paulirwin opened a new issue, #1133:
URL: https://github.com/apache/lucenenet/issues/1133
### Is there an existing issue for this?
- [x] I have searched the existing issues
### Describe the bug
Test failed locally on net8.0 macOS arm64:
```
System.ArgumentException : The supplied DateTime represents an invalid time.
For example, when the clock is adjusted forward, any time in the period that
is skipped is invalid. (Parameter 'dateTime')
(Test: Lucene.Net.Index.TestIndexWriter.TestUnlimitedMaxFieldLength)
To reproduce this test result:
Option 1:
Apply the following assembly-level attributes:
[assembly:
Lucene.Net.Util.RandomSeed("0x2e83adef0d2983e5:0xe949a96047018156")]
[assembly: NUnit.Framework.SetCulture("fr-CI")]
Option 2:
Use the following .runsettings file:
<RunSettings>
<TestRunParameters>
<Parameter name="tests:seed"
value="0x2e83adef0d2983e5:0xe949a96047018156" />
<Parameter name="tests:culture" value="fr-CI" />
</TestRunParameters>
</RunSettings>
Option 3:
Create the following lucene.testsettings.json file somewhere between the
test assembly and the root of your drive:
{
"tests": {
"seed": "0x2e83adef0d2983e5:0xe949a96047018156",
"culture": "fr-CI"
}
}
Fixture Test Values
=================
Random Seed: 0x2e83adef0d2983e5:0xe949a96047018156
Culture: fr-CI
Time Zone: (UTC-05:00) Eastern Time (Indianapolis)
Default Codec: Lucene45 (Lucene45RWCodec)
Default Similarity:
RandomSimilarityProvider(queryNorm=False,coord=crazy): {tvtest=IB LL-D3(800),
content=DFR I(ne)L3(800), field=LM Jelinek-Mercer(0,7), a=DFR GB1, c=DFR I(n)1,
id=DFR I(n)B3(800), =IB SPL-D1, myfield=DFR I(ne)B2, binary=IB SPL-D2,
string=IB SPL-L3(800), foo=IB SPL-L1, a0=DFR I(ne)L3(800), b0=LM
Jelinek-Mercer(0,1), c0=DFR I(n)BZ(0,3), d0=IB LL-DZ(0,3), e0=DFR I(F)B2,
f0=DFR I(ne)B2, a1=DFR I(F)L3(800), b1=DFR I(F)B2, c1=IB LL-DZ(0,3), d1=DFR
I(F)B3(800), e1=DFR I(ne)B1, f1=IB LL-L3(800), a2=DFR I(n)L1, b2=DFR I(F)B2,
c2=DFR I(ne)B1, d2=DFR I(n)LZ(0,3), e2=DFR I(n)B1, f2=DFR GBZ(0,3), a3=DFR
I(F)L3(800), b3=DFR G3(800), c3=IB SPL-L1, d3=DFR I(F)Z(0,3), e3=DFR
I(n)Z(0,3), f3=DFR I(n)Z(0,3), a4=DFR GB3(800), b4=DFR G2, c4=IB SPL-D1, d4=DFR
I(n)3(800), e4=DFR I(ne)3(800), f4=IB SPL-LZ(0,3), a5=DFR I(ne)2, b5=IB LL-D1,
c5=IB LL-L1, d5=DFR GZ(0,3), e5=DFR I(n)B1, f5=DFR I(ne)B3(800), a6=IB
LL-DZ(0,3), b6=DFR G3(800), c6=DFR I(ne)L1, d6=IB SPL-L2, e6=DFR I(n)B1, f6=
