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81606a10c8
In semi-automated environments, XFAILing or filtering out known regressions without actually committing changes or temporarily modifying the test suite can be quite useful. Reviewed By: yln Differential Revision: https://reviews.llvm.org/D96662
114 lines
6.3 KiB
Python
114 lines
6.3 KiB
Python
# RUN: %{lit} %{inputs}/discovery | FileCheck --check-prefix=CHECK-BASIC %s
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# CHECK-BASIC: Testing: 5 tests
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# Check that we exit with an error if we do not discover any tests, even with --allow-empty-runs.
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#
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# RUN: not %{lit} %{inputs}/nonexistent 2>&1 | FileCheck --check-prefix=CHECK-BAD-PATH %s
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# RUN: not %{lit} %{inputs}/nonexistent --allow-empty-runs 2>&1 | FileCheck --check-prefix=CHECK-BAD-PATH %s
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# CHECK-BAD-PATH: error: did not discover any tests for provided path(s)
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# Check that we exit with an error if we filter out all tests, but allow it with --allow-empty-runs.
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# Check that we exit with an error if we skip all tests, but allow it with --allow-empty-runs.
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#
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# RUN: not %{lit} --filter 'nonexistent' %{inputs}/discovery 2>&1 | FileCheck --check-prefixes=CHECK-BAD-FILTER,CHECK-BAD-FILTER-ERROR %s
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# RUN: %{lit} --filter 'nonexistent' --allow-empty-runs %{inputs}/discovery 2>&1 | FileCheck --check-prefixes=CHECK-BAD-FILTER,CHECK-BAD-FILTER-ALLOW %s
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# RUN: not %{lit} --filter-out '.*' %{inputs}/discovery 2>&1 | FileCheck --check-prefixes=CHECK-BAD-FILTER,CHECK-BAD-FILTER-ERROR %s
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# RUN: %{lit} --filter-out '.*' --allow-empty-runs %{inputs}/discovery 2>&1 | FileCheck --check-prefixes=CHECK-BAD-FILTER,CHECK-BAD-FILTER-ALLOW %s
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# CHECK-BAD-FILTER: error: filter did not match any tests (of 5 discovered).
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# CHECK-BAD-FILTER-ERROR: Use '--allow-empty-runs' to suppress this error.
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# CHECK-BAD-FILTER-ALLOW: Suppressing error because '--allow-empty-runs' was specified.
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# Check that regex-filtering works, is case-insensitive, and can be configured via env var.
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#
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# RUN: %{lit} --filter 'o[a-z]e' %{inputs}/discovery | FileCheck --check-prefix=CHECK-FILTER %s
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# RUN: %{lit} --filter 'O[A-Z]E' %{inputs}/discovery | FileCheck --check-prefix=CHECK-FILTER %s
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# RUN: env LIT_FILTER='o[a-z]e' %{lit} %{inputs}/discovery | FileCheck --check-prefix=CHECK-FILTER %s
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# RUN: %{lit} --filter-out 'test-t[a-z]' %{inputs}/discovery | FileCheck --check-prefix=CHECK-FILTER %s
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# RUN: %{lit} --filter-out 'test-t[A-Z]' %{inputs}/discovery | FileCheck --check-prefix=CHECK-FILTER %s
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# RUN: env LIT_FILTER_OUT='test-t[a-z]' %{lit} %{inputs}/discovery | FileCheck --check-prefix=CHECK-FILTER %s
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# CHECK-FILTER: Testing: 2 of 5 tests
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# CHECK-FILTER: Excluded: 3
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# Check that maximum counts work
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#
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# RUN: %{lit} --max-tests 3 %{inputs}/discovery | FileCheck --check-prefix=CHECK-MAX %s
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# CHECK-MAX: Testing: 3 of 5 tests
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# CHECK-MAX: Excluded: 2
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# Check that sharding partitions the testsuite in a way that distributes the
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# rounding error nicely (i.e. 5/3 => 2 2 1, not 1 1 3 or whatever)
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#
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# RUN: %{lit} --num-shards 3 --run-shard 1 %{inputs}/discovery >%t.out 2>%t.err
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# RUN: FileCheck --check-prefix=CHECK-SHARD0-ERR < %t.err %s
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# RUN: FileCheck --check-prefix=CHECK-SHARD0-OUT < %t.out %s
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# CHECK-SHARD0-ERR: note: Selecting shard 1/3 = size 2/5 = tests #(3*k)+1 = [1, 4]
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# CHECK-SHARD0-OUT: Testing: 2 of 5 tests
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# CHECK-SHARD0-OUT: Excluded: 3
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#
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# RUN: %{lit} --num-shards 3 --run-shard 2 %{inputs}/discovery >%t.out 2>%t.err
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# RUN: FileCheck --check-prefix=CHECK-SHARD1-ERR < %t.err %s
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# RUN: FileCheck --check-prefix=CHECK-SHARD1-OUT < %t.out %s
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# CHECK-SHARD1-ERR: note: Selecting shard 2/3 = size 2/5 = tests #(3*k)+2 = [2, 5]
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# CHECK-SHARD1-OUT: Testing: 2 of 5 tests
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#
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# RUN: %{lit} --num-shards 3 --run-shard 3 %{inputs}/discovery >%t.out 2>%t.err
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# RUN: FileCheck --check-prefix=CHECK-SHARD2-ERR < %t.err %s
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# RUN: FileCheck --check-prefix=CHECK-SHARD2-OUT < %t.out %s
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# CHECK-SHARD2-ERR: note: Selecting shard 3/3 = size 1/5 = tests #(3*k)+3 = [3]
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# CHECK-SHARD2-OUT: Testing: 1 of 5 tests
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# Check that sharding via env vars works.
