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|
const std = @import("std");
const common = @import("./common.zig");
const builtin = @import("builtin");
const assert = std.debug.assert;
const memcpy = @import("memcpy.zig");
const Element = common.PreferredLoadStoreElement;
comptime {
if (builtin.object_format != .c) {
const export_options: std.builtin.ExportOptions = .{
.name = "memmove",
.linkage = common.linkage,
.visibility = common.visibility,
};
if (builtin.mode == .ReleaseSmall or builtin.zig_backend == .stage2_aarch64)
@export(&memmoveSmall, export_options)
else
@export(&memmoveFast, export_options);
}
}
fn memmoveSmall(opt_dest: ?[*]u8, opt_src: ?[*]const u8, len: usize) callconv(.c) ?[*]u8 {
const dest = opt_dest.?;
const src = opt_src.?;
if (@intFromPtr(dest) < @intFromPtr(src)) {
for (0..len) |i| {
dest[i] = src[i];
}
} else {
for (0..len) |i| {
dest[len - 1 - i] = src[len - 1 - i];
}
}
return dest;
}
fn memmoveFast(dest: ?[*]u8, src: ?[*]u8, len: usize) callconv(.c) ?[*]u8 {
@setRuntimeSafety(common.test_safety);
const small_limit = @max(2 * @sizeOf(Element), @sizeOf(Element));
if (copySmallLength(small_limit, dest.?, src.?, len)) return dest;
const dest_address = @intFromPtr(dest);
const src_address = @intFromPtr(src);
if (src_address < dest_address) {
copyBackwards(dest.?, src.?, len);
} else {
copyForwards(dest.?, src.?, len);
}
return dest;
}
inline fn copySmallLength(
comptime small_limit: comptime_int,
dest: [*]u8,
src: [*]const u8,
len: usize,
) bool {
if (len < 16) {
copyLessThan16(dest, src, len);
return true;
}
if (comptime 2 < (std.math.log2(small_limit) + 1) / 2) {
if (copy16ToSmallLimit(small_limit, dest, src, len)) return true;
}
return false;
}
inline fn copyLessThan16(
dest: [*]u8,
src: [*]const u8,
len: usize,
) void {
@setRuntimeSafety(common.test_safety);
if (len < 4) {
if (len == 0) return;
const b = len / 2;
const d0 = src[0];
const db = src[b];
const de = src[len - 1];
dest[0] = d0;
dest[b] = db;
dest[len - 1] = de;
return;
}
copyRange4(4, dest, src, len);
}
inline fn copy16ToSmallLimit(
comptime small_limit: comptime_int,
dest: [*]u8,
src: [*]const u8,
len: usize,
) bool {
@setRuntimeSafety(common.test_safety);
inline for (2..(std.math.log2(small_limit) + 1) / 2 + 1) |p| {
const limit = 1 << (2 * p);
if (len < limit) {
copyRange4(limit / 4, dest, src, len);
return true;
}
}
return false;
}
/// copy `len` bytes from `src` to `dest`; `len` must be in the range
/// `[copy_len, 4 * copy_len)`.
