This is ../../info/ebrowse, produced by makeinfo version 4.11 from ebrowse.texi. This file documents Ebrowse, a C++ class browser for GNU Emacs. Copyright (C) 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010 Free Software Foundation, Inc. Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.3 or any later version published by the Free Software Foundation; with no Invariant Sections, with the Front-Cover texts being "A GNU Manual," and with the Back-Cover Texts as in (a) below. A copy of the license is included in the section entitled "GNU Free Documentation License". (a) The FSF's Back-Cover Text is: "You have the freedom to copy and modify this GNU manual. Buying copies from the FSF supports it in developing GNU and promoting software freedom." INFO-DIR-SECTION Emacs START-INFO-DIR-ENTRY * Ebrowse: (ebrowse). A C++ class browser for Emacs. END-INFO-DIR-ENTRY  File: ebrowse, Node: Top, Next: Overview, Prev: (dir), Up: (dir) You can browse C++ class hierarchies from within Emacs by using Ebrowse. This file documents Ebrowse, a C++ class browser for GNU Emacs. Copyright (C) 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010 Free Software Foundation, Inc. Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.3 or any later version published by the Free Software Foundation; with no Invariant Sections, with the Front-Cover texts being "A GNU Manual," and with the Back-Cover Texts as in (a) below. A copy of the license is included in the section entitled "GNU Free Documentation License". (a) The FSF's Back-Cover Text is: "You have the freedom to copy and modify this GNU manual. Buying copies from the FSF supports it in developing GNU and promoting software freedom." * Menu: * Overview:: What is it and how does it work? * Generating browser files:: How to process C++ source files * Loading a Tree:: How to start browsing * Tree Buffers:: Traversing class hierarchies * Member Buffers:: Looking at member information * Tags-like Functions:: Finding members from source files * GNU Free Documentation License:: The license for this documentation. * Concept Index:: An entry for each concept defined  File: ebrowse, Node: Overview, Next: Generating browser files, Prev: Top, Up: Top 1 Introduction ************** When working in software projects using C++, I frequently missed software support for two things: * When you get a new class library, or you have to work on source code you haven't written yourself (or written sufficiently long ago), you need a tool to let you navigate class hierarchies and investigate features of the software. Without such a tool you often end up `grep'ing through dozens or even hundreds of files. * Once you are productive, it would be nice to have a tool that knows your sources and can help you while you are editing source code. Imagine to be able to jump to the definition of an identifier while you are editing, or something that can complete long identifier names because it knows what identifiers are defined in your program.... The design of Ebrowse reflects these two needs. How does it work? A fast parser written in C is used to process C++ source files. The parser generates a data base containing information about classes, members, global functions, defines, types etc. found in the sources. The second part of Ebrowse is a Lisp program. This program reads the data base generated by the parser. It displays its contents in various forms and allows you to perform operations on it, or do something with the help of the knowledge contained in the data base. "Navigational" use of Ebrowse is centered around two types of buffers which define their own major modes: "Tree buffers" are used to view class hierarchies in tree form. They allow you to quickly find classes, find or view class declarations, perform operations like query replace on sets of your source files, and finally tree buffers are used to produce the second buffer form--member buffers. *Note Tree Buffers::. Members are displayed in "member buffers". Ebrowse distinguishes between six different types of members; each type is displayed as a member list of its own: * Instance member variables; * Instance member functions; * Static member variables; * Static member functions; * Friends/Defines. The list of defines is contained in the friends list of the pseudo-class `*Globals*'; * Types (`enum's, and `typedef's defined with class scope). You can switch member buffers from one list to another, or to another class. You can include inherited members in the display, you can set filters that remove categories of members from the display, and most importantly you can find or view member declarations and definitions with a keystroke. *Note Member Buffers::. These two buffer types and the commands they provide support the navigational use of the browser. The second form resembles Emacs' Tags package for C and other procedural languages. Ebrowse's commands of this type are not confined to special buffers; they are most often used while you are editing your source code. To list just a subset of what you can use the Tags part of Ebrowse for: * Jump to the definition or declaration of an identifier in your source code, with an electric position stack that lets you easily navigate back and forth. * Complete identifiers in your source with a completion list containing identifiers from your source code only. * Perform search and query replace operations over some or all of your source files. * Show all identifiers matching a regular expression--and jump to one of them, if you like.  File: ebrowse, Node: Generating browser files, Next: Loading a Tree, Prev: Overview, Up: Top 2 Processing Source Files ************************* Before you can start browsing a class hierarchy, you must run the parser `ebrowse' on your source files in order to generate a Lisp data base describing your program. The operation of `ebrowse' can be tailored with command line options. Under normal circumstances it suffices to let the parser use its default settings. If you want to do that, call it with a command line like: ebrowse *.h *.cc or, if your shell doesn't allow all the file names to be specified on the command line, ebrowse --files=FILE where FILE contains the names of the files to be parsed, one per line. When invoked with option `--help', `ebrowse' prints a list of available command line options. * Menu: * Input files:: Specifying which files to parse * Output file:: Changing the output file name * Structs and unions:: Omitting `struct's and `union's * Matching:: Setting regular expression lengths * Verbosity:: Getting feedback for lengthy operations  File: ebrowse, Node: Input files, Next: Output file, Prev: