Activities/Turtle Art/Help

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About Turtle Art

Activity-Turtle Art.png

Turtle Art, also known as Turtle Blocks, is an activity with a Logo-inspired graphical "turtle" that draws colorful art based on snap-together visual programming elements. Its "low floor" provides an easy entry point for beginners. It also has "high ceiling" programming, graphics, mathematics, and Computer Science features which will challenge the more adventurous student.

Where to get Turtle Art

http://activities.sugarlabs.org/en-US/sugar/addon/4027

Note: There are two inter-compatible programs: Turtle Art and Turtle Blocks. Turtle Art, which closely parallels the Java version of Turtle Art maintained by Brian Silverman, offers a small subset of the functionality of Turtle Blocks. Turtle Blocks is the version included in the Sugar distribution. Sugar users probably want to use Turtle Blocks rather than Turtle Art. (Also see Turtle Confusion, a collection of programming challenges designed by Barry Newell.)

Using Turtle Art

Screenshot of "Turtle Art Activity" getting started.png

Start by clicking on (or dragging) blocks from the Turtle palette. Use multiple blocks to create drawings; as the turtle moves under your control, colorful lines are drawn.

You add blocks to your program by clicking on or dragging them from the palette to the main area. You can delete a block by dragging it back onto the palette. Click anywhere on a "stack" of blocks to start executing that stack or by clicking in the Rabbit (fast) , Turtle (slow) or Bug (debug) buttons Rabbitturtle.jpg on the Project Toolbar.

The basics

Drawing shapes

Displaying things

Boxes, Stacks and the Heap

(aka variables, subroutines and the stack)

Mathematics

Keyboard, mouse and sensor input

Toolbars

Main Toolbar

TAmain.png

From left to right:

  • Activity toolbar (includes sharing; saving/loading options);
  • Edit toolbar (including copy and paste);
  • View toolbar (including full-screen, coordinate overlays; turtle status, etc.);
  • Palette toolbar (including all programming blocks);
  • erase canvas;
  • run project fast (rabbit);
  • run project slow (snail);
  • hide blocks (This button is replaced by the stop button when the project is running);
  • help;
  • load examples;
  • stop activity
Note
Keyboard short cuts for the above: Alt+ palette; blocks; run; walk; stop; erase; e.g., Alt+e will erase the screen. Esc will return from full-screen mode.
Note
The run buttons are tied to the Start Block. If no Start Block is used, then all blocks are run when either run button is clicked.
Note
The "rabbit" button runs the blocks at maximum speed. The "snail" button pauses and displays the turtle and block values between each step.
Note
The Show-blocks.svg button, which is replaced by the Stop button on the main toolbar while the program is executing, is used to reveal the program blocks. Individual palettes can be hidden by clicking on their highlighted tab.
Note
On older versions of Sugar (e.g., 0.84), the main toolbar will look like this:

TA0.84.png

Project Toolbar

TurtleBlocks Toolbar 1.png

From left to right:

  • Project title;
  • Write to Journal (on newer versions of Sugar)
  • Keep button (not shown; only appears on older Sugar systems)
  • Share button;
  • Share blocks button used to share stacks of blocks between collaborators (shown in inactive state);
  • Save palette button (shows save options; see below);
  • Load palette button (shows load options; see below)
Note
On older Sugar systems, these controls appear on the Import/Export toolbar.
Note
To share a stack, click on the share button. The cursor will change to the hand shape Ta-hand-cursor.png. Place the cursor on any block or stack of blocks and click. The blocks will be shared and the cursor will change back to the arrow shape.

TurtleBlocks Toolbar 1a.png

TurtleBlocks Toolbar 1b.png

Edit Toolbar

TurtleBlocks Toolbar 2.png

The Edit toolbar is used to copy stacks of blocks to the clipboard and to paste stacks from the clipboard. To copy a stack, click on the copy button or type Ctrl-c. The cursor will change to the hand shape Ta-hand-cursor.png. Place the cursor on any block or stack of blocks and click. The blocks will be copied to the Sugar clipboard and the cursor will change back to the arrow shape. To paste from the clipboard, type Ctrl-v or click the paste button.

