unsigned int -> unsigned and trimmed whitespace.

This commit is contained in:
Francois Best 2013-07-07 15:11:58 +02:00
parent 601ddb3773
commit c4d5d76f4a
3 changed files with 268 additions and 268 deletions

View File

@ -3,7 +3,7 @@
* Project Arduino MIDI Library
* @brief MIDI Library for the Arduino
* @version 4.0
* @author Francois Best
* @author Francois Best
* @date 24/02/11
* license GPL Forty Seven Effects - 2011
*/
@ -37,7 +37,7 @@ BEGIN_MIDI_NAMESPACE
/*! \brief Encode System Exclusive messages.
SysEx messages are encoded to guarantee transmission of data bytes higher than
127 without breaking the MIDI protocol. Use this static method to convert the
127 without breaking the MIDI protocol. Use this static method to convert the
data you want to send.
\param inData The data to encode.
\param outSysEx The output buffer where to store the encoded message.
@ -59,7 +59,7 @@ unsigned encodeSysEx(const byte* inData, byte* outSysEx, unsigned inLength)
outSysEx[0] |= (msb << count);
outSysEx[1 + count] = body;
if (count++ == 6)
{
outSysEx += 8;
@ -73,7 +73,7 @@ unsigned encodeSysEx(const byte* inData, byte* outSysEx, unsigned inLength)
/*! \brief Decode System Exclusive messages.
SysEx messages are encoded to guarantee transmission of data bytes higher than
127 without breaking the MIDI protocol. Use this static method to reassemble
127 without breaking the MIDI protocol. Use this static method to reassemble
your received message.
\param inSysEx The SysEx data received from MIDI in.
\param outData The output buffer where to store the decrypted message.
@ -85,13 +85,13 @@ unsigned decodeSysEx(const byte* inSysEx, byte* outData, unsigned inLength)
{
unsigned count = 0;
byte msbStorage = 0;
for (unsigned i = 0; i < inLength; ++i)
{
if ((i % 8) == 0)
{
msbStorage = inSysEx[i];
}
}
else
{
outData[count++] = inSysEx[i] | ((msbStorage & 1) << 7);

