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tkPack.c
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tkPack.c
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/*
* tkPack.c --
*
* This file contains code to implement the "packer" geometry manager for
* Tk.
*
* Copyright (c) 1990-1994 The Regents of the University of California.
* Copyright (c) 1994-1997 Sun Microsystems, Inc.
*
* See the file "license.terms" for information on usage and redistribution of
* this file, and for a DISCLAIMER OF ALL WARRANTIES.
*/
#include "tkInt.h"
typedef enum {TOP, BOTTOM, LEFT, RIGHT} Side;
static const char *const sideNames[] = {
"top", "bottom", "left", "right", NULL
};
/*
* For each window that the packer cares about (either because the window is
* managed by the packer or because the window has slaves that are managed by
* the packer), there is a structure of the following type:
*/
typedef struct Packer {
Tk_Window tkwin; /* Tk token for window. NULL means that the
* window has been deleted, but the packet
* hasn't had a chance to clean up yet because
* the structure is still in use. */
struct Packer *masterPtr; /* Master window within which this window is
* packed (NULL means this window isn't
* managed by the packer). */
struct Packer *nextPtr; /* Next window packed within same master. List
* is priority-ordered: first on list gets
* packed first. */
struct Packer *slavePtr; /* First in list of slaves packed inside this
* window (NULL means no packed slaves). */
Side side; /* Side of master against which this window is
* packed. */
Tk_Anchor anchor; /* If frame allocated for window is larger
* than window needs, this indicates how where
* to position window in frame. */
int padX, padY; /* Total additional pixels to leave around the
* window. Some is of this space is on each
* side. This is space *outside* the window:
* we'll allocate extra space in frame but
* won't enlarge window). */
int padLeft, padTop; /* The part of padX or padY to use on the left
* or top of the widget, respectively. By
* default, this is half of padX or padY. */
int iPadX, iPadY; /* Total extra pixels to allocate inside the
* window (half of this amount will appear on
* each side). */
int doubleBw; /* Twice the window's last known border width.
* If this changes, the window must be
* repacked within its master. */
int *abortPtr; /* If non-NULL, it means that there is a
* nested call to ArrangePacking already
* working on this window. *abortPtr may be
* set to 1 to abort that nested call. This
* happens, for example, if tkwin or any of
* its slaves is deleted. */
int flags; /* Miscellaneous flags; see below for
* definitions. */
} Packer;
/*
* Flag values for Packer structures:
*
* REQUESTED_REPACK: 1 means a Tcl_DoWhenIdle request has already
* been made to repack all the slaves of this
* window.
* FILLX: 1 means if frame allocated for window is wider
* than window needs, expand window to fill
* frame. 0 means don't make window any larger
* than needed.
* FILLY: Same as FILLX, except for height.
* EXPAND: 1 means this window's frame will absorb any
* extra space in the master window.
* OLD_STYLE: 1 means this window is being managed with the
* old-style packer algorithms (before Tk version
* 3.3). The main difference is that padding and
* filling are done differently.
* DONT_PROPAGATE: 1 means don't set this window's requested
* size. 0 means if this window is a master then
* Tk will set its requested size to fit the
* needs of its slaves.
* ALLOCED_MASTER 1 means that Pack has allocated itself as
* geometry master for this window.
*/
#define REQUESTED_REPACK 1
#define FILLX 2
#define FILLY 4
#define EXPAND 8
#define OLD_STYLE 16
#define DONT_PROPAGATE 32
#define ALLOCED_MASTER 64
/*
* The following structure is the official type record for the packer:
*/
static void PackReqProc(ClientData clientData, Tk_Window tkwin);
static void PackLostSlaveProc(ClientData clientData,
Tk_Window tkwin);
static const Tk_GeomMgr packerType = {
"pack", /* name */
PackReqProc, /* requestProc */
PackLostSlaveProc, /* lostSlaveProc */
};
/*
* Forward declarations for functions defined later in this file:
*/
static void ArrangePacking(ClientData clientData);
static int ConfigureSlaves(Tcl_Interp *interp, Tk_Window tkwin,
int objc, Tcl_Obj *const objv[]);
static void DestroyPacker(void *memPtr);
static Packer * GetPacker(Tk_Window tkwin);
static int PackAfter(Tcl_Interp *interp, Packer *prevPtr,
Packer *masterPtr, int objc,Tcl_Obj *const objv[]);
static void PackStructureProc(ClientData clientData,
XEvent *eventPtr);
static void Unlink(Packer *packPtr);
static int XExpansion(Packer *slavePtr, int cavityWidth);
static int YExpansion(Packer *slavePtr, int cavityHeight);
/*
*------------------------------------------------------------------------
*
* TkAppendPadAmount --
*
* This function generates a text value that describes one of the -padx,
* -pady, -ipadx, or -ipady configuration options. The text value
* generated is appended to the given Tcl_Obj.
