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-rw-r--r--Modules/mathmodule.c40
1 files changed, 18 insertions, 22 deletions
diff --git a/Modules/mathmodule.c b/Modules/mathmodule.c
index 37934f6..8015a95 100644
--- a/Modules/mathmodule.c
+++ b/Modules/mathmodule.c
@@ -2032,14 +2032,14 @@ math_fmod_impl(PyObject *module, double x, double y)
}
/*
-Given an *n* length *vec* of non-negative values
-where *max* is the largest value in the vector, compute:
+Given an *n* length *vec* of values and a value *max*, compute:
max * sqrt(sum((x / max) ** 2 for x in vec))
-The value of the *max* variable must be present in *vec*
-or should equal to 0.0 when n==0. Likewise, *max* will
-be INF if an infinity is present in the vec.
+The value of the *max* variable must be non-negative and
+at least equal to the absolute value of the largest magnitude
+entry in the vector. If n==0, then *max* should be 0.0.
+If an infinity is present in the vec, *max* should be INF.
The *found_nan* variable indicates whether some member of
the *vec* is a NaN.
@@ -2053,16 +2053,19 @@ The *csum* variable tracks the cumulative sum and *frac* tracks
the cumulative fractional errors at each step. Since this
variant assumes that |csum| >= |x| at each step, we establish
the precondition by starting the accumulation from 1.0 which
-represents an entry equal to *max*. This also provides a nice
-side benefit in that it lets us skip over a *max* entry (which
-is swapped into *last*) saving us one iteration through the loop.
+represents the largest possible value of (x/max)**2.
+
+After the loop is finished, the initial 1.0 is subtracted out
+for a net zero effect on the final sum. Since *csum* will be
+greater than 1.0, the subtraction of 1.0 will not cause
+fractional digits to be dropped from *csum*.
*/
static inline double
vector_norm(Py_ssize_t n, double *vec, double max, int found_nan)
{
- double x, csum = 1.0, oldcsum, frac = 0.0, last;
+ double x, csum = 1.0, oldcsum, frac = 0.0;
Py_ssize_t i;
if (Py_IS_INFINITY(max)) {
@@ -2071,27 +2074,20 @@ vector_norm(Py_ssize_t n, double *vec, double max, int found_nan)
if (found_nan) {
return Py_NAN;
}
- if (max == 0.0) {
- return 0.0;
+ if (max == 0.0 || n == 1) {
+ return max;
}
- assert(n > 0);
- last = vec[n-1];
- for (i=0 ; i < n-1 ; i++) {
+ for (i=0 ; i < n ; i++) {
x = vec[i];
- assert(Py_IS_FINITE(x) && x >= 0.0 && x <= max);
- if (x == max) {
- x = last;
- last = max;
- }
+ assert(Py_IS_FINITE(x) && fabs(x) <= max);
x /= max;
x = x*x;
- assert(csum >= x);
oldcsum = csum;
csum += x;
+ assert(csum >= x);
frac += (oldcsum - csum) + x;
}
- assert(last == max);
- return max * sqrt(csum + frac);
+ return max * sqrt(csum - 1.0 + frac);
}
#define NUM_STACK_ELEMS 16