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|
const std = @import("std");
const expect = std.testing.expect;
const strings = @import("string_immutable.zig");
const js_lexer = @import("js_lexer.zig");
const string = @import("string_types.zig").string;
const stringZ = @import("string_types.zig").stringZ;
const CodePoint = @import("string_types.zig").CodePoint;
pub const MutableString = struct {
allocator: std.mem.Allocator,
list: std.ArrayListUnmanaged(u8),
pub fn init2048(allocator: std.mem.Allocator) !MutableString {
return MutableString.init(allocator, 2048);
}
pub const Writer = std.io.Writer(*@This(), anyerror, MutableString.writeAll);
pub fn writer(self: *MutableString) Writer {
return Writer{
.context = self,
};
}
pub fn deinit(str: *MutableString) void {
if (str.list.capacity > 0) {
str.list.expandToCapacity();
str.list.deinit(str.allocator);
}
}
pub fn growIfNeeded(self: *MutableString, amount: usize) !void {
try self.list.ensureUnusedCapacity(self.allocator, amount);
}
pub fn write(self: *MutableString, bytes: anytype) !usize {
try self.list.appendSlice(self.allocator, bytes);
return bytes.len;
}
pub fn bufferedWriter(self: *MutableString) BufferedWriter {
return BufferedWriter{ .context = self };
}
pub fn init(allocator: std.mem.Allocator, capacity: usize) !MutableString {
return MutableString{ .allocator = allocator, .list = if (capacity > 0)
try std.ArrayListUnmanaged(u8).initCapacity(allocator, capacity)
else
std.ArrayListUnmanaged(u8){} };
}
pub fn initEmpty(allocator: std.mem.Allocator) MutableString {
return MutableString{ .allocator = allocator, .list = .{} };
}
pub const ensureUnusedCapacity = growIfNeeded;
pub fn initCopy(allocator: std.mem.Allocator, str: anytype) !MutableString {
var mutable = try MutableString.init(allocator, std.mem.len(str));
try mutable.copy(str);
return mutable;
}
// Convert it to an ASCII identifier. Note: If you change this to a non-ASCII
// identifier, you're going to potentially cause trouble with non-BMP code
// points in target environments that don't support bracketed Unicode escapes.
pub fn ensureValidIdentifier(str: string, allocator: std.mem.Allocator) !string {
if (str.len == 0) {
return "_";
}
var iterator = strings.CodepointIterator.init(str);
var cursor = strings.CodepointIterator.Cursor{};
var has_needed_gap = false;
var needs_gap = false;
var start_i: usize = 0;
if (!iterator.next(&cursor)) return "_";
const JSLexerTables = @import("./js_lexer_tables.zig");
// Common case: no gap necessary. No allocation necessary.
needs_gap = !js_lexer.isIdentifierStart(cursor.c);
if (!needs_gap) {
// Are there any non-alphanumeric chars at all?
while (iterator.next(&cursor)) {
if (!js_lexer.isIdentifierContinue(cursor.c) or cursor.width > 1) {
needs_gap = true;
start_i = cursor.i;
break;
}
}
}
if (!needs_gap and str.len >= 3 and str.len <= 10) {
return JSLexerTables.StrictModeReservedWordsRemap.get(str) orelse str;
}
if (needs_gap) {
var mutable = try MutableString.initCopy(allocator, str[0..start_i]);
needs_gap = false;
var slice = str[start_i..];
iterator = strings.CodepointIterator.init(slice);
cursor = strings.CodepointIterator.Cursor{};
while (iterator.next(&cursor)) {
if (js_lexer.isIdentifierContinue(cursor.c) and cursor.width == 1) {
if (needs_gap) {
try mutable.appendChar('_');
needs_gap = false;
has_needed_gap = true;
}
try mutable.append(slice[cursor.i .. cursor.i + @as(u32, cursor.width)]);
} else if (!needs_gap) {
needs_gap = true;
// skip the code point, replace it with a single _
}
}
// If it ends with an emoji
if (needs_gap) {
try mutable.appendChar('_');
needs_gap = false;
has_needed_gap = true;
}
return mutable.list.toOwnedSlice(allocator);
}
return str;
}
pub fn len(self: *const MutableString) usize {
return self.list.items.len;
}
pub fn copy(self: *MutableString, str: anytype) !void {
try self.list.ensureTotalCapacity(self.allocator, std.mem.len(str[0..]));
if (self.list.items.len == 0) {
try self.list.insertSlice(self.allocator, 0, str);
} else {
try self.list.replaceRange(self.allocator, 0, std.mem.len(str[0..]), str[0..]);
}
}
pub inline fn growBy(self: *MutableString, amount: usize) !void {
try self.list.ensureUnusedCapacity(self.allocator, amount);
}
pub inline fn appendSlice(self: *MutableString, slice: []const u8) !void {
try self.list.appendSlice(self.allocator, slice);
}
pub inline fn reset(
self: *MutableString,
) void {
self.list.shrinkRetainingCapacity(0);
}