*
* Results:
* None.
*
* Side effects:
* None.
*
*------------------------------------------------------------------------
*/
void
TkAppendPadAmount(
Tcl_Obj *bufferObj, /* The interpreter into which the result is
* written. */
const char *switchName, /* One of "padx", "pady", "ipadx" or
* "ipady" */
int halfSpace, /* The left or top padding amount */
int allSpace) /* The total amount of padding */
{
Tcl_Obj *padding[2];
if (halfSpace*2 == allSpace) {
Tcl_DictObjPut(NULL, bufferObj, Tcl_NewStringObj(switchName, -1),
Tcl_NewIntObj(halfSpace));
} else {
padding[0] = Tcl_NewIntObj(halfSpace);
padding[1] = Tcl_NewIntObj(allSpace - halfSpace);
Tcl_DictObjPut(NULL, bufferObj, Tcl_NewStringObj(switchName, -1),
Tcl_NewListObj(2, padding));
}
}
/*
*------------------------------------------------------------------------
*
* Tk_PackCmd --
*
* This function is invoked to process the "pack" Tcl command. See the
* user documentation for details on what it does.
*
* Results:
* A standard Tcl result.
*
* Side effects:
* See the user documentation.
*
*------------------------------------------------------------------------
*/
int
Tk_PackObjCmd(
ClientData clientData, /* Main window associated with interpreter. */
Tcl_Interp *interp, /* Current interpreter. */
int objc, /* Number of arguments. */
Tcl_Obj *const objv[]) /* Argument objects. */
{
Tk_Window tkwin = clientData;
const char *argv2;
static const char *const optionStrings[] = {
/* after, append, before and unpack are deprecated */
"after", "append", "before", "unpack",
"configure", "forget", "info", "propagate", "slaves", NULL };
enum options {
PACK_AFTER, PACK_APPEND, PACK_BEFORE, PACK_UNPACK,
PACK_CONFIGURE, PACK_FORGET, PACK_INFO, PACK_PROPAGATE, PACK_SLAVES };
int index;
if (objc >= 2) {
const char *string = Tcl_GetString(objv[1]);
if (string[0] == '.') {
return ConfigureSlaves(interp, tkwin, objc-1, objv+1);
}
}
if (objc < 3) {
Tcl_WrongNumArgs(interp, 1, objv, "option arg ?arg ...?");
return TCL_ERROR;
}
if (Tcl_GetIndexFromObjStruct(interp, objv[1], optionStrings,
sizeof(char *), "option", 0, &index) != TCL_OK) {
/*
* Call it again without the deprecated ones to get a proper error
* message. This works well since there can't be any ambiguity between
* deprecated and new options.
