This is ../info/lispref.info, produced by makeinfo version 4.0 from lispref/lispref.texi. INFO-DIR-SECTION XEmacs Editor START-INFO-DIR-ENTRY * Lispref: (lispref). XEmacs Lisp Reference Manual. END-INFO-DIR-ENTRY Edition History: GNU Emacs Lisp Reference Manual Second Edition (v2.01), May 1993 GNU Emacs Lisp Reference Manual Further Revised (v2.02), August 1993 Lucid Emacs Lisp Reference Manual (for 19.10) First Edition, March 1994 XEmacs Lisp Programmer's Manual (for 19.12) Second Edition, April 1995 GNU Emacs Lisp Reference Manual v2.4, June 1995 XEmacs Lisp Programmer's Manual (for 19.13) Third Edition, July 1995 XEmacs Lisp Reference Manual (for 19.14 and 20.0) v3.1, March 1996 XEmacs Lisp Reference Manual (for 19.15 and 20.1, 20.2, 20.3) v3.2, April, May, November 1997 XEmacs Lisp Reference Manual (for 21.0) v3.3, April 1998 Copyright (C) 1990, 1991, 1992, 1993, 1994, 1995 Free Software Foundation, Inc. Copyright (C) 1994, 1995 Sun Microsystems, Inc. Copyright (C) 1995, 1996 Ben Wing. Permission is granted to make and distribute verbatim copies of this manual provided the copyright notice and this permission notice are preserved on all copies. Permission is granted to copy and distribute modified versions of this manual under the conditions for verbatim copying, provided that the entire resulting derived work is distributed under the terms of a permission notice identical to this one. Permission is granted to copy and distribute translations of this manual into another language, under the above conditions for modified versions, except that this permission notice may be stated in a translation approved by the Foundation. Permission is granted to copy and distribute modified versions of this manual under the conditions for verbatim copying, provided also that the section entitled "GNU General Public License" is included exactly as in the original, and provided that the entire resulting derived work is distributed under the terms of a permission notice identical to this one. Permission is granted to copy and distribute translations of this manual into another language, under the above conditions for modified versions, except that the section entitled "GNU General Public License" may be included in a translation approved by the Free Software Foundation instead of in the original English.  File: lispref.info, Node: Retrieving Specifications, Next: Specifier Tag Functions, Prev: Adding Specifications, Up: Specifiers Retrieving the Specifications from a Specifier ============================================== - Function: specifier-spec-list specifier &optional locale tag-set exact-p This function returns the spec-list of specifications for SPECIFIER in LOCALE. If LOCALE is a particular locale (a window, buffer, frame, device, or the symbol `global'), a spec-list consisting of the specification for that locale will be returned. If LOCALE is a locale type (i.e. a symbol `window', `buffer', `frame', or `device'), a spec-list of the specifications for all locales of that type will be returned. If LOCALE is `nil' or the symbol `all', a spec-list of all specifications in SPECIFIER will be returned. LOCALE can also be a list of locales, locale types, and/or `all'; the result is as if `specifier-spec-list' were called on each element of the list and the results concatenated together. Only instantiators where TAG-SET (a list of zero or more tags) is a subset of (or possibly equal to) the instantiator's tag set are returned. (The default value of` nil' is a subset of all tag sets, so in this case no instantiators will be screened out.) If EXACT-P is non-`nil', however, TAG-SET must be equal to an instantiator's tag set for the instantiator to be returned. - Function: specifier-specs specifier &optional locale tag-set exact-p This function returns the specification(s) for SPECIFIER in LOCALE. If LOCALE is a single locale or is a list of one element containing a single locale, then a "short form" of the instantiators for that locale will be returned. Otherwise, this function is identical to `specifier-spec-list'. The "short form" is designed for readability and not for ease of use in Lisp programs, and is as follows: 1. If there is only one instantiator, then an inst-pair (i.e. cons of tag and instantiator) will be returned; otherwise a list of inst-pairs will be returned. 2. For each inst-pair returned, if the instantiator's tag is `any', the tag will be removed and the instantiator itself will be returned instead of the inst-pair. 3. If there is only one instantiator, its value is `nil', and its tag is `any', a one-element list containing `nil' will be returned rather than just `nil', to distinguish this case from there being no instantiators at all. - Function: specifier-fallback specifier This function returns the fallback value for SPECIFIER. Fallback values are provided by the C code for certain built-in specifiers to make sure that instancing won't fail even if all specs are removed from the specifier, or to implement simple inheritance behavior (e.g. this method is used to ensure that faces other than `default' inherit their attributes from `default'). By design, you cannot change the fallback value, and specifiers created with `make-specifier' will never have a fallback (although a similar, Lisp-accessible capability may be provided in the future to allow for inheritance). The fallback value will be an inst-list that is instanced like any other inst-list, a specifier of the same type as SPECIFIER (results in inheritance), or `nil' for no fallback. When you instance a specifier, you can explicitly request that the fallback not be consulted. (The C code does this, for example, when merging faces.) See `specifier-instance'.  