const std = @import("std"); const builtin = @import("builtin"); const mem = std.mem; const math = std.math; const expect = std.testing.expect; const expectEqual = std.testing.expectEqual; const expectApproxEqRel = std.testing.expectApproxEqRel; const Vector = std.meta.Vector; test "implicit cast vector to array - bool" { const S = struct { fn doTheTest() !void { const a: Vector(4, bool) = [_]bool{ true, false, true, false }; const result_array: [4]bool = a; try expect(mem.eql(bool, &result_array, &[4]bool{ true, false, true, false })); } }; try S.doTheTest(); comptime try S.doTheTest(); } test "vector wrap operators" { const S = struct { fn doTheTest() !void { var v: Vector(4, i32) = [4]i32{ 2147483647, -2, 30, 40 }; var x: Vector(4, i32) = [4]i32{ 1, 2147483647, 3, 4 }; try expect(mem.eql(i32, &@as([4]i32, v +% x), &[4]i32{ -2147483648, 2147483645, 33, 44 })); try expect(mem.eql(i32, &@as([4]i32, v -% x), &[4]i32{ 2147483646, 2147483647, 27, 36 })); try expect(mem.eql(i32, &@as([4]i32, v *% x), &[4]i32{ 2147483647, 2, 90, 160 })); var z: Vector(4, i32) = [4]i32{ 1, 2, 3, -2147483648 }; try expect(mem.eql(i32, &@as([4]i32, -%z), &[4]i32{ -1, -2, -3, -2147483648 })); } }; try S.doTheTest(); comptime try S.doTheTest(); } test "vector bin compares with mem.eql" { const S = struct { fn doTheTest() !void { var v: Vector(4, i32) = [4]i32{ 2147483647, -2, 30, 40 }; var x: Vector(4, i32) = [4]i32{ 1, 2147483647, 30, 4 }; try expect(mem.eql(bool, &@as([4]bool, v == x), &[4]bool{ false, false, true, false })); try expect(mem.eql(bool, &@as([4]bool, v != x), &[4]bool{ true, true, false, true })); try expect(mem.eql(bool, &@as([4]bool, v < x), &[4]bool{ false, true, false, false })); try expect(mem.eql(bool, &@as([4]bool, v > x), &[4]bool{ true, false, false, true })); try expect(mem.eql(bool, &@as([4]bool, v <= x), &[4]bool{ false, true, true, false })); try expect(mem.eql(bool, &@as([4]bool, v >= x), &[4]bool{ true, false, true, true })); } }; try S.doTheTest(); comptime try S.doTheTest(); } test "vector int operators" { const S = struct { fn doTheTest() !void { var v: Vector(4, i32) = [4]i32{ 10, 20, 30, 40 }; var x: Vector(4, i32) = [4]i32{ 1, 2, 3, 4 }; try expect(mem.eql(i32, &@as([4]i32, v + x), &[4]i32{ 11, 22, 33, 44 })); try expect(mem.eql(i32, &@as([4]i32, v - x), &[4]i32{ 9, 18, 27, 36 })); try expect(mem.eql(i32, &@as([4]i32, v * x), &[4]i32{ 10, 40, 90, 160 })); try expect(mem.eql(i32, &@as([4]i32, -v), &[4]i32{ -10, -20, -30, -40 })); } }; try S.doTheTest(); comptime try S.doTheTest(); } test "vector float operators" { const S = struct { fn doTheTest() !void { var v: Vector(4, f32) = [4]f32{ 10, 20, 30, 40 }; var x: Vector(4, f32) = [4]f32{ 1, 2, 3, 4 }; try expect(mem.eql(f32, &@as([4]f32, v + x), &[4]f32{ 11, 22, 33, 44 })); try expect(mem.eql(f32, &@as([4]f32, v - x), &[4]f32{ 9, 18, 27, 36 })); try expect(mem.eql(f32, &@as([4]f32, v * x), &[4]f32{ 10, 40, 90, 160 })); try