View File

@ -3,7 +3,7 @@
* Project Arduino MIDI Library
* @brief MIDI Library for the Arduino
* @version 4.0
* @author Francois Best
* @author Francois Best
* @date 24/02/11
* license GPL Forty Seven Effects - 2011
*/
@ -33,113 +33,113 @@ class MidiInterface
public:
MidiInterface(SerialPort& inSerial);
~MidiInterface();
public:
void begin(Channel inChannel = 1);
// -------------------------------------------------------------------------
// MIDI Output
#if MIDI_BUILD_OUTPUT
public:
inline void sendNoteOn(DataByte inNoteNumber,
DataByte inVelocity,
Channel inChannel);
inline void sendNoteOff(DataByte inNoteNumber,
DataByte inVelocity,
Channel inChannel);
inline void sendProgramChange(DataByte inProgramNumber,
Channel inChannel);
inline void sendControlChange(DataByte inControlNumber,
DataByte inControlValue,
DataByte inControlValue,
Channel inChannel);
inline void sendPitchBend(int inPitchValue, Channel inChannel);
inline void sendPitchBend(double inPitchValue, Channel inChannel);
inline void sendPolyPressure(DataByte inNoteNumber,
DataByte inPressure,
Channel inChannel);
inline void sendAfterTouch(DataByte inPressure,
Channel inChannel);
inline void sendSysEx(unsigned int inLength,
inline void sendSysEx(unsigned inLength,
const byte* inArray,
bool inArrayContainsBoundaries = false);
inline void sendTimeCodeQuarterFrame(DataByte inTypeNibble,
bool inArrayContainsBoundaries = false);
inline void sendTimeCodeQuarterFrame(DataByte inTypeNibble,
DataByte inValuesNibble);
inline void sendTimeCodeQuarterFrame(DataByte inData);
inline void sendSongPosition(unsigned int inBeats);
inline void sendSongPosition(unsigned inBeats);
inline void sendSongSelect(DataByte inSongNumber);
inline void sendTuneRequest();
inline void sendRealTime(MidiType inType);
public:
void send(MidiType inType,
DataByte inData1,
DataByte inData2,
Channel inChannel);
private:
inline StatusByte getStatus(MidiType inType,
Channel inChannel) const;
#endif // MIDI_BUILD_OUTPUT
// -------------------------------------------------------------------------
// MIDI Input
#if MIDI_BUILD_INPUT
public:
bool read();
bool read(Channel inChannel);
public:
inline MidiType getType() const;
inline Channel getChannel() const;
inline DataByte getData1() const;
inline DataByte getData2() const;
inline const byte* getSysExArray() const;
inline unsigned int getSysExArrayLength() const;
inline unsigned getSysExArrayLength() const;
inline bool check() const;
public:
inline Channel getInputChannel() const;
inline void setInputChannel(Channel inChannel);
public:
static inline MidiType getTypeFromStatusByte(byte inStatus);
static inline bool isChannelMessage(MidiType inType);
private:
bool inputFilter(Channel inChannel);
bool parse();
void resetInput();
private:
StatusByte mRunningStatus_RX;
Channel mInputChannel;
byte mPendingMessage[3]; // SysEx are dumped into mMessage directly.
unsigned int mPendingMessageExpectedLenght;
unsigned int mPendingMessageIndex; // Extended to unsigned int for larger SysEx payloads.
unsigned mPendingMessageExpectedLenght;
unsigned mPendingMessageIndex; // Extended to unsigned for larger SysEx payloads.
Message mMessage;
// -------------------------------------------------------------------------
// Input Callbacks
#if MIDI_USE_CALLBACKS
public:
inline void setHandleNoteOff(void (*fptr)(byte channel, byte note, byte velocity));
inline void setHandleNoteOn(void (*fptr)(byte channel, byte note, byte velocity));
@ -150,7 +150,7 @@ public:
inline void setHandlePitchBend(void (*fptr)(byte channel, int bend));
inline void setHandleSystemExclusive(void (*fptr)(byte * array, byte size));
inline void setHandleTimeCodeQuarterFrame(void (*fptr)(byte data));
inline void setHandleSongPosition(void (*fptr)(unsigned int beats));
inline void setHandleSongPosition(void (*fptr)(unsigned beats));
inline void setHandleSongSelect(void (*fptr)(byte songnumber));
inline void setHandleTuneRequest(void (*fptr)(void));
inline void setHandleClock(void (*fptr)(void));
@ -159,13 +159,13 @@ public:
inline void setHandleStop(void (*fptr)(void));
inline void setHandleActiveSensing(void (*fptr)(void));
inline void setHandleSystemReset(void (*fptr)(void));
inline void disconnectCallbackFromType(MidiType inType);
private:
void launchCallback();
void (*mNoteOffCallback)(byte channel, byte note, byte velocity);
void (*mNoteOnCallback)(byte channel, byte note, byte velocity);
void (*mAfterTouchPolyCallback)(byte channel, byte note, byte velocity);
@ -175,7 +175,7 @@ private:
void (*mPitchBendCallback)(byte channel, int);
void (*mSystemExclusiveCallback)(byte * array, byte size);
void (*mTimeCodeQuarterFrameCallback)(byte data);
void (*mSongPositionCallback)(unsigned int beats);
void (*mSongPositionCallback)(unsigned beats);
void (*mSongSelectCallback)(byte songnumber);
void (*mTuneRequestCallback)(void);
void (*mClockCallback)(void);
@ -184,43 +184,43 @@ private:
void (*mStopCallback)(void);
void (*mActiveSensingCallback)(void);
void (*mSystemResetCallback)(void);
#endif // MIDI_USE_CALLBACKS
#endif // MIDI_USE_CALLBACKS
#endif // MIDI_BUILD_INPUT
// -------------------------------------------------------------------------
// MIDI Soft Thru
#if MIDI_BUILD_THRU
public:
inline MidiFilterMode getFilterMode() const;
inline bool getThruState() const;
inline void turnThruOn(MidiFilterMode inThruFilterMode = Full);
inline void turnThruOff();
inline void setThruFilterMode(MidiFilterMode inThruFilterMode);
private:
void thruFilter(byte inChannel);
private:
bool mThruActivated : 1;
MidiFilterMode mThruFilterMode : 7;
#endif // MIDI_BUILD_THRU
#if MIDI_USE_RUNNING_STATUS
private:
StatusByte mRunningStatus_TX;
#endif // MIDI_USE_RUNNING_STATUS
private:
SerialPort& mSerial;
};

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