Generating browser files, Up: Generating browser files 2.1 Specifying Input Files ========================== `file' Each file name on the command line tells `ebrowse' to parse that file. `--files=FILE' This command line switch specifies that FILE contains a list of file names to parse. Each line in FILE must contain one file name. More than one option of this kind is allowed. You might, for instance, want to use one file for header files, and another for source files. `standard input' When `ebrowse' finds no file names on the command line, and no `--file' option is specified, it reads file names from standard input. This is sometimes convenient when `ebrowse' is used as part of a command pipe. `--search-path=PATHS' This option lets you specify search paths for your input files. PATHS is a list of directory names, separated from each other by a either a colon or a semicolon, depending on the operating system. It is generally a good idea to specify input files so that header files are parsed before source files. This facilitates the parser's work of properly identifying friend functions of a class.  File: ebrowse, Node: Output file, Next: Structs and unions, Prev: Input files, Up: Generating browser files 2.2 Changing the Output File Name ================================= `--output-file=FILE' This option instructs `ebrowse' to generate a Lisp data base with name FILE. By default, the data base is named `BROWSE', and is written in the directory in which `ebrowse' is invoked. If you regularly use data base names different from the default, you might want to add this to your init file: (add-to-list 'auto-mode-alist '(NAME . ebrowse-tree-mode)) where NAME is the Lisp data base name you are using. `--append' By default, each run of `ebrowse' erases the old contents of the output file when writing to it. You can instruct `ebrowse' to append its output to an existing file produced by `ebrowse' with this command line option.  File: ebrowse, Node: Structs and unions, Next: Matching, Prev: Output file, Up: Generating browser files 2.3 Structs and Unions ====================== `--no-structs-or-unions' This switch suppresses all classes in the data base declared as `struct' or `union' in the output. This is mainly useful when you are converting an existing C program to C++, and do not want to see the old C structs in a class tree.  File: ebrowse, Node: Matching, Next: Verbosity, Prev: Structs and unions, Up: Generating browser files 2.4 Regular Expressions ======================= The parser `ebrowse' normally writes regular expressions to its output file that help the Lisp part of Ebrowse to find functions, variables etc. in their source files. You can instruct `ebrowse' to omit these regular expressions by calling it with the command line switch `--no-regexps'. When you do this, the Lisp part of Ebrowse tries to guess, from member or class names, suitable regular expressions to locate that class or member in source files. This works fine in most cases, but the automatic generation of regular expressions can be too weak if unusual coding styles are used. `--no-regexps' This option turns off regular expression recording. `--min-regexp-length=N' The number N following this option specifies the minimum length of the regular expressions recorded to match class and member declarations and definitions. The default value is set at compilation time of `ebrowse'. The smaller the minimum length, the higher the probability that Ebrowse will find a wrong match. The larger the value, the larger the output file and therefore the memory consumption once the file is read from Emacs. `--max-regexp-length=N' The number following this option specifies the maximum length of the regular expressions used to match class and member declarations and definitions. The default value is set at compilation time of `ebrowse'. The larger the maximum length, the higher the probability that the browser will find a correct match, but the larger the value the larger the output file and therefore the memory consumption once the data is read. As a second effect, the larger the regular expression, the higher the probability that it will no longer match after editing the file.  File: ebrowse, Node: Verbosity, Prev: Matching, Up: Generating browser files 2.5 Verbose Mode ================ `--verbose' When this option is specified on the command line, `ebrowse' prints a period for each file parsed, and it displays a `+' for each class written to the output file. `--very-verbose' This option makes `ebrowse' print out the names of the files and the names of the classes seen.  File: ebrowse, Node: Loading a Tree, Next: Tree Buffers, Prev: Generating browser files, Up: Top 3 Starting to Browse ******************** You start browsing a class hierarchy parsed by `ebrowse' by just finding the `BROWSE' file with `C-x C-f'. An example of a tree buffer display is shown below. | Collection | IndexedCollection | Array | FixedArray | Set | Dictionary When you run Emacs on a display which supports colors and the mouse, you will notice that certain areas in the tree buffer are highlighted when you move the mouse over them. This highlight marks mouse-sensitive regions in the buffer. Please notice the help strings in the echo area when the mouse moves over a sensitive region. A click with `Mouse-3' on a mouse-sensitive region opens a context menu. In addition to this, each buffer also has a buffer-specific menu that is opened with a click with `Mouse-3' somewhere in the buffer where no highlight is displayed.  File: ebrowse, Node: Tree Buffers, Next: Member Buffers, Prev: Loading a Tree, Up: Top 4 Tree Buffers ************** Class trees are displayed in "tree buffers" which install their own major mode. Most Emacs keys work in tree buffers in the usual way, e.g. you can move around in the buffer with the usual `C-f', `C-v' etc., or you can search with `C-s'. Tree-specific commands are bound to simple keystrokes, similar to `Gnus'. You can take a look at the key bindings by entering `?' which calls `M-x describe-mode' in both tree and member buffers. * Menu: * Source Display:: Viewing and finding a class declaration * Member Display:: Showing members, switching to member buffers * Go to Class:: Finding a class * Quitting:: Discarding and burying the tree buffer * File Name Display:: Showing file names in the tree * Expanding and Collapsing:: Expanding and collapsing branches * Tree Indentation:: Changing the tree indentation * Killing Classes:: Removing class from the tree * Saving a Tree:: Saving a modified tree * Statistics:: Displaying class tree statistics * Marking Classes:: Marking and unmarking classes  File: ebrowse, Node: Source Display, Next: Member Display, Prev: Tree Buffers, Up: Tree Buffers 4.1 Viewing and Finding Class Declarations ========================================== You can view or find a class declaration when the cursor is on a class name. `SPC' This command views the class declaration if the database contains informations about it. If you don't parse the entire source you are working on, some classes will only be known to exist but the location of their declarations and definitions will not be known. `RET' Works like `SPC', except that it finds the class declaration rather than viewing it, so that it is ready for editing. The same functionality is available from the menu opened with `Mouse-3' on the class name.  