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#
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# RUN: env LIT_NUM_SHARDS=3 LIT_RUN_SHARD=1 %{lit} %{inputs}/discovery >%t.out 2>%t.err
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# RUN: FileCheck --check-prefix=CHECK-SHARD0-ENV-ERR < %t.err %s
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# RUN: FileCheck --check-prefix=CHECK-SHARD0-ENV-OUT < %t.out %s
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# CHECK-SHARD0-ENV-ERR: note: Selecting shard 1/3 = size 2/5 = tests #(3*k)+1 = [1, 4]
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# CHECK-SHARD0-ENV-OUT: Testing: 2 of 5 tests
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#
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# RUN: env LIT_NUM_SHARDS=3 LIT_RUN_SHARD=2 %{lit} %{inputs}/discovery >%t.out 2>%t.err
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# RUN: FileCheck --check-prefix=CHECK-SHARD1-ENV-ERR < %t.err %s
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# RUN: FileCheck --check-prefix=CHECK-SHARD1-ENV-OUT < %t.out %s
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# CHECK-SHARD1-ENV-ERR: note: Selecting shard 2/3 = size 2/5 = tests #(3*k)+2 = [2, 5]
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# CHECK-SHARD1-ENV-OUT: Testing: 2 of 5 tests
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#
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# RUN: env LIT_NUM_SHARDS=3 LIT_RUN_SHARD=3 %{lit} %{inputs}/discovery >%t.out 2>%t.err
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# RUN: FileCheck --check-prefix=CHECK-SHARD2-ENV-ERR < %t.err %s
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# RUN: FileCheck --check-prefix=CHECK-SHARD2-ENV-OUT < %t.out %s
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# CHECK-SHARD2-ENV-ERR: note: Selecting shard 3/3 = size 1/5 = tests #(3*k)+3 = [3]
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# CHECK-SHARD2-ENV-OUT: Testing: 1 of 5 tests
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# Check that providing more shards than tests results in 1 test per shard
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# until we run out, then 0.
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#
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# RUN: %{lit} --num-shards 100 --run-shard 2 %{inputs}/discovery >%t.out 2>%t.err
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# RUN: FileCheck --check-prefix=CHECK-SHARD-BIG-ERR1 < %t.err %s
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# RUN: FileCheck --check-prefix=CHECK-SHARD-BIG-OUT1 < %t.out %s
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# CHECK-SHARD-BIG-ERR1: note: Selecting shard 2/100 = size 1/5 = tests #(100*k)+2 = [2]
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# CHECK-SHARD-BIG-OUT1: Testing: 1 of 5 tests
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#
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# RUN: %{lit} --num-shards 100 --run-shard 6 %{inputs}/discovery >%t.out 2>%t.err
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# RUN: FileCheck --check-prefix=CHECK-SHARD-BIG-ERR2 < %t.err %s
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# CHECK-SHARD-BIG-ERR2: note: Selecting shard 6/100 = size 0/5 = tests #(100*k)+6 = []
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# CHECK-SHARD-BIG-ERR2: warning: shard does not contain any tests. Consider decreasing the number of shards.
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#
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# RUN: %{lit} --num-shards 100 --run-shard 50 %{inputs}/discovery >%t.out 2>%t.err
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# RUN: FileCheck --check-prefix=CHECK-SHARD-BIG-ERR3 < %t.err %s
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# CHECK-SHARD-BIG-ERR3: note: Selecting shard 50/100 = size 0/5 = tests #(100*k)+50 = []
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# CHECK-SHARD-BIG-ERR3: warning: shard does not contain any tests. Consider decreasing the number of shards.
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# Check that range constraints are enforced
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#
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# RUN: not %{lit} --num-shards 0 --run-shard 2 %{inputs}/discovery >%t.out 2>%t.err
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# RUN: FileCheck --check-prefix=CHECK-SHARD-ERR < %t.err %s
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# CHECK-SHARD-ERR: error: argument --num-shards: requires positive integer, but found '0'
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#
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# RUN: not %{lit} --num-shards 3 --run-shard 4 %{inputs}/discovery >%t.out 2>%t.err
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# RUN: FileCheck --check-prefix=CHECK-SHARD-ERR2 < %t.err %s
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# CHECK-SHARD-ERR2: error: --run-shard must be between 1 and --num-shards (inclusive)
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