doc/groups.dox
changeset 1174 7c86f14b3bc5
parent 1092 dceba191c00d
child 1142 2f479109a71d
equal deleted inserted replaced
60:4b3cb278f776 61:6872630fe256
   420 several thousands of nodes) and on dense graphs, while \ref CostScaling is
   420 several thousands of nodes) and on dense graphs, while \ref CostScaling is
   421 typically more efficient on large graphs (e.g. hundreds of thousands of
   421 typically more efficient on large graphs (e.g. hundreds of thousands of
   422 nodes or above), especially if they are sparse.
   422 nodes or above), especially if they are sparse.
   423 However, other algorithms could be faster in special cases.
   423 However, other algorithms could be faster in special cases.
   424 For example, if the total supply and/or capacities are rather small,
   424 For example, if the total supply and/or capacities are rather small,
   425 \ref CapacityScaling is usually the fastest algorithm (without effective scaling).
   425 \ref CapacityScaling is usually the fastest algorithm
       
   426 (without effective scaling).
   426 
   427 
   427 These classes are intended to be used with integer-valued input data
   428 These classes are intended to be used with integer-valued input data
   428 (capacities, supply values, and costs), except for \ref CapacityScaling,
   429 (capacities, supply values, and costs), except for \ref CapacityScaling,
   429 which is capable of handling real-valued arc costs (other numerical
   430 which is capable of handling real-valued arc costs (other numerical
   430 data are required to be integer).
   431 data are required to be integer).