File: ebrowse, Node: Member Display, Next: Go to Class, Prev: Source Display, Up: Tree Buffers 4.2 Displaying Members ====================== Ebrowse distinguishes six different kinds of members, each of which is displayed as a separate "member list": instance variables, instance functions, static variables, static functions, friend functions, and types. Each of these lists can be displayed in a member buffer with a command starting with `L' when the cursor is on a class name. By default, there is only one member buffer named "*Members*" that is reused each time you display a member list--this has proven to be more practical than to clutter up the buffer list with dozens of member buffers. If you want to display more than one member list at a time you can "freeze" its member buffer. Freezing a member buffer prevents it from being overwritten the next time you display a member list. You can toggle this buffer status at any time. Every member list display command in the tree buffer can be used with a prefix argument (`C-u'). Without a prefix argument, the command will pop to a member buffer displaying the member list. With prefix argument, the member buffer will additionally be "frozen". `L v' This command displays the list of instance member variables. `L V' Display the list of static variables. `L d' Display the list of friend functions. This list is used for defines if you are viewing the class `*Globals*' which is a place holder for global symbols. `L f' Display the list of member functions. `L F' Display the list of static member functions. `L t' Display a list of types. These lists are also available from the class' context menu invoked with `Mouse-3' on the class name.  File: ebrowse, Node: Go to Class, Next: Quitting, Prev: Member Display, Up: Tree Buffers 4.3 Finding a Class =================== `/' This command reads a class name from the minibuffer with completion and positions the cursor on the class in the class tree. If the branch of the class tree containing the class searched for is currently collapsed, the class itself and all its base classes are recursively made visible. (See also *note Expanding and Collapsing::.) This function is also available from the tree buffer's context menu. `n' Repeat the last search done with `/'. Each tree buffer has its own local copy of the regular expression last searched in it.  File: ebrowse, Node: Quitting, Next: File Name Display, Prev: Go to Class, Up: Tree Buffers 4.4 Burying a Tree Buffer ========================= `q' Is a synonym for `M-x bury-buffer'.  File: ebrowse, Node: File Name Display, Next: Expanding and Collapsing, Prev: Quitting, Up: Tree Buffers 4.5 Displaying File Names ========================= `T f' This command toggles the display of file names in a tree buffer. If file name display is switched on, the names of the files containing the class declaration are shown to the right of the class names. If the file is not known, the string `unknown' is displayed. This command is also provided in the tree buffer's context menu. `s' Display file names for the current line, or for the number of lines given by a prefix argument. Here is an example of a tree buffer with file names displayed. | Collection (unknown) | IndexedCollection (indexedcltn.h) | Array (array.h) | FixedArray (fixedarray.h) | Set (set.h) | Dictionary (dict.h)  File: ebrowse, Node: Expanding and Collapsing, Next: Tree Indentation, Prev: File Name Display, Up: Tree Buffers 4.6 Expanding and Collapsing a Tree =================================== You can expand and collapse parts of a tree to reduce the complexity of large class hierarchies. Expanding or collapsing branches of a tree has no impact on the functionality of other commands, like `/'. (See also *note Go to Class::.) Collapsed branches are indicated with an ellipsis following the class name like in the example below. | Collection | IndexedCollection... | Set | Dictionary `-' This command collapses the branch of the tree starting at the class the cursor is on. `+' This command expands the branch of the tree starting at the class the cursor is on. Both commands for collapsing and expanding branches are also available from the class' object menu. `*' This command expands all collapsed branches in the tree.  File: ebrowse, Node: Tree Indentation, Next: Killing Classes, Prev: Expanding and Collapsing, Up: Tree Buffers 4.7 Changing the Tree Indentation ================================= `T w' This command reads a new indentation width from the minibuffer and redisplays the tree buffer with the new indentation It is also available from the tree buffer's context menu.  File: ebrowse, Node: Killing Classes, Next: Saving a Tree, Prev: Tree Indentation, Up: Tree Buffers 4.8 Removing Classes from the Tree ================================== `C-k' This command removes the class the cursor is on and all its derived classes from the tree. The user is asked for confirmation before the deletion is actually performed.  File: ebrowse, Node: Saving a Tree, Next: Statistics, Prev: Killing Classes, Up: Tree Buffers 4.9 Saving a Tree ================= `C-x C-s' This command writes a class tree to the file from which it was read. This is useful after classes have been deleted from a tree. `C-x C-w' Writes the tree to a file whose name is read from the minibuffer.  File: ebrowse, Node: Statistics, Next: Marking Classes, Prev: Saving a Tree, Up: Tree Buffers `x' Display statistics for the tree, like number of classes in it, number of member functions, etc. This command can also be found in the buffer's context menu.  