/** @defgroup LittleFootFunctions LittleFoot Functions Functions available in the LittleFoot language @{ */ /** Reads and returns the value of a single byte from the heap. @param byteIndex the index (in bytes) of the byte to read @returns the value of the byte */ int getHeapByte (int byteIndex); /** Reads 4 bytes from the heap and returns the value as an integer. @param byteIndex the index (in bytes) of the start of the 4 bytes to read @returns the value of the 4 bytes as an integer */ int getHeapInt (int byteIndex); /** Reads a sequence of bits from the heap and returns the value as an integer. @param startBitIndex the index (in bits) of the start of the sequence of bits to read @param numBits how many bits to read @returns the value of the sequence of bits as an integer */ int getHeapBits (int startBitIndex, int numBits); /** Writes a single byte to the heap. @param byteIndex the index (in bytes) of the byte to set @param newValue the new value to set this byte to */ void setHeapByte (int byteIndex, int newValue); /** Writes 4 bytes to the heap. @param byteIndex the index (in bytes) of the start of the 4 bytes to set @param newValue the new value to set the 4 bytes to */ void setHeapInt (int byteIndex, int newValue); /** Returns the smaller of two integer values. @param a The first parameter @param b The second parameter @retval The minimum of a and b */ int min (int a, int b); /** Returns the smaller of two floating point values. @param a The first parameter @param b The second parameter @retval The minimum of a and b */ float min (float a, float b); /** Returns the larger of two integer values. @param a The first parameter @param b The second parameter @retval The maximum of a and b */ int max (int a, int b); /** Returns the larger of two floating point values. @param a The first parameter @param b The second parameter @retval The maximum of a and b */ float max (float a, float b); /** Constrains an integer value to keep it within a given range. @param lowerLimit the minimum value to return @param upperLimit the maximum value to return @param valueToConstrain the value to try to return @returns the closest value to valueToConstrain which lies between lowerLimit and upperLimit (inclusive) */ int clamp (int lowerLimit, int upperLimit, int valueToConstrain); /** Constrains a floating point value to keep it within a given range. @param lowerLimit the minimum value to return @param upperLimit the maximum value to return @param valueToConstrain the value to try to return @returns the closest value to valueToConstrain which lies between lowerLimit and upperLimit (inclusive) */ float clamp (float lowerLimit, float upperLimit, float valueToConstrain); /** Returns the absolute value of an integer value. @param arg The argument to compute the absolute value of @retval either -arg if arg is negative or arg if arg is positive */ int abs (int arg); /** Returns the absolute value of a floating point value. @param arg The argument to compute the absolute value of @retval either -arg if arg is negative or arg if arg is positive */ float abs (float arg); /** Remaps a value from a source range to a target range. @param value the value within the source range to map @param sourceMin the minimum value of the source range @param sourceMax the maximum value of the source range @param destMin the minumum value of the destination range @param destMax the maximum value of the destination range @returns the original value mapped to the destination range */ float map (float value, float sourceMin, float sourceMax, float destMin, float destMax); /** Remaps a value from a source range to the range 0 - 1.0. @param value the value within the source range to map @param sourceMin the minimum value of the source range @param sourceMax the maximum value of the source range @returns the original value mapped to the range 0 - 1.0 */ float map (float value, float sourceMin, float sourceMax); /** Performs a modulo operation (can cope with the dividend being negative). The divisor must be greater than zero. @returns the result of the modulo operation */ int mod (int dividend, int divisor); /** Returns a random floating-point number. @returns a random value in the range 0 (inclusive) to 1.0 (exclusive) */ float getRandomFloat(); /** Returns a random integer, limited to a given range. @returns a random integer between 0 (inclusive) and maxValue (exclusive). */ int getRandomInt (int maxValue); /** Returns the number of milliseconds since a fixed event (usually system startup). @returns a monotonically increasing value which is unaffected by changes to the system clock. It should be accurate to within a few millisecseconds. */ int getMillisecondCounter(); /** Returns the length of time spent in the current