const std = @import("index.zig"); const debug = std.debug; const mem = std.mem; const Allocator = mem.Allocator; const assert = debug.assert; const ArrayList = std.ArrayList; const fmt = std.fmt; /// A buffer that allocates memory and maintains a null byte at the end. pub const Buffer = struct { list: ArrayList(u8), /// Must deinitialize with deinit. pub fn init(allocator: &Allocator, m: []const u8) !Buffer { var self = try initSize(allocator, m.len); mem.copy(u8, self.list.items, m); return self; } /// Must deinitialize with deinit. pub fn initSize(allocator: &Allocator, size: usize) !Buffer { var self = initNull(allocator); try self.resize(size); return self; } /// Must deinitialize with deinit. /// None of the other operations are valid until you do one of these: /// * ::replaceContents /// * ::replaceContentsBuffer /// * ::resize pub fn initNull(allocator: &Allocator) Buffer { return Buffer { .list = ArrayList(u8).init(allocator), }; } /// Must deinitialize with deinit. pub fn initFromBuffer(buffer: &const Buffer) !Buffer { return Buffer.init(buffer.list.allocator, buffer.toSliceConst()); } /// Buffer takes ownership of the passed in slice. The slice must have been /// allocated with `allocator`. /// Must deinitialize with deinit. pub fn fromOwnedSlice(allocator: &Allocator, slice: []u8) Buffer { var self = Buffer { .list = ArrayList(u8).fromOwnedSlice(allocator, slice), }; self.list.append(0); return self; } /// The caller owns the returned memory. The Buffer becomes null and /// is safe to `deinit`. pub fn toOwnedSlice(self: &Buffer) []u8 { const allocator = self.list.allocator; const result = allocator.shrink(u8, self.list.items, self.len()); *self = initNull(allocator); return result; } pub fn deinit(self: &Buffer) void { self.list.deinit(); } pub fn toSlice(self: &const Buffer) []u8 { return self.list.toSlice()[0..self.len()]; } pub fn toSliceConst(self: &const Buffer) []const u8 { return self.list.toSliceConst()[0..self.len()]; } pub fn shrink(self: &Buffer, new_len: usize) void { assert(new_len <= self.len()); self.list.shrink(new_len + 1); self.list.items[self.len()] = 0; } pub fn resize(self: &Buffer, new_len: usize) !void { try self.list.resize(new_len + 1); self.list.items[self.len()] = 0; } pub fn isNull(self: &const Buffer) bool { return self.list.len == 0; } pub fn len(self: &const Buffer) usize { return self.list.len - 1; } pub fn append(self: &Buffer, m: []const u8) !void { const old_len = self.len(); try self.resize(old_len + m.len); mem.copy(u8, self.list.toSlice()[old_len..], m); } pub fn appendByte(self: &Buffer, byte: u8) !void { const old_len = self.len(); try self.resize(old_len + 1); self.list.toSlice()[old_len] = byte; } pub fn eql(self: &const Buffer, m: []const u8) bool { return mem.eql(u8, self.toSliceConst(), m); } pub fn startsWith(self: &const Buffer, m: []const u8) bool { if (self.len() < m.len) return false; return mem.eql(u8, self.list.items[0..m.len], m); } pub fn endsWith(self: &const Buffer, m: []const u8) bool { const l = self.len(); if (l < m.len) return false; const start = l - m.len; return mem.eql(u8, self.list.items[start..l], m); } pub fn replaceContents(self: &const Buffer, m: []const u8) !void { try self.resize(m.len); mem.copy(u8, self.list.toSlice(), m); } /// For passing to C functions. pub fn ptr(self: &const Buffer) &u8 { return self.list.items.ptr; } }; test "simple Buffer" { const cstr = @import("cstr.zig"); var buf = try Buffer.init(debug.global_allocator, ""); assert(buf.len() == 0); try buf.append("hello"); try buf.append(" "); try buf.append("world"); assert(buf.eql("hello world")); assert(mem.eql(u8, cstr.toSliceConst(buf.toSliceConst().ptr), buf.toSliceConst())); var buf2 = try Buffer.initFromBuffer(&buf); assert(buf.eql(buf2.toSliceConst())); assert(buf.startsWith("hell")); assert(buf.endsWith("orld")); try buf2.resize(4); assert(buf.startsWith(buf2.toSlice())); }