x64/Tools/pynche/README - platform/prebuilts/python/windows-x86 - Git at Google

 Pynche - The PYthonically Natural Color and Hue Editor

 Contact: Barry A. Warsaw
 Email:   bwarsaw@python.org
 Version: 1.3

 Introduction

     Pynche is a color editor based largely on a similar program that I
     originally wrote back in 1987 for the Sunview window system.  That
     editor was called ICE, the Interactive Color Editor.  I'd always
     wanted to port this program to X but didn't feel like hacking X
     and C code to do it.  Fast forward many years, to where Python +
     Tkinter provides such a nice programming environment, with enough
     power, that I finally buckled down and re-implemented it.  I
     changed the name because these days, too many other systems have
     the acronym `ICE'.

     Pynche should work with any variant of Python after 1.5.2
     (e.g. 2.0.1 and 2.1.1), using Tk 8.0.x.  It's been tested on
     Solaris 2.6, Windows NT 4, and various Linux distros.  You'll want
     to be sure to have at least Tk 8.0.3 for Windows.  Also, Pynche is
     very colormap intensive, so it doesn't work very well on 8-bit
     graphics cards; 24bit+ graphics cards are so cheap these days,
     I'll probably never "fix" that.

     Pynche must find a text database of colors names in order to
     provide `nearest' color matching.  Pynche is distributed with an
     rgb.txt file from the X11R6.4 distribution for this reason, along
     with other "Web related" database (see below).  You can use a
     different file with the -d option.  The file xlicense.txt contains
     the license only for rgb.txt and both files are in the X/
     subdirectory.

     Pynche is pronounced: Pin'-chee


 Running Standalone

     On Unix, start it by running the `pynche' script.  On Windows, run
     pynche.pyw to inhibit the console window.  When run from the
     command line, the following options are recognized:

     --database file
     -d file
         Alternate location of the color database file.  Without this
         option, the first valid file found will be used (see below).

     --initfile file
     -i file
         Alternate location of the persistent initialization file.  See
         the section on Persistency below.

     --ignore
     -X
         Ignore the persistent initialization file when starting up.
         Pynche will still write the current option settings to the
         persistent init file when it quits.

     --help
     -h
         Print the help message.

     initialcolor
         a Tk color name or #rrggbb color spec to be used as the
         initially selected color.  This overrides any color saved in
         the persistent init file.  Since `#' needs to be escaped in
         many shells, it is optional in the spec (e.g. #45dd1f is the
         same as 45dd1f).


 Running as a Modal Dialog

     Pynche can be run as a modal dialog, inside another application,
     say as a general color chooser.  In fact, Grail 0.6 uses Pynche
     and a future version of IDLE may as well.  Pynche supports the API
     implemented by the Tkinter standard tkColorChooser module, with a
     few changes as described below.  By importing pyColorChooser from
     the Pynche package, you can run

         pyColorChooser.askcolor()

     which will popup Pynche as a modal dialog, and return the selected
     color.

     There are some UI differences when running as a modal
     vs. standalone.  When running as a modal, there is no "Quit" menu
     item under the "File" menu.  Instead there are "Okay" and "Cancel"
     buttons.

     When "Okay" is hit, askcolor() returns the tuple

         ((r, g, b), "name")

     where r, g, and b are red, green, and blue color values
     respectively (in the range 0 to 255).  "name" will be a color name
     from the color database if there is an exact match, otherwise it
     will be an X11 color spec of the form "#rrggbb".  Note that this
     is different than tkColorChooser, which doesn't know anything
     about color names.

     askcolor() supports the following optional keyword arguments:

         color
             the color to set as the initial selected color

         master[*]
             the master window to use as the parent of the modal
             dialog.  Without this argument, pyColorChooser will create
             its own Tkinter.Tk instance as the master.  This may not
             be what you want.

         databasefile
             similar to the --database option, the value must be a
             file name

         initfile[*]
             similar to the --initfile option, the value must be a
             file name

         ignore[*]
             similar to the --ignore flag, the value is a boolean

         wantspec
             When this is true, the "name" field in the return tuple
             will always be a color spec of the form "#rrggbb".  It
             will not return a color name even if there is a match;
             this is so pyColorChooser can exactly match the API of
             tkColorChooser.

