/* * tkUndo.c -- * * This module provides the implementation of an undo stack. * * Copyright (c) 2002 by Ludwig Callewaert. * Copyright (c) 2003-2004 by Vincent Darley. * * See the file "license.terms" for information on usage and redistribution of * this file, and for a DISCLAIMER OF ALL WARRANTIES. */ #include "tkInt.h" #include "tkUndo.h" static int EvaluateActionList(Tcl_Interp *interp, TkUndoSubAtom *action); /* *---------------------------------------------------------------------- * * TkUndoPushStack -- * * Push elem on the stack identified by stack. * * Results: * None. * * Side effects: * None. * *---------------------------------------------------------------------- */ void TkUndoPushStack( TkUndoAtom **stack, TkUndoAtom *elem) { elem->next = *stack; *stack = elem; } /* *---------------------------------------------------------------------- * * TkUndoPopStack -- * * Remove and return the top element from the stack identified by stack. * * Results: * None. * * Side effects: * None. * *---------------------------------------------------------------------- */ TkUndoAtom * TkUndoPopStack( TkUndoAtom **stack) { TkUndoAtom *elem = NULL; if (*stack != NULL) { elem = *stack; *stack = elem->next; } return elem; } /* *---------------------------------------------------------------------- * * TkUndoInsertSeparator -- * * Insert a separator on the stack, indicating a border for an undo/redo * chunk. * * Results: * None. * * Side effects: * None. * *---------------------------------------------------------------------- */ int TkUndoInsertSeparator( TkUndoAtom **stack) { TkUndoAtom *separator; if (*stack!=NULL && (*stack)->type!=TK_UNDO_SEPARATOR) { separator = ckalloc(sizeof(TkUndoAtom)); separator->type = TK_UNDO_SEPARATOR; TkUndoPushStack(stack,separator); return 1; } return 0; } /* *---------------------------------------------------------------------- * * TkUndoClearStack -- * * Clear an entire undo or redo stack and destroy all elements in it. * * Results: * None. * * Side effects: * None. * *---------------------------------------------------------------------- */ void TkUndoClearStack( TkUndoAtom **stack) /* An Undo or Redo stack */ { TkUndoAtom *elem; while ((elem = TkUndoPopStack(stack)) != NULL) { if (elem->type != TK_UNDO_SEPARATOR) { TkUndoSubAtom *sub; sub = elem->apply; while (sub != NULL) { TkUndoSubAtom *next = sub->next; if (sub->action != NULL) { Tcl_DecrRefCount(sub->action); } ckfree(sub); sub = next; } sub = elem->revert; while (sub != NULL) { TkUndoSubAtom *next = sub->next; if (sub->action != NULL) { Tcl_DecrRefCount(sub->action); } ckfree(sub); sub = next; } } ckfree(elem); } *stack = NULL; } /* *---------------------------------------------------------------------- * * TkUndoPushAction -- * * Push a new elem on the stack identified by stack. Action and revert * are given through Tcl_Obj's to which we will retain a reference. (So * they can be passed in with a zero refCount if desired). * * Results: * None. * * Side effects: * None. * *---------------------------------------------------------------------- */ void TkUndoPushAction( TkUndoRedoStack *stack, /* An Undo or Redo stack */ TkUndoSubAtom *apply, TkUndoSubAtom *revert) { TkUndoAtom *atom; atom = ckalloc(sizeof(TkUndoAtom)); atom->type = TK_UNDO_ACTION; atom->apply = apply; atom->revert = revert; TkUndoPushStack(&stack->undoStack, atom); TkUndoClearStack(&stack->redoStack); } /* *---------------------------------------------------------------------- * * TkUndoMakeCmdSubAtom -- * * Create a new undo/redo step which must later be place into an undo * stack with TkUndoPushAction. This sub-atom, if evaluated, will take * the given command (if non-NULL), find its full Tcl command string, and * then evaluate that command