From left to right:

  • Copy;
  • Paste;
  • Undo (Restore blocks from trash);
  • Save stack to custom palette (use the hand cursor to select a stack to save, the stack of blocks must start with an "action" block);
  • Remove stack from custom palette (use the hand cursor to select a stack on the custom palette to delete)
Note
After save stack: To show the custom palette or see new stacks it is necessary to restart TurtleBlocks

View Toolbar

TurtleBlocks Toolbar 4.png

From left to right:

  • Full-screen button;
  • Cartesian-coordinate grid;
  • polar-coordinate grid;
  • not shown: centimeter-coordinate grid (XO-only);
  • Rescale-coordinates button (There are two modes: one pixel-based and one scaled from -20 to 20);
  • Grow block size;
  • Shrink block size
  • Disable/enable hover help
  • display of x,y coordinates, heading of turtle;

Palettes Toolbar

The palette menus are revealed by clicking on the Block icon on the main toolbar. (On older Sugar systems, select the Projects toolbar. When running Turtle Art from GNOME, the palettes are visible by default.)

TurtleBlocks Toolbar 5.png

There are ten palettes of program elements available for program construction: Turtle movements; Pen attributes; Color attributes; Numeric operators; Logical operators; Logical blocks; Sensor blocks; Media blocks; Customization functions; and Presentation blocks. An eleventh palette is used for restoring blocks from the trash.

Note
Additional palettes may be loaded by plugin extensions to Turtle Blocks.
Note
A custom palette is created if you use the 'save stack' button on the Edit toolbar.
Note
Blocks are dragged from the palette onto the canvas surface. To dispose of a block, drag it back onto the palette. (It will be placed onto the trash palette.)
Note
The palettes can be displayed horizontally or vertically (See below). Orientation is adjusted by clicking on the TAorientation0.svg and TAorientation1.svg buttons on the upper-left corner of the palette.
Note
The palette can be hidden by clicking on the TAhide.svg button on the lower-right corner of the palette.
Note
The next palette in the menu can be accessed by clicking on the TAnext.svg button on the upper-right corner of the palette.
Note
On smaller screens, a palette may not fit. It can be scrolled by clicking on the TAscroll.svg button.

Turtle Palette

TAturtle.png

These blocks are used to control the movements of the turtle.

  • forward: move turtle forward
  • back: move turtle backward
  • clean: clear the screen and position the turtle in the center of the screen, pen down, color red, heading 0
  • left: rotate turtle counterclockwise
  • right: rotate turtle clockwise
  • arc: move turtle along an arc
  • set xy: set turtle x,y position (0,0) is the center of the screen
  • seth: set turtle heading
  • xcor: holds current x-coordinate value of the turtle (can be used in place of a number block)
  • ycor: holds current y-coordinate value of the turtle (can be used in place of a number block)
  • heading: holds current heading value of the turtle (can be used in place of a number block)

Pen Palette

TApen.png

These blocks are used to control the attributes of the turtle's pen.

  • pen up: turtle will not draw when moved
  • pen down: turtle will draw when moved
  • set pen size: sets the width of the line drawn by the turtle
  • fill screen: fill the screen with a color/shade and reposition the turtle in the center of the screen
  • pen size: width of the line drawn by the turtle (can be used in place of a number block)
  • set color: sets the pen color
  • set shade: sets the pen shade
  • set gray: sets the gray-level of the pen (Only available in Turtle Blocks)
  • color: current pen color (can be used in place of a number block)
  • shade: current pen shade (can be used in place of a number block)
  • gray: current pen gray level (can be used in place of a number block) (Only available in Turtle Blocks)
  • start fill: starts a filled polygon (straight sides, not arcs)
  • end fill: ends a fill polygon (straight sides, not arcs)

Color Palette

TAcolors.png

These blocks can be used with the set-pen-color block in place of a number block.

Numbers Palette

TAnumbers.png

These blocks are arithmetic and boolean operators.

