/* * tclArithSeries.c -- * * This file contains the ArithSeries concrete abstract list * implementation. It implements the inner workings of the lseq command. * * Copyright © 2022 Brian S. Griffin. * * See the file "license.terms" for information on usage and redistribution of * this file, and for a DISCLAIMER OF ALL WARRANTIES. */ #include "tclInt.h" #include "tclArithSeries.h" #include /* -------------------------- ArithSeries object ---------------------------- */ #define ArithSeriesRepPtr(arithSeriesObjPtr) \ (ArithSeries *) ((arithSeriesObjPtr)->internalRep.twoPtrValue.ptr1) #define ArithSeriesIndexM(arithSeriesRepPtr, index) \ ((arithSeriesRepPtr)->isDouble ? \ (((ArithSeriesDbl*)(arithSeriesRepPtr))->start+((index) * ((ArithSeriesDbl*)(arithSeriesRepPtr))->step)) \ : \ ((arithSeriesRepPtr)->start+((index) * arithSeriesRepPtr->step))) #define ArithSeriesGetInternalRep(objPtr, arithRepPtr) \ do { \ const Tcl_ObjInternalRep *irPtr; \ irPtr = TclFetchInternalRep((objPtr), &tclArithSeriesType.objType); \ (arithRepPtr) = irPtr ? (ArithSeries *)irPtr->twoPtrValue.ptr1 : NULL; \ } while (0) /* * Prototypes for procedures defined later in this file: */ static void DupArithSeriesInternalRep (Tcl_Obj *srcPtr, Tcl_Obj *copyPtr); static void FreeArithSeriesInternalRep (Tcl_Obj *listPtr); static int SetArithSeriesFromAny (Tcl_Interp *interp, Tcl_Obj *objPtr); static void UpdateStringOfArithSeries (Tcl_Obj *arithSeriesObj); static Tcl_Obj *ArithSeriesObjStep(Tcl_Obj *arithSeriesPtr); static Tcl_Size ArithSeriesObjLength(Tcl_Obj *arithSeriesPtr); /* * The structure below defines the arithmetic series Tcl object type by * means of procedures that can be invoked by generic object code. * * The arithmetic series object is a special case of Tcl list representing * an interval of an arithmetic series in constant space. * * The arithmetic series is internally represented with three integers, * *start*, *end*, and *step*, Where the length is calculated with * the following algorithm: * * if RANGE == 0 THEN * ERROR * if RANGE > 0 * LEN is (((END-START)-1)/STEP) + 1 * else if RANGE < 0 * LEN is (((END-START)-1)/STEP) - 1 * * And where the equivalent's list I-th element is calculated * as: * * LIST[i] = START + (STEP * i) * * Zero elements ranges, like in the case of START=10 END=10 STEP=1 * are valid and will be equivalent to the empty list. */ const TclObjTypeWithAbstractList tclArithSeriesType = { {"arithseries", /* name */ FreeArithSeriesInternalRep, /* freeIntRepProc */ DupArithSeriesInternalRep, /* dupIntRepProc */ UpdateStringOfArithSeries, /* updateStringProc */ SetArithSeriesFromAny, /* setFromAnyProc */ TCL_OBJTYPE_V0_1( ArithSeriesObjLength )} }; /* *---------------------------------------------------------------------- * * ArithSeriesLen -- * * Compute the length of the equivalent list where * every element is generated starting from *start*, * and adding *step* to generate every successive element * that's < *end* for positive steps, or > *end* for negative * steps. * * Results: * * The length of the list generated by the given range, * that may be zero. * The function returns -1 if the list is of length infinite. * * Side effects: * * None. * *---------------------------------------------------------------------- */ static Tcl_WideInt ArithSeriesLen(Tcl_WideInt start, Tcl_WideInt end, Tcl_WideInt step) { Tcl_WideInt len; if (step == 0) { return 0; } len = 1 + ((end-start)/step); return (len < 0) ? -1 : len; } /* *---------------------------------------------------------------------- * * NewArithSeriesInt -- * * Creates a new ArithSeries object. The returned object has * refcount = 0. * * Results: * * A Tcl_Obj pointer to