         [*] these arguments must be specified the first time
         askcolor() is used and cannot be changed on subsequent calls.


 The Colorstrip Window

     The top part of the main Pynche window contains the "variation
     strips".  Each strip contains a number of "color chips".  The
     strips always indicate the currently selected color by a highlight
     rectangle around the selected color chip, with an arrow pointing
     to the chip.  Each arrow has an associated number giving you the
     color value along the variation's axis.  Each variation strip
     shows you the colors that are reachable from the selected color by
     varying just one axis of the color solid.

     For example, when the selected color is (in Red/Green/Blue
     notation) 127/127/127, the Red Variations strip shows you every
     color in the range 0/127/127 to 255/127/127.  Similarly for the
     green and blue axes.  You can select any color by clicking on its
     chip.  This will update the highlight rectangle and the arrow, as
     well as other displays in Pynche.

     Click on "Update while dragging" if you want Pynche to update the
     selected color while you drag along any variation strip (this will
     be a bit slower).  Click on "Hexadecimal" to display the arrow
     numbers in hex.

     There are also two shortcut buttons in this window, which
     auto-select Black (0/0/0) and White (255/255/255).


 The Proof Window

     In the lower left corner of the main window you see two larger
     color chips.  The Selected chip shows you a larger version of the
     color selected in the variation strips, along with its X11 color
     specification.  The Nearest chip shows you the closest color in
     the X11 database to the selected color, giving its X11 color
     specification, and below that, its X11 color name.  When the
     Selected chip color exactly matches the Nearest chip color, you
     will see the color name appear below the color specification for
     the Selected chip.

     Clicking on the Nearest color chip selects that color.  Color
     distance is calculated in the 3D space of the RGB color solid and
     if more than one color name is the same distance from the selected
     color, the first one found will be chosen.

     Note that there may be more than one X11 color name for the same
     RGB value.  In that case, the first one found in the text database
     is designated the "primary" name, and this is shown under the
     Nearest chip.  The other names are "aliases" and they are visible
     in the Color List Window (see below).

     Both the color specifications and color names are selectable for
     copying and pasting into another window.


 The Type-in Window

     At the lower right of the main window are three entry fields.
     Here you can type numeric values for any of the three color axes.
     Legal values are between 0 and 255, and these fields do not allow
     you to enter illegal values.  You must hit Enter or Tab to select
     the new color.

     Click on "Update while typing" if you want Pynche to select the
     color on every keystroke (well, every one that produces a legal
     value!)  Click on "Hexadecimal" to display and enter color values
     in hex.


 Other Views

     There are three secondary windows which are not displayed by
     default.  You can bring these up via the "View" menu on the main
     Pynche window.


 The Text Window

     The "Text Window" allows you to see what effects various colors
     have on the standard Tk text widget elements.  In the upper part
     of the window is a plain Tk text widget and here you can edit the
     text, select a region of text, etc.  Below this is a button "Track
     color changes".  When this is turned on, any colors selected in
     the other windows will change the text widget element specified in
     the radio buttons below.  When this is turned off, text widget
     elements are not affected by color selection.

     You can choose which element gets changed by color selection by
     clicking on one of the radio buttons in the bottom part of this
     window.  Text foreground and background affect the text in the
     upper part of the window.  Selection foreground and background
     affect the colors of the primary selection which is what you see
     when you click the middle button (depending on window system) and
     drag it through some text.

     The Insertion is the insertion cursor in the text window, where
     new text will be inserted as you type.  The insertion cursor only
     has a background.


 The Color List Window

     The "Color List" window shows every named color in the color name
     database (this window may take a while to come up).  In the upper
     part of the window you see a scrolling list of all the color names
     in the database, in alphabetical order.  Click on any color to
     select it.  In the bottom part of the window is displayed any
     aliases for the selected color (those color names that have the
     same RGB value, but were found later in the text database).  For
     example, find the color "Black" and you'll see that its aliases
     are "gray0" and "grey0".

     If the color has no aliases you'll see "<no aliases>" here.  If you
     just want to see if a color has an alias, and do not want to select a
     color when you click on it, turn off "Update on Click".

