variable type"});
}
{
var case = ctx.exe("break/continue", linux_x64);
// Break out of loop
case.addCompareOutput(
\\pub fn main() void {
\\ while (true) {
\\ break;
\\ }
\\}
,
"",
);
case.addCompareOutput(
\\pub fn main() void {
\\ foo: while (true) {
\\ break :foo;
\\ }
\\}
,
"",
);
// Continue in loop
case.addCompareOutput(
\\pub export fn _start() noreturn {
\\ var i: u64 = 0;
\\ while (true) : (i+=1) {
\\ if (i == 4) exit();
\\ continue;
\\ }
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
case.addCompareOutput(
\\pub export fn _start() noreturn {
\\ var i: u64 = 0;
\\ foo: while (true) : (i+=1) {
\\ if (i == 4) exit();
\\ continue :foo;
\\ }
\\}
\\
\\fn exit() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
}
{
var case = ctx.exe("unused labels", linux_x64);
case.addError(
\\comptime {
\\ foo: {}
\\}
, &[_][]const u8{":2:5: error: unused block label"});
case.addError(
\\comptime {
\\ foo: while (true) {}
\\}
, &[_][]const u8{":2:5: error: unused while loop label"});
case.addError(
\\comptime {
\\ foo: for ("foo") |_| {}
\\}
, &[_][]const u8{":2:5: error: unused for loop label"});
case.addError(
\\comptime {
\\ blk: {blk: {}}
\\}
, &[_][]const u8{
":2:11: error: redefinition of label 'blk'",
":2:5: note: previous definition here",
});
}
{
var case = ctx.exe("bad inferred variable type", linux_x64);
case.addError(
\\pub fn main() void {
\\ var x = null;
\\ _ = x;
\\}
, &[_][]const u8{
":2:9: error: variable of type '@Type(.Null)' must be const or comptime",
});
}
{
var case = ctx.exe("compile error in inline fn call fixed", linux_x64);
case.addError(
\\pub export fn _start() noreturn {
\\ var x: usize = 3;
\\ const y = add(10, 2, x);
\\ exit(y - 6);
\\}
\\
\\fn add(a: usize, b: usize, c: usize) callconv(.Inline) usize {
\\ if (a == 10) @compileError("bad");
\\ return a + b + c;
\\}
\\
\\fn exit(code: usize) noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (code)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
, &[_][]const u8{":8:18: error: bad"});
case.addCompareOutput(
\\pub export fn _start() noreturn {
\\ var x: usize = 3;
\\ const y = add(1, 2, x);
\\ exit(y - 6);
\\}
\\
\\fn add(a: usize, b: usize, c: usize) callconv(.Inline) usize {
\\ if (a == 10) @compileError("bad");
\\ return a + b + c;
\\}
\\
\\fn exit(code: usize) noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (code)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
}
{
var case = ctx.exe("recursive inline function", linux_x64);
case.addCompareOutput(
\\pub export fn _start() noreturn {
\\ const y = fibonacci(7);
\\ exit(y - 21);
\\}
\\
\\fn fibonacci(n: usize) callconv(.Inline) usize {
\\ if (n <= 2) return n;
\\ return fibonacci(n - 2) + fibonacci(n - 1);
\\}
\\
\\fn exit(code: usize) noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (code)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
// This additionally tests that the compile error reports the correct source location.
// Without storing source locations relative to the owner decl, the compile error
// here would be off by 2 bytes (from the "7" -> "999").
