11be35a165
To do so, a few dependencies have been imported: * external/bsd/lutok * external/mit/lua * external/public-domain/sqlite * external/public-domain/xz The Kyua framework is the new generation of ATF (Automated Test Framework), it is composed of: * external/bsd/atf * external/bsd/kyua-atf-compat * external/bsd/kyua-cli * external/bsd/kyua-tester * tests Kyua/ATF being written in C++, it depends on libstdc++ which is provided by GCC. As this is not part of the sources, Kyua is only compiled when the native GCC utils are installed. To install Kyua do the following: * In a cross-build enviromnent, add the following to the build.sh commandline: -V MKBINUTILS=yes -V MKGCCCMDS=yes WARNING: At this point the import is still experimental, and not supported on native builds (a.k.a make build). Change-Id: I26aee23c5bbd2d64adcb7c1beb98fe0d479d7ada
74 lines
1.8 KiB
Plaintext
74 lines
1.8 KiB
Plaintext
NOTE null subexpression matches : 2002-06-06
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E (a*)* a (0,1)(0,1)
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E SAME x (0,0)(0,0)
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E SAME aaaaaa (0,6)(0,6)
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E SAME aaaaaax (0,6)(0,6)
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E (a*)+ a (0,1)(0,1)
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E SAME x (0,0)(0,0)
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E SAME aaaaaa (0,6)(0,6)
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E SAME aaaaaax (0,6)(0,6)
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E (a+)* a (0,1)(0,1)
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E SAME x (0,0)
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E SAME aaaaaa (0,6)(0,6)
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E SAME aaaaaax (0,6)(0,6)
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E (a+)+ a (0,1)(0,1)
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E SAME x NOMATCH
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E SAME aaaaaa (0,6)(0,6)
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E SAME aaaaaax (0,6)(0,6)
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E ([a]*)* a (0,1)(0,1)
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E SAME x (0,0)(0,0)
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E SAME aaaaaa (0,6)(0,6)
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E SAME aaaaaax (0,6)(0,6)
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E ([a]*)+ a (0,1)(0,1)
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E SAME x (0,0)(0,0)
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E SAME aaaaaa (0,6)(0,6)
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E SAME aaaaaax (0,6)(0,6)
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E ([^b]*)* a (0,1)(0,1)
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E SAME b (0,0)(0,0)
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E SAME aaaaaa (0,6)(0,6)
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E SAME aaaaaab (0,6)(0,6)
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E ([ab]*)* a (0,1)(0,1)
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E SAME aaaaaa (0,6)(0,6)
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E SAME ababab (0,6)(0,6)
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E SAME bababa (0,6)(0,6)
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E SAME b (0,1)(0,1)
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E SAME bbbbbb (0,6)(0,6)
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E SAME aaaabcde (0,5)(0,5)
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E ([^a]*)* b (0,1)(0,1)
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E SAME bbbbbb (0,6)(0,6)
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E SAME aaaaaa (0,0)(0,0)
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E ([^ab]*)* ccccxx (0,6)(0,6)
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E SAME ababab (0,0)(0,0)
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E ((z)+|a)* zabcde (0,2)(1,2)
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{E a+? aaaaaa (0,1) no *? +? mimimal match ops
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E (a) aaa (0,1)(0,1)
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E (a*?) aaa (0,0)(0,0)
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E (a)*? aaa (0,0)
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E (a*?)*? aaa (0,0)
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}
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B \(a*\)*\(x\) x (0,1)(0,0)(0,1)
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B \(a*\)*\(x\) ax (0,2)(0,1)(1,2)
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B \(a*\)*\(x\) axa (0,2)(0,1)(1,2)
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B \(a*\)*\(x\)\(\1\) x (0,1)(0,0)(0,1)(1,1)
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B \(a*\)*\(x\)\(\1\) ax (0,2)(1,1)(1,2)(2,2)
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B \(a*\)*\(x\)\(\1\) axa (0,3)(0,1)(1,2)(2,3)
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B \(a*\)*\(x\)\(\1\)\(x\) axax (0,4)(0,1)(1,2)(2,3)(3,4)
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B \(a*\)*\(x\)\(\1\)\(x\) axxa (0,3)(1,1)(1,2)(2,2)(2,3)
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E (a*)*(x) x (0,1)(0,0)(0,1)
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E (a*)*(x) ax (0,2)(0,1)(1,2)
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E (a*)*(x) axa (0,2)(0,1)(1,2)
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E (a*)+(x) x (0,1)(0,0)(0,1)
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E (a*)+(x) ax (0,2)(0,1)(1,2)
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E (a*)+(x) axa (0,2)(0,1)(1,2)
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E (a*){2}(x) x (0,1)(0,0)(0,1)
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E (a*){2}(x) ax (0,2)(1,1)(1,2)
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E (a*){2}(x) axa (0,2)(1,1)(1,2)
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