Phase cg.paddle: Paddle is a BDD-based interprocedural analysis framework. It includes points-to analysis, call graph construction, and various client analyses. Recognized options (with default values): enabled (false) verbose (false) Print detailed information about the execution of Paddle conf Select Paddle configuration ofcg (default) On-the fly call graph cha CHA only cha-aot CHA ahead-of-time callgraph ofcg-aot OFCG-AOT callgraph cha-context-aot CHA-Context-AOT callgraph ofcg-context-aot OFCG-Context-AOT callgraph cha-context CHA-Context callgraph ofcg-context OFCG-Context callgraph bdd (false) Use BDD version of Paddle order (32) dynamic-order profile (false) Profile BDDs using JeddProfiler q Select queue implementation auto (default) Select queue implementation based on bdd option trad Normal worklist queue implementation bdd BDD-based queue implementation debug Debugging queue implementation trace Tracing queue implementation numtrace Number-tracing queue implementation backend Select BDD backend buddy (default) BuDDy backend cudd CUDD backend sable SableJBDD backend javabdd JavaBDD backend none No BDDs ignore-types (false) Make Paddle completely ignore declared types of variables pre-jimplify (false) Jimplify all methods before starting Paddle context Select context-sensitivity level insens (default) Builds a context-insensitive call graph 1cfa Builds a 1-CFA call graph kcfa Builds a k-CFA call graph objsens Builds an object-sensitive call graph kobjsens Builds a k-object-sensitive call graph uniqkobjsens Builds a unique-k-object-sensitive call graph k (2) context-heap (false) Treat allocation sites context-sensitively rta (false) Emulate Rapid Type Analysis field-based (false) Use a field-based rather than field-sensitive representation types-for-sites (false) Represent objects by their actual type rather than allocation site merge-stringbuffer (true) Represent all StringBuffers as one object string-constants (false) Propagate all string constants, not just class names simulate-natives (true) Simulate effects of native methods in standard class library global-nodes-in-natives (false) Use global node to model variables in simulations of native methods simple-edges-bidirectional (false) Equality-based analysis between variable nodes this-edges (false) Use pointer assignment edges to model this parameters precise-newinstance (true) Make newInstance only allocate objects of dynamic classes propagator Select propagation algorithm auto (default) Select propagation algorithm based on bdd option iter Simple iterative algorithm worklist Fast, worklist-based algorithm alias Alias-edge based algorithm bdd BDD-based propagator incbdd Incrementalized BDD-based propagator set-impl Select points-to set implementation hash Use Java HashSet bit Bit vector hybrid Hybrid representation using bit vector for large sets array Sorted array representation double (default) Double set representation for incremental propagation double-set-old Select implementation of points-to set for old part of double set hash Use Java HashSet bit Bit vector hybrid (default) Hybrid representation using bit vector for large sets array Sorted array representation double-set-new Select implementation of points-to set for new part of double set hash Use Java HashSet bit Bit vector hybrid (default) Hybrid representation using bit vector for large sets array Sorted array representation context-counts (false) Print number of contexts for each method total-context-counts (false) Print total number of contexts set-mass (false) Calculate statistics about points-to set sizes number-nodes (true) Print node numbers in dumps