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22.1 Adding Popups

There are two ways to create and populate a popup with entries. The first method, that allows more fine-grained control consists of first generating a popup and then adding entries. Using this method all the properties of entries can be set immediately. The second method, to be discussed later, is simpler and may be sufficient for many applications, and internally uses the first method.

To define a new popup using the more general interface call

FL_POPUP *fl_popup_add(Window win, const char *title);

The function returns the address of the new popup on success and NULL on failure. win is the window of a parent object (use FL_ObjWin() to find out about it). You can also use fl_root for the root window, with None having the same effect . title is an optional string that gets shown at the top of the popup in a framed box. If not wanted pass an empty string or NULL. The function returns a pointer to a new popup or NULL on failure.

The title may contain embedded newline characters, this allows to create titles that span more than one line.)

There is no built-in limit to the number of popups that can be created.

Once you have popup you may add one or more entries by using

FL_POPUP_ENTRY *fl_popup_add_entries(FL_POPUP *popup,
                                     const char *entries, ...);

On success the return value is the address of the first entry created and NULL on failure. The first argument, entries, is a pointer to the popup the new entry (or entries) is added to. The second argument, entries, encodes information about the entries to add. In the most simple case it consists just of the entries texts, separated by | characters, e.g., "Item 1|Item 2|Item 3". This would create three simple entries in the popup with labels "Item 1", "Item 2" and "Item 3".

The entries string may contain newline characters which allows to create entries that span more than a single line.

There’s no built-in limit to the number of entries than be added to a popup. fl_popup_add_entries() can be called repeatedly to append further entries to a popup.

It often is necessary to have more complex entries. E.g., one may want to have keyboard shortcuts for entries, which are shown on the right hand side of an entry, one may want to have sub-popups or set callbacks etc. This can be achieved by embedding special character sequences within the string describing the entries and passing further arguments to the function, similar to the use of a format string in e.g., printf(3). All special sequences start with a %.

The following sequences are recognized:

%x

Set a value of type long int that’s passed to all callback routines for the entry. The value must be given in the arguments following the entries string.

%u

Set a user_void pointer that’s passed to all callbacks of the entry. The pointer must be specified in the arguments following the entries string.

%f

Set a callback function that gets called when the entry is selected. The function is of type

int callback(FL_POPUP_RETURN *r);

Information about the entry etc. gets passed to the callback function via the FL_POPUP_RETURN structure (see below) and the return value of the function can be used to keep the selection being reported back to the caller of fl_popup_do() by returning a value of FL_IGNORE (-1). The functions address must be given in the arguments following the entries string.

%E

Set a callback routine that gets called each time the mouse enters the entry (as long as the entry isn’t disabled or hidden). The type of the function is the same as that of the callback function for the selection of the item but it’s return value is never used. The functions address must be given in the arguments following the entries string.

%L

Set a callback routine that gets called each time the mouse leaves the entry. The type of the function is the same as that of the callback function for the selection of the entry but it’s return value is never used. The functions address must be given in the arguments following the entries string.

%m

When this is specified a sub-popup gets opened when the mouse enters the entry (the entry itself thus can’t be selected). The sub-popup to be opened must be an already existing popup and its address must be given in the arguments following the entries string. A triangle will be drawn on the right of the entry to indicate that it’s an entry for a sub-popup.

Mutually exclusive with %t, %T, %r, %R and %l.

%t
%T

This makes the entry a "toggle" entry, an entry that represents binary states and gets a check-mark drawn on its left if in "on" state. If created with %t its in "off" state at the start, if created with "T" its in "on" state. Switching states happens automatically when the entry is selected.

Mutually exclusive with %m, %r, %R and %l.

%r
%R

This makes the entry a "radio" entry, i.e., it becomes part of a group of entries of which only one can be "on" at a time. The group, an integer value (don’t use INT_MIN and INT_MIN), must be given in the arguments following the entries string.

Radio entries are drawn with a small circle to the left, with the one for the entry in "on" state filled with a color (blue per default). When a radio entry is selected by the user that was in "off" state the entry of the group that was is "on" state before is automatically switched to "off" state.

If the entry gets created with %r the entry is in "off" state, if created with %R it’s in "on" state (in that case all entries created before in "on" state are reset to "off" state, i.e., the one created last "wins").

Mutually exclusive with %m, %t, %T and %l.