*/
Tcl_ResetResult(interp);
Tcl_GetIndexFromObjStruct(interp, objv[1], &optionStrings[4],
sizeof(char *), "option", 0, &index);
return TCL_ERROR;
}
argv2 = Tcl_GetString(objv[2]);
switch ((enum options) index) {
case PACK_AFTER: {
Packer *prevPtr;
Tk_Window tkwin2;
if (TkGetWindowFromObj(interp, tkwin, objv[2], &tkwin2) != TCL_OK) {
return TCL_ERROR;
}
prevPtr = GetPacker(tkwin2);
if (prevPtr->masterPtr == NULL) {
Tcl_SetObjResult(interp, Tcl_ObjPrintf(
"window \"%s\" isn't packed", argv2));
Tcl_SetErrorCode(interp, "TK", "PACK", "NOT_PACKED", NULL);
return TCL_ERROR;
}
return PackAfter(interp, prevPtr, prevPtr->masterPtr, objc-3, objv+3);
}
case PACK_APPEND: {
Packer *masterPtr;
register Packer *prevPtr;
Tk_Window tkwin2;
if (TkGetWindowFromObj(interp, tkwin, objv[2], &tkwin2) != TCL_OK) {
return TCL_ERROR;
}
masterPtr = GetPacker(tkwin2);
prevPtr = masterPtr->slavePtr;
if (prevPtr != NULL) {
while (prevPtr->nextPtr != NULL) {
prevPtr = prevPtr->nextPtr;
}
}
return PackAfter(interp, prevPtr, masterPtr, objc-3, objv+3);
}
case PACK_BEFORE: {
Packer *packPtr, *masterPtr;
register Packer *prevPtr;
Tk_Window tkwin2;
if (TkGetWindowFromObj(interp, tkwin, objv[2], &tkwin2) != TCL_OK) {
return TCL_ERROR;
}
packPtr = GetPacker(tkwin2);
if (packPtr->masterPtr == NULL) {
Tcl_SetObjResult(interp, Tcl_ObjPrintf(
"window \"%s\" isn't packed", argv2));
Tcl_SetErrorCode(interp, "TK", "PACK", "NOT_PACKED", NULL);
return TCL_ERROR;
}
masterPtr = packPtr->masterPtr;
prevPtr = masterPtr->slavePtr;
if (prevPtr == packPtr) {
prevPtr = NULL;
} else {
for ( ; ; prevPtr = prevPtr->nextPtr) {
if (prevPtr == NULL) {
Tcl_Panic("\"pack before\" couldn't find predecessor");
}
if (prevPtr->nextPtr == packPtr) {
break;
}
}
}
return PackAfter(interp, prevPtr, masterPtr, objc-3, objv+3);
}
case PACK_CONFIGURE:
if (argv2[0] != '.') {
Tcl_SetObjResult(interp, Tcl_ObjPrintf(
"bad argument \"%s\": must be name of window", argv2));
Tcl_SetErrorCode(interp, "TK", "VALUE", "WINDOW_PATH", NULL);
return TCL_ERROR;
}
return ConfigureSlaves(interp, tkwin, objc-2, objv+2);
case PACK_FORGET: {
Tk_Window slave;
Packer *slavePtr;
int i;
for (i = 2; i < objc; i++) {
if (TkGetWindowFromObj(interp, tkwin, objv[i], &slave) != TCL_OK) {
continue;
}
slavePtr = GetPacker(slave);
if ((slavePtr != NULL) && (slavePtr->masterPtr != NULL)) {
Tk_ManageGeometry(slave, NULL, NULL);
if (slavePtr->masterPtr->tkwin != Tk_Parent(slavePtr->tkwin)) {
Tk_UnmaintainGeometry(slavePtr->tkwin,
slavePtr->masterPtr->tkwin);
}
Unlink(slavePtr);
Tk_UnmapWindow(slavePtr->tkwin);
}
}
break;
}
case PACK_INFO: {
register Packer *slavePtr;
Tk_Window slave;
Tcl_Obj *infoObj;
if (objc != 3) {
Tcl_WrongNumArgs(interp, 2, objv, "window");
return TCL_ERROR;
}
if (TkGetWindowFromObj(interp, tkwin, objv[2], &slave) != TCL_OK) {
return TCL_ERROR;
}
slavePtr = GetPacker(slave);
if (slavePtr->masterPtr == NULL) {
Tcl_SetObjResult(interp, Tcl_ObjPrintf(
"window \"%s\" isn't packed", argv2));
Tcl_SetErrorCode(interp, "TK", "PACK", "NOT_PACKED", NULL);
return TCL_ERROR;
}
infoObj = Tcl_NewObj();
Tcl_DictObjPut(NULL, infoObj, Tcl_NewStringObj("-in", -1),
TkNewWindowObj(slavePtr->masterPtr->tkwin));
Tcl_DictObjPut(NULL, infoObj, Tcl_NewStringObj("-anchor", -1),
Tcl_NewStringObj(Tk_NameOfAnchor(slavePtr->anchor), -1));
Tcl_DictObjPut(NULL, infoObj, Tcl_NewStringObj("-expand", -1),
Tcl_NewBooleanObj(slavePtr->flags & EXPAND));
switch (slavePtr->flags & (FILLX|FILLY)) {
