ficlUnsigned
ficlDictionaryAppendUnsigned(ficlDictionary *dictionary, ficlUnsigned u)
ficl2UnsignedMultiplyAccumulate(ficl2Unsigned u, ficlUnsigned mul,
ficlUnsigned add)
ficl2UnsignedMultiply(ficlUnsigned x, ficlUnsigned y)
ficl2UnsignedDivide(ficl2Unsigned q, ficlUnsigned y)
uqr = ficl2UnsignedDivide(u, (ficlUnsigned)den);
uqr = ficl2UnsignedDivide(u, (ficlUnsigned)den);
ficl2UnsignedDivide(ficl2Unsigned q, ficlUnsigned y)
ficlUnsigned state; /* compiling or interpreting */
ficlUnsigned base; /* number conversion base */
FICL_PLATFORM_EXTERN int ficlIsPowerOfTwo(ficlUnsigned u);
ficlUltoa(ficlUnsigned value, char *string, int radix);
FICL_PLATFORM_EXTERN int ficlStrincmp(char *s1, char *s2, ficlUnsigned length);
ficlDictionaryAppendUnsigned(ficlDictionary *dictionary, ficlUnsigned u);
FICL_PLATFORM_EXTERN int ficlFileTruncate(ficlFile *ff, ficlUnsigned size);
((doublei) = (ficl2Integer)(((ficlUnsigned)(low)) | \
((ficlUnsigned)(doubleu & ((((ficl2Integer)1) << \
((ficlUnsigned)(doubleu >> FICL_BITS_PER_CELL))
ficlUnsigned high;
ficlUnsigned low;
FICL_PLATFORM_EXTERN ficl2Unsigned ficl2UnsignedMultiply(ficlUnsigned x,
ficlUnsigned y);
ficl2UnsignedMultiplyAccumulate(ficl2Unsigned u, ficlUnsigned mul,
ficlUnsigned add);
ficlUnsigned remainder;
ficl2UnsignedDivide(ficl2Unsigned q, ficlUnsigned y);
ficlUnsigned u;
ficlUnsigned length;
#define FICL_STRING_SET_LENGTH(fs, l) ((fs).length = (ficlUnsigned)(l))
ficlUnsigned size; /* size of the stack, in cells */
FICL_PLATFORM_EXTERN ficlUnsigned ficlStackPopUnsigned(ficlStack *stack);
ficlStackPushUnsigned(ficlStack *stack, ficlUnsigned u);
ficlFileTruncate(ficlFile *ff, ficlUnsigned size)
ficlUnsigned length;
ficlUnsigned nCmp = name.length;
(ficlUnsigned) time(NULL));
ficlUnsigned names;
ficlUnsigned x, y;
ficlUnsigned x0, y0, x1, y1, wd;
ficlUnsigned x0, y0, x1, y1, x2, y2, width;
ficlUnsigned x1, x2, y1, y2, fill;
ficlUnsigned x1, x2, y1, y2;
ficlUnsigned names;
word->name, (ficlUnsigned)n)) {
ficlUnsigned length;
ficlUnsigned length;
ficlUnsigned base = vm->base;
ficlUnsigned c;
ficlUnsigned digit;
ficlUnsigned size;
ficlUnsigned length = 0;
ficlStackPushUnsigned(vm->dataStack, (ficlUnsigned)(s.text[0]));
ficlUnsigned length;
ficlUnsigned u1;
ficlUnsigned u2;
ficlUnsigned u1;
ficlUnsigned u;
ficlUnsigned u;
ficlUnsigned fixupCount;
ficlUnsigned fixupCount;
ficlUnsigned nBuckets;
ficlUnsigned
ficlUnsigned high = ficlStackPopUnsigned(stack);
ficlUnsigned low = ficlStackPopUnsigned(stack);
ficlStackPushUnsigned(ficlStack *stack, ficlUnsigned u)
FICL_ASSERT(&callback, sizeof (ficlUnsigned) >= sizeof (void *));
vm->pad, (ficlUnsigned)value);
FICL_UNSIGNED_TO_2UNSIGNED((ficlUnsigned)value, v);
result = ficl2UnsignedDivide(v, (ficlUnsigned)radix);
ficlUltoa(ficlUnsigned value, char *string, int radix)
result = ficl2UnsignedDivide(ud, (ficlUnsigned)radix);
ficlStrincmp(char *cp1, char *cp2, ficlUnsigned count)
ficlIsPowerOfTwo(ficlUnsigned u)
ficlUnsigned t = 2;
pwr = ficlIsPowerOfTwo((ficlUnsigned)radix);
ficlUnsigned v = (ficlUnsigned) value;
ficlUnsigned mask = ~(ULONG_MAX << pwr);
ficlUnsigned u;
ficlUnsigned u1, u2, uMin;
ficlUnsigned a, b;
ficlUnsigned length = 0;
ficlUnsigned u;
dataTop->u = (ficlUnsigned)*integer32;
dataTop->u = ((ficlUnsigned)*integer16);
dataTop->u = ((ficlUnsigned)*integer8);
ficlUnsigned nBits;
ficlUnsigned x1;
ficlUnsigned nBits;
ficlUnsigned x1;