/* * ttkLayout.c -- * * Generic layout processing. * * Copyright (c) 2003 Joe English. Freely redistributable. * * $Id: ttkLayout.c,v 1.9 2007/11/18 17:28:02 jenglish Exp $ */ #include #include #include "ttkThemeInt.h" #define MAX(a,b) (a > b ? a : b) #define MIN(a,b) (a < b ? a : b) /*------------------------------------------------------------------------ * +++ Ttk_Box and Ttk_Padding utilities: */ Ttk_Box Ttk_MakeBox(int x, int y, int width, int height) { Ttk_Box b; b.x = x; b.y = y; b.width = width; b.height = height; return b; } int Ttk_BoxContains(Ttk_Box box, int x, int y) { return box.x <= x && x < box.x + box.width && box.y <= y && y < box.y + box.height; } Tcl_Obj * Ttk_NewBoxObj(Ttk_Box box) { Tcl_Obj *result[4]; result[0] = Tcl_NewIntObj(box.x); result[1] = Tcl_NewIntObj(box.y); result[2] = Tcl_NewIntObj(box.width); result[3] = Tcl_NewIntObj(box.height); return Tcl_NewListObj(4, result); } /* * packTop, packBottom, packLeft, packRight -- * Carve out a parcel of the specified height (resp width) * from the specified cavity. * * Returns: * The new parcel. * * Side effects: * Adjust the cavity. */ static Ttk_Box packTop(Ttk_Box *cavity, int height) { Ttk_Box parcel; height = MIN(height, cavity->height); parcel = Ttk_MakeBox(cavity->x, cavity->y, cavity->width, height); cavity->y += height; cavity->height -= height; return parcel; } static Ttk_Box packBottom(Ttk_Box *cavity, int height) { height = MIN(height, cavity->height); cavity->height -= height; return Ttk_MakeBox( cavity->x, cavity->y + cavity->height, cavity->width, height); } static Ttk_Box packLeft(Ttk_Box *cavity, int width) { Ttk_Box parcel; width = MIN(width, cavity->width); parcel = Ttk_MakeBox(cavity->x, cavity->y, width,cavity->height); cavity->x += width; cavity->width -= width; return parcel; } static Ttk_Box packRight(Ttk_Box *cavity, int width) { width = MIN(width, cavity->width); cavity->width -= width; return Ttk_MakeBox(cavity->x + cavity->width, cavity->y, width, cavity->height); } /* * Ttk_PackBox -- * Carve out a parcel of the specified size on the specified side * in the specified cavity. * * Returns: * The new parcel. * * Side effects: * Adjust the cavity. */ Ttk_Box Ttk_PackBox(Ttk_Box *cavity, int width, int height, Ttk_Side side) { switch (side) { default: case TTK_SIDE_TOP: return packTop(cavity, height); case TTK_SIDE_BOTTOM: return packBottom(cavity, height); case TTK_SIDE_LEFT: return packLeft(cavity, width); case TTK_SIDE_RIGHT: return packRight(cavity, width); } } /* * Ttk_PadBox -- * Shrink a box by the specified padding amount. */ Ttk_Box Ttk_PadBox(Ttk_Box b, Ttk_Padding p) { b.x += p.left; b.y += p.top; b.width -= (p.left + p.right); b.height -= (p.top + p.bottom); if (b.width <= 0) b.width = 1; if (b.height <= 0) b.height = 1; return b; } /* * Ttk_ExpandBox -- * Grow a box by the specified padding amount. */ Ttk_Box Ttk_ExpandBox(Ttk_Box b, Ttk_Padding p) { b.x -= p.left; b.y -= p.top; b.width += (p.left + p.right); b.height += (p.top + p.bottom); return b; } /* * Ttk_StickBox -- * Place a box of size w * h in the specified parcel, * according to the specified sticky bits. */ Ttk_Box Ttk_StickBox(Ttk_Box parcel, int width, int height, unsigned sticky) { int dx, dy; if (width > parcel.width) width = parcel.width; if (height > parcel.height) height = parcel.height; dx = parcel.width - width; dy = parcel.height - height; /* * X coordinate adjustment: */ switch (sticky & (TTK_STICK_W | TTK_STICK_E)) { case TTK_STICK_W | TTK_STICK_E: /* no-op -- use entire parcel width */ break; case TTK_STICK_W: parcel.width = width; break; case TTK_STICK_E: parcel.x += dx; parcel.width = width; break; default : parcel.x += dx / 2; parcel.width = width; break; } /* * Y coordinate adjustment: */ switch (sticky & (TTK_STICK_N | TTK_STICK_S)) { case TTK_STICK_N | TTK_STICK_S: /* use entire parcel height */ break; case TTK_STICK_N: parcel.height = height; break; case TTK_STICK_S: parcel.y += dy; parcel.height = height; break; default : parcel.y += dy / 2; parcel.height = height; break; } return parcel; } /* * AnchorToSticky -- * Convert a Tk_Anchor enum to a TTK_STICKY bitmask. */ static Ttk_Sticky AnchorToSticky(Tk_Anchor anchor) { switch (anchor) { case TK_ANCHOR_N: return TTK_STICK_N; case TK_ANCHOR_NE: return TTK_STICK_N | TTK_STICK_E; case TK_ANCHOR_E: return TTK_STICK_E; case TK_ANCHOR_SE: return TTK_STICK_S | TTK_STICK_E; case TK_ANCHOR_S: return TTK_STICK_S; case TK_ANCHOR_SW: return TTK_STICK_S | TTK_STICK_W; case TK_ANCHOR_W: return TTK_STICK_W; case TK_ANCHOR_NW: return TTK_STICK_N | TTK_STICK_W; default: case TK_ANCHOR_CENTER: return 0; } } /* * Ttk_AnchorBox -- * Place a box of size w * h in the specified parcel, * according to the specified anchor. */ Ttk_Box Ttk_AnchorBox(Ttk_Box parcel, int width, int height, Tk_Anchor anchor) { return Ttk_StickBox(parcel, width, height, AnchorToSticky(anchor)); } /* * Ttk_PlaceBox -- * Combine Ttk_PackBox() and Ttk_StickBox(). */ Ttk_Box Ttk_PlaceBox( Ttk_Box *cavity, int width, int height, Ttk_Side side, unsigned sticky) { return Ttk_StickBox( Ttk_PackBox(cavity, width, height, side), width, height, sticky); } /* * Ttk_PositionBox -- * Pack and stick a box according to PositionSpec flags. */ MODULE_SCOPE Ttk_Box Ttk_PositionBox(Ttk_Box *cavity, int width, int height, Ttk_PositionSpec flags) { Ttk_Box parcel; if (flags & TTK_EXPAND) parcel = *cavity; else if (flags & TTK_PACK_TOP) parcel = packTop(cavity, height); else if (flags & TTK_PACK_LEFT) parcel = packLeft(cavity, width); else if (flags & TTK_PACK_BOTTOM) parcel = packBottom(cavity, height); else if (flags & TTK_PACK_RIGHT) parcel = packRight(cavity, width); else parcel = *cavity; return Ttk_StickBox(parcel, width, height, flags); } /* * TTKInitPadding -- * Common factor of Ttk_GetPaddingFromObj and Ttk_GetBorderFromObj. * Initializes Ttk_Padding record, supplying default values * for missing entries. */ static void TTKInitPadding(int padc, int pixels[4], Ttk_Padding *pad) { switch (padc) { case 0: pixels[0] = 0; /*FALLTHRU*/ case 1: pixels[1] = pixels[0]; /*FALLTHRU*/ case 2: pixels[2] = pixels[0]; /*FALLTHRU*/ case 3: pixels[3] = pixels[1]; /*FALLTHRU*/ } pad->left = (short)pixels[0]; pad->top = (short)pixels[1]; pad->right = (short)pixels[2]; pad->bottom = (short)pixels[3]; } /* * Ttk_GetPaddingFromObj -- * * Extract a padding specification from a Tcl_Obj * scaled * to work with a particular Tk_Window. * * The string representation of a Ttk_Padding is a list * of one to four Tk_Pixel specifications, corresponding * to the left, top, right, and bottom padding. * * If the 'bottom' (fourth) element is missing, it defaults to 