     Note that the color list is always updated when a color is selected
     from the main window.  There's no way to turn this feature off.  If
     the selected color has no matching color name you'll see
     "<no matching color>" in the Aliases window.


 The Details Window

     The "Details" window gives you more control over color selection
     than just clicking on a color chip in the main window.  The row of
     buttons along the top apply the specified increment and decrement
     amounts to the selected color.  These delta amounts are applied to
     the variation strips specified by the check boxes labeled "Move
     Sliders".  Thus if just Red and Green are selected, hitting -10
     will subtract 10 from the color value along the red and green
     variation only.  Note the message under the checkboxes; this
     indicates the primary color level being changed when more than one
     slider is tied together.  For example, if Red and Green are
     selected, you will be changing the Yellow level of the selected
     color.

     The "At Boundary" behavior determines what happens when any color
     variation hits either the lower or upper boundaries (0 or 255) as
     a result of clicking on the top row buttons:

     Stop
         When the increment or decrement would send any of the tied
         variations out of bounds, the entire delta is discarded.

     Wrap Around
         When the increment or decrement would send any of the tied
         variations out of bounds, the out of bounds value is wrapped
         around to the other side.  Thus if red were at 238 and +25
         were clicked, red would have the value 7.

     Preserve Distance
         When the increment or decrement would send any of the tied
         variations out of bounds, all tied variations are wrapped as
         one, so as to preserve the distance between them.  Thus if
         green and blue were tied, and green was at 238 while blue was
         at 223, and +25 were clicked, green would be at 15 and blue
         would be at 0.

     Squash
         When the increment or decrement would send any of the tied
         variations out of bounds, the out of bounds variation is set
         to the ceiling of 255 or floor of 0, as appropriate.  In this
         way, all tied variations are squashed to one edge or the
         other.

     The top row buttons have the following keyboard accelerators:

     -25 == Shift Left Arrow
     -10 == Control Left Arrow
      -1 == Left Arrow
      +1 == Right Arrow
     +10 == Control Right Arrow
     +25 == Shift Right Arrow


 Keyboard Accelerators

     Alt-w in any secondary window dismisses the window.  In the main
     window it exits Pynche (except when running as a modal).

     Alt-q in any window exits Pynche (except when running as a modal).


 Persistency

     Pynche remembers various settings of options and colors between
     invocations, storing these values in a `persistent initialization
     file'.  The actual location of this file is specified by the
     --initfile option (see above), and defaults to ~/.pynche.

     When Pynche exits, it saves these values in the init file, and
     re-reads them when it starts up.  There is no locking on this
     file, so if you run multiple instances of Pynche at a time, you
     may clobber the init file.

     The actual options stored include

     - the currently selected color

     - all settings of checkbox and radio button options in all windows

     - the contents of the text window, the current text selection and
       insertion point, and all current text widget element color
       settings.

     - the name of the color database file (but not its contents)

     You can inhibit Pynche from reading the init file by supplying the
     --ignore option on the command line.  However, you cannot suppress
     the storing of the settings in the init file on Pynche exit.  If
     you really want to do this, use /dev/null as the init file, using
     --initfile.


 Color Name Database Files

     Pynche uses a color name database file to calculate the nearest
     color to the selected color, and to display in the Color List
     view.  Several files are distributed with Pynche, described
     below.  By default, the X11 color name database file is selected.
     Other files:

     html40colors.txt -- the HTML 4.0 guaranteed color names

     websafe.txt -- the 216 "Web-safe" colors that Netscape and MSIE
     guarantee will not be dithered.  These are specified in #rrggbb
     format for both values and names

     webcolors.txt -- The 140 color names that Tim Peters and his
     sister say NS and MSIE both understand (with some controversy over
     AliceBlue).

     namedcolors.txt -- an alternative set of Netscape colors.

     You can switch between files by choosing "Load palette..." from
     the "File" menu.  This brings up a standard Tk file dialog.
     Choose the file you want and then click "Ok".  If Pynche
     understands the format in this file, it will load the database and
     update the appropriate windows.  If not, it will bring up an error
     dialog.


 To Do

     Here's a brief list of things I want to do (some mythical day):

     - Better support for resizing the top level windows

     - More output views, e.g. color solids

     - Have the notion of a `last color selected'; this may require a
       new output view

     - Support setting the font in the text view

     - Support distutils setup.py for installation

     I'm open to suggestions!