expect(mem.eql(f32, &@as([4]f32, -x), &[4]f32{ -1, -2, -3, -4 })); } }; try S.doTheTest(); comptime try S.doTheTest(); } test "vector bit operators" { const S = struct { fn doTheTest() !void { var v: Vector(4, u8) = [4]u8{ 0b10101010, 0b10101010, 0b10101010, 0b10101010 }; var x: Vector(4, u8) = [4]u8{ 0b11110000, 0b00001111, 0b10101010, 0b01010101 }; try expect(mem.eql(u8, &@as([4]u8, v ^ x), &[4]u8{ 0b01011010, 0b10100101, 0b00000000, 0b11111111 })); try expect(mem.eql(u8, &@as([4]u8, v | x), &[4]u8{ 0b11111010, 0b10101111, 0b10101010, 0b11111111 })); try expect(mem.eql(u8, &@as([4]u8, v & x), &[4]u8{ 0b10100000, 0b00001010, 0b10101010, 0b00000000 })); } }; try S.doTheTest(); comptime try S.doTheTest(); } test "implicit cast vector to array" { const S = struct { fn doTheTest() !void { var a: Vector(4, i32) = [_]i32{ 1, 2, 3, 4 }; var result_array: [4]i32 = a; result_array = a; try expect(mem.eql(i32, &result_array, &[4]i32{ 1, 2, 3, 4 })); } }; try S.doTheTest(); comptime try S.doTheTest(); } test "array to vector" { var foo: f32 = 3.14; var arr = [4]f32{ foo, 1.5, 0.0, 0.0 }; var vec: Vector(4, f32) = arr; _ = vec; } test "vector casts of sizes not divisible by 8" { const S = struct { fn doTheTest() !void { { var v: Vector(4, u3) = [4]u3{ 5, 2, 3, 0 }; var x: [4]u3 = v; try expect(mem.eql(u3, &x, &@as([4]u3, v))); } { var v: Vector(4, u2) = [4]u2{ 1, 2, 3, 0 }; var x: [4]u2 = v; try expect(mem.eql(u2, &x, &@as([4]u2, v))); } { var v: Vector(4, u1) = [4]u1{ 1, 0, 1, 0 }; var x: [4]u1 = v; try expect(mem.eql(u1, &x, &@as([4]u1, v))); } { var v: Vector(4, bool) = [4]bool{ false, false, true, false }; var x: [4]bool = v; try expect(mem.eql(bool, &x, &@as([4]bool, v))); } } }; try S.doTheTest(); comptime try S.doTheTest(); } test "vector @splat" { const S = struct { fn testForT(comptime N: comptime_int, v: anytype) !void { const T = @TypeOf(v); var vec = @splat(N, v); try expectEqual(Vector(N, T), @TypeOf(vec)); var as_array = @as([N]T, vec); for (as_array) |elem| try expectEqual(v, elem); } fn doTheTest() !void { // Splats with multiple-of-8 bit types that fill a 128bit vector. try testForT(16, @as(u8, 0xEE)); try testForT(8, @as(u16, 0xBEEF)); try testForT(4, @as(u32, 0xDEADBEEF)); try testForT(2, @as(u64, 0xCAFEF00DDEADBEEF)); try testForT(8, @as(f16, 3.1415)); try testForT(4, @as(f32, 3.1415)); try testForT(2, @as(f64, 3.1415)); // Same but fill more than 128 bits. try testForT(16 * 2, @as(u8, 0xEE)); try testForT(8 * 2, @as(u16, 0xBEEF)); try testForT(4 * 2, @as(u32, 0xDEADBEEF)); try testForT(2 * 2, @as(u64, 0xCAFEF00DDEADBEEF)); try testForT(8 * 2, @as(f16, 3.1415)); try testForT(4 * 2, @as(f32, 3.1415)); try testForT(2 * 2, @as(f64, 3.1415)); } }; try S.doTheTest(); comptime try S.doTheTest(); } test "load vector elements via comptime index" { const S = struct { fn doTheTest() !void { var v: Vector(4, i32) = [_]i32{ 1, 2, 3, undefined }; try expect(v[0] == 1); try expect(v[1] == 2); try expect(loadv(&v[2]) == 3); } fn loadv(ptr: anytype) i32 { return ptr.