The row_count_match()
validation function, the expect_row_count_match()
expectation function, and the test_row_count_match()
test function all
check whether the row count in the target table matches that of a comparison
table. The validation function can be used directly on a data table or with
an agent object (technically, a ptblank_agent
object) whereas the
expectation and test functions can only be used with a data table. As a
validation step or as an expectation, there is a single test unit that hinges
on whether the row counts for the two tables are the same (after any
preconditions
have been applied).
Usage
row_count_match(
x,
count,
preconditions = NULL,
segments = NULL,
actions = NULL,
step_id = NULL,
label = NULL,
brief = NULL,
active = TRUE,
tbl_compare = NULL
)
expect_row_count_match(
object,
count,
preconditions = NULL,
threshold = 1,
tbl_compare = NULL
)
test_row_count_match(
object,
count,
preconditions = NULL,
threshold = 1,
tbl_compare = NULL
)
Arguments
- x
A pointblank agent or a data table
obj:<ptblank_agent>|obj:<tbl_*>
// requiredA data frame, tibble (
tbl_df
ortbl_dbi
), Spark DataFrame (tbl_spark
), or, an agent object of classptblank_agent
that is commonly created withcreate_agent()
.- count
The count comparison
scalar<numeric|integer>|obj:<tbl_*>
// requiredEither a literal value for the number of rows, or, a table to compare against the target table in terms of row count values. If supplying a comparison table, it can either be a table object such as a data frame, a tibble, a
tbl_dbi
object, or atbl_spark
object. Alternatively, a table-prep formula (~ <tbl reading code>
) or a function (function() <tbl reading code>
) can be used to lazily read in the comparison table at interrogation time.- preconditions
Input table modification prior to validation
<table mutation expression>
// default:NULL
(optional
)An optional expression for mutating the input table before proceeding with the validation. This can either be provided as a one-sided R formula using a leading
~
(e.g.,~ . %>% dplyr::mutate(col = col + 10)
or as a function (e.g.,function(x) dplyr::mutate(x, col = col + 10)
. See the Preconditions section for more information.- segments
Expressions for segmenting the target table
<segmentation expressions>
// default:NULL
(optional
)An optional expression or set of expressions (held in a list) that serve to segment the target table by column values. Each expression can be given in one of two ways: (1) as column names, or (2) as a two-sided formula where the LHS holds a column name and the RHS contains the column values to segment on. See the Segments section for more details on this.
- actions
Thresholds and actions for different states
obj:<action_levels>
// default:NULL
(optional
)A list containing threshold levels so that the validation step can react accordingly when exceeding the set levels for different states. This is to be created with the
action_levels()
helper function.- step_id
Manual setting of the step ID value
scalar<character>
// default:NULL
(optional
)One or more optional identifiers for the single or multiple validation steps generated from calling a validation function. The use of step IDs serves to distinguish validation steps from each other and provide an opportunity for supplying a more meaningful label compared to the step index. By default this is
NULL
, and pointblank will automatically generate the step ID value (based on the step index) in this case. One or more values can be provided, and the exact number of ID values should (1) match the number of validation steps that the validation function call will produce (influenced by the number ofcolumns
provided), (2) be an ID string not used in any previous validation step, and (3) be a vector with unique values.- label
Optional label for the validation step
vector<character>
// default:NULL
(optional
)Optional label for the validation step. This label appears in the agent report and, for the best appearance, it should be kept quite short. See the Labels section for more information.
- brief
Brief description for the validation step
scalar<character>
// default:NULL
(optional
)A brief is a short, text-based description for the validation step. If nothing is provided here then an autobrief is generated by the agent, using the language provided in
create_agent()
'slang
argument (which defaults to"en"
or English). The autobrief incorporates details of the validation step so it's often the preferred option in most cases (where alabel
might be better suited to succinctly describe the validation).- active
Is the validation step active?
scalar<logical>
// default:TRUE
A logical value indicating whether the validation step should be active. If the validation function is working with an agent,
FALSE
will make the validation step inactive (still reporting its presence and keeping indexes for the steps unchanged). If the validation function will be operating directly on data (no agent involvement), then any step withactive = FALSE
will simply pass the data through with no validation whatsoever. Aside from a logical vector, a one-sided R formula using a leading~
can be used with.