 Local Variables:
 indent-tabs-mode: nil
 End:
	Pynche - The PYthonically Natural Color and Hue Editor

	Contact: Barry A. Warsaw
	Email: bwarsaw@python.org
	Version: 1.3

	Introduction

	Pynche is a color editor based largely on a similar program that I
	originally wrote back in 1987 for the Sunview window system. That
	editor was called ICE, the Interactive Color Editor. I'd always
	wanted to port this program to X but didn't feel like hacking X
	and C code to do it. Fast forward many years, to where Python +
	Tkinter provides such a nice programming environment, with enough
	power, that I finally buckled down and re-implemented it. I
	changed the name because these days, too many other systems have
	the acronym `ICE'.

	Pynche should work with any variant of Python after 1.5.2
	(e.g. 2.0.1 and 2.1.1), using Tk 8.0.x. It's been tested on
	Solaris 2.6, Windows NT 4, and various Linux distros. You'll want
	to be sure to have at least Tk 8.0.3 for Windows. Also, Pynche is
	very colormap intensive, so it doesn't work very well on 8-bit
	graphics cards; 24bit+ graphics cards are so cheap these days,
	I'll probably never "fix" that.

	Pynche must find a text database of colors names in order to
	provide `nearest' color matching. Pynche is distributed with an
	rgb.txt file from the X11R6.4 distribution for this reason, along
	with other "Web related" database (see below). You can use a
	different file with the -d option. The file xlicense.txt contains
	the license only for rgb.txt and both files are in the X/
	subdirectory.

	Pynche is pronounced: Pin'-chee


	Running Standalone

	On Unix, start it by running the `pynche' script. On Windows, run
	pynche.pyw to inhibit the console window. When run from the
	command line, the following options are recognized:

	--database file
	-d file
	Alternate location of the color database file. Without this
	option, the first valid file found will be used (see below).

	--initfile file
	-i file
	Alternate location of the persistent initialization file. See
	the section on Persistency below.

	--ignore
	-X
	Ignore the persistent initialization file when starting up.
	Pynche will still write the current option settings to the
	persistent init file when it quits.

	--help
	-h
	Print the help message.

	initialcolor
	a Tk color name or #rrggbb color spec to be used as the
	initially selected color. This overrides any color saved in
	the persistent init file. Since `#' needs to be escaped in
	many shells, it is optional in the spec (e.g. #45dd1f is the
	same as 45dd1f).


	Running as a Modal Dialog

	Pynche can be run as a modal dialog, inside another application,
	say as a general color chooser. In fact, Grail 0.6 uses Pynche
	and a future version of IDLE may as well. Pynche supports the API
	implemented by the Tkinter standard tkColorChooser module, with a
	few changes as described below. By importing pyColorChooser from
	the Pynche package, you can run

	pyColorChooser.askcolor()

	which will popup Pynche as a modal dialog, and return the selected
	color.

	There are some UI differences when running as a modal
	vs. standalone. When running as a modal, there is no "Quit" menu
	item under the "File" menu. Instead there are "Okay" and "Cancel"
	buttons.

	When "Okay" is hit, askcolor() returns the tuple

	((r, g, b), "name")

	where r, g, and b are red, green, and blue color values
	respectively (in the range 0 to 255). "name" will be a color name
	from the color database if there is an exact match, otherwise it
	will be an X11 color spec of the form "#rrggbb". Note that this
	is different than tkColorChooser, which doesn't know anything
	about color names.

	askcolor() supports the following optional keyword arguments:

	color
	the color to set as the initial selected color

	master[*]
	the master window to use as the parent of the modal
	dialog. Without this argument, pyColorChooser will create
	its own Tkinter.Tk instance as the master. This may not
	be what you want.

	databasefile
	similar to the --database option, the value must be a
	file name

	initfile[*]
	similar to the --initfile option, the value must be a
	file name

	ignore[*]
	similar to the --ignore flag, the value is a boolean

	wantspec
	When this is true, the "name" field in the return tuple
	will always be a color spec of the form "#rrggbb". It
	will not return a color name even if there is a match;
	this is so pyColorChooser can exactly match the API of
	tkColorChooser.