case 0:
Tcl_DictObjPut(NULL, infoObj, Tcl_NewStringObj("-fill", -1),
Tcl_NewStringObj("none", -1));
break;
case FILLX:
Tcl_DictObjPut(NULL, infoObj, Tcl_NewStringObj("-fill", -1),
Tcl_NewStringObj("x", -1));
break;
case FILLY:
Tcl_DictObjPut(NULL, infoObj, Tcl_NewStringObj("-fill", -1),
Tcl_NewStringObj("y", -1));
break;
case FILLX|FILLY:
Tcl_DictObjPut(NULL, infoObj, Tcl_NewStringObj("-fill", -1),
Tcl_NewStringObj("both", -1));
break;
}
TkAppendPadAmount(infoObj, "-ipadx", slavePtr->iPadX/2, slavePtr->iPadX);
TkAppendPadAmount(infoObj, "-ipady", slavePtr->iPadY/2, slavePtr->iPadY);
TkAppendPadAmount(infoObj, "-padx", slavePtr->padLeft,slavePtr->padX);
TkAppendPadAmount(infoObj, "-pady", slavePtr->padTop, slavePtr->padY);
Tcl_DictObjPut(NULL, infoObj, Tcl_NewStringObj("-side", -1),
Tcl_NewStringObj(sideNames[slavePtr->side], -1));
Tcl_SetObjResult(interp, infoObj);
break;
}
case PACK_PROPAGATE: {
Tk_Window master;
Packer *masterPtr;
int propagate;
if (objc > 4) {
Tcl_WrongNumArgs(interp, 2, objv, "window ?boolean?");
return TCL_ERROR;
}
if (TkGetWindowFromObj(interp, tkwin, objv[2], &master) != TCL_OK) {
return TCL_ERROR;
}
masterPtr = GetPacker(master);
if (objc == 3) {
Tcl_SetObjResult(interp,
Tcl_NewBooleanObj(!(masterPtr->flags & DONT_PROPAGATE)));
return TCL_OK;
}
if (Tcl_GetBooleanFromObj(interp, objv[3], &propagate) != TCL_OK) {
return TCL_ERROR;
}
if (propagate) {
/*
* If we have slaves, we need to register as geometry master.
*/
if (masterPtr->slavePtr != NULL) {
if (TkSetGeometryMaster(interp, master, "pack") != TCL_OK) {
return TCL_ERROR;
}
masterPtr->flags |= ALLOCED_MASTER;
}
masterPtr->flags &= ~DONT_PROPAGATE;
/*
* Repack the master to allow new geometry information to
* propagate upwards to the master's master.
*/
if (masterPtr->abortPtr != NULL) {
*masterPtr->abortPtr = 1;
}
if (!(masterPtr->flags & REQUESTED_REPACK)) {
masterPtr->flags |= REQUESTED_REPACK;
Tcl_DoWhenIdle(ArrangePacking, masterPtr);
}
} else {
if (masterPtr->flags & ALLOCED_MASTER) {
TkFreeGeometryMaster(master, "pack");
masterPtr->flags &= ~ALLOCED_MASTER;
}
masterPtr->flags |= DONT_PROPAGATE;
}
break;
}
case PACK_SLAVES: {
Tk_Window master;
Packer *masterPtr, *slavePtr;
Tcl_Obj *resultObj;
if (objc != 3) {
Tcl_WrongNumArgs(interp, 2, objv, "window");
return TCL_ERROR;
}
if (TkGetWindowFromObj(interp, tkwin, objv[2], &master) != TCL_OK) {
return TCL_ERROR;
}
resultObj = Tcl_NewObj();
masterPtr = GetPacker(master);
for (slavePtr = masterPtr->slavePtr; slavePtr != NULL;
slavePtr = slavePtr->nextPtr) {
Tcl_ListObjAppendElement(NULL, resultObj,
TkNewWindowObj(slavePtr->tkwin));
}
Tcl_SetObjResult(interp, resultObj);
break;
}
case PACK_UNPACK: {
Tk_Window tkwin2;
Packer *packPtr;
if (objc != 3) {
Tcl_WrongNumArgs(interp, 2, objv, "window");
return TCL_ERROR;
}
if (TkGetWindowFromObj(interp, tkwin, objv[2], &tkwin2) != TCL_OK) {
return TCL_ERROR;
}
packPtr = GetPacker(tkwin2);
if ((packPtr != NULL) && (packPtr->masterPtr != NULL)) {
Tk_ManageGeometry(tkwin2, NULL, NULL);
if (packPtr->masterPtr->tkwin != Tk_Parent(packPtr->tkwin)) {
Tk_UnmaintainGeometry(packPtr->tkwin,
packPtr->masterPtr->tkwin);
}
Unlink(packPtr);
Tk_UnmapWindow(packPtr->tkwin);
}
break;
}
}
return TCL_OK;
}
/*
*------------------------------------------------------------------------
*
* PackReqProc --
*
* This function is invoked by Tk_GeometryRequest for windows managed by
* the packer.