'top'. * If the 'right' (third) element is missing, it defaults to 'left'. * If the 'top' (second) element is missing, it defaults to 'left'. * * The internal representation is a Tcl_ListObj containing * one to four Tk_PixelObj objects. * * Returns: * TCL_OK or TCL_ERROR. In the latter case an error message is * left in 'interp' and '*paddingPtr' is set to all-zeros. * Otherwise, *paddingPtr is filled in with the padding specification. * */ int Ttk_GetPaddingFromObj( Tcl_Interp *interp, Tk_Window tkwin, Tcl_Obj *objPtr, Ttk_Padding *pad) { Tcl_Obj **padv; int i, padc, pixels[4]; if (TCL_OK != Tcl_ListObjGetElements(interp, objPtr, &padc, &padv)) { goto error; } if (padc > 4) { if (interp) { Tcl_ResetResult(interp); Tcl_AppendResult(interp, "Wrong #elements in padding spec", NULL); } goto error; } for (i=0; i < padc; ++i) { if (Tk_GetPixelsFromObj(interp, tkwin, padv[i], &pixels[i]) != TCL_OK) { goto error; } } TTKInitPadding(padc, pixels, pad); return TCL_OK; error: pad->left = pad->top = pad->right = pad->bottom = 0; return TCL_ERROR; } /* Ttk_GetBorderFromObj -- * Same as Ttk_GetPaddingFromObj, except padding is a list of integers * instead of Tk_Pixel specifications. Does not require a Tk_Window * parameter. * */ int Ttk_GetBorderFromObj(Tcl_Interp *interp, Tcl_Obj *objPtr, Ttk_Padding *pad) { Tcl_Obj **padv; int i, padc, pixels[4]; if (TCL_OK != Tcl_ListObjGetElements(interp, objPtr, &padc, &padv)) { goto error; } if (padc > 4) { if (interp) { Tcl_ResetResult(interp); Tcl_AppendResult(interp, "Wrong #elements in border spec", NULL); } goto error; } for (i=0; i < padc; ++i) { if (Tcl_GetIntFromObj(interp, padv[i], &pixels[i]) != TCL_OK) { goto error; } } TTKInitPadding(padc, pixels, pad); return TCL_OK; error: pad->left = pad->top = pad->right = pad->bottom = 0; return TCL_ERROR; } /* * Ttk_MakePadding -- * Return an initialized Ttk_Padding structure. */ Ttk_Padding Ttk_MakePadding(short left, short top, short right, short bottom) { Ttk_Padding pad; pad.left = left; pad.top = top; pad.right = right; pad.bottom = bottom; return pad; } /* * Ttk_UniformPadding -- * Returns a uniform Ttk_Padding structure, with the same * border width on all sides. */ Ttk_Padding Ttk_UniformPadding(short borderWidth) { Ttk_Padding pad; pad.left = pad.top = pad.right = pad.bottom = borderWidth; return pad; } /* * Ttk_AddPadding -- * Combine two padding records. */ Ttk_Padding Ttk_AddPadding(Ttk_Padding p1, Ttk_Padding p2) { p1.left += p2.left; p1.top += p2.top; p1.right += p2.right; p1.bottom += p2.bottom; return p1; } /* Ttk_RelievePadding -- * Add an extra n pixels of padding according to specified relief. * This may be used in element geometry procedures to simulate * a "pressed-in" look for pushbuttons. */ Ttk_Padding Ttk_RelievePadding(Ttk_Padding padding, int relief, int n) { switch (relief) { case TK_RELIEF_RAISED: padding.right += n; padding.bottom += n; break; case TK_RELIEF_SUNKEN: /* shift */ padding.left += n; padding.top += n; break; default: { int h1 = n/2, h2 = h1 + n % 2; padding.left += h1; padding.top += h1; padding.right += h2; padding.bottom += h2; break; } } return padding; } /* * Ttk_GetStickyFromObj -- * Returns a stickiness specification from the specified Tcl_Obj*, * consisting of any combination of n, s, e, and w. * * Returns: TCL_OK if objPtr holds a valid