DFR I(F)BZ(0,3), a7=LM Jelinek-Mercer(0,1), b7=DFR I(ne)BZ(0,3), c7=IB SPL-L1,
d7=IB LL-D2, e7=IB LL-D2, f7=DFR GBZ(0,3), a8=DFR I(n)B2, b8=DFR I(F)L1, c8=DFR
I(F)B2, d8=DFR I(n)L3(800), e8=DFR I(n)BZ(0,3), f8=IB LL-D1, a9=DFR I(n)B2,
b9=DFR GB1, c9=IB LL-D2, d9=DFR I(F)L3(800), e9=DFR GB1, f9=DFR I(ne)L2,
a10=DFR I(ne)LZ(0,3), b10=DFR I(n)3(800), c10=DFR I(ne)3(800), d10=IB SPL-D1,
e10=DFR I(ne)2, f10=IB LL-DZ(0,3), a11=DFR I(ne)3(800), b11=DFR G2, c11=DFR
I(n)L2, d11=LM Jelinek-Mercer(0,7), e11=IB LL-L1, f11=DFR I(n)B1, a12=DFR
GZ(0,3), b12=DFR I(ne)B1, c12=DFR I(F)B3(800), d12=DefaultSimilarity,
e12=DefaultSimilarity, f12=DFR GZ(0,3), a13=DFR I(ne)Z(0,3), b13=IB SPL-D2,
c13=DFR I(n)L3(800), d13=DFR GL2, e13=DFR GL1, f13=DFR I(ne)2, a14=DFR I(ne)L1,
b14=IB SPL-D2, c14=DFR I(ne)L1, d14=DFR G2, e14=DFR GB1, f14=DefaultSimilarity,
a15=DFR I(F)L1, b15=DFR I(F)1, c15=DFR I(F)BZ(0,3), d15=DFR I(ne)B2, e15=DFR
GLZ(0,3), f15=IB LL-L3(800), a16=DFR I(n)BZ(0,3), b16=DFR I(F)L1, c16=IB SPL-D
Z(0,3), d16=DFR I(n)B1, e16=DFR I(ne)B1, f16=IB LL-D1, a17=DFR I(F)L2, b17=DFR
I(ne)L3(800), c17=DFR I(F)B2, d17=IB SPL-D1, e17=DFR I(F)L2, f17=IB
SPL-LZ(0,3), a18=IB LL-DZ(0,3), b18=IB SPL-D3(800), c18=DFR I(ne)B1, d18=DFR
I(F)L1, e18=LM Jelinek-Mercer(0,1), f18=DFR G1, a19=IB SPL-L2, b19=DFR
GB3(800), c19=DFR G2, d19=DFR GZ(0,3), e19=DFR I(ne)2, f19=DFR I(n)BZ(0,3),
a20=IB SPL-D3(800), b20=DFR I(F)B1, c20=DFR I(F)1, d20=DFR I(n)1,
e20=DefaultSimilarity, f20=IB SPL-L3(800), a21=IB LL-L2, b21=DFR GL2, c21=IB
SPL-LZ(0,3), d21=DFR I(F)B1, e21=DFR I(F)L3(800), f21=DFR I(n)BZ(0,3), a22=DFR
I(F)1, b22=IB SPL-D3(800), c22=DFR I(n)B1, d22=DFR I(F)2,
e22=BM25(k1=1,2,b=0,75), f22=IB SPL-L1, a23=DFR I(ne)LZ(0,3), b23=DFR
I(ne)3(800), c23=DFR I(ne)L3(800), d23=DFR I(n)B1, e23=DFR GLZ(0,3), f23=DFR
I(n)B1, a24=DFR I(ne)L2, b24=IB SPL-L2, c24=DFR I(ne)L2, d24=DFR GZ(0,3),
e24=IB LL-D1, f24=IB LL-D2, a25=DFR I(n)Z(0,3), b25=DefaultSimilarity, c25=DFR
I(ne)LZ(0,3), d25=DFR I(ne)1, e25=DFR I(F)Z(0,
3), f25=IB LL-D3(800), a26=DefaultSimilarity, b26=IB SPL-L1, c26=DFR
I(n)BZ(0,3), d26=IB SPL-L1, e26=DFR I(n)2, f26=IB SPL-DZ(0,3), a27=DFR
GB3(800), b27=IB LL-D2, c27=DFR I(n)LZ(0,3), d27=DFR GB1, e27=DFR GL1, f27=DFR
I(n)Z(0,3), a28=DFR GB2, b28=DFR I(ne)2, c28=DFR I(ne)LZ(0,3), d28=DFR
