const std = @import("std"); const expect = std.testing.expect; usingnamespace @import("string_types.zig"); pub const MutableString = struct { allocator: *std.mem.Allocator, list: std.ArrayListUnmanaged(u8), pub fn init(allocator: *std.mem.Allocator, capacity: usize) !MutableString { return MutableString{ .allocator = allocator, .list = try std.ArrayListUnmanaged(u8).initCapacity(allocator, capacity) }; } 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 mutable = try MutableString.init(allocator, 0); var needsGap = false; for (str) |c| { if (std.ascii.isLower(c) or std.ascii.isUpper(c) or (mutable.len() > 0 and std.ascii.isAlNum(c))) { if (needsGap) { try mutable.appendChar('_'); needsGap = false; } try mutable.appendChar(c); } else if (!needsGap) { needsGap = true; } } if (mutable.len() > 0) { return mutable.list.toOwnedSlice(allocator); } else { return str; } } pub fn len(self: *MutableString) usize { return self.list.items.len; } pub fn copy(self: *MutableString, str: anytype) !void { try self.list.ensureCapacity(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 fn deinit(self: *MutableString) !void { self.list.deinit(self.allocator); } pub fn appendChar(self: *MutableString, char: u8) !void { try self.list.append(self.allocator, char); } pub fn appendCharAssumeCapacity(self: *MutableString, char: u8) !void { try self.list.appendAssumeCapacity(self.allocator, char); } pub fn append(self: *MutableString, char: []const u8) !void { try self.list.appendSlice(self.allocator, char); } pub fn appendAssumeCapacity(self: *MutableString, char: []const u8) !void { try self.list.appendSliceAssumeCapacity(self.allocator, char); } // pub fn deleteAt(self: *MutableString, i: usize) { // self.list.swapRemove(i); // } pub fn containsChar(self: *MutableString, char: u8) bool { return self.indexOfChar(char) != null; } pub fn indexOfChar(self: *MutableString, char: u8) ?usize { return std.mem.indexOfScalar(@TypeOf(char), self.list.items, char); } pub fn lastIndexOfChar(self: *MutableString, char: u8) ?usize { return std.mem.lastIndexOfScalar(@TypeOf(char), self.list.items, char); } pub fn lastIndexOf(self: *MutableString, str: u8) ?usize { return std.mem.lastIndexOf(u8, self.list.items, str); } pub fn indexOf(self: *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); } }; test "MutableString" { const alloc = std.heap.page_allocator; var str = try MutableString.initCopy(alloc, "hello"); expect(str.eql("hello")); } test "MutableString.ensureValidIdentifier" { const alloc = std.heap.page_allocator; std.testing.expectEqualStrings("jquery", try MutableString.ensureValidIdentifier("jquery", alloc)); std.testing.expectEqualStrings("jquery_foo", try MutableString.ensureValidIdentifier("jquery😋foo", alloc)); }