1 NAMING CONVENTIONS FOR METAVARIABLES
4 C : candidate of reducibility
6 F,G : global environment
7 H : reserved: transient premise
8 IH : reserved: inductive premise
10 K,L : local environment
11 M,N : reserved: future use
13 R : generic predicate (relation)
16 X,Y,Z : reserved: transient objet denoted by a capital letter
19 c : reserved: future use (lambda_delta 3)
23 g : sort degree parameter
24 h : sort hierarchy parameter
25 i,j : local reference position index (de Bruijn's)
28 m,n : reserved: future use
30 p,q : global reference position
31 r : reduction kind parameter (true = ordinary, false = extended)
32 s : local dropping kind parameter (true = general, false = restricted)
33 t,u : local reference position level (de Bruijn's)
35 x,y,z : reserved: transient objet denoted by a small letter
37 NAMING CONVENTIONS FOR CONSTRUCTORS
42 A: application to vector
51 n: native type annotation
53 NAMING CONVENTIONS FOR TRANSFORMATIONS AND RELATED FORMS
57 b: bi contex-sensitive for local environments
58 c: contex-sensitive for terms
59 f: context-freee for closures
60 l: sn contex-sensitive for local environments
61 r: dx contex-sensitive for local environments
62 t: context-free for terms
68 p: reflexive parallel transformation
69 q: sequential transformation
71 s: strongly normalizing form
75 b: "big tree" reduction
77 d: decomposed extended reduction
78 e: decomposed extended conversion
79 q: restricted reduction
84 y: extended substitution
86 - forth letter (if present)
88 c: proper single step (general) (successor)
89 e: reflexive transitive closure to normal form (evaluation)
90 g: proper multiple step (general) (greater)
91 p: non-reflexive transitive closure (plus)
92 q: reflexive closure (question)
93 r: proper multiple step (restricted) (restricted)
94 s: reflexive transitive closure (star)
95 u: proper single step (restricted) (unit)