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| ranges::template (typename I1, typename S1, typename I2, typename S2, typename C=equal_to, typename P1=identity, typename P2=identity)(AND sentinel_for< S1 |
| This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
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I1 AND input_iterator< I2 > AND sentinel_for< S2, I2 > AND indirect_strict_weak_order< C, projected< I1, P1 >, projected< I2, P2 > > constexpr bool RANGES_FUNC() | ranges::includes (I1 begin1, S1 end1, I2 begin2, S2 end2, C pred=C{}, P1 proj1=P1{}, P2 proj2=P2{}) |
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| ranges::template (typename Rng1, typename Rng2, typename C=equal_to, typename P1=identity, typename P2=identity)(AND input_range< Rng2 > AND indirect_relation< C |
| This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
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projected< iterator_t< Rng2 >, P2 > constexpr bool RANGES_FUNC() | ranges::includes (Rng1 &&rng1, Rng2 &&rng2, C pred=C{}, P1 proj1=P1{}, P2 proj2=P2{}) |
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| ranges::template (typename I1, typename S1, typename I2, typename S2, typename O, typename C=less, typename P1=identity, typename P2=identity)(AND sentinel_for< S2 |
| function template set_union
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I2 AND mergeable< I1, I2, O, C, P1, P2 > constexpr set_union_result< I1, I2, O > RANGES_FUNC() | ranges::set_union (I1 begin1, S1 end1, I2 begin2, S2 end2, O out, C pred=C{}, P1 proj1=P1{}, P2 proj2=P2{}) |
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| ranges::template (typename Rng1, typename Rng2, typename O, typename C=less, typename P1=identity, typename P2=identity)(AND range< Rng2 > AND mergeable< iterator_t< Rng1 > |
| This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
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P2 constexpr set_union_result< borrowed_iterator_t< Rng1 >, borrowed_iterator_t< Rng2 >, O > RANGES_FUNC() | ranges::set_union (Rng1 &&rng1, Rng2 &&rng2, O out, C pred=C{}, P1 proj1=P1{}, P2 proj2=P2{}) |
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I2 AND mergeable< I1, I2, O, C, P1, P2 > constexpr O RANGES_FUNC() | ranges::set_intersection (I1 begin1, S1 end1, I2 begin2, S2 end2, O out, C pred=C{}, P1 proj1=P1{}, P2 proj2=P2{}) |
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P2 constexpr O RANGES_FUNC() | ranges::set_intersection (Rng1 &&rng1, Rng2 &&rng2, O out, C pred=C{}, P1 proj1=P1{}, P2 proj2=P2{}) |
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I2 AND mergeable< I1, I2, O, C, P1, P2 > constexpr set_difference_result< I1, O > RANGES_FUNC() | ranges::set_difference (I1 begin1, S1 end1, I2 begin2, S2 end2, O out, C pred=C{}, P1 proj1=P1{}, P2 proj2=P2{}) |
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P2 constexpr set_difference_result< borrowed_iterator_t< Rng1 >, O > RANGES_FUNC() | ranges::set_difference (Rng1 &&rng1, Rng2 &&rng2, O out, C pred=C{}, P1 proj1=P1{}, P2 proj2=P2{}) |
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I2 AND mergeable< I1, I2, O, C, P1, P2 > constexpr set_symmetric_difference_result< I1, I2, O > RANGES_FUNC() | ranges::set_symmetric_difference (I1 begin1, S1 end1, I2 begin2, S2 end2, O out, C pred=C{}, P1 proj1=P1{}, P2 proj2=P2{}) |
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P2 constexpr set_symmetric_difference_result< borrowed_iterator_t< Rng1 >, borrowed_iterator_t< Rng2 >, O > RANGES_FUNC() | ranges::set_symmetric_difference (Rng1 &&rng1, Rng2 &&rng2, O out, C pred=C{}, P1 proj1=P1{}, P2 proj2=P2{}) |
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