pub fn inflate(self: *MutableString, amount: usize) !void {
try self.list.resize(self.allocator, amount);
}
pub inline fn appendChar(self: *MutableString, char: u8) !void {
try self.list.append(self.allocator, char);
}
pub inline fn appendCharAssumeCapacity(self: *MutableString, char: u8) void {
self.list.appendAssumeCapacity(char);
}
pub inline fn append(self: *MutableString, char: []const u8) !void {
try self.list.appendSlice(self.allocator, char);
}
pub inline fn appendAssumeCapacity(self: *MutableString, char: []const u8) void {
self.list.appendSliceAssumeCapacity(
char,
);
}
pub inline fn lenI(self: *MutableString) i32 {
return @intCast(i32, self.list.items.len);
}
pub fn toOwnedSlice(self: *MutableString) string {
return self.list.toOwnedSlice(self.allocator);
}
pub fn toOwnedSliceLeaky(self: *MutableString) []u8 {
return self.list.items;
}
pub fn toOwnedSentinelLeaky(self: *MutableString) [:0]u8 {
if (self.list.items.len > 0 and self.list.items[self.list.items.len - 1] != 0) {
self.list.append(
self.allocator,
0,
) catch unreachable;
}
return self.list.items[0 .. self.list.items.len - 1 :0];
}
pub fn toOwnedSliceLength(self: *MutableString, length: usize) string {
self.list.shrinkAndFree(self.allocator, length);
return self.list.toOwnedSlice(self.allocator);
}
// pub fn deleteAt(self: *MutableString, i: usize) {
// self.list.swapRemove(i);
// }
pub fn containsChar(self: *const MutableString, char: u8) bool {
return self.indexOfChar(char) != null;
}
pub fn indexOfChar(self: *const MutableString, char: u8) ?usize {
return strings.indexOfChar(self.list.items, char);
}
pub fn lastIndexOfChar(self: *const MutableString, char: u8) ?usize {
return strings.lastIndexOfChar(self.list.items, char);
}
pub fn lastIndexOf(self: *const MutableString, str: u8) ?usize {
return strings.lastIndexOfChar(self.list.items, str);
}
pub fn indexOf(self: *const MutableString, str: u8) ?usize {
return std.mem.indexOf(u8, self.list.items, str);
}
pub fn eql(self: *MutableString, other: anytype) bool {
return std.mem.eql(u8, self.list.items, other);
}
pub fn toSocketBuffers(self: *MutableString, comptime count: usize, ranges: anytype) [count]std.x.os.Buffer {
var buffers: [count]std.x.os.Buffer = undefined;
comptime var i: usize = 0;
inline while (i < count) : (i += 1) {
buffers[i] = std.x.os.Buffer.from(self.list.items[ranges[i][0]..ranges[i][1]]);
}
return buffers;
}
pub const BufferedWriter = struct {
context: *MutableString,
buffer: [max]u8 = undefined,
pos: usize = 0,
const max = 2048;
pub const Writer = std.io.Writer(*BufferedWriter, anyerror, BufferedWriter.writeAll);
inline fn remain(this: *BufferedWriter) []u8 {
return this.buffer[this.pos..];
}
pub fn flush(this: *BufferedWriter) !void {
_ = try this.context.writeAll(this.buffer[0..this.pos]);
this.pos = 0;
}
pub fn writeAll(this: *BufferedWriter, bytes: []const u8) anyerror!usize {
var pending = bytes;
if (pending.len >= max) {
try this.flush();
try this.context.append(pending);
return pending.len;
}
if (pending.len > 0) {
if (pending.len + this.pos > max) {
try this.flush();
}
@memcpy(this.remain().ptr, pending.ptr, pending.len);
this.pos += pending.len;
}
return pending.len;
}
pub fn writer(this: *BufferedWriter) BufferedWriter.Writer {
return BufferedWriter.Writer{ .context = this };
}
};
pub fn writeAll(self: *MutableString, bytes: string) !usize {
try self.list.appendSlice(self.allocator, bytes);
return bytes.len;
}
};
test "MutableString" {
const alloc = std.heap.page_allocator;
var str = try MutableString.initCopy(alloc, "hello");
try expect(str.eql("hello"));
}
test "MutableString.ensureValidIdentifier" {
const alloc = std.heap.page_allocator;
try std.testing.expectEqualStrings("jquery", try MutableString.ensureValidIdentifier("jquery", alloc));
try std.testing.expectEqualStrings("jquery_foo", try MutableString.ensureValidIdentifier("jquery😋foo", alloc));
}
test "MutableString BufferedWriter" {
const alloc = std.heap.page_allocator;
var str = try MutableString.init(alloc, 0);
var buffered_writer = str.bufferedWriter();
var writer = buffered_writer.writer();
try writer.writeAll("hello world hello world hello world hello world hello world hello world");
try writer.context.flush();
str = writer.context.context.*;
try std.testing.expectEqualStrings("hello world hello world hello world hello world hello world hello world", str.toOwnedSlice());
}
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