WHILEGE (predicate as counter)
While decrementing signed scalar greater than or equal to scalar (predicate-as-counter)
Generate a predicate for a group of two or four vectors that starting from the highest numbered element of the group is true while the decrementing value of the first, signed scalar operand is greater than or equal to the second scalar operand and false thereafter down to the lowest numbered element of the group.
If the second scalar operand is equal to the minimum signed integer value then a condition which includes an equality test can never fail and the result will be an all-true predicate.
The full width of the scalar operands is significant for the purposes of comparison, and the full width first operand is decremented by one for each destination predicate element, irrespective of the predicate result element size.
The predicate result is placed in the predicate destination register using the predicate-as-counter encoding. Sets the First (N), None (Z), !Last (C) condition flags based on the predicate result, and the V flag to zero.
Green
False
0
0
1
0
0
1
0
1
1
0
1
0
0
0
1
0
WHILEGE <PNd>.<T>, <Xn>, <Xm>, <vl>
if !IsFeatureImplemented(FEAT_SME2) && !IsFeatureImplemented(FEAT_SVE2p1) then UNDEFINED;
constant integer esize = 8 << UInt(size);
constant integer rsize = 64;
constant integer n = UInt(Rn);
constant integer m = UInt(Rm);
constant integer d = UInt('1':PNd);
constant boolean unsigned = FALSE;
constant boolean invert = TRUE;
constant SVECmp op = Cmp_GE;
constant integer width = 2 << UInt(vl);
<PNd>
Is the name of the destination scalable predicate register PN8-PN15, with predicate-as-counter encoding, encoded in the "PNd" field.
<T>
Is the size specifier,
size
<T>
00
B
01
H
10
S
11
D
<Xn>
Is the 64-bit name of the first source general-purpose register, encoded in the "Rn" field.
<Xm>
Is the 64-bit name of the second source general-purpose register, encoded in the "Rm" field.
<vl>
Is the vl specifier,
if IsFeatureImplemented(FEAT_SVE2p1) then CheckSVEEnabled(); else CheckStreamingSVEEnabled();
constant integer VL = CurrentVL;
constant integer PL = VL DIV 8;
constant integer elements = width * (VL DIV esize);
bits(rsize) operand1 = X[n, rsize];
constant bits(rsize) operand2 = X[m, rsize];
bits(PL) result;
boolean last = TRUE;
integer count = 0;
for e = elements-1 downto 0
boolean cond;
case op of
when Cmp_GT cond = (Int(operand1, unsigned) > Int(operand2, unsigned));
when Cmp_GE cond = (Int(operand1, unsigned) >= Int(operand2, unsigned));
last = last && cond;
if last then count = count + 1;
operand1 = operand1 - 1;
result = EncodePredCount(esize, elements, count, invert, PL);
PSTATE.<N,Z,C,V> = PredCountTest(elements, count, invert);
P[d, PL] = result;