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//! By convention, root.zig is the root source file when making a library. If
//! you are making an executable, the convention is to delete this file and
//! start with main.zig instead.
const std = @import("std");
const builtin = @import("builtin");
const testing = std.testing;
pub const value = @import("libzisp/value.zig");
test "double" {
const d1: f64 = 0.123456789;
const d2: f64 = -0.987654321;
const v1 = value.double.pack(d1);
const v2 = value.double.pack(d2);
const v3 = value.double.add(v1, v2);
const result = value.double.unpack(v3);
try std.testing.expect(value.double.check(v1));
try std.testing.expect(value.double.check(v2));
try std.testing.expect(value.double.check(v3));
try std.testing.expectEqual(d1 + d2, result);
}
test "fixnum" {
const int1: i64 = 123456789;
const int2: i64 = -987654321;
const v1 = value.fixnum.pack(int1);
const v2 = value.fixnum.pack(int2);
const v3 = value.fixnum.add(v1, v2);
const result = value.fixnum.unpack(v3);
try std.testing.expect(value.fixnum.check(v1));
try std.testing.expect(value.fixnum.check(v2));
try std.testing.expect(value.fixnum.check(v3));
try std.testing.expectEqual(int1 + int2, result);
}
test "ptr" {
const p: *anyopaque = @ptrFromInt(256);
const p1 = value.ptr.pack(p, value.ptr.Tag.string);
try std.testing.expect(value.ptr.check(p1));
try std.testing.expect(value.ptr.checkZisp(p1));
try std.testing.expect(value.ptr.checkNormal(p1));
const p1v, const p1t = value.ptr.unpack(p1);
try std.testing.expectEqual(p, p1v);
try std.testing.expectEqual(value.ptr.Tag.string, p1t);
const p2 = value.ptr.makeWeak(p1);
try std.testing.expect(value.ptr.check(p2));
try std.testing.expect(value.ptr.checkZisp(p2));
try std.testing.expect(value.ptr.checkWeak(p2));
const p2v, const p2t = value.ptr.unpack(p1);
try std.testing.expectEqual(p, p2v);
try std.testing.expectEqual(value.ptr.Tag.string, p2t);
}
test "sstr" {
const impls = .{
.{ value.sstr.pack, value.sstr.unpack },
// .{ value.sstr.pack1, value.sstr.unpack1 },
// .{ value.sstr.pack2, value.sstr.unpack2 },
// .{ value.sstr.pack3, value.sstr.unpack3 },
// .{ value.sstr.pack4, value.sstr.unpack4 },
};
inline for (impls, 0..) |impl, i| {
const pack, const unpack = impl;
const ss1 = pack("1");
const ss2 = pack("123");
const ss3 = pack("123456");
const s1, const l1 = unpack(ss1);
const s2, const l2 = unpack(ss2);
const s3, const l3 = unpack(ss3);
try std.testing.expect(value.sstr.check(ss1));
try std.testing.expect(value.sstr.check(ss2));
try std.testing.expect(value.sstr.check(ss3));
try std.testing.expectEqual(1, l1);
try std.testing.expectEqualStrings("1", s1[0..l1]);
try std.testing.expectEqual(3, l2);
try std.testing.expectEqualStrings("123", s2[0..l2]);
try std.testing.expectEqual(6, l3);
try std.testing.expectEqualStrings("123456", s3[0..l3]);
var timer = try std.time.Timer.start();
var ns: f64 = undefined;
var secs: f64 = undefined;
const iters = 1;
if (iters > 1) {
for (0..iters) |_i| {
_ = _i;
std.mem.doNotOptimizeAway(pack("1"));
std.mem.doNotOptimizeAway(pack("123"));
std.mem.doNotOptimizeAway(pack("123456"));
}
ns = @floatFromInt(timer.lap());
secs = ns / 1_000_000_000;
std.debug.print("pack{}: {d:.3}s\t", .{ i, secs });
for (0..iters) |_i| {
_ = _i;
std.mem.doNotOptimizeAway(unpack(ss1));
std.mem.doNotOptimizeAway(unpack(ss2));
std.mem.doNotOptimizeAway(unpack(ss3));
}
ns = @floatFromInt(timer.lap());
secs = ns / 1_000_000_000;
std.debug.print("unpack{}: {d:.3}s\n", .{ i, secs });
}
}
}
test "char" {
const c1 = value.char.pack('\x00');
try std.testing.expect(value.char.check(c1));
try std.testing.expectEqual('\x00', value.char.unpack(c1));
const c2 = value.char.pack('😀');
try std.testing.expect(value.char.check(c2));
try std.testing.expectEqual('😀', value.char.unpack(c2));
}
test "misc" {
const f = value.boole.pack(false);
try std.testing.expect(value.boole.check(f));
try std.testing.expectEqual(false, value.boole.unpack(f));
try std.testing.expect(value.boole.unpack(value.boole.pred(f)));
const t = value.boole.pack(true);
try std.testing.expect(value.boole.check(t));
try std.testing.expectEqual(true, value.boole.unpack(t));
try std.testing.expect(value.boole.unpack(value.boole.pred(t)));
const nil = value.nil.get();
try std.testing.expect(value.nil.check(nil));
try std.testing.expect(value.boole.unpack(value.nil.pred(nil)));
const eof = value.eof.get();
try std.testing.expect(value.eof.check(eof));
try std.testing.expect(value.boole.unpack(value.eof.pred(eof)));
}
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