light_resources/maddius/maddius_matrix_control/components/osc/API.md

# OSCMessage

An OSCMessage is an address followed by any number of data. Messages can have mixed data types like an integer followed by a string followed by a float, etc. 

## Constructor

OSCMessages can be constructed with or without an address. 

### `OSCMessage(const char *)`

Set the address of the message in the constructor

```C++
OSCMessage msg("/address");
```

### `OSCMessage()`

An OSCMessage constructed without an address is not valid until it is given an address.

## Add/Set Data


### `OSCMessage& add(int i)`

Append an integer to the OSCMessage. 

```C++
msg.add(1);
```


### `OSCMessage& add(float f)`

Append a float to the OSCMessage.


### `OSCMessage& add(bool b)`

Append a boolean to the OSCMessage.


### `OSCMessage& add(const char * str)`

Append a string to the OSCMessage.

```C++
msg.add("hello");
```


### `OSCMessage& add(uint8_t * blob, int length)`

Append a [blob](https://en.wikipedia.org/wiki/Binary_large_object) to the OSCMessage. Pass in the length of the blob as the second argument. 


### `OSCMessage& set(int position, Type data)`

Replace the data at the given position with the data. `Type` can be any of the supported data types. 

```C++
//replace the data at the 0th position with a string
msg.set(0, "string");
```


### `OSCMessage& set(int position, uint8_t * data, int length)`

Set the data at the given position to be a blob of the given length. 


### `OSCMessage& add(double d)`

Append a double precision floating point value to the OSCMessage. NOTE: double is not supported on most Arduino platforms. It will fall back to float, when double is not supported. 

## Get Data


### `int getInt(int position)`

Returns the integer at the given position

```C++
//returns the integer at the third position
msg.getInt(2);
```

### `float getFloat(int position)`

Returns the float at the given position


### `bool getBoolean(int position)`

Returns the boolean at the given position


### `double getDouble(int position)`

Returns the double at the given position. NOTE: double is not supported by most Arduino platforms. This will fail silently if double is not supported.

### `int getString(int position, char * strBuffer)`

Copy the string’s characters into the `strBuffer`, without any safety check. 
Returns the number of copied characters. 

### `int getString(int position, char * strBuffer, int length)`

Copy the string’s characters into the `strBuffer`, after checking that this doesn’t exceed the buffer’s `length`. 
Returns the number of copied characters. NOTE that if the string length is greater than the available buffer length, then NO characters are copied.

### `int getString(int position, char * strBuffer, int length, int offset, int size)`

Copy `size` number of characters from the given `offset` into the `strBuffer`, after checking that this doesn’t exceed the buffer’s `length`. Returns `size`, even if the number of copied characters is lower. 
```C++
char str[8];
//fill str with 8 characters from the 0th datum
msg.getString(0, str, 8, 0, 8);
```

### `int getBlob(int position, uint8_t * blobBuffer)`

Directly copy the blob’s bytes into the `blob` buffer (without safety-check). 
Returns the number of bytes from the blob. 


### `int getBlob(int position, uint8_t * blobBuffer, int length)`

Copy the blob's bytes into the given `blobBuffer`, if the blob's size doesn’t exceed the blobBuffer's `length`. 
Returns the number of bytes copied from the blob. NOTE that if the blob length is greater than the available buffer length, then NO bytes are copied.

### `int getBlob(int position, uint8_t * blobBuffer, int length, int offset, int size)`

Copy `size` bytes from the blob, starting from `offset`,  into the given `blobBuffer`, if the size doesn’t exceed the buffer’s  `length` or the blob’s data length. 
Returns the number of bytes copied from the blob. NOTE that if the requested size is greater than *either* the available buffer length *or* the (partial) blob length, then NO bytes are copied.


### `const uint8_t* getBlob(int position)`

Get a pointer to blob data.


### `int getBlobLength(int position)`

Returns the length of the blob in bytes. 


### `char getType(int position)`

Returns the type of the data at the given position. 

```C++
OSCMessage msg("/address");
msg.add(1);
msg.getType(0); //-> returns 'i'
```


## Query Data

### `bool isInt(int position)`

Returns `true` when the data at the given position is an integer.

### `bool isFloat(int position)`

Returns `true` when the data at the given position is a float.

