diff --git a/cpp/src/io/orc/stripe_data.cu b/cpp/src/io/orc/stripe_data.cu index 72885d3842a..938cde6cddf 100644 --- a/cpp/src/io/orc/stripe_data.cu +++ b/cpp/src/io/orc/stripe_data.cu @@ -136,8 +136,8 @@ struct orcdec_state_s { * @brief Manage caching of the first run of TIMESTAMP's DATA stream for a row group. * * This class is used to address a special case, where the first run spans two adjacent row groups - * and its length is greater than the maximum length allowed to be consumed (which limit is imposed - * by the decoder when processing the SECONDARY stream). This class shall be instantiated in the + * and its length is greater than the maximum length allowed to be consumed. This limit is imposed + * by the decoder when processing the SECONDARY stream. This class shall be instantiated in the * shared memory. As an optimization, the actual cache is a local variable and does not reside in * the shared memory. */ diff --git a/python/cudf/cudf/tests/test_orc.py b/python/cudf/cudf/tests/test_orc.py index c6550f2a79c..47c067e1c0b 100644 --- a/python/cudf/cudf/tests/test_orc.py +++ b/python/cudf/cudf/tests/test_orc.py @@ -1984,7 +1984,7 @@ def test_orc_reader_desynced_timestamp(datadir, inputfile): # is progressed faster than the SECONDARY stream (nanosecond) at the start of a row # group. In this case, the "run cache manager" in the decoder kernel is used to # orchestrate the dual-stream processing. - # See https://github.com/rapidsai/cudf/issues/17155 . + # For more information, see https://github.com/rapidsai/cudf/issues/17155. path = datadir / inputfile