stickiness specification, * otherwise TCL_ERROR. interp is used for error reporting if non-NULL. * */ int Ttk_GetStickyFromObj( Tcl_Interp *interp, Tcl_Obj *objPtr, Ttk_Sticky *result) { const char *string = Tcl_GetString(objPtr); Ttk_Sticky sticky = 0; char c; while ((c = *string++) != '\0') { switch (c) { case 'w': case 'W': sticky |= TTK_STICK_W; break; case 'e': case 'E': sticky |= TTK_STICK_E; break; case 'n': case 'N': sticky |= TTK_STICK_N; break; case 's': case 'S': sticky |= TTK_STICK_S; break; default: if (interp) { Tcl_ResetResult(interp); Tcl_AppendResult(interp, "Bad -sticky specification ", Tcl_GetString(objPtr), NULL); } return TCL_ERROR; } } *result = sticky; return TCL_OK; } /* Ttk_NewStickyObj -- * Construct a new Tcl_Obj * containing a stickiness specification. */ Tcl_Obj *Ttk_NewStickyObj(Ttk_Sticky sticky) { char buf[5]; char *p = buf; if (sticky & TTK_STICK_N) *p++ = 'n'; if (sticky & TTK_STICK_S) *p++ = 's'; if (sticky & TTK_STICK_W) *p++ = 'w'; if (sticky & TTK_STICK_E) *p++ = 'e'; *p = '\0'; return Tcl_NewStringObj(buf, p - buf); } /*------------------------------------------------------------------------ * +++ Layout nodes. */ struct Ttk_LayoutNode_ { unsigned flags; /* Packing and sticky flags */ Ttk_ElementImpl element; /* Element implementation */ Ttk_State state; /* Current state */ Ttk_Box parcel; /* allocated parcel */ Ttk_LayoutNode *next, *child; }; static Ttk_LayoutNode *Ttk_NewLayoutNode(unsigned flags, Ttk_ElementImpl element) { Ttk_LayoutNode *node = (Ttk_LayoutNode*)ckalloc(sizeof(Ttk_LayoutNode)); node->flags = flags; node->element = element; node->state = 0u; node->next = node->child = 0; /* parcel uninitialized */ return node; } static void Ttk_FreeLayoutNode(Ttk_LayoutNode *node) { while (node) { Ttk_LayoutNode *next = node->next; Ttk_FreeLayoutNode(node->child); ckfree((ClientData)node); node = next; } } /*------------------------------------------------------------------------ * +++ Layout templates. */ struct Ttk_TemplateNode_ { char *name; unsigned flags; struct Ttk_TemplateNode_ *next, *child; }; static Ttk_TemplateNode *Ttk_NewTemplateNode(const char *name, unsigned flags) { Ttk_TemplateNode *op = (Ttk_TemplateNode*)ckalloc(sizeof(*op)); op->name = ckalloc(strlen(name) + 1); strcpy(op->name, name); op->flags = flags; op->next = op->child = 0; return op; } void Ttk_FreeLayoutTemplate(Ttk_LayoutTemplate op) { while (op) { Ttk_LayoutTemplate next = op->next; Ttk_FreeLayoutTemplate(op->child); ckfree(op->name); ckfree((ClientData)op); op = next; } } /* InstantiateLayout -- * Create a layout tree from a template. */ static Ttk_LayoutNode * Ttk_InstantiateLayout(Ttk_Theme theme, Ttk_TemplateNode *op) { Ttk_ElementImpl elementImpl = Ttk_GetElement(theme, op->name); Ttk_LayoutNode *node = Ttk_NewLayoutNode(op->flags, elementImpl); if (op->next) { node->next = Ttk_InstantiateLayout(theme,op->next); } if (op->child) { node->child = Ttk_InstantiateLayout(theme,op->child); } return node; } /* * Ttk_ParseLayoutTemplate -- * Convert a Tcl list into a layout template. * * Syntax: * layoutSpec ::= { elementName ?