File: lispref.info, Node: Specifier Tag Functions, Next: Specifier Instancing Functions, Prev: Retrieving Specifications, Up: Specifiers Working With Specifier Tags =========================== A specifier tag set is an entity that is attached to an instantiator and can be used to restrict the scope of that instantiator to a particular device class or device type and/or to mark instantiators added by a particular package so that they can be later removed. A specifier tag set consists of a list of zero or more specifier tags, each of which is a symbol that is recognized by XEmacs as a tag. (The valid device types and device classes are always tags, as are any tags defined by `define-specifier-tag'.) It is called a "tag set" (as opposed to a list) because the order of the tags or the number of times a particular tag occurs does not matter. Each tag has a predicate associated with it, which specifies whether that tag applies to a particular device. The tags which are device types and classes match devices of that type or class. User-defined tags can have any predicate, or none (meaning that all devices match). When attempting to instance a specifier, a particular instantiator is only considered if the device of the domain being instanced over matches all tags in the tag set attached to that instantiator. Most of the time, a tag set is not specified, and the instantiator gets a null tag set, which matches all devices. - Function: valid-specifier-tag-p tag This function returns non-`nil' if TAG is a valid specifier tag. - Function: valid-specifier-tag-set-p tag-set This function returns non-`nil' if TAG-SET is a valid specifier tag set. - Function: canonicalize-tag-set tag-set This function canonicalizes the given tag set. Two canonicalized tag sets can be compared with `equal' to see if they represent the same tag set. (Specifically, canonicalizing involves sorting by symbol name and removing duplicates.) - Function: device-matches-specifier-tag-set-p device tag-set This function returns non-`nil' if DEVICE matches specifier tag set TAG-SET. This means that DEVICE matches each tag in the tag set. - Function: define-specifier-tag tag &optional predicate This function defines a new specifier tag. If PREDICATE is specified, it should be a function of one argument (a device) that specifies whether the tag matches that particular device. If PREDICATE is omitted, the tag matches all devices. You can redefine an existing user-defined specifier tag. However, you cannot redefine the built-in specifier tags (the device types and classes) or the symbols `nil', `t', `all', or `global'. - Function: device-matching-specifier-tag-list &optional device This function returns a list of all specifier tags matching DEVICE. DEVICE defaults to the selected device if omitted. - Function: specifier-tag-list This function returns a list of all currently-defined specifier tags. This includes the built-in ones (the device types and classes). - Function: specifier-tag-predicate tag This function returns the predicate for the given specifier tag.  File: lispref.info, Node: Specifier Instancing Functions, Next: Specifier Example, Prev: Specifier Tag Functions, Up: Specifiers Functions for Instancing a Specifier ==================================== - Function: specifier-instance specifier &optional domain default no-fallback This function instantiates SPECIFIER (return its value) in DOMAIN. If no instance can be generated for this domain, return DEFAULT. DOMAIN should be a window, frame, or device. Other values that are legal as a locale (e.g. a buffer) are not valid as a domain because they do not provide enough information to identify a particular device (see `valid-specifier-domain-p'). DOMAIN defaults to the selected window if omitted. "Instantiating" a specifier in a particular domain means determining the specifier's "value" in that domain. This is accomplished by searching through the specifications in the specifier that correspond to all locales that can be derived from the given domain, from specific to general. In most cases, the domain is an Emacs window. In that case specifications are searched for as follows: 1. A specification whose locale is the window itself; 2. A specification whose locale is the window's buffer; 3. A specification whose locale is the window's frame; 4. A specification whose locale is the window's frame's device; 5. A specification whose locale is the symbol `global'. If all of those fail, then the C-code-provided fallback value for this specifier is consulted (see `specifier-fallback'). If it is an inst-list, then this function attempts to instantiate that list just as when a specification is located in the first five steps above. If the fallback is a specifier, `specifier-instance' is called recursively on this specifier and the return value used. Note, however, that if the optional argument NO-FALLBACK is non-`nil', the fallback value will not be consulted. Note that there may be more than one specification matching a particular locale; all such specifications are considered before looking for any specifications for more general locales. Any particular specification that is found may be rejected because it is tagged to a particular device class (e.g. `color') or device type (e.g. `x') or both and the device for the given domain does not match this, or because the specification is not valid for the device of the given domain (e.g. the font or color name does not exist for this particular X server). The returned value is dependent on the type of specifier. For example, for a font specifier (as returned by the `face-font' function), the returned value will be a font-instance object. For images, the returned value will be a string, pixmap, or subwindow. - Function: specifier-instance-from-inst-list specifier domain inst-list &optional default This function attempts to convert a particular inst-list into an instance. This attempts to instantiate INST-LIST in the given DOMAIN, as if INST-LIST existed in a specification in SPECIFIER. If the instantiation fails, DEFAULT is returned. In most circumstances, you should not use this function; use `specifier-instance' instead.  