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gmx::test::TestReferenceChecker Class Reference

#include <testutils/include/testutils/refdata.h>

Inherited by gmx::QMMMTopologyPreprocessorChecker.

Description

Handles comparison to test reference data.

Every check*() method takes an id string as th e last parameter. This id is used to uniquely identify the value in the reference data, and it makes the output XML more human-friendly and more robust to errors. The id can be NULL; in this case, multiple elements with no id are created, and they will be matched in the same order as in which they are created. The checkCompound() method can be used to create a set of reference values grouped together. In this case, all check*() calls using the returned child TestReferenceChecker object will create the reference data within this group, and the ids only need to be unique within the compound. Compounds can be nested.

For usage example, see TestReferenceData.

Copies of this class behave have independent internal state.

Public Member Functions

 TestReferenceChecker ()
 Creates a checker that cannot be used for checking. More...
 
 TestReferenceChecker (const TestReferenceChecker &other)
 Creates a deep copy of the other checker.
 
 TestReferenceChecker (TestReferenceChecker &&other) noexcept
 Moves the checker.
 
TestReferenceCheckeroperator= (const TestReferenceChecker &)=delete
 Prevents implicit copying during assignment.
 
TestReferenceCheckeroperator= (TestReferenceChecker &&other) noexcept
 Assigns a test reference checker.
 
bool isValid () const
 Returns whether the checker is initialized.
 
 operator bool () const
 Allows testing whether the checker is initialized directly with if.
 
void setDefaultTolerance (const FloatingPointTolerance &tolerance)
 Sets the tolerance for floating-point comparisons. More...
 
void checkUnusedEntries ()
 Checks that all reference values have been compared against. More...
 
void disableUnusedEntriesCheck ()
 Disables checking for unused entries. More...
 
bool checkPresent (bool bPresent, const char *id)
 Checks whether a data item is present. More...
 
TestReferenceChecker checkCompound (const char *type, const char *id)
 Initializes comparison of a group of related data items. More...
 
TestReferenceChecker checkCompound (const char *type, const std::string &id)
 Initializes comparison of a group of related data items. More...
 
void checkBoolean (bool value, const char *id)
 Check a single boolean value.
 
void checkString (const char *value, const char *id)
 Check a single string value.
 
void checkString (const std::string &value, const char *id)
 Check a single string value.
 
void checkTextBlock (const std::string &value, const char *id)
 Check a multi-line string value. More...
 
void checkUChar (unsigned char value, const char *id)
 Check a single unsigned char value.
 
void checkInteger (int value, const char *id)
 Check a single integer value.
 
void checkInt32 (int32_t value, const char *id)
 Check a single int32 value.
 
void checkUInt32 (uint32_t value, const char *id)
 Check a single uint32 value.
 
void checkInt64 (int64_t value, const char *id)
 Check a single int64 value.
 
void checkUInt64 (uint64_t value, const char *id)
 Check a single uint64 value.
 
void checkFloat (float value, const char *id)
 Check a single single-precision floating point value.
 
void checkDouble (double value, const char *id)
 Check a single double-precision floating point value.
 
void checkReal (float value, const char *id)
 Check a single floating point value.
 
void checkReal (double value, const char *id)
 Check a single floating point value.
 
void checkVector (const int value[3], const char *id)
 Check a vector of three integer values.
 
void checkVector (const float value[3], const char *id)
 Check a vector of three single-precision floating point values.
 
void checkVector (const double value[3], const char *id)
 Check a vector of three double-precision floating point values.
 
void checkVector (const BasicVector< int > &value, const char *id)
 Check a BasicVector of ints, ie. IVec.
 
void checkVector (const BasicVector< float > &value, const char *id)
 Check a BasicVector of floats, ie. RVec.
 
void checkVector (const BasicVector< double > &value, const char *id)
 Check a BasicVector of doubles, ie. DVec.
 
void checkRealFromString (const std::string &value, const char *id)
 Check a single floating-point value from a string.
 
void checkAny (const Any &value, const char *id)
 Checks a any value that contains a supported simple type.
 
void checkKeyValueTreeObject (const KeyValueTreeObject &tree, const char *id)
 Checks a key-value tree rooted at a object.
 
void checkKeyValueTreeValue (const KeyValueTreeValue &value, const char *id)
 Checks a generic key-value tree value.
 
template<class Iterator >
void checkSequence (Iterator begin, Iterator end, const char *id)
 Generic method to check a sequence of simple values. More...
 
template<class Iterator , class ItemChecker >
void checkSequence (Iterator begin, Iterator end, const char *id, ItemChecker checkItem)
 Generic method to check a sequence of custom values. More...
 
template<typename T >
void checkSequenceArray (size_t length, const T *values, const char *id)
 Check an array of values. More...
 
void checkEmptySequence (const char *id)
 Convenience method for checking that a sequence is empty. More...
 