the created ArithSeries object. * A NULL pointer of the range is invalid. * * Side Effects: * * None. *---------------------------------------------------------------------- */ static Tcl_Obj * NewArithSeriesInt(Tcl_WideInt start, Tcl_WideInt end, Tcl_WideInt step, Tcl_WideInt len) { Tcl_WideInt length = (len>=0 ? len : ArithSeriesLen(start, end, step)); Tcl_Obj *arithSeriesObj; ArithSeries *arithSeriesRepPtr; TclNewObj(arithSeriesObj); if (length <= 0) { return arithSeriesObj; } arithSeriesRepPtr = (ArithSeries*) Tcl_Alloc(sizeof (ArithSeries)); arithSeriesRepPtr->isDouble = 0; arithSeriesRepPtr->start = start; arithSeriesRepPtr->end = end; arithSeriesRepPtr->step = step; arithSeriesRepPtr->len = length; arithSeriesRepPtr->elements = NULL; arithSeriesObj->internalRep.twoPtrValue.ptr1 = arithSeriesRepPtr; arithSeriesObj->internalRep.twoPtrValue.ptr2 = NULL; arithSeriesObj->typePtr = &tclArithSeriesType.objType; if (length > 0) Tcl_InvalidateStringRep(arithSeriesObj); return arithSeriesObj; } /* *---------------------------------------------------------------------- * * NewArithSeriesDbl -- * * Creates a new ArithSeries object with doubles. The returned object has * refcount = 0. * * Results: * * A Tcl_Obj pointer to the created ArithSeries object. * A NULL pointer of the range is invalid. * * Side Effects: * * None. *---------------------------------------------------------------------- */ static Tcl_Obj * NewArithSeriesDbl(double start, double end, double step, Tcl_WideInt len) { Tcl_WideInt length = (len>=0 ? len : ArithSeriesLen(start, end, step)); Tcl_Obj *arithSeriesObj; ArithSeriesDbl *arithSeriesRepPtr; TclNewObj(arithSeriesObj); if (length <= 0) { return arithSeriesObj; } arithSeriesRepPtr = (ArithSeriesDbl*) Tcl_Alloc(sizeof (ArithSeriesDbl)); arithSeriesRepPtr->isDouble = 1; arithSeriesRepPtr->start = start; arithSeriesRepPtr->end = end; arithSeriesRepPtr->step = step; arithSeriesRepPtr->len = length; arithSeriesRepPtr->elements = NULL; arithSeriesObj->internalRep.twoPtrValue.ptr1 = arithSeriesRepPtr; arithSeriesObj->internalRep.twoPtrValue.ptr2 = NULL; arithSeriesObj->typePtr = &tclArithSeriesType.objType; if (length > 0) Tcl_InvalidateStringRep(arithSeriesObj); return arithSeriesObj; } /* *---------------------------------------------------------------------- * * assignNumber -- * * Create the appropriate Tcl_Obj value for the given numeric values. * Used locally only for decoding [lseq] numeric arguments. * refcount = 0. * * Results: * * A Tcl_Obj pointer. * No assignment on error. * * Side Effects: * * None. *---------------------------------------------------------------------- */ static void assignNumber( int useDoubles, Tcl_WideInt *intNumberPtr, double *dblNumberPtr, Tcl_Obj *numberObj) { void *clientData; int tcl_number_type; if (Tcl_GetNumberFromObj(NULL, numberObj, &clientData, &tcl_number_type) != TCL_OK || tcl_number_type == TCL_NUMBER_BIG) { return; } if (useDoubles) { if (tcl_number_type != TCL_NUMBER_INT) { *dblNumberPtr = *(double *)clientData; } else { *dblNumberPtr = (double)*(Tcl_WideInt *)clientData; } } else { if (tcl_number_type == TCL_NUMBER_INT) { *intNumberPtr = *(Tcl_WideInt *)clientData; } else { *intNumberPtr = (Tcl_WideInt)*(double *)clientData; } } } /* *---------------------------------------------------------------------- * * TclNewArithSeriesObj -- * * Creates a new ArithSeries object. Some arguments may be NULL and will * be computed based on the other given arguments. * refcount = 0. * * Results: * * A Tcl_Obj pointer to the created ArithSeries object. * An empty Tcl_Obj if the range is invalid. * * Side Effects: * * None. *---------------------------------------------------------------------- */ int TclNewArithSeriesObj( Tcl_Interp *interp, /* For error reporting */ Tcl_Obj **arithSeriesObj, /* return value */ int useDoubles, /* Flag indicates values start, ** end, step, are treated as doubles */ Tcl_Obj *startObj, /* Starting value */ Tcl_Obj *endObj, /* Ending limit */ Tcl_Obj *stepObj, /* increment value */ Tcl_Obj *lenObj) /* Number of elements */ { double dstart, dend, dstep; Tcl_WideInt start, end, step; Tcl_WideInt len; if (startObj) { assignNumber(useDoubles, &start, &dstart, startObj); } else { start = 0; dstart = start; } if (stepObj) { assignNumber(useDoubles, &step, &dstep, stepObj); if (useDoubles) { step = dstep; } else { dstep = step; } if (dstep == 0) { *arithSeriesObj = Tcl_NewObj(); return TCL_OK; } } if (endObj) { assignNumber(useDoubles, &end, &dend, endObj); } if (lenObj) { if (TCL_OK != Tcl_GetWideIntFromObj(interp, lenObj, &len)) { return TCL_ERROR; } } if (startObj && endObj) { if (!stepObj) { if (useDoubles) { dstep = (dstart < dend) ? 1.0 : -1.0; step = dstep; } else { step = (start < end) ? 1 : -1; dstep = step; } } assert(dstep!=0); if (!lenObj) { if (useDoubles) { len = (dend - dstart + dstep)/dstep; } else { len = (end - start + step)/step; } } } if (!endObj) { if (useDoubles) { dend = dstart + (dstep * (len-1)); end = dend; } else { end = start + (step * (len-1)); dend = end; } } if (TCL_MAJOR_VERSION < 9 && len > ListSizeT_MAX) { Tcl_SetObjResult( interp, Tcl_NewStringObj("max length of a Tcl list exceeded", TCL_INDEX_NONE)); Tcl_SetErrorCode(interp, "TCL", "MEMORY", NULL); return TCL_ERROR; } if (arithSeriesObj) { *arithSeriesObj = (useDoubles) ? NewArithSeriesDbl(dstart, dend, dstep, len) : NewArithSeriesInt(start, end, step, len); } return TCL_OK; } /* *---------------------------------------------------------------------- * * ArithSeriesObjStep -- * * Return a Tcl_Obj with the step value from the give ArithSeries Obj. * refcount = 0. * * Results: * * A Tcl_Obj pointer to the created ArithSeries object. * A NULL pointer of the range is invalid. * * Side Effects: * * None. *---------------------------------------------------------------------- */ Tcl_Obj * ArithSeriesObjStep( Tcl_Obj *arithSeriesObj) { ArithSeries *arithSeriesRepPtr; Tcl_Obj *stepObj; if (arithSeriesObj->typePtr != &tclArithSeriesType.objType) { Tcl_Panic("ArithSeriesObjStep called with a not ArithSeries Obj."); } arithSeriesRepPtr = ArithSeriesRepPtr(arithSeriesObj); if (arithSeriesRepPtr->isDouble) { TclNewDoubleObj(stepObj, ((ArithSeriesDbl*)(arithSeriesRepPtr))->step); } else { TclNewIntObj(stepObj, arithSeriesRepPtr->step); } return stepObj; } /* *---------------------------------------------------------------------- * * TclArithSeriesObjIndex -- * * Returns the element with the specified index in the list * represented by the specified Arithmetic Sequence object. * If the index is out of range, NULL is returned. * * Results: * * The element on success, NULL on index out of range. * * Side Effects: * * On success, the integer pointed by *element is modified. * *---------------------------------------------------------------------- */ Tcl_Obj * TclArithSeriesObjIndex( Tcl_Interp *interp, Tcl_Obj *arithSeriesObj, Tcl_WideInt index) { ArithSeries *arithSeriesRepPtr; if (arithSeriesObj->typePtr != &tclArithSeriesType.objType) { Tcl_Panic("TclArithSeriesObjIndex called with a not ArithSeries Obj."); } arithSeriesRepPtr = ArithSeriesRepPtr(arithSeriesObj); if (index < 0 || (Tcl_Size)index >= arithSeriesRepPtr->len) { if (interp) { Tcl_SetObjResult(interp, Tcl_ObjPrintf("index %" TCL_LL_MODIFIER "d is out of bounds 0 to %" TCL_Z_MODIFIER "d", index, (arithSeriesRepPtr->len-1))); Tcl_SetErrorCode(interp, "TCL", "MEMORY", NULL); } return NULL; } /* List[i] = Start + (Step * index) */ if (arithSeriesRepPtr->isDouble) { return Tcl_NewDoubleObj(ArithSeriesIndexM(arithSeriesRepPtr, index)); } else { return Tcl_NewWideIntObj(ArithSeriesIndexM(arithSeriesRepPtr, index)); } } /* *---------------------------------------------------------------------- * * ArithSeriesObjLength * * Returns the length of the arithmetic series. * * Results: * * The length of the series as Tcl_WideInt. * * Side Effects: * * None. * *---------------------------------------------------------------------- */ Tcl_Size ArithSeriesObjLength(Tcl_Obj *arithSeriesObj) { ArithSeries *arithSeriesRepPtr = (ArithSeries*) arithSeriesObj->internalRep.twoPtrValue.ptr1; return arithSeriesRepPtr->len; } /* *---------------------------------------------------------------------- * * FreeArithSeriesInternalRep -- * * Deallocate the storage associated with an arithseries object's * internal representation. * * Results: * None. * * Side effects: * Frees arithSeriesObj's ArithSeries* internal representation and * sets listPtr's internalRep.twoPtrValue.ptr1 to NULL. * *---------------------------------------------------------------------- */ static void FreeArithSeriesInternalRep(Tcl_Obj *arithSeriesObj) { ArithSeries *arithSeriesRepPtr = (ArithSeries *) arithSeriesObj->internalRep.twoPtrValue.ptr1; if (arithSeriesRepPtr->elements) { Tcl_Size i; Tcl_Obj**elmts = arithSeriesRepPtr->elements; for(i=0; ilen; i++) { if (elmts[i]) { Tcl_DecrRefCount(elmts[i]); } } Tcl_Free((char *) arithSeriesRepPtr->elements); } Tcl_Free((char *) arithSeriesRepPtr); arithSeriesObj->internalRep.twoPtrValue.ptr1 = NULL; } /* *---------------------------------------------------------------------- * * DupArithSeriesInternalRep -- * * Initialize the internal representation of a arithseries Tcl_Obj to a * copy of the internal representation of an existing arithseries object. * * Results: * None. * * Side effects: * We set "copyPtr"s internal rep to a pointer to a * newly allocated ArithSeries structure. *---------------------------------------------------------------------- */ static void DupArithSeriesInternalRep( Tcl_Obj *srcPtr, /* Object with internal rep to copy. */ Tcl_Obj *copyPtr) /* Object with internal rep to set. */ { ArithSeries *srcArithSeriesRepPtr = (ArithSeries *) srcPtr->internalRep.twoPtrValue.ptr1; ArithSeries *copyArithSeriesRepPtr; /* * Allocate a new ArithSeries structure. */ copyArithSeriesRepPtr = (ArithSeries*) Tcl_Alloc(sizeof(ArithSeries)); *copyArithSeriesRepPtr = *srcArithSeriesRepPtr; copyArithSeriesRepPtr->elements = NULL; copyPtr->internalRep.twoPtrValue.ptr1 = copyArithSeriesRepPtr; copyPtr->internalRep.twoPtrValue.ptr2 = NULL; copyPtr->typePtr = &tclArithSeriesType.objType; } /* *---------------------------------------------------------------------- * * UpdateStringOfArithSeries -- * * Update the string representation for an arithseries object. * Note: This procedure does not invalidate an existing old string rep * so storage will be lost if this has not already been done. * * Results: * None. * * Side effects: * The object's string is set to a valid string that results from * the list-to-string conversion. This string will be empty if the * list has no elements. The list internal representation * should not be NULL and we assume it is not NULL. * * Notes: * At the cost of overallocation it's possible to estimate * the length of the string representation and make this procedure * much faster. Because the programmer shouldn't expect the * string conversion of a big arithmetic sequence to be fast * this version takes more care of space than