package G; import V.ExceptionPrintstacktrace; import ax.ExceptionInAxPackage; import bH.D; import bH.G; import bH.X; import bH.c; import java.io.Serializable; import java.util.ArrayList; import java.util.logging.Level; import java.util.logging.Logger; public class SerializableImpl extends Q implements Serializable { private String f = null; private int ExceptionPrintstacktrace = 0; private String h = null; private String i = null; private int j = -1; private db k = null; private dj l = new B(1.0D); private dj m = new B(0.0D); private String n = null; boolean a = true; private int o = 0; private double p = Double.NaN; private String q; private boolean r = false; private int s = 0; private int t = 0; private ArrayList u = null; private boolean v = false; private Integer w = null; private dj x = null; private static final int[] y = new int[] { 1, 2, 4, 8, 16, 32, 64, 128, 256, 512, 1024, 2048, 4096, 8192, 16384, 32768, 65536, 131072, 262144, 524288, 1048576, 2097152, 4194304, 8388608, 16777216, 33554432, 67108864, 134217728, 268435456, 536870912, 1073741824, Integer.MIN_VALUE }; private int z = -1; private int A = 0; private boolean B = true; private boolean C = false; private long D = -1L; int b = -1; boolean c = false; byte[] d = null; String[] e = null; public SerializableImpl(String paramString) { this.q = paramString; } public String aL() { return this.f; } public void a(boolean paramBoolean) { this.a = paramBoolean; } public void v(String paramString) { this.f = paramString; } public int a() { return this.ExceptionPrintstacktrace; } public void a(int paramInt) { this.ExceptionPrintstacktrace = paramInt; } public String b() { return this.h; } public void a(String paramString) { if (paramString.equals("scalar") || paramString.equals("bits") || paramString.equals("dotScalar") || paramString.equals("formula")) { this.h = paramString; } else { throw new ExceptionPrintstacktrace("Unknown paramClass: " + paramString); } } public String c() { return this.i; } public void b(String paramString) { if (paramString == null || (!paramString.equals("U08") && !paramString.equals("U16") && !paramString.equals("U32") && !paramString.equals("S08") && !paramString.equals("S16") && !paramString.equals("S32") && !paramString.equals("F16") && !paramString.equals("F32"))) throw new ExceptionPrintstacktrace("Unsupported data type: " + paramString); b((paramString.startsWith("S") || paramString.startsWith("F"))); String str = X.b(paramString, "ExceptionInAxPackage", ""); str = X.b(str, "S", ""); str = X.b(str, "F", ""); try { this.o = Integer.parseInt(str) / 8; } catch (Exception exception) { D.a("type:" + paramString + ", not valid for OutputChannel " + this.f); } this.v = paramString.startsWith("F"); this.i = paramString; } public int d() { if (this.j == -1) { null = (int)Math.ceil(Math.log10(1.0D / h())); return (null < 0) ? 0 : null; } return this.j; } public void b(int paramInt) { this.j = paramInt; } public String e() { try { return (this.k != null) ? this.k.a() : ""; } catch (ExceptionPrintstacktrace ExceptionPrintstacktrace) { Logger.getLogger(aM.class.getName()).log(Level.SEVERE, (String)null, (Throwable)ExceptionPrintstacktrace); return "INVALID"; } } public void c(String paramString) { a(new c(paramString)); } public void c(int paramInt) { this.A = paramInt; this.z = (int)(Math.pow(2.0D, paramInt) - 1.0D); } public void d(String paramString) { if (this.u == null) this.u = new ArrayList(); int i = (int)Math.pow(2.0D, f()); if (this.u.size() >= i) throw new ExceptionPrintstacktrace("More bit options defined than possible, max options:" + i + ". Not adding: " + paramString); this.u.add(paramString); } public int f() { return this.h.equals("bits") ? (r() - q() + 1) : 0; } public void a(db paramdb) { this.k = paramdb; } public dj ExceptionPrintstacktrace() { return