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doc/go1.17_spec.html
the corresponding underlying type is <code>T</code> itself. Otherwise, <code>T</code>'s underlying type is the underlying type of the type to which <code>T</code> refers in its <a href="#Type_declarations">type declaration</a>. </p> <pre> type ( A1 = string A2 = A1 ) type ( B1 string B2 B1 B3 []B1 B4 B3 ) </pre> <p>
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doc/go_mem.html
in an unspecified order. This means that races on multiword data structures can lead to inconsistent values not corresponding to a single write. When the values depend on the consistency of internal (pointer, length) or (pointer, type) pairs, as can be the case for interface values, maps, slices, and strings in most Go implementations, such races can in turn lead to arbitrary memory corruption. </p> <p>
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doc/go_spec.html
or <a href="#Type_parameter_declarations">type parameter lists</a>. <i>Composite types</i>—array, struct, pointer, function, interface, slice, map, and channel types—may be constructed using type literals. </p> <p> Predeclared types, defined types, and type parameters are called <i>named types</i>.
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