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[/] [or1k/] [trunk/] [insight/] [itcl/] [itcl/] [generic/] [itcl_objects.c] - Rev 578
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/* * ------------------------------------------------------------------------ * PACKAGE: [incr Tcl] * DESCRIPTION: Object-Oriented Extensions to Tcl * * [incr Tcl] provides object-oriented extensions to Tcl, much as * C++ provides object-oriented extensions to C. It provides a means * of encapsulating related procedures together with their shared data * in a local namespace that is hidden from the outside world. It * promotes code re-use through inheritance. More than anything else, * it encourages better organization of Tcl applications through the * object-oriented paradigm, leading to code that is easier to * understand and maintain. * * This segment handles "objects" which are instantiated from class * definitions. Objects contain public/protected/private data members * from all classes in a derivation hierarchy. * * ======================================================================== * AUTHOR: Michael J. McLennan * Bell Labs Innovations for Lucent Technologies * mmclennan@lucent.com * http://www.tcltk.com/itcl * * RCS: $Id: itcl_objects.c,v 1.1.1.1 2002-01-16 10:24:46 markom Exp $ * ======================================================================== * Copyright (c) 1993-1998 Lucent Technologies, Inc. * ------------------------------------------------------------------------ * See the file "license.terms" for information on usage and redistribution * of this file, and for a DISCLAIMER OF ALL WARRANTIES. */ #include "itclInt.h" /* * FORWARD DECLARATIONS */ static void ItclReportObjectUsage _ANSI_ARGS_((Tcl_Interp *interp, ItclObject* obj)); static char* ItclTraceThisVar _ANSI_ARGS_((ClientData cdata, Tcl_Interp *interp, char *name1, char *name2, int flags)); static void ItclDestroyObject _ANSI_ARGS_((ClientData cdata)); static void ItclFreeObject _ANSI_ARGS_((char* cdata)); static int ItclDestructBase _ANSI_ARGS_((Tcl_Interp *interp, ItclObject* obj, ItclClass* cdefn, int flags)); static void ItclCreateObjVar _ANSI_ARGS_((Tcl_Interp *interp, ItclVarDefn* vdefn, ItclObject* obj)); /* * ------------------------------------------------------------------------ * Itcl_CreateObject() * * Creates a new object instance belonging to the given class. * Supports complex object names like "namesp::namesp::name" by * following the namespace path and creating the object in the * desired namespace. * * Automatically creates and initializes data members, including the * built-in protected "this" variable containing the object name. * Installs an access command in the current namespace, and invokes * the constructor to initialize the object. * * If any errors are encountered, the object is destroyed and this * procedure returns TCL_ERROR (along with an error message in the * interpreter). Otherwise, it returns TCL_OK, along with a pointer * to the new object data in roPtr. * ------------------------------------------------------------------------ */ int Itcl_CreateObject(interp, name, cdefn, objc, objv, roPtr) Tcl_Interp *interp; /* interpreter mananging new object */ char* name; /* name of new object */ ItclClass *cdefn; /* class for new object */ int objc; /* number of arguments */ Tcl_Obj *CONST objv[]; /* argument objects */ ItclObject **roPtr; /* returns: pointer to object data */ { ItclClass *cdefnPtr = (ItclClass*)cdefn; int result = TCL_OK; char *head, *tail; Tcl_DString buffer, objName; Tcl_Namespace *parentNs; ItclContext context; Tcl_Command cmd; ItclObject *newObj; ItclClass *cdPtr; ItclVarDefn *vdefn; ItclHierIter hier; Tcl_HashEntry *entry; Tcl_HashSearch place; int newEntry; Itcl_InterpState istate; /* * If installing an object access command will clobber another * command, signal an error. */ cmd = Tcl_FindCommand(interp, name, (Tcl_Namespace*)NULL, /* flags */ 0); if (cmd != NULL && !Itcl_IsStub(cmd)) { Tcl_AppendStringsToObj(Tcl_GetObjResult(interp), "command \"", name, "\" already exists in namespace \"", Tcl_GetCurrentNamespace(interp)->fullName, "\"", (char*)NULL); return TCL_ERROR; } /* * Extract the namespace context and the simple object * name for the new object. */ Itcl_ParseNamespPath(name, &buffer, &head, &tail); if (head) { parentNs = Itcl_FindClassNamespace(interp, head); if (!parentNs) { Tcl_AppendStringsToObj(Tcl_GetObjResult(interp), "namespace \"", head, "\" not found in context \"", Tcl_GetCurrentNamespace(interp)->fullName, "\"", (char*)NULL); Tcl_DStringFree(&buffer); return TCL_ERROR; } } else { parentNs = Tcl_GetCurrentNamespace(interp); } Tcl_DStringInit(&objName); if (parentNs != Tcl_GetGlobalNamespace(interp)) { Tcl_DStringAppend(&objName, parentNs->fullName, -1); } Tcl_DStringAppend(&objName, "::", -1); Tcl_DStringAppend(&objName, tail, -1); /* * Create a new object and initialize it. */ newObj = (ItclObject*)ckalloc(sizeof(ItclObject)); newObj->classDefn = cdefnPtr; Itcl_PreserveData((ClientData)cdefnPtr); newObj->dataSize = cdefnPtr->numInstanceVars; newObj->data = (Var**)ckalloc((unsigned)(newObj->dataSize*sizeof(Var*))); newObj->constructed = (Tcl_HashTable*)ckalloc(sizeof(Tcl_HashTable)); Tcl_InitHashTable(newObj->constructed, TCL_STRING_KEYS); newObj->destructed = NULL; /* * Add a command to the current namespace with the object name. * This is done before invoking the constructors so that the * command can be used during construction to query info. */ Itcl_PreserveData((ClientData)newObj); newObj->accessCmd = Tcl_CreateObjCommand(interp, Tcl_DStringValue(&objName), Itcl_HandleInstance, (ClientData)newObj, ItclDestroyObject); Itcl_PreserveData((ClientData)newObj); /* while we're using this... */ Itcl_EventuallyFree((ClientData)newObj, ItclFreeObject); Tcl_DStringFree(&buffer); Tcl_DStringFree(&objName); /* * Install the class namespace and object context so that * the object's data members can be initialized via simple * "set" commands. */ if (Itcl_PushContext(interp, (ItclMember*)NULL, cdefnPtr, newObj, &context) != TCL_OK) { return TCL_ERROR; } Itcl_InitHierIter(&hier, cdefn); cdPtr = Itcl_AdvanceHierIter(&hier); while (cdPtr != NULL) { entry = Tcl_FirstHashEntry(&cdPtr->variables, &place); while (entry) { vdefn = (ItclVarDefn*)Tcl_GetHashValue(entry); if ((vdefn->member->flags & ITCL_THIS_VAR) != 0) { if (cdPtr == cdefnPtr) { ItclCreateObjVar(interp, vdefn, newObj); Tcl_SetVar2(interp, "this", (char*)NULL, "", 0); Tcl_TraceVar2(interp, "this", (char*)NULL, TCL_TRACE_READS|TCL_TRACE_WRITES, ItclTraceThisVar, (ClientData)newObj); } } else if ( (vdefn->member->flags & ITCL_COMMON) == 0) { ItclCreateObjVar(interp, vdefn, newObj); } entry = Tcl_NextHashEntry(&place); } cdPtr = Itcl_AdvanceHierIter(&hier); } Itcl_DeleteHierIter(&hier); Itcl_PopContext(interp, &context); /* back to calling context */ /* * Now construct the object. Look for a constructor in the * most-specific class, and if there is one, invoke it. * This will cause a chain reaction, making sure that all * base classes constructors are invoked as well, in order * from least- to most-specific. Any constructors that are * not called out explicitly in "initCode" code fragments are * invoked implicitly without arguments. */ result = Itcl_InvokeMethodIfExists(interp, "constructor", cdefn, newObj, objc, objv); /* * If there is no constructor, construct the base classes * in case they have constructors. This will cause the * same chain reaction. */ if (!Tcl_FindHashEntry(&cdefn->functions, "constructor")) { result = Itcl_ConstructBase(interp, newObj, cdefn); } /* * If construction failed, then delete the object access * command. This will destruct the object and delete the * object data. Be careful to save and restore the interpreter * state, since the destructors may generate errors of their own. */ if (result != TCL_OK) { istate = Itcl_SaveInterpState(interp, result); if (newObj->accessCmd != NULL) { Tcl_DeleteCommandFromToken(interp, newObj->accessCmd); newObj->accessCmd = NULL; } result = Itcl_RestoreInterpState(interp, istate); } /* * At this point, the object is fully constructed. * Destroy the "constructed" table in the object data, since * it is no longer needed. */ Tcl_DeleteHashTable(newObj->constructed); ckfree((char*)newObj->constructed); newObj->constructed = NULL; /* * Add it to the list of all known objects. The only * tricky thing to watch out for is the case where the * object deleted itself inside its own constructor. * In that case, we don't want to add the object to * the list of valid objects. We can determine that * the object deleted itself by checking to see if its * accessCmd member is NULL. */ if ((result == TCL_OK) && (newObj->accessCmd != NULL)) { entry = Tcl_CreateHashEntry(&cdefnPtr->info->objects, (char*)newObj->accessCmd, &newEntry); Tcl_SetHashValue(entry, (ClientData)newObj); } /* * Release the object. If it was destructed above, it will * die at this point. */ Itcl_ReleaseData((ClientData)newObj); *roPtr = newObj; return result; } /* * ------------------------------------------------------------------------ * Itcl_DeleteObject() * * Attempts to delete an object by invoking its destructor. * * If the destructor is successful, then the object is deleted by * removing its access command, and this procedure returns TCL_OK. * Otherwise, the object will remain alive, and this procedure * returns TCL_ERROR (along with an error message in the interpreter). * ------------------------------------------------------------------------ */ int Itcl_DeleteObject(interp, contextObj) Tcl_Interp *interp; /* interpreter mananging object */ ItclObject *contextObj; /* object to be deleted */ { ItclClass *cdefnPtr = (ItclClass*)contextObj->classDefn; Tcl_HashEntry *entry; Command *cmdPtr; Itcl_PreserveData((ClientData)contextObj); /* * Invoke the object's destructors. */ if (Itcl_DestructObject(interp, contextObj, 0) != TCL_OK) { Itcl_ReleaseData((ClientData)contextObj); return TCL_ERROR; } /* * Remove the object from the global list. */ entry = Tcl_FindHashEntry(&cdefnPtr->info->objects, (char*)contextObj->accessCmd); if (entry) { Tcl_DeleteHashEntry(entry); } /* * Change the object's access command so that it can be * safely deleted without attempting to destruct the object * again. Then delete the access command. If this is * the last use of the object data, the object will die here. */ cmdPtr = (Command*)contextObj->accessCmd; cmdPtr->deleteProc = Itcl_ReleaseData; Tcl_DeleteCommandFromToken(interp, contextObj->accessCmd); contextObj->accessCmd = NULL; Itcl_ReleaseData((ClientData)contextObj); /* object should die here */ return TCL_OK; } /* * ------------------------------------------------------------------------ * Itcl_DestructObject() * * Invokes the destructor for a particular object. Usually invoked * by Itcl_DeleteObject() or Itcl_DestroyObject() as a part of the * object destruction process. If the ITCL_IGNORE_ERRS flag is * included, all destructors are invoked even if errors are * encountered, and the result will always be TCL_OK. * * Returns TCL_OK on success, or TCL_ERROR (along with an error * message in the interpreter) if anything goes wrong. * ------------------------------------------------------------------------ */ int Itcl_DestructObject(interp, contextObj, flags) Tcl_Interp *interp; /* interpreter mananging new object */ ItclObject *contextObj; /* object to be destructed */ int flags; /* flags: ITCL_IGNORE_ERRS */ { int result; /* * If there is a "destructed" table, then this object is already * being destructed. Flag an error, unless errors are being * ignored. */ if (contextObj->destructed) { if ((flags & ITCL_IGNORE_ERRS) == 0) { Tcl_AppendStringsToObj(Tcl_GetObjResult(interp), "can't delete an object while it is being destructed", (char*)NULL); return TCL_ERROR; } return TCL_OK; } /* * Create a "destructed" table to keep track of which destructors * have been invoked. This is used in ItclDestructBase to make * sure that all base class destructors have been called, * explicitly or implicitly. */ contextObj->destructed = (Tcl_HashTable*)ckalloc(sizeof(Tcl_HashTable)); Tcl_InitHashTable(contextObj->destructed, TCL_STRING_KEYS); /* * Destruct the object starting from the most-specific class. * If all goes well, return the null string as the result. */ result = ItclDestructBase(interp, contextObj, contextObj->classDefn, flags); if (result == TCL_OK) { Tcl_ResetResult(interp); } Tcl_DeleteHashTable(contextObj->destructed); ckfree((char*)contextObj->destructed); contextObj->destructed = NULL; return result; } /* * ------------------------------------------------------------------------ * ItclDestructBase() * * Invoked by Itcl_DestructObject() to recursively destruct an object * from the specified class level. Finds and invokes the destructor * for the specified class, and then recursively destructs all base * classes. If the ITCL_IGNORE_ERRS flag is included, all destructors * are invoked even if errors are encountered, and the result will * always be TCL_OK. * * Returns TCL_OK on success, or TCL_ERROR (along