function call in milliseconds. @returns the length of time spent in the current function call in milliseconds. */ int getTimeInCurrentFunctionCall(); /** Logs an integer value to the console. @param data The 32 bit signed integer to log to the topology as an integer */ void log (int data); /** Logs a hexadecimal value to the console. @param data The 32 bit signed integer to log to the topology as a hexidecimal int */ void logHex (int data); /** Sends a 1-byte short midi message. */ void sendMIDI (int byte0); /** Sends a 2-byte short midi message. */ void sendMIDI (int byte0, int byte1); /** Sends a 3-byte short midi message. */ void sendMIDI (int byte0, int byte1, int byte2); /** Sends a key-down message. @param channel the midi channel, in the range 0 to 15 @param noteNumber the key number, in the range 0 to 127 @param velocity the velocity, in the range 0 to 127 */ void sendNoteOn (int channel, int noteNumber, int velocity); /** Sends a key-up message. @param channel the midi channel, in the range 0 to 15 @param noteNumber the key number, in the range 0 to 127 @param velocity the velocity, in the range 0 to 127 */ void sendNoteOff (int channel, int noteNumber, int velocity); /** Sends an aftertouch message. @param channel the midi channel, in the range 0 to 15 @param noteNumber the key number, in the range 0 to 127 @param level the amount of aftertouch, in the range 0 to 127 */ void sendAftertouch (int channel, int noteNumber, int level); /** Sends a controller message. @param channel the midi channel, in the range 0 to 15 @param controller the type of controller @param value the controller value */ void sendCC (int channel, int controller, int value); /** Sends a pitch bend message. @param channel the midi channel, in the range 0 to 15 @param position the wheel position, in the range 0 to 16383 */ void sendPitchBend (int channel, int position); /** Sends a channel-pressure change event. @param channel the midi channel, in the range 0 to 15 @param pressure the pressure, in the range 0 to 127 */ void sendChannelPressure (int channel, int pressure); /** Sets the MIDI channel range. @param useMPE whether to use MPE mode @param lowChannel the lowest MIDI channel @param highChannel the highest MIDI channel */ void setChannelRange (bool useMPE, int lowChannel, int highChannel); /** Assigns a MIDI channel to a note number. @param noteNumber the note number to assign the channel to @returns the MIDI channel that has been assigned */ int assignChannel (int noteNumber); /** Deassigns a channel from a note number. @param noteNumber the note number to deassign @param channel the MIDI channel */ void deassignChannel (int noteNumber, int channel); /** Returns the channel that is being used for control messages. @returns the channel that is being used for control messages. (If MPE is enabled then this will be the first channel.) */ int getControlChannel(); /** Sets whether duplicate notes should be filtered out when MPE is enabled. */ void useMPEDuplicateFilter (bool active); /** Use this method to draw the display. The block will call this approximately 25 times per second. */ void repaint(); /** Called when a button is pushed. @param index the index of the button that was pushed */ void handleButtonDown (int index); /** Called when a button is released. @param index the index of the button that was released */ void handleButtonUp (int index); /** Called when a control block button is pressed. @param buttonIndex the index of the button @note Requires >= 0.2.5 firmware @note Only valid with a control block */ void onControlPress (int buttonIndex); /** Called when a control block button is released. @param buttonIndex the index of the button @note Requires >= 0.2.5 firmware @note Only valid with a control block */ void onControlRelease (int buttonIndex); /** Called when a touch event starts. Block units follow the number of DNA connectors on the side of the device. For instance, a Lightpad Block is 2x2 and a Control Block is 2x1. @param index the touch index, which will stay constant for each finger as it is tracked @param x the X position of this touch on the device, in block units starting from 0 (left) @param y the Y position of this touch on the device, in block units starting from 0 (top) @param z the current pressure of this touch, in the range 0.0 (no pressure) to 1.0 (very hard) @param vz the rate at which pressure is currently changing, measured in units/second */ void touchStart (int index, float x, float y, float z, float vz); /** Called when a touch event moves. Block units follow the number of DNA connectors on the side of the device. For instance, a Lightpad Block is 2x2 and a Control Block is 2x1. @param index the touch index, which will stay constant for each