  • addition: adds two numeric inputs (also can be used to concatenate strings)
  • subtraction: subtracts the bottom numeric input from the top input
  • multiplication: multiplies two numeric inputs
  • division: divided top input (numerator) by bottom input (denominator)
  • identity: identity function (used for spacing blocks)
  • modulo (remainder): calculates remainder when dividing top input by the bottom input
  • square root (Only available with Turtle Blocks)
  • random number: generates a random integer between the minimum and maximum values
  • number block: a numeric input
  • greater than: boolean greater than operator (used with flow blocks)
  • less than: boolean less than operator (used with flow blocks)
  • equal to: boolean equal to operator (used with flow blocks)
  • not: boolean not (Only available with Turtle Blocks)
  • and: boolean and (Only available with Turtle Blocks)
  • or: boolean or (Only available with Turtle Blocks)

Flow Palette

TAflow.png

These blocks control program flow.

  • wait: pause program execution (unit is seconds)
  • forever: continuously repeat execute stack under the right flow
  • repeat: repeat the execution of stack under the right flow a specified number of times
  • if/then: conditional execution of the stack under the right flow (uses boolean operators found on the Number palette)
  • if/then/else: conditional execution of the stack under the center and right flows (uses boolean operators found on the Number palette)
  • vertical spacer
  • stop stack: interrupt execution
  • while: execute stack under right flow while the condition is true (uses boolean operators found on the Number palette) (Only available with Turtle Blocks)
  • until: execute stack under right flow until the condition is true (uses boolean operators found on the Number palette) (Only available with Turtle Blocks)

Note: Nesting while and/or until blocks is not always reliable. If you encounter an error, try putting the nested block in a separate stack, accessed with an action block.

Blocks Palette

TAblocks.png

These blocks are for defining variables and subroutines. Without actions

  • start: connects action to toolbar 'Run' button
  • store in: store a number, string, or media object in a named box
  • action: top of named action stack
  • action: execute named action stack

Note: When a named action or named box block are used, new blocks appear on the palette that correspond to these names; e.g., if a top of action stack is rename, "to square", an action block, "to square" is added to the palette.

TAblocks yes.png

Palette with additional actions and boxes created by the user.

Sensors Palette

TAsensors.png

  • query keyboard: check for keyboard input (results are stored in the keyboard block)
  • keyboard: current value of keyboard input (can be used in place of a number block)
  • read pixel: push the RGB value of the pixel under the turtle onto the FILO (blue is first, red is last)
  • turtle sees: the "palette color" of the pixel under the turtle
  • time: number of seconds since program began
  • sound: raw data from microphone ranging -32000 to 32000
  • volume (loudness): ranging 0 to 32000
  • pitch: the resolution is +-8Hz
  • brightness: average luminance seen through camera
  • button down: current state of the mouse button (1 == down; 0 == ip)
  • mouse x: x position of mouse
  • mouse y: y position of mouse

The OLPC XO can measure external inputs with its microphone jack:

  • resistance: measurement range is 750 to 14k ohms, (OLPC XO1) and 2k ohms to open circuit (OLPC XO1.5)
  • voltage: measurement range is DC 0.4V to 1.85V. (OLPC XO1) and 0.17V to 3.0V (OLPC XO1.5)

The OLPC XO 1.75 also includes an accelerometer.

  • accelerate (not shown): measure the acceleration of the computer. Results are pushed to the stack and can be retrieved by using 3 'pop' blocks (one for X (horizontal), one for Y (vertical), and one for Z (forward/backward))

See Activities/Turtle Art/Using Turtle Art Sensors for more details about the sensor blocks.

(Activities/Turtle Art/Uso de Tortuga Arte Sensores español)

Media Palette

TAmedia.png

These are a collection of blocks used for displaying media objects, such as images from the Journal.

  • journal: Sugar Journal media object (used with show block) (also available in Turtle Art)
  • audio: Sugar Journal media object (used with show block)
  • video: Sugar Journal media object (used with show block)
  • description: Sugar Journal description field (used with show block)
  • text: text string (used with show block; also used with box and action blocks)
  • show: draw text or display media object from the Journal
  • set scale: sets the scale of images displayed with show block
  • save picture: save the canvas to the Sugar Journal as a .png image (note: saves the canvas as displayed)
  • save SVG: save turtle graphics to the Sugar Journal as a .svg image (note: only saves the changes to the canvas in the current execution run)
  • scale: sets scale for show block (100% is full-screen)
  • media wait: used to pause program while audio or video file plays
  • media stop: stop current sound or video
  • media pause: pause current sound or video
  • media resume: resume playing paused media
  • speak: sends text to the voice synthesizer
  • sine wave: plays a sine wave of a given frequency, amplitude, and duration

Extras Palette

TAextras.png

These are a collection of extra blocks for accessing advanced features only available in Turtle Blocks.

