import sys input = sys.stdin.readline from collections import defaultdict INF = 10**13 class FordFulkerson: def __init__(self, N): self.N = N self.G = [[] for i in range(N)] def add_edge(self, fr, to, cap): forward = [to, cap, None] forward[2] = backward = [fr, 0, forward] self.G[fr].append(forward) self.G[to].append(backward) def add_multi_edge(self, v1, v2, cap1, cap2): edge1 = [v2, cap1, None] edge1[2] = edge2 = [v1, cap2, edge1] self.G[v1].append(edge1) self.G[v2].append(edge2) def dfs(self, v, t, f): if v == t: return f used = self.used used[v] = 1 for e in self.G[v]: w, cap, rev = e if cap and not used[w]: d = self.dfs(w, t, min(f, cap)) if d: e[1] -= d rev[1] += d return d return 0 def flow(self, s, t): flow = 0 f = INF N = self.N while f: self.used = [0]*N f = self.dfs(s, t, INF) flow += f return flow def main(): N, M, d = map( int, input().split()) UVPQW = [ tuple( map( int, input().split())) for _ in range(M)] E = [set() for _ in range(N)] L = 10**9 E[0].add(0) E[N-1].add(L) for u, v, p, q, _ in UVPQW: u, v = u-1, v-1 if q+d <= L: E[u].add(p) E[v].add(q+d) F = [sorted(list(E[i])) for i in range(N)] index = 0 VtoI = defaultdict( int) for i in range(N): for v in F[i]: VtoI[(i,v)] = index index += 1 I = index ff = FordFulkerson(I) for u,v,p,q,w in UVPQW: u, v = u-1, v-1 q += d if q > L: continue a = VtoI[(u,p)] b = VtoI[(v,q)] ff.add_edge(a,b,w) for i in range(N): lg = len(F[i]) for j in range(lg-1): a = VtoI[(i,F[i][j])] b = VtoI[(i, F[i][j+1])] ff.add_edge(a,b,INF) s = VtoI[(0,0)] g = VtoI[(N-1,L)] print( ff.flow(s,g)) if __name__ == '__main__': main()