## Buffers Pure Javascript is Unicode friendly but not nice to binary data. When dealing with TCP streams or the file system, it's necessary to handle octet streams. Node has several strategies for manipulating, creating, and consuming octet streams. Raw data is stored in instances of the `Buffer` class. A `Buffer` is similar to an array of integers but corresponds to a raw memory allocation outside the V8 heap. A `Buffer` cannot be resized. The `Buffer` object is global. Converting between Buffers and JavaScript string objects requires an explicit encoding method. Here are the different string encodings; * `'ascii'` - for 7 bit ASCII data only. This encoding method is very fast, and will strip the high bit if set. Note that this encoding converts a null character (`'\0'` or `'\u0000'`) into `0x20` (character code of a space). If you want to convert a null character into `0x00`, you should use `'utf8'`. * `'utf8'` - Multi byte encoded Unicode characters. Many web pages and other document formats use UTF-8. * `'ucs2'` - 2-bytes, little endian encoded Unicode characters. It can encode only BMP(Basic Multilingual Plane, U+0000 - U+FFFF). * `'base64'` - Base64 string encoding. * `'binary'` - A way of encoding raw binary data into strings by using only the first 8 bits of each character. This encoding method is deprecated and should be avoided in favor of `Buffer` objects where possible. This encoding will be removed in future versions of Node. * `'hex'` - Encode each byte as two hexidecimal characters. ### new Buffer(size) Allocates a new buffer of `size` octets. ### new Buffer(array) Allocates a new buffer using an `array` of octets. ### new Buffer(str, encoding='utf8') Allocates a new buffer containing the given `str`. ### buffer.write(string, offset=0, length=buffer.length-offset, encoding='utf8') Writes `string` to the buffer at `offset` using the given encoding. `length` is the number of bytes to write. Returns number of octets written. If `buffer` did not contain enough space to fit the entire string, it will write a partial amount of the string. The method will not write partial characters. Example: write a utf8 string into a buffer, then print it buf = new Buffer(256); len = buf.write('\u00bd + \u00bc = \u00be', 0); console.log(len + " bytes: " + buf.toString('utf8', 0, len)); The number of characters written (which may be different than the number of bytes written) is set in `Buffer._charsWritten` and will be overwritten the next time `buf.write()` is called. ### buffer.toString(encoding, start=0, end=buffer.length) Decodes and returns a string from buffer data encoded with `encoding` beginning at `start` and ending at `end`. See `buffer.write()` example, above. ### buffer[index] Get and set the octet at `index`. The values refer to individual bytes, so the legal range is between `0x00` and `0xFF` hex or `0` and `255`. Example: copy an ASCII string into a buffer, one byte at a time: str = "node.js"; buf = new Buffer(str.length); for (var i = 0; i < str.length ; i++) { buf[i] = str.charCodeAt(i); } console.log(buf); // node.js ### Buffer.isBuffer(obj) Tests if `obj` is a `Buffer`. ### Buffer.byteLength(string, encoding='utf8') Gives the actual byte length of a string. This is not the same as `String.prototype.length` since that returns the number of *characters* in a string. Example: str = '\u00bd + \u00bc = \u00be'; console.log(str + ": " + str.length + " characters, " + Buffer.byteLength(str, 'utf8') + " bytes"); // ½ + ¼ = ¾: 9 characters, 12 bytes ### buffer.length The size of the buffer in bytes. Note that this is not necessarily the size of the contents. `length` refers to the amount of memory allocated for the buffer object. It does not change when the contents of the buffer are changed. buf = new Buffer(1234); console.log(buf.length); buf.write("some string", "ascii", 0); console.log(buf.length); // 1234 // 1234 ### buffer.copy(targetBuffer, targetStart=0, sourceStart=0, sourceEnd=buffer.length) Does