-option value ...? }+ */ /* NB: This must match bit definitions TTK_PACK_LEFT etc. */ static const char *packSideStrings[] = { "left", "right", "top", "bottom", NULL }; Ttk_LayoutTemplate Ttk_ParseLayoutTemplate(Tcl_Interp *interp, Tcl_Obj *objPtr) { enum { OP_SIDE, OP_STICKY, OP_EXPAND, OP_BORDER, OP_UNIT, OP_CHILDREN }; static const char *optStrings[] = { "-side", "-sticky", "-expand", "-border", "-unit", "-children", 0 }; int i = 0, objc; Tcl_Obj **objv; Ttk_TemplateNode *head = 0, *tail = 0; if (Tcl_ListObjGetElements(interp, objPtr, &objc, &objv) != TCL_OK) return 0; while (i < objc) { char *elementName = Tcl_GetString(objv[i]); unsigned flags = 0x0, sticky = TTK_FILL_BOTH; Tcl_Obj *childSpec = 0; /* * Parse options: */ ++i; while (i < objc) { const char *optName = Tcl_GetString(objv[i]); int option, value; if (optName[0] != '-') break; if (Tcl_GetIndexFromObj( interp, objv[i], optStrings, "option", 0, &option) != TCL_OK) { goto error; } if (++i >= objc) { Tcl_ResetResult(interp); Tcl_AppendResult(interp, "Missing value for option ",Tcl_GetString(objv[i-1]), NULL); goto error; } switch (option) { case OP_SIDE: /* <> */ if (Tcl_GetIndexFromObj(interp, objv[i], packSideStrings, "side", 0, &value) != TCL_OK) { goto error; } flags |= (TTK_PACK_LEFT << value); break; case OP_STICKY: if (Ttk_GetStickyFromObj(interp,objv[i],&sticky) != TCL_OK) goto error; break; case OP_EXPAND: if (Tcl_GetBooleanFromObj(interp,objv[i],&value) != TCL_OK) goto error; if (value) flags |= TTK_EXPAND; break; case OP_BORDER: if (Tcl_GetBooleanFromObj(interp,objv[i],&value) != TCL_OK) goto error; if (value) flags |= TTK_BORDER; break; case OP_UNIT: if (Tcl_GetBooleanFromObj(interp,objv[i],&value) != TCL_OK) goto error; if (value) flags |= TTK_UNIT; break; case OP_CHILDREN: childSpec = objv[i]; break; } ++i; } /* * Build new node: */ if (tail) { tail->next = Ttk_NewTemplateNode(elementName, flags | sticky); tail = tail->next; } else { head = tail = Ttk_NewTemplateNode(elementName, flags | sticky); } if (childSpec) { tail->child = Ttk_ParseLayoutTemplate(interp, childSpec); if (!tail->child) { goto error; } } } return head; error: Ttk_FreeLayoutTemplate(head); return 0; } /* Ttk_BuildLayoutTemplate -- * Build a layout template tree from a statically defined * Ttk_LayoutSpec array. */ Ttk_LayoutTemplate Ttk_BuildLayoutTemplate(Ttk_LayoutSpec spec) { Ttk_TemplateNode *first = 0, *last = 0; for ( ; !(spec->opcode & TTK_LAYOUT_END) ; ++spec) { if (spec->elementName) { Ttk_TemplateNode *node = Ttk_NewTemplateNode(spec->elementName, spec->opcode); if (last) { last->next = node; } else { first = node; } last = node; } if (spec->opcode & TTK_CHILDREN) { int depth = 1; last->child = Ttk_BuildLayoutTemplate(spec+1); /* Skip to end of group: */ while (depth) { ++spec; if (spec->opcode & TTK_CHILDREN) { ++depth; } if (spec->opcode & TTK_LAYOUT_END) { --depth; } } } } /* for */ return first; } Tcl_Obj *Ttk_UnparseLayoutTemplate(Ttk_TemplateNode *node) { Tcl_Obj *result = Tcl_NewListObj(0,0); # define APPENDOBJ(obj) Tcl_ListObjAppendElement(NULL, result, obj) # define APPENDSTR(str) APPENDOBJ(Tcl_NewStringObj(str,-1)) while (node) { unsigned flags = node->flags; APPENDSTR(node->name); /* Back-compute -side. <> * @@@ NOTES: Ick. */ if (flags & TTK_EXPAND) { APPENDSTR("-expand"); APPENDSTR("1"); } else { if (flags & _TTK_MASK_PACK) { int side = 0; unsigned sideFlags = flags & _TTK_MASK_PACK; while ((sideFlags & TTK_PACK_LEFT) == 0) { ++side; sideFlags >>= 1; } APPENDSTR("-side"); APPENDSTR(packSideStrings[side]); } } /* In