finger as it is tracked @param x the X position of this touch on the device, in block units starting from 0 (left) @param y the Y position of this touch on the device, in block units starting from 0 (top) @param z the current pressure of this touch, in the range 0.0 (no pressure) to 1.0 (very hard) @param vz the rate at which pressure is currently changing, measured in units/second */ void touchMove (int index, float x, float y, float z, float vz); /** Called when a touch event ends. Block units follow the number of DNA connectors on the side of the device. For instance, a Lightpad Block is 2x2 and a Control Block is 2x1. @param index the touch index, which will stay constant for each finger as it is tracked @param x the X position of this touch on the device, in block units starting from 0 (left) @param y the Y position of this touch on the device, in block units starting from 0 (top) @param z the current pressure of this touch, in the range 0.0 (no pressure) to 1.0 (very hard) @param vz the rate at which pressure is currently changing, measured in units/second */ void touchEnd (int index, float x, float y, float z, float vz); /** Called when a program is loaded onto the block and is about to start. Do any setup here. */ void initialise(); /** Called when a block receives a MIDI message. */ void handleMIDI (int byte0, int byte1, int byte2); /** Called when a block receives a message. @see sendMessageToBlock */ void handleMessage (int param1, int param2, int param3); /** Combines a set of 8-bit ARGB values into a 32-bit colour and returns the result. @return a 32-bit colour @param alpha The alpha in range 0 - 255 inclusive @param red The red in range 0 - 255 inclusive @param green The green in range 0 - 255 inclusive @param blue The blue in range 0 - 255 inclusive */ int makeARGB (int alpha, int red, int green, int blue); /** Blends the overlaid ARGB colour onto the base one and returns the new colour. @param baseColour the colour to blend on to @param overlaidColour The colour to blend in to the baseColour @returns The blended colour */ int blendARGB (int baseColour, int overlaidColour); /** Displays an animation indicating the current battery level of this block. A control block will light up its top LEDs indicating battery level and a lightpad block will draw the battery level on the display. @note Requires >= 0.2.5 firmware */ void displayBatteryLevel(); /** Clears the display and sets all the LEDs to black. */ void clearDisplay(); /** Clears the display and sets all the LEDs to a specified colour. @param rgb the colour to use (0xff...) */ void clearDisplay (int rgb); /** Sets a pixel to a specified colour with full alpha. @param rgb the colour to use (0xff...) @param x the x coordinate of the pixel to fill @param y the y coordinate of the pixel to fill */ void fillPixel (int rgb, int x, int y); /** Blends the current pixel colour with a specified colour. @param argb the colour to use @param x the x coordinate of the pixel to blend @param y the y coordinate of the pixel to blend */ void blendPixel (int argb, int x, int y); /** Fills a rectangle on the display with a specified colour. @param rgb the colour to use (0xff...) @param x the x coordinate of the rectangle to draw @param y the y coordinate of the rectangle to draw @param width the width of the rectangle to draw @param height the height of the rectangle to draw */ void fillRect (int rgb, int x, int y, int width, int height); /** Blends a rectangle on the display with a specified colour. @param argb the colour to use @param x the x coordinate of the rectangle to blend @param y the y coordinate of the rectangle to blend @param width the width of the rectangle to blend @param height the height of the rectangle to blend */ void blendRect (int argb, int x, int y, int width, int height); /** Fills a rectangle on the display with four corner colours blended together. @param colourNW the colour to use in the north west corner of the rectangle @param colourNE the colour to use in the north east corner of the rectangle @param colourSE the colour to use in the south east corner of the rectangle @param colourSW the colour to use in the south west corner of the rectangle @param x the x coordinate of the rectangle @param y the y coordinate of the rectangle @param width the width of the rectangle @param height the height of the rectangle */ void blendGradientRect (int colourNW, int colourNE, int colourSE, int colourSW, int x, int y, int width, int height); /** Blends a circle on the display with a specified colour. @param argb the colour to use @param xCentre the x position of the circle's centre in block units @param yCentre the y position of the circle's centre in block units @param radius the radius of the circle