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MusicBlocks/js

The core code for Music Blocks resides in this directory, the blocks and the turtleactions subdirectory.

  • activity.js -- where the menus are defined

Logo code

  • logo.js -- the code associated with running blocks
  • turtle.js -- the code associated with graphics

Blocks code

  • basicblocks.js -- where the blocks are defined
  • blockfactory.js -- where the block artwork is created
  • block.js -- the core class for a block
  • blocks.js -- utilities for managing the collection of blocks
  • macros.js -- a collection of blocks associated with an action
  • protoblocks.js -- the class of block prototypes

Palette-related code

  • artwork.js -- the palette buttons and colors are defined here
  • palette.js -- the blocks palettes

Button boxes

  • clearbox.js -- confirm delete
  • playbackbox.js -- compile and playback
  • savebox.js -- save options
  • utilitybox.js -- settings

Export utilities

  • abc.js -- save in ABC format
  • lilypond.js -- save in Lilypond format

Other utilities

  • rubrics.js -- analyse blocks in project
  • background.js -- extenstion utilities
  • boundary.js -- boundary box for home screen
  • loader.js -- loader for require
  • sugarizer-compatibility.js -- datastore utilities used by sugarizer
  • trash.js -- trash can manager
  • turtledefs.js -- strings and palettes unique to Music Blocks

In the blocks subdirectory is the code for generating blocks and associating them with some action.

BaseBlock.js is the base class for all blocks. All of the other files define blocks in each of the palettes:

Music Palette RhythmBlockPaletteBlocks.js RhythmBlocks.js MeterBlocks.js PitchBlocks.js IntervalsBlocks.js ToneBlocks.js OrnamentBlocks.js VolumeBlocks.js DrumBlocks.js WidgetBlocks.js

Flow Palette FlowBlocks.js ActionBlocks.js BoxesBlocks.js NumberBlocks.js BooleanBlocks.js HeapBlocks.js ExtrasBlocks.js

Graphics Palette GraphicsBlocks.js PenBlocks.js MediaBlocks.js SensorsBlocks.js EnsembleBlocks.js

Subdirectories with additional utilities

  • utils -- additional general-purpose utilities
    • munsell.js -- Munsell color system used for mice and widgets
    • musicutils.js -- related to musical notations
    • platformstyle.js -- checking platform that Music Blocks is run in
    • synthutils.js -- related to defining synths in tone.js
    • utils.js -- general utility functions
  • widgets -- widget code
    • help.js -- show help for individual blocks and the tour of Music Blocks
    • modewidget.js -- explore musical modes
    • pitchdrummatrix.js -- map pitches to drum sounds
    • pitchslider.js -- generate pitch blocks based on frequency (in Hertz)
    • pitchstaircase.js -- generate a collection of pitches based on ratios of frequency (Hertz)
    • pitchtimematrix.js -- map pitch to rhythm (create a "chunk" of notes)
    • rhythmruler.js -- define rhythms (and drum machines)
    • status.js -- track the status of various parameters as the program plays (a useful debugging tool)
    • tempo.js -- change the tempo
    • timbre.js -- design new instruments

How to add new blocks

This section describes how to add new blocks to Music Blocks in order to add functionality.

Note: Almost all block related code is located inside js/blocks

To add a new block you first need to determine if you want to add it to an existing palette or to create a new palette.

  • If you want to add the block to an existing palette, skip the following section and jump right to How to define a new block.

  • If you need a new palette (uncommon), you need to declare a new file corresponding to that palette inside js/blocks. Steps for the same are defined here.

How to define a new palette for adding blocks

You may skip this section if the block you are adding doesn't require a new palette.

  1. Make a new file in js/blocks with a meaningful name. Current files are GraphicsBlocks.js, MediaBlocks.js, et al.

  2. Add the new file to MUSICBLOCKS_EXTRAS in js/activity.js.

  3. Create a setup function in your new file at the end, with a meaningful name, e.g. setupGraphicsBlocks().

  4. Call that setup function in js/basicblocks.js from the initBasicProtoBlocks() function.

After the above steps are complete, move to defining a new block

How to define a new block

  1. Find the file in js/blocks associated with the palette to which you want to add your new block.

  2. Create a new class inside that file for your block.

Block classes can also extend each other. Your class definition and super() call should follow this syntax:

    // one block extending another
    class UniqueNameBlock extends SomeBlockClass{
      constructor() {
        super(uniquename);
      }
    }
  1. Assign a palette to the block, e.g. this.setPalette('yourPaletteName);

At this point your class definition should look similar to this:

  class UniqueNameBlock extends SomeBlockClass{
    constructor() {
      super(uniquename);
      this.setPalette('paletteName');
    }
  }

The color of the block is defined by the palette used.