%l

This creates not a real entry but indicates that a line is to be drawn to visually group other entries. While other properties can be set for such an "entry" only the "hidden" property (see below) is taken into acount.

Mutually exclusive with %m, %t, %T, % and %R.

%d

Marks the entry as disabled, i.e., it can’t be selected and its text is per default drawn in a different color

%h

Marks the entry as hidden, i.e., it is not shown while in this state.

%S

For entries with shortcut keys it’s quite common to have them shown on the right hand side. Using %S you can split the entrys text into two parts, the first one (before %S) being drawn flushed left and the second part flushed right. Note that using this special sequence doesn’t automatically sets a shortcut key, this still has to be done using %s.

%s

Sets one or more shortcut keys for an entry. Requires a string with the shortcuts in the arguments following the entries string, see Shortcuts for details on how to define shortcuts. Please note that the character in the label identical to the shortcut character is only shown as underlined if %S isn’t used.

%%

Use this to put a % character within the text of an entry.

Please note that since fl_popup_add_entries() is a variadic function (i.e., it takes a variable number of arguments) only very limited error checking is possible and thus it is of importance that the arguments passed to the function have exactly the required types!

The return value of fl_popup_add_entries() is a pointer to the first of the entries created. Since entries are stored as a linked list this value can be used to iterate over the list (see below for more information about the FL_POPUP_ENTRY structure). If the function returns NULL no entries were created.

A typical piece of code creating a popup may look like this:

int save_cb(FL_POPUP_RETURN *result) {
    ...
}

int main(int argc, char *argv[]) {
   FL_POPUP *popup;
   File *fp;

   ...

   popup = fl_popup_add(None, NULL);
   fl_popup_add_entries(popup,
                        "Save%SCtrl+S%s%f%u|"
                        "Quit%SEsc%s|"
                        "%l|"
                        "Work Offline%SCtrl+O%T%s",
                        "^S", save_cb, (void *) fp,
                        "^[",
                        "^O");
    ...
}

This creates a popup with three entries. The first one has the label "Save" shown at the left and "Ctrl+S" at the right can be selected by pressing <Ctrl>S, in which case the function save_cb() will be invoked with a pointer to a structure that, beside other informations, contains the file pointer fp. The second entry has the labels "Quit" and "Esc" and it’s shortcut key is set to <Esc>. Below this entry a separator line is drawn, followed by the third entry with labels "Work Offline" and "Ctrl+O" and shortcut key <Ctrl>O. This label is a "toggle" entry in "on" state, thus a check-marker is shown beside it.

A few remarks about the callback routines. All have a type of FL_POPUP_CB as given by this typedef:

typedef int (*FL_POPUP_CB)(FL_POPUP_RETURN *);

There are three kinds of callbacks, all with the same type. Whenever an item is entered (by moving the mouse on top of it or with the keyboard) its enter callback function is invoked (if one is set). Exceptions are entries that are disabled or hidden or entries, that just stand for separator lines. When an entry that can receive enter callbacks is left, its leave callback is invoked.

Leave callbacks are not called when a selection has been made. Instead, only the selection callback for the selected entry is invoked.

A "sub-popup entry", i.e., an entry that when entered results in a sub-popup to open, also can have an enter callback. Its leave callback is not called when the user moves the mouse onto the sub-popup but only once the sub-popup has been closed again and the mouse has been moved off the sub-popup entry.

While enter and leave callback functions are defined to return an integer value, it’s never used. But for the third kind of callback, invoked on selection of an entry, this isn’t true. Instead, the callbacks return value is important: if it is FL_IGNORE (-1), the selection isn’t reported back to the caller (and following callbacks also aren’t called). This can be useful when the callback function already does everything required and nothing is left to be done.

All callbacks receive a pointer to a structure of the type FL_POPUP_RETURN:

typedef struct {
    long int              val;       /* value assigned to entry */
    void                 *user_data; /* pointer to user data */
    const char           *text;      /* text of selected popup entry */
    const char           *label;     /* text drawn on left */        
    const char           *accel;     /* text drawn on right */
    const FL_POPUP_ENTRY *entry;     /* selected popup entry */
    const FL_POPUP       *popup;     /* (sub-) popup it belongs to */
} FL_POPUP_RETURN;

val is the value set by "%x". If "%x" wasn’t given, it’s an automatically generated value: when a popup is created with fl_popup_add_entries() a counter is initalized to 0. Whenever an entry gets added the value of the counter is assigned to the entry and then incremented. Unless a different value is set explicitely via "%x" the first entry added to a popup thus gets a value val of 0, the second one gets 1 etc. This even holds for entries that just stand for separator lines. In simple situations the value of val is probably sufficient to identify which entry got selected.