Ttk_ParseLayoutTemplate, default -sticky is "nsew", * so always include this even if no sticky bits are set. */ APPENDSTR("-sticky"); APPENDOBJ(Ttk_NewStickyObj(flags & _TTK_MASK_STICK)); /* @@@ Check again: are these necessary? */ if (flags & TTK_BORDER) { APPENDSTR("-border"); APPENDSTR("1"); } if (flags & TTK_UNIT) { APPENDSTR("-unit"); APPENDSTR("1"); } if (node->child) { APPENDSTR("-children"); APPENDOBJ(Ttk_UnparseLayoutTemplate(node->child)); } node = node->next; } # undef APPENDOBJ # undef APPENDSTR return result; } /*------------------------------------------------------------------------ * +++ Layouts. */ struct Ttk_Layout_ { Ttk_Style style; void *recordPtr; Tk_OptionTable optionTable; Tk_Window tkwin; Ttk_LayoutNode *root; }; static Ttk_Layout TTKNewLayout( Ttk_Style style, void *recordPtr,Tk_OptionTable optionTable, Tk_Window tkwin, Ttk_LayoutNode *root) { Ttk_Layout layout = (Ttk_Layout)ckalloc(sizeof(*layout)); layout->style = style; layout->recordPtr = recordPtr; layout->optionTable = optionTable; layout->tkwin = tkwin; layout->root = root; return layout; } void Ttk_FreeLayout(Ttk_Layout layout) { Ttk_FreeLayoutNode(layout->root); ckfree((ClientData)layout); } /* * Ttk_CreateLayout -- * Create a layout from the specified theme and style name. * Returns: New layout, 0 on error. * Leaves an error message in interp's result if there is an error. */ Ttk_Layout Ttk_CreateLayout( Tcl_Interp *interp, /* where to leave error messages */ Ttk_Theme themePtr, const char *styleName, void *recordPtr, Tk_OptionTable optionTable, Tk_Window tkwin) { Ttk_Style style = Ttk_GetStyle(themePtr, styleName); Ttk_LayoutTemplate layoutTemplate = Ttk_FindLayoutTemplate(themePtr,styleName); Ttk_ElementImpl bgelement = Ttk_GetElement(themePtr, "background"); Ttk_LayoutNode *bgnode; if (!layoutTemplate) { Tcl_ResetResult(interp); Tcl_AppendResult(interp, "Layout ", styleName, " not found", NULL); return 0; } bgnode = Ttk_NewLayoutNode(TTK_FILL_BOTH, bgelement); bgnode->next = Ttk_InstantiateLayout(themePtr, layoutTemplate); return TTKNewLayout(style, recordPtr, optionTable, tkwin, bgnode); } /* Ttk_CreateSublayout -- * Creates a new sublayout. * * Sublayouts are used to draw subparts of a compound widget. * They use the same Tk_Window, but a different option table * and data record. */ Ttk_Layout Ttk_CreateSublayout( Tcl_Interp *interp, Ttk_Theme themePtr, Ttk_Layout parentLayout, const char *baseName, Tk_OptionTable optionTable) { Tcl_DString buf; const char *styleName; Ttk_Style style; Ttk_LayoutTemplate layoutTemplate; Tcl_DStringInit(&buf); Tcl_DStringAppend(&buf, Ttk_StyleName(parentLayout->style), -1); Tcl_DStringAppend(&buf, baseName, -1); styleName = Tcl_DStringValue(&buf); style = Ttk_GetStyle(themePtr, styleName); layoutTemplate = Ttk_FindLayoutTemplate(themePtr, styleName); if (!layoutTemplate) { Tcl_ResetResult(interp); Tcl_AppendResult(interp, "Layout ", styleName, " not found", NULL); return 0; } Tcl_DStringFree(&buf); return TTKNewLayout( style, 0, optionTable, parentLayout->tkwin, Ttk_InstantiateLayout(themePtr, layoutTemplate)); } /* Ttk_RebindSublayout -- * Bind sublayout to new data source. */ void Ttk_RebindSublayout(Ttk_Layout layout, void *recordPtr) { layout->recordPtr = recordPtr; } /* * Ttk_QueryOption -- * Look up an option from a layout's