'\" '\" Copyright (c) 1994-1995 Sun Microsystems, Inc. '\" '\" See the file "license.terms" for information on usage and redistribution '\" of this file, and for a DISCLAIMER OF ALL WARRANTIES. '\" .TH Tk_CreateItemType 3 4.0 Tk "Tk Library Procedures" .so man.macros .BS .SH NAME Tk_CreateItemType, Tk_GetItemTypes \- define new kind of canvas item .SH SYNOPSIS .nf \fB#include \fR .sp \fBTk_CreateItemType\fR(\fItypePtr\fR) .sp Tk_ItemType * \fBTk_GetItemTypes\fR() .SH ARGUMENTS .AS Tk_ItemType *typePtr .AP Tk_ItemType *typePtr in Structure that defines the new type of canvas item. .BE .SH INTRODUCTION .PP \fBTk_CreateItemType\fR is invoked to define a new kind of canvas item described by the \fItypePtr\fR argument. An item type corresponds to a particular value of the \fItype\fR argument to the \fBcreate\fR widget command for canvases, and the code that implements a canvas item type is called a \fItype manager\fR. Tk defines several built-in item types, such as \fBrectangle\fR and \fBtext\fR and \fBimage\fR, but \fBTk_CreateItemType\fR allows additional item types to be defined. Once \fBTk_CreateItemType\fR returns, the new item type may be used in new or existing canvas widgets just like the built-in item types. .PP \fBTk_GetItemTypes\fR returns a pointer to the first in the list of all item types currently defined for canvases. The entries in the list are linked together through their \fInextPtr\fR fields, with the end of the list marked by a NULL \fInextPtr\fR. .PP You may find it easier to understand the rest of this manual entry by looking at the code for an existing canvas item type such as bitmap (in the file tkCanvBmap.c) or text (tkCanvText.c). The easiest way to create a new type manager is to copy the code for an existing type and modify it for the new type. .PP Tk provides a number of utility procedures for the use of canvas type managers, such as \fBTk_CanvasCoords\fR and \fBTk_CanvasPsColor\fR; these are described in separate manual entries. .SH "DATA STRUCTURES" .PP A type manager consists of a collection of procedures that provide a standard set of operations on items of that type. The type manager deals with three kinds of data structures. The first data structure is a Tk_ItemType; it contains information such as the name of the type and pointers to the standard procedures implemented by the type manager: .PP .CS typedef struct Tk_ItemType { const char *\fIname\fR; size_t \fIitemSize\fR; Tk_ItemCreateProc *\fIcreateProc\fR; const Tk_ConfigSpec *\fIconfigSpecs\fR; Tk_ItemConfigureProc *\fIconfigProc\fR; Tk_ItemCoordProc *\fIcoordProc\fR; Tk_ItemDeleteProc *\fIdeleteProc\fR; Tk_ItemDisplayProc *\fIdisplayProc\fR; int \fIalwaysRedraw\fR; Tk_ItemPointProc *\fIpointProc\fR; Tk_ItemAreaProc *\fIareaProc\fR; Tk_ItemPostscriptProc *\fIpostscriptProc\fR; Tk_ItemScaleProc *\fIscaleProc\fR; Tk_ItemTranslateProc *\fItranslateProc\fR; Tk_ItemIndexProc *\fIindexProc\fR; Tk_ItemCursorProc *\fIicursorProc\fR; Tk_ItemSelectionProc *\fIselectionProc\fR; Tk_ItemInsertProc *\fIinsertProc\fR; Tk_ItemDCharsProc *\fIdCharsProc\fR; Tk_ItemType *\fInextPtr\fR; .VS "8.7, TIP164" Tk_ItemRotateProc *\fIrotateProc\fR; .VE "8.7, TIP164" } \fBTk_ItemType\fR; .CE .PP The fields of a Tk_ItemType structure are described in more detail later in this manual entry. When \fBTk_CreateItemType\fR is called, its \fItypePtr\fR argument must point to a structure with all of the fields initialized except \fInextPtr\fR, which Tk sets to link all the types together into a list. The structure must be in permanent memory (either statically allocated or dynamically allocated but never freed); Tk retains a pointer to this structure. .PP The second data structure manipulated by a type manager is an \fIitem record\fR. For each item in a canvas there exists one item record. All of the items of a given type generally have item records with the same structure, but different types usually have different formats for their item records. The first part of each item record is a header with a