I've often heard the complaint of combinatorial explosion with respect to creating test cases to fully test a system. The problem is acute. One part of the solution is good analysis, but the other part of it is automation.
It must be my week for mini-languages, because here is another example of a mini-language, this time used for test case generation. I think I might have caught the language virus.
TestCase Case1:
Patient patient X 30 with (
identifier.value = Identifier,
identifier.system = "http://sanerproject.org/testdata/patients",
name.given in "firstnames",
name.family in "lastnames",
gender in "genders",
birthDate within '@1930-09-09' to '@2020-09-09'
)
Values
// This is a set of common last names, it is purposefully of prime length
"lastnames": {
Smith
Johnson
Williams
Brown
Jones
Garcia
Miller
Davis
Rodriguez
Martinez
Hernandez
Lopez
Gonzalez
Wilson
Anderson
Thomas
Taylor
Moore
Jackson
Martin
Lee
Perez
Thompson
}
// This is a set of first names that are gender free, also of prime length
// and mutually prime with the set of last names.
"firstnames": {
Alex
James
Blake
Kyle
Drew
Taylor
Kennedy
Jordan
Parker
Avery
Ryan
Brooklyn
Cameron
Logan
Emerson
Charlie
Ezra
}
"genders": {
male
female
}
Patient patient X 30 with (
identifier.value = Identifier,
identifier.system = "http://sanerproject.org/testdata/patients",
name.given in "firstnames",
name.family in "lastnames",
gender in "genders",
birthDate within '@1930-09-09' to '@2020-09-09'
)
Values
// This is a set of common last names, it is purposefully of prime length
"lastnames": {
Smith
Johnson
Williams
Brown
Jones
Garcia
Miller
Davis
Rodriguez
Martinez
Hernandez
Lopez
Gonzalez
Wilson
Anderson
Thomas
Taylor
Moore
Jackson
Martin
Lee
Perez
Thompson
}
// This is a set of first names that are gender free, also of prime length
// and mutually prime with the set of last names.
"firstnames": {
Alex
James
Blake
Kyle
Drew
Taylor
Kennedy
Jordan
Parker
Avery
Ryan
Brooklyn
Cameron
Logan
Emerson
Charlie
Ezra
}
"genders": {
male
female
}
This example says: Generate a test case (in a bundle) containing the resource "Patient" with identifier "patient" and do it 30 times. Take the identifier.value from an autoincrementing counter. Set the identifier.system to a fixed value. Pull given and family names from predefined list of values, iterating over them until done. Take gender from another list with only two codes. Generate birth dates from a range of values.
Now, if that was all my language did, you'd not be terribly impressed (or at least I wouldn't be).
But, what if, you could generate multiple resources, and link them correctly by identifiers. Now we are starting to get somewhere, but it still isn't all that much better than what one can already do with an excel spreadsheet (as we did manually for the first set of test data for SANER automation).
But I also need test cases where I have encounters with, and without reasonReference as variations, with with and without reasonCode values matching a certain value set, and observation and condition resources that match or don't match selection criteria.
So, what if I could specify variation within a field like this:
Patient patient1
/* as before */
Condition condition1 with (
code in COVID19Diagnosis OR in NotACovid19Diagnosis,
patient = patient1
)
Encounter encounter1 with (
reasonReference = condition1 OR missing,
reasonCode in COVID19Diagnsoses OR missing,
subject = patient1
)
And what if the test case generator spit out were six different bundles where each bundle contained a patient1, condition1 and encounter1 meeting all the appropriate mixes of criteria.
Bundle1:
condition1 with COVID19Diagnosis,
encounter1 with reasonReference to condition1 and reasonCode in COVID19Diagnosis
Bundle2:
condition1 with COVID19Diagnosis,
encounter1 with reasonReference to condition1 and reasonCode missing
Bundle3:
condition1 with COVID19Diagnosis
encounter1 with reasonRererence missing and reasonCode in COVID19Diagnosis
Bundle4:
condition1 with NotACovid19Diagnosis
encounter1 with reasonReference to condition1 and reasonCode in COVID19Diagnosis
Bundle5:
condition1 with NotACovid19Diagnosis
encounter1 with reasonReference to condition1 and reasonCode missing
Bundle6:
condition1 with NotACovid19Diagnosis
encounter1 with reasonReference to condition1 and reasonCode in COVID19Diagnosis
OK, now we are talking about something useful.
And if patient1 can vary (non-essentially) across these encounters, and so can encounter location, we've gone a step better.
Yes, this could produce a muck-ton of data. But, the computer did it, you didn't have to. All you had to do was give it the correct instructions to do something useful, and it produced something that you can use.