associated option. */ Tcl_Obj *Ttk_QueryOption( Ttk_Layout layout, const char *optionName, Ttk_State state) { return Ttk_QueryStyle( layout->style,layout->recordPtr,layout->optionTable,optionName,state); } /*------------------------------------------------------------------------ * +++ Size computation. */ static void Ttk_NodeListSize( Ttk_Layout layout, Ttk_LayoutNode *node, Ttk_State state, int *widthPtr, int *heightPtr); /* Forward */ static void Ttk_NodeSize( Ttk_Layout layout, Ttk_LayoutNode *node, Ttk_State state, int *widthPtr, int *heightPtr, Ttk_Padding *paddingPtr) { int elementWidth, elementHeight, subWidth, subHeight; Ttk_Padding elementPadding; Ttk_ElementSize(node->element, layout->style, layout->recordPtr,layout->optionTable, layout->tkwin, state|node->state, &elementWidth, &elementHeight, &elementPadding); Ttk_NodeListSize(layout,node->child,state,&subWidth,&subHeight); subWidth += Ttk_PaddingWidth(elementPadding); subHeight += Ttk_PaddingHeight(elementPadding); *widthPtr = MAX(elementWidth, subWidth); *heightPtr = MAX(elementHeight, subHeight); *paddingPtr = elementPadding; } static void Ttk_NodeListSize( Ttk_Layout layout, Ttk_LayoutNode *node, Ttk_State state, int *widthPtr, int *heightPtr) { if (!node) { *widthPtr = *heightPtr = 0; } else { int width, height, restWidth, restHeight; Ttk_Padding unused; Ttk_NodeSize(layout, node, state, &width, &height, &unused); Ttk_NodeListSize(layout, node->next, state, &restWidth, &restHeight); if (node->flags & (TTK_PACK_LEFT|TTK_PACK_RIGHT)) { *widthPtr = width + restWidth; } else { *widthPtr = MAX(width, restWidth); } if (node->flags & (TTK_PACK_TOP|TTK_PACK_BOTTOM)) { *heightPtr = height + restHeight; } else { *heightPtr = MAX(height, restHeight); } } } /* * Ttk_LayoutNodeInternalPadding -- * Returns the internal padding of a layout node. */ Ttk_Padding Ttk_LayoutNodeInternalPadding( Ttk_Layout layout, Ttk_LayoutNode *node) { int unused; Ttk_Padding padding; Ttk_ElementSize(node->element, layout->style, layout->recordPtr, layout->optionTable, layout->tkwin, 0/*state*/, &unused, &unused, &padding); return padding; } /* * Ttk_LayoutNodeInternalParcel -- * Returns the inner area of a specified layout node, * based on current parcel and element's internal padding. */ Ttk_Box Ttk_LayoutNodeInternalParcel(Ttk_Layout layout, Ttk_LayoutNode *node) { Ttk_Padding padding = Ttk_LayoutNodeInternalPadding(layout, node); return Ttk_PadBox(node->parcel, padding); } /* Ttk_LayoutSize -- * Compute requested size of a layout. */ void Ttk_LayoutSize( Ttk_Layout layout, Ttk_State state, int *widthPtr, int *heightPtr) { Ttk_NodeListSize(layout, layout->root, state, widthPtr, heightPtr); } void Ttk_LayoutNodeReqSize( /* @@@ Rename this */ Ttk_Layout layout, Ttk_LayoutNode *node, int *widthPtr, int *heightPtr) { Ttk_Padding unused; Ttk_NodeSize(layout, node, 0/*state*/, widthPtr, heightPtr, &unused); } /*------------------------------------------------------------------------ * +++ Layout placement. */ /* Ttk_PlaceNodeList -- * Compute parcel for each node in a layout tree * according to position specification and overall size. */ static void Ttk_PlaceNodeList( Ttk_Layout layout, Ttk_LayoutNode *node, Ttk_State state, Ttk_Box cavity) { for (; node; node = node->next) { int width, height; Ttk_Padding padding; /* Compute