a memcpy() between buffers. Example: build two Buffers, then copy `buf1` from byte 16 through byte 19 into `buf2`, starting at the 8th byte in `buf2`. buf1 = new Buffer(26); buf2 = new Buffer(26); for (var i = 0 ; i < 26 ; i++) { buf1[i] = i + 97; // 97 is ASCII a buf2[i] = 33; // ASCII ! } buf1.copy(buf2, 8, 16, 20); console.log(buf2.toString('ascii', 0, 25)); // !!!!!!!!qrst!!!!!!!!!!!!! ### buffer.slice(start, end=buffer.length) Returns a new buffer which references the same memory as the old, but offset and cropped by the `start` and `end` indexes. **Modifying the new buffer slice will modify memory in the original buffer!** Example: build a Buffer with the ASCII alphabet, take a slice, then modify one byte from the original Buffer. var buf1 = new Buffer(26); for (var i = 0 ; i < 26 ; i++) { buf1[i] = i + 97; // 97 is ASCII a } var buf2 = buf1.slice(0, 3); console.log(buf2.toString('ascii', 0, buf2.length)); buf1[0] = 33; console.log(buf2.toString('ascii', 0, buf2.length)); // abc // !bc ### buffer.readUInt8(offset, bigEndian) Reads an unsigned 8 bit integer from the buffer at the specified offset. If `bigEndian` is true, reads bytes in a big endian format, otherwise reads them as little endian. Example: var buf = new Buffer(4); buf[0] = 0x3; buf[1] = 0x4; buf[2] = 0x23; buf[3] = 0x42; for (ii = 0; ii < buf.length; ii++) { console.log(buf.readUInt8(ii, true)); console.log(buf.readUInt8(ii, false)); } // 0x3 // 0x3 // 0x4 // 0x4 // 0x23 // 0x23 // 0x42 // 0x42 ### buffer.readUInt16(offset, bigEndian) Reads an unsigned 16 bit integer from the buffer at the specified offset. If `bigEndian` is true, reads bytes in a big endian format, otherwise reads them as little endian. Example: var buf = new Buffer(4); buf[0] = 0x3; buf[1] = 0x4; buf[2] = 0x23; buf[3] = 0x42; console.log(buf.readUInt16(0, true)); console.log(buf.readUInt16(0, false)); console.log(buf.readUInt16(1, true)); console.log(buf.readUInt16(1, false)); console.log(buf.readUInt16(2, true)); console.log(buf.readUInt16(2, false)); // 0x0304 // 0x0403 // 0x0423 // 0x2304 // 0x2342 // 0x4223 ### buffer.readUInt32(offset, bigEndian) Reads an unsigned 32 bit integer from the buffer at the specified offset. If `bigEndian` is true, reads bytes in a big endian format, otherwise reads them as little endian. Example: var buf = new Buffer(4); buf[0] = 0x3; buf[1] = 0x4; buf[2] = 0x23; buf[3] = 0x42; console.log(buf.readUInt32(0, true)); console.log(buf.readUInt32(0, false)); // 0x03042342 // 0x42230403 ### buffer.readInt8(offset, bigEndian) Reads a signed 8 bit integer from the buffer at the specified offset. If `bigEndian` is true, reads bytes in a big endian format, otherwise reads them as little endian. Works as `buffer.readUInt8`, except buffer contents are treated as twos complement signed values. ### buffer.readInt16(offset, bigEndian) Reads a signed 16 bit integer from the buffer at the specified offset. If `bigEndian` is true, reads bytes in a big endian format, otherwise reads them as little endian. Works as `buffer.readUInt16`, except buffer contents are treated as twos complement signed values. ### buffer.readInt32(offset, bigEndian) Reads a signed 32 bit integer from the buffer at the specified offset. If `bigEndian` is true, reads bytes in a big endian format, otherwise reads them as little endian. Works as `buffer.readUInt32`, except buffer contents are treated as twos complement signed values. ### buffer.readFloat(offset, bigEndian) Reads a 32 bit float from the buffer at the specified offset. Example: var buf = new Buffer(4); buf[0] = 0x00; buf[1] = 0x00; buf[2] = 0x80; buf[3] = 0x3f; console.log(buf.readFloat(0, false)); // 0x01 ### buffer.readDouble(offset, bigEndian) Reads a 64 bit double from the buffer at the specified offset. Endian must be either true or false and specifies what endian ordering to read the bytes from the buffer in. Example: var buf = new Buffer(8); buf[0] = 0x55; buf[1] = 0x55; buf[2] = 0x55; buf[3] = 