Please note: it is possible that by setting the val members two or more structures for items of the same popup get the same value. It is the programmers responsibility to avoid that (unless, of course, that’s just what you intended).

The user_data member of the structure is the user_void pointer set via "%u". It allows to pass more complex data to the callback function (or have returned on selection of an entry.

The text member is exactly the string used to create the entry, including all the special sequences starting with '%'. label is what’s left after all those sequences as well as backspace characters have been removed, tabs replaced by single spaces and the string is split at "%S". I.e., it’s exactly what’s drawn left-flushed for the entry in the popup. accel is then what’s left after clean-up and came after "%S", i.e., it’s what appears as the right-flushed text of the entry. Please note that one or more of these pointers could under some circumstances be NULL.

Finally, the two member entry and popup are pointers to the entry itself and the popup the callback function is invoked for - to find out the popup the selected entry itself belongs to use the popup member of the entrys FL_POPUP_ENTRY structure.

Please note: while in a callback you are only allowed to change the values of the val and user_data members. This can be useful in the case of a cascade of selection callback calls since all the selection callbacks receive the same structure (and this is also the structure that finally gets passed back to the caller of fl_popup_do()) at the end in order to implement more complex information interchange between the callbacks involved.

The elements of a FL_POPUP_ENTRY structure that might be of interest) are

typedef {
    FL_POPUP_ENTRY *prev;    /* previous popup entry */
    FL_POPUP_ENTRY *next;    /* next popup entry */
    int             type;    /* normal, toggle, radio, sub-popup, line*/
    unsigned int    state;   /* disabled, hidden, checked */
    int             group;   /* group (for radio entries only) */
    FL_POPUP       *sub;     /* sub-popup bound to entry */
    ...
} FL_POPUP_ENTRY;

Note that you should not change the members of a FL_POPUP_ENTRY structure directly! Use the appropriate functions documented below to modify them instead.

prev and next are pointers to the previous and the following popup entry (or NULL if none exists).

type tells what kind of popup entry this is. There are five different types:

FL_POPUP_NORMAL

Normal popup entry with no special properties

FL_POPUP_TOGGLE

"Toggle" or "binary" entry, drawn with a check-mark to its left if in "on" state

FL_POPUP_RADIO

Radio entry, drawn with a circle to its left (color-filled when "on". The group member of the FL_POPUP_ENTRY structure determines to which group the entry belongs.

FL_POPUP_SUB

Entry for a sub-popup. The sub member of its FL_POPUP_ENTRY structure is a pointer to the sub-popup that gets shown when the mouse enters the entry.

FL_POPUP_LINE

Not a "real" entry, just indicates that a separator line is to be drawn between the previous and the next entry.

Finally, the state member can have the following values:

FL_POPUP_NONE

No special state is set for the entry, the default.

FL_POPUP_DISABLED

The entry is disabled, i.e., isn’t selectable (and normally is drawn in a way to indicate this).

FL_POPUP_HIDDEN

The entry is not drawn at all (and thus can’t be selected).

FL_POPUP_CHECKED

Only relevant for toggle and radio entries. Indicates that the state of a toggle entry is "on" (drawn with a check-marker) and for a radio entry that it is the one in "on" state of its group.

The state can be a combination of the above constants by using a bitwise OR.

The more interesting members of a FL_POPUP structure are

typedef struct {
    FL_POPUP       *next;        /* previously created popup */
    FL_POPUP       *prev;        /* later created popup */
    FL_POPUP       *parent;      /* for sub-popups: direct parent */
    FL_POPUP       *top_parent;  /* and top-most parent */
    Window          win;         /* window of the popup */
    FL_POPUP_ENTRY *entries;     /* pointer to list of entries */
    char           *title;       /* title string of the popup */
    ...
} FL_POPUP;

Note again that you are not supposed to change the members of the structure.

