Top 10 Examples of "bitsyntax in functional component" in JavaScript
Dive into secure and efficient coding practices with our curated list of the top 10 examples showcasing 'bitsyntax' in functional components in JavaScript. Our advanced machine learning engine meticulously scans each line of code, cross-referencing millions of open source libraries to ensure your implementation is not just functional, but also robust and secure. Elevate your React applications to new heights by mastering the art of handling side effects, API calls, and asynchronous operations with confidence and precision.
FRAME_HEADER = constants.FRAME_HEADER,
FRAME_BODY = constants.FRAME_BODY,
FRAME_END = constants.FRAME_END;
var bodyCons =
Bits.builder(FRAME_BODY,
'channel:16, size:32, payload:size/binary',
FRAME_END);
// %%% TESTME possibly better to cons the first bit and write the
// second directly, in the absence of IO lists
module.exports.makeBodyFrame = function(channel, payload) {
return bodyCons({channel: channel, size: payload.length, payload: payload});
};
var frameHeaderPattern = Bits.matcher('type:8', 'channel:16',
'size:32', 'rest/binary');
function parseFrame(bin, max) {
var fh = frameHeaderPattern(bin);
if (fh) {
var size = fh.size, rest = fh.rest;
if (size > max) {
throw new Error('Frame size exceeds frame max');
}
else if (rest.length > size) {
if (rest[size] !== FRAME_END)
throw new Error('Invalid frame');
return {
type: fh.type,
channel: fh.channel,FRAME_HEADER = constants.FRAME_HEADER,
FRAME_BODY = constants.FRAME_BODY,
FRAME_END = constants.FRAME_END;
var bodyCons =
Bits.builder(FRAME_BODY,
'channel:16, size:32, payload:size/binary',
FRAME_END);
// %%% TESTME possibly better to cons the first bit and write the
// second directly, in the absence of IO lists
module.exports.makeBodyFrame = function(channel, payload) {
return bodyCons({channel: channel, size: payload.length, payload: payload});
};
var frameHeaderPattern = Bits.matcher('type:8', 'channel:16',
'size:32', 'rest/binary');
function parseFrame(bin, max) {
var fh = frameHeaderPattern(bin);
if (fh) {
var size = fh.size, rest = fh.rest;
if (size > max) {
throw new Error('Frame size exceeds frame max');
}
else if (rest.length > size) {
if (rest[size] !== FRAME_END)
throw new Error('Invalid frame');
return {
type: fh.type,
channel: fh.channel,octet short long size octets octet
In general I want to know those first three things straight away, so I
can discard frames early.
*/
// framing constants
var FRAME_METHOD = constants.FRAME_METHOD,
FRAME_HEARTBEAT = constants.FRAME_HEARTBEAT,
FRAME_HEADER = constants.FRAME_HEADER,
FRAME_BODY = constants.FRAME_BODY,
FRAME_END = constants.FRAME_END;
var bodyCons =
Bits.builder(FRAME_BODY,
'channel:16, size:32, payload:size/binary',
FRAME_END);
// %%% TESTME possibly better to cons the first bit and write the
// second directly, in the absence of IO lists
module.exports.makeBodyFrame = function(channel, payload) {
return bodyCons({channel: channel, size: payload.length, payload: payload});
};
var frameHeaderPattern = Bits.matcher('type:8', 'channel:16',
'size:32', 'rest/binary');
function parseFrame(bin, max) {
var fh = frameHeaderPattern(bin);
if (fh) {
var size = fh.size, rest = fh.rest;octet short long size octets octet
In general I want to know those first three things straight away, so I
can discard frames early.