*; } }; try S.doTheTest(); comptime try S.doTheTest(); } test "store vector elements via comptime index" { const S = struct { fn doTheTest() !void { var v: Vector(4, i32) = [_]i32{ 1, 5, 3, undefined }; v[2] = 42; try expect(v[1] == 5); v[3] = -364; try expect(v[2] == 42); try expect(-364 == v[3]); storev(&v[0], 100); try expect(v[0] == 100); } fn storev(ptr: anytype, x: i32) void { ptr.* = x; } }; try S.doTheTest(); comptime try S.doTheTest(); } test "load vector elements via runtime index" { const S = struct { fn doTheTest() !void { var v: Vector(4, i32) = [_]i32{ 1, 2, 3, undefined }; var i: u32 = 0; try expect(v[i] == 1); i += 1; try expect(v[i] == 2); i += 1; try expect(v[i] == 3); } }; try S.doTheTest(); comptime try S.doTheTest(); } test "store vector elements via runtime index" { const S = struct { fn doTheTest() !void { var v: Vector(4, i32) = [_]i32{ 1, 5, 3, undefined }; var i: u32 = 2; v[i] = 1; try expect(v[1] == 5); try expect(v[2] == 1); i += 1; v[i] = -364; try expect(-364 == v[3]); } }; try S.doTheTest(); comptime try S.doTheTest(); } test "initialize vector which is a struct field" { const Vec4Obj = struct { data: Vector(4, f32), }; const S = struct { fn doTheTest() !void { var foo = Vec4Obj{ .data = [_]f32{ 1, 2, 3, 4 }, }; _ = foo; } }; try S.doTheTest(); comptime try S.doTheTest(); } test "vector comparison operators" { const S = struct { fn doTheTest() !void { { const v1: Vector(4, bool) = [_]bool{ true, false, true, false }; const v2: Vector(4, bool) = [_]bool{ false, true, false, true }; try expectEqual(@splat(4, true), v1 == v1); try expectEqual(@splat(4, false), v1 == v2); try expectEqual(@splat(4, true), v1 != v2); try expectEqual(@splat(4, false), v2 != v2); } { const v1 = @splat(4, @as(u32, 0xc0ffeeee)); const v2: Vector(4, c_uint) = v1; const v3 = @splat(4, @as(u32, 0xdeadbeef)); try expectEqual(@splat(4, true), v1 == v2); try expectEqual(@splat(4, false), v1 == v3); try expectEqual(@splat(4, true), v1 != v3); try expectEqual(@splat(4, false), v1 != v2); } { // Comptime-known LHS/RHS var v1: @Vector(4, u32) = [_]u32{ 2, 1, 2, 1 }; const v2 = @splat(4, @as(u32, 2)); const v3: @Vector(4, bool) = [_]bool{ true, false, true, false }; try expectEqual(v3, v1 == v2); try expectEqual(v3, v2 == v1); } } }; try S.doTheTest(); comptime try S.doTheTest(); } test "vector division operators" { const S = struct { fn doTheTestDiv(comptime T: type, x: Vector(4, T), y: Vector(4, T)) !void { if (!comptime std.meta.trait.isSignedInt(T)) { const d0 = x / y; for (@as([4]T, d0)) |v, i| { try expectEqual(x[i] / y[i], v); } } const d1 = @divExact(x, y); for (@as([4]T, d1)) |v, i| { try expectEqual(@divExact(x[i], y[i]), v); } const d2 = @divFloor(x, y); for (@as([4]T, d2)) |v, i| { try expectEqual(@divFloor(x[i], y[i]), v); } const d3 = @divTrunc(x, y); for (@as([4]T, d3)) |v, i| { try