Array types published to BigQuery arrays for nested, homogenous data
In a prior release, Array type columns could be published to BigQuery for homogeneous primitive types. Other data types and nested data were published as String type.
Beginning in this release, Dataprep by Trifacta supports publication of nested arrays of homogeneous data as Struct types in BigQuery.
NOTE: If you have previously enabled publication of arrays as primitive types, this change may cause the structure of your published array data in BigQuery to change, which could cause breakages in your data pipelines. You should test and review the output of these publications.
For more information, see BigQuery Table Settings.
Array types published to BigQuery as primitive arrays
In prior releases, Dataprep by Trifacta Array type columns were written as String columns when published to BigQuery.
Beginning in this release, Dataprep by Trifacta Array types are published as BigQuery arrays. Within these Array types, only the following primitive types are supported: String, Integer, Decimal (Float), and Boolean as BigQuery arrays.
For more information, see BigQuery Data Type Conversions.
Mismatched values are no longer published as null values in CSV outputs
In prior releases, when a file was published in CSV format, any values that were mismatches for a column's data type were written as null values, which could lead to loss of data that was meaningful to downstream systems.
Beginning in this release, mismatched values are written out in CSV format as String values by default.
NOTE: The ability to write out mismatched values in CSV outputs is enabled by default in new flows and CSV publishing actions. For existing CSV outputs, the prior behavior is maintained.
NOTE: This capability applies only to CSV outputs at this time. In the future, it will be applied to other non-schematized outputs, such as JSON.
Tip: When visual profiling is enabled, you can still identify the values in the generated results that are mismatched for their column data types.
As needed, you can configure the ability to write out mismatches for CSV outputs for individual publishing actions. For more information, see File Settings.
Data type inference and row split inference run on more data
When an dataset is imported into the Dataprep by Trifacta application, a larger volume of data is read from it for the following processes:
NOTE: The following is applied to datasets that do not contain schema information.
- Split row inference: Patterns in the data are used to determine the end of a row of data. When a larger volume of data is read, there should be more potential rows to review, resulting in better precision on where to split the data into separate rows in the application.
- Type inference: Patterns of data in the same column are used to determine the best Dataprep by Trifacta data type to assign to the imported dataset. A larger volume of data means that the application has more values for the same column from which to infer the appropriate data type.
NOTE: An increased data volume should result in a more accurate split row and data type inferencing. For pre-existing datasets, this increased volume may result in changes to the row and column type definitions when a dataset is imported.
Tip: For datasets that are demarcated by quoted values, you may experience a change in how columns are typed.
If you notice unexpected changes in column data types or in row splits in your datasets:
- Type inference: You should move your recipe panel cursor to the top of the dataset to see if you must reassign data types.
- Split row inference: Create a new imported dataset, disabling type inference in the import settings. Check the
splitrowstransform to see if it is splitting the rows appropriately. For more information, see Import Data Page.
PII - Improved matching for social security numbers
In prior releases, Personally Identifiable Information (PII) for social security numbers was identified based only on the length of values, which matched too broadly.
In this release, the constraints on matching of SSN values has been tightened when applied to PII.
Tip: PII detection is applied in generated log entries and in collaborative suggestions. When matching PII patterns are detected in data that is surface in these two areas, a mask is applied over the values for security reasons.
For more information, see Social Security Number Data Type.
For more information, see Data Type Validation Patterns.
PII - Improved and expanded matching for credit card numbers
In prior releases, PII for credit card numbers was identified base on 16-digit values.
In this release, the matching constraints have been expanded to include 14-digit credit card values.
Also, the constraints around valid 16-digit numbers have been improved with better recognition around values for different types of credit cards. In the following table, you can see lists of valid test numbers for different credit card types and can see how detection of these values has changed between releases.
|Test Number||Credit Card Type||Is Detected 7.4?||Is detected 7.5?|
|2222 4053 4324 8877||Mastercard||No||Yes|
|2222 9909 0525 7051||Mastercard||No||Yes|
|2223 0076 4872 6984||Mastercard||No||Yes|
|2223 5771 2001 7656||Mastercard||No||Yes|
|5105 1051 0510 5100||Mastercard||Yes||Yes|
|5111 0100 3017 5156||Mastercard||Yes||Yes|
|5204 7400 0990 0014||Mastercard||Yes||Yes|
|5420 9238 7872 4339||Mastercard||Yes||Yes|
|5455 3307 6000 0018||Mastercard||Yes||Yes|
|5506 9004 9000 0444||Mastercard||Yes||Yes|
|5553 0422 4198 4105||Mastercard||Yes||Yes|
|5555 5555 5555 4444||Mastercard||Yes||Yes|
|4012 8888 8888 1881||Visa||Yes||Yes|
|4111 1111 1111 1111||Visa||Yes||Yes|
|6011 0009 9013 9424||Discover||Yes||Yes|
|6011 1111 1111 1117||Discover||Yes||Yes|
|3714 496353 98431||American Express||Yes||Yes|
|3782 822463 10005||American Express||Yes||Yes|
|3056 9309 0259 04||Diners||No||Yes|
|3852 0000 0232 37||Diners||No||Yes|
|3530 1113 3330 0000||JCB||Yes||Yes|
|3566 0020 2036 0505||JCB||Yes||Yes|
For more information, see Credit Card Data Type.
For more information, see Data Type Validation Patterns.
Improved type inference for relational sources
In prior releases, when you generated outputs, the typecasting for the outputs was determined by the data types that were inferred by the application. So, if a column contained only "Yes" or "No" values, then the application is likely to have inferred the column data type as Boolean.
The above presented problems for relational sources for the following reasons:
- Relational sources could include schema information, which should override what the application inferred. Type inferencing can optionally be disabled for schematized sources from with in the application. For more information on disabling type inference for a schematized source, see Import Data Page.
- For some relational sources, datasets are ingested into the backend datastore and stored there as CSV files. These CSV files are then used as the source for the imported datasets. In these cases, the original source schema information was lost, which meant that the application's type inference was applied. This applied to the following data sources:
- SQL Datawarehouse
Beginning in this release, the schemas from relational datasources that are ingested to the backend datastore are now used for generated outputs, unless the type was being forcibly set to something else during the recipe step. At the time of original import, the schema of the relational datasource is stored as part of the ingest process; this schema is stored separately.
NOTE: If you created recipe steps that forcibly change a column's data type from within the application to be different from the source data type of your relational source, you may need to revise these recipe steps or remove them altogether.
During publication, Dataprep by Trifacta maps its internal data types to the data types of the publishing target using an internal mapping per vendor. For more information, see Type Conversions.
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