standard structure defined by Tk via the type Tk_Item; the rest of the item record is defined by the type manager. A type manager must define its item records with a Tk_Item as the first field. For example, the item record for bitmap items is defined as follows: .PP .CS typedef struct BitmapItem { Tk_Item \fIheader\fR; double \fIx\fR, \fIy\fR; Tk_Anchor \fIanchor\fR; Pixmap \fIbitmap\fR; XColor *\fIfgColor\fR; XColor *\fIbgColor\fR; GC \fIgc\fR; } \fBBitmapItem\fR; .CE .PP The \fIheader\fR substructure contains information used by Tk to manage the item, such as its identifier, its tags, its type, and its bounding box. The fields starting with \fIx\fR belong to the type manager: Tk will never read or write them. The type manager should not need to read or write any of the fields in the header except for four fields whose names are \fIx1\fR, \fIy1\fR, \fIx2\fR, and \fIy2\fR. These fields give a bounding box for the items using integer canvas coordinates: the item should not cover any pixels with x-coordinate lower than \fIx1\fR or y-coordinate lower than \fIy1\fR, nor should it cover any pixels with x-coordinate greater than or equal to \fIx2\fR or y-coordinate greater than or equal to \fIy2\fR. It is up to the type manager to keep the bounding box up to date as the item is moved and reconfigured. .PP Whenever Tk calls a procedure in a type manager it passes in a pointer to an item record. The argument is always passed as a pointer to a Tk_Item; the type manager will typically cast this into a pointer to its own specific type, such as BitmapItem. .PP The third data structure used by type managers has type Tk_Canvas; it serves as an opaque handle for the canvas widget as a whole. Type managers need not know anything about the contents of this structure. A Tk_Canvas handle is typically passed in to the procedures of a type manager, and the type manager can pass the handle back to library procedures such as Tk_CanvasTkwin to fetch information about the canvas. .SH "TK_ITEMTYPE FIELDS" .SS NAME .PP This section and the ones that follow describe each of the fields in a Tk_ItemType structure in detail. The \fIname\fR field provides a string name for the item type. Once \fBTk_CreateImageType\fR returns, this name may be used in \fBcreate\fR widget commands to create items of the new type. If there already existed an item type by this name then the new item type replaces the old one. .SS "FLAGS (IN ALWAYSREDRAW)" .PP The \fItypePtr\->alwaysRedraw\fR field (so named for historic reasons) contains a collection of flag bits that modify how the canvas core interacts with the item. The following bits are defined: .TP \fB1\fR . Indicates that the item should always be redrawn when any part of the canvas is redrawn, rather than only when the bounding box of the item overlaps the area being redrawn. This is used by window items, for example, which need to unmap subwindows that are not on the screen. .TP \fBTK_CONFIG_OBJS\fR . Indicates that operations which would otherwise take a string (or array of strings) actually take a Tcl_Obj reference (or an array of such references). The operations to which this applies are the \fIconfigProc\fR, the \fIcoordProc\fR, the \fIcreateProc\fR, the \fIindexProc\fR and the \fIinsertProc\fR. .TP \fBTK_MOVABLE_POINTS\fR .VS 8.6 Indicates that the item supports the \fIdCharsProc\fR, \fIindexProc\fR and \fIinsertProc\fR with the same semantics as Tk's built-in line and polygon types, and that hence individual coordinate points can be moved. Must not be set if any of the above methods is NULL. .VE 8.6 .SS ITEMSIZE .PP \fItypePtr\->itemSize\fR gives the size in bytes of item records of this type, including the Tk_Item header. Tk uses this size to allocate memory space for items of the type. All of the item records for a given type must have the same size. If variable length fields are needed for an item (such as a list of points for a polygon), the type manager can allocate a separate object of variable length and keep a pointer to it in the item