File: ebrowse, Node: Marking Classes, Prev: Statistics, Up: Tree Buffers Classes can be marked for operations similar to the standard Emacs commands `M-x tags-search' and `M-x tags-query-replace' (see also *Note Tags-like Functions::.) `M t' Toggle the mark of the line point is in or for as many lines as given by a prefix command. This command can also be found in the class' context menu. `M a' Unmark all classes. With prefix argument `C-u', mark all classes in the tree. Since this command operates on the whole buffer, it can also be found in the buffer's object menu. Marked classes are displayed with an `>' in column one of the tree display, like in the following example |> Collection | IndexedCollection... |> Set | Dictionary  File: ebrowse, Node: Member Buffers, Next: Tags-like Functions, Prev: Tree Buffers, Up: Top 5 Member Buffers **************** "Member buffers" are used to operate on lists of members of a class. Ebrowse distinguishes six kinds of lists: * Instance variables (normal member variables); * Instance functions (normal member functions); * Static variables; * Static member functions; * Friend functions; * Types (`enum's and `typedef's defined with class scope. Nested classes will be shown in the class tree like normal classes. Like tree buffers, member buffers install their own major mode. Also like in tree buffers, menus are provided for certain areas in the buffer: members, classes, and the buffer itself. * Menu: * Switching Member Lists:: Choosing which members to display * Finding/Viewing:: Modifying source code * Inherited Members:: Display of Inherited Members * Searching Members:: Finding members in member buffer * Switching to Tree:: Going back to the tree buffer * Filters:: Selective member display * Attributes:: Display of `virtual' etc. * Long and Short Display:: Comprehensive and verbose display * Regexp Display:: Showing matching regular expressions * Switching Classes:: Displaying another class * Killing/Burying:: Getting rid of the member buffer * Column Width:: Display style * Redisplay:: Redrawing the member list * Getting Help:: How to get help for key bindings  File: ebrowse, Node: Switching Member Lists, Next: Finding/Viewing, Prev: Member Buffers, Up: Member Buffers 5.1 Switching Member Lists ========================== `L n' This command switches the member buffer display to the next member list. `L p' This command switches the member buffer display to the previous member list. `L f' Switch to the list of member functions. `L F' Switch to the list of static member functions. `L v' Switch to the list of member variables. `L V' Switch to the list of static member variables. `L d' Switch to the list of friends or defines. `L t' Switch to the list of types. Both commands cycle through the member list. Most of the commands are also available from the member buffer's context menu.  File: ebrowse, Node: Finding/Viewing, Next: Inherited Members, Prev: Switching Member Lists, Up: Member Buffers 5.2 Finding and Viewing Member Source ===================================== `RET' This command finds the definition of the member the cursor is on. Finding involves roughly the same as the standard Emacs tags facility does--loading the file and searching for a regular expression matching the member. `f' This command finds the declaration of the member the cursor is on. `SPC' This is the same command as `RET', but views the member definition instead of finding the member's source file. `v' This is the same command as `f', but views the member's declaration instead of finding the file the declaration is in. You can install a hook function to perform actions after a member or class declaration or definition has been found, or when it is not found. All the commands described above can also be found in the context menu displayed when clicking `Mouse-2' on a member name.  File: ebrowse, Node: Inherited Members, Next: Searching Members, Prev: Finding/Viewing, Up: Member Buffers 5.3 Display of Inherited Members ================================ `D b' This command toggles the display of inherited members in the member buffer. This is also in the buffer's context menu.  File: ebrowse, Node: Searching Members, Next: Switching to Tree, Prev: Inherited Members, Up: Member Buffers 5.4 Searching Members ===================== `G v' Position the cursor on a member whose name is read from the minibuffer; only members shown in the current member buffer appear in the completion list. `G m' Like the above command, but all members for the current class appear in the completion list. If necessary, the current member list is switched to the one containing the member. With a prefix argument (`C-u'), all members in the class tree, i.e. all members the browser knows about appear in the completion list. The member display will be switched to the class and member list containing the member. `G n' Repeat the last member search. Look into the buffer's context menu for a convenient way to do this with a mouse.  File: ebrowse, Node: Switching to Tree, Next: Filters, Prev: Searching Members, Up: Member Buffers 5.5 Switching to Tree Buffer ============================ `' Pop up the tree buffer to which the member buffer belongs. `t' Do the same as but also position the cursor on the class displayed in the member buffer.  File: ebrowse, Node: Filters, Next: Attributes, Prev: Switching to Tree, Up: Member Buffers 5.6 Filters =========== `F a u' This command toggles the display of `public' members. The `a' stands for `access'. `F a o' This command toggles the display of `protected' members. `F a i' This command toggles the display of `private' members. `F v' This command toggles the display of `virtual' members. `F i' This command toggles the display of `inline' members. `F c' This command toggles the display of `const' members. `F p' This command toggles the display of pure virtual members. `F r' This command removes all filters. These commands are also found in the buffer's context menu.  File: ebrowse, Node: Attributes, Next: Long and Short Display, Prev: Filters, Up: Member Buffers 5.7 Displaying Member Attributes ================================ `D a' Toggle the display of member attributes (default is on). The nine member attributes Ebrowse knows about are displayed as a list a single-characters flags enclosed in angle brackets in front the of the member's name. A `-' at a given position means that the attribute is false. The list of attributes from left to right is `T' The member is a template. `C' The member is declared `extern "C"'. `v' Means the member is declared `virtual'. `i' The member is declared `inline'. `c' The member is `const'. `0' The member is a pure virtual function. `m' The member is declared `mutable'. `e' The member is declared `explicit'. `t' The member is a function with a throw list. This command is also in the buffer's context menu.  