	[*] these arguments must be specified the first time
	askcolor() is used and cannot be changed on subsequent calls.


	The Colorstrip Window

	The top part of the main Pynche window contains the "variation
	strips". Each strip contains a number of "color chips". The
	strips always indicate the currently selected color by a highlight
	rectangle around the selected color chip, with an arrow pointing
	to the chip. Each arrow has an associated number giving you the
	color value along the variation's axis. Each variation strip
	shows you the colors that are reachable from the selected color by
	varying just one axis of the color solid.

	For example, when the selected color is (in Red/Green/Blue
	notation) 127/127/127, the Red Variations strip shows you every
	color in the range 0/127/127 to 255/127/127. Similarly for the
	green and blue axes. You can select any color by clicking on its
	chip. This will update the highlight rectangle and the arrow, as
	well as other displays in Pynche.

	Click on "Update while dragging" if you want Pynche to update the
	selected color while you drag along any variation strip (this will
	be a bit slower). Click on "Hexadecimal" to display the arrow
	numbers in hex.

	There are also two shortcut buttons in this window, which
	auto-select Black (0/0/0) and White (255/255/255).


	The Proof Window

	In the lower left corner of the main window you see two larger
	color chips. The Selected chip shows you a larger version of the
	color selected in the variation strips, along with its X11 color
	specification. The Nearest chip shows you the closest color in
	the X11 database to the selected color, giving its X11 color
	specification, and below that, its X11 color name. When the
	Selected chip color exactly matches the Nearest chip color, you
	will see the color name appear below the color specification for
	the Selected chip.

	Clicking on the Nearest color chip selects that color. Color
	distance is calculated in the 3D space of the RGB color solid and
	if more than one color name is the same distance from the selected
	color, the first one found will be chosen.

	Note that there may be more than one X11 color name for the same
	RGB value. In that case, the first one found in the text database
	is designated the "primary" name, and this is shown under the
	Nearest chip. The other names are "aliases" and they are visible
	in the Color List Window (see below).

	Both the color specifications and color names are selectable for
	copying and pasting into another window.


	The Type-in Window

	At the lower right of the main window are three entry fields.
	Here you can type numeric values for any of the three color axes.
	Legal values are between 0 and 255, and these fields do not allow
	you to enter illegal values. You must hit Enter or Tab to select
	the new color.

	Click on "Update while typing" if you want Pynche to select the
	color on every keystroke (well, every one that produces a legal
	value!) Click on "Hexadecimal" to display and enter color values
	in hex.


	Other Views

	There are three secondary windows which are not displayed by
	default. You can bring these up via the "View" menu on the main
	Pynche window.


	The Text Window

	The "Text Window" allows you to see what effects various colors
	have on the standard Tk text widget elements. In the upper part
	of the window is a plain Tk text widget and here you can edit the
	text, select a region of text, etc. Below this is a button "Track
	color changes". When this is turned on, any colors selected in
	the other windows will change the text widget element specified in
	the radio buttons below. When this is turned off, text widget
	elements are not affected by color selection.

	You can choose which element gets changed by color selection by
	clicking on one of the radio buttons in the bottom part of this
	window. Text foreground and background affect the text in the
	upper part of the window. Selection foreground and background
	affect the colors of the primary selection which is what you see
	when you click the middle button (depending on window system) and
	drag it through some text.

	The Insertion is the insertion cursor in the text window, where
	new text will be inserted as you type. The insertion cursor only
	has a background.


	The Color List Window

	The "Color List" window shows every named color in the color name
	database (this window may take a while to come up). In the upper
	part of the window you see a scrolling list of all the color names
	in the database, in alphabetical order. Click on any color to
	select it. In the bottom part of the window is displayed any
	aliases for the selected color (those color names that have the
	same RGB value, but were found later in the text database). For
	example, find the color "Black" and you'll see that its aliases
	are "gray0" and "grey0".

	If the color has no aliases you'll see "<no aliases>" here. If you
	just want to see if a color has an alias, and do not want to select a
	color when you click on it, turn off "Update on Click".

	Note that the color list is always updated when a color is selected
	from the main window. There's no way to turn this feature off. If
	the selected color has no matching color name you'll see
	"<no matching color>" in the Aliases window.