record. .SS CREATEPROC .PP \fItypePtr\->createProc\fR points to a procedure for Tk to call whenever a new item of this type is created. \fItypePtr\->createProc\fR must match the following prototype: .PP .CS typedef int \fBTk_ItemCreateProc\fR( Tcl_Interp *\fIinterp\fR, Tk_Canvas \fIcanvas\fR, Tk_Item *\fIitemPtr\fR, int \fIobjc\fR, Tcl_Obj *const \fIobjv\fR[]); .CE .PP The \fIinterp\fR argument is the interpreter in which the canvas's \fBcreate\fR widget command was invoked, and \fIcanvas\fR is a handle for the canvas widget. \fIitemPtr\fR is a pointer to a newly-allocated item of size \fItypePtr\->itemSize\fR. Tk has already initialized the item's header (the first \fBsizeof(Tk_ItemType)\fR bytes). The \fIobjc\fR and \fIobjv\fR arguments describe all of the arguments to the \fBcreate\fR command after the \fItype\fR argument. Note that if \fBTK_CONFIG_OBJS\fR is not set in the \fItypePtr\->alwaysRedraw\fR field, the \fIobjv\fR parameter will actually contain a pointer to an array of constant strings. For example, in the widget command: .PP .CS \fB\&.c create rectangle 10 20 50 50 \-fill black\fR .CE .PP \fIobjc\fR will be \fB6\fR and \fIobjv\fR[0] will contain the integer object \fB10\fR. .PP \fIcreateProc\fR should use \fIobjc\fR and \fIobjv\fR to initialize the type-specific parts of the item record and set an initial value for the bounding box in the item's header. It should return a standard Tcl completion code and leave an error message in the interpreter result if an error occurs. If an error occurs Tk will free the item record, so \fIcreateProc\fR must be sure to leave the item record in a clean state if it returns an error (e.g., it must free any additional memory that it allocated for the item). .SS CONFIGSPECS .PP Each type manager must provide a standard table describing its configuration options, in a form suitable for use with \fBTk_ConfigureWidget\fR. This table will normally be used by \fItypePtr\->createProc\fR and \fItypePtr\->configProc\fR, but Tk also uses it directly to retrieve option information in the \fBitemcget\fR and \fBitemconfigure\fR widget commands. \fItypePtr\->configSpecs\fR must point to the configuration table for this type. Note: Tk provides a custom option type \fBtk_CanvasTagsOption\fR for implementing the \fB\-tags\fR option; see an existing type manager for an example of how to use it in \fIconfigSpecs\fR. .SS CONFIGPROC .PP \fItypePtr\->configProc\fR is called by Tk whenever the \fBitemconfigure\fR widget command is invoked to change the configuration options for a canvas item. This procedure must match the following prototype: .PP .CS typedef int \fBTk_ItemConfigureProc\fR( Tcl_Interp *\fIinterp\fR, Tk_Canvas \fIcanvas\fR, Tk_Item *\fIitemPtr\fR, int \fIobjc\fR, Tcl_Obj *const \fIobjv\fR[], int \fIflags\fR); .CE .PP The \fIinterp\fR argument identifies the interpreter in which the widget command was invoked, \fIcanvas\fR is a handle for the canvas widget, and \fIitemPtr\fR is a pointer to the item being configured. \fIobjc\fR and \fIobjv\fR contain the configuration options. Note that if \fBTK_CONFIG_OBJS\fR is not set in the \fItypePtr\->alwaysRedraw\fR field, the \fIobjv\fR parameter will actually contain a pointer to an array of constant strings. For example, if the following command is invoked: .PP .CS \fB\&.c itemconfigure 2 \-fill red \-outline black\fR .CE .PP \fIobjc\fR is \fB4\fR and \fIobjv\fR contains the string objects \fB\-fill\fR through \fBblack\fR. \fIobjc\fR will always be an even value. The \fIflags\fR argument contains flags to pass to \fBTk_ConfigureWidget\fR; currently this value is always \fBTK_CONFIG_ARGV_ONLY\fR when Tk invokes \fItypePtr\->configProc\fR, but the type manager's \fIcreateProc\fR procedure will usually invoke \fIconfigProc\fR with different flag values. .PP \fItypePtr\->configProc\fR returns a standard Tcl completion code and leaves an error message in the interpreter result if an error occurs. It must update the item's bounding box to reflect the new configuration options. .SS