*
* Results:
* None.
*
* Side effects:
* Arranges for tkwin, and all its managed siblings, to be re-packed at
* the next idle point.
*
*------------------------------------------------------------------------
*/
/* ARGSUSED */
static void
PackReqProc(
ClientData clientData, /* Packer's information about window that got
* new preferred geometry. */
Tk_Window tkwin) /* Other Tk-related information about the
* window. */
{
register Packer *packPtr = clientData;
packPtr = packPtr->masterPtr;
if (!(packPtr->flags & REQUESTED_REPACK)) {
packPtr->flags |= REQUESTED_REPACK;
Tcl_DoWhenIdle(ArrangePacking, packPtr);
}
}
/*
*------------------------------------------------------------------------
*
* PackLostSlaveProc --
*
* This function is invoked by Tk whenever some other geometry claims
* control over a slave that used to be managed by us.
*
* Results:
* None.
*
* Side effects:
* Forgets all packer-related information about the slave.
*
*------------------------------------------------------------------------
*/
/* ARGSUSED */
static void
PackLostSlaveProc(
ClientData clientData, /* Packer structure for slave window that was
* stolen away. */
Tk_Window tkwin) /* Tk's handle for the slave window. */
{
register Packer *slavePtr = clientData;
if (slavePtr->masterPtr->tkwin != Tk_Parent(slavePtr->tkwin)) {
Tk_UnmaintainGeometry(slavePtr->tkwin, slavePtr->masterPtr->tkwin);
}
Unlink(slavePtr);
Tk_UnmapWindow(slavePtr->tkwin);
}
/*
*------------------------------------------------------------------------
*
* ArrangePacking --
*
* This function is invoked (using the Tcl_DoWhenIdle mechanism) to
* re-layout a set of windows managed by the packer. It is invoked at
* idle time so that a series of packer requests can be merged into a
* single layout operation.
*
* Results:
* None.
*
* Side effects:
* The packed slaves of masterPtr may get resized or moved.
*
*------------------------------------------------------------------------
*/
static void
ArrangePacking(
ClientData clientData) /* Structure describing master whose slaves
* are to be re-layed out. */
{
register Packer *masterPtr = clientData;
register Packer *slavePtr;
int cavityX, cavityY, cavityWidth, cavityHeight;
/* These variables keep track of the
* as-yet-unallocated space remaining in the
* middle of the master window. */
int frameX, frameY, frameWidth, frameHeight;
/* These variables keep track of the frame
* allocated to the current window. */
int x, y, width, height; /* These variables are used to hold the actual
* geometry of the current window. */
int abort; /* May get set to non-zero to abort this
* repacking operation. */
int borderX, borderY;
int borderTop, borderBtm;
int borderLeft, borderRight;
int maxWidth, maxHeight, tmp;
masterPtr->flags &= ~REQUESTED_REPACK;
/*
* If the master has no slaves anymore, then don't do anything at all:
* just leave the master's size as-is.
*/
if (masterPtr->slavePtr == NULL) {
return;
}
/*
* Abort any nested call to ArrangePacking for this window, since we'll do
* everything necessary here, and set up so this call can be aborted if
* necessary.
*/
if (masterPtr->abortPtr != NULL) {
*masterPtr->abortPtr = 1;
}
masterPtr->abortPtr = &abort;
abort = 0;
Tcl_Preserve(masterPtr);
/*
* Pass #1: scan all the slaves to figure out the total amount of space
* needed. Two separate width and height values are computed:
*
* width - Holds the sum of the widths (plus padding) of all the
* slaves seen so far that were packed LEFT or RIGHT.