expectEqual(@divTrunc(x[i], y[i]), v); } } fn doTheTestMod(comptime T: type, x: Vector(4, T), y: Vector(4, T)) !void { if ((!comptime std.meta.trait.isSignedInt(T)) and @typeInfo(T) != .Float) { const r0 = x % y; for (@as([4]T, r0)) |v, i| { try expectEqual(x[i] % y[i], v); } } const r1 = @mod(x, y); for (@as([4]T, r1)) |v, i| { try expectEqual(@mod(x[i], y[i]), v); } const r2 = @rem(x, y); for (@as([4]T, r2)) |v, i| { try expectEqual(@rem(x[i], y[i]), v); } } fn doTheTest() !void { // https://github.com/ziglang/zig/issues/4952 if (builtin.target.os.tag != .windows) { try doTheTestDiv(f16, [4]f16{ 4.0, -4.0, 4.0, -4.0 }, [4]f16{ 1.0, 2.0, -1.0, -2.0 }); } try doTheTestDiv(f32, [4]f32{ 4.0, -4.0, 4.0, -4.0 }, [4]f32{ 1.0, 2.0, -1.0, -2.0 }); try doTheTestDiv(f64, [4]f64{ 4.0, -4.0, 4.0, -4.0 }, [4]f64{ 1.0, 2.0, -1.0, -2.0 }); // https://github.com/ziglang/zig/issues/4952 if (builtin.target.os.tag != .windows) { try doTheTestMod(f16, [4]f16{ 4.0, -4.0, 4.0, -4.0 }, [4]f16{ 1.0, 2.0, 0.5, 3.0 }); } try doTheTestMod(f32, [4]f32{ 4.0, -4.0, 4.0, -4.0 }, [4]f32{ 1.0, 2.0, 0.5, 3.0 }); try doTheTestMod(f64, [4]f64{ 4.0, -4.0, 4.0, -4.0 }, [4]f64{ 1.0, 2.0, 0.5, 3.0 }); try doTheTestDiv(i8, [4]i8{ 4, -4, 4, -4 }, [4]i8{ 1, 2, -1, -2 }); try doTheTestDiv(i16, [4]i16{ 4, -4, 4, -4 }, [4]i16{ 1, 2, -1, -2 }); try doTheTestDiv(i32, [4]i32{ 4, -4, 4, -4 }, [4]i32{ 1, 2, -1, -2 }); try doTheTestDiv(i64, [4]i64{ 4, -4, 4, -4 }, [4]i64{ 1, 2, -1, -2 }); try doTheTestMod(i8, [4]i8{ 4, -4, 4, -4 }, [4]i8{ 1, 2, 4, 8 }); try doTheTestMod(i16, [4]i16{ 4, -4, 4, -4 }, [4]i16{ 1, 2, 4, 8 }); try doTheTestMod(i32, [4]i32{ 4, -4, 4, -4 }, [4]i32{ 1, 2, 4, 8 }); try doTheTestMod(i64, [4]i64{ 4, -4, 4, -4 }, [4]i64{ 1, 2, 4, 8 }); try doTheTestDiv(u8, [4]u8{ 1, 2, 4, 8 }, [4]u8{ 1, 1, 2, 4 }); try doTheTestDiv(u16, [4]u16{ 1, 2, 4, 8 }, [4]u16{ 1, 1, 2, 4 }); try doTheTestDiv(u32, [4]u32{ 1, 2, 4, 8 }, [4]u32{ 1, 1, 2, 4 }); try doTheTestDiv(u64, [4]u64{ 1, 2, 4, 8 }, [4]u64{ 1, 1, 2, 4 }); try doTheTestMod(u8, [4]u8{ 1, 2, 4, 8 }, [4]u8{ 1, 1, 2, 4 }); try doTheTestMod(u16, [4]u16{ 1, 2, 4, 8 }, [4]u16{ 1, 1, 2, 4 }); try doTheTestMod(u32, [4]u32{ 1, 2, 4, 8 }, [4]u32{ 1, 1, 2, 4 }); try doTheTestMod(u64, [4]u64{ 1, 2, 4, 8 }, [4]u64{ 1, 1, 2, 4 }); } }; try S.doTheTest(); comptime try S.doTheTest(); } test "vector bitwise not operator" { const S = struct { fn doTheTestNot(comptime T: type, x: Vector(4, T)) !void { var y = ~x; for (@as([4]T, y)) |v, i| { try expectEqual(~x[i], v); } } fn doTheTest() !void { try doTheTestNot(u8, [_]u8{ 0, 2, 4, 255 }); try doTheTestNot(u16, [_]u16{ 0, 2, 4, 255 }); try doTheTestNot(u32, [_]u32{ 0, 2, 4, 255 }); try doTheTestNot(u64, [_]u64{ 0, 2, 4, 255 }); try doTheTestNot(u8, [_]u8{ 0, 2, 4, 255 }); try doTheTestNot(u16, [_]u16{ 0, 2, 4, 255 }); try doTheTestNot(u32, [_]u32{ 0, 2, 4, 255 }); try doTheTestNot(u64, [_]u64{ 0, 2, 4, 255 }); } }; try S.doTheTest(); comptime