### `bool isBoolean(int position)`

Returns `true` when the data at the given position is a boolean.

### `bool isString(int position)`

Returns `true` when the data at the given position is a string.

### `bool isBlob(int position)`

Returns `true` when the data at the given position is a blob.

### `bool isDouble(int position)`

Returns `true` when the data at the given position is a double.

### `int size()`

Returns the number of data the OSCMessage has. 

### `int bytes()`

Returns the size of the OSCMessage in bytes (if everything is 32-bit aligned). 


## Address

### `OSCMessage& setAddress(const char * address)`

Set the address of the OSCMessage. 

### `int getAddress(char * str, int offset=0)`

Copy the address of the OSCMessage into the `str` buffer. Copy after the given address `offset` (defaults to 0). Returns the length of the resulting string. If the offset is past the end of the address an empty string / zero length are returned.

### `int getAddress(char * str, int offset, int len)`

Copy a maximum of len characters of the address of the OSCMessage into the `str` buffer, starting at at the given address `offset`. Returns the length of the resulting string. If the offset is past the end of the address an empty string / zero length are returned.

### `int getAddressLength(int offset=0)`

Returns the length of the OSCMessage's address, starting after the given address `offset` (defaults to 0). If the offset is 
greater than the address length then it returns zero.

### `const char* getAddress()`

Get a pointer to the address as a C string. 

## Send Receive

### `OSCMessage& send(Print &p)`

Output the message to the given transport layer which extends Arduino's [Print class](http://playground.arduino.cc/Code/Printclass) like the `Serial` out. 

```C++
msg.send(SLIPSerial);
```

### `OSCMessage& fill(uint8_t incomingByte)`

Add the incoming byte to the OSCMessage where it will be decoded. 

### `OSCMessage& fill(uint8_t * bytes, int length)`

Add and decode the array of `bytes` as an OSCMessage. 


## Matching / Routing

### `bool fullMatch( const char * pattern, int offset = 0)`

Returns true if the message's address is a full match to the given `pattern` after the `offset`. 

```C++
OSCMessage msg("/a/0");
msg.fullMatch("/0", 2); // ->returns true
```

### `int match( const char * pattern, int offset = 0)`

Returns the number of matched characters of the message's address against the given `pattern` (optionally with an `offset`). Unlike `fullMatch`, `match` allows for partial matches

```C++
OSCMessage msg("/a/0");
msg.match("/a"); // ->returns 2
```

### `bool dispatch(const char * pattern, void (*callback)(OSCMessage &), int offset = 0)`

Invoke the given `callback` if the address is a full match with the `pattern` (after the `offset`). The message is passed into the callback function. Returns true if the pattern was a match and the callback function was invoked. 

### `bool route(const char * pattern, void (*callback)(OSCMessage &, int), int offset = 0)`

Invoke the given `callback` if the address if a match with the `pattern` (after the `offset`). The OSCMessage and the address offset is passed into the callback function. Returns true if the pattern was a match and the callback function was invoked. 

```C++
//define a callback function for matching messages
void routeCallback(OSCMessage & message, int addressOffset){
	//do something with the message...

	//with the message below, the addressOffset will equal 2.
}

OSCMessage msg("/a/0");
msg.route("/a", routeCallback);
```


## Address Patterns

OSCMessages can be constructed with patterns and later routed or dispatched against addresses. 

```C++
OSCMessage msg("/{a,b}/[0-9]");
msg.route("/a/0", a0_callback); //matches the address
msg.route("/b/2", b2_callback); //matches the address
msg.route("/c/11", c11_callback); //not invoked
```

# OSCBundle

A bundle is a group of OSCMessages with a timetag. 


## Constructor

### `OSCBundle()`

Construct an empty OSCBundle. 

### `OSCBundle(osctime_t = zerotime)`

Construct the bundle with a timetag. timetag defaults to 0 (immediate). 