case.addError(
\\pub export fn _start() noreturn {
\\ const y = fibonacci(999);
\\ exit(y - 21);
\\}
\\
\\fn fibonacci(n: usize) callconv(.Inline) usize {
\\ if (n <= 2) return n;
\\ return fibonacci(n - 2) + fibonacci(n - 1);
\\}
\\
\\fn exit(code: usize) noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (code)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
, &[_][]const u8{":8:21: error: evaluation exceeded 1000 backwards branches"});
}
{
var case = ctx.exe("orelse at comptime", linux_x64);
case.addCompareOutput(
\\pub fn main() void {
\\ const i: ?u64 = 0;
\\ const result = i orelse 5;
\\ assert(result == 0);
\\}
\\fn assert(b: bool) void {
\\ if (!b) unreachable;
\\}
,
"",
);
case.addCompareOutput(
\\pub fn main() void {
\\ const i: ?u64 = null;
\\ const result = i orelse 5;
\\ assert(result == 5);
\\}
\\fn assert(b: bool) void {
\\ if (!b) unreachable;
\\}
,
"",
);
}
{
var case = ctx.exe("only 1 function and it gets updated", linux_x64);
case.addCompareOutput(
\\pub export fn _start() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (60), // exit
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
case.addCompareOutput(
\\pub export fn _start() noreturn {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (231), // exit_group
\\ [arg1] "{rdi}" (0)
\\ : "rcx", "r11", "memory"
\\ );
\\ unreachable;
\\}
,
"",
);
}
{
var case = ctx.exe("passing u0 to function", linux_x64);
case.addCompareOutput(
\\pub fn main() void {
\\ doNothing(0);
\\}
\\fn doNothing(arg: u0) void {
\\ _ = arg;
\\}
,
"",
);
}
{
var case = ctx.exe("catch at comptime", linux_x64);
case.addCompareOutput(
\\pub fn main() void {
\\ const i: anyerror!u64 = 0;
\\ const caught = i catch 5;
\\ assert(caught == 0);
\\}
\\fn assert(b: bool) void {
\\ if (!b) unreachable;
\\}
,
"",
);
case.addCompareOutput(
\\pub fn main() void {
\\ const i: anyerror!u64 = error.B;
\\ const caught = i catch 5;
\\ assert(caught == 5);
\\}
\\fn assert(b: bool) void {
\\ if (!b) unreachable;
\\}
,
"",
);
case.addCompareOutput(
\\pub fn main() void {
\\ const a: anyerror!comptime_int = 42;
\\ const b: *const comptime_int = &(a catch unreachable);
\\ assert(b.* == 42);
\\}
\\fn assert(b: bool) void {
\\ if (!b) unreachable; // assertion failure
\\}
, "");
case.addCompareOutput(
\\pub fn main() void {
\\ const a: anyerror!u32 = error.B;
\\ _ = &(a catch |err| assert(err == error.B));
\\}
\\fn assert(b: bool) void {
\\ if (!b) unreachable;
\\}
, "");
case.addCompareOutput(
\\pub fn main() void {
\\ const a: anyerror!u32 = error.Bar;
\\ a catch |err| assert(err == error.Bar);
\\}
\\fn assert(b: bool) void {
\\ if (!b) unreachable;
\\}
, "");
}
{
var case = ctx.exe("runtime bitwise and", linux_x64);
case.addCompareOutput(
\\pub fn main() void {
\\ var i: u32 = 10;
\\ var j: u32 = 11;
\\ assert(i & 1 == 0);
\\ assert(j & 1 == 1);
\\ var m1: u32 = 0b1111;
\\ var m2: u32 = 0b0000;
\\ assert(m1 & 0b1010 == 0b1010);
\\ assert(m2 & 0b1010 == 0b0000);
\\}
\\fn assert(b: bool) void {
\\ if (!b) unreachable;
\\}
,
"",
);
}
{
var case = ctx.exe("runtime bitwise or", linux_x64);
case.addCompareOutput(
\\pub fn main() void {
\\ var i: u32 = 10;
\\ var j: u32 = 11;
\\ assert(i | 1 == 11);
\\ assert(j | 1 == 11);
\\ var m1: u32 = 0b1111;
\\ var m2: u32 = 0b0000;
\\ assert(m1 | 0b1010 == 0b1111);
\\ assert(m2 | 0b1010 == 0b1010);
\\}
\\fn assert(b: bool) void {
\\ if (!b) unreachable;
\\}
,
"",
);
}
{
var case = ctx.exe("merge error sets", linux_x64);
case.addCompareOutput(
\\pub fn main() void {
\\ const E = error{ A, B, D } || error { A, B, C };
\\ E.A catch {};
\\ E.B catch {};
\\ E.C catch {};
\\ E.D catch {};
\\ const E2 = error { X, Y } || @TypeOf(error.Z);
\\ E2.X catch {};
\\ E2.Y catch {};
\\ E2.Z catch {};
\\ assert(anyerror || error { Z } == anyerror);
\\}
\\fn assert(b: bool) void {
\\ if (!b) unreachable;
\\}
,
"",
);
case.addError(
\\pub fn main() void {
\\ const z = true || false;
\\ _ = z;
\\}
, &.{
":2:15: error: expected error set type, found 'bool'",
":2:20: note: '||' merges error sets; 'or' performs boolean OR",
});
}
{
var case = ctx.exe("error set equality", linux_x64);