with an error message * in interp->result) on error. * ------------------------------------------------------------------------ */ static int ItclDestructBase(interp, contextObj, contextClass, flags) Tcl_Interp *interp; /* interpreter */ ItclObject *contextObj; /* object being destructed */ ItclClass *contextClass; /* current class being destructed */ int flags; /* flags: ITCL_IGNORE_ERRS */ { int result; Itcl_ListElem *elem; ItclClass *cdefn; /* * Look for a destructor in this class, and if found, * invoke it. */ if (!Tcl_FindHashEntry(contextObj->destructed, contextClass->name)) { result = Itcl_InvokeMethodIfExists(interp, "destructor", contextClass, contextObj, 0, (Tcl_Obj* CONST*)NULL); if (result != TCL_OK) { return TCL_ERROR; } } /* * Scan through the list of base classes recursively and destruct * them. Traverse the list in normal order, so that we destruct * from most- to least-specific. */ elem = Itcl_FirstListElem(&contextClass->bases); while (elem) { cdefn = (ItclClass*)Itcl_GetListValue(elem); if (ItclDestructBase(interp, contextObj, cdefn, flags) != TCL_OK) { return TCL_ERROR; } elem = Itcl_NextListElem(elem); } /* * Throw away any result from the destructors and return. */ Tcl_ResetResult(interp); return TCL_OK; } /* * ------------------------------------------------------------------------ * Itcl_FindObject() * * Searches for an object with the specified name, which have * namespace scope qualifiers like "namesp::namesp::name", or may * be a scoped value such as "namespace inscope ::foo obj". * * If an error is encountered, this procedure returns TCL_ERROR * along with an error message in the interpreter. Otherwise, it * returns TCL_OK. If an object was found, "roPtr" returns a * pointer to the object data. Otherwise, it returns NULL. * ------------------------------------------------------------------------ */ int Itcl_FindObject(interp, name, roPtr) Tcl_Interp *interp; /* interpreter containing this object */ char *name; /* name of the object */ ItclObject **roPtr; /* returns: object data or NULL */ { Tcl_Namespace *contextNs = NULL; char *cmdName; Tcl_Command cmd; Command *cmdPtr; /* * The object name may be a scoped value of the form * "namespace inscope <namesp> <command>". If it is, * decode it. */ if (Itcl_DecodeScopedCommand(interp, name, &contextNs, &cmdName) != TCL_OK) { return TCL_ERROR; } /* * Look for the object's access command, and see if it has * the appropriate command handler. */ cmd = Tcl_FindCommand(interp, cmdName, contextNs, /* flags */ 0); if (cmd != NULL && Itcl_IsObject(cmd)) { cmdPtr = (Command*)cmd; *roPtr = (ItclObject*)cmdPtr->objClientData; } else { *roPtr = NULL; } if (cmdName != name) { ckfree(cmdName); } return TCL_OK; } /* * ------------------------------------------------------------------------ * Itcl_IsObject() * * Checks the given Tcl command to see if it represents an itcl object. * Returns non-zero if the command is associated with an object. * ------------------------------------------------------------------------ */ int Itcl_IsObject(cmd) Tcl_Command cmd; /* command being tested */ { Command *cmdPtr = (Command*)cmd; if (cmdPtr->deleteProc == ItclDestroyObject) { return 1; } /* * This may be an imported command. Try to get the real * command and see if it represents an object. */ cmdPtr = (Command*)TclGetOriginalCommand(cmd); if (cmdPtr && cmdPtr->deleteProc == ItclDestroyObject) { return 1; } return 0; } /* * ------------------------------------------------------------------------ * Itcl_ObjectIsa() * * Checks to see if an object belongs to the given class. An object * "is-a" member of the class if the class appears anywhere in its * inheritance hierarchy. Returns non-zero if the object belongs to * the class, and zero otherwise. * ------------------------------------------------------------------------ */ int Itcl_ObjectIsa(contextObj, cdefn) ItclObject *contextObj; /* object being tested */ ItclClass *cdefn; /* class to test for "is-a" relationship */ { Tcl_HashEntry *entry; entry = Tcl_FindHashEntry(&contextObj->classDefn->heritage, (char*)cdefn); return (entry != NULL); } /* * ------------------------------------------------------------------------ * Itcl_HandleInstance() * * Invoked by Tcl whenever the user issues a command associated with * an object instance. Handles the following syntax: * * <objName> <method> <args>... * * ------------------------------------------------------------------------ */ int Itcl_HandleInstance(clientData, interp, objc, objv) ClientData clientData; /* object definition */ Tcl_Interp *interp; /* current interpreter */ int objc; /* number of arguments */ Tcl_Obj *CONST objv[]; /* argument objects */ { ItclObject *contextObj = (ItclObject*)clientData; int result; char *token; Tcl_HashEntry *entry; ItclMemberFunc *mfunc; ItclObjectInfo *info; ItclContext context; CallFrame *framePtr; if (objc < 2) { Tcl_AppendStringsToObj(Tcl_GetObjResult(interp), "wrong # args: should be one of...", (char*)NULL); ItclReportObjectUsage(interp, contextObj); return TCL_ERROR; } /* * Make sure that the specified operation is really an * object method, and it is accessible. If not, return usage * information for the object. */ token = Tcl_GetStringFromObj(objv[1], (int*)NULL); mfunc = NULL; entry = Tcl_FindHashEntry(&contextObj->classDefn->resolveCmds, token); if (entry) { mfunc = (ItclMemberFunc*)Tcl_GetHashValue(entry); if ((mfunc->member->flags & ITCL_COMMON) != 0) { mfunc = NULL; } else if (mfunc->member->protection != ITCL_PUBLIC) { Tcl_Namespace *contextNs = Itcl_GetTrueNamespace(interp, mfunc->member->classDefn->info); if (!Itcl_CanAccessFunc(mfunc, contextNs)) { mfunc = NULL; } } } if ( !mfunc && (*token != 'i' || strcmp(token,"info") != 0) ) { Tcl_AppendStringsToObj(Tcl_GetObjResult(interp), "bad option \"", token, "\": should be one of...", (char*)NULL); ItclReportObjectUsage(interp, contextObj); return TCL_ERROR; } /* * Install an object context and invoke the method. * * TRICKY NOTE: We need to pass the object context into the * method, but activating the context here puts us one level * down, and when the method is called, it will activate its * own context, putting us another level down. If anyone * were to execute an "uplevel" command in the method, they * would notice the extra call frame. So we mark this frame * as "transparent" and Itcl_EvalMemberCode will automatically * do an "uplevel" operation to correct the problem. */ info = contextObj->classDefn->info; if (Itcl_PushContext(interp, (ItclMember*)NULL, contextObj->classDefn, contextObj, &context) != TCL_OK) { return TCL_ERROR; } framePtr = &context.frame; Itcl_PushStack((ClientData)framePtr, &info->transparentFrames); result = Itcl_EvalArgs(interp, objc-1, objv+1); Itcl_PopStack(&info->transparentFrames); Itcl_PopContext(interp, &context); return result; } /* * ------------------------------------------------------------------------ * Itcl_GetInstanceVar() * * Returns the current value for an object data member. The member * name is interpreted with respect to the given class scope, which * is usually the most-specific class for the object. * * If successful, this procedure returns a pointer to a string value * which remains alive until the variable changes it value. If * anything goes wrong, this returns NULL. * ------------------------------------------------------------------------ */ char* Itcl_GetInstanceVar(interp, name, contextObj, contextClass) Tcl_Interp *interp; /* current interpreter */ char *name; /* name of desired instance variable */ ItclObject *contextObj; /* current object */ ItclClass *contextClass; /* name is interpreted in this scope */ { ItclContext context; char *val; /* * Make sure that the current namespace context includes an * object that is being manipulated. */ if (contextObj == NULL) { Tcl_ResetResult(interp); Tcl_AppendStringsToObj(Tcl_GetObjResult(interp), "cannot access object-specific info without an object context", (char*)NULL); return NULL; } /* * Install the object context and access the data member * like any other variable. */ if (Itcl_PushContext(interp, (ItclMember*)NULL, contextClass, contextObj, &context) != TCL_OK) { return NULL; } val = Tcl_GetVar2(interp, name, (char*)NULL, TCL_LEAVE_ERR_MSG); Itcl_PopContext(interp, &context); return val; } /* * ------------------------------------------------------------------------ * ItclReportObjectUsage() * * Appends information to the given interp summarizing the usage * for all of the methods available for this object. Useful when * reporting errors in Itcl_HandleInstance(). * ------------------------------------------------------------------------ */ static void ItclReportObjectUsage(interp, contextObj) Tcl_Interp *interp; /* current