try S.doTheTest(); } test "vector shift operators" { const S = struct { fn doTheTestShift(x: anytype, y: anytype) !void { const N = @typeInfo(@TypeOf(x)).Array.len; const TX = @typeInfo(@TypeOf(x)).Array.child; const TY = @typeInfo(@TypeOf(y)).Array.child; var xv = @as(Vector(N, TX), x); var yv = @as(Vector(N, TY), y); var z0 = xv >> yv; for (@as([N]TX, z0)) |v, i| { try expectEqual(x[i] >> y[i], v); } var z1 = xv << yv; for (@as([N]TX, z1)) |v, i| { try expectEqual(x[i] << y[i], v); } } fn doTheTestShiftExact(x: anytype, y: anytype, dir: enum { Left, Right }) !void { const N = @typeInfo(@TypeOf(x)).Array.len; const TX = @typeInfo(@TypeOf(x)).Array.child; const TY = @typeInfo(@TypeOf(y)).Array.child; var xv = @as(Vector(N, TX), x); var yv = @as(Vector(N, TY), y); var z = if (dir == .Left) @shlExact(xv, yv) else @shrExact(xv, yv); for (@as([N]TX, z)) |v, i| { const check = if (dir == .Left) x[i] << y[i] else x[i] >> y[i]; try expectEqual(check, v); } } fn doTheTest() !void { try doTheTestShift([_]u8{ 0, 2, 4, math.maxInt(u8) }, [_]u3{ 2, 0, 2, 7 }); try doTheTestShift([_]u16{ 0, 2, 4, math.maxInt(u16) }, [_]u4{ 2, 0, 2, 15 }); try doTheTestShift([_]u24{ 0, 2, 4, math.maxInt(u24) }, [_]u5{ 2, 0, 2, 23 }); try doTheTestShift([_]u32{ 0, 2, 4, math.maxInt(u32) }, [_]u5{ 2, 0, 2, 31 }); try doTheTestShift([_]u64{ 0xfe, math.maxInt(u64) }, [_]u6{ 0, 63 }); try doTheTestShift([_]i8{ 0, 2, 4, math.maxInt(i8) }, [_]u3{ 2, 0, 2, 7 }); try doTheTestShift([_]i16{ 0, 2, 4, math.maxInt(i16) }, [_]u4{ 2, 0, 2, 7 }); try doTheTestShift([_]i24{ 0, 2, 4, math.maxInt(i24) }, [_]u5{ 2, 0, 2, 7 }); try doTheTestShift([_]i32{ 0, 2, 4, math.maxInt(i32) }, [_]u5{ 2, 0, 2, 7 }); try doTheTestShift([_]i64{ 0xfe, math.maxInt(i64) }, [_]u6{ 0, 63 }); try doTheTestShiftExact([_]u8{ 0, 1, 1 << 7, math.maxInt(u8) ^ 1 }, [_]u3{ 4, 0, 7, 1 }, .Right); try doTheTestShiftExact([_]u16{ 0, 1, 1 << 15, math.maxInt(u16) ^ 1 }, [_]u4{ 4, 0, 15, 1 }, .Right); try doTheTestShiftExact([_]u24{ 0, 1, 1 << 23, math.maxInt(u24) ^ 1 }, [_]u5{ 4, 0, 23, 1 }, .Right); try doTheTestShiftExact([_]u32{ 0, 1, 1 << 31, math.maxInt(u32) ^ 1 }, [_]u5{ 4, 0, 31, 1 }, .Right); try doTheTestShiftExact([_]u64{ 1 << 63, 1 }, [_]u6{ 63, 0 }, .Right); try doTheTestShiftExact([_]u8{ 0, 1, 1, math.maxInt(u8) ^ (1 << 7) }, [_]u3{ 4, 0, 7, 1 }, .Left); try doTheTestShiftExact([_]u16{ 0, 1, 1, math.maxInt(u16) ^ (1 << 15) }, [_]u4{ 4, 0, 15, 1 }, .Left); try doTheTestShiftExact([_]u24{ 0, 1, 1, math.maxInt(u24) ^ (1 << 23) }, [_]u5{ 4, 0, 23, 1 }, .Left); try doTheTestShiftExact([_]u32{ 0, 1, 1, math.maxInt(u32) ^ (1 << 31) }, [_]u5{ 4, 0, 31, 1 }, .Left); try doTheTestShiftExact([_]u64{ 1 << 63, 1 }, [_]u6{ 0, 63 }, .Left); } }; switch (builtin.target.cpu.arch) { .i386, .aarch64, .aarch64_be, .aarch64_32, .arm, .armeb, .thumb, .thumbeb, .mips, .mipsel, .mips64, .mips64el, .riscv64, .sparcv9, => { // LLVM miscompiles on this architecture // https://github.com/ziglang/zig/issues/4951 return error.SkipZigTest; }, else => {}, } try S.doTheTest(); comptime try S.doTheTest(); } test "vector reduce operation" { const S = struct { fn doTheTestReduce(comptime op: std.builtin.ReduceOp, x: anytype, expected: anytype) !void { const N = @typeInfo(@TypeOf(x)).Array.len; const TX = @typeInfo(@TypeOf(x)).Array.child; var r = @reduce(op, @as(Vector(N, TX), x)); switch (@typeInfo(TX)) { .Int, .Bool => try expectEqual(expected, r), .Float => { const expected_nan = math.isNan(expected); const got_nan = math.isNan(r); if (expected_nan and got_nan) { // Do this check explicitly as two NaN values are never // equal. } else { try expectApproxEqRel(expected, r, math.sqrt(math.epsilon(TX))); } }, else => unreachable, } } fn doTheTest() !void { try doTheTestReduce(.Add, [4]i16{ -9, -99, -999, -9999 }, @as(i32, -11106)); try doTheTestReduce(.Add, [4]u16{ 9, 99, 999, 9999 }, @as(u32, 11106)); try doTheTestReduce(.Add, [4]i32{ -9, -99, -999, -9999 }, @as(i32, -11106)); try doTheTestReduce(.Add, [4]u32{ 9, 99, 999, 9999 }, @as(u32, 11106)); try doTheTestReduce(.Add, [4]i64{ -9, -99, -999, -9999 }, @as(i64, -11106)); try doTheTestReduce(.Add, [4]u64{ 9, 99, 999, 9999 }, @as(u64, 11106)); try doTheTestReduce(.Add, [4]i128{ -9, -99, -999, -9999 }, @as(i128, -11106)); try doTheTestReduce(.Add, [4]u128{ 9, 99, 999, 9999 }, @as(u128, 11106)); try doTheTestReduce(.Add, [4]f16{ -1.9, 5.1, -60.3, 100.0 }, @as(f16, 42.9)); try doTheTestReduce(.Add, [4]f32{ -1.9, 5.1, -60.3, 100.0 }, @as(f32, 42.9)); try doTheTestReduce(.Add, [4]f64{ -1.9, 5.1, -60.3, 100.0 }, @as(f64, 42.9)); try doTheTestReduce(.And, [4]bool{ true, false, true, true }, @as(bool, false)); try doTheTestReduce(.And, [4]u1{ 1, 0, 1, 1 }, @as(u1, 0)); try doTheTestReduce(.And, [4]u16{ 0xffff, 0xff55, 0xaaff, 0x1010 }, @as(u16, 0x10)); try doTheTestReduce(.And, [4]u32{ 0xffffffff, 0xffff5555, 0xaaaaffff, 0x10101010 }, @as(u32, 0x1010)); try doTheTestReduce(.And, [4]u64{ 0xffffffff, 0xffff5555, 0xaaaaffff, 0x10101010 }, @as(u64, 0x1010)); try doTheTestReduce(.Min, [4]i16{ -1, 2, 3, 4 }, @as(i16, -1)); try doTheTestReduce(.Min, [4]u16{ 1, 2, 3, 4 }, @as(u16, 1)); try doTheTestReduce(.Min, [4]i32{ 1234567, -386, 0, 3 }, @as(i32, -386)); try doTheTestReduce(.Min, [4]u32{ 99, 9999, 9, 99999 }, @as(u32, 9)); // LLVM 11 ERROR: Cannot select type // https://github.com/ziglang/zig/issues/7138 if (builtin.target.cpu.arch != .aarch64) { try doTheTestReduce(.Min, [4]i64{ 1234567, -386, 0, 3 }, @as(i64, -386)); try doTheTestReduce(.Min, [4]u64{ 99, 9999, 9, 99999 }, @as(u64, 9)); } try doTheTestReduce(.Min, [4]i128{ 1234567, -386, 0, 3 }, @as(i128, -386)); try doTheTestReduce(.Min, [4]u128{ 99, 9999, 9, 99999 }, @as(u128, 9)); try doTheTestReduce(.Min, [4]f16{ -10.3, 10.0e9, 13.0, -100.0 }, @as(f16, -100.0)); try doTheTestReduce(.Min, [4]f32{ -10.3, 10.0e9, 13.0, -100.0 }, @as(f32, -100.0)); try