GB3(800), e28=DFR G1, f28=IB LL-D3(800), a29=DefaultSimilarity, b29=IB
LL-LZ(0,3), c29=DFR I(F)L2, d29=DFR GB1, e29=DFR I(F)3(800), f29=DFR GBZ(0,3),
a30=DFR G3(800), b30=IB SPL-L3(800), c30=DFR I(n)L2, d30=DFR I(n)1, e30=DFR
I(ne)1, f30=DFR I(ne)L2, a31=DFR I(n)L2, b31=DFR I(F)B3(800), c31=DFR GB2,
d31=DFR I(ne)B3(800), e31=DFR GL3(800), f31=DFR I(F)L3(800), a32=DFR I(F)B2,
b32=IB SPL-D3(800), c32=DFR I(F)L3(800), d32=DFR GB2, e32=DFR I(n)B2, f32=DFR
I(F)1, a33=DFR I(n)2, b33=DFR I(F)2, c33=IB LL-L2, d33=BM25(k1=1,2,b=0,75),
e33=IB SPL-D1, f33=DFR I(ne)3(800), a34=IB SPL-L1, b34=LM Jelinek-Mercer(0,7),
c34=IB LL-D2, d34=DFR GB3(800), e34=DFR I(n)3(800), f34=IB LL-L1, a35=DFR
I(ne)1, b35=DFR I(F)L3
(800), c35=IB LL-DZ(0,3), d35=DFR I(F)1, e35=DFR GL3(800), f35=DFR G1, a36=DFR
I(ne)2, b36=DFR I(n)LZ(0,3), c36=IB LL-D3(800), d36=DFR I(n)B2, e36=IB
SPL-L3(800), f36=DFR I(n)B3(800), a37=DFR I(F)Z(0,3), b37=DFR I(n)L1, c37=IB
SPL-L3(800), d37=DFR I(ne)L3(800), e37=DefaultSimilarity, f37=DFR I(ne)Z(0,3),
a38=DFR I(n)1, b38=DFR I(n)BZ(0,3), c38=IB LL-D2, d38=DFR I(ne)B3(800), e38=DFR
I(F)B2, f38=IB LL-DZ(0,3), a39=DFR G2, b39=DFR G1, c39=IB LL-L1, d39=DFR
I(F)B3(800), e39=DFR I(F)L3(800), f39=IB SPL-L1, a40=DFR I(n)3(800), b40=DFR
I(F)1, c40=DefaultSimilarity, d40=IB LL-D1, e40=DFR I(F)2, f40=DFR GB1, a41=DFR
I(n)3(800), b41=IB LL-D1, c41=IB LL-LZ(0,3), d41=DFR G3(800), e41=IB
SPL-DZ(0,3), f41=DFR I(ne)Z(0,3), a42=DFR I(F)Z(0,3), b42=DFR I(ne)BZ(0,3),
c42=DFR I(n)B3(800), d42=DFR I(ne)LZ(0,3), e42=DFR GZ(0,3), f42=DFR
I(F)LZ(0,3), a43=IB LL-D2, b43=DFR I(F)Z(0,3), c43=DFR I(F)3(800), d43=DFR
I(F)LZ(0,3), e43=DFR GZ(0,3), f43=LM Jelinek-Mercer(0,1), a44=DFR I(ne)B1,
b44=IB LL-D3(800),
c44=IB LL-L2, d44=DFR I(n)LZ(0,3), e44=DFR I(ne)2, f44=DFR I(n)Z(0,3),
a45=DFR I(n)Z(0,3), b45=DFR I(n)B1, c45=DFR I(ne)2, d45=DFR I(F)B2, e45=DFR
GB1, f45=IB SPL-L1, a46=DFR I(n)2, b46=DFR I(F)B1, c46=IB LL-D1, d46=DFR
GZ(0,3), e46=LM Jelinek-Mercer(0,7), f46=DFR G2, a47=DFR I(n)B1, b47=DFR GB1,
c47=DFR I(ne)L1, d47=IB SPL-DZ(0,3), e47=IB LL-D3(800), f47=DFR I(F)L2, a48=DFR
I(F)L2, b48=DFR I(ne)L2, c48=DFR I(ne)L1, d48=IB SPL-LZ(0,3), e48=IB LL-L1,
f48=IB SPL-L1, a49=DFR I(ne)2, b49=DFR I(n)BZ(0,3), c49=DFR I(ne)L3(800),
d49=DFR I(ne)L2, e49=IB LL-D2, f49=IB LL-D1, a50=DFR I(F)1, b50=DFR
