#endif
}
+/* If a shader is in the soft-fp64 path, it almost certainly has register
+ * pressure problems. Choose a method to exchange two values that does not
+ * require a temporary.
+ */
+#define EXCHANGE(a, b) \
+ do { \
+ a ^= b; \
+ b ^= a; \
+ a ^= b; \
+ } while (false)
+
/* Returns the result of adding the double-precision floating-point values
* `a' and `b'. The operation is performed according to the IEEE Standard for
* Floating-Point Arithmetic.
uint zFrac1;
uint zFrac2;
int zExp;
- bool orig_exp_diff_is_zero = (expDiff == 0);
- if (orig_exp_diff_is_zero) {
+ if (expDiff == 0) {
if (aExp == 0x7FF) {
bool propagate = ((aFracHi | bFracHi) | (aFracLo| bFracLo)) != 0u;
return mix(a, __propagateFloat64NaN(a, b), propagate);
zExp = aExp;
__shift64ExtraRightJamming(
zFrac0, zFrac1, zFrac2, 1, zFrac0, zFrac1, zFrac2);
- } else if (0 < expDiff) {
- if (aExp == 0x7FF) {
- bool propagate = (aFracHi | aFracLo) != 0u;
- return mix(a, __propagateFloat64NaN(a, b), propagate);
- }
+ } else {
+ if (0 < expDiff) {
+ if (aExp == 0x7FF) {
+ bool propagate = (aFracHi | aFracLo) != 0u;
+ return mix(a, __propagateFloat64NaN(a, b), propagate);
+ }
- expDiff = mix(expDiff, expDiff - 1, bExp == 0);
- bFracHi = mix(bFracHi | 0x00100000u, bFracHi, bExp == 0);
- __shift64ExtraRightJamming(
- bFracHi, bFracLo, 0u, expDiff, bFracHi, bFracLo, zFrac2);
- zExp = aExp;
- } else if (expDiff < 0) {
- if (bExp == 0x7FF) {
- bool propagate = (bFracHi | bFracLo) != 0u;
- return mix(__packFloat64(aSign, 0x7ff, 0u, 0u), __propagateFloat64NaN(a, b), propagate);
+ expDiff = mix(expDiff, expDiff - 1, bExp == 0);
+ bFracHi = mix(bFracHi | 0x00100000u, bFracHi, bExp == 0);
+ __shift64ExtraRightJamming(
+ bFracHi, bFracLo, 0u, expDiff, bFracHi, bFracLo, zFrac2);
+ zExp = aExp;
+ } else {
+ EXCHANGE(aFracHi, bFracHi);
+ EXCHANGE(aFracLo, bFracLo);
+ EXCHANGE(aExp, bExp);
+
+ if (aExp == 0x7FF) {
+ bool propagate = (aFracHi | aFracLo) != 0u;
+ return mix(__packFloat64(aSign, 0x7ff, 0u, 0u), __propagateFloat64NaN(a, b), propagate);
+ }
+ expDiff = mix(expDiff, expDiff + 1, bExp == 0);
+ bFracHi = mix(bFracHi | 0x00100000u, bFracHi, bExp == 0);
+ __shift64ExtraRightJamming(
+ bFracHi, bFracLo, 0u, - expDiff, bFracHi, bFracLo, zFrac2);
+ zExp = aExp;
}
- expDiff = mix(expDiff, expDiff + 1, aExp == 0);
- aFracHi = mix(aFracHi | 0x00100000u, aFracHi, aExp == 0);
- __shift64ExtraRightJamming(
- aFracHi, aFracLo, 0u, - expDiff, aFracHi, aFracLo, zFrac2);
- zExp = bExp;
- }
- if (!orig_exp_diff_is_zero) {
+
aFracHi |= 0x00100000u;
__add64(aFracHi, aFracLo, bFracHi, bFracLo, zFrac0, zFrac1);
--zExp;
bExp = mix(bExp, 1, aExp == 0);
aExp = mix(aExp, 1, aExp == 0);
- uint zFrac0 = 0;
- uint zFrac1 = 0;
- bool zexp_normal = false;
+ uint zFrac0;
+ uint zFrac1;
uint sign_of_difference = 0;
if (bFracHi < aFracHi) {
__sub64(aFracHi, aFracLo, bFracHi, bFracLo, zFrac0, zFrac1);
- zexp_normal = true;
}
else if (aFracHi < bFracHi) {
__sub64(bFracHi, bFracLo, aFracHi, aFracLo, zFrac0, zFrac1);
sign_of_difference = 0x80000000;
- zexp_normal = true;
}
- else if (bFracLo < aFracLo) {
+ else if (bFracLo <= aFracLo) {
+ /* It is possible that zFrac0 and zFrac1 may be zero after this. */
__sub64(aFracHi, aFracLo, bFracHi, bFracLo, zFrac0, zFrac1);
- zexp_normal = true;
}
- else if (aFracLo < bFracLo) {
+ else {
__sub64(bFracHi, bFracLo, aFracHi, aFracLo, zFrac0, zFrac1);
sign_of_difference = 0x80000000;
- zexp_normal = true;
}
zExp = mix(bExp, aExp, sign_of_difference == 0u);
aSign ^= sign_of_difference;
uint64_t retval_0 = __packFloat64(uint(FLOAT_ROUNDING_MODE == FLOAT_ROUND_DOWN) << 31, 0, 0u, 0u);
uint64_t retval_1 = __normalizeRoundAndPackFloat64(aSign, zExp - 11, zFrac0, zFrac1);
- return mix(retval_0, retval_1, zexp_normal);
+ return mix(retval_0, retval_1, zFrac0 != 0u || zFrac1 != 0u);
}
}