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svn+ssh://pythondev@svn.python.org/python/trunk ........ r60568 | christian.heimes | 2008-02-04 19:48:38 +0100 (Mon, 04 Feb 2008) | 1 line Increase debugging to investige failing tests on some build bots ........ r60570 | christian.heimes | 2008-02-04 20:30:05 +0100 (Mon, 04 Feb 2008) | 1 line Small adjustments for test compact freelist test. It's no passing on Windows as well. ........ r60573 | amaury.forgeotdarc | 2008-02-04 21:53:14 +0100 (Mon, 04 Feb 2008) | 2 lines Correct quotes in NEWS file ........ r60575 | amaury.forgeotdarc | 2008-02-04 22:45:05 +0100 (Mon, 04 Feb 2008) | 13 lines #1750076: Debugger did not step on every iteration of a while statement. The mapping between bytecode offsets and source lines (lnotab) did not contain an entry for the beginning of the loop. Now it does, and the lnotab can be a bit larger: in particular, several statements on the same line generate several entries. However, this does not bother the settrace function, which will trigger only one 'line' event. The lnotab seems to be exactly the same as with python2.4. ........ r60584 | amaury.forgeotdarc | 2008-02-05 01:26:21 +0100 (Tue, 05 Feb 2008) | 3 lines Change r60575 broke test_compile: there is no need to emit co_lnotab item when both offsets are zeros. ........ r60587 | skip.montanaro | 2008-02-05 03:32:16 +0100 (Tue, 05 Feb 2008) | 1 line sync with most recent version from python-mode sf project ........ r60588 | lars.gustaebel | 2008-02-05 12:51:40 +0100 (Tue, 05 Feb 2008) | 5 lines Issue #2004: Use mode 0700 for temporary directories and default permissions for missing directories. (will backport to 2.5) ........ r60590 | georg.brandl | 2008-02-05 13:01:24 +0100 (Tue, 05 Feb 2008) | 2 lines Convert external links to internal links. Fixes #2010. ........ r60592 | marc-andre.lemburg | 2008-02-05 15:50:40 +0100 (Tue, 05 Feb 2008) | 3 lines Keep distutils Python 2.1 compatible (or even Python 2.4 in this case). ........ r60593 | andrew.kuchling | 2008-02-05 17:06:57 +0100 (Tue, 05 Feb 2008) | 5 lines Update PEP URL. (This code is duplicated between pydoc and DocXMLRPCServer; maybe it should be refactored as a GHOP project.) 2.5.2 backport candidate. ........ r60596 | guido.van.rossum | 2008-02-05 18:32:15 +0100 (Tue, 05 Feb 2008) | 2 lines In the experimental 'Scanner' feature, the group count was set wrong. ........ r60602 | facundo.batista | 2008-02-05 20:03:32 +0100 (Tue, 05 Feb 2008) | 3 lines Issue 1951. Converts wave test cases to unittest. ........ r60603 | georg.brandl | 2008-02-05 20:07:10 +0100 (Tue, 05 Feb 2008) | 2 lines Actually run the test. ........ r60604 | skip.montanaro | 2008-02-05 20:24:30 +0100 (Tue, 05 Feb 2008) | 2 lines correct object name ........ r60605 | georg.brandl | 2008-02-05 20:58:17 +0100 (Tue, 05 Feb 2008) | 7 lines * Use the same code to profile for test_profile and test_cprofile. * Convert both to unittest. * Use the same unit testing code. * Include the expected output in both test files. * Make it possible to regenerate the expected output by running the file as a script with an '-r' argument. ........ r60613 | raymond.hettinger | 2008-02-06 02:49:00 +0100 (Wed, 06 Feb 2008) | 1 line Sync-up with Py3k work. ........ r60614 | christian.heimes | 2008-02-06 13:44:34 +0100 (Wed, 06 Feb 2008) | 1 line Limit free list of method and builtin function objects to 256 entries each. ........ r60616 | christian.heimes | 2008-02-06 14:33:44 +0100 (Wed, 06 Feb 2008) | 7 lines Unified naming convention for free lists and their limits. All free lists in Object/ are named ``free_list``, the counter ``numfree`` and the upper limit is a macro ``PyName_MAXFREELIST`` inside an #ifndef block. The chances should make it easier to adjust Python for platforms with less memory, e.g. mobile phones. ........
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.. _curses-howto:
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**********************************
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Curses Programming with Python
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**********************************
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:Author: A.M. Kuchling, Eric S. Raymond
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:Release: 2.03
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.. topic:: Abstract
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This document describes how to write text-mode programs with Python 2.x, using
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the :mod:`curses` extension module to control the display.