in block units @param fill if true then the circle will be filled, if false the circle will be an outline @note Requires >= 0.2.5 firmware */ void blendCircle (int argb, float xCentre, float yCentre, float radius, bool fill); /** Draws a number on the display. @param value the number to draw between 0 and 99 @param colour the colour to use @param x the x coordinate to use @param y the y coordinate to use */ void drawNumber (int value, int colour, int x, int y); /** Returns the current firmware version of this block. @returns The firmware version of the form 0xMJMIRV (where MJ = Major, MI = Minor, RV = Revision) @note Requires >= 0.2.5 firmware */ int getFirmwareVersion(); /** Returns the battery level of this block, between 0 and 1.0. @returns the battery level of this block, between 0 and 1.0. @note Requires >= 0.2.5 firmware */ float getBatteryLevel(); /** Returns true if this block's battery is charging. @returns true if this block's battery is charging @note Requires >= 0.2.5 firmware */ bool isBatteryCharging(); /** Sets whether status overlays should be displayed on this block. @note Requires >= 0.2.5 firmware */ void setStatusOverlayActive (bool active); /** Sets whether power saving mode should be enabled on this block. @note Requires >= 0.2.5 firmware */ void setPowerSavingEnabled (bool enabled); /** Returns the type of the block with a given ID. @returns an enum indicating the type of block @see Block::Type @note Requires >= 0.2.5 firmware */ int getBlockTypeForID (int blockID); /** Sends a message to the block with the specified ID. This will be processed in the handleMessage() callback. @param blockID the ID of the block to send this message to @param param1 the first chunk of data to send @param param2 the second chunk of data to send @param param3 the third chunk of data to send */ void sendMessageToBlock (int blockID, int param1, int param2, int param3); /** Sends a message to the host. To receive this the host will need to implement the Block::ProgramEventListener::handleProgramEvent() method. @param param1 the first chunk of data to send @param param2 the second chunk of data to send @param param3 the third chunk of data to send */ void sendMessageToHost (int param1, int param2, int param3); /** Draws a pressure point with a specified colour and pressure. @param argb the colour to use @param touchX the x position of the touch in block units @param touchY the y position of the touch in block units @param touchZ the pressure value of the touch */ void addPressurePoint (int argb, float touchX, float touchY, float touchZ); /** Draws the pressure map on the display. */ void drawPressureMap(); /** Fades the pressure map on the display. */ void fadePressureMap(); /** Links a another block to this control block. @param blockID the ID of the block to link @note Requires >= 0.2.5 firmware @note Only valid with a control block */ void linkBlockIDtoController (int blockID); /** Repaints the control block display. @note Requires >= 0.2.5 firmware @note Only valid with a control block */ void repaintControl(); /** Initialises one of the control block buttons. @param buttonIndex the index of the button to initialise @param modeToUse the mode to use for this button @see ControlMode @param outputType the control type to use @see ControlType @param val the current value to set this button to @param min the minimum value for this button @param max the maximum value for this button @param index the item index @param onColourToUse the colour to use when this button is on @param offColourToUse the colour to use when this button is off @note Requires >= 0.2.5 firmware @note Only valid with a control block */ void initControl (int buttonIndex, int modeToUse, int outputType, int val, int min, int max, int index, int onColourToUse, int offColourToUse); /** Control type for use with initControl @see initControl */ enum ControlType { internalConfig = 0, midiCC, sysex }; /** Control mode for use with initControl @see initControl */ enum ControlMode { toggle = 0, togglePulse, gate, trigger, cycle, incDec, triState }; /** Forces a touch event to be handled as seaboard playing. @param touchIndex the index of the touch event @note Requires >= 0.2.5 firmware @note Only valid on a Seaboard */ void handleTouchAsSeaboard (int touchIndex); /** Returns the number of blocks in the current topology. @note Requires >= 0.2.5 firmware */ int getNumBlocksInTopology(); /** Returns the ID of a block at a given index in the topology. @param index The index of the block to find in the topology @returns int The id of the block @note Requires >= 0.2.5 firmware */ int getBlockIDForIndex (int index); /** Returns true if this block is directly connected to the host, as opposed to only being connected