TestReferenceChecker checkSequenceCompound (const char *id, size_t length)
 Initializes a compound for a sequence of items. More...
 
Methods to read values from reference data

These methods assume that a value with the given id has already been created in the test with check*() methods, and that it has the correct type.

Currently, these methods do not work correctly if the reference data file does not exist, so a test using them may fail with exceptions before the reference data has been generated.

unsigned char readUChar (const char *id)
 Reads an unsigned char value.
 
int readInteger (const char *id)
 Reads an integer value.
 
int32_t readInt32 (const char *id)
 Reads a 32-bit integer value.
 
int64_t readInt64 (const char *id)
 Reads a 64-bit integer value.
 
float readFloat (const char *id)
 Reads a float value.
 
double readDouble (const char *id)
 Reads a double value.
 
std::string readString (const char *id)
 Reads a string value.
 
Overloaded versions of simple checker methods

These methods provide overloads under a single name for all the methods checkBoolean(), checkString(), checkReal() and checkVector(). They are provided mainly to allow template implementations (such as checkSequence()). Typically callers should use the individually named versions for greater clarity.

void checkValue (bool value, const char *id)
 Check a single boolean value.
 
void checkValue (const char *value, const char *id)
 Check a single string value.
 
void checkValue (const std::string &value, const char *id)
 Check a single string value.
 
void checkValue (int value, const char *id)
 Check a single signed integer value.
 
void checkValue (int64_t value, const char *id)
 Check a single signed integer value of width 64 bits.
 
void checkValue (uint64_t value, const char *id)
 Check a single unsigned integer value of width 64 bits.
 
void checkValue (float value, const char *id)
 Check a single single-precision floating point value.
 
void checkValue (double value, const char *id)
 Check a single double-precision floating point value.
 
void checkValue (const int value[3], const char *id)
 Check a vector of three integer values.
 
void checkValue (const float value[3], const char *id)
 Check a vector of three single-precision floating point values.
 
void checkValue (const double value[3], const char *id)
 Check a vector of three double-precision floating point values.
 
void checkValue (const BasicVector< int > &value, const char *id)
 Check a BasicVector of integer values, ie. IVec.
 
void checkValue (const BasicVector< float > &value, const char *id)
 Check a BasicVector of float values, ie. RVec.
 
void checkValue (const BasicVector< double > &value, const char *id)
 Check a BasicVector of double values, ie. DVec.
 
void checkValue (const KeyValueTreeValue &value, const char *id)
 Check a generic key-value tree value.
 

Friends

class TestReferenceData
 Needed to expose the constructor only to TestReferenceData.
 

Constructor & Destructor Documentation

gmx::test::TestReferenceChecker::TestReferenceChecker ( )

Creates a checker that cannot be used for checking.

Attempting to call the check methods generates an assert. It is possible to check whether the checker is initialized by calling isValid(). This constructor exists to allow declaring checker variables that will receive their value later without resorting to dynamic allocation.

Member Function Documentation

TestReferenceChecker gmx::test::TestReferenceChecker::checkCompound ( const char *  type,
const char *  id 
)

Initializes comparison of a group of related data items.

Parameters
[in]typeInformational type for the compound.
[in]idUnique identifier for the compound among its siblings.
Returns
Checker to use for comparison within the compound.

All checks performed with the returned checker only need to have unique ids within the compound, not globally.

Compound structures can be nested.

TestReferenceChecker gmx::test::TestReferenceChecker::checkCompound ( const char *  type,
const std::string &  id 
)

Initializes comparison of a group of related data items.

Parameters
[in]typeInformational type for the compound.
[in]idUnique identifier for the compound among its siblings.
Returns
Checker to use for comparison within the compound.

All checks performed with the returned checker only need to have unique ids within the compound, not globally.

Compound structures can be nested.

void gmx::test::TestReferenceChecker::checkEmptySequence ( const char *  id)

Convenience method for checking that a sequence is empty.

Parameters
[in]idUnique identifier for the sequence among its siblings.