  1. To designate a block for beginnerMode, add this.beginnerBlock(true); to the constructor.

  2. To add a help string, add this.setHelpString([_('some block help'), 'documentation', null, 'macroname']); to the constructor. The first element in the list is the help string itself. The second element is the subdirectory where the help artwork is found. The third argument is the name of the help artwork file (null indicates that the block name is used for the help file, e.g., blockname_block.svg). The final element in the list is an optional macro to be loaded when the download button is pressed in the help widget.

  3. If your block is a parameter block, you may want to add a function for updating the display of the parameter value during debug mode. Typically something like this:

    updateParameter(logo, turtle, blk) {
	return toFixed2(logo.blocks.blockList[blk].value);
    }
  1. You may also want to add a setter function so your block can be used with the Add-1 and Add to blocks.
    setter(logo, value, turtle, blk) {
        logo.turtles.turtleList[turtle].painter.doSetHeading(value);
    }
  1. Add a call to new myNewBlock.setup() in the previously defined setup function, e.g.
function setupUniqueBlocks() {`
  new UniqueNameBlock().setup();
}

For arg blocks, define a function arg inside the block class definition. There are four arguments currently passed to this function viz. (logo, turtle, blk, receivedArg), e.g.

 class UniqueNameBlock extends SomeBlockClass{
    constructor() {
      super(uniquename);
      this.setPalette('paletteName');
    }

    arg(logo, turtle, blk, receivedArg) {
    }
}

For flow bocks define a function flow on the block. The same four arguments are passed to the flow function currently: (logo, turtle, blk, receivedArg), e.g

class UniqueNameBlock extends SomeBlockClass{
    constructor() {
      super(uniquename);
      this.setPalette('paletteName');
    }

    flow(args, logo, turtle, blk, receivedArg) {
    }
}

Note: Trailing arguments can be neglected in both functions, if not needed.

  1. Write the logic for the block in either of the two functions, arg() or flow().
  • For arg blocks value is set by using a return statement.

  • In case of flow blocks, return value should be in the form [childFlow, childFlowCount] or [] if if there is no child flow. (A child flow is, for example, the internal flow of a clamp, e.g. what is repeated in a repeat block.)

Changes to these variables should be checked and return keyword should be used.

An arg block:

  class TranspositionFactorBlock extends ValueBlock {
    constructor() {
        //.TRANS: musical transposition (adjustment of pitch up or down)
        super('transpositionfactor', _('transposition'));
        this.setPalette('pitch');
        this.hidden = true;
    }

    arg(logo, turtle, blk) {
        if (logo.inStatusMatrix && logo.blocks.blockList[logo.blocks.blockList[blk].connections[0]].name === 'print') {
            logo.statusFields.push([blk, 'transposition']);
        } else {
            return logo.transposition[turtle];
        }
    }
}

A flow block:

class UniqueNameBlock extends SomeBlockClass{
    constructor() {
      super(uniquename);
      this.setPalette('paletteName');
    }

    flow(args) {  // Trailing arguments neglected
        if (args.length === 1)
            return [args[0], 1];
    }
}

Macro expansions

In some cases, you may want a block on the palette to expand into a stack of blocks.

Note: Macro related code is no longed written in macros.js

To add a macro:

Write definition using this.makeMacro((x, y) => [....])

class StartDrumBlock extends StartBlock {
    constructor() {
        super();
        this.changeName('startdrum');

        this.formBlock({ name: _('start drum') });

        this.makeMacro((x, y) => [
            [0, 'start', x, y, [null, 1, null]],
            [1, 'setdrum', 0, 0,[0, 2, null, 3]],
            [2, ['drumname', {'value': 'kick drum'}], 0, 0, [1]],
            [3, 'hidden', 0, 0, [1, null]]
        ])
    }
}

Examples

A flow block:

  class DispatchBlock extends FlowBlock {
  constructor() {
      super('dispatch');
      this.setPalette('action');

      //.TRANS: dispatch an event to trigger a listener
      this.formBlock({
          name: _('broadcast'),
          args: 1,
          defaults: [_('event')],
          argTypes: ['textin'],
      });
  }

  flow(args, logo) {
      // Dispatch an event.
      if (args.length !== 1) return;

      // If the event is not in the event list, add it.
      if (!(args[0] in logo.eventList)) {
          var event = new Event(args[0]);
          logo.eventList[args[0]] = event;
      }
      logo.stage.dispatchEvent(args[0]);
  }
}

