[/ Copyright 2010 Neil Groves Distributed under the Boost Software License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) /] [section:inner_product inner_product] [heading Prototype] `` template Value inner_product( const SinglePassRange1& rng1, const SinglePassRange2& rng2, Value init ); template Value inner_product( const SinglePassRange1& rng1, const SinglePassRange2& rng2, Value init, BinaryOperation1 op1, BinaryOperation2 op2 ); `` [heading Description] `inner_product` calculates a generalised inner product of the range `rng1` and `rng2`. For further information on the `inner_product` algorithm please see __sgi_inner_product__. [heading Definition] Defined in the header file `boost/range/numeric.hpp` [heading Requirements] [heading For the first version] # `SinglePassRange1` is a model of the __single_pass_range__ Concept. # `SinglePassRange2` is a model of the __single_pass_range__ Concept. # `Value` is a model of the `AssignableConcept`. # If `x` is an object of type `Value`, `y` is an object of `SinglePassRange1`'s value type, and `z` is an object of `SinglePassRange2`'s value type, then `x + y * z` is defined. # The result type of the expression `x + y * z` is convertible to `Value`. [heading For the second version] # `SinglePassRange1` is a model of the __single_pass_range__ Concept. # `SinglePassRange2` is a model of the __single_pass_range__ Concept. # `Value` is a model of the `AssignableConcept`. # `BinaryOperation1` is a model of the `BinaryFunctionConcept`. # `BinaryOperation2` is a model of the `BinaryFunctionConcept`. # The value type of `SinglePassRange1` is convertible to the first argument type of `BinaryOperation2`. # The value type of `SinglePassRange2` is convertible to the second argument type of `BinaryOperation2`. # `Value` is convertible to the value type of `BinaryOperation1`. # The return type of `BinaryOperation2` is convertible to the second argument type of `BinaryOperation1`. # The return type of `BinaryOperation1` is convertible to `Value`. [heading Precondition:] `distance(rng2) >= distance(rng1)` is a valid range. [heading Complexity] Linear. Exactly `distance(rng)`. [endsect]