with the list elements of 'actionScript' * appended. * * If 'subAtomList' is non-NULL, the newly created sub-atom is added onto * the end of the linked list of which 'subAtomList' is a part. This * makes it easy to build up a sequence of actions which will be pushed * in one step. * * Note: if the undo stack can persist for longer than the Tcl_Command * provided, the stack will cause crashes when actions are evaluated. In * this case the 'command' argument should not be used. This is the case * with peer text widgets, for example. * * Results: * The newly created subAtom is returned. It must be passed to * TkUndoPushAction otherwise a memory leak will result. * * Side effects: * A refCount is retained on 'actionScript'. * *---------------------------------------------------------------------- */ TkUndoSubAtom * TkUndoMakeCmdSubAtom( Tcl_Command command, /* Tcl command token for actions, may be NULL * if not needed. */ Tcl_Obj *actionScript, /* The script to append to the command to * perform the action (may be NULL if the * command is not-null). */ TkUndoSubAtom *subAtomList) /* Add to the end of this list of actions if * non-NULL */ { TkUndoSubAtom *atom; if (command == NULL && actionScript == NULL) { Tcl_Panic("NULL command and actionScript in TkUndoMakeCmdSubAtom"); } atom = ckalloc(sizeof(TkUndoSubAtom)); atom->command = command; atom->funcPtr = NULL; atom->clientData = NULL; atom->next = NULL; atom->action = actionScript; if (atom->action != NULL) { Tcl_IncrRefCount(atom->action); } if (subAtomList != NULL) { while (subAtomList->next != NULL) { subAtomList = subAtomList->next; } subAtomList->next = atom; } return atom; } /* *---------------------------------------------------------------------- * * TkUndoMakeSubAtom -- * * Create a new undo/redo step which must later be place into an undo * stack with TkUndoPushAction. This sub-atom, if evaluated, will take * the given C-funcPtr (which must be non-NULL), and call it with three * arguments: the undo stack's 'interp', the 'clientData' given and the * 'actionScript'. The callback should return a standard Tcl return code * (TCL_OK on success). * * If 'subAtomList' is non-NULL, the newly created sub-atom is added onto * the end of the linked list of which 'subAtomList' is a part. This * makes it easy to build up a sequence of actions which will be pushed * in one step. * * Results: * The newly created subAtom is returned. It must be passed to * TkUndoPushAction otherwise a memory leak will result. * * Side effects: * A refCount is retained on 'actionScript'. * *---------------------------------------------------------------------- */ TkUndoSubAtom * TkUndoMakeSubAtom( TkUndoProc *funcPtr, /* Callback function to perform the * undo/redo. */ ClientData clientData, /* Data to pass to the callback function. */ Tcl_Obj *actionScript, /* Additional Tcl data to pass to the callback * function (may be NULL). */ TkUndoSubAtom *subAtomList) /* Add to the end of this list of actions if * non-NULL */ { TkUndoSubAtom *atom; if (funcPtr == NULL) { Tcl_Panic("NULL funcPtr in TkUndoMakeSubAtom"); } atom = ckalloc(sizeof(TkUndoSubAtom)); atom->command = NULL; atom->funcPtr = funcPtr; atom->clientData = clientData; atom->next = NULL; atom->action = actionScript; if (atom->action != NULL) { Tcl_IncrRefCount(atom->action); } if (subAtomList != NULL) { while (subAtomList->next != NULL) { subAtomList = subAtomList->next; } subAtomList->next = atom; } return atom; } /* *---------------------------------------------------------------------- * * TkUndoInitStack -- * * Initialize a new undo/redo stack. * * Results: * An Undo/Redo stack pointer. * * Side effects: * None. * *---------------------------------------------------------------------- */ TkUndoRedoStack * TkUndoInitStack( Tcl_Interp *interp, /* The interpreter */ int maxdepth) /* The maximum stack depth */ { TkUndoRedoStack *stack; /* An Undo/Redo stack */ stack = ckalloc(sizeof(TkUndoRedoStack)); stack->undoStack = NULL; stack->redoStack = NULL; stack->interp = interp; stack->maxdepth = maxdepth; stack->depth = 0; return stack; } /* *---------------------------------------------------------------------- * * TkUndoSetMaxDepth -- * * Set the maximum depth of stack. * * Results: * None. * * Side effects: * May delete elements from the stack if the new maximum depth is smaller * than the number of elements previously in the stack. * *---------------------------------------------------------------------- */ void TkUndoSetMaxDepth( TkUndoRedoStack *stack, /* An Undo/Redo stack */ int maxdepth) /* The maximum stack depth */ { stack->maxdepth = maxdepth; if (stack->maxdepth>0 && stack->depth>stack->maxdepth) { TkUndoAtom *elem, *prevelem; int sepNumber = 0; /* * Maximum stack depth exceeded. We have to remove the last compound * elements on the stack. */ elem = stack->undoStack; prevelem = NULL; while ((elem != NULL) && (sepNumber <= stack->maxdepth)) { if (elem->type == TK_UNDO_SEPARATOR) { sepNumber++; } prevelem = elem; elem = elem->next; } CLANG_ASSERT(prevelem); prevelem->next = NULL; while (elem != NULL) { prevelem = elem; if (elem->type != TK_UNDO_SEPARATOR) { TkUndoSubAtom *sub = elem->apply; while (sub != NULL) { TkUndoSubAtom *next = sub->next; if (sub->action != NULL) { Tcl_DecrRefCount(sub->action); } ckfree(sub); sub = next; } sub = elem->revert; while (sub != NULL) { TkUndoSubAtom *next = sub->next; if (sub->action != NULL) { Tcl_DecrRefCount(sub->action); } ckfree(sub); sub = next; } } elem = elem->next; ckfree(prevelem); } stack->depth = stack->maxdepth; } } /* *---------------------------------------------------------------------- * * TkUndoClearStacks -- * * Clear both the undo and redo stack. * * Results: * None. * * Side effects: * None. * *---------------------------------------------------------------------- */ void TkUndoClearStacks( TkUndoRedoStack *stack) /* An Undo/Redo stack */ { TkUndoClearStack(&stack->undoStack); TkUndoClearStack(&stack->redoStack); stack->depth = 0; } /* *---------------------------------------------------------------------- * * TkUndoFreeStack * * Clear both the undo and redo stack and free the memory allocated to * the u/r stack pointer. * * Results: * None. * * Side effects: * None. * *---------------------------------------------------------------------- */ void TkUndoFreeStack( TkUndoRedoStack *stack) /* An Undo/Redo stack */ { TkUndoClearStacks(stack); ckfree(stack); } /* *---------------------------------------------------------------------- * * TkUndoCanRedo -- * * Returns true if redo is possible, i.e. if the redo stack is not empty. * * Results: * A boolean. * * Side effects: * None. * *---------------------------------------------------------------------- */ int TkUndoCanRedo( TkUndoRedoStack *stack) /* An Undo/Redo stack */ { return stack->redoStack != NULL; } /* *---------------------------------------------------------------------- * * TkUndoCanUndo -- * * Returns true if undo is possible, i.e. if the undo stack is not empty. * * Results: * A boolean. * * Side effects: * None. * *---------------------------------------------------------------------- */ int TkUndoCanUndo( TkUndoRedoStack *stack) /* An Undo/Redo stack */ { return stack->undoStack != NULL; } /* *---------------------------------------------------------------------- * * TkUndoInsertUndoSeparator -- * * Insert a separator on the undo stack, indicating a border for an * undo/redo chunk. * * Results: * None. * * Side effects: * None. * *---------------------------------------------------------------------- */ void TkUndoInsertUndoSeparator( TkUndoRedoStack *stack) { if (TkUndoInsertSeparator(&stack->undoStack)) { stack->depth++; TkUndoSetMaxDepth(stack, stack->maxdepth); } } /* *---------------------------------------------------------------------- * * TkUndoRevert -- * * Undo a compound action on the stack. * * Results: * A Tcl status code * * Side effects: * None. * *---------------------------------------------------------------------- */ int TkUndoRevert( TkUndoRedoStack *stack) { TkUndoAtom *elem; /* * Insert a separator on the undo and the redo stack. */ TkUndoInsertUndoSeparator(stack); TkUndoInsertSeparator(&stack->redoStack); /* * Pop and skip the first separator if there is one. */ elem = TkUndoPopStack(&stack->undoStack); if (elem == NULL) { return TCL_ERROR; } if (elem->type == TK_UNDO_SEPARATOR) { ckfree(elem); elem = TkUndoPopStack(&stack->undoStack); } while (elem != NULL && elem->type != TK_UNDO_SEPARATOR) { /* * Note that we currently ignore errors thrown here. */ EvaluateActionList(stack->interp, elem->revert); TkUndoPushStack(&stack->redoStack, elem); elem = TkUndoPopStack(&stack->undoStack); } /* * Insert a separator on the redo stack. */ TkUndoInsertSeparator(&stack->redoStack); stack->depth--; return TCL_OK; } /* *---------------------------------------------------------------------- * * TkUndoApply -- * * Redo a compound action on the stack. * * Results: * A Tcl status code * * Side effects: * None. * *---------------------------------------------------------------------- */ int TkUndoApply( TkUndoRedoStack *stack) { TkUndoAtom *elem; /* * Insert a separator on the undo stack. */ TkUndoInsertSeparator(&stack->undoStack); /* * Pop and skip the first separator if there is one. */ elem = TkUndoPopStack(&stack->redoStack); if (elem == NULL) { return TCL_ERROR; } if (elem->type == TK_UNDO_SEPARATOR) { ckfree(elem); elem = TkUndoPopStack(&stack->redoStack); } while (elem != NULL && elem->type != TK_UNDO_SEPARATOR) { /* * Note that we currently ignore errors thrown here. */ EvaluateActionList(stack->interp, elem->apply); TkUndoPushStack(&stack->undoStack, elem); elem = TkUndoPopStack(&stack->redoStack); } /* * Insert a separator on the undo stack. */ TkUndoInsertSeparator(&stack->undoStack); stack->depth++; return TCL_OK; } /* *---------------------------------------------------------------------- * * EvaluateActionList -- * * Execute a linked list of undo/redo sub-atoms. If any sub-atom returns * a non TCL_OK value, execution of subsequent sub-atoms is cancelled and * the error returned immediately. * * Results: * A Tcl status code * * Side effects: * The undo/redo subAtoms can perform arbitrary actions. * *---------------------------------------------------------------------- */ static int EvaluateActionList( Tcl_Interp *interp, /* Interpreter to evaluate the action in. */ TkUndoSubAtom *action) /* Head of linked list of action steps to * perform. */ { int result = TCL_OK; while (action != NULL) { if (action->funcPtr != NULL) { result = action->funcPtr(interp, action->clientData, action->action); } else if (action->command != NULL) { Tcl_Obj *cmdNameObj, *evalObj; cmdNameObj = Tcl_NewObj(); evalObj = Tcl_NewObj(); Tcl_IncrRefCount(evalObj); Tcl_GetCommandFullName(interp, action->command, cmdNameObj); Tcl_ListObjAppendElement(NULL, evalObj, cmdNameObj); if (action->action != NULL) { Tcl_ListObjAppendList(NULL, evalObj, action->action); } result = Tcl_EvalObjEx(interp, evalObj, TCL_EVAL_GLOBAL); Tcl_DecrRefCount(evalObj); } else { result = Tcl_EvalObjEx(interp, action->action, TCL_EVAL_GLOBAL); } if (result != TCL_OK) { return result; } action = action->next; } return result; } /* * Local Variables: * mode: c * c-basic-offset: 4 * fill-column: 78 * End: */