An arg block:

  class XBlock extends ValueBlock {
  constructor() {
      //.TRANS: x coordinate
      super('x');
      this.setPalette('graphics');

      this.formBlock({
          name: this.lang === 'ja' ? _('x3') : _('x')
      });
  }

  arg(logo, turtle, blk) {
      if (logo.inStatusMatrix && logo.blocks.blockList[logo.blocks.blockList[blk].connections[0]].name === 'print') {
          logo.statusFields.push([blk, 'x']);
      } else {
          return logo.turtles.screenX2turtleX(logo.turtles.turtleList[turtle].container.x);
      }
  }
}

A macro definiton:

  this.makeMacro((x, y) => [
          [0, 'settemperament', x, y, [null, 1, 2, 3, null]],
          [1, ['temperamentname', {'value': 'equal'}], 0, 0, [0]],
          [2, ['notename', {'value': 'C'}], 0, 0, [0]],
          [3, ['number', {'value': 4}], 0, 0, [0]]
      ]);

Working with formBlock function

formBlock is a method of BaseBlock. This function takes a JSON-like object describing the visual appearance of the block, its arguments etc. The format of that object is as follows:

  1. name : This specifies the display name on the block. Typically it is of the format _('...').

Note: If the name is omitted or is set to an empty string, a second argument of false should be passed to formBlock or else it will resize the block to fit the non-existent text.

  1. flows :

    • top : Defines how top of the block should connect. Values: true, false or cap. cap is used for blocks like start, to produce the protruding spike.

    • bottom : Defines how bottom of the block should connect. Values: true, false or cap. tail is used for blocks like start, to produce the protruding spike.

    • left: Defines how top of the block should connect. It's value is a boolean.

    • type : Defines the flow used by the block.

      Values:

      • flow : Flow blocks are most commonly used one.
      • arg : Mainly used for blocks like do and calculate.
      • value: Used for blocks such as number.
      • null : Indicates that it is just a plain block with nothing special.
    • labels : Defines the labels to be displayed for each flow branch. This list is also used to determine how many flows a block has. To mark an unlabelled flow use and empty string.

  2. args : Defines the number of arguments the block takes.

  3. argTypes : The type for each argument. Default type is numberin.

  4. argLabels : A list of labels to be applied to arguments.

  5. defaults : A list of default values for arguments.

e.g. Below definition shows the use of most of the above properties:

class MakeBlockBlock extends LeftBlock {
    constructor() {
        super('makeblock');
        this.setPalette('extras');

        this.formBlock({
            //.TRANS: Create a new block programmatically.
            name: _('make block'),
            args: 1,
	    argTypes: ['anyin'],
            outType: 'numberout',
            flows: {
                type: 'arg',
		types: ['anyin'],
		labels: ['']
            },
            defaults: [_('note')]
        });
    }
}

Note: The call to formBlock will attempt further call adjustWidthToLabel. This behaviour by passing a false value as the second argument. There is currently no way to define left-hand output as a boolean. Though it can be done by passing a third option of bool to flows.left

Setting up listeners in clamp blocks

Clamp blocks are a bit complicated since they have interior flows and need to trigger a listener when that flow completes its execution.

  1. ChildFlow and ChildFlowCount

childFlow = args[n + 1], where n is the number of arguments passed to the blocks.

If there are no arguments, childFlow = args[1]. (Some blocks, such as the Start block, do not have any external flow, so their childFlow = args[0].

  1. Create a unique listener name

var listenerName = '_listenername_' + turtle + '_' + blk;

  1. Assign the block that will dispatch the listener. _setDispatchBlock will make this assignment for you (typically this is the block that immediately follows the clamp block).

that.setDispatchBlock(blk, turtle, listenerName);

  1. Create a listener event, where you typically clean up anything associated with the clamp block's childFlow.
var __listener = function (event) {

};

Using tone.js

Tone.js is "a framework for creating interactive music in the browser. It provides advanced scheduling capabilities, synths and effects, and intuitive musical abstractions built on top of the Web Audio API."

Music Blocks uses the Tone.js API for many of the synth effects, such as chorus, vibrato and tremolo.

In order to set up a new synth effect:

  1. Add necessary parameters into paramsEffects object in logo.js
  2. Add a boolean variable that triggers the param effects in __hasParamEffect function in logo.js
  3. Add effects by defining parameters values in logo.js
  4. Modify synth in synthutils.js and make sure to dispose synth after your effect has run.

Odds and ends

  • You should add your new block to the rubrics found in rubrics.js

  • As mentioned above, if you are adding user-facing strings, be sure to add them in this format: _('string') This allows the string to be set up for translation into other languages.

  • Before processing the notes, you need to check if the argument is present of if the type of argument is correct, else, set stopTurtle to true.