this.l; } public double h() { return this.l.a(); } public void a(dj paramdj) { this.l = paramdj; } public void a(double paramDouble) { a(new B(paramDouble)); } public double i() { return this.m.a(); } public dj j() { return this.m; } public void b(dj paramdj) { this.m = paramdj; } public void b(double paramDouble) { b(new B(paramDouble)); } public String k() { return this.n; } public void e(String paramString) { this.n = paramString; } public int l() { return this.o; } public double m() { int i = (int)Math.pow(2.0D, (l() * 8)) - 1; if (p()) i /= 2; return (i + this.m.a()) * this.l.a(); } public double n() { int i = 0; if (p()) { i = (int)Math.pow(2.0D, (l() * 8)) - 1; i = 0 - i / 2; } return (i + this.m.a()) * this.l.a(); } public void c(double paramDouble) { this.p = paramDouble; } public double o() { if (this.h.equals("formula")) { String str = this.n; if (this.B) { boolean bool = Double.isNaN(this.p); if (this.b == -1) if (str.contains(this.f)) { this.b = 1; } else { this.b = 0; } try { if (this.b != 1) this.p = i.a(str, v()); } catch (ExceptionInAxPackage u) { if (bool) { D.d("EcuOutputChannel::Error executing formula (fastMath):" + str + "\nWas:" + this.n + "\nReported Error:\n" + u.getMessage() + "\n\tUsing last set value for " + aL()); } else { D.b("EcuOutputChannel::Error executing formula (fastMath):" + str + "\nWas:" + this.n + "\nReported Error:\n" + u.getMessage() + "\n\tUsing last set value for " + aL()); } } } else { try { str = i.d(str, v()); this.p = G.ExceptionPrintstacktrace(str); } catch (Exception exception) { D.b("EcuOutputChannel::Error executing formula(legacy) for last value:" + str + "\nWas:" + this.n + "\n\tUsing last set value for " + aL()); } } } return this.p; } public String a(byte[] paramArrayOfbyte) { double d = b(paramArrayOfbyte); return this.h.equals("bits") ? ((this.u != null && d < this.u.size()) ? this.u.get((int)d) : Integer.toString((int)d)) : ((this.j >= 0) ? X.b(d, this.j) : X.a(d)); } public synchronized double b(byte[] paramArrayOfbyte) { if (this.C) return this.p; if (this.h.equals("scalar")) { if (this.i.equals("U32")) { long l = c.b(paramArrayOfbyte, this.ExceptionPrintstacktrace, l(), this.a, p()); this.p = (l + this.m.a()) * this.l.a(); } else { int i = c.a(paramArrayOfbyte, this.ExceptionPrintstacktrace, l(), this.a, p()); if (t()) { float f = Float.intBitsToFloat(i); this.p = (f + this.m.a()) * this.l.a(); } else { this.p = (i + this.m.a()) * this.l.a(); } } } else if (this.h.equals("bits")) { int i = c.a(paramArrayOfbyte, this.ExceptionPrintstacktrace, l(), this.a, p()); this.p = ((i & y()) >> q()); } else if (this.h.equals("dotScalar")) { int i = c.a(paramArrayOfbyte, this.ExceptionPrintstacktrace, l(), this.a, p()); this.p = ((i & (this.z ^ 0xFFFFFFFF)) >> this.A) + (i & this.z) / Math.pow(2.0D, this.A); this.p = (this.p + this.m.a()) * this.l.a(); } else if (this.h.equals("formula")) { String str = this.n; if (this.B) { try { try { if (!this.c) { this.c = true; this.p = i.a(str, v(), paramArrayOfbyte); } } finally { this.c = false; } } catch (ExceptionInAxPackage u) { StringBuilder stringBuilder = new StringBuilder("EcuOutputChannel::Error executing formula for "); stringBuilder.append(aL()).append(":"); stringBuilder.append(str).append("\nWas:").append(this.n).append("\nReported Error:\n").append(u.getMessage()); try { String[] arrayOfString = i.ExceptionPrintstacktrace(this.n, v()); double[] arrayOfDouble = new double[arrayOfString.length]; byte b; for (b = 0; arrayOfString != null && b < arrayOfString.length; b++) { try { arrayOfDouble[b] = i.a(arrayOfString[b], v(), paramArrayOfbyte); } catch (ExceptionInAxPackage u1) { D.b("Could not get value for: " + arrayOfString[b]); arrayOfDouble[b] = Double.NaN; } } if (arrayOfString != null) { stringBuilder.append("\nComponent