COORDPROC .PP \fItypePtr\->coordProc\fR is invoked by Tk to implement the \fBcoords\fR widget command for an item. It must match the following prototype: .PP .CS typedef int \fBTk_ItemCoordProc\fR( Tcl_Interp *\fIinterp\fR, Tk_Canvas \fIcanvas\fR, Tk_Item *\fIitemPtr\fR, int \fIobjc\fR, Tcl_Obj *const \fIobjv\fR[]); .CE .PP The arguments \fIinterp\fR, \fIcanvas\fR, and \fIitemPtr\fR all have the standard meanings, and \fIobjc\fR and \fIobjv\fR describe the coordinate arguments. Note that if \fBTK_CONFIG_OBJS\fR is not set in the \fItypePtr\->alwaysRedraw\fR field, the \fIobjv\fR parameter will actually contain a pointer to an array of constant strings. For example, if the following widget command is invoked: .PP .CS \fB\&.c coords 2 30 90\fR .CE .PP \fIobjc\fR will be \fB2\fR and \fBobjv\fR will contain the integer objects \fB30\fR and \fB90\fR. .PP The \fIcoordProc\fR procedure should process the new coordinates, update the item appropriately (e.g., it must reset the bounding box in the item's header), and return a standard Tcl completion code. If an error occurs, \fIcoordProc\fR must leave an error message in the interpreter result. .SS DELETEPROC .PP \fItypePtr\->deleteProc\fR is invoked by Tk to delete an item and free any resources allocated to it. It must match the following prototype: .PP .CS typedef void \fBTk_ItemDeleteProc\fR( Tk_Canvas \fIcanvas\fR, Tk_Item *\fIitemPtr\fR, Display *\fIdisplay\fR); .CE .PP The \fIcanvas\fR and \fIitemPtr\fR arguments have the usual interpretations, and \fIdisplay\fR identifies the X display containing the canvas. \fIdeleteProc\fR must free up any resources allocated for the item, so that Tk can free the item record. \fIdeleteProc\fR should not actually free the item record; this will be done by Tk when \fIdeleteProc\fR returns. .SS "DISPLAYPROC" .PP \fItypePtr\->displayProc\fR is invoked by Tk to redraw an item on the screen. It must match the following prototype: .PP .CS typedef void \fBTk_ItemDisplayProc\fR( Tk_Canvas \fIcanvas\fR, Tk_Item *\fIitemPtr\fR, Display *\fIdisplay\fR, Drawable \fIdst\fR, int \fIx\fR, int \fIy\fR, int \fIwidth\fR, int \fIheight\fR); .CE .PP The \fIcanvas\fR and \fIitemPtr\fR arguments have the usual meaning. \fIdisplay\fR identifies the display containing the canvas, and \fIdst\fR specifies a drawable in which the item should be rendered; typically this is an off-screen pixmap, which Tk will copy into the canvas's window once all relevant items have been drawn. \fIx\fR, \fIy\fR, \fIwidth\fR, and \fIheight\fR specify a rectangular region in canvas coordinates, which is the area to be redrawn; only information that overlaps this area needs to be redrawn. Tk will not call \fIdisplayProc\fR unless the item's bounding box overlaps the redraw area, but the type manager may wish to use the redraw area to optimize the redisplay of the item. .PP Because of scrolling and the use of off-screen pixmaps for double-buffered redisplay, the item's coordinates in \fIdst\fR will not necessarily be the same as those in the canvas. \fIdisplayProc\fR should call \fBTk_CanvasDrawableCoords\fR to transform coordinates from those of the canvas to those of \fIdst\fR. .PP Normally an item's \fIdisplayProc\fR is only invoked if the item overlaps the area being displayed. However, if bit zero of \fItypePtr\->alwaysRedraw\fR is 1, (i.e.\| .QW "\fItypePtr\->alwaysRedraw & 1 == 1\fR" ) then \fIdisplayProc\fR is invoked during every redisplay operation, even if the item does not overlap the area of redisplay; this is useful for cases such as window items, where the subwindow needs to be unmapped when it is off the screen. .SS POINTPROC .PP \fItypePtr\->pointProc\fR is invoked by Tk to find out how close a given point is to a canvas item. Tk uses this procedure for purposes such as locating the item under the mouse or finding the closest item to a given point. The procedure must match the following prototype: .PP .CS typedef double \fBTk_ItemPointProc\fR( Tk_Canvas \fIcanvas\fR, Tk_Item *\fIitemPtr\fR, double *\fIpointPtr\fR); .CE .PP \fIcanvas\fR and \fIitemPtr\fR have the usual meaning. \fIpointPtr\fR points to an array of two numbers giving the x and y coordinates of a point. \fIpointProc\fR must return a real value giving the distance from the point to the item, or 0 if the point lies inside the item. .SS AREAPROC .PP \fItypePtr\->areaProc\fR is invoked by Tk to find out the relationship between an item and a rectangular area. It must match the following prototype: .PP .CS typedef int \fBTk_ItemAreaProc\fR( Tk_Canvas \fIcanvas\fR, Tk_Item *\fIitemPtr\fR, double *\fIrectPtr\fR); .CE .PP \fIcanvas\fR and \fIitemPtr\fR have the usual meaning. \fIrectPtr\fR points to an array of four real numbers; the first two give the x and y coordinates of the upper left corner of a rectangle, and the second two give the x and y coordinates of the lower right corner. \fIareaProc\fR must return \-1 if the item lies entirely outside the given area, 0 if it lies partially inside and partially outside the area, and 1 if it lies entirely inside the area. .SS POSTSCRIPTPROC .PP \fItypePtr\->postscriptProc\fR is invoked by Tk to generate Postscript for an item during the \fBpostscript\fR widget command. If the type manager is not capable of generating Postscript then \fItypePtr\->postscriptProc\fR should be NULL. The procedure must match the following prototype: .PP .CS typedef int \fBTk_ItemPostscriptProc\fR( Tcl_Interp *\fIinterp\fR, Tk_Canvas \fIcanvas\fR, Tk_Item *\fIitemPtr\fR, int \fIprepass\fR); .CE .PP The \fIinterp\fR, \fIcanvas\fR, and \fIitemPtr\fR arguments all have standard meanings; \fIprepass\fR will be described below. If \fIpostscriptProc\fR completes successfully, it should append Postscript for the item to the information in the interpreter result (e.g. by calling \fBTcl_AppendResult\fR, not \fBTcl_SetResult\fR) and return \fBTCL_OK\fR. If an error occurs, \fIpostscriptProc\fR should clear the result and replace its contents with an error message; then it should return \fBTCL_ERROR\fR. .PP Tk provides a collection of utility procedures to simplify \fIpostscriptProc\fR. For example, \fBTk_CanvasPsColor\fR will generate Postscript to set the current color to a given Tk color and \fBTk_CanvasPsFont\fR will set up font information. When generating Postscript, the type manager is free to change the graphics state of the Postscript interpreter, since Tk places \fBgsave\fR and \fBgrestore\fR commands around the Postscript for the item. The type manager can use canvas x coordinates directly in its Postscript, but it must call \fBTk_CanvasPsY\fR to convert y coordinates from the space of the canvas (where the origin is at the upper left) to the space of Postscript (where the origin is at the lower left). .PP In order to generate Postscript that complies with the Adobe Document Structuring Conventions, Tk actually generates Postscript in two passes. It calls each item's \fIpostscriptProc\fR in each pass. The only purpose of the first pass is to collect font information (which is done by \fBTk_CanvasPsFont\fR); the actual Postscript is discarded. Tk sets the \fIprepass\fR argument to \fIpostscriptProc\fR to 1 during the first pass; the type manager can use \fIprepass\fR to skip all Postscript generation except for calls to \fBTk_CanvasPsFont\fR. During the second pass \fIprepass\fR will be 0, so the type manager must generate complete Postscript. .SS SCALEPROC .PP \fItypePtr\->scaleProc\fR is invoked by Tk to rescale a canvas item during the \fBscale\fR widget command. The procedure must match the following prototype: .PP .CS typedef void \fBTk_ItemScaleProc\fR( Tk_Canvas \fIcanvas\fR, Tk_Item *\fIitemPtr\fR, double \fIoriginX\fR, double \fIoriginY\fR, double \fIscaleX\fR, double \fIscaleY\fR); .CE .PP The \fIcanvas\fR and \fIitemPtr\fR arguments have the usual meaning. \fIoriginX\fR and \fIoriginY\fR specify an origin relative to which the item is to be scaled, and \fIscaleX\fR and \fIscaleY\fR give the x and y scale factors. The item should adjust its coordinates so that