* height - Holds the sum of the heights (plus padding) of all the
* slaves seen so far that were packed TOP or BOTTOM.
*
* maxWidth - Gradually builds up the width needed by the master to
* just barely satisfy all the slave's needs. For each
* slave, the code computes the width needed for all the
* slaves so far and updates maxWidth if the new value is
* greater.
* maxHeight - Same as maxWidth, except keeps height info.
*/
width = maxWidth = Tk_InternalBorderLeft(masterPtr->tkwin) +
Tk_InternalBorderRight(masterPtr->tkwin);
height = maxHeight = Tk_InternalBorderTop(masterPtr->tkwin) +
Tk_InternalBorderBottom(masterPtr->tkwin);
for (slavePtr = masterPtr->slavePtr; slavePtr != NULL;
slavePtr = slavePtr->nextPtr) {
if ((slavePtr->side == TOP) || (slavePtr->side == BOTTOM)) {
tmp = Tk_ReqWidth(slavePtr->tkwin) + slavePtr->doubleBw
+ slavePtr->padX + slavePtr->iPadX + width;
if (tmp > maxWidth) {
maxWidth = tmp;
}
height += Tk_ReqHeight(slavePtr->tkwin) + slavePtr->doubleBw
+ slavePtr->padY + slavePtr->iPadY;
} else {
tmp = Tk_ReqHeight(slavePtr->tkwin) + slavePtr->doubleBw
+ slavePtr->padY + slavePtr->iPadY + height;
if (tmp > maxHeight) {
maxHeight = tmp;
}
width += Tk_ReqWidth(slavePtr->tkwin) + slavePtr->doubleBw
+ slavePtr->padX + slavePtr->iPadX;
}
}
if (width > maxWidth) {
maxWidth = width;
}
if (height > maxHeight) {
maxHeight = height;
}
if (maxWidth < Tk_MinReqWidth(masterPtr->tkwin)) {
maxWidth = Tk_MinReqWidth(masterPtr->tkwin);
}
if (maxHeight < Tk_MinReqHeight(masterPtr->tkwin)) {
maxHeight = Tk_MinReqHeight(masterPtr->tkwin);
}
/*
* If the total amount of space needed in the master window has changed,
* and if we're propagating geometry information, then notify the next
* geometry manager up and requeue ourselves to start again after the
* master has had a chance to resize us.
*/
if (((maxWidth != Tk_ReqWidth(masterPtr->tkwin))
|| (maxHeight != Tk_ReqHeight(masterPtr->tkwin)))
&& !(masterPtr->flags & DONT_PROPAGATE)) {
Tk_GeometryRequest(masterPtr->tkwin, maxWidth, maxHeight);
masterPtr->flags |= REQUESTED_REPACK;
Tcl_DoWhenIdle(ArrangePacking, masterPtr);
goto done;
}
/*
* Pass #2: scan the slaves a second time assigning new sizes. The
* "cavity" variables keep track of the unclaimed space in the cavity of
* the window; this shrinks inward as we allocate windows around the
* edges. The "frame" variables keep track of the space allocated to the
* current window and its frame. The current window is then placed
* somewhere inside the frame, depending on anchor.