Like popup entries also popups are stored in a (doubly) linked list. Thus the prev and next members of the structure are pointers to popups created earlier or later. If a popup is a sub-popup of another popup then parent points to the next higher level popup (otherwise it’s NULL). In case there’s a cascade of popups the top_parent member points to the "root" popup (i.e., the top-level popup), while for popups that aren’t sub-popups it always points back to the popup itself (in that case parent is NULL).

win is the window created for the popup. It’s None (0) while the popup isn’t shown, so it can be used to check if the popup is currently visible.

The entries member points to the first element of the list of entries of the popup. See the FL_POPUP_ENTRY structure documented above on how to iterate over all entries.

Finally, title is the title shown at the top of the popup (if one is set). Never try to change it directly, there ars the functions fl_popup_set_title() and fl_popup_set_title_f(), described below, to do just that.

To remove a popup entry use

int fl_popup_entry_delete(FL_POPUP_ENTRY *entry);

The function return 0 on success and -1 if it failed for some reasons. Note that the function for a sub-popup entry also deletes the popup that was associated with the entry!

You may also insert one or more entries into a popup at arbitrary places using

FL_POPUP_ENTRY *fl_popup_insert_entries(FL_POPUP *popup,
                                        FL_POPUP_ENTRY *after,
                                        const char *entries, ...);

popup is the popup the entries are to be inserted in, after is the entry after which the new entries are to be added (use NULL if the new entries are to be inserted at the very first position), and entries is the same kind if string as already used in fl_popup_add_entries(), including all the available special sequences. The arguments indicated by ... have to be given according to the entries string.

Finally, when you don’t need a popup anymore simply call

int fl_popup_delete(FL_POPUP *popup);

The function returns 0 on success and -1 on failure. It’s not possible to call the function while the popup is still visible on the screen. Calling it from any callback function is problematic unless you know for sure that the popup to be deleted (and sub-popups of it) won’t be used later and thus normally should be avoided.

Above was described how to first generate a popup and then populate it. But there’s also a (though less general) method to create and populate a popup in a single function call. For this use

FL_POPUP *fl_popup_create(Window win, const char *title,
                          FL_POPUP_ITEM *items);

The win and title arguments are the same as used in fl_popup_add(), i.e., they are parent window for the popup (or fl_root or None) and the (optional, can be NULL) title for the popup.

items is a pointer to an array of structures of the following form:

typedef struct {
    const char  *text;        /* text of entry */
    FL_POPUP_CB  callback;    /* (selection) callback */
    const char  *shortcut;    /* keyboard shortcut description */
    int          type;        /* type of entry */
    int          state;       /* disabled, hidden, checked */
} FL_POPUP_ITEM;

The array must contain one structure for each entry of the popup and must end in a structure where at least the text member is set to NULL.

The text member describes the text of the entry. If it contains the string "%S" the text is split up at this position and the first part is used as the label drawn left-flushed for the entry and the second part for the right-flushed part (for showing accelerator keys etc.). Two more characters have a special meaning if they appear at the very start of the string (and which then do not become part of the label shown):

'_'

Draw a separator line above this entry.

'/'

This entry is a sub-popup entry and the following elements of the items array (until the first element with text set to NULL define the entries of the sub-popup.

Both '_' and '/' can appear at the start of the string, it doesn’t matter which one comes first.

The callback member is a function to be invoked when the entry is selected (irrelevant for sub-popup entries). shortcut is a string, encoding which keyboard shortcut keys can be used to select the item (see Shortcuts for details on how such a string has to be assembled).

type describes the type of the entry and must be one of FL_POPUP_NORMAL, FL_POPUP_RADIO (all radio entries automatically belong to the same group (numbered INT_MIN). You can’t use FL_POPUP_LINE or FL_POPUP_SUB. If you want a sub-popup entry use FL_POPUP_NORMAL and set '/' as the first character of the text member of the structure. If you need a separator line put a '_' at the start of the text member string of the entry which comes after the separator line.

Finally, the state member can be 0 or the bitwise or of FL_POPUP_DISABLED, FL_POPUP_HIDDEN and FL_POPUP_CHECKED. The first one makes the entry appear disabled and non-selectable, the second will keep the entry from being drawn at all, and the third one puts the entry into "on" state (relevant for toggle and radio entries only). If you try to set FL_POPUP_CHECKED for more than a single radio entry the last one you set if for "wins", i.e., only this one will be in "on" state. See below for a more detailed discussion of these entry properties.

fl_popup_create() does not allow to associate values or pointers to user data to individual entries, set titles for sub-popups, have radio entries belong to different groups or set enter or leave callback functions (though there exist a number of functions to remedy the situation in case such things are needed).