interpreter */ ItclObject *contextObj; /* current object */ { ItclClass *cdefnPtr = (ItclClass*)contextObj->classDefn; int ignore = ITCL_CONSTRUCTOR | ITCL_DESTRUCTOR | ITCL_COMMON; int cmp; char *name; Itcl_List cmdList; Itcl_ListElem *elem; Tcl_HashEntry *entry; Tcl_HashSearch place; ItclMemberFunc *mfunc, *cmpDefn; Tcl_Obj *resultPtr; /* * Scan through all methods in the virtual table and sort * them in alphabetical order. Report only the methods * that have simple names (no ::'s) and are accessible. */ Itcl_InitList(&cmdList); entry = Tcl_FirstHashEntry(&cdefnPtr->resolveCmds, &place); while (entry) { name = Tcl_GetHashKey(&cdefnPtr->resolveCmds, entry); mfunc = (ItclMemberFunc*)Tcl_GetHashValue(entry); if (strstr(name,"::") || (mfunc->member->flags & ignore) != 0) { mfunc = NULL; } else if (mfunc->member->protection != ITCL_PUBLIC) { Tcl_Namespace *contextNs = Itcl_GetTrueNamespace(interp, mfunc->member->classDefn->info); if (!Itcl_CanAccessFunc(mfunc, contextNs)) { mfunc = NULL; } } if (mfunc) { elem = Itcl_FirstListElem(&cmdList); while (elem) { cmpDefn = (ItclMemberFunc*)Itcl_GetListValue(elem); cmp = strcmp(mfunc->member->name, cmpDefn->member->name); if (cmp < 0) { Itcl_InsertListElem(elem, (ClientData)mfunc); mfunc = NULL; break; } else if (cmp == 0) { mfunc = NULL; break; } elem = Itcl_NextListElem(elem); } if (mfunc) { Itcl_AppendList(&cmdList, (ClientData)mfunc); } } entry = Tcl_NextHashEntry(&place); } /* * Add a series of statements showing usage info. */ resultPtr = Tcl_GetObjResult(interp); elem = Itcl_FirstListElem(&cmdList); while (elem) { mfunc = (ItclMemberFunc*)Itcl_GetListValue(elem); Tcl_AppendToObj(resultPtr, "\n ", -1); Itcl_GetMemberFuncUsage(mfunc, contextObj, resultPtr); elem = Itcl_NextListElem(elem); } Itcl_DeleteList(&cmdList); } /* * ------------------------------------------------------------------------ * ItclTraceThisVar() * * Invoked to handle read/write traces on the "this" variable built * into each object. * * On read, this procedure updates the "this" variable to contain the * current object name. This is done dynamically, since an object's * identity can change if its access command is renamed. * * On write, this procedure returns an error string, warning that * the "this" variable cannot be set. * ------------------------------------------------------------------------ */ /* ARGSUSED */ static char* ItclTraceThisVar(cdata, interp, name1, name2, flags) ClientData cdata; /* object instance data */ Tcl_Interp *interp; /* interpreter managing this variable */ char *name1; /* variable name */ char *name2; /* unused */ int flags; /* flags indicating read/write */ { ItclObject *contextObj = (ItclObject*)cdata; char *objName; Tcl_Obj *objPtr; /* * Handle read traces on "this" */ if ((flags & TCL_TRACE_READS) != 0) { objPtr = Tcl_NewStringObj("", -1); Tcl_IncrRefCount(objPtr); if (contextObj->accessCmd) { Tcl_GetCommandFullName(contextObj->classDefn->interp, contextObj->accessCmd, objPtr); } objName = Tcl_GetStringFromObj(objPtr, (int*)NULL); Tcl_SetVar(interp, name1, objName, 0); Tcl_DecrRefCount(objPtr); return NULL; } /* * Handle write traces on "this" */ if ((flags & TCL_TRACE_WRITES) != 0) { return "variable \"this\" cannot be modified"; } return NULL; } /* * ------------------------------------------------------------------------ * ItclDestroyObject() * * Invoked when the object access command is deleted to implicitly * destroy the object. Invokes the object's destructors, ignoring * any errors encountered along the way. Removes the object from * the list of all known objects and releases the access command's * claim to the object data. * * Note that the usual way to delete an object is via Itcl_DeleteObject(). * This procedure is provided as a back-up, to handle the case when * an object is deleted by removing its access command. * ------------------------------------------------------------------------ */ static void ItclDestroyObject(cdata) ClientData cdata; /* object instance data */ { ItclObject *contextObj = (ItclObject*)cdata; ItclClass *cdefnPtr = (ItclClass*)contextObj->classDefn; Tcl_HashEntry *entry; Itcl_InterpState istate; /* * Attempt to destruct the object, but ignore any errors. */ istate = Itcl_SaveInterpState(cdefnPtr->interp, 0); Itcl_DestructObject(cdefnPtr->interp, contextObj, ITCL_IGNORE_ERRS); Itcl_RestoreInterpState(cdefnPtr->interp, istate); /* * Now, remove