Anyway, more on this later as I continue my experiments. So far, this was about two days of work, and what I have to show for it is this sample output:
Instance: patient3
InstanceOf: Patient
Description: "Generate sample patients with random characteristics"
* birthDate = "1964-06-09"
* extension[0].extension[0].url = "ombCategory"
* extension[0].extension[0].valueCoding = urn:oid:2.16.840.1.113883.6.238#2054-5 "Black or African American"
* extension[0].url = "http://hl7.org/fhir/us/core/StructureDefinition/us-core-race"
* extension[1].extension[0].url = "ombCategory"
* extension[1].url = "http://hl7.org/fhir/us/core/StructureDefinition/us-core-ethnicity"
* gender = #male
* identifier.system = "http://sanerproject.org/testdata/patients"
* identifier.value = "3"
* name.family = "Williams"
* name.given = "Drew"
* name.given[1] = "Taylor"
Instance: patient4
InstanceOf: Patient
Description: "Generate sample patients with random characteristics"
* birthDate = "1975-09-09"
* extension[0].extension[0].url = "ombCategory"
* extension[0].extension[0].valueCoding = urn:oid:2.16.840.1.113883.6.238#2076-8 "Native Hawaiian or Other Pacific Islander"
* extension[0].url = "http://hl7.org/fhir/us/core/StructureDefinition/us-core-race"
* extension[1].extension[0].url = "ombCategory"
* extension[1].extension[0].valueCoding = urn:oid:2.16.840.1.113883.6.238#2135-2 "Hispanic or Latino"
* extension[1].url = "http://hl7.org/fhir/us/core/StructureDefinition/us-core-ethnicity"
* gender = #female
* identifier.system = "http://sanerproject.org/testdata/patients"
* identifier.value = "4"
* name.family = "Brown"
* name.given = "Kennedy"
* name.given[1] = "Jordan"
Instance: patient5
InstanceOf: Patient
Description: "Generate sample patients with random characteristics"
* birthDate = "1986-12-09"
* extension[0].extension[0].url = "ombCategory"
* extension[0].extension[0].valueCoding = urn:oid:2.16.840.1.113883.6.238#2106-3 "White"
* extension[0].url = "http://hl7.org/fhir/us/core/StructureDefinition/us-core-race"
* extension[1].extension[0].url = "ombCategory"
* extension[1].extension[0].valueCoding = urn:oid:2.16.840.1.113883.6.238#2186-5 "Non Hispanic or Latino"
* extension[1].url = "http://hl7.org/fhir/us/core/StructureDefinition/us-core-ethnicity"
* gender = #male
* identifier.system = "http://sanerproject.org/testdata/patients"
* identifier.value = "5"
* name.family = "Jones"
* name.given = "Parker"
* name.given[1] = "Avery"
Instance: patient6
InstanceOf: Patient
Description: "Generate sample patients with random characteristics"
* birthDate = "1998-03-10"
* extension[0].extension[0].url = "ombCategory"
* extension[0].extension[0].valueCoding = http://terminology.hl7.org/CodeSystem/v3-NullFlavor#UNK "Unknown"
* extension[0].url = "http://hl7.org/fhir/us/core/StructureDefinition/us-core-race"
* extension[1].extension[0].url = "ombCategory"
* extension[1].url = "http://hl7.org/fhir/us/core/StructureDefinition/us-core-ethnicity"
* gender = #female
* identifier.system = "http://sanerproject.org/testdata/patients"
* identifier.value = "6"
* name.family = "Garcia"
* name.given = "Ryan"
* name.given[1] = "Brooklyn"
Instance: patient7
InstanceOf: Patient
Description: "Generate sample patients with random characteristics"
* birthDate = "2009-06-09"
* extension[0].extension[0].url = "ombCategory"
* extension[0].extension[0].valueCoding = http://terminology.hl7.org/CodeSystem/v3-NullFlavor#ASKU "Asked but no answer"
* extension[0].url = "http://hl7.org/fhir/us/core/StructureDefinition/us-core-race"
* extension[1].extension[0].url = "ombCategory"
* extension[1].extension[0].valueCoding = urn:oid:2.16.840.1.113883.6.238#2135-2 "Hispanic or Latino"
* extension[1].url = "http://hl7.org/fhir/us/core/StructureDefinition/us-core-ethnicity"
* gender = #male
* identifier.system = "http://sanerproject.org/testdata/patients"
* identifier.value = "7"
* name.family = "Miller"
* name.given = "Cameron"
* name.given[1] = "Logan"
That's fantastic! I can't wait to see the release. Being able to give it FSH profile definitions as input with the random lists for creation will make testing so much better
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