a point in the item that used to have coordinates \fIx\fR and \fIy\fR will have new coordinates \fIx\(fm\fR and \fIy\(fm\fR, where .PP .CS \fIx\(fm\fR = \fIoriginX\fR + \fIscaleX\fR \(mu (\fIx\fR \(mi \fIoriginX\fR) \fIy\(fm\fR = \fIoriginY\fR + \fIscaleY\fR \(mu (\fIy\fR \(mi \fIoriginY\fR) .CE .PP \fIscaleProc\fR must also update the bounding box in the item's header. .SS TRANSLATEPROC .PP \fItypePtr\->translateProc\fR is invoked by Tk to translate a canvas item during the \fBmove\fR widget command. The procedure must match the following prototype: .PP .CS typedef void \fBTk_ItemTranslateProc\fR( Tk_Canvas \fIcanvas\fR, Tk_Item *\fIitemPtr\fR, double \fIdeltaX\fR, double \fIdeltaY\fR); .CE .PP The \fIcanvas\fR and \fIitemPtr\fR arguments have the usual meaning, and \fIdeltaX\fR and \fIdeltaY\fR give the amounts that should be added to each x and y coordinate within the item. The type manager should adjust the item's coordinates and update the bounding box in the item's header. .SS ROTATEPROC .VS "8.7, TIP164" .PP \fItypePtr\->rotateProc\fR is invoked by Tk to rotate a canvas item during the \fBrotate\fR widget command. The procedure must match the following prototype: .PP .CS typedef void \fBTk_ItemRotateProc\fR( Tk_Canvas \fIcanvas\fR, Tk_Item *\fIitemPtr\fR, double \fIoriginX\fR, double \fIoriginY\fR, double \fIangleRad\fR); .CE .PP The \fIcanvas\fR and \fIitemPtr\fR arguments have the usual meaning. \fIoriginX\fR and \fIoriginY\fR specify an origin relative to which the item is to be rotated, and \fIangleRad\fR gives the anticlockwise rotation to be applied in radians. The item should adjust the coordinates of its control points so that where they used to have coordinates \fIx\fR and \fIy\fR, they will have new coordinates \fIx\(fm\fR and \fIy\(fm\fR, where .PP .CS \fIrelX\fR = \fIx\fR - \fIoriginX\fR \fIrelY\fR = \fIy\fR - \fIoriginY\fR \fIx\(fm\fR = \fIoriginX\fR + \fIrelX\fR \(mu cos(\fIangleRad\fR) + \fIrelY\fR \(mu sin(\fIangleRad\fR) \fIy\(fm\fR = \fIoriginY\fR \(mi \fIrelX\fR \(mu sin(\fIangleRad\fR) + \fIrelY\fR \(mu cos(\fIangleRad\fR) .CE .PP The control points for an item are not necessarily the coordinates provided to the item when it is created (or via the \fItypePtr\->coordProc\fR), but could instead be derived from them. \fIrotateProc\fR must also update the bounding box in the item's header. .PP Item types do not need to provide a \fItypePtr\->rotateProc\fR. If the \fItypePtr\->rotateProc\fR is NULL, the \fItypePtr\->coordProc\fR will be used instead to retrieve and update the list of coordinates. .VE "8.7, TIP164" .SS INDEXPROC .PP \fItypePtr\->indexProc\fR is invoked by Tk to translate a string index specification into a numerical index, for example during the \fBindex\fR widget command. It is only relevant for item types that support indexable text or coordinates; \fItypePtr\->indexProc\fR may be specified as NULL for non-textual item types if they do not support detailed coordinate addressing. The procedure must match the following prototype: .PP .CS typedef int \fBTk_ItemIndexProc\fR( Tcl_Interp *\fIinterp\fR, Tk_Canvas \fIcanvas\fR, Tk_Item *\fIitemPtr\fR, Tcl_Obj *\fIindexObj\fR, int *\fIindexPtr\fR); .CE .PP The \fIinterp\fR, \fIcanvas\fR, and \fIitemPtr\fR arguments all have the usual meaning. \fIindexObj\fR contains a textual description of an index, and \fIindexPtr\fR points to an integer value that should be filled in with a numerical index. Note that if \fBTK_CONFIG_OBJS\fR is not set in the \fItypePtr\->alwaysRedraw\fR field, the \fIindexObj\fR parameter will actually contain a pointer to a constant string. It is up to the type manager to decide what forms of index are supported (e.g., numbers, \fBinsert\fR, \fBsel.first\fR, \fBend\fR, etc.). \fIindexProc\fR should return a Tcl completion code and set the interpreter result in the event of an error. .SS ICURSORPROC .PP \fItypePtr\->icursorProc\fR is invoked by Tk during the \fBicursor\fR widget command to set the position of the insertion cursor in a textual item. It