I(F)BZ(0,3), c50=DFR I(ne)B1, d50=DFR I(n)LZ(0,3), e50=DFR I(F)L3(800), f50=DFR
I(ne)3(800), a51=DFR GB1, b51=DFR GB2, c51=DFR I(F)1, d51=DFR I(F)LZ(0,3),
e51=DFR I(F)Z(0,3), f51=DFR GL1, a52=DFR I(F)Z(0,3), b52=DFR I(ne)2, c52=DFR
I(ne)BZ(0,3), d52=IB SPL-DZ(0,3), e52=IB SPL-D1, f52=DefaultSimilarity, a53=IB
SPL-LZ(0,3), b53=IB SPL-L1, c53=IB SPL-D1, d53=IB SPL-D1, e53=IB SPL-D3(800),
f53=IB SPL-
L1, a54=IB LL-L2, b54=DFR I(F)BZ(0,3), c54=IB LL-DZ(0,3), d54=DFR
I(ne)B3(800), e54=DFR I(n)B2, f54=DFR GZ(0,3), a55=DFR I(n)B2, b55=DFR
I(F)BZ(0,3), c55=DFR G2, d55=DFR I(F)L3(800), e55=DFR I(F)L3(800), f55=DFR
I(ne)3(800), a56=IB SPL-L3(800), b56=DFR I(n)L1, c56=DFR GLZ(0,3), d56=IB
LL-LZ(0,3), e56=DFR I(n)1, f56=DFR I(n)Z(0,3), a57=DFR I(n)3(800), b57=DFR
I(F)3(800), c57=DFR GBZ(0,3), d57=DFR I(ne)B3(800), e57=IB LL-LZ(0,3), f57=DFR
I(n)3(800), a58=DFR GZ(0,3), b58=DFR I(F)L1, c58=DFR I(F)B3(800), d58=DFR
I(ne)BZ(0,3), e58=DFR I(n)B1, f58=DFR I(ne)B3(800), a59=IB LL-L3(800), b59=LM
Jelinek-Mercer(0,1), c59=IB LL-D2, d59=DFR I(ne)B1, e59=BM25(k1=1,2,b=0,75),
f59=IB SPL-L3(800), a60=DFR I(ne)L3(800), b60=IB SPL-D1, c60=IB LL-D1, d60=DFR
I(n)1, e60=DFR I(n)L1, f60=IB LL-D2, a61=DFR GBZ(0,3), b61=DFR I(n)LZ(0,3),
c61=IB SPL-D1, d61=DFR I(F)L2, e61=DFR I(n)Z(0,3), f61=DFR GL2, a62=DFR I(F)1,
b62=DFR I(F)3(800), c62=DFR I(ne)3(800), d62=DFR GB3(800), e62=IB LL-DZ(0,3),
f62=IB SPL-DZ(0,
3), a63=DFR G2, b63=DFR I(F)Z(0,3), c63=DFR GB1, d63=DFR I(ne)LZ(0,3), e63=DFR
I(F)1, f63=DFR I(F)B1, a64=DFR I(ne)B1, b64=DFR I(F)B1, c64=IB SPL-D3(800),
d64=IB SPL-DZ(0,3), e64=DFR I(ne)1, f64=LM Jelinek-Mercer(0,7), a65=IB SPL-D1,
b65=IB LL-L2, c65=DFR I(ne)L3(800), d65=DFR G3(800), e65=IB SPL-LZ(0,3),
f65=DFR GBZ(0,3), a66=BM25(k1=1,2,b=0,75), b66=DFR GB2, c66=DFR I(ne)BZ(0,3),
d66=DFR GBZ(0,3), e66=IB SPL-L3(800), f66=DFR I(n)L2, a67=DFR G1, b67=DFR
I(n)L3(800), c67=IB SPL-D2, d67=DFR I(n)3(800), e67=IB SPL-LZ(0,3),
f67=BM25(k1=1,2,b=0,75), a68=IB LL-D3(800), b68=IB LL-L3(800), c68=DFR
I(ne)3(800), d68=IB LL-D3(800), e68=DFR I(F)Z(0,3), f68=DFR G1, a69=DFR I(F)L1,
b69=DFR GL2, c69=DFR I(F)3(800), d69=DFR GL2, e69=LM Jelinek-Mercer(0,1),
f69=DFR I(n)2, a70=DFR G1, b70=DFR GL3(800), c70=DFR G2, d70=IB LL-LZ(0,3),
e70=IB SPL-D2, f70=DFR GBZ(0,3), a71=IB LL-L1, b71=DFR I(F)L1, c71=DFR I(ne)1,
d71=DFR GL3(800), e71=DFR I(ne)BZ(0,3), f71=DFR I(F)B1, a72=DFR I(n)L2, b72=DFR