The function returns a pointer to the newly created popup (or NULL on failure). You are guaranteed that each entry has been assigned a unique value, starting at 0 and which is identical to the index of corresponding element in the items array, i.e., the first element results in an entry assigned 0, the second entry gets 1 etc.

All functions working on popups or entries can, of course, be used on popups and their entries generated via fl_popup_create(). They can be employed to remedy some of the limitations imposed by the simpler popup creation API.

Here’s an example of how to create a popup using fl_popup_create():

FL_POPUP *popup;

FL_POPUP_ITEMS items[] = {
  {"Item 1%S^1", NULL, "^1", FL_POPUP_NORMAL, FL_POPUP_NONE    },
  {"Item 2%S^2", NULL, "^2", FL_POPUP_RADIO,  FL_POPUP_CHECKED },
  {"Item 3%S^3", NULL, "^3", FL_POPUP_RADIO,  FL_POPUP_NONE    },
  {"_/Item 4",   NULL, NULL, FL_POPUP_NORMAL, FL_POPUP_NONE    },
    {"Sub-item A",  cbA, "^A", FL_POPUP_NORMAL, FL_POPUP_DISABLED},
    {"Sub-item B",  cbB, "^B", FL_POPUP_TOGGLE, FL_POPUP_NONE    },
    {NULL,         NULL, NULL, 0,               0                },
  {"Item 5",     NULL, NULL, FL_POPUP_NORMAL, FL_POPUP_NONE    },
  {NULL,         NULL, NULL, 0,               FL_POPUP_NONE    }
};

popup = fl_popup_create(None, "Test", items);

This creates a new popup with the title "Test" and 5 entries as well as a a sub-popup with two entries, that gets opened when the mouse is over the entry labeled "Item 4".

The first entry in the main popup has the label "Item 1" on the left and "^1" of the right side. It has no callback routine and can be selected via the <Crtl>1 shortcut. It’s just a normal menu entry.

The second entry has the label "Item 2" on the left and "^2" of the right side, also no callack and <Crtl>2 as its keyboard shortcut. It’s a radio entry that is in "on" state. The third entry is like the second, labels are "Item 3" and "^3" and it reacts to <Crtl>3, except that it’s in "off" state. The second and third label belong to the same group (with the group number set to INT_MIN), i.e., when the third entry gets selected the second one gets switched to "off" state (and vice versa).

Before the fourth entry a separator line will be drawn (that’s the effect of its text starting with '_'. It’s a sub-popup entry (due to the '/' at the start of its text). It’s label is simply "Item 4" and no right hand label (but that isn’t supposed to indicate that sub-entries couldn’t have shortcuts!). It has no selection callback (which wouldn’t sense make sense for a sub-popup entry anyway).

The following three elements of the items array are for the sub-popup that gets opened when the mouse is over the fourth item of the main popup. In the sub-popup we first have an normal entry with label "Sub-item A". The function cbA() will be called when this entry of the sub-popup is selected. Then we have a second entry, labled "Sub-item B", which is a currently disabled toggle entry in "off" state. If it weren’t disabled its selection would result in the callback function cbB() getting called. The next element of the items array, having NULL as its text member, signifies the end of the sub-popup.

Now that we’re done with the sub-popup another entry in the main popup follows, a normal entry with just a left-label of Item 5. The final element of items, where text is set to NULL then signifies that this is the end of the popup.

As there are functions to append to and insert entries into a popup with a kind of format string, followed by a variable list of arguments, there are also functions for adding and inserting entries using an array of FL_POPUP_ITEM. These are

FL_POPUP_ENTRY *fl_popup_add_items(FL_POPUP *popup,
                                   FL_POPUP_ITEM *items);
FL_POPUP_ENTRY *fl_popup_insert_items(FL_POPUP *popup,
                                      FL_POPUP_ENTRY *after,
                                      FL_POPUP_ITEM  *items);

Both functions return the address of the first entry created on success and NULL on error. The first argument is the popup the entries are to be appended to or inserted into, the last argument the array of items (as in the case of fl_popup_create() at least the text member of the last element must be a NULL pointer to indicate the end). fl_popup_insert_items() takes another argument, after, the entry after which the new entries are to be inserted (if called with after set to NULL the new entries are inserted at the very start of the popup).


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