doTheTestReduce(.Min, [4]f64{ -10.3, 10.0e9, 13.0, -100.0 }, @as(f64, -100.0)); try doTheTestReduce(.Max, [4]i16{ -1, 2, 3, 4 }, @as(i16, 4)); try doTheTestReduce(.Max, [4]u16{ 1, 2, 3, 4 }, @as(u16, 4)); try doTheTestReduce(.Max, [4]i32{ 1234567, -386, 0, 3 }, @as(i32, 1234567)); try doTheTestReduce(.Max, [4]u32{ 99, 9999, 9, 99999 }, @as(u32, 99999)); // LLVM 11 ERROR: Cannot select type // https://github.com/ziglang/zig/issues/7138 if (builtin.target.cpu.arch != .aarch64) { try doTheTestReduce(.Max, [4]i64{ 1234567, -386, 0, 3 }, @as(i64, 1234567)); try doTheTestReduce(.Max, [4]u64{ 99, 9999, 9, 99999 }, @as(u64, 99999)); } try doTheTestReduce(.Max, [4]i128{ 1234567, -386, 0, 3 }, @as(i128, 1234567)); try doTheTestReduce(.Max, [4]u128{ 99, 9999, 9, 99999 }, @as(u128, 99999)); try doTheTestReduce(.Max, [4]f16{ -10.3, 10.0e9, 13.0, -100.0 }, @as(f16, 10.0e9)); try doTheTestReduce(.Max, [4]f32{ -10.3, 10.0e9, 13.0, -100.0 }, @as(f32, 10.0e9)); try doTheTestReduce(.Max, [4]f64{ -10.3, 10.0e9, 13.0, -100.0 }, @as(f64, 10.0e9)); try doTheTestReduce(.Mul, [4]i16{ -1, 2, 3, 4 }, @as(i16, -24)); try doTheTestReduce(.Mul, [4]u16{ 1, 2, 3, 4 }, @as(u16, 24)); try doTheTestReduce(.Mul, [4]i32{ -9, -99, -999, 999 }, @as(i32, -889218891)); try doTheTestReduce(.Mul, [4]u32{ 1, 2, 3, 4 }, @as(u32, 24)); try doTheTestReduce(.Mul, [4]i64{ 9, 99, 999, 9999 }, @as(i64, 8900199891)); try doTheTestReduce(.Mul, [4]u64{ 9, 99, 999, 9999 }, @as(u64, 8900199891)); try doTheTestReduce(.Mul, [4]i128{ -9, -99, -999, 9999 }, @as(i128, -8900199891)); try doTheTestReduce(.Mul, [4]u128{ 9, 99, 999, 9999 }, @as(u128, 8900199891)); try doTheTestReduce(.Mul, [4]f16{ -1.9, 5.1, -60.3, 100.0 }, @as(f16, 58430.7)); try doTheTestReduce(.Mul, [4]f32{ -1.9, 5.1, -60.3, 100.0 }, @as(f32, 58430.7)); try doTheTestReduce(.Mul, [4]f64{ -1.9, 5.1, -60.3, 100.0 }, @as(f64, 58430.7)); try doTheTestReduce(.Or, [4]bool{ false, true, false, false }, @as(bool, true)); try doTheTestReduce(.Or, [4]u1{ 0, 1, 0, 0 }, @as(u1, 1)); try doTheTestReduce(.Or, [4]u16{ 0xff00, 0xff00, 0xf0, 0xf }, ~@as(u16, 0)); try doTheTestReduce(.Or, [4]u32{ 0xffff0000, 0xff00, 0xf0, 0xf }, ~@as(u32, 0)); try doTheTestReduce(.Or, [4]u64{ 0xffff0000, 0xff00, 0xf0, 0xf }, @as(u64, 0xffffffff)); try doTheTestReduce(.Or, [4]u128{ 0xffff0000, 0xff00, 0xf0, 0xf }, @as(u128, 0xffffffff)); try doTheTestReduce(.Xor, [4]bool{ true, true, true, false }, @as(bool, true)); try doTheTestReduce(.Xor, [4]u1{ 1, 1, 1, 0 }, @as(u1, 1)); try doTheTestReduce(.Xor, [4]u16{ 0x0000, 0x3333, 0x8888, 0x4444 }, ~@as(u16, 0)); try doTheTestReduce(.Xor, [4]u32{ 0x00000000, 0x33333333, 0x88888888, 0x44444444 }, ~@as(u32, 0)); try doTheTestReduce(.Xor, [4]u64{ 0x00000000, 0x33333333, 0x88888888, 0x44444444 }, @as(u64, 0xffffffff)); try doTheTestReduce(.Xor, [4]u128{ 0x00000000, 0x33333333, 0x88888888, 0x44444444 }, @as(u128, 0xffffffff)); // Test the reduction on vectors containing