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What is curses?
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===============
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The curses library supplies a terminal-independent screen-painting and
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keyboard-handling facility for text-based terminals; such terminals include
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VT100s, the Linux console, and the simulated terminal provided by X11 programs
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such as xterm and rxvt. Display terminals support various control codes to
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perform common operations such as moving the cursor, scrolling the screen, and
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erasing areas. Different terminals use widely differing codes, and often have
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their own minor quirks.
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In a world of X displays, one might ask "why bother"? It's true that
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character-cell display terminals are an obsolete technology, but there are
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niches in which being able to do fancy things with them are still valuable. One
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is on small-footprint or embedded Unixes that don't carry an X server. Another
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is for tools like OS installers and kernel configurators that may have to run
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before X is available.
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The curses library hides all the details of different terminals, and provides
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the programmer with an abstraction of a display, containing multiple
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non-overlapping windows. The contents of a window can be changed in various
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ways-- adding text, erasing it, changing its appearance--and the curses library
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will automagically figure out what control codes need to be sent to the terminal
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to produce the right output.
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The curses library was originally written for BSD Unix; the later System V
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versions of Unix from AT&T added many enhancements and new functions. BSD curses
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is no longer maintained, having been replaced by ncurses, which is an
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open-source implementation of the AT&T interface. If you're using an
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open-source Unix such as Linux or FreeBSD, your system almost certainly uses
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ncurses. Since most current commercial Unix versions are based on System V
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code, all the functions described here will probably be available. The older
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versions of curses carried by some proprietary Unixes may not support
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everything, though.
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No one has made a Windows port of the curses module. On a Windows platform, try
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the Console module written by Fredrik Lundh. The Console module provides
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cursor-addressable text output, plus full support for mouse and keyboard input,
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and is available from http://effbot.org/efflib/console.
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The Python curses module
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------------------------
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Thy Python module is a fairly simple wrapper over the C functions provided by
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curses; if you're already familiar with curses programming in C, it's really
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easy to transfer that knowledge to Python. The biggest difference is that the
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Python interface makes things simpler, by merging different C functions such as
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:func:`addstr`, :func:`mvaddstr`, :func:`mvwaddstr`, into a single
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:meth:`addstr` method. You'll see this covered in more detail later.
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This HOWTO is simply an introduction to writing text-mode programs with curses
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and Python. It doesn't attempt to be a complete guide to the curses API; for
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that, see the Python library guide's section on ncurses, and the C manual pages
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for ncurses. It will, however, give you the basic ideas.
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Starting and ending a curses application
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========================================
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Before doing anything, curses must be initialized. This is done by calling the
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:func:`initscr` function, which will determine the terminal type, send any
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required setup codes to the terminal, and create various internal data
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structures. If successful, :func:`initscr` returns a window object representing
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the entire screen; this is usually called ``stdscr``, after the name of the
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corresponding C variable. ::
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import curses
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stdscr = curses.initscr()
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Usually curses applications turn off automatic echoing of keys to the screen, in
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order to be able to read keys and only display them under certain circumstances.
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This requires calling the :func:`noecho` function. ::
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curses.noecho()
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Applications will also commonly need to react to keys instantly, without
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requiring the Enter key to be pressed; this is called cbreak mode, as opposed to
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the usual buffered input mode. ::
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curses.cbreak()
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Terminals usually return special keys, such as the cursor keys or navigation
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keys such as Page Up and Home, as a multibyte escape sequence. While you could
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write your application to expect such sequences and process them accordingly,
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curses can do it for you, returning a special value such as
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:const:`curses.KEY_LEFT`. To get curses to do the job, you'll have to enable
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keypad mode. ::
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stdscr.keypad(1)
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Terminating a curses application is much easier than starting one. You'll need
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to call ::
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curses.nocbreak(); stdscr.keypad(0); curses.echo()
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to reverse the curses-friendly terminal settings. Then call the :func:`endwin`
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function to restore the terminal to its original operating mode. ::
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curses.endwin()
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A common problem when debugging a curses application is to get your terminal
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messed up when the application dies without restoring the terminal to its
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previous state. In Python this commonly happens when your code is buggy and
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raises an uncaught exception. Keys are no longer be echoed to the screen when
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you type them, for example, which makes using the shell difficult.
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In Python you can avoid these complications and make debugging much easier by
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importing the module :mod:`curses.wrapper`. It supplies a :func:`wrapper`
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function that takes a callable. It does the initializations described above,
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and also initializes colors if color support is present. It then runs your
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provided callable and finally deinitializes appropriately. The callable is
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called inside a try-catch clause which catches exceptions, performs curses
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deinitialization, and then passes the exception upwards. Thus, your terminal
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won't be left in a funny state on exception.
