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Line 8: translates, via some isomorphisms, into noteworthy identities on the corresponding generating functions. Following the works of [[George_Pólya\|Pólya]], further advances were thus done in this spirit in the 1970s with generic uses of languages for specifying combinatorial classes and their generating functions, as found in work by [[Dominique Foata\|Foata]] and [[Marcel-Paul Schützenberger\|Schützenberger]] <ref name="fs">{{cite journal\|last1=Foata\|first1=D.\|last2=Schützenberger\|first2=M.\|title=Théorie géométrique des polynômes Eulériens\|journal=Lectures Notes in Math.\|date=1970\|volume=138}}</ref> on permutations, Bender and Goldman on prefabs <ref>{{cite journal\|last1=Bender\|first1=E.A.\|last2=Goldman\|first2=J.R.\|title=Enumerative uses of generating functions\|journal=Indiana Univ. Math. J.\|date=1971\|volume=20\|pages=753–764}}</ref>, and [[André Joyal\|Joyal]] on [[combinatorial species]] <ref>{{cite journal\|last1=Joyal\|first1=~~Andre~~André\|title=Une théorie combinatoire des séries formelles\|journal=Adv. Math.\|date=1981\|volume=42\|pages=1–82\|ref=joy}}</ref>. Note that this symbolic method in enumeration is unrelated to "Blissard's symbolic method", which is just another old name for [[umbral calculus]].

Symbolic method (combinatorics): Difference between revisions