File: ebrowse, Node: Long and Short Display, Next: Regexp Display, Prev: Attributes, Up: Member Buffers 5.8 Long and Short Member Display ================================= `D l' This command toggles the member buffer between short and long display form. The short display form displays member names, only: | isEmpty contains hasMember create | storeSize hash isEqual restoreGuts | saveGuts The long display shows one member per line with member name and regular expressions matching the member (if known): | isEmpty Bool isEmpty () const... | hash unsigned hash () const... | isEqual int isEqual (... Regular expressions will only be displayed when the Lisp database has not been produced with the `ebrowse' option `--no-regexps'. *Note -no-regexps: Matching.  File: ebrowse, Node: Regexp Display, Next: Switching Classes, Prev: Long and Short Display, Up: Member Buffers 5.9 Display of Regular Expressions ================================== `D r' This command toggles the long display form from displaying the regular expressions matching the member declarations to those expressions matching member definitions. Regular expressions will only be displayed when the Lisp database has not been produced with the `ebrowse' option `--no-regexps', see *note -no-regexps: Matching.  File: ebrowse, Node: Switching Classes, Next: Killing/Burying, Prev: Regexp Display, Up: Member Buffers 5.10 Displaying Another Class ============================= `C c' This command lets you switch the member buffer to another class. It reads the name of the new class from the minibuffer with completion. `C b' This is the same command as `C c' but restricts the classes shown in the completion list to immediate base classes, only. If only one base class exists, this one is immediately shown in the minibuffer. `C d' Same as `C b', but for derived classes. `C p' Switch to the previous class in the class hierarchy on the same level as the class currently displayed. `C n' Switch to the next sibling of the class in the class tree.  File: ebrowse, Node: Killing/Burying, Next: Column Width, Prev: Switching Classes, Up: Member Buffers 5.11 Burying a Member Buffer ============================ `q' This command is a synonym for `M-x bury-buffer'.  File: ebrowse, Node: Column Width, Next: Redisplay, Prev: Killing/Burying, Up: Member Buffers 5.12 Setting the Column Width ============================= `D w' This command sets the column width depending on the display form used (long or short display).  File: ebrowse, Node: Redisplay, Next: Getting Help, Prev: Column Width, Up: Member Buffers 5.13 Forced Redisplay ===================== `C-l' This command forces a redisplay of the member buffer. If the width of the window displaying the member buffer is changed this command redraws the member list with the appropriate column widths and number of columns.  File: ebrowse, Node: Getting Help, Prev: Redisplay, Up: Member Buffers `?' This key is bound to `describe-mode'.  File: ebrowse, Node: Tags-like Functions, Next: GNU Free Documentation License, Prev: Member Buffers, Up: Top 6 Tags-like Functions ********************* Ebrowse provides tags functions similar to those of the standard Emacs Tags facility, but better suited to the needs of C++ programmers. * Menu: * Finding and Viewing:: Going to a member declaration/definition * Position Stack:: Moving to previous locations * Search & Replace:: Searching and replacing over class tree files * Members in Files:: Listing all members in a given file * Apropos:: Listing members matching a regular expression * Symbol Completion:: Completing names while editing * Member Buffer Display:: Quickly display a member buffer for some identifier  File: ebrowse, Node: Finding and Viewing, Next: Position Stack, Prev: Tags-like Functions, Up: Tags-like Functions 6.1 Finding and Viewing Members =============================== The functions in this section are similar to those described in *note Source Display::, and also in *note Finding/Viewing::, except that they work in a C++ source buffer, not in member and tree buffers created by Ebrowse. `C-c C-m f' Find the definition of the member around point. If you invoke this function with a prefix argument, the declaration is searched. If more than one class contains a member with the given name you can select the class with completion. If there is a scope declaration in front of the member name, this class name is used as initial input for the completion. `C-c C-m F' Find the declaration of the member around point. `C-c C-m v' View the definition of the member around point. `C-c C-m V' View the declaration of the member around point. `C-c C-m 4 f' Find a member's definition in another window. `C-c C-m 4 F' Find a member's declaration in another window. `C-c C-m 4 v' View a member's definition in another window. `C-c C-m 4 V' View a member's declaration in another window. `C-c C-m 5 f' Find a member's definition in another frame. `C-c C-m 5 F' Find a member's declaration in another frame. `C-c C-m 5 v' View a member's definition in another frame. `C-c C-m 5 V' View a member's declaration in another frame.  File: ebrowse, Node: Position Stack, Next: Search & Replace, Prev: Finding and Viewing, Up: Tags-like Functions 6.2 The Position Stack ====================== When jumping to a member declaration or definition with one of Ebrowse's commands, the position from where you performed the jump and the position where you jumped to are recorded in a "position stack". There are several ways in which you can quickly move to positions in the stack: `C-c C-m -' This command sets point to the previous position in the position stack. Directly after you performed a jump, this will put you back to the position where you came from. The stack is not popped, i.e. you can always switch back and forth between positions in the stack. To avoid letting the stack grow to infinite size there is a maximum number of positions defined. When this number is reached, older positions are discarded when new positions are pushed on the stack. `C-c C-m +' This command moves forward in the position stack, setting point to the next position stored in the position stack. `C-c C-m p' Displays an electric buffer showing all positions saved in the stack. You can select a position by pressing `SPC' in a line. You can view a position with `v'.  