*/
// framing constants
var FRAME_METHOD = constants.FRAME_METHOD,
FRAME_HEARTBEAT = constants.FRAME_HEARTBEAT,
FRAME_HEADER = constants.FRAME_HEADER,
FRAME_BODY = constants.FRAME_BODY,
FRAME_END = constants.FRAME_END;
var bodyCons =
Bits.builder(FRAME_BODY,
'channel:16, size:32, payload:size/binary',
FRAME_END);
// %%% TESTME possibly better to cons the first bit and write the
// second directly, in the absence of IO lists
module.exports.makeBodyFrame = function(channel, payload) {
return bodyCons({channel: channel, size: payload.length, payload: payload});
};
var frameHeaderPattern = Bits.matcher('type:8', 'channel:16',
'size:32', 'rest/binary');
function parseFrame(bin, max) {
var fh = frameHeaderPattern(bin);
if (fh) {
var size = fh.size, rest = fh.rest;it('bitsyntax parser 2', function() {
var buffer = new Buffer([0xA1, 0x3, 0x46, 0x4F, 0x4F]);
var parser = bitsyntax.parse('161:8, len:8, value:len/binary, rest/binary');
var matcher = bitsyntax.match(parser, buffer);
matcher.should.be.ok;
matcher.value.should.eql(new Buffer([0x46, 0x4F, 0x4F]));
});
it('should spit right version', function() {it('bitsyntax parser', function() {
var expected = new Buffer([0x10, 0x20, 0x30, 0x40, 0x50, 0x60, 0x70, 0x80]);
var buffer = new Buffer([0x80, 0x10, 0x20, 0x30, 0x40, 0x50, 0x60, 0x70, 0x80]);
var parser = bitsyntax.parse('128:8, value:8/binary, rest/binary');
var matcher = bitsyntax.match(parser, buffer);
matcher.should.be.ok;
matcher.value.should.eql(expected);
});
it('bitsyntax parser 2', function() {it('bitsyntax parser 2', function() {
var buffer = new Buffer([0xA1, 0x3, 0x46, 0x4F, 0x4F]);
var parser = bitsyntax.parse('161:8, len:8, value:len/binary, rest/binary');
var matcher = bitsyntax.match(parser, buffer);
matcher.should.be.ok;
matcher.value.should.eql(new Buffer([0x46, 0x4F, 0x4F]));
});
it('should spit right version', function() {payload: rest.slice(0, size),
rest: rest.slice(size + 1)
};
}
}
return false;
}
module.exports.parseFrame = parseFrame;
var headerPattern = Bits.matcher('class:16',
'_weight:16',
'size:64',
'flagsAndfields/binary');
var methodPattern = Bits.matcher('id:32, args/binary');
var HEARTBEAT = {channel: 0};
module.exports.decodeFrame = function(frame) {
var payload = frame.payload;
switch (frame.type) {
case FRAME_METHOD:
var idAndArgs = methodPattern(payload);
var id = idAndArgs.id;
var fields = decode(id, idAndArgs.args);
return {id: id, channel: frame.channel, fields: fields};
case FRAME_HEADER:
var parts = headerPattern(payload);
var id = parts['class'];
var fields = decode(id, parts.flagsAndfields);
return {id: id, channel: frame.channel,return {
type: fh.type,
channel: fh.channel,
size: size,
payload: rest.slice(0, size),
rest: rest.slice(size + 1)
};
}
}
return false;
}
module.exports.parseFrame = parseFrame;
var headerPattern = Bits.matcher('class:16',
'_weight:16',
'size:64',
'flagsAndfields/binary');
var methodPattern = Bits.matcher('id:32, args/binary');
var HEARTBEAT = {channel: 0};
module.exports.decodeFrame = function(frame) {
var payload = frame.payload;
switch (frame.type) {
case FRAME_METHOD:
var idAndArgs = methodPattern(payload);
var id = idAndArgs.id;
var fields = decode(id, idAndArgs.args);
return {id: id, channel: frame.channel, fields: fields};return {
type: fh.type,
channel: fh.channel,
size: size,
payload: rest.slice(0, size),
rest: rest.slice(size + 1)
};
}
}
return false;
}
module.exports.parseFrame = parseFrame;
var headerPattern = Bits.matcher('class:16',
'_weight:16',
'size:64',
'flagsAndfields/binary');
var methodPattern = Bits.matcher('id:32, args/binary');
var HEARTBEAT = {channel: 0};
module.exports.decodeFrame = function(frame) {
var payload = frame.payload;
switch (frame.type) {
case FRAME_METHOD:
var idAndArgs = methodPattern(payload);
var id = idAndArgs.id;
var fields = decode(id, idAndArgs.args);
return {id: id, channel: frame.channel, fields: fields};