to a different block via a connection port. @note Requires >= 0.2.5 firmware */ bool isMasterBlock(); /** Returns true if this block is connected to the host computer, this can be directly or through connections to other blocks. @note Requires >= 0.2.5 firmware */ bool isConnectedToHost(); /** Returns the ID of a block connected to a specified port on this block. @note Requires >= 0.2.5 firmware */ int getBlockIDOnPort (int port); /** Returns the port number that is connected to the master block. Returns 0xFF if there is no port connected to master. @returns the port number that is connected to the master block. Returns 0xFF if there is no port connected to master. @note Requires >= 0.2.5 firmware */ int getPortToMaster(); /** Returns the horizontal distance between this block and the master block in block units. @note Requires >= 0.2.5 firmware */ int getHorizontalDistFromMaster(); /** Returns the vertical distance between this block and the master block in block units. @note Requires >= 0.2.5 firmware */ int getVerticalDistFromMaster(); /** Returns the angle of this block relative to the master block in degrees. @note Requires >= 0.2.5 firmware */ int getAngleFromMaster(); /** Sets whether this block should auto-rotate when its angle relative to the master block changes. @note Requires >= 0.2.5 firmware */ void setAutoRotate (bool enabled); /** Returns the index of this block in the current cluster. @note Requires >= 0.2.5 firmware */ int getClusterIndex(); /** Returns how many blocks wide the current cluster is. @returns the width of the cluster (note that a single block will return 1 here) @note Requires >= 0.2.5 firmware */ int getClusterWidth(); /** Returns how many blocks high the current cluster is. @returns the height of the cluster (note that a single block will return 1 here) @note Requires >= 0.2.5 firmware */ int getClusterHeight(); /** Returns the x index of this block in the current cluster. @returns int The cluster x position. (0, 0) is considered to be the top left block @note Requires >= 0.2.5 firmware */ int getClusterXpos(); /** Returns the y index of this block in the current cluster. @returns int The cluster x position. (0, 0) is considered to be the top left block @note Requires >= 0.2.5 firmware */ int getClusterYpos(); /** Returns the number of blocks in the current cluster. @returns the number of blocks in the current cluster. @note Requires >= 0.2.5 firmware */ int getNumBlocksInCurrentCluster(); /** Returns the block ID for a block in the current cluster. @param index the cluster index of the block to get the ID of @note Requires >= 0.2.5 firmware */ int getBlockIdForBlockInCluster (int index); /** Returns true if the master block is in the current cluster. @note Requires >= 0.2.5 firmware */ bool isMasterInCurrentCluster(); /** Returns current value of one of the local config items. @param item the config item to get (see ConfigItemId enum in juce_BlocksProtocolDefinitions.h) @note Requires >= 0.2.5 firmware */ int getLocalConfig (int item); /** Sets the current value of one of the local config items. @param item the config item to set the value of (see ConfigItemId enum in juce_BlocksProtocolDefinitions.h) @param value the value to set the config to @note Requires >= 0.2.5 firmware */ void setLocalConfig (int item, int value); /** Sets the local config of a block to the config item of a remote block. @param longAddress the address of the remote block @param item the config item (see ConfigItemId enum in juce_BlocksProtocolDefinitions.h) @note Requires >= 0.2.5 firmware */ void requestRemoteConfig (int longAddress, int item); /** Sets the config of a remote block. @param longAddress the address of the remote block @param item the config item (see ConfigItemId enum in juce_BlocksProtocolDefinitions.h) @param value the value to set the config to @note Requires >= 0.2.5 firmware */ void setRemoteConfig (int longAddress, int item, int value); /** Sets the range of one of the local config items. @param item the config item to set the range of (see ConfigItemId enum in juce_BlocksProtocolDefinitions.h) @param min the minimum value this config item should use @param max the maximum value this config item should use @note Requires >= 0.2.5 firmware */ void setLocalConfigItemRange (int item, int min, int max); /** Sets whether a local config item should be active. @param item the config item to set active (see ConfigItemId enum in juce_BlocksProtocolDefinitions.h) @param isActive sets whether the config should be active or not @param saveToFlash if true then this config item will be saved to the flash memory of the block @note Requires >= 0.2.5 firmware */ void setLocalConfigActiveState (int item, bool isActive, bool saveToFlash); /** @} */