NaNs. const f16_nan = math.nan(f16); const f32_nan = math.nan(f32); const f64_nan = math.nan(f64); try doTheTestReduce(.Add, [4]f16{ -1.9, 5.1, f16_nan, 100.0 }, f16_nan); try doTheTestReduce(.Add, [4]f32{ -1.9, 5.1, f32_nan, 100.0 }, f32_nan); try doTheTestReduce(.Add, [4]f64{ -1.9, 5.1, f64_nan, 100.0 }, f64_nan); // LLVM 11 ERROR: Cannot select type // https://github.com/ziglang/zig/issues/7138 if (false) { try doTheTestReduce(.Min, [4]f16{ -1.9, 5.1, f16_nan, 100.0 }, f16_nan); try doTheTestReduce(.Min, [4]f32{ -1.9, 5.1, f32_nan, 100.0 }, f32_nan); try doTheTestReduce(.Min, [4]f64{ -1.9, 5.1, f64_nan, 100.0 }, f64_nan); try doTheTestReduce(.Max, [4]f16{ -1.9, 5.1, f16_nan, 100.0 }, f16_nan); try doTheTestReduce(.Max, [4]f32{ -1.9, 5.1, f32_nan, 100.0 }, f32_nan); try doTheTestReduce(.Max, [4]f64{ -1.9, 5.1, f64_nan, 100.0 }, f64_nan); } try doTheTestReduce(.Mul, [4]f16{ -1.9, 5.1, f16_nan, 100.0 }, f16_nan); try doTheTestReduce(.Mul, [4]f32{ -1.9, 5.1, f32_nan, 100.0 }, f32_nan); try doTheTestReduce(.Mul, [4]f64{ -1.9, 5.1, f64_nan, 100.0 }, f64_nan); } }; try S.doTheTest(); comptime try S.doTheTest(); } test "mask parameter of @shuffle is comptime scope" { const __v4hi = std.meta.Vector(4, i16); var v4_a = __v4hi{ 0, 0, 0, 0 }; var v4_b = __v4hi{ 0, 0, 0, 0 }; var shuffled: __v4hi = @shuffle(i16, v4_a, v4_b, std.meta.Vector(4, i32){ std.zig.c_translation.shuffleVectorIndex(0, @typeInfo(@TypeOf(v4_a)).Vector.len), std.zig.c_translation.shuffleVectorIndex(0, @typeInfo(@TypeOf(v4_a)).Vector.len), std.zig.c_translation.shuffleVectorIndex(0, @typeInfo(@TypeOf(v4_a)).Vector.len), std.zig.c_translation.shuffleVectorIndex(0, @typeInfo(@TypeOf(v4_a)).Vector.len), }); _ = shuffled; } test "saturating add" { const S = struct { fn doTheTest() !void { const u8x3 = std.meta.Vector(3, u8); try expectEqual(u8x3{ 255, 255, 255 }, (u8x3{ 255, 254, 1 } +| u8x3{ 1, 2, 255 })); const i8x3 = std.meta.Vector(3, i8); try expectEqual(i8x3{ 127, 127, 127 }, (i8x3{ 127, 126, 1 } +| i8x3{ 1, 2, 127 })); } }; try S.doTheTest(); comptime try S.doTheTest(); } test "saturating subtraction" { const S = struct { fn doTheTest() !void { const u8x3 = std.meta.Vector(3, u8); try expectEqual(u8x3{ 0, 0, 0 }, (u8x3{ 0, 0, 0 } -| u8x3{ 255, 255, 255 })); } }; try S.doTheTest(); comptime try S.doTheTest(); } test "saturating multiplication" { // TODO: once #9660 has been solved, remove this line if (builtin.target.cpu.arch == .wasm32) return error.SkipZigTest; const S = struct { fn doTheTest() !void { const u8x3 = std.meta.Vector(3, u8); try expectEqual(u8x3{ 255, 255, 255 }, (u8x3{ 2, 2, 2 } *| u8x3{ 255, 255, 255 })); } }; try S.doTheTest(); comptime try S.doTheTest(); } test "saturating shift-left" { const S = struct { fn doTheTest() !void { const u8x3 = std.meta.Vector(3, u8); try expectEqual(u8x3{ 255, 255, 255 }, (u8x3{ 255, 255, 255 } <<| u8x3{ 1, 1, 1 })); } }; try S.doTheTest(); comptime try S.doTheTest(); }