is only relevant for item types that support an insertion cursor; \fItypePtr\->icursorProc\fR may be specified as NULL for item types that do not support an insertion cursor. The procedure must match the following prototype: .PP .CS typedef void \fBTk_ItemCursorProc\fR( Tk_Canvas \fIcanvas\fR, Tk_Item *\fIitemPtr\fR, int \fIindex\fR); .CE .PP \fIcanvas\fR and \fIitemPtr\fR have the usual meanings, and \fIindex\fR is an index into the item's text, as returned by a previous call to \fItypePtr\->insertProc\fR. The type manager should position the insertion cursor in the item just before the character given by \fIindex\fR. Whether or not to actually display the insertion cursor is determined by other information provided by \fBTk_CanvasGetTextInfo\fR. .SS SELECTIONPROC .PP \fItypePtr\->selectionProc\fR is invoked by Tk during selection retrievals; it must return part or all of the selected text in the item (if any). It is only relevant for item types that support text; \fItypePtr\->selectionProc\fR may be specified as NULL for non-textual item types. The procedure must match the following prototype: .PP .CS typedef int \fBTk_ItemSelectionProc\fR( Tk_Canvas \fIcanvas\fR, Tk_Item *\fIitemPtr\fR, int \fIoffset\fR, char *\fIbuffer\fR, int \fImaxBytes\fR); .CE .PP \fIcanvas\fR and \fIitemPtr\fR have the usual meanings. \fIoffset\fR is an offset in bytes into the selection where 0 refers to the first byte of the selection; it identifies the first character that is to be returned in this call. \fIbuffer\fR points to an area of memory in which to store the requested bytes, and \fImaxBytes\fR specifies the maximum number of bytes to return. \fIselectionProc\fR should extract up to \fImaxBytes\fR characters from the selection and copy them to \fImaxBytes\fR; it should return a count of the number of bytes actually copied, which may be less than \fImaxBytes\fR if there are not \fIoffset+maxBytes\fR bytes in the selection. .SS INSERTPROC .PP \fItypePtr\->insertProc\fR is invoked by Tk during the \fBinsert\fR widget command to insert new text or coordinates into a canvas item. It is only relevant for item types that support the \fBinsert\fR method; \fItypePtr\->insertProc\fR may be specified as NULL for other item types. The procedure must match the following prototype: .PP .CS typedef void \fBTk_ItemInsertProc\fR( Tk_Canvas \fIcanvas\fR, Tk_Item *\fIitemPtr\fR, int \fIindex\fR, Tcl_Obj *\fIobj\fR); .CE .PP \fIcanvas\fR and \fIitemPtr\fR have the usual meanings. \fIindex\fR is an index into the item's text, as returned by a previous call to \fItypePtr\->insertProc\fR, and \fIobj\fR contains new text to insert just before the character given by \fIindex\fR. Note that if \fBTK_CONFIG_OBJS\fR is not set in the \fItypePtr\->alwaysRedraw\fR field, the \fIobj\fR parameter will actually contain a pointer to a constant string to be inserted. If the item supports modification of the coordinates list by this .PP The type manager should insert the text and recompute the bounding box in the item's header. .SS DCHARSPROC .PP \fItypePtr\->dCharsProc\fR is invoked by Tk during the \fBdchars\fR widget command to delete a range of text from a canvas item or a range of coordinates from a pathed item. It is only relevant for item types that support text; \fItypePtr\->dCharsProc\fR may be specified as NULL for non-textual item types that do not want to support coordinate deletion. The procedure must match the following prototype: .PP .CS typedef void \fBTk_ItemDCharsProc\fR( Tk_Canvas \fIcanvas\fR, Tk_Item *\fIitemPtr\fR, int \fIfirst\fR, int \fIlast\fR); .CE .PP \fIcanvas\fR and \fIitemPtr\fR have the usual meanings. \fIfirst\fR and \fIlast\fR give the indices of the first and last bytes to be deleted, as returned by previous calls to \fItypePtr\->indexProc\fR. The type manager should delete the specified characters and update the bounding box in the item's header. .SH "SEE ALSO" Tk_CanvasPsY, Tk_CanvasTextInfo, Tk_CanvasTkwin .SH KEYWORDS canvas, focus, item type, selection, type manager