static Clojure() { RT.Init(); Symbol edn = (Symbol)var("clojure.core", "symbol").invoke("clojure.edn"); var("clojure.core", "require").invoke(edn); }
static void Main(string[] args) { RT.Init(); TextWriter outTW = (TextWriter)RT.OutVar.deref(); TextWriter errTW = RT.errPrintWriter(); string path = Environment.GetEnvironmentVariable(PATH_PROP); path = path ?? "."; string warnVal = Environment.GetEnvironmentVariable(REFLECTION_WARNING_PROP); bool warnOnReflection = warnVal == null ? false : warnVal.Equals("true"); string mathVal = Environment.GetEnvironmentVariable(UNCHECKED_MATH_PROP); object uncheckedMath = false; if ("true".Equals(mathVal)) { uncheckedMath = true; } else if ("warn-on-boxed".Equals(mathVal)) { uncheckedMath = Keyword.intern("warn-on-boxed"); } // Force load to avoid transitive compilation during lazy load Compiler.EnsureMacroCheck(); try { Var.pushThreadBindings(RT.map( Compiler.CompilePathVar, path, RT.WarnOnReflectionVar, warnOnReflection, RT.UncheckedMathVar, uncheckedMath )); Stopwatch sw = new Stopwatch(); foreach (string lib in args) { sw.Reset(); sw.Start(); outTW.Write("Compiling {0} to {1}", lib, path); outTW.Flush(); Compiler.CompileVar.invoke(Symbol.intern(lib)); sw.Stop(); outTW.WriteLine(" -- {0} milliseconds.", sw.ElapsedMilliseconds); } } catch (Exception e) { errTW.WriteLine(e.ToString()); Environment.Exit(1); } finally { Var.popThreadBindings(); try { outTW.Flush(); } catch (IOException e) { errTW.WriteLine(e.StackTrace); } } }
private void Awake() { RT.Init(ResolutionX, ResolutionX); }
public static void legacy_script(string[] args) { RT.Init(); REQUIRE.invoke(CLOJURE_MAIN); LEGACY_SCRIPT.invoke(RT.seq(args)); }
public static void legacy_repl(string[] args) { RT.Init(); REQUIRE.invoke(CLOJURE_MAIN); LEGACY_REPL.invoke(RT.seq(args)); }
static void Main(string[] args) { RT.Init(); REQUIRE.invoke(CLOJURE_MAIN); MAIN.applyTo(RT.seq(args)); }