case.addCompareOutput(
\\pub fn main() void {
\\ assert(@TypeOf(error.Foo) == @TypeOf(error.Foo));
\\ assert(@TypeOf(error.Bar) != @TypeOf(error.Foo));
\\ assert(anyerror == anyerror);
\\ assert(error{Foo} != error{Foo});
\\ // TODO put inferred error sets here when @typeInfo works
\\}
\\fn assert(b: bool) void {
\\ if (!b) unreachable;
\\}
,
"",
);
}
{
var case = ctx.exe("inline assembly", linux_x64);
case.addError(
\\pub fn main() void {
\\ const number = 1234;
\\ const x = asm volatile ("syscall"
\\ : [o] "{rax}" (-> number)
\\ : [number] "{rax}" (231),
\\ [arg1] "{rdi}" (60)
\\ : "rcx", "r11", "memory"
\\ );
\\ _ = x;
\\}
, &[_][]const u8{":4:27: error: expected type, found comptime_int"});
case.addError(
\\const S = struct {
\\ comptime {
\\ asm volatile (
\\ \\zig_moment:
\\ \\syscall
\\ );
\\ }
\\};
\\pub fn main() void {
\\ _ = S;
\\}
, &.{":3:13: error: volatile is meaningless on global assembly"});
case.addError(
\\pub fn main() void {
\\ var bruh: u32 = 1;
\\ asm (""
\\ :
\\ : [bruh] "{rax}" (4)
\\ : "memory"
\\ );
\\}
, &.{":3:5: error: assembly expression with no output must be marked volatile"});
case.addError(
\\pub fn main() void {}
\\comptime {
\\ asm (""
\\ :
\\ : [bruh] "{rax}" (4)
\\ : "memory"
\\ );
\\}
, &.{":3:5: error: global assembly cannot have inputs, outputs, or clobbers"});
}
{
var case = ctx.exe("comptime var", linux_x64);
case.addError(
\\pub fn main() void {
\\ var a: u32 = 0;
\\ comptime var b: u32 = 0;
\\ if (a == 0) b = 3;
\\}
, &.{
":4:21: error: store to comptime variable depends on runtime condition",
":4:11: note: runtime condition here",
});
case.addError(
\\pub fn main() void {
\\ var a: u32 = 0;
\\ comptime var b: u32 = 0;
\\ switch (a) {
\\ 0 => {},
\\ else => b = 3,
\\ }
\\}
, &.{
":6:21: error: store to comptime variable depends on runtime condition",
":4:13: note: runtime condition here",
});
case.addCompareOutput(
\\pub fn main() void {
\\ comptime var len: u32 = 5;
\\ print(len);
\\ len += 9;
\\ print(len);
\\}
\\
\\fn print(len: usize) void {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (1),
\\ [arg1] "{rdi}" (1),
\\ [arg2] "{rsi}" (@ptrToInt("Hello, World!\n")),
\\ [arg3] "{rdx}" (len)
\\ : "rcx", "r11", "memory"
\\ );
\\ return;
\\}
, "HelloHello, World!\n");
case.addError(
\\comptime {
\\ var x: i32 = 1;
\\ x += 1;
\\ if (x != 1) unreachable;
\\}
\\pub fn main() void {}
, &.{":4:17: error: unable to resolve comptime value"});
case.addError(
\\pub fn main() void {
\\ comptime var i: u64 = 0;
\\ while (i < 5) : (i += 1) {}
\\}
, &.{
":3:24: error: cannot store to comptime variable in non-inline loop",
":3:5: note: non-inline loop here",
});
case.addCompareOutput(
\\pub fn main() void {
\\ var a: u32 = 0;
\\ if (a == 0) {
\\ comptime var b: u32 = 0;
\\ b = 1;
\\ }
\\}
\\comptime {
\\ var x: i32 = 1;
\\ x += 1;
\\ if (x != 2) unreachable;
\\}
, "");
case.addCompareOutput(
\\pub fn main() void {
\\ comptime var i: u64 = 2;
\\ inline while (i < 6) : (i+=1) {
\\ print(i);
\\ }
\\}
\\fn print(len: usize) void {
\\ asm volatile ("syscall"
\\ :
\\ : [number] "{rax}" (1),
\\ [arg1] "{rdi}" (1),
\\ [arg2] "{rsi}" (@ptrToInt("Hello")),
\\ [arg3] "{rdx}" (len)
\\ : "rcx", "r11", "memory"
\\ );
\\ return;
\\}
, "HeHelHellHello");
}
{
var case = ctx.exe("double ampersand", linux_x64);
case.addError(
\\pub const a = if (true && false) 1 else 2;
, &[_][]const u8{":1:24: error: `&&` is invalid; note that `and` is boolean AND"});
case.addError(
\\pub fn main() void {
\\ const a = true;
\\ const b = false;
\\ _ = a & &b;
\\}
, &[_][]const u8{
":4:11: error: incompatible types: 'bool' and '*const bool'",
":4:9: note: type 'bool' here",
":4:13: note: type '*const bool' here",
});
case.addCompareOutput(
\\pub fn main() void {
\\ const b: u8 = 1;
\\ _ = &&b;
\\}
, "");
}
{
var case = ctx.exe("setting an address space on a local variable", linux_x64);
case.addError(
\\export fn entry() i32 {
\\ var foo: i32 addrspace(".general") = 1234;
\\ return foo;
\\}
, &[_][]const u8{
":2:28: error: cannot set address space of local variable 'foo'",
});
}
}
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