  • push: push value onto FILO (first-in last-out) heap
  • show heap: show FILO in status block
  • empty heap: empty the FILO
  • pop: pop value off of the FILO (can be used in place of a number block)
  • print: print value in status block (also available in Turtle Art)
  • comment: program comment (displayed in "walk" mode)
  • chr: Python chr primitive: converts ASCII to character (useful for converting keyboard input to text)
  • int: Python int primitive: converts input to integers
  • Python: a programmable block (can be used in place of a number block)
add your own math equation in the block, e.g., sin(x); This block is expandable to support up to three variables, e.g. f(x,y,z)
  • Import Python: import Python code from the Sugar Journal (a more general-purpose programmable block). This block accepts a single variable x, as an input or up to 3 variables as an array x[0], x[1] and x[2]
  • Cartesian: display Cartesian coordinate grid overlay
  • polar: display polar coordinate grid overlay
  • turtle: specify which turtle is active
  • turtle shell: import a image from the Journal to use as the turtle's 'shell', i.e., replace the turtle with a sprite.
  • turtle x: Return x coordinates of turtle
  • turtle y: Return y coordinates of turtle
  • active turtle: the name of active turtle
  • turtle heading: Return heading of turtle
  • URL: gets a text string or image from a URL

Portfolio Palette

TAportfolio.png

These blocks are used to make multimedia presentations only available in Turtle Blocks.

  • hide blocks: hides all blocks and palettes (useful for decluttering the screen during presentations) (also available in Turtle Art)
  • show blocks: shows blocks and palettes (useful for resuming programming after a presentation)
  • full screen: goes into full-screen mode (hides Sugar toolbars)
  • list slide: used for bulleted lists; This block is expandable, allowing you to add as many bullets as you need
  • picture slides: used for picture slides (1×1, 2×2, 1×2, and 2×1)

Only available in Turtle Blocks:

  • left: holds current x-coordinate value of the left edge of the screen (can be used in place of a number block)
  • top: holds current y-coordinate value of the top edge of the screen (can be used in place of a number block)
  • right: holds current x-coordinate value of the right edge of the screen (can be used in place of a number block)
  • bottom: holds current y-coordinate value of the bottom edge of the screen (can be used in place of a number block)
  • width: screen width (can be used in place of a number block)
  • height: screen height (can be used in place of a number block)
Note: The slide blocks expand into stacks that can be edited for customized presentations.

User custom-stack palette

TAStack.png

The custom palette holds any blocks that have been saved with "Save Stack" option in Edit Toolbar. It lets you reuse stacks between projects. Blocks on this palette will expand into action stacks.

Note
This palette first appears after using the "Save stack" option on the Edit Toolbar.

Trash Palette

TAtrash.png

This palette holds any blocks that have been put in the trash. You can drag blocks out of the trash to restore them. The trash palette is emptied when you quit Turtle Art.

Vertical palettes

TAvertical.png

An example of a vertical palette. Vertical palettes are used by default on the OLPC XO laptops running older versions of Sugar.

Palettes en español

<Activity-specific descriptions>

Learning with Turtle Art

Tony Forster and Mokurai have created a number of Turtle Art Tutorials on a wide range of math, programming, art, and Computer Science topics. There is also a substantial literature of educational materials using the Logo programming language, from which Turtle Art and Turtle Blocks derive. The Exploring with Logo series from MIT Press is particularly recommended for showing how far beyond simple graphics Logo can go. Mokurai recommends starting with his first three, specifically designed for helping beginners of all ages, starting with the preliterate in preschool.

Extending Turtle Art

There are versions of Turtle Art in several programming languages and environments, including Logo, Python, Smalltalk, and others. Turtle Art can export programs in Logo, as explained below. There are programmable blocks in Turtle Art which make it possible to include any Python program within the Turtle Art world. The simplest case is a single function call used in a graphing program, but there is no inherent limit on what capabilities of Python one can add to TA.