(serving as the input data table) to evaluate to a single logical value. With this approach, the pointblank functionhas_columns()
can be used to determine whether to make a validation step active on the basis of one or more columns existing in the table (e.g.,~ . %>% has_columns(c(d, e))
).- tbl_compare
Deprecated Comparison table
obj:<tbl_*>
// default:NULL
(optional
)The
tbl_compare
argument is deprecated. Instead, usecount
.- object
A data table for expectations or tests
obj:<tbl_*>
// requiredA data frame, tibble (
tbl_df
ortbl_dbi
), or Spark DataFrame (tbl_spark
) that serves as the target table for the expectation function or the test function.- threshold
The failure threshold
scalar<integer|numeric>(val>=0)
// default:1
A simple failure threshold value for use with the expectation (
expect_
) and the test (test_
) function variants. By default, this is set to1
meaning that any single unit of failure in data validation results in an overall test failure. Whole numbers beyond1
indicate that any failing units up to that absolute threshold value will result in a succeeding testthat test or evaluate toTRUE
. Likewise, fractional values (between0
and1
) act as a proportional failure threshold, where0.15
means that 15 percent of failing test units results in an overall test failure.
Value
For the validation function, the return value is either a
ptblank_agent
object or a table object (depending on whether an agent
object or a table was passed to x
). The expectation function invisibly
returns its input but, in the context of testing data, the function is
called primarily for its potential side-effects (e.g., signaling failure).
The test function returns a logical value.
Supported Input Tables
The types of data tables that are officially supported are:
data frames (
data.frame
) and tibbles (tbl_df
)Spark DataFrames (
tbl_spark
)the following database tables (
tbl_dbi
):PostgreSQL tables (using the
RPostgres::Postgres()
as driver)MySQL tables (with
RMySQL::MySQL()
)Microsoft SQL Server tables (via odbc)
BigQuery tables (using
bigrquery::bigquery()
)DuckDB tables (through
duckdb::duckdb()
)SQLite (with
RSQLite::SQLite()
)
Other database tables may work to varying degrees but they haven't been formally tested (so be mindful of this when using unsupported backends with pointblank).
Preconditions
Providing expressions as preconditions
means pointblank will preprocess
the target table during interrogation as a preparatory step. It might happen
that this particular validation requires some operation on the target table
before the row count comparison takes place. Using preconditions
can be
useful at times since since we can develop a large validation plan with a
single target table and make minor adjustments to it, as needed, along the
way.
The table mutation is totally isolated in scope to the validation step(s)
where preconditions
is used. Using dplyr code is suggested here since
the statements can be translated to SQL if necessary (i.e., if the target
table resides in a database). The code is most easily supplied as a one-sided
R formula (using a leading ~
). In the formula representation, the .
serves as the input data table to be transformed. Alternatively, a function
could instead be supplied.
Segments
By using the segments
argument, it's possible to define a particular
validation with segments (or row slices) of the target table. An optional
expression or set of expressions that serve to segment the target table by
column values. Each expression can be given in one of two ways: (1) as column
names, or (2) as a two-sided formula where the LHS holds a column name and
the RHS contains the column values to segment on.
As an example of the first type of expression that can be used,
vars(a_column)
will segment the target table in however many unique values
are present in the column called a_column
. This is great if every unique
value in a particular column (like different locations, or different dates)
requires it's own repeating validation.
With a formula, we can be more selective with which column values should be
used for segmentation. Using a_column ~ c("group_1", "group_2")
will
attempt to obtain two segments where one is a slice of data where the value
"group_1"
exists in the column named "a_column"
, and, the other is a
slice where "group_2"
exists in the same column. Each group of rows
resolved from the formula will result in a separate validation step.
Segmentation will always occur after preconditions
(i.e., statements that
mutate the target table), if any, are applied. With this type of one-two
combo, it's possible to generate labels for segmentation using an expression
for preconditions
and refer to those labels in segments
without having to
generate a separate version of the target table.
Actions
Often, we will want to specify actions
for the validation. This argument,
present in every validation function, takes a specially-crafted list object
that is best produced by the action_levels()
function. Read that function's
documentation for the lowdown on how to create reactions to above-threshold
failure levels in validation. The basic gist is that you'll want at least a
single threshold level (specified as either the fraction of test units
failed, or, an absolute value), often using the warn_at
argument. Using
action_levels(warn_at = 1)
or action_levels(stop_at = 1)
are good choices
depending on the situation (the first produces a warning, the other
stop()
s).
Labels
label
may be a single string or a character vector that matches the number
of expanded steps. label
also supports {glue}
syntax and exposes the
following dynamic variables contextualized to the current step:
"{.step}"
: The validation step name"{.seg_col}"
: The current segment's column name"{.seg_val}"
: The current segment's value/group
The glue context also supports ordinary expressions for further flexibility
(e.g., "{toupper(.step)}"
) as long as they return a length-1 string.
Briefs
Want to describe this validation step in some detail? Keep in mind that this
is only useful if x
is an agent. If that's the case, brief
the agent
with some text that fits. Don't worry if you don't want to do it. The
autobrief protocol is kicked in when brief = NULL
and a simple brief will
then be automatically generated.