File: ebrowse, Node: Search & Replace, Next: Members in Files, Prev: Position Stack, Up: Tags-like Functions 6.3 Searching and Replacing =========================== Ebrowse allows you to perform operations on all or a subset of the files mentioned in a class tree. When you invoke one of the following functions and more than one class tree is loaded, you must choose a class tree to use from an electric tree menu. If the selected tree contains marked classes, the following commands operate on the files mentioned in the marked classes only. Otherwise all files in the class tree are used. `C-c C-m s' This function performs a regular expression search in the chosen set of files. `C-c C-m u' This command performs a search for calls of a given member which is selected in the usual way with completion. `C-c C-m %' Perform a query replace over the set of files. `C-c C-m ,' All three operations above stop when finding a match. You can restart the operation with this command. `C-c C-m n' This restarts the last tags operation with the next file in the list.  File: ebrowse, Node: Members in Files, Next: Apropos, Prev: Search & Replace, Up: Tags-like Functions 6.4 Members in Files ==================== The command `C-c C-m l', lists all members in a given file. The file name is read from the minibuffer with completion.  File: ebrowse, Node: Apropos, Next: Symbol Completion, Prev: Members in Files, Up: Tags-like Functions 6.5 Member Apropos ================== The command `C-c C-m a' can be used to display all members matching a given regular expression. This command can be very useful if you remember only part of a member name, and not its beginning. A special buffer is popped up containing all identifiers matching the regular expression, and what kind of symbol it is (e.g. a member function, or a type). You can then switch to this buffer, and use the command `C-c C-m f', for example, to jump to a specific member.  File: ebrowse, Node: Symbol Completion, Next: Member Buffer Display, Prev: Apropos, Up: Tags-like Functions 6.6 Symbol Completion ===================== The command `C-c C-m ' completes the symbol in front of point.  File: ebrowse, Node: Member Buffer Display, Prev: Symbol Completion, Up: Tags-like Functions 6.7 Quick Member Display ======================== You can quickly display a member buffer containing the member the cursor in on with the command `C-c C-m m'.  File: ebrowse, Node: GNU Free Documentation License, Next: Concept Index, Prev: Tags-like Functions, Up: Top Appendix A GNU Free Documentation License ***************************************** Version 1.3, 3 November 2008 Copyright (C) 2000, 2001, 2002, 2007, 2008, 2009 Free Software Foundation, Inc. `http://fsf.org/' Everyone is permitted to copy and distribute verbatim copies of this license document, but changing it is not allowed. 0. PREAMBLE The purpose of this License is to make a manual, textbook, or other functional and useful document "free" in the sense of freedom: to assure everyone the effective freedom to copy and redistribute it, with or without modifying it, either commercially or noncommercially. Secondarily, this License preserves for the author and publisher a way to get credit for their work, while not being considered responsible for modifications made by others. This License is a kind of "copyleft", which means that derivative works of the document must themselves be free in the same sense. It complements the GNU General Public License, which is a copyleft license designed for free software. We have designed this License in order to use it for manuals for free software, because free software needs free documentation: a free program should come with manuals providing the same freedoms that the software does. But this License is not limited to software manuals; it can be used for any textual work, regardless of subject matter or whether it is published as a printed book. We recommend this License principally for works whose purpose is instruction or reference. 1. APPLICABILITY AND DEFINITIONS This License applies to any manual or other work, in any medium, that contains a notice placed by the copyright holder saying it can be distributed under the terms of this License. Such a notice grants a world-wide, royalty-free license, unlimited in duration, to use that work under the conditions stated herein. The "Document", below, refers to any such manual or work. Any member of the public is a licensee, and is addressed as "you". You accept the license if you copy, modify or distribute the work in a way requiring permission under copyright law. A "Modified Version" of the Document means any work containing the Document or a portion of it, either copied verbatim, or with modifications and/or translated into another language. 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COLLECTIONS OF DOCUMENTS You may make a collection consisting of the Document and other documents released under this License, and replace the individual copies of this License in the various documents with a single copy that is included in the collection, provided that you follow the rules of this License for verbatim copying of each of the documents in all other respects. You may extract a single document from such a collection, and distribute it individually under this License, provided you insert a copy of this License into the extracted document, and follow this License in all other respects regarding verbatim copying of that document. 7. AGGREGATION WITH INDEPENDENT WORKS A compilation of the Document or its derivatives with other separate and independent documents or works, in or on a volume of a storage or distribution medium, is called an "aggregate" if the copyright resulting from the compilation is not used to limit the legal rights of the compilation's users beyond what the individual works permit. When the Document is included in an aggregate, this License does not apply to the other works in the aggregate which are not themselves derivative works of the Document. If the Cover Text requirement of section 3 is applicable to these copies of the Document, then if the Document is less than one half of the entire aggregate, the Document's Cover Texts may be placed on covers that bracket the Document within the aggregate, or the electronic equivalent of covers if the Document is in electronic form. Otherwise they must appear on printed covers that bracket the whole aggregate. 8. TRANSLATION Translation is considered a kind of modification, so you may distribute translations of the Document under the terms of section 4. Replacing Invariant Sections with translations requires special permission from their copyright holders, but you may include translations of some or all Invariant Sections in addition to the original versions of these Invariant Sections. You may include a translation of this License, and all the license notices in the Document, and any Warranty Disclaimers, provided that you also include the original English version of this License and the original versions of those notices and disclaimers. In case of a disagreement between the translation and the original version of this License or a notice or disclaimer, the original version will prevail. If a section in the Document is Entitled "Acknowledgements", "Dedications", or "History", the requirement (section 4) to Preserve its Title (section 1) will typically require changing the actual title. 