	The Details Window

	The "Details" window gives you more control over color selection
	than just clicking on a color chip in the main window. The row of
	buttons along the top apply the specified increment and decrement
	amounts to the selected color. These delta amounts are applied to
	the variation strips specified by the check boxes labeled "Move
	Sliders". Thus if just Red and Green are selected, hitting -10
	will subtract 10 from the color value along the red and green
	variation only. Note the message under the checkboxes; this
	indicates the primary color level being changed when more than one
	slider is tied together. For example, if Red and Green are
	selected, you will be changing the Yellow level of the selected
	color.

	The "At Boundary" behavior determines what happens when any color
	variation hits either the lower or upper boundaries (0 or 255) as
	a result of clicking on the top row buttons:

	Stop
	When the increment or decrement would send any of the tied
	variations out of bounds, the entire delta is discarded.

	Wrap Around
	When the increment or decrement would send any of the tied
	variations out of bounds, the out of bounds value is wrapped
	around to the other side. Thus if red were at 238 and +25
	were clicked, red would have the value 7.

	Preserve Distance
	When the increment or decrement would send any of the tied
	variations out of bounds, all tied variations are wrapped as
	one, so as to preserve the distance between them. Thus if
	green and blue were tied, and green was at 238 while blue was
	at 223, and +25 were clicked, green would be at 15 and blue
	would be at 0.

	Squash
	When the increment or decrement would send any of the tied
	variations out of bounds, the out of bounds variation is set
	to the ceiling of 255 or floor of 0, as appropriate. In this
	way, all tied variations are squashed to one edge or the
	other.

	The top row buttons have the following keyboard accelerators:

	-25 == Shift Left Arrow
	-10 == Control Left Arrow
	-1 == Left Arrow
	+1 == Right Arrow
	+10 == Control Right Arrow
	+25 == Shift Right Arrow


	Keyboard Accelerators

	Alt-w in any secondary window dismisses the window. In the main
	window it exits Pynche (except when running as a modal).

	Alt-q in any window exits Pynche (except when running as a modal).


	Persistency

	Pynche remembers various settings of options and colors between
	invocations, storing these values in a `persistent initialization
	file'. The actual location of this file is specified by the
	--initfile option (see above), and defaults to ~/.pynche.

	When Pynche exits, it saves these values in the init file, and
	re-reads them when it starts up. There is no locking on this
	file, so if you run multiple instances of Pynche at a time, you
	may clobber the init file.

	The actual options stored include

	- the currently selected color

	- all settings of checkbox and radio button options in all windows

	- the contents of the text window, the current text selection and
	insertion point, and all current text widget element color
	settings.

	- the name of the color database file (but not its contents)

	You can inhibit Pynche from reading the init file by supplying the
	--ignore option on the command line. However, you cannot suppress
	the storing of the settings in the init file on Pynche exit. If
	you really want to do this, use /dev/null as the init file, using
	--initfile.


	Color Name Database Files

	Pynche uses a color name database file to calculate the nearest
	color to the selected color, and to display in the Color List
	view. Several files are distributed with Pynche, described
	below. By default, the X11 color name database file is selected.
	Other files:

	html40colors.txt -- the HTML 4.0 guaranteed color names

	websafe.txt -- the 216 "Web-safe" colors that Netscape and MSIE
	guarantee will not be dithered. These are specified in #rrggbb
	format for both values and names

	webcolors.txt -- The 140 color names that Tim Peters and his
	sister say NS and MSIE both understand (with some controversy over
	AliceBlue).

	namedcolors.txt -- an alternative set of Netscape colors.

	You can switch between files by choosing "Load palette..." from
	the "File" menu. This brings up a standard Tk file dialog.
	Choose the file you want and then click "Ok". If Pynche
	understands the format in this file, it will load the database and
	update the appropriate windows. If not, it will bring up an error
	dialog.


	To Do

	Here's a brief list of things I want to do (some mythical day):

	- Better support for resizing the top level windows

	- More output views, e.g. color solids

	- Have the notion of a `last color selected'; this may require a
	new output view

	- Support setting the font in the text view

	- Support distutils setup.py for installation

	I'm open to suggestions!



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