node size: (@@@ cache this instead?) */ Ttk_NodeSize(layout, node, state, &width, &height, &padding); /* Compute parcel: */ node->parcel = Ttk_PositionBox(&cavity, width, height, node->flags); /* Place child nodes: */ if (node->child) { Ttk_Box childBox = Ttk_PadBox(node->parcel, padding); Ttk_PlaceNodeList(layout,node->child, state, childBox); } } } void Ttk_PlaceLayout(Ttk_Layout layout, Ttk_State state, Ttk_Box b) { Ttk_PlaceNodeList(layout, layout->root, state, b); } /*------------------------------------------------------------------------ * +++ Layout drawing. */ /* * Ttk_DrawLayout -- * Draw a layout tree. */ static void Ttk_DrawNodeList( Ttk_Layout layout, Ttk_State state, Ttk_LayoutNode *node, Drawable d) { for (; node; node = node->next) { int border = node->flags & TTK_BORDER; int substate = state; if (node->flags & TTK_UNIT) substate |= node->state; if (node->child && border) Ttk_DrawNodeList(layout, substate, node->child, d); Ttk_DrawElement( node->element, layout->style,layout->recordPtr,layout->optionTable,layout->tkwin, d, node->parcel, state | node->state); if (node->child && !border) Ttk_DrawNodeList(layout, substate, node->child, d); } } void Ttk_DrawLayout(Ttk_Layout layout, Ttk_State state, Drawable d) { Ttk_DrawNodeList(layout, state, layout->root, d); } /*------------------------------------------------------------------------ * +++ Inquiry and modification. */ /* * Ttk_LayoutIdentify -- * Find the layout node at the specified x,y coordinate. */ static Ttk_LayoutNode * Ttk_LayoutNodeIdentify(Ttk_LayoutNode *node, int x, int y) { Ttk_LayoutNode *closest = NULL; for (; node; node = node->next) { if (Ttk_BoxContains(node->parcel, x, y)) { closest = node; if (node->child && !(node->flags & TTK_UNIT)) { Ttk_LayoutNode *childNode = Ttk_LayoutNodeIdentify(node->child, x,y); if (childNode) { closest = childNode; } } } } return closest; } Ttk_LayoutNode *Ttk_LayoutIdentify(Ttk_Layout layout, int x, int y) { return Ttk_LayoutNodeIdentify(layout->root, x, y); } /* * tail -- * Return the last component of an element name, e.g., * "Scrollbar.thumb" => "thumb" */ static const char *tail(const char *elementName) { const char *dot; while ((dot=strchr(elementName,'.')) != NULL) elementName = dot + 1; return elementName; } /* * Ttk_LayoutFindNode -- * Look up a layout node by name. */ static Ttk_LayoutNode * Ttk_LayoutNodeFind(Ttk_LayoutNode *node, const char *nodeName) { for (; node ; node = node->next) { if (!strcmp(tail(Ttk_LayoutNodeName(node)), nodeName)) return node; if (node->child) { Ttk_LayoutNode *childNode = Ttk_LayoutNodeFind(node->child, nodeName); if (childNode) return childNode; } } return 0; } Ttk_LayoutNode *Ttk_LayoutFindNode(Ttk_Layout layout, const char *nodeName) { return Ttk_LayoutNodeFind(layout->root, nodeName); } const char *Ttk_LayoutNodeName(Ttk_LayoutNode *node) { return Ttk_ElementName(node->element); } Ttk_Box Ttk_LayoutNodeParcel(Ttk_LayoutNode *node) { return node->parcel; } void Ttk_PlaceLayoutNode(Ttk_Layout layout, Ttk_LayoutNode *node, Ttk_Box b) { node->parcel = b; if (node->child) { Ttk_PlaceNodeList(layout, node->child, 0, Ttk_PadBox(b, Ttk_LayoutNodeInternalPadding(layout, node))); } } void Ttk_ChangeElementState(Ttk_LayoutNode *node,unsigned set,unsigned clr) { node->state = (node->state | set) & ~clr; } /*EOF*/