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Windows and Pads
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================
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Windows are the basic abstraction in curses. A window object represents a
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rectangular area of the screen, and supports various methods to display text,
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erase it, allow the user to input strings, and so forth.
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The ``stdscr`` object returned by the :func:`initscr` function is a window
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object that covers the entire screen. Many programs may need only this single
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window, but you might wish to divide the screen into smaller windows, in order
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to redraw or clear them separately. The :func:`newwin` function creates a new
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window of a given size, returning the new window object. ::
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begin_x = 20 ; begin_y = 7
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height = 5 ; width = 40
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win = curses.newwin(height, width, begin_y, begin_x)
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A word about the coordinate system used in curses: coordinates are always passed
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in the order *y,x*, and the top-left corner of a window is coordinate (0,0).
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This breaks a common convention for handling coordinates, where the *x*
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coordinate usually comes first. This is an unfortunate difference from most
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other computer applications, but it's been part of curses since it was first
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written, and it's too late to change things now.
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When you call a method to display or erase text, the effect doesn't immediately
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show up on the display. This is because curses was originally written with slow
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300-baud terminal connections in mind; with these terminals, minimizing the time
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required to redraw the screen is very important. This lets curses accumulate
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changes to the screen, and display them in the most efficient manner. For
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example, if your program displays some characters in a window, and then clears
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the window, there's no need to send the original characters because they'd never
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be visible.
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Accordingly, curses requires that you explicitly tell it to redraw windows,
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using the :func:`refresh` method of window objects. In practice, this doesn't
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really complicate programming with curses much. Most programs go into a flurry
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of activity, and then pause waiting for a keypress or some other action on the
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part of the user. All you have to do is to be sure that the screen has been
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redrawn before pausing to wait for user input, by simply calling
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``stdscr.refresh()`` or the :func:`refresh` method of some other relevant
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window.
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A pad is a special case of a window; it can be larger than the actual display
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screen, and only a portion of it displayed at a time. Creating a pad simply
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requires the pad's height and width, while refreshing a pad requires giving the
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coordinates of the on-screen area where a subsection of the pad will be
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displayed. ::
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pad = curses.newpad(100, 100)
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# These loops fill the pad with letters; this is
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# explained in the next section
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for y in range(0, 100):
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for x in range(0, 100):
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try: pad.addch(y,x, ord('a') + (x*x+y*y) % 26 )
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except curses.error: pass
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# Displays a section of the pad in the middle of the screen
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pad.refresh( 0,0, 5,5, 20,75)
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The :func:`refresh` call displays a section of the pad in the rectangle
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extending from coordinate (5,5) to coordinate (20,75) on the screen; the upper
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left corner of the displayed section is coordinate (0,0) on the pad. Beyond
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that difference, pads are exactly like ordinary windows and support the same
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methods.
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If you have multiple windows and pads on screen there is a more efficient way to
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go, which will prevent annoying screen flicker at refresh time. Use the
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:meth:`noutrefresh` method of each window to update the data structure
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representing the desired state of the screen; then change the physical screen to
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match the desired state in one go with the function :func:`doupdate`. The
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normal :meth:`refresh` method calls :func:`doupdate` as its last act.
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Displaying Text
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===============
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From a C programmer's point of view, curses may sometimes look like a twisty
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maze of functions, all subtly different. For example, :func:`addstr` displays a
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string at the current cursor location in the ``stdscr`` window, while
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:func:`mvaddstr` moves to a given y,x coordinate first before displaying the
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string. :func:`waddstr` is just like :func:`addstr`, but allows specifying a
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window to use, instead of using ``stdscr`` by default. :func:`mvwaddstr` follows
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similarly.
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Fortunately the Python interface hides all these details; ``stdscr`` is a window
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object like any other, and methods like :func:`addstr` accept multiple argument
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forms. Usually there are four different forms.
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+---------------------------------+-----------------------------------------------+
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| Form | Description |
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+=================================+===============================================+
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| *str* or *ch* | Display the string *str* or character *ch* at |
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| | the current position |
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+---------------------------------+-----------------------------------------------+
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| *str* or *ch*, *attr* | Display the string *str* or character *ch*, |
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| | using attribute *attr* at the current |
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| | position |
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+---------------------------------+-----------------------------------------------+
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| *y*, *x*, *str* or *ch* | Move to position *y,x* within the window, and |
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| | display *str* or *ch* |
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+---------------------------------+-----------------------------------------------+
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| *y*, *x*, *str* or *ch*, *attr* | Move to position *y,x* within the window, and |
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| | display *str* or *ch*, using attribute *attr* |
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+---------------------------------+-----------------------------------------------+
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Attributes allow displaying text in highlighted forms, such as in boldface,
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underline, reverse code, or in color. They'll be explained in more detail in
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the next subsection.
