LSE (French: Langage symbolique d'enseignement) is a programming language developed at Supélec and Télémécanique from the late 1960s to the mid-1970s.[1] [2] [3] [4] It is similar to BASIC, except with French-language instead of English-language keywords. It was derived from an earlier language called LSD, also developed at Supélec. It is most commonly said to be an acronym for Langage Symbolique d'Enseignement (Symbolic Teaching Language), but other expansions are also known (e.g. Langage de Sup-Élec, or the more cynical Langage Sans Espoir (hopeless language)).
LSE originally flourished because being "interpreted", the "tokens" used were common to all languages and with a nationalized "editor", tokenized programs could be listed in any language. Obviously, the support from the French Ministry of National Education, was very important, but it declined as the ministry lost interest. It went through a number of revisions; earlier versions of LSE lacked full support for structured programming, later versions such as LSE-83 (aka LSE-1983) by Jacques Arsac added structured programming support, along with exception handling. Even later revisions, such as LSE-2000, added more functionality, new types, new operators (NI, ET QUE, OU QUE and SELON-DANS-SINON), flow control commands, etc.
1*CHANSON DES 99 BOUTEILLES DE BIERE 2*PASCAL BOURGUIGNON, 2003 10 FAIRE 20 POUR N←99 PAS -1 JUSQUA 1 20 &STROF(N) 30 AFFICHER['IL EST TEMPS D’’ALLER AU MAGASIN.',/] 40 TERMINER 100 PROCEDURE &STROF(N) LOCAL S1,S0;CHAINE S1,S0;S1←"S";S0←"S" 110 SI N=2 ALORS S0←"" SINON SI N=1 ALORS DEBUT S1←"";S0←"" FIN 120 AFFICHER[U,' BOUTEILLE',U,' DE BIERE SUR LE MUR.',/]N,S1 130 AFFICHER[U,' BOUTEILLE',U,' DE BIERE.',/]N,S1 140 AFFICHER['EN PRENDRE UNE, LA FAIRE PASSER.',/] 150 AFFICHER[U,' BOUTEILLE',U,' DE BIERE SUR LE MUR.',2/]N-1,S0 160 RETOUR
Example from Jacques Arsac in LSE83:
1 CHAINE A,B,BP 5 FAIRE 10 AFFICHER 'A = ' ;LIRE A ; SI A=’’ ALORS FINI IS 11 AFFICHER 'B = ' ;LIRE B ; BP ← B 12 15 R SI LGR(A) # LGR(B) ALORS .FAUX. SINON &ANAG(A,B) IS 20 SI R ALORS AFFICHER A, 'EST ANAGRAMME DE ',BP 21 SINON AFFICHER A, 'N’’EST PAS ANAGRAMME DE 1, BP 22 IS 25 BOUCLER 29 30 TERMINER 31 50 FONCTION &ANAG(U,V) LOCAL J 51 SI U=' ' ALORS RESULTAT .VRAI. IS 52 SI J = 0 ALORS RESULTAT .FAUX. IS 54 RESULTAT &ANAG(SCH(U,2, ' '),MCH(V,J,l, ' ')) $55 &ANAG $99
(* ** MÉTHODE D'EUCLIDE POUR TROUVER LE PLUS GRAND DIVISEUR COMMUN D'UN ** NUMÉRATEUR ET D'UN DÉNOMINATEUR. ** L. Goulet 2010 *) PROCÉDURE &PGDC(ENTIER U, ENTIER V) : ENTIER LOCAL U, V ENTIER T TANT QUE U > 0 FAIRE SI U< V ALORS T←U U←V V←T FIN SI U ← U - V BOUCLER RÉSULTAT V FIN PROCÉDURE PROCÉDURE &DEMO(ENTIER U, ENTIER V) LOCAL U, V AFFICHER ['Le PGDC de ',U,'/',U,' est ',U,/] U, V, &PGDC(U,V) FIN PROCÉDURE &DEMO(9,12)