## Add OSCMessage

### `OSCMessage & add(char * address)`

Create a new message with the given `address` in the bundle. Returns the newly created OSCMessage. 

```C++
//create a new OSCMessage and add some data to it
bundle.add("/message").add("data");
```


## Get OSCMessage

### `OSCMessage * getOSCMessage(int position)`

Return the OSCMessage in the bundle at the given `position`.

```C++
OSCBundle bundle
bundle.add("/a");
bundle.add("/b");
bundle.getOSCMessage(0);//returns the OSCMessage with the address "/a".
```

### `OSCMessage * getOSCMessage(char * address)`

Return the OSCMessage in the bundle which matches the given address. 

```C++
OSCBundle bundle
bundle.add("/a");
bundle.add("/b");
bundle.getOSCMessage("/b");//returns the second OSCMessage in the bundle
```


## Routing

### `bool dispatch(const char * pattern, void (*callback)(OSCMessage&), int offset = 0)`

Invoke the `callback` function with all messages in the bundle which match the given pattern after the offset. 

```C++
bundle.add("/a/0");
bundle.add("/b/0");
bundle.dispatch("/0", dispatchZero, 2);
```

### `bool route(const char * pattern, void (*callback)(OSCMessage &, int), int offset = 0)`

Invoke the `callback` with all the OSCMessages in the bundle which match the given `pattern`. `route` allows for partial matches. 


## Send/Receive

### `OSCBundle& send(Print &p)`

Output the bundle to the given transport layer which extends Arduino's [Print class](http://playground.arduino.cc/Code/Printclass) (such as `SLIPSerial` out). 

```C++
bundle.send(SLIPSerial);
```

### `OSCBundle& fill(uint8_t incomingByte)`

Add the incoming byte to the OSCBundle where it will be decoded. 

### `OSCBundle& fill(uint8_t * bytes, int length)`

Add and decode the array of bytes as an OSCBundle. 


# Chaining

Many methods return `this` which enables you to string together multiple commands. 

This technique allows multiple lines to be condensed into one:

```C++
bundle.add("/address").add("data").add(0).send(SLIPSerial).empty();
```
init 5 months ago			`# OSCMessage`

			`An OSCMessage is an address followed by any number of data. Messages can have mixed data types like an integer followed by a string followed by a float, etc.`

			`## Constructor`

			`OSCMessages can be constructed with or without an address.`

			### `OSCMessage(const char *)`

			`Set the address of the message in the constructor`

			```C++
			`OSCMessage msg("/address");`
			```

			### `OSCMessage()`

			`An OSCMessage constructed without an address is not valid until it is given an address.`

			`## Add/Set Data`


			### `OSCMessage& add(int i)`

			`Append an integer to the OSCMessage.`

			```C++
			`msg.add(1);`
			```


			### `OSCMessage& add(float f)`

			`Append a float to the OSCMessage.`



			### `OSCMessage& add(bool b)`

			`Append a boolean to the OSCMessage.`



			### `OSCMessage& add(const char * str)`

			`Append a string to the OSCMessage.`

			```C++
			`msg.add("hello");`
			```


			### `OSCMessage& add(uint8_t * blob, int length)`

			`Append a [blob](https://en.wikipedia.org/wiki/Binary_large_object) to the OSCMessage. Pass in the length of the blob as the second argument.`



			### `OSCMessage& set(int position, Type data)`

			Replace the data at the given position with the data. `Type` can be any of the supported data types.

			```C++
			`//replace the data at the 0th position with a string`
			`msg.set(0, "string");`
			```


			### `OSCMessage& set(int position, uint8_t * data, int length)`

			`Set the data at the given position to be a blob of the given length.`


			### `OSCMessage& add(double d)`

			`Append a double precision floating point value to the OSCMessage. NOTE: double is not supported on most Arduino platforms. It will fall back to float, when double is not supported.`

			`## Get Data`


			### `int getInt(int position)`

			`Returns the integer at the given position`

			```C++
			`//returns the integer at the third position`
			`msg.getInt(2);`
			```

			### `float getFloat(int position)`

			`Returns the float at the given position`



			### `bool getBoolean(int position)`

			`Returns the boolean at the given position`



			### `double getDouble(int position)`

			`Returns the double at the given position. NOTE: double is not supported by most Arduino platforms. This will fail silently if double is not supported.`

			### `int getString(int position, char * strBuffer)`

			Copy the string’s characters into the `strBuffer`, without any safety check.
			`Returns the number of copied characters.`

			### `int getString(int position, char * strBuffer, int length)`

			Copy the string’s characters into the `strBuffer`, after checking that this doesn’t exceed the buffer’s `length`.
			`Returns the number of copied characters. NOTE that if the string length is greater than the available buffer length, then NO characters are copied.`