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The :func:`addstr` function takes a Python string as the value to be displayed,
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while the :func:`addch` functions take a character, which can be either a Python
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string of length 1 or an integer. If it's a string, you're limited to
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displaying characters between 0 and 255. SVr4 curses provides constants for
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extension characters; these constants are integers greater than 255. For
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example, :const:`ACS_PLMINUS` is a +/- symbol, and :const:`ACS_ULCORNER` is the
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upper left corner of a box (handy for drawing borders).
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Windows remember where the cursor was left after the last operation, so if you
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leave out the *y,x* coordinates, the string or character will be displayed
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wherever the last operation left off. You can also move the cursor with the
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``move(y,x)`` method. Because some terminals always display a flashing cursor,
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you may want to ensure that the cursor is positioned in some location where it
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won't be distracting; it can be confusing to have the cursor blinking at some
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apparently random location.
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If your application doesn't need a blinking cursor at all, you can call
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``curs_set(0)`` to make it invisible. Equivalently, and for compatibility with
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older curses versions, there's a ``leaveok(bool)`` function. When *bool* is
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true, the curses library will attempt to suppress the flashing cursor, and you
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won't need to worry about leaving it in odd locations.
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Attributes and Color
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--------------------
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Characters can be displayed in different ways. Status lines in a text-based
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application are commonly shown in reverse video; a text viewer may need to
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highlight certain words. curses supports this by allowing you to specify an
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attribute for each cell on the screen.
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An attribute is a integer, each bit representing a different attribute. You can
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try to display text with multiple attribute bits set, but curses doesn't
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guarantee that all the possible combinations are available, or that they're all
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visually distinct. That depends on the ability of the terminal being used, so
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it's safest to stick to the most commonly available attributes, listed here.
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+----------------------+--------------------------------------+
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| Attribute | Description |
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+======================+======================================+
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| :const:`A_BLINK` | Blinking text |
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+----------------------+--------------------------------------+
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| :const:`A_BOLD` | Extra bright or bold text |
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+----------------------+--------------------------------------+
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| :const:`A_DIM` | Half bright text |
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+----------------------+--------------------------------------+
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| :const:`A_REVERSE` | Reverse-video text |
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+----------------------+--------------------------------------+
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| :const:`A_STANDOUT` | The best highlighting mode available |
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+----------------------+--------------------------------------+
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| :const:`A_UNDERLINE` | Underlined text |
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+----------------------+--------------------------------------+
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So, to display a reverse-video status line on the top line of the screen, you
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could code::
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stdscr.addstr(0, 0, "Current mode: Typing mode",
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curses.A_REVERSE)
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stdscr.refresh()
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The curses library also supports color on those terminals that provide it, The
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most common such terminal is probably the Linux console, followed by color
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xterms.
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To use color, you must call the :func:`start_color` function soon after calling
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:func:`initscr`, to initialize the default color set (the
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:func:`curses.wrapper.wrapper` function does this automatically). Once that's
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done, the :func:`has_colors` function returns TRUE if the terminal in use can
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actually display color. (Note: curses uses the American spelling 'color',
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instead of the Canadian/British spelling 'colour'. If you're used to the
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British spelling, you'll have to resign yourself to misspelling it for the sake
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of these functions.)
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The curses library maintains a finite number of color pairs, containing a
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foreground (or text) color and a background color. You can get the attribute
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value corresponding to a color pair with the :func:`color_pair` function; this
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can be bitwise-OR'ed with other attributes such as :const:`A_REVERSE`, but
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again, such combinations are not guaranteed to work on all terminals.
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An example, which displays a line of text using color pair 1::
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stdscr.addstr( "Pretty text", curses.color_pair(1) )
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stdscr.refresh()
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As I said before, a color pair consists of a foreground and background color.
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:func:`start_color` initializes 8 basic colors when it activates color mode.
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They are: 0:black, 1:red, 2:green, 3:yellow, 4:blue, 5:magenta, 6:cyan, and
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7:white. The curses module defines named constants for each of these colors:
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:const:`curses.COLOR_BLACK`, :const:`curses.COLOR_RED`, and so forth.
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The ``init_pair(n, f, b)`` function changes the definition of color pair *n*, to
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foreground color f and background color b. Color pair 0 is hard-wired to white
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on black, and cannot be changed.