File: lispref.info, Node: Specifier Example, Next: Creating Specifiers, Prev: Specifier Instancing Functions, Up: Specifiers Example of Specifier Usage ========================== Now let us present an example to clarify the theoretical discussions we have been through. In this example, we will use the general specifier functions for clarity. Keep in mind that many types of specifiers, and some other types of objects that are associated with specifiers (e.g. faces), provide convenience functions making it easier to work with objects of that type. Let us consider the background color of the default face. A specifier is used to specify how that color will appear in different domains. First, let's retrieve the specifier: (setq sp (face-property 'default 'background)) => # (specifier-specs sp) => ((# (nil . "forest green")) (# (nil . "hot pink")) (# (nil . "puke orange") (nil . "moccasin")) (# (nil . "magenta")) (global ((tty) . "cyan") (nil . "white")) ) Then, say we want to determine what the background color of the default face is for the window currently displaying the buffer `*scratch*'. We call (get-buffer-window "*scratch*") => # (window-frame (get-buffer-window "*scratch*")) => # (specifier-instance sp (get-buffer-window "*scratch*")) => # Note that we passed a window to `specifier-instance', not a buffer. We cannot pass a buffer because a buffer by itself does not provide enough information. The buffer might not be displayed anywhere at all, or could be displayed in many different frames on different devices. The result is arrived at like this: 1. First, we look for a specification matching the buffer displayed in the window, i.e. `*scratch*'. There are none, so we proceed. 2. Then, we look for a specification matching the window itself. Again, there are none. 3. Then, we look for a specification matching the window's frame. The specification `(# . "puke orange")' is found. We call the instantiation method for colors, passing it the locale we were searching over (i.e. the window, in this case) and the instantiator (`"puke orange"'). However, the particular device which this window is on (let's say it's an X connection) doesn't recognize the color `"puke orange"', so the specification is rejected. 4. So we continue looking for a specification matching the window's frame. We find `(# . "moccasin")'. Again, we call the instantiation method for colors. This time, the X server our window is on recognizes the color `moccasin', and so the instantiation method succeeds and returns a color instance.  File: lispref.info, Node: Creating Specifiers, Next: Specifier Validation Functions, Prev: Specifier Example, Up: Specifiers Creating New Specifier Objects ============================== - Function: make-specifier type This function creates a new specifier. A specifier is an object that can be used to keep track of a property whose value can be per-buffer, per-window, per-frame, or per-device, and can further be restricted to a particular device-type or device-class. Specifiers are used, for example, for the various built-in properties of a face; this allows a face to have different values in different frames, buffers, etc. For more information, see `specifier-instance', `specifier-specs', and `add-spec-to-specifier'; or, for a detailed description of specifiers, including how they are instantiated over a particular domain (i.e. how their value in that domain is determined), see the chapter on specifiers in the XEmacs Lisp Reference Manual. TYPE specifies the particular type of specifier, and should be one of the symbols `generic', `integer', `natnum', `boolean', `color', `font', `image', `face-boolean', or `toolbar'. For more information on particular types of specifiers, see the functions `make-generic-specifier', `make-integer-specifier', `make-natnum-specifier', `make-boolean-specifier', `make-color-specifier', `make-font-specifier', `make-image-specifier', `make-face-boolean-specifier', and `make-toolbar-specifier'. - Function: make-specifier-and-init type spec-list &optional dont-canonicalize This function creates and initialize a new specifier. This is a front-end onto `make-specifier' that allows you to create a specifier and add specs to it at the same time. TYPE specifies the specifier type. SPEC-LIST supplies the specification(s) to be added to the specifier. Normally, almost any reasonable abbreviation of the full spec-list form is accepted, and is converted to the full form; however, if optional argument DONT-CANONICALIZE is non-`nil', this conversion is not performed, and the SPEC-LIST must already be in full form. See `canonicalize-spec-list'. - Function: make-integer-specifier spec-list Return a new `integer' specifier object with the given specification list. SPEC-LIST can be a list of specifications (each of which is a cons of a locale and a list of instantiators), a single instantiator, or a list of instantiators. Valid instantiators for integer specifiers are integers. - Function: make-boolean-specifier spec-list Return a new `boolean' specifier object with the given specification list. SPEC-LIST can be a list of specifications (each of which is a cons of a locale and a list of instantiators), a single instantiator, or a list of instantiators. Valid instantiators for boolean specifiers are `t' and `nil'. - Function: make-natnum-specifier spec-list Return a new `natnum' specifier object with the given specification list. SPEC-LIST can be a list of specifications (each of which is a cons of a locale and a list of instantiators), a single instantiator, or a list of instantiators. Valid instantiators for natnum specifiers are non-negative integers. - Function: make-generic-specifier spec-list Return a new `generic' specifier object with the given specification list. SPEC-LIST can be a list of specifications (each of which is a cons of a locale and a list of instantiators), a single instantiator, or a list of instantiators. Valid instantiators for generic specifiers are all Lisp values. They are returned back unchanged when a specifier is instantiated. - Function: make-display-table-specifier spec-list Return a new `display-table' specifier object with the given spec list. SPEC-LIST can be a list of specifications (each of which is a cons of a locale and a list of instantiators), a single instantiator, or a list of instantiators. Valid instantiators for display-table specifiers are described in detail in the doc string for `current-display-table' (*note Active Display Table::).  