*/
cavityX = x = Tk_InternalBorderLeft(masterPtr->tkwin);
cavityY = y = Tk_InternalBorderTop(masterPtr->tkwin);
cavityWidth = Tk_Width(masterPtr->tkwin) -
Tk_InternalBorderLeft(masterPtr->tkwin) -
Tk_InternalBorderRight(masterPtr->tkwin);
cavityHeight = Tk_Height(masterPtr->tkwin) -
Tk_InternalBorderTop(masterPtr->tkwin) -
Tk_InternalBorderBottom(masterPtr->tkwin);
for (slavePtr = masterPtr->slavePtr; slavePtr != NULL;
slavePtr = slavePtr->nextPtr) {
if ((slavePtr->side == TOP) || (slavePtr->side == BOTTOM)) {
frameWidth = cavityWidth;
frameHeight = Tk_ReqHeight(slavePtr->tkwin) + slavePtr->doubleBw
+ slavePtr->padY + slavePtr->iPadY;
if (slavePtr->flags & EXPAND) {
frameHeight += YExpansion(slavePtr, cavityHeight);
}
cavityHeight -= frameHeight;
if (cavityHeight < 0) {
frameHeight += cavityHeight;
cavityHeight = 0;
}
frameX = cavityX;
if (slavePtr->side == TOP) {
frameY = cavityY;
cavityY += frameHeight;
} else {
frameY = cavityY + cavityHeight;
}
} else {
frameHeight = cavityHeight;
frameWidth = Tk_ReqWidth(slavePtr->tkwin) + slavePtr->doubleBw
+ slavePtr->padX + slavePtr->iPadX;
if (slavePtr->flags & EXPAND) {
frameWidth += XExpansion(slavePtr, cavityWidth);
}
cavityWidth -= frameWidth;
if (cavityWidth < 0) {
frameWidth += cavityWidth;
cavityWidth = 0;
}
frameY = cavityY;
if (slavePtr->side == LEFT) {
frameX = cavityX;
cavityX += frameWidth;
} else {
frameX = cavityX + cavityWidth;
}
}
/*
* Now that we've got the size of the frame for the window, compute
* the window's actual size and location using the fill, padding, and
* frame factors. The variables "borderX" and "borderY" are used to
* handle the differences between old-style packing and the new style
* (in old-style, iPadX and iPadY are always zero and padding is
* completely ignored except when computing frame size).
*/
if (slavePtr->flags & OLD_STYLE) {
borderX = borderY = 0;
borderTop = borderBtm = 0;
borderLeft = borderRight = 0;
} else {
borderX = slavePtr->padX;
borderY = slavePtr->padY;
borderLeft = slavePtr->padLeft;
borderRight = borderX - borderLeft;
borderTop = slavePtr->padTop;
borderBtm = borderY - borderTop;
}
width = Tk_ReqWidth(slavePtr->tkwin) + slavePtr->doubleBw
+ slavePtr->iPadX;
if ((slavePtr->flags & FILLX)
|| (width > (frameWidth - borderX))) {
width = frameWidth - borderX;
}
height = Tk_ReqHeight(slavePtr->tkwin) + slavePtr->doubleBw
+ slavePtr->iPadY;
if ((slavePtr->flags & FILLY)
|| (height > (frameHeight - borderY))) {
height = frameHeight - borderY;
}
switch (slavePtr->anchor) {
case TK_ANCHOR_N:
x = frameX + (borderLeft + frameWidth - width - borderRight)/2;
y = frameY + borderTop;
break;
case TK_ANCHOR_NE:
x = frameX + frameWidth - width - borderRight;
y = frameY + borderTop;
break;
case TK_ANCHOR_E:
x = frameX + frameWidth - width - borderRight;
y = frameY + (borderTop + frameHeight - height - borderBtm)/2;
break;
case TK_ANCHOR_SE:
x = frameX + frameWidth - width - borderRight;
y = frameY + frameHeight - height - borderBtm;
break;
case TK_ANCHOR_S:
x = frameX + (borderLeft + frameWidth - width - borderRight)/2;
y = frameY + frameHeight - height - borderBtm;
break;
case TK_ANCHOR_SW:
x = frameX + borderLeft;
y = frameY + frameHeight - height - borderBtm;
break;
case TK_ANCHOR_W:
x = frameX + borderLeft;
y = frameY + (borderTop + frameHeight - height - borderBtm)/2;
break;
case TK_ANCHOR_NW:
x = frameX + borderLeft;
y = frameY + borderTop;
break;
case TK_ANCHOR_CENTER:
x = frameX + (borderLeft + frameWidth - width - borderRight)/2;
y = frameY + (borderTop + frameHeight - height - borderBtm)/2;
break;
default:
Tcl_Panic("bad frame factor in ArrangePacking");
}
width -= slavePtr->doubleBw;
height -= slavePtr->doubleBw;
/*
* The final step is to set the position, size, and mapped/unmapped
* state of the slave. If the slave is a child of the master, then do
* this here. Otherwise let Tk_MaintainGeometry do the work.