I(F)L3(800
), c72=DFR I(n)BZ(0,3), d72=IB LL-L3(800), e72=DFR I(ne)B1, f72=IB
SPL-LZ(0,3), a73=IB SPL-L3(800), b73=DefaultSimilarity, c73=IB LL-LZ(0,3),
d73=DFR I(n)BZ(0,3), e73=IB SPL-D2, f73=DFR GL3(800), a74=DFR I(n)3(800),
b74=DFR I(ne)B3(800), c74=DFR I(ne)B3(800), d74=IB LL-LZ(0,3), e74=DFR I(n)L1,
f74=DFR I(F)3(800), a75=DFR GBZ(0,3), b75=DFR I(F)B1, c75=DFR I(n)L1, d75=DFR
I(F)LZ(0,3), e75=IB LL-L1, f75=DFR GB1, a76=DFR I(F)Z(0,3), b76=IB SPL-L1,
c76=DFR I(ne)LZ(0,3), d76=IB LL-D1, e76=DFR I(F)B2, f76=DFR I(ne)B2, a77=DFR
I(n)LZ(0,3), b77=DFR I(n)BZ(0,3), c77=DFR I(ne)BZ(0,3), d77=IB SPL-D3(800),
e77=IB LL-L2, f77=DFR I(ne)L2, a78=IB LL-LZ(0,3), b78=DFR I(n)BZ(0,3), c78=IB
LL-LZ(0,3), d78=IB LL-LZ(0,3), e78=DFR GB2, f78=DFR I(F)LZ(0,3), a79=DFR
GZ(0,3), b79=DFR I(ne)1, c79=DFR I(F)1, d79=DFR I(n)Z(0,3), e79=DFR I(F)3(800),
f79=DFR I(n)LZ(0,3), a80=IB SPL-D1, b80=DFR I(F)B1, c80=DFR GLZ(0,3), d80=DFR
GBZ(0,3), e80=DFR I(n)3(800), f80=DFR GL1, a81=DFR I(F)L1, b81=DFR I(ne)L1,
c81=DFR GB3
(800), d81=DFR I(n)B2, e81=IB SPL-L2, f81=DFR I(F)LZ(0,3), a82=DFR I(n)B1,
b82=DFR I(F)B3(800), c82=LM Jelinek-Mercer(0,7), d82=IB SPL-L3(800), e82=IB
SPL-LZ(0,3), f82=DFR GZ(0,3), a83=DFR I(n)L3(800), b83=IB LL-L3(800), c83=DFR
I(F)LZ(0,3), d83=DFR I(ne)L2, e83=DFR GL3(800), f83=IB LL-DZ(0,3), a84=DFR
I(F)L1, b84=IB LL-D3(800), c84=DFR I(F)Z(0,3), d84=DFR I(F)LZ(0,3), e84=IB
LL-LZ(0,3), f84=DFR I(F)2, a85=DFR GL3(800), b85=DFR G1, c85=DFR GL1, d85=IB
LL-DZ(0,3), e85=IB SPL-D3(800), f85=IB SPL-L3(800), a86=DFR I(n)B1, b86=IB
LL-L2, c86=DFR GB3(800), d86=DFR I(ne)B1, e86=DFR GBZ(0,3), f86=DFR I(ne)L2,
a87=DFR I(ne)B3(800), b87=IB LL-L3(800), c87=DFR I(n)BZ(0,3), d87=DFR I(F)B1,
e87=DFR GB1, f87=IB SPL-LZ(0,3), a88=DFR I(F)B1, b88=IB SPL-L1, c88=DFR GB1,
d88=DFR GBZ(0,3), e88=IB LL-D1, f88=DFR I(ne)B3(800), a89=LM
Jelinek-Mercer(0,1), b89=DFR I(F)B3(800), c89=DFR G3(800), d89=LM
Jelinek-Mercer(0,7), e89=DFR I(ne)LZ(0,3), f89=DFR I(ne)3(800), a90=DFR GL2,
b90=IB LL-L2, c90=IB LL-D3(800
), d90=DFR I(ne)B1, e90=DFR I(n)L2, f90=DFR I(ne)B2, a91=IB SPL-D2, b91=LM
Jelinek-Mercer(0,7), c91=DFR I(ne)B1, d91=DFR GZ(0,3), e91=DFR I(n)B1, f91=IB
SPL-LZ(0,3), a92=DFR I(F)BZ(0,3), b92=DFR I(n)2, c92=DFR I(F)LZ(0,3), d92=DFR
I(ne)LZ(0,3), e92=DFR I(F)2, f92=DFR I(F)L2, a93=DFR GL2, b93=DFR I(F)Z(0,3),