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Let's put all this together. To change color 1 to red text on a white
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background, you would call::
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curses.init_pair(1, curses.COLOR_RED, curses.COLOR_WHITE)
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When you change a color pair, any text already displayed using that color pair
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will change to the new colors. You can also display new text in this color
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with::
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stdscr.addstr(0,0, "RED ALERT!", curses.color_pair(1) )
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Very fancy terminals can change the definitions of the actual colors to a given
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RGB value. This lets you change color 1, which is usually red, to purple or
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blue or any other color you like. Unfortunately, the Linux console doesn't
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support this, so I'm unable to try it out, and can't provide any examples. You
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can check if your terminal can do this by calling :func:`can_change_color`,
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which returns TRUE if the capability is there. If you're lucky enough to have
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such a talented terminal, consult your system's man pages for more information.
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User Input
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==========
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The curses library itself offers only very simple input mechanisms. Python's
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support adds a text-input widget that makes up some of the lack.
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The most common way to get input to a window is to use its :meth:`getch` method.
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:meth:`getch` pauses and waits for the user to hit a key, displaying it if
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:func:`echo` has been called earlier. You can optionally specify a coordinate
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to which the cursor should be moved before pausing.
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It's possible to change this behavior with the method :meth:`nodelay`. After
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``nodelay(1)``, :meth:`getch` for the window becomes non-blocking and returns
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``curses.ERR`` (a value of -1) when no input is ready. There's also a
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:func:`halfdelay` function, which can be used to (in effect) set a timer on each
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:meth:`getch`; if no input becomes available within a specified
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delay (measured in tenths of a second), curses raises an exception.
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The :meth:`getch` method returns an integer; if it's between 0 and 255, it
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represents the ASCII code of the key pressed. Values greater than 255 are
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special keys such as Page Up, Home, or the cursor keys. You can compare the
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value returned to constants such as :const:`curses.KEY_PPAGE`,
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|
:const:`curses.KEY_HOME`, or :const:`curses.KEY_LEFT`. Usually the main loop of
|
|
your program will look something like this::
|
|
|
|
while True:
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|
c = stdscr.getch()
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|
if c == ord('p'): PrintDocument()
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|
elif c == ord('q'): break # Exit the while()
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|
elif c == curses.KEY_HOME: x = y = 0
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|
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|
The :mod:`curses.ascii` module supplies ASCII class membership functions that
|
|
take either integer or 1-character-string arguments; these may be useful in
|
|
writing more readable tests for your command interpreters. It also supplies
|
|
conversion functions that take either integer or 1-character-string arguments
|
|
and return the same type. For example, :func:`curses.ascii.ctrl` returns the
|
|
control character corresponding to its argument.
|
|
|
|
There's also a method to retrieve an entire string, :const:`getstr()`. It isn't
|
|
used very often, because its functionality is quite limited; the only editing
|
|
keys available are the backspace key and the Enter key, which terminates the
|
|
string. It can optionally be limited to a fixed number of characters. ::
|
|
|
|
curses.echo() # Enable echoing of characters
|
|
|
|
# Get a 15-character string, with the cursor on the top line
|
|
s = stdscr.getstr(0,0, 15)
|
|
|
|
The Python :mod:`curses.textpad` module supplies something better. With it, you
|
|
can turn a window into a text box that supports an Emacs-like set of
|
|
keybindings. Various methods of :class:`Textbox` class support editing with
|
|
input validation and gathering the edit results either with or without trailing
|
|
spaces. See the library documentation on :mod:`curses.textpad` for the
|
|
details.
|
|
|
|
|
|
For More Information
|
|
====================
|
|
|
|
This HOWTO didn't cover some advanced topics, such as screen-scraping or
|
|
capturing mouse events from an xterm instance. But the Python library page for
|
|
the curses modules is now pretty complete. You should browse it next.
|
|
|
|
If you're in doubt about the detailed behavior of any of the ncurses entry
|
|
points, consult the manual pages for your curses implementation, whether it's
|
|
ncurses or a proprietary Unix vendor's. The manual pages will document any
|
|
quirks, and provide complete lists of all the functions, attributes, and
|
|
:const:`ACS_\*` characters available to you.
|
|
|
|
Because the curses API is so large, some functions aren't supported in the
|
|
Python interface, not because they're difficult to implement, but because no one
|
|
has needed them yet. Feel free to add them and then submit a patch. Also, we
|
|
don't yet have support for the menus or panels libraries associated with
|
|
ncurses; feel free to add that.
|
|
|
|
If you write an interesting little program, feel free to contribute it as
|
|
another demo. We can always use more of them!
|
|
|
|
The ncurses FAQ: http://dickey.his.com/ncurses/ncurses.faq.html
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|