the object from the global object list. * We're careful to do this here, after calling the destructors. * Once the access command is nulled out, the "this" variable * won't work properly. */ if (contextObj->accessCmd) { entry = Tcl_FindHashEntry(&cdefnPtr->info->objects, (char*)contextObj->accessCmd); if (entry) { Tcl_DeleteHashEntry(entry); } contextObj->accessCmd = NULL; } Itcl_ReleaseData((ClientData)contextObj); } /* * ------------------------------------------------------------------------ * ItclFreeObject() * * Deletes all instance variables and frees all memory associated with * the given object instance. This is usually invoked automatically * by Itcl_ReleaseData(), when an object's data is no longer being used. * ------------------------------------------------------------------------ */ static void ItclFreeObject(cdata) char* cdata; /* object instance data */ { ItclObject *contextObj = (ItclObject*)cdata; Tcl_Interp *interp = contextObj->classDefn->interp; int i; ItclClass *cdPtr; ItclHierIter hier; Tcl_HashSearch place; Tcl_HashEntry *entry; ItclVarDefn *vdefn; ItclContext context; Itcl_InterpState istate; /* * Install the class namespace and object context so that * the object's data members can be destroyed via simple * "unset" commands. This makes sure that traces work properly * and all memory gets cleaned up. * * NOTE: Be careful to save and restore the interpreter state. * Data can get freed in the middle of any operation, and * we can't affort to clobber the interpreter with any errors * from below. */ istate = Itcl_SaveInterpState(interp, 0); /* * Scan through all object-specific data members and destroy the * actual variables that maintain the object state. Do this * by unsetting each variable, so that traces are fired off * correctly. Make sure that the built-in "this" variable is * only destroyed once. Also, be careful to activate the * namespace for each class, so that private variables can * be accessed. */ Itcl_InitHierIter(&hier, contextObj->classDefn); cdPtr = Itcl_AdvanceHierIter(&hier); while (cdPtr != NULL) { if (Itcl_PushContext(interp, (ItclMember*)NULL, cdPtr, contextObj, &context) == TCL_OK) { entry = Tcl_FirstHashEntry(&cdPtr->variables, &place); while (entry) { vdefn = (ItclVarDefn*)Tcl_GetHashValue(entry); if ((vdefn->member->flags & ITCL_THIS_VAR) != 0) { if (cdPtr == contextObj->classDefn) { Tcl_UnsetVar2(interp, vdefn->member->fullname, (char*)NULL, 0); } } else if ((vdefn->member->flags & ITCL_COMMON) == 0) { Tcl_UnsetVar2(interp, vdefn->member->fullname, (char*)NULL, 0); } entry = Tcl_NextHashEntry(&place); } Itcl_PopContext(interp, &context); } cdPtr = Itcl_AdvanceHierIter(&hier); } Itcl_DeleteHierIter(&hier); /* * Free the memory associated with object-specific variables. * For normal variables this would be done automatically by * CleanupVar() when the variable is unset. But object-specific * variables are protected by an extra reference count, and they * must be deleted explicitly here. */ for (i=0; i < contextObj->dataSize; i++) { if (contextObj->data[i]) { ckfree((char*)contextObj->data[i]); } } Itcl_RestoreInterpState(interp, istate); /* * Free any remaining memory associated with the object. */ ckfree((char*)contextObj->data); if (contextObj->constructed) { Tcl_DeleteHashTable(contextObj->constructed); ckfree((char*)contextObj->constructed); } if (contextObj->destructed) { Tcl_DeleteHashTable(contextObj->destructed); ckfree((char*)contextObj->destructed); } Itcl_ReleaseData((ClientData)contextObj->classDefn); ckfree((char*)contextObj); } /* * ------------------------------------------------------------------------ * ItclCreateObjVar() * * Creates one variable acting as a data member for a specific * object. Initializes the variable according to its definition, * and sets up its reference count so that it cannot be deleted * by ordinary means. Installs the new variable directly into * the data array for the specified object. * ------------------------------------------------------------------------ */ static void ItclCreateObjVar(interp, vdefn, contextObj) Tcl_Interp* interp; /* interpreter managing this object */ ItclVarDefn* vdefn; /* variable definition */ ItclObject* contextObj; /* object being updated */ { Var *varPtr; Tcl_HashEntry *entry; ItclVarLookup *vlookup; ItclContext