time. * *---------------------------------------------------------------------- */ static void UpdateStringOfArithSeries(Tcl_Obj *arithSeriesObj) { ArithSeries *arithSeriesRepPtr = (ArithSeries*) arithSeriesObj->internalRep.twoPtrValue.ptr1; char *elem, *p; Tcl_Obj *elemObj; Tcl_Size i; Tcl_WideInt length = 0; size_t slen; /* * Pass 1: estimate space. */ for (i = 0; i < arithSeriesRepPtr->len; i++) { elemObj = TclArithSeriesObjIndex(NULL, arithSeriesObj, i); elem = Tcl_GetStringFromObj(elemObj, &slen); Tcl_DecrRefCount(elemObj); slen += 1; /* + 1 is for the space or the nul-term */ length += slen; } /* * Pass 2: generate the string repr. */ p = Tcl_InitStringRep(arithSeriesObj, NULL, length); for (i = 0; i < arithSeriesRepPtr->len; i++) { elemObj = TclArithSeriesObjIndex(NULL, arithSeriesObj, i); elem = Tcl_GetStringFromObj(elemObj, &slen); strcpy(p, elem); p[slen] = ' '; p += slen+1; Tcl_DecrRefCount(elemObj); } if (length > 0) arithSeriesObj->bytes[length-1] = '\0'; arithSeriesObj->length = length-1; } /* *---------------------------------------------------------------------- * * SetArithSeriesFromAny -- * * The Arithmetic Series object is just an way to optimize * Lists space complexity, so no one should try to convert * a string to an Arithmetic Series object. * * This function is here just to populate the Type structure. * * Results: * * The result is always TCL_ERROR. But see Side Effects. * * Side effects: * * Tcl Panic if called. * *---------------------------------------------------------------------- */ static int SetArithSeriesFromAny( TCL_UNUSED(Tcl_Interp *), /* Used for error reporting if not NULL. */ TCL_UNUSED(Tcl_Obj *)) /* The object to convert. */ { Tcl_Panic("SetArithSeriesFromAny: should never be called"); return TCL_ERROR; } /* *---------------------------------------------------------------------- * * TclArithSeriesObjCopy -- * * Makes a "pure arithSeries" copy of an ArithSeries value. This provides for the C * level a counterpart of the [lrange $list 0 end] command, while using * internals details to be as efficient as possible. * * Results: * * Normally returns a pointer to a new Tcl_Obj, that contains the same * arithSeries value as *arithSeriesObj does. The returned Tcl_Obj has a * refCount of zero. If *arithSeriesObj does not hold an arithSeries, * NULL is returned, and if interp is non-NULL, an error message is * recorded there. * * Side effects: * None. * *---------------------------------------------------------------------- */ Tcl_Obj * TclArithSeriesObjCopy( Tcl_Interp *interp, /* Used to report errors if not NULL. */ Tcl_Obj *arithSeriesObj) /* List object for which an element array is * to be returned. */ { Tcl_Obj *copyPtr; ArithSeries *arithSeriesRepPtr; ArithSeriesGetInternalRep(arithSeriesObj, arithSeriesRepPtr); if (NULL == arithSeriesRepPtr) { if (SetArithSeriesFromAny(interp, arithSeriesObj) != TCL_OK) { /* We know this is going to panic, but it's the message we want */ return NULL; } } TclNewObj(copyPtr); TclInvalidateStringRep(copyPtr); DupArithSeriesInternalRep(arithSeriesObj, copyPtr); return copyPtr; } /* *---------------------------------------------------------------------- * * TclArithSeriesObjRange -- * * Makes a slice of an ArithSeries value. * *arithSeriesObj must be known to be a valid list. * * Results: * Returns a pointer to the sliced series. * This may be a new object or the same object if not shared. * * Side effects: * ?The possible conversion of the object referenced by listPtr? * ?to a list object.? * *---------------------------------------------------------------------- */ Tcl_Obj * TclArithSeriesObjRange( Tcl_Interp *interp, /* For error message(s) */ Tcl_Obj *arithSeriesObj, /* List object to take a range from. */ Tcl_Size fromIdx, /* Index of first element to include. */ Tcl_Size toIdx) /* Index of last element to include. */ { ArithSeries *arithSeriesRepPtr; Tcl_Obj *startObj, *endObj, *stepObj; ArithSeriesGetInternalRep(arithSeriesObj, arithSeriesRepPtr); if (fromIdx == TCL_INDEX_NONE) { fromIdx = 0; } if (fromIdx > toIdx) { Tcl_Obj *obj; TclNewObj(obj); return obj; } startObj = TclArithSeriesObjIndex(interp, arithSeriesObj, fromIdx); if (startObj == NULL) { return NULL; } Tcl_IncrRefCount(startObj); endObj = TclArithSeriesObjIndex(interp, arithSeriesObj, toIdx); if (endObj == NULL) { return NULL; } Tcl_IncrRefCount(endObj); stepObj = ArithSeriesObjStep(arithSeriesObj); Tcl_IncrRefCount(stepObj); if (Tcl_IsShared(arithSeriesObj) || ((arithSeriesObj->refCount > 1))) { Tcl_Obj *newSlicePtr; if (TclNewArithSeriesObj(interp, &newSlicePtr, arithSeriesRepPtr->isDouble, startObj, endObj, stepObj, NULL) != TCL_OK) { newSlicePtr = NULL; } Tcl_DecrRefCount(startObj); Tcl_DecrRefCount(endObj); Tcl_DecrRefCount(stepObj); return newSlicePtr; } /* * In-place is possible. */ /* * Even if nothing below causes any changes, we still want the * string-canonizing effect of [lrange 0 end]. */ TclInvalidateStringRep(arithSeriesObj); if (arithSeriesRepPtr->isDouble) { ArithSeriesDbl *arithSeriesDblRepPtr = (ArithSeriesDbl*)arithSeriesObj; double start, end, step; Tcl_GetDoubleFromObj(NULL, startObj, &start); Tcl_GetDoubleFromObj(NULL, endObj, &end); Tcl_GetDoubleFromObj(NULL, stepObj, &step); arithSeriesDblRepPtr->start = start; arithSeriesDblRepPtr->end = end; arithSeriesDblRepPtr->step = step; arithSeriesDblRepPtr->len = (end-start+step)/step; arithSeriesDblRepPtr->elements = NULL; } else { Tcl_WideInt start, end, step; Tcl_GetWideIntFromObj(NULL, startObj, &start); Tcl_GetWideIntFromObj(NULL, endObj, &end); Tcl_GetWideIntFromObj(NULL, stepObj, &step); arithSeriesRepPtr->start = start; arithSeriesRepPtr->end = end; arithSeriesRepPtr->step = step; arithSeriesRepPtr->len = (end-start+step)/step; arithSeriesRepPtr->elements = NULL; } Tcl_DecrRefCount(startObj); Tcl_DecrRefCount(endObj); Tcl_DecrRefCount(stepObj); return arithSeriesObj; } /* *---------------------------------------------------------------------- * * TclArithSeriesGetElements -- * * This function returns an (objc,objv) array of the elements in a list * object. * * Results: * The return value is normally TCL_OK; in this case *objcPtr is set to * the count of list elements and *objvPtr is set to a pointer to an * array of (*objcPtr) pointers to each list element. If listPtr does not * refer to an Abstract List object and the object can not be converted * to one, TCL_ERROR is returned and an error message will be left in the * interpreter's result if interp is not NULL. * * The objects referenced by the returned array should be treated as * readonly and their ref counts are _not_ incremented; the caller must * do that if it holds on to a reference. Furthermore, the pointer and * length returned by this function may change as soon as any function is * called on the list object; be careful about retaining the pointer in a * local data structure. * * Side effects: * None. * *---------------------------------------------------------------------- */ int TclArithSeriesGetElements( Tcl_Interp *interp, /* Used to report errors if not NULL. */ Tcl_Obj *objPtr, /* ArithSeries object for which an element * array is to be returned. */ Tcl_Size *objcPtr, /* Where to store the count of objects * referenced by objv. */ Tcl_Obj ***objvPtr) /* Where to store the pointer to an array of * pointers to the list's objects. */ { if (TclHasInternalRep(objPtr,&tclArithSeriesType.objType)) { ArithSeries *arithSeriesRepPtr; Tcl_Obj **objv; int i, objc; ArithSeriesGetInternalRep(objPtr, arithSeriesRepPtr); objc = arithSeriesRepPtr->len; if (objc > 0) { if (arithSeriesRepPtr->elements) { /* If this exists, it has already been populated */ objv = arithSeriesRepPtr->elements; } else { /* Construct the elements array */ objv = (Tcl_Obj **)Tcl_Alloc(sizeof(Tcl_Obj*) * objc); if (objv == NULL) { if (interp) { Tcl_SetObjResult( interp, Tcl_NewStringObj("max length of a Tcl list exceeded", TCL_INDEX_NONE)); Tcl_SetErrorCode(interp, "TCL", "MEMORY", NULL); } return TCL_ERROR; } arithSeriesRepPtr->elements = objv; for (i = 0; i < objc; i++) { objv[i] = TclArithSeriesObjIndex(interp, objPtr, i); if (objv[i] == NULL) { return TCL_ERROR; } Tcl_IncrRefCount(objv[i]); } } } else { objv = NULL; } *objvPtr = objv; *objcPtr = objc; } else { if (interp != NULL) { Tcl_SetObjResult( interp, Tcl_ObjPrintf("value is not an arithseries")); Tcl_SetErrorCode(interp, "TCL", "VALUE", "UNKNOWN", NULL); } return TCL_ERROR; } return TCL_OK; } /* *---------------------------------------------------------------------- * * TclArithSeriesObjReverse -- * * Reverse the order of the ArithSeries value. * *arithSeriesObj must be known to be a valid list. * * Results: * Returns a pointer to the reordered series. * This may be a new object or the same object if not shared. * * Side effects: * ?The possible conversion of the object referenced by listPtr? * ?to a list object.? * *---------------------------------------------------------------------- */ Tcl_Obj * TclArithSeriesObjReverse( Tcl_Interp *interp, /* For error message(s) */ Tcl_Obj *arithSeriesObj) /* List object to reverse. */ { ArithSeries *arithSeriesRepPtr; Tcl_Obj *startObj, *endObj, *stepObj; Tcl_Obj *resultObj; Tcl_WideInt start, end, step, len; double dstart, dend, dstep; int isDouble; ArithSeriesGetInternalRep(arithSeriesObj, arithSeriesRepPtr); isDouble = arithSeriesRepPtr->isDouble; len = arithSeriesRepPtr->len; startObj = TclArithSeriesObjIndex(NULL, arithSeriesObj, (len-1)); Tcl_IncrRefCount(startObj); endObj = TclArithSeriesObjIndex(NULL, arithSeriesObj, 0); Tcl_IncrRefCount(endObj); stepObj = ArithSeriesObjStep(arithSeriesObj); Tcl_IncrRefCount(stepObj); if (isDouble) { Tcl_GetDoubleFromObj(NULL, startObj, &dstart); Tcl_GetDoubleFromObj(NULL, endObj, &dend); Tcl_GetDoubleFromObj(NULL, stepObj, &dstep); dstep = -dstep; TclSetDoubleObj(stepObj, dstep); } else { Tcl_GetWideIntFromObj(NULL, startObj, &start); Tcl_GetWideIntFromObj(NULL, endObj, &end); Tcl_GetWideIntFromObj(NULL, stepObj, &step); step = -step; TclSetIntObj(stepObj, step); } if (Tcl_IsShared(arithSeriesObj) || ((arithSeriesObj->refCount > 1))) { Tcl_Obj *lenObj; TclNewIntObj(lenObj, len); if (TclNewArithSeriesObj(interp, &resultObj, isDouble, startObj, endObj, stepObj, lenObj) != TCL_OK) { resultObj = NULL; } Tcl_DecrRefCount(lenObj); } else { /* * In-place is possible. */ TclInvalidateStringRep(arithSeriesObj); if (isDouble) { ArithSeriesDbl *arithSeriesDblRepPtr = (ArithSeriesDbl*)arithSeriesRepPtr; arithSeriesDblRepPtr->start = dstart; arithSeriesDblRepPtr->end = dend; arithSeriesDblRepPtr->step = dstep; } else { arithSeriesRepPtr->start = start; arithSeriesRepPtr->end = end; arithSeriesRepPtr->step = step; } if (arithSeriesRepPtr->elements) { Tcl_WideInt i; for (i=0; ielements[i]); } Tcl_Free((char*)arithSeriesRepPtr->elements); } arithSeriesRepPtr->elements = NULL; resultObj = arithSeriesObj; } Tcl_DecrRefCount(startObj); Tcl_DecrRefCount(endObj); Tcl_DecrRefCount(stepObj); return resultObj; } /* * Local Variables: * mode: c * c-basic-offset: 4 * fill-column: 78 * End: */