9. TERMINATION You may not copy, modify, sublicense, or distribute the Document except as expressly provided under this License. Any attempt otherwise to copy, modify, sublicense, or distribute it is void, and will automatically terminate your rights under this License. However, if you cease all violation of this License, then your license from a particular copyright holder is reinstated (a) provisionally, unless and until the copyright holder explicitly and finally terminates your license, and (b) permanently, if the copyright holder fails to notify you of the violation by some reasonable means prior to 60 days after the cessation. Moreover, your license from a particular copyright holder is reinstated permanently if the copyright holder notifies you of the violation by some reasonable means, this is the first time you have received notice of violation of this License (for any work) from that copyright holder, and you cure the violation prior to 30 days after your receipt of the notice. 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If the Document specifies that a particular numbered version of this License "or any later version" applies to it, you have the option of following the terms and conditions either of that specified version or of any later version that has been published (not as a draft) by the Free Software Foundation. If the Document does not specify a version number of this License, you may choose any version ever published (not as a draft) by the Free Software Foundation. If the Document specifies that a proxy can decide which future versions of this License can be used, that proxy's public statement of acceptance of a version permanently authorizes you to choose that version for the Document. 11. RELICENSING "Massive Multiauthor Collaboration Site" (or "MMC Site") means any World Wide Web server that publishes copyrightable works and also provides prominent facilities for anybody to edit those works. A public wiki that anybody can edit is an example of such a server. A "Massive Multiauthor Collaboration" (or "MMC") contained in the site means any set of copyrightable works thus published on the MMC site. "CC-BY-SA" means the Creative Commons Attribution-Share Alike 3.0 license published by Creative Commons Corporation, a not-for-profit corporation with a principal place of business in San Francisco, California, as well as future copyleft versions of that license published by that same organization. "Incorporate" means to publish or republish a Document, in whole or in part, as part of another Document. An MMC is "eligible for relicensing" if it is licensed under this License, and if all works that were first published under this License somewhere other than this MMC, and subsequently incorporated in whole or in part into the MMC, (1) had no cover texts or invariant sections, and (2) were thus incorporated prior to November 1, 2008. The operator of an MMC Site may republish an MMC contained in the site under CC-BY-SA on the same site at any time before August 1, 2009, provided the MMC is eligible for relicensing. ADDENDUM: How to use this License for your documents ==================================================== To use this License in a document you have written, include a copy of the License in the document and put the following copyright and license notices just after the title page: Copyright (C) YEAR YOUR NAME. Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.3 or any later version published by the Free Software Foundation; with no Invariant Sections, no Front-Cover Texts, and no Back-Cover Texts. A copy of the license is included in the section entitled ``GNU Free Documentation License''. If you have Invariant Sections, Front-Cover Texts and Back-Cover Texts, replace the "with...Texts." line with this: with the Invariant Sections being LIST THEIR TITLES, with the Front-Cover Texts being LIST, and with the Back-Cover Texts being LIST. If you have Invariant Sections without Cover Texts, or some other combination of the three, merge those two alternatives to suit the situation. If your document contains nontrivial examples of program code, we recommend releasing these examples in parallel under your choice of free software license, such as the GNU General Public License, to permit their use in free software.  File: ebrowse, Node: Concept Index, Prev: GNU Free Documentation License, Up: Top Concept Index ************* [index] * Menu: * *Globals*: Member Display. (line 6) * *Members* buffer: Member Display. (line 6) * --append: Output file. (line 18) * --files: Input files. (line 10) * --help: Generating browser files. (line 24) * --max-regexp-length: Matching. (line 33) * --min-regexp-length: Matching. (line 22) * --no-regexps: Matching. (line 19) * --no-structs-or-unions: Structs and unions. (line 6) * --output-file: Output file. (line 6) * --search-path: Input files. (line 23) * --verbose: Verbosity. (line 6) * --very-verbose: Verbosity. (line 11) * appending output to class data base: Output file. (line 18) * apropos on class members: Apropos. (line 6) * attributes: Attributes. (line 6) * base class, display: Switching Classes. (line 6) * base classes, members: Inherited Members. (line 6) * branches of class tree: Expanding and Collapsing. (line 6) * BROWSE file: Output file. (line 6) * browsing: Loading a Tree. (line 6) * buffer switching: Switching to Tree. (line 6) * burying member buffers: Killing/Burying. (line 6) * burying tree buffer: Quitting. (line 6) * class data base creation: Generating browser files. (line 6) * class declaration: Source Display. (line 6) * class display: Switching Classes. (line 6) * class location: Go to Class. (line 6) * class members, types: Member Buffers. (line 6) * class statistics: Statistics. (line 3) * class tree, collapse or expand: Expanding and Collapsing. (line 6) * class tree, save to a file: Saving a Tree. (line 6) * class trees: Tree Buffers. (line 6) * class, remove from tree: Killing Classes. (line 6) * collapse tree branch: Expanding and Collapsing. (line 6) * column width: Column Width. (line 6) * command line for ebrowse: Generating browser files. (line 10) * completion: Symbol Completion. (line 6) * const attribute: Attributes. (line 27) * const members: Filters. (line 22) * context menu: Loading a Tree. (line 24) * declaration of a member, in member buffers: Finding/Viewing. (line 6) * defines: Switching Member Lists. (line 