Turtle Art can export its projects to Berkeley Logo (using either View Source or the Save as Logo button on the Project Toolbar) You can download the Berkeley Logo activity here.

Logo code generated from your project is viewable in the View Source panel in some versions of Turtle Art, but as of v100, the Turtle Art project itself is shown instead.

Note: The Save-as-Logo button saves to the Journal as "logosession.lg". UCB Logo does not yet access the Journal directly, so it is necessary to copy the project out of the Journal using the "copy-from-journal" command in the Terminal Activity and then accessing the project using the File menu within the UCB Logo Activity.

copy-from-journal logosession.lg

Alternatively, you can open the logosession in 'Write', copy the Logo code to the clipboard, and then paste it into the UCB Logo Activity.

Python Blocks in Turtle Art

There are two ways to create Python blocks: by loading sample code provided with Turtle Art or by loading Python code the your Journal.

loading sample code

A number of individual sample programs are provided. Clicking on the Load Python Block button on the Load/Save Toolbar Loadpythonsamples.jpg will invoke a file-selector dialog. Select the sample that you want and it will be both copied to the Journal and loaded into a Python block.

Pythonsampleselector.jpg

loading code from the Journal

Clicking on a Python block Pythoncodeblock.jpg that has been dragged onto the canvas from the Extras palette will invoke an object-selector dialog.

Pythonobjectselector.jpg

Select the Python code that that you want and that code will be loaded into the selected block.

You can't run a Python block by clicking on it, as that opens the object selector; instead attach the block to another one and click elsewhere on the stack you have created.

Which ever way you create them, multiple Python blocks can have different code loaded in them.

Modifying Turtle Art

Turtle Art is under the MIT license. You are free to use it and learn with it. You are also encourage to modify it to suit your needs or just for a further opportunity to learn.

Much of the motivation behind the Version 83 refactoring of the code was to make it easier for you to make changes. Most changes can be confined to two modules: taconstants.py and talogo.py. The former defines the blocks and palettes; the latter defines what code is executed by a block.

Note: As of Version 106, there is also support for plugins. If you can use the plugin mechanism to add support for additional devices, e.g., Arduino, or for making modifications such as are described below without making changes to the standard code base. (The advantage to the latter is that your changes will remain intact even after you upgrade to a newer version.)

The tabasics.py file contains the constants that by-in-large determine the behavior of Turtle Art. Notably, the block palettes are defined below. If you want to add a new block to Turtle Art, you could simply add a block of code to that file or to turtle_block_plugin.py, which contains additional blocks. (Even better, write your own plugin!!)

Adding a new palette is simply a matter of:

   palette = make_palette('mypalette',  # the name of your palette
                          colors=["#00FF00", "#00A000"],
                          help_string=_('Palette of my custom commands'))

For example, if we want to add a new turtle command, 'uturn', we'd use the add_block method in the Palette class.

   palette.add_block('uturn',  # the name of your block
                     style='basic-style',  # the block style
                     label=_('u turn'),  # the label for the block
                     prim_name='uturn',  # code reference (see below)
                     help_string=_('turns the turtle 180 degrees'))

Next, you need to define what your block will do. def_prim takes 3 arguments: the primitive name, the number of arguments—0 in this case—and the function to call—in this case, the canvas.seth function to set the heading.

   self.tw.lc.def_prim('uturn', 0,
       lambda self: self.tw.canvas.seth(self.tw.canvas.heading + 180))

That's it. When you next run Turtle Art, you will have a 'uturn' block on the 'mypalette' palette.

You will have to create icons for the palette-selector buttons. These are kept in the icons subdirectory. You need two icons: mypaletteoff.svg and mypaletteon.svg, where 'mypalette' is the same string as the entry you used in instantiating the Palette class. Note that the icons should be the same size (55x55) as the others. (This is the default icon size for Sugar toolbars.)

Where to report problems

Please file bug reports here.

Credits

  • Walter Bender and Raúl Gutiérrez Segalés maintain the code (with some occasional help from Simon Schampijer)
  • Alan Jhonn Aguiar Schwyn and the Butia Team have provided great feedback and many patches.
  • Especially helpful feedback from Tony Forster, Guzmán Trinidad, and Bill Kerr
  • Brian Silverman is the first author of Turtle Art