zig/lib/std/special/compiler_rt/shift.zig

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// SPDX-License-Identifier: MIT
2020-12-31 23:07:36 +00:00
// Copyright (c) 2015-2021 Zig Contributors
// This file is part of [zig](https://ziglang.org/), which is MIT licensed.
// The MIT license requires this copyright notice to be included in all copies
// and substantial portions of the software.
const std = @import("std");
const builtin = std.builtin;
const Log2Int = std.math.Log2Int;
fn Dwords(comptime T: type, comptime signed_half: bool) type {
return extern union {
pub const bits = @divExact(@typeInfo(T).Int.bits, 2);
pub const HalfTU = std.meta.Int(.unsigned, bits);
pub const HalfTS = std.meta.Int(.signed, bits);
pub const HalfT = if (signed_half) HalfTS else HalfTU;
all: T,
s: if (builtin.endian == .Little)
struct { low: HalfT, high: HalfT }
else
struct { high: HalfT, low: HalfT },
};
}
// Arithmetic shift left
// Precondition: 0 <= b < bits_in_dword
pub fn ashlXi3(comptime T: type, a: T, b: i32) T {
const dwords = Dwords(T, false);
const S = Log2Int(dwords.HalfT);
const input = dwords{ .all = a };
var output: dwords = undefined;
if (b >= dwords.bits) {
output.s.low = 0;
output.s.high = input.s.low << @intCast(S, b - dwords.bits);
} else if (b == 0) {
return a;
} else {
output.s.low = input.s.low << @intCast(S, b);
output.s.high = input.s.high << @intCast(S, b);
output.s.high |= input.s.low >> @intCast(S, dwords.bits - b);
}
return output.all;
}
// Arithmetic shift right
// Precondition: 0 <= b < T.bit_count
pub fn ashrXi3(comptime T: type, a: T, b: i32) T {
const dwords = Dwords(T, true);
const S = Log2Int(dwords.HalfT);
const input = dwords{ .all = a };
var output: dwords = undefined;
if (b >= dwords.bits) {
output.s.high = input.s.high >> (dwords.bits - 1);
output.s.low = input.s.high >> @intCast(S, b - dwords.bits);
} else if (b == 0) {
return a;
} else {
output.s.high = input.s.high >> @intCast(S, b);
output.s.low = input.s.high << @intCast(S, dwords.bits - b);
// Avoid sign-extension here
output.s.low |= @bitCast(
dwords.HalfT,
@bitCast(dwords.HalfTU, input.s.low) >> @intCast(S, b),
);
}
return output.all;
}
// Logical shift right
// Precondition: 0 <= b < T.bit_count
pub fn lshrXi3(comptime T: type, a: T, b: i32) T {
const dwords = Dwords(T, false);
const S = Log2Int(dwords.HalfT);
const input = dwords{ .all = a };
var output: dwords = undefined;
if (b >= dwords.bits) {
output.s.high = 0;
output.s.low = input.s.high >> @intCast(S, b - dwords.bits);
} else if (b == 0) {
return a;
} else {
output.s.high = input.s.high >> @intCast(S, b);
output.s.low = input.s.high << @intCast(S, dwords.bits - b);
output.s.low |= input.s.low >> @intCast(S, b);
}
return output.all;
}
pub fn __ashldi3(a: i64, b: i32) callconv(.C) i64 {
return @call(.{ .modifier = .always_inline }, ashlXi3, .{ i64, a, b });
}
pub fn __ashlti3(a: i128, b: i32) callconv(.C) i128 {
return @call(.{ .modifier = .always_inline }, ashlXi3, .{ i128, a, b });
}
pub fn __ashrdi3(a: i64, b: i32) callconv(.C) i64 {
return @call(.{ .modifier = .always_inline }, ashrXi3, .{ i64, a, b });
}
pub fn __ashrti3(a: i128, b: i32) callconv(.C) i128 {
return @call(.{ .modifier = .always_inline }, ashrXi3, .{ i128, a, b });
}
pub fn __lshrdi3(a: i64, b: i32) callconv(.C) i64 {
return @call(.{ .modifier = .always_inline }, lshrXi3, .{ i64, a, b });
}
pub fn __lshrti3(a: i128, b: i32) callconv(.C) i128 {
return @call(.{ .modifier = .always_inline }, lshrXi3, .{ i128, a, b });
}
pub fn __aeabi_llsl(a: i64, b: i32) callconv(.AAPCS) i64 {
return __ashldi3(a, b);
}
pub fn __aeabi_lasr(a: i64, b: i32) callconv(.AAPCS) i64 {
return __ashrdi3(a, b);
}
pub fn __aeabi_llsr(a: i64, b: i32) callconv(.AAPCS) i64 {
return __lshrdi3(a, b);
}
test "" {
_ = @import("ashrdi3_test.zig");
_ = @import("ashrti3_test.zig");
_ = @import("ashldi3_test.zig");
_ = @import("ashlti3_test.zig");
_ = @import("lshrdi3_test.zig");
_ = @import("lshrti3_test.zig");
}