Profiler Object:Table-Based Statistics
The table-based statistics should only be retrieved after ProfileData is called.
GetTableRecordCount
This function returns the number of records processed.
| Syntax | profiler->GetTableRecordCount(); |
|---|---|
| C | integer = mdProfilerGetTableRecordCount(profiler); |
| .Net | integer = profiler.GetTableRecordCount(); |
GetTableRecordEmptyCount
This function returns the number of records with empty values for all columns. An empty value is not Null, can contain spaces, and has no string or value.
| Syntax | profiler->GetTableRecordEmptyCount(); |
|---|---|
| C | integer = mdProfilerGetTableRecordEmptyCount(profiler); |
| .Net | integer = profiler.GetTableRecordEmptyCount(); |
GetTableRecordNullCount
This returns the number of records having Null values for all columns.
| Syntax | profiler->GetTableRecordNullCount(); |
|---|---|
| C | integer = mdProfilerGetTableRecordNullCount(profiler); |
| .Net | integer = profiler.GetTableRecordNullCount(); |
GetTableExactMatchDistinctCount
This function returns the number of unique records using an Exact Match matching critera. All data fields provided will be compared. Casing and punctuation will be ignored.
| Syntax | profiler->GetTableExactMatchDistinctCount(); |
|---|---|
| C | integer = mdProfilerGetTableExactMatchDistinctCount(profiler); |
| .Net | integer = profiler.GetTableExactMatchDistinctCount(); |
GetTableExactMatchDupesCount
This function returns the number of duplicate records using an Exact Match matching critera. All data fields provided will be compared. Casing and punctuation will be ignored.
| Syntax | profiler->GetTableExactMatchDupesCount(); |
|---|---|
| C | integer = mdProfilerGetTableExactMatchDupesCount(profiler); |
| .Net | integer = profiler.GetTableExactMatchDupesCount(); |
GetTableExactMatchLargestGroup
This function returns the size of the largest group of duplicate records using an Exact Match matching critera. All data fields provided will be compared. Casing and punctuation will be ignored.
| Syntax | profiler->GetTableExactMatchLargestGroup(); |
|---|---|
| C | integer = mdProfilerGetTableExactMatchLargestGroup(profiler); |
| .Net | integer = profiler.GetTableExactMatchLargestGroup(); |
GetTableContactMatchDistinctCount
This function returns the number of distinct records using Address, First Name and Last Name matching criteria.
The Contact Match matching rules used are:
- Zip5 AND First Name AND Last Name AND Street Number AND Street Name (All have to match)
- OR
- Zip5 AND First Name AND Last Name AND PO Box (All have to match)
Note: The Profiler will parse data present in a single field such as an AddressLine or a FullName for matching purposes. (e.g., From an Address field containing “12 Main Street,” the Profiler will take the “12” as the Street Number and “Main” as the Street Name for its matching needs.)
| Syntax | profiler->GetTableContactMatchDistinctCount(); |
|---|---|
| C | integer = mdProfilerGetTableContactMatchDistinctCount(profiler); |
| .Net | integer = profiler.GetTableContactMatchDistinctCount(); |
GetTableContactMatchDupesCount
This function returns the number of duplicate records using Contact Match described under GetTableContactMatchDistinctCount.
| Syntax | profiler->GetTableContactMatchDupesCount(); |
|---|---|
| C | integer = mdProfilerGetTableContactMatchDupesCount(profiler); |
| .Net | integer = profiler.GetTableContactMatchDupesCount(); |
GetTableContactMatchLargestGroup
This function returns the size of the largest group of duplicates using Contact Match described under GetTableContactMatchDistinctCount.
| Syntax | profiler->GetTableContactMatchLargestGroup(); |
|---|---|
| C | integer = mdProfilerGetTableContactMatchLargestGroup(profiler); |
| .Net | integer = profiler.GetTableContactMatchLargestGroup(); |
GetTableHouseholdMatchDistinctCount
This function returns the number of distinct records using Address, and Last Name matching criteria.
The Household Match matching rules used are:
- Zip5 AND Last Name AND Street Number AND Street Name (All have to match)
- OR
- Zip5 AND Last Name AND PO Box (All have to match)
Note: The Profiler will parse data present in a single field such as an AddressLine or a FullName for matching purposes. (e.g, From an Address field containing “12 Main Street,” the Profiler will take the “12” as the Street Number and “Main” as the Street Name for its matching needs.)
| Syntax | profiler->GetTableHouseholdMatchDistinctCount(); |
|---|---|
| C | integer = mdProfilerGetTableHouseholdMatchDistinctCount(profiler); |
| .Net | integer = profiler.GetTableHouseholdMatchDistinctCount(); |
GetTableHouseholdMatchDupesCount
This function returns the number of duplicate records using the Household Match matching strategy described under GetTableHouseholdMatchDistinctCount.
| Syntax | profiler->GetTableHouseholdMatchDupesCount(); |
|---|---|
| C | integer = mdProfilerGetTableHouseholdMatchDupesCount(profiler); |
| .Net | integer = profiler.GetTableHouseholdMatchDupesCount(); |
GetTableHouseholdMatchLargestGroup
This function returns the size of the largest group of duplicate records using the Household Match matching strategy described under GetTableHouseholdMatchDistinctCount.
| Syntax | profiler->GetTableHouseholdMatchLargestGroup(); |
|---|---|
| C | integer = mdProfilerGetTableHouseholdMatchLargestGroup(profiler); |
| .Net | integer = profiler.GetTableHouseholdMatchLargestGroup(); |
GetTableAddressMatchDistinctCount
This function returns the number of distinct records using Address only matching criteria.
