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Expectation Parser (a > b)
Description

There are occasions in which it is expected that the input must match a particular parser or the input is invalid. Such cases generally arise after matching a portion of a grammar, such that the context is fully known. In such a situation, failure to match should result in an exception. For example, when parsing an e-mail address, after matching a name and "@" there must be a domain name or the address is invalid.

The expectation operator (>) requires that the following parser match the input or an exception is emitted. Using on_error(), that exception can be handled by calling a handler with the context at which the parsing failed can be reported.

By contrast, the follows operator (>>) does not require that the following parser match the input, which allows for backtracking or simply returning false from the parse() function with no exceptions.

Like the Sequence, the expectation operator, a > b, parses two or more operands (a, b, ... etc.), in sequence:

a > b > ...

However, while the plain Sequence simply returns a no-match (returns false) when one of the elements fail, the expectation: > operator throws an expectation_failure<Iter> when the second or succeeding operands (all operands except the first) fail to match.

Header
// forwards to <boost/spirit/home/qi/operator/expect.hpp>
#include <boost/spirit/include/qi_expect.hpp>

Also, see Include Structure.

Model of

NaryParser

Notation

a, b

A Parser

Iter

A ForwardIterator type

Expectation Failure

When any operand, except the first, fail to match an expectation_failure<Iter> is thrown:

template <typename Iter>
struct expectation_failure : std::runtime_error
{
    Iter first;           // [first, last) iterator pointing
    Iter last;            // to the error position in the input.
    info what_;       // Information about the nature of the error.
};
Expression Semantics

Semantics of an expression is defined only where it differs from, or is not defined in NaryParser.

Expression

Semantics

a > b

Match a followed by b. If a fails, no-match. If b fails, throw an expectation_failure<Iter>

Attributes

See Compound Attribute Notation.

Expression

Attribute

a > b

a: A, b: B --> (a > b): tuple<A, B>
a: A, b: Unused --> (a > b): A
a: Unused, b: B --> (a > b): B
a: Unused, b: Unused --> (a > b): Unused

a: A, b: A --> (a > b): vector<A>
a: vector<A>, b: A --> (a > b): vector<A>
a: A, b: vector<A> --> (a > b): vector<A>
a: vector<A>, b: vector<A> --> (a > b): vector<A>

Complexity

The overall complexity of the expectation parser is defined by the sum of the complexities of its elements. The complexity of the expectation operator itself is O(N), where N is the number of elements in the sequence.

Example
[Note] Note

The test harness for the example(s) below is presented in the Basics Examples section.

Some using declarations:

using boost::spirit::ascii::char_;
using boost::spirit::qi::expectation_failure;

The code below uses an expectation operator to throw an expectation_failure with a deliberate parsing error when "o" is expected and "i" is what is found in the input. The catch block prints the information related to the error. Note: This is low level code that demonstrates the bare-metal. Typically, you use an Error Handler to deal with the error.

try
{
    test_parser("xi", char_('x') > char_('o')); // should throw an exception
}
catch (expectation_failure<char const*> const& x)
{
    std::cout << "expected: "; print_info(x.what_);
    std::cout << "got: \"" << std::string(x.first, x.last) << '"' << std::endl;
}

The code above will print:

expected: tag: literal-char, value: o
got: "i"

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