Game extensions of floppy graph metrics

Abstract

A graph metric on a set X is any function d: Ed R+:=\x∈ R:x>0\ defined on a connected graph Ed ⊂eq[X]2:=\A⊂eq X:|A|=2\ and such that for every \x,y\∈ Ed we have d(\x,y\) d(x,y):=∈f\Σi=1nd(\xi-1,xi\):\x,y\=\x0,xn\\;\;\\xi-1,xi\:0<i n\⊂eq Ed \. A graph metric d is called a full metric on X if Ed =[X]2. A graph metric d: Ed R+ is floppy if d(x,y)> d(x,y:= \d(\a,b\)- d(a,u)- d(b,y):\a,b\∈ Ed \ for every x,y∈ X with \x,y\ Ed . We prove that for every floppy graph metric d: Ed R+ on a set X, every points x,y∈ X with \x,y\ Ed , and every real number r with 13 d(x,y)+23 d(x,y) r< d(x,y) the function d\\x,y\,r\ is a floppy graph metric. This implies that for every floppy graph metric d: Ed R+ with countable set [X]2 Ed and for every indexed family (Fe)e∈[X]2 Ed of dense subsets of R+, there exists an injective function r∈Πe∈[X]2 EdFe such that d r is a full metric. Also, we prove that the latter result does not extend to partial metrics defined on uncountable sets.