			### `int getString(int position, char * strBuffer, int length, int offset, int size)`

			Copy `size` number of characters from the given `offset` into the `strBuffer`, after checking that this doesn’t exceed the buffer’s `length`. Returns `size`, even if the number of copied characters is lower.
			```C++
			`char str[8];`
			`//fill str with 8 characters from the 0th datum`
			`msg.getString(0, str, 8, 0, 8);`
			```

			### `int getBlob(int position, uint8_t * blobBuffer)`

			Directly copy the blob’s bytes into the `blob` buffer (without safety-check).
			`Returns the number of bytes from the blob.`


			### `int getBlob(int position, uint8_t * blobBuffer, int length)`

			Copy the blob's bytes into the given `blobBuffer`, if the blob's size doesn’t exceed the blobBuffer's `length`.
			`Returns the number of bytes copied from the blob. NOTE that if the blob length is greater than the available buffer length, then NO bytes are copied.`

			### `int getBlob(int position, uint8_t * blobBuffer, int length, int offset, int size)`

			Copy `size` bytes from the blob, starting from `offset`, into the given `blobBuffer`, if the size doesn’t exceed the buffer’s `length` or the blob’s data length.
			`Returns the number of bytes copied from the blob. NOTE that if the requested size is greater than either the available buffer length or the (partial) blob length, then NO bytes are copied.`


			### `const uint8_t* getBlob(int position)`

			`Get a pointer to blob data.`


			### `int getBlobLength(int position)`

			`Returns the length of the blob in bytes.`


			### `char getType(int position)`

			`Returns the type of the data at the given position.`

			```C++
			`OSCMessage msg("/address");`
			`msg.add(1);`
			`msg.getType(0); //-> returns 'i'`
			```


			`## Query Data`

			### `bool isInt(int position)`

			Returns `true` when the data at the given position is an integer.

			### `bool isFloat(int position)`

			Returns `true` when the data at the given position is a float.

			### `bool isBoolean(int position)`

			Returns `true` when the data at the given position is a boolean.

			### `bool isString(int position)`

			Returns `true` when the data at the given position is a string.

			### `bool isBlob(int position)`

			Returns `true` when the data at the given position is a blob.

			### `bool isDouble(int position)`

			Returns `true` when the data at the given position is a double.

			### `int size()`

			`Returns the number of data the OSCMessage has.`

			### `int bytes()`

			`Returns the size of the OSCMessage in bytes (if everything is 32-bit aligned).`



			`## Address`

			### `OSCMessage& setAddress(const char * address)`

			`Set the address of the OSCMessage.`

			### `int getAddress(char * str, int offset=0)`

			Copy the address of the OSCMessage into the `str` buffer. Copy after the given address `offset` (defaults to 0). Returns the length of the resulting string. If the offset is past the end of the address an empty string / zero length are returned.

			### `int getAddress(char * str, int offset, int len)`

			Copy a maximum of len characters of the address of the OSCMessage into the `str` buffer, starting at at the given address `offset`. Returns the length of the resulting string. If the offset is past the end of the address an empty string / zero length are returned.

			### `int getAddressLength(int offset=0)`

			Returns the length of the OSCMessage's address, starting after the given address `offset` (defaults to 0). If the offset is
			`greater than the address length then it returns zero.`

			### `const char* getAddress()`

			`Get a pointer to the address as a C string.`

			`## Send Receive`

			### `OSCMessage& send(Print &p)`

			Output the message to the given transport layer which extends Arduino's [Print class](http://playground.arduino.cc/Code/Printclass) like the `Serial` out.

			```C++
			`msg.send(SLIPSerial);`
			```

			### `OSCMessage& fill(uint8_t incomingByte)`

			`Add the incoming byte to the OSCMessage where it will be decoded.`

			### `OSCMessage& fill(uint8_t * bytes, int length)`

			Add and decode the array of `bytes` as an OSCMessage.



			`## Matching / Routing`

			### `bool fullMatch( const char * pattern, int offset = 0)`

			Returns true if the message's address is a full match to the given `pattern` after the `offset`.

			```C++
			`OSCMessage msg("/a/0");`
			`msg.fullMatch("/0", 2); // ->returns true`
			```

			### `int match( const char * pattern, int offset = 0)`

			Returns the number of matched characters of the message's address against the given `pattern` (optionally with an `offset`). Unlike `fullMatch`, `match` allows for partial matches

			```C++
			`OSCMessage msg("/a/0");`
			`msg.match("/a"); // ->returns 2`
			```

			### `bool dispatch(const char * pattern, void (*callback)(OSCMessage &), int offset = 0)`

			Invoke the given `callback` if the address is a full match with the `pattern` (after the `offset`). The message is passed into the callback function. Returns true if the pattern was a match and the callback function was invoked.

			### `bool route(const char * pattern, void (*callback)(OSCMessage &, int), int offset = 0)`

			Invoke the given `callback` if the address if a match with the `pattern` (after the `offset`). The OSCMessage and the address offset is passed into the callback function. Returns true if the pattern was a match and the callback function was invoked.

			```C++
			`//define a callback function for matching messages`
			`void routeCallback(OSCMessage & message, int addressOffset){`
			`//do something with the message...`

			`//with the message below, the addressOffset will equal 2.`
			`}`

			`OSCMessage msg("/a/0");`
			`msg.route("/a", routeCallback);`
			```


			`## Address Patterns`

			`OSCMessages can be constructed with patterns and later routed or dispatched against addresses.`

			```C++
			`OSCMessage msg("/{a,b}/[0-9]");`
			`msg.route("/a/0", a0_callback); //matches the address`
			`msg.route("/b/2", b2_callback); //matches the address`
			`msg.route("/c/11", c11_callback); //not invoked`
			```

			`# OSCBundle`

			`A bundle is a group of OSCMessages with a timetag.`


			`## Constructor`

			### `OSCBundle()`

			`Construct an empty OSCBundle.`

			### `OSCBundle(osctime_t = zerotime)`

			`Construct the bundle with a timetag. timetag defaults to 0 (immediate).`



			`## Add OSCMessage`

			### `OSCMessage & add(char * address)`

			Create a new message with the given `address` in the bundle. Returns the newly created OSCMessage.

			```C++
			`//create a new OSCMessage and add some data to it`
			`bundle.add("/message").add("data");`
			```


			`## Get OSCMessage`

			### `OSCMessage * getOSCMessage(int position)`

			Return the OSCMessage in the bundle at the given `position`.

			```C++
			`OSCBundle bundle`
			`bundle.add("/a");`
			`bundle.add("/b");`
			`bundle.getOSCMessage(0);//returns the OSCMessage with the address "/a".`
			```

			### `OSCMessage * getOSCMessage(char * address)`

			`Return the OSCMessage in the bundle which matches the given address.`

			```C++
			`OSCBundle bundle`
			`bundle.add("/a");`
			`bundle.add("/b");`
			`bundle.getOSCMessage("/b");//returns the second OSCMessage in the bundle`
			```


			`## Routing`

			### `bool dispatch(const char * pattern, void (*callback)(OSCMessage&), int offset = 0)`

			Invoke the `callback` function with all messages in the bundle which match the given pattern after the offset.

			```C++
			`bundle.add("/a/0");`
			`bundle.add("/b/0");`
			`bundle.dispatch("/0", dispatchZero, 2);`
			```

			### `bool route(const char * pattern, void (*callback)(OSCMessage &, int), int offset = 0)`

			Invoke the `callback` with all the OSCMessages in the bundle which match the given `pattern`. `route` allows for partial matches.



			`## Send/Receive`

			### `OSCBundle& send(Print &p)`

			Output the bundle to the given transport layer which extends Arduino's [Print class](http://playground.arduino.cc/Code/Printclass) (such as `SLIPSerial` out).

			```C++
			`bundle.send(SLIPSerial);`
			```

			### `OSCBundle& fill(uint8_t incomingByte)`

			`Add the incoming byte to the OSCBundle where it will be decoded.`

			### `OSCBundle& fill(uint8_t * bytes, int length)`

			`Add and decode the array of bytes as an OSCBundle.`



			`# Chaining`

			Many methods return `this` which enables you to string together multiple commands.

			`This technique allows multiple lines to be condensed into one:`

			```C++
			`bundle.add("/address").add("data").add(0).send(SLIPSerial).empty();`
			```