context; varPtr = _TclNewVar(); varPtr->name = vdefn->member->name; varPtr->nsPtr = (Namespace*)vdefn->member->classDefn->namesp; /* * NOTE: Tcl reports a "dangling upvar" error for variables * with a null "hPtr" field. Put something non-zero * in here to keep Tcl_SetVar2() happy. The only time * this field is really used is it remove a variable * from the hash table that contains it in CleanupVar, * but since these variables are protected by their * higher refCount, they will not be deleted by CleanupVar * anyway. These variables are unset and removed in * ItclFreeObject(). */ varPtr->hPtr = (Tcl_HashEntry*)0x1; varPtr->refCount = 1; /* protect from being deleted */ /* * Install the new variable in the object's data array. * Look up the appropriate index for the object using * the data table in the class definition. */ entry = Tcl_FindHashEntry(&contextObj->classDefn->resolveVars, vdefn->member->fullname); if (entry) { vlookup = (ItclVarLookup*)Tcl_GetHashValue(entry); contextObj->data[vlookup->var.index] = varPtr; } /* * If this variable has an initial value, initialize it * here using a "set" command. * * TRICKY NOTE: We push an object context for the class that * owns the variable, so that we don't have any trouble * accessing it. */ if (vdefn->init) { if (Itcl_PushContext(interp, (ItclMember*)NULL, vdefn->member->classDefn, contextObj, &context) == TCL_OK) { Tcl_SetVar2(interp, vdefn->member->fullname, (char*)NULL, vdefn->init, 0); Itcl_PopContext(interp, &context); } } } /* * ------------------------------------------------------------------------ * Itcl_ScopedVarResolver() * * This procedure is installed to handle variable resolution throughout * an entire interpreter. It looks for scoped variable references of * the form: * * @itcl ::namesp::namesp::object variable * * If a reference like this is recognized, this procedure finds the * desired variable in the object and returns the variable, along with * the status code TCL_OK. If the variable does not start with * "@itcl", this procedure returns TCL_CONTINUE, and variable * resolution continues using the normal rules. If anything goes * wrong, this procedure returns TCL_ERROR, and access to the * variable is denied. * ------------------------------------------------------------------------ */ int Itcl_ScopedVarResolver(interp, name, contextNs, flags, rPtr) Tcl_Interp *interp; /* current interpreter */ char *name; /* variable name being resolved */ Tcl_Namespace *contextNs; /* current namespace context */ int flags; /* TCL_LEAVE_ERR_MSG => leave error message */ Tcl_Var *rPtr; /* returns: resolved variable */ { int namec; char **namev; Tcl_Interp *errs; Tcl_CmdInfo cmdInfo; ItclObject *contextObj; ItclVarLookup *vlookup; Tcl_HashEntry *entry; /* * See if the variable starts with "@itcl". If not, then * let the variable resolution process continue. */ if (*name != '@' || strncmp(name, "@itcl", 5) != 0) { return TCL_CONTINUE; } /* * Break the variable name into parts and extract the object * name and the variable name. */ if (flags & TCL_LEAVE_ERR_MSG) { errs = interp; } else { errs = NULL; } if (Tcl_SplitList(errs, name, &namec, &namev) != TCL_OK) { return TCL_ERROR; } if (namec != 3) { if (errs) { Tcl_AppendStringsToObj(Tcl_GetObjResult(errs), "scoped variable \"", name, "\" is malformed: ", "should be: @itcl object variable", (char*)NULL); } ckfree((char*)namev); return TCL_ERROR; } /* * Look for the command representing the object and extract * the object context. */ if (!Tcl_GetCommandInfo(interp, namev[1], &cmdInfo)) { if (errs) { Tcl_AppendStringsToObj(Tcl_GetObjResult(errs), "can't resolve scoped variable \"", name, "\": ", "can't find object ", namev[1], (char*)NULL); } ckfree((char*)namev); return TCL_ERROR; } contextObj = (ItclObject*)cmdInfo.objClientData; /* * Resolve the variable with respect to the most-specific * class definition. */ entry = Tcl_FindHashEntry(&contextObj->classDefn->resolveVars, namev[2]); if (!entry) { if (errs) { Tcl_AppendStringsToObj(Tcl_GetObjResult(errs), "can't resolve scoped variable \"", name, "\": ", "no such data member ", namev[2], (char*)NULL); } ckfree((char*)namev); return TCL_ERROR; } vlookup = (ItclVarLookup*)Tcl_GetHashValue(entry); *rPtr = (Tcl_Var) contextObj->data[vlookup->var.index]; ckfree((char*)namev); return TCL_OK; }
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