c93=IB LL-D3(800), d93=DFR I(ne)B3(800), e93=DFR I(F)LZ(0,3), f93=DFR I(n)L2,
a94=DFR GB3(800), b94=DFR GL3(800), c94=DFR I(n)L2, d94=DFR I(F)L1, e94=IB
LL-L2, f94=DFR I(n)B2, a95=IB SPL-D2, b95=DFR GZ(0,3), c95=DFR I(n)1, d95=DFR
I(ne)B3(800), e95=DFR G2, f95=DefaultSimilarity, a96=DFR G3(800), b96=DFR
I(n)B3(800), c96=IB SPL-L1, d96=DFR I(F)B1, e96=IB SPL-D3(800), f96=DFR
G3(800), a97=DFR I(F)B1, b97=DFR I(F)L2, c97=DFR I(F)B2, d97=LM
Jelinek-Mercer(0,7), e97=IB SPL-D2, f97=DFR I(n)Z(0,3), a98=DFR I(ne)L1,
b98=DFR I(n)L2, c98=DFR GL2, d98=DFR G2, e98=IB SPL-DZ(0,3), f98=DFR GL3(800),
a99=DFR I(n)L3(800), b99=DFR I(n)L2, c99=DFR GL3(800), d99=DFR I(ne)2, e99=DFR
I(F)LZ(0,3), f99
=DFR I(F)2, str=DFR I(F)L2, str2=DFR I(n)B3(800), body=IB SPL-LZ(0,3)}
System Properties
=================
Nightly: False
Weekly: False
Slow: True
Awaits Fix: False
Directory: random
Verbose: False
Random Multiplier: 1
Stack Trace:
at System.TimeZoneInfo.ConvertTime(DateTime dateTime, TimeZoneInfo
sourceTimeZone, TimeZoneInfo destinationTimeZone, TimeZoneInfoOptions flags,
CachedData cachedData)
at Lucene.Net.Index.AlcoholicMergePolicy..ctor(TimeZoneInfo timeZone,
Random random) in
/Users/paulirwin/git/lucene.net/src/Lucene.Net.TestFramework/Index/AlcoholicMergePolicy.cs:line
47
at Lucene.Net.Util.LuceneTestCase.NewAlcoholicMergePolicy(Random random,
TimeZoneInfo timeZone) in
/Users/paulirwin/git/lucene.net/src/Lucene.Net.TestFramework/Util/LuceneTestCase.cs:line
1484
at Lucene.Net.Util.LuceneTestCase.NewIndexWriterConfig(Random random,
LuceneVersion v, Analyzer a) in
/Users/paulirwin/git/lucene.net/src/Lucene.Net.TestFramework/Util/LuceneTestCase.cs:line
1433
at Lucene.Net.Index.TestIndexWriter.TestUnlimitedMaxFieldLength() in
/Users/paulirwin/git/lucene.net/src/Lucene.Net.Tests/Index/TestIndexWriter.cs:line
888
at System.RuntimeMethodHandle.InvokeMethod(Object target, Void**
arguments, Signature sig, Boolean isConstructor)
at System.Reflection.MethodBaseInvoker.InvokeWithNoArgs(Object obj,
BindingFlags invokeAttr)
```
### Expected Behavior
The test passes.
### Steps To Reproduce
_No response_
### Exceptions (if any)
_No response_
### Lucene.NET Version
_No response_
### .NET Version
_No response_
### Operating System
_No response_
### Anything else?
_No response_
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