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Methods defined here:
- __init__(self, data1=None, mode=None, pattern=None, symbols=None, result=None, filter=None, data2=None, data3=None, data1_partition_column=None, data2_partition_column=None, data3_partition_column=None, data1_order_column=None, data2_order_column=None, data3_order_column=None)
- DESCRIPTION:
The nPath function scans a set of rows, looking for patterns that you
specify. For each set of input rows that matches the pattern, nPath
produces a single output row. The function provides a flexible
pattern-matching capability that lets you specify complex patterns in
the input data and define the values that are output for each matched
input set.
PARAMETERS:
data1:
Required Argument.
Specifies the input teradataml DataFrame containing the input data set.
data1_partition_column:
Required Argument.
Specifies Partition By columns for data1.
Values to this argument can be provided as a list, if multiple
columns are used for partition.
Types: str OR list of Strings (str)
data1_order_column:
Required Argument.
Specifies Order By columns for data1.
Values to this argument can be provided as a list, if multiple
columns are used for ordering.
Types: str OR list of Strings (str)
mode:
Required Argument.
Specifies the pattern-matching mode:
OVERLAPPING: The function finds every occurrence of the pattern in
the partition, regardless of whether it is part of a previously
found match. Therefore, one row can match multiple symbols in a
given matched pattern.
NONOVERLAPPING: The function begins the next pattern search at the
row that follows the last pattern match. This is the default
behavior of many commonly used pattern matching utilities, including
the UNIX grep utility.
Permitted Values: OVERLAPPING, NONOVERLAPPING
Types: str
pattern:
Required Argument.
Specifies the pattern for which the function searches. You compose
pattern with the symbols that you define in the symbols argument,
operators, and parentheses.
When patterns have multiple operators, the function applies
them in order of precedence, and applies operators of equal
precedence from left to right. To specify that a subpattern must
appear a specific number of times, use the Range-Matching
Feature.
The basic pattern operators in decreasing order of precedence
"pattern", "pattern.", "pattern?", "pattern*", "pattern+",
"pattern1.pattern2", "pattern1|pattern2", "^pattern", "pattern$"
To force the function to evaluate a subpattern first, enclose it in parentheses.
Example:
^A.(B|C)+.D?.X*.A$
The preceding pattern definition matches any set of rows
whose first row starts with the definition of symbol A,
followed by a non-empty sequence of rows, each of which
meets the definition of either symbol B or C, optionally
followed by one row that meets the definition of symbol D,
followed by any number of rows that meet the definition of
symbol X, and ending with a row that ends with the definition of symbol A.
You can use parentheses to define precedence rules. Parentheses are
recommended for clarity, even where not strictly required.
Types: str
symbols:
Required Argument.
Defines the symbols that appear in the values of the pattern and
result arguments. The col_expr is an expression whose value is a
column name, symbol is any valid identifier, and symbol_predicate is
a SQL predicate (often a column name).
For example, the 'symbols' argument for analyzing website visits might
look like this:
Symbols
(
pagetype = "homepage" AS H,
pagetype <> "homepage" AND pagetype <> "checkout" AS PP,
pagetype = "checkout" AS CO
)
The symbol is case-insensitive; however, a symbol of one or two
uppercase letters is easy to identify in patterns.
If col_expr represents a column that appears in multiple input
DataFrames, then you must qualify the ambiguous column name with
the SQL name corresponding to it's teradataml DataFrame name.
For example:
Symbols
(
input1.pagetype = "homepage" AS H,
input1.pagetype = "thankyou" AS T,
input2.adname = "xmaspromo" AS X,
input2.adname = "realtorpromo" AS R
)
The mapping from teradataml DataFrame name to its corresponding SQL name
is as shown below:
* data1: input1
* data2: input2
* data3: input3
You can create symbol predicates that compare a row to a previous
or subsequent row, using a LAG or LEAD operator.
LAG Expression Syntax:
{ current_expr operator LAG (previous_expr, lag_rows [, default]) |
LAG (previous_expr, lag_rows [, default]) operator current_expr }
LAG and LEAD Expression Rules:
• A symbol definition can have multiple LAG and LEAD expressions.
• A symbol definition that has a LAG or LEAD expression cannot have an OR operator.
• If a symbol definition has a LAG or LEAD expression and the input
is not a table, you must create an alias of the input query.
Types: str OR list of Strings (str)
result:
Required Argument.
Defines the output columns. The col_expr is an expression whose value
is a column name; it specifies the values to retrieve from the
matched rows. The function applies aggregate function to these
values.
Supported aggregate functions:
• SQL aggregate functions are [AVG, COUNT, MAX, MIN, SUM].
• ML Engine nPath sequence aggregate functions.
The function evaluates this argument once for every matched pattern
in the partition (that is, it outputs one row for each pattern match).
Note:
For col_expr representing a column that appears in multiple input
DataFrames, you must qualify the ambiguous column name with the SQL
name corresponding to it's teradataml DataFrame name. Please see the
description of the 'symbols' parameter for the mapping from teradataml
DataFrame name to the SQL name.
Types: str OR list of Strings (str)
filter:
Optional Argument.