YAML
A pointblank agent can be written to YAML with yaml_write()
and the
resulting YAML can be used to regenerate an agent (with yaml_read_agent()
)
or interrogate the target table (via yaml_agent_interrogate()
). When
row_count_match()
is represented in YAML (under the top-level steps
key
as a list member), the syntax closely follows the signature of the validation
function. Here is an example of how a complex call of row_count_match()
as
a validation step is expressed in R code and in the corresponding YAML
representation.
R statement:
agent %>%
row_count_match(
count = ~ file_tbl(
file = from_github(
file = "sj_all_revenue_large.rds",
repo = "rich-iannone/intendo",
subdir = "data-large"
)
),
preconditions = ~ . %>% dplyr::filter(a < 10),
segments = b ~ c("group_1", "group_2"),
actions = action_levels(warn_at = 0.1, stop_at = 0.2),
label = "The `row_count_match()` step.",
active = FALSE
)
YAML representation:
steps:
- row_count_match:
count: ~ file_tbl(
file = from_github(
file = "sj_all_revenue_large.rds",
repo = "rich-iannone/intendo",
subdir = "data-large"
)
)
preconditions: ~. %>% dplyr::filter(a < 10)
segments: b ~ c("group_1", "group_2")
actions:
warn_fraction: 0.1
stop_fraction: 0.2
label: The `row_count_match()` step.
active: false
In practice, both of these will often be shorter. Arguments with default
values won't be written to YAML when using yaml_write()
(though it is
acceptable to include them with their default when generating the YAML by
other means). It is also possible to preview the transformation of an agent
to YAML without any writing to disk by using the yaml_agent_string()
function.
Examples
Create a simple table with three columns and four rows of values.
tbl <-
dplyr::tibble(
a = c(5, 7, 6, 5),
b = c(7, 1, 0, 0),
c = c(1, 1, 1, 3)
)
tbl
#> # A tibble: 4 x 3
#> a b c
#> <dbl> <dbl> <dbl>
#> 1 5 7 1
#> 2 7 1 1
#> 3 6 0 1
#> 4 5 0 3
Create a second table which is quite different but has the same number of
rows as tbl
.
tbl_2 <-
dplyr::tibble(
e = c("a", NA, "a", "c"),
f = c(2.6, 1.2, 0, NA)
)
tbl_2
#> # A tibble: 4 x 2
#> e f
#> <chr> <dbl>
#> 1 a 2.6
#> 2 <NA> 1.2
#> 3 a 0
#> 4 c NA
A: Using an agent
with validation functions and then interrogate()
Validate that the count of rows in the target table (tbl
) matches that of
the comparison table (tbl_2
).
agent <-
create_agent(tbl = tbl) %>%
row_count_match(count = tbl_2) %>%
interrogate()
Printing the agent
in the console shows the validation report in the
Viewer. Here is an excerpt of validation report, showing the single entry
that corresponds to the validation step demonstrated here.
B: Using the validation function directly on the data (no agent
)
This way of using validation functions acts as a data filter. Data is passed
through but should stop()
if there is a single test unit failing. The
behavior of side effects can be customized with the actions
option.
tbl %>% row_count_match(count = tbl_2)
#> # A tibble: 4 x 3
#> a b c
#> <dbl> <dbl> <dbl>
#> 1 5 7 1
#> 2 7 1 1
#> 3 6 0 1
#> 4 5 0 3
C: Using the expectation function
With the expect_*()
form, we would typically perform one validation at a
time. This is primarily used in testthat tests.
expect_row_count_match(tbl, count = tbl_2)
D: Using the test function
With the test_*()
form, we should get a single logical value returned to
us.
tbl %>% test_row_count_match(count = 4)
#> [1] TRUE
See also
Other validation functions:
col_count_match()
,
col_exists()
,
col_is_character()
,
col_is_date()
,
col_is_factor()
,
col_is_integer()
,
col_is_logical()
,
col_is_numeric()
,
col_is_posix()
,
col_schema_match()
,
col_vals_between()
,
col_vals_decreasing()
,
col_vals_equal()
,
col_vals_expr()
,
col_vals_gt()
,
col_vals_gte()
,
col_vals_in_set()
,
col_vals_increasing()
,
col_vals_lt()
,
col_vals_lte()
,
col_vals_make_set()
,
col_vals_make_subset()
,
col_vals_not_between()
,
col_vals_not_equal()
,
col_vals_not_in_set()
,
col_vals_not_null()
,
col_vals_null()
,
col_vals_regex()
,
col_vals_within_spec()
,
conjointly()
,
rows_complete()
,
rows_distinct()
,
serially()
,
specially()
,
tbl_match()