Permit parsing of incomplete infinity but do not return true

To clarify, `parse_f64` will indeed take `infi` to mean `+Inf` and
return that as the value, but it will not return `ok = true`. It treats
it as `inf` followed by any other trailing character.

`parse_f64_prefix` is the lenient one which will return true so long as
it finds some meaningful value.
This commit is contained in:
Feoramund
2024-06-04 18:50:08 -04:00
parent 1fc6ff91b2
commit 25feff3eb4
2 changed files with 26 additions and 29 deletions
+18 -27
View File
@@ -62,18 +62,15 @@ test_infinity :: proc(t: ^testing.T) {
n: int
s := "infinity"
for i in 1 ..< len(s) + 1 {
for i in 0 ..< len(s) + 1 {
ss := s[:i]
f, ok := strconv.parse_f64(ss, &n)
if i == 3 { // "inf"
if i >= 3 { // "inf" .. "infinity"
expected_n := 8 if i == 8 else 3
expected_ok := i == 3 || i == 8
testing.expect_value(t, f, pos_inf)
testing.expect_value(t, n, 3)
testing.expect_value(t, ok, true)
testing.expect_value(t, math.classify(f), math.Float_Class.Inf)
} else if i == 8 { // "infinity"
testing.expect_value(t, f, pos_inf)
testing.expect_value(t, n, 8)
testing.expect_value(t, ok, true)
testing.expect_value(t, n, expected_n)
testing.expect_value(t, ok, expected_ok)
testing.expect_value(t, math.classify(f), math.Float_Class.Inf)
} else { // invalid substring
testing.expect_value(t, f, 0)
@@ -84,18 +81,15 @@ test_infinity :: proc(t: ^testing.T) {
}
s = "+infinity"
for i in 1 ..< len(s) + 1 {
for i in 0 ..< len(s) + 1 {
ss := s[:i]
f, ok := strconv.parse_f64(ss, &n)
if i == 4 { // "+inf"
if i >= 4 { // "+inf" .. "+infinity"
expected_n := 9 if i == 9 else 4
expected_ok := i == 4 || i == 9
testing.expect_value(t, f, pos_inf)
testing.expect_value(t, n, 4)
testing.expect_value(t, ok, true)
testing.expect_value(t, math.classify(f), math.Float_Class.Inf)
} else if i == 9 { // "+infinity"
testing.expect_value(t, f, pos_inf)
testing.expect_value(t, n, 9)
testing.expect_value(t, ok, true)
testing.expect_value(t, n, expected_n)
testing.expect_value(t, ok, expected_ok)
testing.expect_value(t, math.classify(f), math.Float_Class.Inf)
} else { // invalid substring
testing.expect_value(t, f, 0)
@@ -106,18 +100,15 @@ test_infinity :: proc(t: ^testing.T) {
}
s = "-infinity"
for i in 1 ..< len(s) + 1 {
for i in 0 ..< len(s) + 1 {
ss := s[:i]
f, ok := strconv.parse_f64(ss, &n)
if i == 4 { // "-inf"
if i >= 4 { // "-inf" .. "infinity"
expected_n := 9 if i == 9 else 4
expected_ok := i == 4 || i == 9
testing.expect_value(t, f, neg_inf)
testing.expect_value(t, n, 4)
testing.expect_value(t, ok, true)
testing.expect_value(t, math.classify(f), math.Float_Class.Neg_Inf)
} else if i == 9 { // "-infinity"
testing.expect_value(t, f, neg_inf)
testing.expect_value(t, n, 9)
testing.expect_value(t, ok, true)
testing.expect_value(t, n, expected_n)
testing.expect_value(t, ok, expected_ok)
testing.expect_value(t, math.classify(f), math.Float_Class.Neg_Inf)
} else { // invalid substring
testing.expect_value(t, f, 0)