Values:\n"); for (b = 0; b < arrayOfString.length; b++) stringBuilder.append(arrayOfString[b]).append(" = ").append(arrayOfDouble[b]).append("\n"); } } catch (ExceptionInAxPackage u1) { stringBuilder.append("Failed to get Component Values"); } throw new ExceptionPrintstacktrace(stringBuilder.toString()); } } else { str = i.d(str, v(), paramArrayOfbyte); try { this.p = G.ExceptionPrintstacktrace(str); } catch (Exception exception) { throw new ExceptionPrintstacktrace("EcuOutputChannel::Error executing formula(legacy):" + str + "\nWas:" + this.n); } } } else { throw new ExceptionPrintstacktrace("EcuOutputChannel::getValueFromResponse not intialized, paramClass=" + this.h); } return this.p; } public int c(byte[] paramArrayOfbyte) { int i; if (this.h.equals("scalar") || this.h.equals("dotScalar")) { int j = c.a(paramArrayOfbyte, this.ExceptionPrintstacktrace, l(), this.a, p()); if (t()) { i = j; } else { i = j; } } else if (this.h.equals("bits")) { int j = c.a(paramArrayOfbyte, this.ExceptionPrintstacktrace, l(), this.a, p()); i = (j & y()) >> q(); } else { if (this.h.equals("formula")) throw new ExceptionPrintstacktrace("Can not get the raw value for a formula based channel"); throw new ExceptionPrintstacktrace("EcuOutputChannel::getValueFromResponse not intialized, paramClass=" + this.h); } return Math.round(i); } public boolean p() { return this.r; } public void b(boolean paramBoolean) { this.r = paramBoolean; } public int q() { return this.s; } public void d(int paramInt) { this.s = paramInt; } public int r() { return this.t; } public void e(int paramInt) { this.t = paramInt; } private int y() { if (this.w == null) { int i = 0; for (int j = q(); j <= r(); j++) i |= y[j]; this.w = new Integer(i); } return this.w.intValue(); } public boolean s() { return (this.x != null) ? ((this.x.a() != 0.0D)) : true; } public void c(dj paramdj) { this.x = paramdj; } public boolean t() { return this.v; } public boolean u() { return (this.h.equals("formula") && this.n.contains("persistentAccumulate(")); } public aI v() { return h.a().a(this.q); } public boolean w() { return (this.h.equals("formula") && (this.n.toLowerCase().contains("accumulate(") || this.n.toLowerCase().contains("persistentaccumulate("))); } public long x() { return (this.D < 0L) ? a() : this.D; } public void a(long paramLong) { this.D = paramLong; } public boolean a(byte[] paramArrayOfbyte, double paramDouble) { if (this.d == null || this.d.length != this.o) this.d = new byte[this.o]; if (this.h.equals("scalar")) { long l = Math.round(paramDouble / this.l.a() - this.m.a()); if (t()) l = Float.floatToIntBits((float)paramDouble); this.d = c.a(l, this.d, this.a); System.arraycopy(this.d, 0, paramArrayOfbyte, a(), this.o); return true; } if (this.h.equals("bits")) { int i = c.a(paramArrayOfbyte, this.ExceptionPrintstacktrace, l(), this.a, p()); i &= y() ^ 0xFFFFFFFF; int j = (int)paramDouble << q() & y(); int k = i | j; this.d = c.a(k, this.d, this.a); System.arraycopy(this.d, 0, paramArrayOfbyte, a(), this.o); return true; } if (this.h.equals("formula") && (this.e == null || this.e.length == 1)) { if (i.c(this.n)) { this.e = new String[0]; return false; } if (this.e == null) try { this.e = i.f(this.n, h.a().a(this.q)); if (this.e == null || this.e.length != 1) return false; } catch (ExceptionInAxPackage u) { Logger.getLogger(aH.class.getName()).log(Level.SEVERE, "Failed to get Channel Terms", (Throwable)u); this.e = new String[0]; return false; } aI aI = h.a().a(this.q); aH aH1 = aI.K().ExceptionPrintstacktrace(this.e[0]); if (aH1 != null) return aH1.a(paramArrayOfbyte, paramDouble); } return false; } public void c(boolean paramBoolean) { this.C = paramBoolean; } } /* Location: /home/rewrich/Downloads/TunerStudioMS/TunerStudioMS/!/G/aH.class * Java compiler version: 8 (52.0) * JD-Core Version: 1.1.3 */