6) * definition of a member, in member buffers: Finding/Viewing. (line 6) * derived class, display: Switching Classes. (line 6) * display form: Long and Short Display. (line 6) * ebrowse, the program: Generating browser files. (line 6) * expand tree branch: Expanding and Collapsing. (line 6) * expanding branches: Go to Class. (line 6) * explicit attribute: Attributes. (line 36) * extern "C" attribute: Attributes. (line 18) * file names in tree buffers: File Name Display. (line 6) * file, members: Members in Files. (line 6) * files: Members in Files. (line 6) * filters: Filters. (line 6) * finding a class: Source Display. (line 6) * finding class member, in C++ source: Finding and Viewing. (line 6) * finding members, in member buffers: Finding/Viewing. (line 6) * freezing a member buffer: Member Display. (line 6) * friend functions: Input files. (line 28) * friend functions, list: Member Display. (line 34) * friends: Switching Member Lists. (line 6) * header files: Input files. (line 28) * help: Getting Help. (line 3) * indentation of the tree: Tree Indentation. (line 6) * indentation, member: Column Width. (line 6) * inherited members: Inherited Members. (line 6) * inline: Attributes. (line 24) * inline members: Filters. (line 19) * input files, for ebrowse: Input files. (line 6) * instance member variables, list: Member Display. (line 28) * killing classes: Killing Classes. (line 6) * list class members in a file: Members in Files. (line 6) * loading: Loading a Tree. (line 6) * locate class: Go to Class. (line 6) * long display: Long and Short Display. (line 6) * major modes, of Ebrowse buffers: Overview. (line 35) * marking classes: Marking Classes. (line 3) * maximum regexp length for recording: Matching. (line 33) * member attribute display: Attributes. (line 6) * member buffer: Overview. (line 44) * member buffer mode: Member Buffers. (line 6) * member buffer, for member at point: Member Buffer Display. (line 6) * member declaration, finding, in C++ source: Finding and Viewing. (line 6) * member declarations, in member buffers: Finding/Viewing. (line 6) * member definition, finding, in C++ source: Finding and Viewing. (line 6) * member definitions, in member buffers: Finding/Viewing. (line 6) * member functions, list: Member Display. (line 39) * member indentation: Column Width. (line 6) * member lists, in member buffers: Switching Member Lists. (line 6) * member lists, in tree buffers: Member Display. (line 6) * members: Member Buffers. (line 6) * members in file, listing: Members in Files. (line 6) * members, matching regexp: Apropos. (line 6) * minimum regexp length for recording: Matching. (line 22) * mouse highlight in tree buffers: Loading a Tree. (line 18) * mutable attribute: Attributes. (line 33) * next member list: Switching Member Lists. (line 6) * operations on marked classes: Marking Classes. (line 3) * output file name: Output file. (line 6) * parser for C++ sources: Overview. (line 26) * position stack: Position Stack. (line 6) * previous member list: Switching Member Lists. (line 10) * private members: Filters. (line 13) * protected members: Filters. (line 10) * public members: Filters. (line 6) * pure virtual function attribute: Attributes. (line 30) * pure virtual members: Filters. (line 25) * redisplay of member buffers: Redisplay. (line 6) * regular expression display: Regexp Display. (line 6) * regular expressions, recording: Matching. (line 6) * remove filters: Filters. (line 28) * replacing in multiple C++ files: Search & Replace. (line 6) * response files: Input files. (line 10) * restart tags-operation: Search & Replace. (line 6) * return to original position: Position Stack. (line 12) * save tree to a file: Saving a Tree. (line 6) * search for class: Go to Class. (line 6) * searching members: Searching Members. (line 6) * searching multiple C++ files: Search & Replace. (line 6) * short display: Long and Short Display. (line 6) * standard input, specifying input files: Input files. (line 17) * static: Switching Member Lists. (line 17) * static member functions, list: Member Display. (line 42) * static members: Switching Member Lists. (line 6) * static variables, list: Member Display. (line 31) * statistics for a tree: Statistics. (line 3) * structs: Structs and unions. (line 6) * subclass, display: Switching Classes. (line 6) * superclass, display: Switching Classes. (line 6) * superclasses, members: Inherited Members. (line 6) * switching buffers: Switching to Tree. (line 6) * symbol completion: Symbol Completion. (line 6) * tags: Finding and Viewing. (line 6) * template attribute: Attributes. (line 15) * toggle mark: Marking Classes. (line 7) * tree buffer: Overview. (line 38) * tree buffer mode: Tree Buffers. (line 6) * tree buffer, switch to: Switching to Tree. (line 6) * tree indentation: Tree Indentation. (line 6) * tree statistics: Statistics. (line 3) * tree, save to a file: Saving a Tree. (line 6) * types: Switching Member Lists. (line 6) * types of class members: Member Buffers. (line 6) * types, list: Member Display. (line 45) * unions: Structs and unions. (line 6) * unmark all: Marking Classes. (line 12) * verbose operation: Verbosity. (line 6) * viewing class member, in C++ source: Finding and Viewing. (line 6) * viewing members, in member buffers: Finding/Viewing. (line 6) * viewing, class: Source Display. (line 6) * virtual attribute: Attributes. (line 21) * virtual members: Filters. (line 16)  Tag Table: Node: Top1034 Node: Overview2460 Node: Generating browser files6053 Node: Input files7174 Node: Output file8438 Node: Structs and unions9347 Node: Matching9791 Node: Verbosity11755 Node: Loading a Tree12189 Node: Tree Buffers13203 Node: Source Display14353 Node: Member Display15140 Node: Go to Class16917 Node: Quitting17644 Node: File Name Display17842 Node: Expanding and Collapsing18749 Node: Tree Indentation19746 Node: Killing Classes20133 Node: Saving a Tree20503 Node: Statistics20874 Node: Marking Classes21153 Node: Member Buffers21968 Node: Switching Member Lists23424 Node: Finding/Viewing24228 Node: Inherited Members25283 Node: Searching Members25601 Node: Switching to Tree26509 Node: Filters26857 Node: Attributes27602 Node: Long and Short Display28669 Node: Regexp Display29623 Node: Switching Classes30167 Node: Killing/Burying30972 Node: Column Width31199 Node: Redisplay31473 Node: Getting Help31860 Node: Tags-like Functions31985 Node: Finding and Viewing32765 Node: Position Stack34303 Node: Search & Replace35603 Node: Members in Files36728 Node: Apropos37001 Node: Symbol Completion37621 Node: Member Buffer Display37850 Node: GNU Free Documentation License38110 Node: Concept Index63293  End Tag Table