0x55; buf[4] = 0x55; buf[5] = 0x55; buf[6] = 0xd5; buf[7] = 0x3f; console.log(buf.readDouble(0, false)); // 0.3333333333333333 ### buffer.writeUInt8(value, offset, bigEndian) Writes `value` to the buffer at the specified offset with specified endian format. Note, `value` must be a valid 8 bit unsigned integer. Example: var buf = new Buffer(4); buf.writeUInt8(0x3, 0, true); buf.writeUInt8(0x4, 1, true); buf.writeUInt8(0x23, 2, true); buf.writeUInt8(0x42, 3, true); console.log(buf); buf.writeUInt8(0x3, 0, false); buf.writeUInt8(0x4, 1, false); buf.writeUInt8(0x23, 2, false); buf.writeUInt8(0x42, 3, false); console.log(buf); // // ### buffer.writeUInt16(value, offset, bigEndian) Writes `value` to the buffer at the specified offset with specified endian format. Note, `value` must be a valid 16 bit unsigned integer. Example: var buf = new Buffer(4); buf.writeUInt16(0xdead, 0, true); buf.writeUInt16(0xbeef, 2, true); console.log(buf); buf.writeUInt16(0xdead, 0, false); buf.writeUInt16(0xbeef, 2, false); console.log(buf); // // ### buffer.writeUInt32(value, offset, bigEndian) Writes `value` to the buffer at the specified offset with specified endian format. Note, `value` must be a valid 32 bit unsigned integer. Example: var buf = new Buffer(4); buf.writeUInt32(0xfeedface, 0, true); console.log(buf); buf.writeUInt32(0xfeedface, 0, false); console.log(buf); // // ### buffer.writeInt8(value, offset, bigEndian) Writes `value` to the buffer at the specified offset with specified endian format. Note, `value` must be a valid 16 bit signed integer. Works as `buffer.writeUInt8`, except value is written out as a two's complement signed integer into `buffer`. ### buffer.writeInt16(value, offset, bigEndian) Writes `value` to the buffer at the specified offset with specified endian format. Note, `value` must be a valid 16 bit unsigned integer. Works as `buffer.writeUInt16`, except value is written out as a two's complement signed integer into `buffer`. ### buffer.writeInt32(value, offset, bigEndian) Writes `value` to the buffer at the specified offset with specified endian format. Note, `value` must be a valid 32 bit signed integer. Works as `buffer.writeUInt32`, except value is written out as a two's complement signed integer into `buffer`. ### buffer.writeFloat(value, offset, bigEndian) Writes `value` to the buffer at the specified offset with specified endian format. Note, `value` must be a valid 32 bit float. Example: var buf = new Buffer(4); buf.writeFloat(0xcafebabe, 0, true); console.log(buf); buf.writeFloat(0xcafebabe, 0, false); console.log(buf); // // ### buffer.writeDouble(value, offset, bigEndian) Writes `value` to the buffer at the specified offset with specified endian format. Note, `value` must be a valid 64 bit double. Example: var buf = new Buffer(8); buf.writeFloat(0xdeadbeefcafebabe, 0, true); console.log(buf); buf.writeFloat(0xdeadbeefcafebabe, 0, false); console.log(buf); // // ### buffer.readUInt8NoChk(value, offset, bigEndian) ### buffer.readUInt16NoChk(value, offset, bigEndian) ### buffer.readUInt32NoChk(value, offset, bigEndian) ### buffer.writeUInt8NoChk(value, offset, bigEndian) ### buffer.writeUInt16NoChk(value, offset, bigEndian) ### buffer.writeUInt32NoChk(value, offset, bigEndian) These functions all work as per the versions without the NoChk suffix. These functions allow you to do use the raw functionality without any kind of validation for correctness. This means that value may be too large for the specific function and offset may be beyond the end of the buffer leading to the values being silently dropped. These should not be used unless you are certain of correctness. ### buffer.fill(value, offset=0, length=-1) Fills the buffer with the specified value. If the offset and length are not given it will fill the entire buffer. var b = new Buffer(50); b.fill("h"); ### INSPECT_MAX_BYTES How many bytes will be returned when `b.inspect()` is called. This can be overriden by user modules.