The Address Match matching rules used are:
- Zip5 AND Street Number AND Street Name (All have to match)
- OR
- Zip5 AND PO Box (both have to match)
Note: The Profiler will parse data present in a single field such as an AddressLine or a FullName for matching purposes. (e.g., From an Address field containing “12 Main Street,” the Profiler will take the “12” as the Street Number and “Main” as the Street Name for its matching needs.)
| Syntax | profiler->GetTableAddressMatchDistinctCount(); |
|---|---|
| C | integer = mdProfilerGetTableAddressMatchDistinctCount(profiler); |
| .Net | integer = profiler.GetTableAddressMatchDistinctCount(); |
GetTableAddressMatchDupesCount
This function returns the number of duplicate records using Address Match matching strategy decribed under GetTableHouseholdMatchDistinctCount.
| Syntax | profiler->GetTableAddressMatchDupesCount(); |
|---|---|
| C | integer = mdProfilerGetTableAddressMatchDupesCount(profiler); |
| .Net | integer = profiler.GetTableAddressMatchDupesCount(); |
GetTableAddressMatchLargestGroup
This function returns the size of the largest group of duplicate records using Address Match matching strategy decribed under GetTableHouseholdMatchDistinctCount.
| Syntax | profiler->GetTableAddressMatchLargestGroup(); |
|---|---|
| C | integer = mdProfilerGetTableAddressMatchLargestGroup(profiler); |
| .Net | integer = profiler.GetTableAddressMatchLargestGroup(); |
GetTableEmbeddedRowDelimiterCount
This returns the count of the row delimiters that appeared in one of the parsed fields.
This function will return results only if AddDelimitedRecord is used for parsing the input data.
| Syntax | int = profiler->GetTableEmbeddedRowDelimiterCount(); |
|---|---|
| C | int = mdProfilerGetTableEmbeddedRowDelimiterCount(profiler); |
| .Net | integer = profiler.GetTableEmbeddedRowDelimiterCount(); |
GetTableNotAllFieldsPresentCount
This returns the count of when not all fields were presents. Each field specified by AddColumn() should have a corresponding value after using AddDelimitedRecord(), if not this count will be incremented.
This function will return results only if AddDelimitedRecord() is used for parsing the input data.
| Syntax | int = profiler->GetTableNotAllFieldsPresentCount(); |
|---|---|
| C | int = mdProfilerGetTableNotAllFieldsPresentCount(profiler); |
| .Net | integer = profiler.GetTableNotAllFieldsPresentCount(); |
GetTableExtraFieldsPresentCount
Each field specified by AddColumn() should have a corresponding value after using AddDelimitedRecord(), if there are any extra fields present this count will be incremented. This function will return results only if AddDelimitedRecord() is used for parsing the input data.
| Syntax | int = profiler->GetTableExtraFieldsPresentCount(); |
|---|---|
| C | int = mdProfilerGetTableExtraFieldsPresentCount(profiler); |
| .Net | integer = profiler.GetTableExtraFieldsPresentCount(); |
GetTableUnbalancedTextQualifiersCount
The Text Qualifier indicates the character that can (optionally) enclose fields. It is usually used to ‘protect’ in-field delimiters, and is often the double-quote character. Also, if this character appears in the field data itself, it must be properly escaped. If any unbalanced text qualifiers appeared in the data, this count will be incremented. The text qualifier is specified by the SetTextQualifier() function. This function will return results only if AddDelimitedRecord() is used for parsing the input data.
| Syntax | int = profiler->GetTableUnbalancedTextQualifiersCount(); |
|---|---|
| C | int = mdProfilerGetTableUnbalancedTextQualifiersCount(profiler); |
| .Net | integer = profiler.GetTableUnbalancedTextQualifiersCount(); |
GetTableUnescapedEmbeddedTextQualifiersCount
The Text Qualifier indicates the character that can (optionally) enclose fields. It is usually used to ‘protect’ in-field delimiters, and is often the double-quote character. Also, if this character appears in the field data itself, it must be properly escaped. If any unbalanced text qualifiers were not escaped, this count will be incremented. The text qualifier is specified by the SetTextQualifier() function. This function will return results only if AddDelimitedRecord() is used for parsing the input data.
| Syntax | int = profiler->GetTableUnescapedEmbeddedTextQualifiersCount(); |
|---|---|
| C | int = mdProfilerGetTableUnescapedEmbeddedTextQualifiersCount(profiler); |
| .Net | integer = profiler.GetTableUnescapedEmbeddedTextQualifiersCount(); |