inline fn copyRange4(
comptime copy_len: comptime_int,
dest: [*]u8,
src: [*]const u8,
len: usize,
) void {
@setRuntimeSafety(common.test_safety);
comptime assert(std.math.isPowerOfTwo(copy_len));
assert(len >= copy_len);
assert(len < 4 * copy_len);
const a = len & (copy_len * 2);
const b = a / 2;
const last = len - copy_len;
const pen = last - b;
const d0 = src[0..copy_len].*;
const d1 = src[b..][0..copy_len].*;
const d2 = src[pen..][0..copy_len].*;
const d3 = src[last..][0..copy_len].*;
// the slice dest[0..len] is needed to workaround -ODebug miscompilation
dest[0..len][0..copy_len].* = d0;
dest[b..][0..copy_len].* = d1;
dest[pen..][0..copy_len].* = d2;
dest[last..][0..copy_len].* = d3;
}
inline fn copyForwards(
dest: [*]u8,
src: [*]const u8,
len: usize,
) void {
@setRuntimeSafety(common.test_safety);
assert(len >= 2 * @sizeOf(Element));
const head = src[0..@sizeOf(Element)].*;
const tail = src[len - @sizeOf(Element) ..][0..@sizeOf(Element)].*;
const alignment_offset = @alignOf(Element) - @intFromPtr(src) % @alignOf(Element);
const n = len - alignment_offset;
const d = dest + alignment_offset;
const s = src + alignment_offset;
copyBlocksAlignedSource(@ptrCast(d), @ptrCast(@alignCast(s)), n);
// copy last `copy_size` bytes unconditionally, since block copy
// methods only copy a multiple of `copy_size` bytes.
dest[len - @sizeOf(Element) ..][0..@sizeOf(Element)].* = tail;
dest[0..@sizeOf(Element)].* = head;
}
inline fn copyBlocksAlignedSource(
dest: [*]align(1) Element,
src: [*]const Element,
max_bytes: usize,
) void {
copyBlocks(dest, src, max_bytes);
}
/// Copies the largest multiple of `@sizeOf(T)` bytes from `src` to `dest`,
/// that is less than `max_bytes` where `T` is the child type of `src` and
/// `dest`; `max_bytes` must be at least `@sizeOf(T)`.
inline fn copyBlocks(
dest: anytype,
src: anytype,
max_bytes: usize,
) void {
@setRuntimeSafety(common.test_safety);
const T = @typeInfo(@TypeOf(dest)).pointer.child;
comptime assert(T == @typeInfo(@TypeOf(src)).pointer.child);
const loop_count = max_bytes / @sizeOf(T);
for (dest[0..loop_count], src[0..loop_count]) |*d, s| {
d.* = s;
}
}
inline fn copyBackwards(
dest: [*]u8,
src: [*]const u8,
len: usize,
) void {
const end_bytes = src[len - @sizeOf(Element) ..][0..@sizeOf(Element)].*;
const start_bytes = src[0..@sizeOf(Element)].*;
const d_addr: usize = std.mem.alignBackward(usize, @intFromPtr(dest) + len, @alignOf(Element));
const d: [*]Element = @ptrFromInt(d_addr);
const n = d_addr - @intFromPtr(dest);
const s: [*]align(1) const Element = @ptrCast(src + n);
const loop_count = n / @sizeOf(Element);
var i: usize = 1;
while (i < loop_count + 1) : (i += 1) {
(d - i)[0] = (s - i)[0];
}
dest[0..@sizeOf(Element)].* = start_bytes;
dest[len - @sizeOf(Element) ..][0..@sizeOf(Element)].* = end_bytes;
}
test memmoveFast {
if (builtin.zig_backend == .stage2_aarch64) return error.SkipZigTest;
const max_len = 1024;
var buffer: [max_len + @alignOf(Element) - 1]u8 = undefined;
for (&buffer, 0..) |*b, i| {
b.* = @intCast(i % 97);
}
var move_buffer: [max_len + @alignOf(Element) - 1]u8 align(@alignOf(Element)) = undefined;
for (0..max_len) |copy_len| {
for (0..@alignOf(Element)) |s_offset| {
for (0..@alignOf(Element)) |d_offset| {
for (&move_buffer, buffer) |*d, s| {
d.* = s;
}
const dest = move_buffer[d_offset..][0..copy_len];
const src = move_buffer[s_offset..][0..copy_len];
_ = memmoveFast(dest.ptr, src.ptr, copy_len);
std.testing.expectEqualSlices(u8, buffer[s_offset..][0..copy_len], dest) catch |e| {
std.debug.print(
"error occured with source offset {d} and destination offset {d}\n",
.{
s_offset,
d_offset,
},
);
return e;
};
}
}
}
}
|