Specifies filters to impose on the matched rows. The function
combines the filter expressions using the AND operator.
The filter_expression syntax is:
symbol_expression comparison_operator symbol_expression
The two symbol expressions must be type-compatible.
The symbol_expression syntax is:
{ FIRST | LAST }(column_with_expression OF [ANY](symbol[,...]))
The column_with_expression cannot contain the operator AND or OR, and
all its columns must come from the same input. If the function has
multiple inputs, then column_with_expression and symbol must come
from the same input.
The comparison_operator is either <, >, <=, >=, =, or <>.
Note:
For column_with_expression representing a column that appears in
multiple input DataFrames, you must qualify the ambiguous column name with
the SQL name corresponding to it's teradataml DataFrame name. Please see
the description of the 'symbols' parameter for the mapping from teradataml
DataFrame name to the SQL name.
Types: str OR list of Strings (str)
data2:
Optional Argument.
Specifies the additional optional input teradataml DataFrame containing the input data set.
data2_partition_column:
Optional Argument.
Specifies Partition By columns for data2.
Values to this argument can be provided as a list, if multiple
columns are used for partition.
Types: str OR list of Strings (str)
data2_order_column:
Optional Argument.
Required when data2 teradataml DataFrame is used.
Specifies Order By columns for data2.
Values to this argument can be provided as a list, if multiple
columns are used for ordering.
Types: str OR list of Strings (str)
data3:
Optional Argument.
Specifies the additional optional input teradataml DataFrame containing the input data set.
data3_partition_column:
Optional Argument.
Specifies Partition By columns for data3.
Values to this argument can be provided as a list, if multiple
columns are used for partition.
Types: str OR list of Strings (str)
data3_order_column:
Optional Argument.
Required when data3 teradataml DataFrame is used.
Specifies Order By columns for data3.
Values to this argument can be provided as a list, if multiple
columns are used for ordering.
Types: str OR list of Strings (str)
RETURNS:
Instance of NPath.
Output teradataml DataFrames can be accessed using attribute
references, such as NPathObj.<attribute_name>.
Output teradataml DataFrame attribute name is:
result
RAISES:
TeradataMlException
EXAMPLES:
# Load example data.
load_example_data("NPath",["impressions","clicks2", "tv_spots", "clickstream"])
# Create input teradataml dataframes.
impressions = DataFrame.from_table("impressions")
clicks2 = DataFrame.from_table("clicks2")
tv_spots = DataFrame.from_table("tv_spots")
clickstream = DataFrame.from_table("clickstream")
# Example1:
# We will try to search for pattern '(imp|tv_imp)*.click'
# in the provided data sets(imressions, clicks2, tv_spots).
# Run NPath function with the required patterns to get the rows which
# has specified pattern. rows that matches the pattern.
result = NPath(data1=impressions,
data1_partition_column='userid',
data1_order_column='ts',
data2=clicks2,
data2_partition_column='userid',
data2_order_column='ts',
data3=tv_spots,
data3_partition_column='ts',
data3_order_column='ts',
result=['COUNT(* of imp) as imp_cnt','COUNT(* of tv_imp) as tv_imp_cnt'],
mode='nonoverlapping',
pattern='(imp|tv_imp)*.click',
symbols=['true as imp','true as click','true as tv_imp'])
# Print the result dataframe.
print(result.result)
# Example2:
# We will try to search for pattern 'home.clickview*.checkout'
# in the provided data set clickstream.
# Run NPath function with the required patterns to get the rows which
# has specified pattern and filter the rows with the filter,
# where filter and result have ML Engine nPath sequence aggregate functions
# like 'FIRST', 'COUNT' and 'LAST'
result = NPath(data1=clickstream,
data1_partition_column='userid',
data1_order_column='clicktime',
result=['FIRST(userid of ANY(home, checkout, clickview)) AS userid',
'FIRST (sessionid of ANY(home, checkout, clickview)) AS sessioinid',
'COUNT (* of any(home, checkout, clickview)) AS cnt',
'FIRST (clicktime of ANY(home)) AS firsthome',
'LAST (clicktime of ANY(checkout)) AS lastcheckout'],
mode='nonoverlapping',
pattern='home.clickview*.checkout',
symbols=["pagetype='home' AS home",
"pagetype <> 'home' AND pagetype <> 'checkout' AS clickview",
"pagetype='checkout' AS checkout"],
filter = "FIRST (clicktime OF ANY (home)) <"
"FIRST (clicktime of any(checkout))"
)
# Print the result dataframe.
print(result.result)
- __repr__(self)
- Returns the string representation for a NPath class instance.
- get_build_time(self)
- Function to return the build time of the algorithm in seconds.
When model object is created using retrieve_model(), then the value returned is
as saved in the Model Catalog.
- get_prediction_type(self)
- Function to return the Prediction type of the algorithm.
When model object is created using retrieve_model(), then the value returned is
as saved in the Model Catalog.
- get_target_column(self)
- Function to return the Target Column of the algorithm.
When model object is created using retrieve_model(), then the value returned is
as saved in the Model Catalog.
- show_query(self)
- Function to return the underlying SQL query.
When model object is created using retrieve_model(), then None is returned.
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