This method provides a convenient solution for a case where there is implicitly a sequence to be checked, but there is no pointer available to the values since the sequence is empty. Since this method does not require the type of the values, it can be used in such cases easily.

bool gmx::test::TestReferenceChecker::checkPresent ( bool  bPresent,
const char *  id 
)

Checks whether a data item is present.

Parameters
[in]bPresentWhether to check for presence or absence.
[in]idUnique identifier of the item to check.
Returns
true if bPresent was true and the data item was found.

If bPresent is true, checks that a data item with id is present, otherwise checks that the data item is absent. If the check fails, a non-fatal Google Test assertion is generated.

If reference data is being written, the check always succeeds and the return value is bPresent.

The main use of this method is to assign meaning for missing reference data. Example use:

if (checker.checkPresent(bHaveVelocities, "Velocities"))
{
// <check the velocities>
}
*
template<class Iterator >
void gmx::test::TestReferenceChecker::checkSequence ( Iterator  begin,
Iterator  end,
const char *  id 
)
inline

Generic method to check a sequence of simple values.

Template Parameters
IteratorInput iterator that allows multiple (two) passes. Value type must be one of those accepted by checkValue(), or implicitly convertible to one.
Parameters
[in]beginIterator to the start of the range to check.
[in]endIterator to the end of the range to check.
[in]idUnique identifier for the sequence among its siblings.
template<class Iterator , class ItemChecker >
void gmx::test::TestReferenceChecker::checkSequence ( Iterator  begin,
Iterator  end,
const char *  id,
ItemChecker  checkItem 
)
inline

Generic method to check a sequence of custom values.

Template Parameters
IteratorInput iterator that allows multiple (two) passes.
ItemCheckerFunctor to check an individual value. Signature void(TestReferenceChecker *, const T &), where T is the value type of Iterator.
Parameters
[in]beginIterator to the start of the range to check.
[in]endIterator to the end of the range to check.
[in]idUnique identifier for the sequence among its siblings.
[in]checkItemFunctor to check an individual item.

This method creates a compound checker compound within which all values of the sequence are checked. Calls checkItem(&compound, *i) with that compound for each iterator i in the range [begin, end). checkItem should use the various check methods in the passed checker to check each value.

This method can be used to check a sequence made of compound types. Typically checkItem will create a compound within the passed checker to check different aspects of the value that was passed to it. Either NULL or a unique identifier string must be used for the id value of that compound.

template<typename T >
void gmx::test::TestReferenceChecker::checkSequenceArray ( size_t  length,
const T *  values,
const char *  id 
)
inline

Check an array of values.

Template Parameters
TType of values to check. Should be one of those accepted by checkValue(), or implicitly convertible to one.
Parameters
[in]lengthNumber of values to check.
[in]valuesPointer to the first value to check.
[in]idUnique identifier for the sequence among its siblings.

This is a convenience method that delegates all work to checkSequence().

TestReferenceChecker gmx::test::TestReferenceChecker::checkSequenceCompound ( const char *  id,
size_t  length 
)

Initializes a compound for a sequence of items.

Parameters
[in]idUnique identifier for the sequence among its siblings.
[in]lengthNumber of items that will be in the sequence.
Returns
Checker to use for comparison within the sequence.

This method can be used to check custom sequences where checkSequence() is not appropriate.

void gmx::test::TestReferenceChecker::checkTextBlock ( const std::string &  value,
const char *  id 
)

Check a multi-line string value.

This method works as checkString(), but should be used for long strings that may contain, e.g., newlines. Typically used to check formatted output, and attempts to make the output XML such that it is easier to edit by hand to set the desired output formatting.

void gmx::test::TestReferenceChecker::checkUnusedEntries ( )

Checks that all reference values have been compared against.

All values under the compound represented by this checker are checked, and a non-fatal Google Test assertion is produced if some values have not been used.

If not called explicitly, the same check will be done for all reference data values when the test ends.

This method also marks the values used, so that subsequent checks (including the check at the end of the test) will not produce another assertion about the same values.

void gmx::test::TestReferenceChecker::disableUnusedEntriesCheck ( )

Disables checking for unused entries.

See Also
checkUnusedEntries()
void gmx::test::TestReferenceChecker::setDefaultTolerance ( const FloatingPointTolerance tolerance)

Sets the tolerance for floating-point comparisons.

All following floating-point comparisons using this checker will use the new tolerance. Child checkers created with checkCompound() will inherit the tolerance from their parent checker at the time checkCompound() is called.

Does not throw.


The documentation for this class was generated from the following files: