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404 lines
18 KiB
Plaintext
[section:error_handling Error Handling]
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[def __format [@../../../format/index.html Boost.Format]]
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[heading Quick Reference]
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Handling of errors by this library is split into two orthogonal parts:
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* What kind of error has been raised?
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* What should be done when the error is raised?
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[warning The default error actions are to throw an exception with an informative error message.
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If you do not try to catch the exception, you will not see the message!]
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The kinds of errors that can be raised are:
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[variablelist
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[[Domain Error][Occurs when one or more arguments to a function
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are out of range.]]
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[[Pole Error][Occurs when the particular arguments cause the function to be
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evaluated at a pole with no well defined residual value. For example if
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__tgamma is evaluated at exactly -2, the function approaches different limiting
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values depending upon whether you approach from just above or just below
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-2. Hence the function has no well defined value at this point and a
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Pole Error will be raised.]]
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[[Overflow Error][Occurs when the result is either infinite, or too large
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to represent in the numeric type being returned by the function.]]
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[[Underflow Error][Occurs when the result is not zero, but is too small
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to be represented by any other value in the type being returned by
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the function.]]
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[[Denormalisation Error][Occurs when the returned result would be a denormalised value.]]
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[[Rounding Error][Occurs when the argument to one of the rounding functions __trunc,
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__round and __modf can not be represented as an integer type, is
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outside the range of the result type.]]
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[[Evaluation Error][Occurs if no method of evaluation is known,
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or when an internal error occurred that prevented the
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result from being evaluated: this should never occur, but if it does, then
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it's likely to be due to an iterative method not converging fast enough.]]
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[[Indeterminate Result Error][Occurs when the result of a function is not
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defined for the values that were passed to it.]]
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]
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The action undertaken by each error condition is determined by the current
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__Policy in effect. This can be changed program-wide by setting some
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configuration macros, or at namespace scope, or at the call site (by
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specifying a specific policy in the function call).
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The available actions are:
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[variablelist
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[[throw_on_error][Throws the exception most appropriate to the error condition.]]
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[[errno_on_error][Sets ::errno to an appropriate value, and then returns the most
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appropriate result]]
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[[ignore_error][Ignores the error and simply the returns the most appropriate result.]]
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[[user_error][Calls a
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[link math_toolkit.pol_tutorial.user_def_err_pol user-supplied error handler].]]
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]
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The following tables show all the permutations of errors and actions,
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with the *default action for each error shown in bold*:
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[table Possible Actions for Domain Errors
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[[Action] [Behaviour]]
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[[throw_on_error][[*Throws `std::domain_error`]]]
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[[errno_on_error][Sets `::errno` to `EDOM` and returns `std::numeric_limits<T>::quiet_NaN()`]]
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[[ignore_error][Returns `std::numeric_limits<T>::quiet_NaN()`]]
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[[user_error][Returns the result of `boost::math::policies::user_domain_error`:
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[link math_toolkit.pol_tutorial.user_def_err_pol
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this function must be defined by the user].]]
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]
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[table Possible Actions for Pole Errors
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[[Action] [Behaviour]]
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[[throw_on_error] [[*Throws `std::domain_error`]]]
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[[errno_on_error][Sets `::errno` to `EDOM` and returns `std::numeric_limits<T>::quiet_NaN()`]]
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[[ignore_error][Returns `std::numeric_limits<T>::quiet_NaN()`]]
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[[user_error][Returns the result of `boost::math::policies::user_pole_error`:
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[link math_toolkit.pol_tutorial.user_def_err_pol
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this function must be defined by the user].]]
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]
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[table Possible Actions for Overflow Errors
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[[Action] [Behaviour]]
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[[throw_on_error][[*Throws `std::overflow_error`]]]
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[[errno_on_error][Sets `::errno` to `ERANGE` and returns `std::numeric_limits<T>::infinity()`]]
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[[ignore_error][Returns `std::numeric_limits<T>::infinity()`]]
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[[user_error][Returns the result of `boost::math::policies::user_overflow_error`:
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[link math_toolkit.pol_tutorial.user_def_err_pol
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this function must be defined by the user].]]
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]
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[table Possible Actions for Underflow Errors
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[[Action] [Behaviour]]
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[[throw_on_error][Throws `std::underflow_error`]]
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[[errno_on_error][Sets `::errno` to `ERANGE` and returns 0.]]
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[[ignore_error][[*Returns 0]]]
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[[user_error][Returns the result of `boost::math::policies::user_underflow_error`:
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[link math_toolkit.pol_tutorial.user_def_err_pol
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this function must be defined by the user].]]
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]
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[table Possible Actions for Denorm Errors
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[[Action] [Behaviour]]
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[[throw_on_error][Throws `std::underflow_error`]]
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[[errno_on_error][Sets `::errno` to `ERANGE` and returns the denormalised value.]]
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[[ignore_error][[*Returns the denormalised value.]]]
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[[user_error][Returns the result of `boost::math::policies::user_denorm_error`:
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[link math_toolkit.pol_tutorial.user_def_err_pol
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this function must be defined by the user].]]
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]
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[table Possible Actions for Rounding Errors
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[[Action] [Behaviour]]
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[[throw_on_error][Throws `boost::math::rounding_error`]]
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[[errno_on_error][Sets `::errno` to `ERANGE` and returns the largest representable value of the target integer type
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(or the most negative value if the argument to the function was less than zero).]]
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[[ignore_error][[*Returns the largest representable value of the target integer type
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(or the most negative value if the argument to the function was less than zero).]]]
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[[user_error][Returns the result of `boost::math::policies::user_rounding_error`:
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[link math_toolkit.pol_tutorial.user_def_err_pol
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this function must be defined by the user].]]
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]
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[table Possible Actions for Internal Evaluation Errors
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[[Action] [Behaviour]]
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[[throw_on_error][[*Throws `boost::math::evaluation_error`]]]
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[[errno_on_error][Sets `::errno` to `EDOM` and returns the closest approximation found.]]
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[[ignore_error][Returns the closest approximation found.]]
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[[user_error][Returns the result of `boost::math::policies::user_evaluation_error`:
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[link math_toolkit.pol_tutorial.user_def_err_pol
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this function must be defined by the user].]]
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]
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[table Possible Actions for Indeterminate Result Errors
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[[Action] [Behaviour]]
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[[throw_on_error][Throws `std::domain_error`]]
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[[errno_on_error][Sets `::errno` to `EDOM` and returns the same value as `ignore_error`.]]
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[[ignore_error][[*Returns a default result that depends on the function where the error occurred.]]]
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[[user_error][Returns the result of `boost::math::policies::user_indeterminate_result_error`:
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[link math_toolkit.pol_tutorial.user_def_err_pol
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this function must be defined by the user].]]
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]
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All these error conditions are in namespace boost::math::policies,
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made available, for example, a by namespace declaration
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using `namespace boost::math::policies;` or individual using declarations
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`using boost::math::policies::overflow_error;`.
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[heading Rationale]
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The flexibility of the current implementation should be reasonably obvious: the
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default behaviours were chosen based on feedback during the formal review of
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this library. It was felt that:
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* Genuine errors should be flagged with exceptions
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rather than following C-compatible behaviour and setting `::errno`.
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* Numeric underflow and denormalised results were not considered to be
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fatal errors in most cases, so it was felt that these should be ignored.
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* If there is more than one error,
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only the first detected will be reported in the throw message.
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[heading Finding More Information]
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There are some pre-processor macro defines that can be used to
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[link math_toolkit.pol_ref.policy_defaults
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change the policy defaults]. See also the [link policy
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policy section].
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An example is at the Policy tutorial in
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[link math_toolkit.pol_tutorial.changing_policy_defaults
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Changing the Policy Defaults].
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Full source code of this typical example of passing a 'bad' argument
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(negative degrees of freedom) to Student's t distribution
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is [link math_toolkit.stat_tut.weg.error_eg in the error handling example].
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The various kind of errors are described in more detail below.
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[heading:domain_error Domain Errors]
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When a special function is passed an argument that is outside the range
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of values for which that function is defined, then the function returns
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the result of:
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boost::math::policies::raise_domain_error<T>(FunctionName, Message, Val, __Policy);
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Where
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`T` is the floating-point type passed to the function, `FunctionName` is the
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name of the function, `Message` is an error message describing the problem,
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Val is the value that was out of range, and __Policy is the current policy
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in use for the function that was called.
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The default policy behaviour of this function is to throw a
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std::domain_error C++ exception. But if the __Policy is to ignore
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the error, or set global `::errno`, then a NaN will be returned.
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This behaviour is chosen to assist compatibility with the behaviour of
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['ISO/IEC 9899:1999 Programming languages - C]
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and with the
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[@http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2005/n1836.pdf Draft Technical Report on C++ Library Extensions, 2005-06-24, section 5.2.1, paragraph 6]:
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[:['"Each of the functions declared above shall return a NaN (Not a Number)
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if any argument value is a NaN, but it shall not report a domain error.
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Otherwise, each of the functions declared above shall report a domain error
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for just those argument values for which:]]
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[:['"the function description's Returns clause explicitly specifies a domain, and those arguments fall outside the specified domain; or]
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['"the corresponding mathematical function value has a non-zero imaginary component; or]
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['"the corresponding mathematical function is not mathematically defined.]]
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[:['"Note 2: A mathematical function is mathematically defined
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for a given set of argument values if it is explicitly defined
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for that set of argument values or
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if its limiting value exists and does not depend on the direction of approach."]]
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Note that in order to support information-rich error messages when throwing
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exceptions, `Message` must contain
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a __format recognised format specifier: the argument `Val` is inserted into
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the error message according to the specifier used.
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For example if `Message` contains a "%1%" then it is replaced by the value of
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`Val` to the full precision of T, where as "%.3g" would contain the value of
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`Val` to 3 digits. See the __format documentation for more details.
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[heading:pole_error Evaluation at a pole]
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When a special function is passed an argument that is at a pole
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without a well defined residual value, then the function returns
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the result of:
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boost::math::policies::raise_pole_error<T>(FunctionName, Message, Val, __Policy);
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Where
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`T` is the floating point type passed to the function, `FunctionName` is the
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name of the function, `Message` is an error message describing the problem,
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`Val` is the value of the argument that is at a pole, and __Policy is the
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current policy in use for the function that was called.
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The default behaviour of this function is to throw a std::domain_error exception.
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But __error_policy can be used to change this, for example to `ignore_error`
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and return NaN.
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Note that in order to support information-rich error messages when throwing
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exceptions, `Message` must contain
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a __format recognised format specifier: the argument `val` is inserted into
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the error message according to the specifier used.
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For example if `Message` contains a "%1%" then it is replaced by the value of
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`val` to the full precision of T, where as "%.3g" would contain the value of
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`val` to 3 digits. See the __format documentation for more details.
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[heading:overflow_error Numeric Overflow]
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When the result of a special function is too large to fit in the argument
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floating-point type, then the function returns the result of:
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boost::math::policies::raise_overflow_error<T>(FunctionName, Message, __Policy);
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Where
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`T` is the floating-point type passed to the function, `FunctionName` is the
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name of the function, `Message` is an error message describing the problem,
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and __Policy is the current policy
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in use for the function that was called.
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The default policy for this function is that `std::overflow_error`
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C++ exception is thrown. But if, for example, an `ignore_error` policy
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is used, then returns `std::numeric_limits<T>::infinity()`.
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In this situation if the type `T` doesn't support infinities,
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the maximum value for the type is returned.
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[heading:underflow_error Numeric Underflow]
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If the result of a special function is known to be non-zero, but the
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calculated result underflows to zero, then the function returns the result of:
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boost::math::policies::raise_underflow_error<T>(FunctionName, Message, __Policy);
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Where
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`T` is the floating point type passed to the function, `FunctionName` is the
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name of the function, `Message` is an error message describing the problem,
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and __Policy is the current policy
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in use for the called function.
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The default version of this function returns zero.
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But with another policy, like `throw_on_error`,
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throws an `std::underflow_error` C++ exception.
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[heading:denorm_error Denormalisation Errors]
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If the result of a special function is a denormalised value /z/ then the function
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returns the result of:
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boost::math::policies::raise_denorm_error<T>(z, FunctionName, Message, __Policy);
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Where
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`T` is the floating point type passed to the function, `FunctionName` is the
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name of the function, `Message` is an error message describing the problem,
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and __Policy is the current policy
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in use for the called function.
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The default version of this function returns /z/.
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But with another policy, like `throw_on_error`
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throws an `std::underflow_error` C++ exception.
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[heading:evaluation_error Evaluation Errors]
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When a special function calculates a result that is known to be erroneous,
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or where the result is incalculable then it calls:
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boost::math::policies::raise_evaluation_error<T>(FunctionName, Message, Val, __Policy);
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Where
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`T` is the floating point type passed to the function, `FunctionName` is the
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name of the function, `Message` is an error message describing the problem,
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`Val` is the erroneous value,
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and __Policy is the current policy
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in use for the called function.
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The default behaviour of this function is to throw a `boost::math::evaluation_error`.
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Note that in order to support information rich error messages when throwing
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exceptions, `Message` must contain
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a __format recognised format specifier: the argument `val` is inserted into
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the error message according to the specifier used.
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For example if `Message` contains a "%1%" then it is replaced by the value of
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`val` to the full precision of T, where as "%.3g" would contain the value of
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`val` to 3 digits. See the __format documentation for more details.
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[heading:indeterminate_result_error Indeterminate Result Errors]
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When the result of a special function is indeterminate for the value that was
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passed to it, then the function returns the result of:
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boost::math::policies::raise_overflow_error<T>(FunctionName, Message, Val, Default, __Policy);
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Where
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`T` is the floating-point type passed to the function, `FunctionName` is the
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name of the function, `Message` is an error message describing the problem,
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Val is the value for which the result is indeterminate, Default is an
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alternative default result that must be returned for `ignore_error` and
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`errno_on_erro` policies, and __Policy is the current policy in use for the
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function that was called.
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The default policy for this function is `ignore_error`: note that this error
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type is reserved for situations where the result is mathematically
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undefined or indeterminate, but there is none the less a convention for what
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the result should be: for example the C99 standard specifies that the result
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of 0[super 0] is 1, even though the result is actually mathematically indeterminate.
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[heading:rounding_error Rounding Errors]
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When one of the rounding functions __round, __trunc or __modf is
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called with an argument that has no integer representation, or
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is too large to be represented in the result type then the
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value returned is the result of a call to:
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boost::math::policies::raise_rounding_error<T>(FunctionName, Message, Val, __Policy);
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Where
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`T` is the floating point type passed to the function, `FunctionName` is the
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name of the function, `Message` is an error message describing the problem,
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`Val` is the erroneous argument,
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and __Policy is the current policy in use for the called function.
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The default behaviour of this function is to throw a `boost::math::rounding_error`.
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Note that in order to support information rich error messages when throwing
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exceptions, `Message` must contain
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a __format recognised format specifier: the argument `val` is inserted into
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the error message according to the specifier used.
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For example if `Message` contains a "%1%" then it is replaced by the value of
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`val` to the full precision of T, where as "%.3g" would contain the value of
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`val` to 3 digits. See the __format documentation for more details.
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[heading:checked_narrowing_cast Errors from typecasts]
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Many special functions evaluate their results at a higher precision
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than their arguments in order to ensure full machine precision in
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the result: for example, a function passed a float argument may evaluate
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its result using double precision internally. Many of the errors listed
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above may therefore occur not during evaluation, but when converting
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the result to the narrower result type. The function:
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template <class T, class __Policy, class U>
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T checked_narrowing_cast(U const& val, const char* function);
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Is used to perform these conversions, and will call the error handlers
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listed above on [link math_toolkit.error_handling.overflow_error overflow],
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[link math_toolkit.error_handling.underflow_error underflow] or [link math_toolkit.error_handling.denorm_error denormalisation].
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[endsect][/section:error_handling Error Handling]
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[/
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Copyright 2006 - 2012 John Maddock and Paul A. Bristow.
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Distributed under the Boost Software License, Version 1.0.
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(See accompanying file LICENSE_1_0.txt or copy at
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http://www.boost.org/LICENSE_1_0.txt).
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]
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