File: lispref.info, Node: Specifier Validation Functions, Next: Other Specification Functions, Prev: Creating Specifiers, Up: Specifiers Functions for Checking the Validity of Specifier Components =========================================================== - Function: valid-specifier-domain-p domain This function returns non-`nil' if DOMAIN is a valid specifier domain. A domain is used to instance a specifier (i.e. determine the specifier's value in that domain). Valid domains are a window, frame, or device. (`nil' is not valid.) - Function: valid-specifier-locale-p locale This function returns non-`nil' if LOCALE is a valid specifier locale. Valid locales are a device, a frame, a window, a buffer, and `global'. (`nil' is not valid.) - Function: valid-specifier-locale-type-p locale-type Given a specifier LOCALE-TYPE, this function returns non-nil if it is valid. Valid locale types are the symbols `global', `device', `frame', `window', and `buffer'. (Note, however, that in functions that accept either a locale or a locale type, `global' is considered an individual locale.) - Function: valid-specifier-type-p specifier-type Given a SPECIFIER-TYPE, this function returns non-`nil' if it is valid. Valid types are `generic', `integer', `boolean', `color', `font', `image', `face-boolean', and `toolbar'. - Function: valid-specifier-tag-p tag This function returns non-`nil' if TAG is a valid specifier tag. - Function: valid-instantiator-p instantiator specifier-type This function returns non-`nil' if INSTANTIATOR is valid for SPECIFIER-TYPE. - Function: valid-inst-list-p inst-list type This function returns non-`nil' if INST-LIST is valid for specifier type TYPE. - Function: valid-spec-list-p spec-list type This function returns non-`nil' if SPEC-LIST is valid for specifier type TYPE. - Function: check-valid-instantiator instantiator specifier-type This function signals an error if INSTANTIATOR is invalid for SPECIFIER-TYPE. - Function: check-valid-inst-list inst-list type This function signals an error if INST-LIST is invalid for specifier type TYPE. - Function: check-valid-spec-list spec-list type This function signals an error if SPEC-LIST is invalid for specifier type TYPE.  File: lispref.info, Node: Other Specification Functions, Prev: Specifier Validation Functions, Up: Specifiers Other Functions for Working with Specifications in a Specifier ============================================================== - Function: copy-specifier specifier &optional dest locale tag-set exact-p how-to-add This function copies SPECIFIER to DEST, or creates a new one if DEST is `nil'. If DEST is `nil' or omitted, a new specifier will be created and the specifications copied into it. Otherwise, the specifications will be copied into the existing specifier in DEST. If LOCALE is `nil' or the symbol `all', all specifications will be copied. If LOCALE is a particular locale, the specification for that particular locale will be copied. If LOCALE is a locale type, the specifications for all locales of that type will be copied. LOCALE can also be a list of locales, locale types, and/or `all'; this is equivalent to calling `copy-specifier' for each of the elements of the list. See `specifier-spec-list' for more information about LOCALE. Only instantiators where TAG-SET (a list of zero or more tags) is a subset of (or possibly equal to) the instantiator's tag set are copied. (The default value of `nil' is a subset of all tag sets, so in this case no instantiators will be screened out.) If EXACT-P is non-`nil', however, TAG-SET must be equal to an instantiator's tag set for the instantiator to be copied. Optional argument HOW-TO-ADD specifies what to do with existing specifications in DEST. If nil, then whichever locales or locale types are copied will first be completely erased in DEST. Otherwise, it is the same as in `add-spec-to-specifier'. - Function: remove-specifier specifier &optional locale tag-set exact-p This function removes specification(s) for SPECIFIER. If LOCALE is a particular locale (a buffer, window, frame, device, or the symbol `global'), the specification for that locale will be removed. If instead, LOCALE is a locale type (i.e. a symbol `buffer', `window', `frame', or `device'), the specifications for all locales of that type will be removed. If LOCALE is `nil' or the symbol `all', all specifications will be removed. LOCALE can also be a list of locales, locale types, and/or `all'; this is equivalent to calling `remove-specifier' for each of the elements in the list. Only instantiators where TAG-SET (a list of zero or more tags) is a subset of (or possibly equal to) the instantiator's tag set are removed. (The default value of `nil' is a subset of all tag sets, so in this case no instantiators will be screened out.) If EXACT-P is non-`nil', however, TAG-SET must be equal to an instantiator's tag set for the instantiator to be removed. - Function: map-specifier specifier func &optional locale maparg This function applies FUNC to the specification(s) for LOCALE in SPECIFIER. If LOCALE is a locale, FUNC will be called for that locale. If LOCALE is a locale type, FUNC will be mapped over all locales of that type. If LOCALE is `nil' or the symbol `all', FUNC will be mapped over all locales in SPECIFIER. FUNC is called with four arguments: the SPECIFIER, the locale being mapped over, the inst-list for that locale, and the optional MAPARG. If any invocation of FUNC returns non-`nil', the mapping will stop and the returned value becomes the value returned from `map-specifier'. Otherwise, `map-specifier' returns `nil'. - Function: specifier-locale-type-from-locale locale Given a specifier LOCALE, this function returns its type.  File: lispref.info, Node: Faces and Window-System Objects, Next: Glyphs, Prev: Specifiers, Up: Top Faces and Window-System Objects ******************************* * Menu: * Faces:: Controlling the way text looks. * Fonts:: Controlling the typeface of text. * Colors:: Controlling the color of text and pixmaps.  File: lispref.info, Node: Faces, Next: Fonts, Up: Faces and Window-System Objects Faces ===== A "face" is a named collection of graphical properties: font, foreground color, background color, background pixmap, optional underlining, and (on TTY devices) whether the text is to be highlighted, dimmed, blinking, or displayed in reverse video. Faces control the display of text on the screen. Every face has a name, which is a symbol such as `default' or `modeline'. Each built-in property of a face is controlled using a specifier, which allows it to have separate values in particular buffers, frames, windows, and devices and to further vary according to device type (X or TTY) and device class (color, mono, or grayscale). *Note Specifiers::, for more information. The face named `default' is used for ordinary text. The face named `modeline' is used for displaying the modeline. The face named `highlight' is used for highlighted extents (*note Extents::). The faces named `left-margin' and `right-margin' are used for the left and right margin areas, respectively (*note Annotations::). The face named `zmacs-region' is used for the highlighted region between point and mark. * Menu: * Merging Faces:: How XEmacs decides which face to use for a character. * Basic Face Functions:: How to define and examine faces. * Face Properties:: How to access and modify a face's properties. * Face Convenience Functions:: Convenience functions for accessing particular properties of a face. * Other Face Display Functions:: Other functions pertaining to how a a face appears.  File: lispref.info, Node: Merging Faces, Next: Basic Face Functions, Up: Faces Merging Faces for Display ------------------------- Here are all the ways to specify which face to use for display of text: * With defaults. Each frame has a "default face", which is used for all text that doesn't somehow specify another face. The face named `default' applies to the text area, while the faces `left-margin' and `right-margin' apply to the left and right margin areas. * With text properties. A character may have a `face' property; if so, it's displayed with that face. (Text properties are actually implemented in terms of extents.) *Note Text Properties::. * With extents. An extent may have a `face' property, which applies to all the text covered by the extent; in addition, if the `highlight' property is set, the `highlight' property applies when the mouse moves over the extent or if the extent is explicitly highlighted. *Note Extents::. * With annotations. Annotations that are inserted into a buffer can specify their own face. (Annotations are actually implemented in terms of extents.) *Note Annotations::. If these various sources together specify more than one face for a particular character, XEmacs merges the properties of the various faces specified. Extents, text properties, and annotations all use the same underlying representation (as extents). When multiple extents cover one character, an extent with higher priority overrides those with lower priority. *Note Extents::. If no extent covers a particular character, the `default' face is used. If a background pixmap is specified, it determines what will be displayed in the background of text characters. If the background pixmap is actually a pixmap, with its colors specified, those colors are used; if it is a bitmap, the face's foreground and background colors are used to color it.  File: lispref.info, Node: Basic Face Functions, Next: Face Properties, Prev: Merging Faces, Up: Faces Basic Functions for Working with Faces -------------------------------------- The properties a face can specify include the font, the foreground color, the background color, the background pixmap, the underlining, the display table, and (for TTY devices) whether the text is to be highlighted, dimmed, blinking, or displayed in reverse video. The face can also leave these unspecified, causing them to assume the value of the corresponding property of the `default' face. Here are the basic primitives for working with faces. - Function: make-face name &optional doc-string temporary This function defines and returns a new face named NAME, initially with all properties unspecified. It does nothing if there is already a face named NAME. Optional argument DOC-STRING specifies an explanatory string used for descriptive purposes. If optional argument TEMPORARY is non-`nil', the face will automatically disappear when there are no more references to it anywhere in text or Lisp code (otherwise, the face will continue to exist indefinitely even if it is not used). - Function: face-list &optional temporary This function returns a list of the names of all defined faces. If TEMPORARY is `nil', only the permanent faces are included. If it is `t', only the temporary faces are included. If it is any other non-`nil' value both permanent and temporary are included. - Function: facep object This function returns whether the given object is a face. - Function: copy-face old-face new-name &optional locale how-to-add This function defines a new face named NEW-NAME which is a copy of the existing face named OLD-FACE. If there is already a face named NEW-NAME, then it alters the face to have the same properties as OLD-FACE. LOCALE and HOW-TO-ADD let you copy just parts of the old face rather than the whole face, and are as in `copy-specifier' (*note Specifiers::).  File: lispref.info, Node: Face Properties, Next: Face Convenience Functions, Prev: Basic Face Functions, Up: Faces Face Properties --------------- You can examine and modify the properties of an existing face with the following functions. The following symbols have predefined meanings: `foreground' The foreground color of the face. `background' The background color of the face. `font' The font used to display text covered by this face. `display-table' The display table of the face. `background-pixmap' The pixmap displayed in the background of the face. Only used by faces on X devices. `underline' Underline all text covered by this face. `highlight' Highlight all text covered by this face. Only used by faces on TTY devices. `dim' Dim all text covered by this face. Only used by faces on TTY devices. `blinking' Blink all text covered by this face. Only used by faces on TTY devices. `reverse' Reverse the foreground and background colors. Only used by faces on TTY devices. `doc-string' Description of what the face's normal use is. NOTE: This is not a specifier, unlike all the other built-in properties, and cannot contain locale-specific values. - Function: set-face-property face property value &optional locale tag how-to-add This function changes a property of a FACE. For built-in properties, the actual value of the property is a specifier and you cannot change this; but you can change the specifications within the specifier, and that is what this function will do. For user-defined properties, you can use this function to either change the actual value of the property or, if this value is a specifier, change the specifications within it. If PROPERTY is a built-in property, the specifications to be added to this property can be supplied in many different ways: If VALUE is a simple instantiator (e.g. a string naming a font or color) or a list of instantiators, then the instantiator(s) will be added as a specification of the property for the given LOCALE (which defaults to `global' if omitted). If VALUE is a list of specifications (each of which is a cons of a locale and a list of instantiators), then LOCALE must be `nil' (it does not make sense to explicitly specify a locale in this case), and specifications will be added as given. If VALUE is a specifier (as would be returned by `face-property' if no LOCALE argument is given), then some or all of the specifications in the specifier will be added to the property. In this case, the function is really equivalent to `copy-specifier' and LOCALE has the same semantics (if it is a particular locale, the specification for the locale will be copied; if a locale type, specifications for all locales of that type will be copied; if `nil' or `all', then all specifications will be copied). HOW-TO-ADD should be either `nil' or one of the symbols `prepend', `append', `remove-tag-set-prepend', `remove-tag-set-append', `remove-locale', `remove-locale-type', or `remove-all'. See `copy-specifier' and `add-spec-to-specifier' for a description of what each of these means. Most of the time, you do not need to worry about this argument; the default behavior usually is fine. In general, it is OK to pass an instance object (e.g. as returned by `face-property-instance') as an instantiator in place of an actual instantiator. In such a case, the instantiator used to create that instance object will be used (for example, if you set a font-instance object as the value of the `font' property, then the font name used to create that object will be used instead). If some cases, however, doing this conversion does not make sense, and this will be noted in the documentation for particular types of instance objects. If PROPERTY is not a built-in property, then this function will simply set its value if LOCALE is `nil'. However, if LOCALE is given, then this function will attempt to add VALUE as the instantiator for the given LOCALE, using `add-spec-to-specifier'. If the value of the property is not a specifier, it will automatically be converted into a `generic' specifier. - Function: remove-face-property face property &optional local tag-set exact-p This function removes a property of a FACE. For built-in properties, this is analogous to `remove-specifier'. For more information, *Note Other Specification Functions::. When PROPERTY is not a built-in property, this function will just remove its value if LOCALE is `nil' or `all'. However, if LOCALE is other than that, this function will attempt to remove VALUE as the instantiator for the given LOCALE with `remove-specifier'. If the value of the property is not a specifier, it will be converted into a `generic' specifier automatically. - Function: face-property face property &optional locale This function returns FACE's value of the given PROPERTY. If LOCALE is omitted, the FACE's actual value for PROPERTY will be returned. For built-in properties, this will be a specifier object of a type appropriate to the property (e.g. a font or color specifier). For other properties, this could be anything. If LOCALE is supplied, then instead of returning the actual value, the specification(s) for the given locale or locale type will be returned. This will only work if the actual value of PROPERTY is a specifier (this will always be the case for built-in properties, but not or not may apply to user-defined properties). If the actual value of PROPERTY is not a specifier, this value will simply be returned regardless of LOCALE. The return value will be a list of instantiators (e.g. strings specifying a font or color name), or a list of specifications, each of which is a cons of a locale and a list of instantiators. Specifically, if LOCALE is a particular locale (a buffer, window, frame, device, or `global'), a list of instantiators for that locale will be returned. Otherwise, if LOCALE is a locale type (one of the symbols `buffer', `window', `frame', or `device'), the specifications for all locales of that type will be returned. Finally, if LOCALE is `all', the specifications for all locales of all types will be returned. The specifications in a specifier determine what the value of PROPERTY will be in a particular "domain" or set of circumstances, which is typically a particular Emacs window along with the buffer it contains and the frame and device it lies within. The value is derived from the instantiator associated with the most specific locale (in the order buffer, window, frame, device, and `global') that matches the domain in question. In other words, given a domain (i.e. an Emacs window, usually), the specifier for PROPERTY will first be searched for a specification whose locale is the buffer contained within that window; then for a specification whose locale is the window itself; then for a specification whose locale is the frame that the window is contained within; etc. The first instantiator that is valid for the domain (usually this means that the instantiator is recognized by the device [i.e. the X server or TTY device] that the domain is on). The function `face-property-instance' actually does all this, and is used to determine how to display the face. - Function: face-property-instance face property &optional domain default no-fallback This function returns the instance of FACE's PROPERTY in the specified DOMAIN. Under most circumstances, DOMAIN will be a particular window, and the returned instance describes how the specified property actually is displayed for that window and the particular buffer in it. Note that this may not be the same as how the property appears when the buffer is displayed in a different window or frame, or how the property appears in the same window if you switch to another buffer in that window; and in those cases, the returned instance would be different. The returned instance will typically be a color-instance, font-instance, or pixmap-instance object, and you can query it using the appropriate object-specific functions. For example, you could use `color-instance-rgb-components' to find out the RGB (red, green, and blue) components of how the `background' property of the `highlight' face is displayed in a particular window. The results might be different from the results you would get for another window (perhaps the user specified a different color for the frame that window is on; or perhaps the same color was specified but the window is on a different X server, and that X server has different RGB values for the color from this one). DOMAIN defaults to the selected window if omitted. DOMAIN can be a frame or device, instead of a window. The value returned for a such a domain is used in special circumstances when a more specific domain does not apply; for example, a frame value might be used for coloring a toolbar, which is conceptually attached to a frame rather than a particular window. The value is also useful in determining what the value would be for a particular window within the frame or device, if it is not overridden by a more specific specification. If PROPERTY does not name a built-in property, its value will simply be returned unless it is a specifier object, in which case it will be instanced using `specifier-instance'. Optional arguments DEFAULT and NO-FALLBACK are the same as in `specifier-instance'. *Note Specifiers::.  File: lispref.info, Node: Face Convenience Functions, Next: Other Face Display Functions, Prev: Face Properties, Up: Faces Face Convenience Functions -------------------------- - Function: set-face-foreground face color &optional locale tag how-to-add - Function: set-face-background face color &optional locale tag how-to-add These functions set the foreground (respectively, background) color of face FACE to COLOR. The argument COLOR should be a string (the name of a color) or a color object as returned by `make-color' (*note Colors::). - Function: set-face-background-pixmap face pixmap &optional locale tag how-to-add This function sets the background pixmap of face FACE to PIXMAP. The argument PIXMAP should be a string (the name of a bitmap or pixmap file; the directories listed in the variable `x-bitmap-file-path' will be searched) or a glyph object as returned by `make-glyph' (*note Glyphs::). The argument may also be a list of the form `(WIDTH HEIGHT DATA)' where WIDTH and HEIGHT are the size in pixels, and DATA is a string, containing the raw bits of the bitmap. - Function: set-face-font face font &optional locale tag how-to-add This function sets the font of face FACE. The argument FONT should be a string or a font object as returned by `make-font' (*note Fonts::). - Function: set-face-underline-p face underline-p &optional locale tag how-to-add This function sets the underline property of face FACE. - Function: face-foreground face &optional locale - Function: face-background face &optional locale These functions return the foreground (respectively, background) color specifier of face FACE. *Note Colors::. - Function: face-background-pixmap face &optional locale This function return the background-pixmap glyph object of face FACE. - Function: face-font face &optional locale This function returns the font specifier of face FACE. (Note: This is not the same as the function `face-font' in FSF Emacs.) *Note Fonts::. - Function: face-font-name face &optional domain This function returns the name of the font of face FACE, or `nil' if it is unspecified. This is basically equivalent to `(font-name (face-font FACE) DOMAIN)' except that it does not cause an error if FACE's font is `nil'. (This function is named `face-font' in FSF Emacs.) - Function: face-underline-p face &optional locale This function returns the underline property of face FACE. - Function: face-foreground-instance face &optional domain - Function: face-background-instance face &optional domain These functions return the foreground (respectively, background) color specifier of face FACE. *Note Colors::. - Function: face-background-pixmap-instance face &optional domain This function return the background-pixmap glyph object of face FACE. - Function: face-font-instance face &optional domain This function returns the font specifier of face FACE. *Note Fonts::.  