  • If you are changing the functionality of an existing block (adding a new arg, etc.) then you probably should mark the existing block as hidden and add a new block instead so as to not break existing projects that use the old block.

Protoblock types

  • zeroArgBlock: E.g., penup, pendown
  • basicBlockNoFlow: E.g., break
  • oneArgBlock: E.g., forward, right
  • twoArgBlock: E.g., setxy. These are expandable.
  • oneArgMathBlock: E.g., sqrt
  • oneArgMathWithLabelBlock: E.g., box
  • twoArgMathBlock: E.g., plus, minus, multiply, divide. These are also expandable.
  • valueBlock: E.g., number, string. Value blocks get DOM textareas associated with them so their values can be edited by the user.
  • mediuniquenameBlock: E.g., media. Media blocks invoke a chooser and a thumbnail image is overlayed to represent the data associated with the block.
  • flowClampZeroArgBlock: E.g., start. A "child" flow is docked in an expandable clamp. There are no additional arguments and no flow above or below.
  • flowClampOneArgBlock: E.g., repeat. Unlike action, there is a flow above and below.
  • flowClampBooleanArgBlock: E.g., if. A "child" flow is docked in an expandable clamp. The additional argument is a boolean. There is flow above and below.
  • doubleFlowClampBooleanArgBlock: E.g., if then else. Two "child" flows are docked in expandable clamps. The additional argument is a boolean. There is flow above and below.
  • blockClampZeroArgBlock: E.g., forever. Unlike start, there is flow above and below.
  • blockClampOneArgBlock: E.g., action. A "child" flow is docked in an expandable clamp. The additional argument is a name. Again, no flow above or below.
  • booleanZeroArgBlock: E.g., mouse button.
  • booleanOneBooleanArgBlock: E.g., not
  • booleanTwoBooleanArgBlock: E.g., and
  • booleanOneArgBlock: E.g., found mouse
  • booleanTwoArgBlock: E.g., greater, less, equal.
  • parameterBlock: E.g., color, shade, pensize

FAQ

  1. I want to take in a fraction as a single argument but it appears in decimal with only one input field.
  • You are probably missing the relevant parameters in macro.js. Take a look at other block examples and modify macro.js accordingly.
  1. How do I get the information for the next note?

var noteObj = getNote(note, octave, transposition, that.keySignature[turtle], that.movable[turtle], direction, that.errorMsg);

  1. How do I modify the pitch parameters, such as the octave or scalar transposition?
  • To modify octave: that.transposition[turtle] += transValue
  • To modify pitch: Take a look at the addPitch function
  • To modify scalar transposition: that.scalarTransposition[turtle] += transValue
  • To modify beat factor: that.beatFactor[turtle] *= beatFactor
  • In some cases, you need to modify the beat factor accordingly with bpm
  1. What are some useful functions?

There are many, but here are a few:

  • rationalToFraction
  • addPitch
  • lastNotePlayed
  • pitchToFrequency
  • pitchToNumber
  • errorMsg

About the internal block format.

In blocks.js there is an instance variable, blockList that is a list of the current set of blocks that Music Blocks knows about. There are methods to add blocks to the list, notably loadNewBlocks. There is even a block that can be used to create new blocks, enabling Music Blocks programs to self-modify.

The internal format of this list is:

[block, block, block, ...]

Each block is itself a list of the form:

[block number, block name, x position, y position, [connection 0, connection 1...]]

where block number and the connections are integer indices into blockList, block name is string that matches one of the blocks defined in basicblocks.js, and the x and y positions are float value screen coordinates.

For example, a Note block might look like this:

[[0, 'newnote', 100, 100, [null, 1, 4, null]],
 [1, 'divide', 0, 0, [0, 2, 3]],
 [2, ['number', {'value': 1}], 0, 0, [1]],
 [3, ['number', {'value': 4}], 0, 0, [1]],
 [4, 'vspace', 0, 0, [0, 5]],
 [5, 'pitch', 0, 0, [4, 6, 7, null]]
 [6, ['solfege', {'value': 'sol'}], 0, 0, [5]],
 [7, ['number', {'value': 4}], 0, 0, [5]],
]

The block names are the internal names, not the labels shown in the interface. Hence Note blocks are newnote blocks. Note that the newnote block has 4 connections, two of which are null, since there is no block connected above or below. Also note that the only x, y poaition that is relevant is that of the newnote block, since the other blocks will be positioned by where they connect. (Typically, you only need to worry about the position of the first block in a stack of blocks. Everything else is calculated for you.)

alt tag

In the figure about and in the code example above, the divide block connection 0 connects to the newnote block connection 1, etc.