*/
if (masterPtr->tkwin == Tk_Parent(slavePtr->tkwin)) {
if ((width <= 0) || (height <= 0)) {
Tk_UnmapWindow(slavePtr->tkwin);
} else {
if ((x != Tk_X(slavePtr->tkwin))
|| (y != Tk_Y(slavePtr->tkwin))
|| (width != Tk_Width(slavePtr->tkwin))
|| (height != Tk_Height(slavePtr->tkwin))) {
Tk_MoveResizeWindow(slavePtr->tkwin, x, y, width, height);
}
if (abort) {
goto done;
}
/*
* Don't map the slave if the master isn't mapped: wait until
* the master gets mapped later.
*/
if (Tk_IsMapped(masterPtr->tkwin)) {
Tk_MapWindow(slavePtr->tkwin);
}
}
} else {
if ((width <= 0) || (height <= 0)) {
Tk_UnmaintainGeometry(slavePtr->tkwin, masterPtr->tkwin);
Tk_UnmapWindow(slavePtr->tkwin);
} else {
Tk_MaintainGeometry(slavePtr->tkwin, masterPtr->tkwin,
x, y, width, height);
}
}
/*
* Changes to the window's structure could cause almost anything to
* happen, including deleting the parent or child. If this happens,
* we'll be told to abort.
*/
if (abort) {
goto done;
}
}
done:
masterPtr->abortPtr = NULL;
Tcl_Release(masterPtr);
}
/*
*----------------------------------------------------------------------
*
* XExpansion --
*
* Given a list of packed slaves, the first of which is packed on the
* left or right and is expandable, compute how much to expand the child.
*
* Results:
* The return value is the number of additional pixels to give to the
* child.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
static int
XExpansion(
register Packer *slavePtr, /* First in list of remaining slaves. */
int cavityWidth) /* Horizontal space left for all remaining
* slaves. */
{
int numExpand, minExpand, curExpand;
int childWidth;
/*
* This function is tricky because windows packed top or bottom can be
* interspersed among expandable windows packed left or right. Scan
* through the list, keeping a running sum of the widths of all left and
* right windows (actually, count the cavity space not allocated) and a
* running count of all expandable left and right windows. At each top or
* bottom window, and at the end of the list, compute the expansion factor
* that seems reasonable at that point. Return the smallest factor seen at
* any of these points.
*/
minExpand = cavityWidth;
numExpand = 0;
for ( ; slavePtr != NULL; slavePtr = slavePtr->nextPtr) {
childWidth = Tk_ReqWidth(slavePtr->tkwin) + slavePtr->doubleBw
+ slavePtr->padX + slavePtr->iPadX;
if ((slavePtr->side == TOP) || (slavePtr->side == BOTTOM)) {
if (numExpand) {
curExpand = (cavityWidth - childWidth)/numExpand;
if (curExpand < minExpand) {
minExpand = curExpand;
}
}
} else {
cavityWidth -= childWidth;
if (slavePtr->flags & EXPAND) {
numExpand++;
}
}
}
if (numExpand) {
curExpand = cavityWidth/numExpand;
if (curExpand < minExpand) {
minExpand = curExpand;
}
}
return (minExpand < 0) ? 0 : minExpand;
}
/*
*----------------------------------------------------------------------
*
* YExpansion --
*
* Given a list of packed slaves, the first of which is packed on the top
* or bottom and is expandable, compute how much to expand the child.
*
* Results:
* The return value is the number of additional pixels to give to the
* child.
*
* Side effects:
* None.
*
*----------------------------------------------------------------------
*/
static int
YExpansion(
register Packer *slavePtr, /* First in list of remaining slaves. */
int cavityHeight) /* Vertical space left for all remaining
* slaves. */
{
int numExpand, minExpand, curExpand;
int childHeight;
/*
* See comments for XExpansion.
*/
minExpand = cavityHeight;
numExpand = 0;
for ( ; slavePtr != NULL; slavePtr = slavePtr->nextPtr) {
childHeight = Tk_ReqHeight(slavePtr->tkwin) + slavePtr->doubleBw
+ slavePtr->padY + slavePtr->iPadY;
if ((slavePtr->side == LEFT) || (slavePtr->side == RIGHT)) {
if (numExpand) {
curExpand = (cavityHeight - childHeight)/numExpand;
if (curExpand < minExpand) {
minExpand = curExpand;
}
}
} else {
cavityHeight -= childHeight;
if (slavePtr->flags & EXPAND) {
numExpand++;
}
}
}
if (numExpand) {