File: lispref.info, Node: Other Face Display Functions, Prev: Face Convenience Functions, Up: Faces Other Face Display Functions ---------------------------- - Function: invert-face face &optional locale Swap the foreground and background colors of face FACE. If the face doesn't specify both foreground and background, then its foreground and background are set to the default background and foreground. - Function: face-equal face1 face2 &optional domain This returns `t' if the faces FACE1 and FACE2 will display in the same way. DOMAIN is as in `face-property-instance'. - Function: face-differs-from-default-p face &optional domain This returns `t' if the face FACE displays differently from the default face. DOMAIN is as in `face-property-instance'.  File: lispref.info, Node: Fonts, Next: Colors, Prev: Faces, Up: Faces and Window-System Objects Fonts ===== This section describes how to work with font specifier and font instance objects, which encapsulate fonts in the window system. * Menu: * Font Specifiers:: Specifying how a font will appear. * Font Instances:: What a font specifier gets instanced as. * Font Instance Names:: The name of a font instance. * Font Instance Size:: The size of a font instance. * Font Instance Characteristics:: Display characteristics of font instances. * Font Convenience Functions:: Convenience functions that automatically instance and retrieve the properties of a font specifier.  File: lispref.info, Node: Font Specifiers, Next: Font Instances, Up: Fonts Font Specifiers --------------- - Function: font-specifier-p object This predicate returns `t' if OBJECT is a font specifier, and `nil' otherwise. - Function: make-font-specifier spec-list Return a new `font' specifier object with the given specification list. SPEC-LIST can be a list of specifications (each of which is a cons of a locale and a list of instantiators), a single instantiator, or a list of instantiators. *Note Specifiers::, for more information about specifiers. Valid instantiators for font specifiers are: * A string naming a font (e.g. under X this might be "-*-courier-medium-r-*-*-*-140-*-*-*-*-iso8859-*" for a 14-point upright medium-weight Courier font). * A font instance (use that instance directly if the device matches, or use the string that generated it). * A vector of no elements (only on TTY's; this means to set no font at all, thus using the "natural" font of the terminal's text). * A vector of one element (a face to inherit from).  File: lispref.info, Node: Font Instances, Next: Font Instance Names, Prev: Font Specifiers, Up: Fonts Font Instances -------------- - Function: font-instance-p object This predicate returns `t' if OBJECT is a font instance, and `nil' otherwise. - Function: make-font-instance name &optional device noerror This function creates a new font-instance object of the specified name. DEVICE specifies the device this object applies to and defaults to the selected device. An error is signalled if the font is unknown or cannot be allocated; however, if NOERROR is non-`nil', `nil' is simply returned in this case. The returned object is a normal, first-class lisp object. The way you "deallocate" the font is the way you deallocate any other lisp object: you drop all pointers to it and allow it to be garbage collected. When these objects are GCed, the underlying X data is deallocated as well.  File: lispref.info, Node: Font Instance Names, Next: Font Instance Size, Prev: Font Instances, Up: Fonts Font Instance Names ------------------- - Function: list-fonts pattern &optional device This function returns a list of font names matching the given pattern. DEVICE specifies which device to search for names, and defaults to the currently selected device. - Function: font-instance-name font-instance This function returns the name used to allocate FONT-INSTANCE. - Function: font-instance-truename font-instance This function returns the canonical name of the given font instance. Font names are patterns which may match any number of fonts, of which the first found is used. This returns an unambiguous name for that font (but not necessarily its only unambiguous name).  File: lispref.info, Node: Font Instance Size, Next: Font Instance Characteristics, Prev: Font Instance Names, Up: Fonts Font Instance Size ------------------ - Function: x-font-size font This function returns the nominal size of the given font. This is done by parsing its name, so it's likely to lose. X fonts can be specified (by the user) in either pixels or 10ths of points, and this returns the first one it finds, so you have to decide which units the returned value is measured in yourself ... - Function: x-find-larger-font font &optional device This function loads a new, slightly larger version of the given font (or font name). Returns the font if it succeeds, `nil' otherwise. If scalable fonts are available, this returns a font which is 1 point larger. Otherwise, it returns the next larger version of this font that is defined. - Function: x-find-smaller-font font &optional device This function loads a new, slightly smaller version of the given font (or font name). Returns the font if it succeeds, `nil' otherwise. If scalable fonts are available, this returns a font which is 1 point smaller. Otherwise, it returns the next smaller version of this font that is defined.