package ak; import W.T; import W.k; import bH.D; import bH.c; import java.nio.ByteBuffer; import java.nio.ByteOrder; import java.util.Arrays; import java.util.Objects; class TostringHashcode extends ak implements T { protected int a; protected int b; protected int c; protected boolean d; protected String e; protected int f; protected int g; protected int h; protected double i; protected int j; protected int k; public ag l = new ag(this, this.b); protected am m; protected am n; protected am o; int p = 0; double q = Double.NaN; double r = Double.NaN; public TostringHashcode(ae paramae, int paramInt) { super(paramae.m.f.o, paramInt); if (this.c != 0) this.m = new am(paramae.m.f.o, this.c); if (this.j != 0) this.n = new am(paramae.m.f.o, this.j); if (this.k != 0) this.o = new am(paramae.m.f.o, this.k); } public String toString() { return "CNBlock{name=" + String.format("%-30s", new Object[] { '"' + this.e + '"' }) + ", unit=" + this.l.a + ", sr=" + this.i + ", dt=" + aa.s[this.h] + ", cnvT=" + this.l.b + ", sizeInfo=" + this.l.c + ", rParams=" + ((this.l.d != null) ? Arrays.toString(this.l.d) : "null") + ", sParams=" + ((this.l.e != null) ? Arrays.toString((Object[])this.l.e) : "null") + ", offsetBits=" + this.f + ", signalBits=" + this.g + '}'; } public String a() { return this.e; } public String b() { return this.l.a; } public int e() { return -1; } public int f() { return (this.l.b == 11) ? 255 : 0; } public float d() { return Float.NaN; } public float c() { return Float.NaN; } int k() { return this.s.j + this.p; } double a(int paramInt) { int i = this.s.m.c + this.f / 8 + paramInt * this.s.f; int j = this.g / 8; double d = Double.NaN; try { switch (this.h) { case 0: case 1: d = (j > 4) ? c.b(this.s.m.f.o.e, i, j, this.s.m.f.o.k, aa.l()[this.h]) : c.a(this.s.m.f.o.e, i, j, this.s.m.f.o.k, aa.l()[this.h]); break; case 2: d = ByteBuffer.wrap(this.s.m.f.o.e, i, 4).order(this.s.m.f.o.k ? ByteOrder.BIG_ENDIAN : ByteOrder.LITTLE_ENDIAN).getFloat(); break; case 3: d = ByteBuffer.wrap(this.s.m.f.o.e, i, 8).order(this.s.m.f.o.k ? ByteOrder.BIG_ENDIAN : ByteOrder.LITTLE_ENDIAN).getDouble(); break; case 7: case 8: d = Double.NaN; break; case 9: case 10: d = (j > 4) ? c.b(this.s.m.f.o.e, i, j, true, aa.l()[this.h]) : c.a(this.s.m.f.o.e, i, j, true, aa.l()[this.h]); break; case 11: d = ByteBuffer.wrap(this.s.m.f.o.e, i, 4).order(ByteOrder.BIG_ENDIAN).getFloat(); break; case 12: d = ByteBuffer.wrap(this.s.m.f.o.e, i, 8).order(ByteOrder.BIG_ENDIAN).getDouble(); break; case 13: case 14: d = (j > 4) ? c.b(this.s.m.f.o.e, i, j, false, aa.l()[this.h]) : c.a(this.s.m.f.o.e, i, j, false, aa.l()[this.h]); break; case 15: d = ByteBuffer.wrap(this.s.m.f.o.e, i, 4).order(ByteOrder.LITTLE_ENDIAN).getFloat(); break; case 16: d = ByteBuffer.wrap(this.s.m.f.o.e, i, 8).order(ByteOrder.LITTLE_ENDIAN).getDouble(); break; default: throw new IllegalArgumentException("Channel data type " + aa.s[this.h] + " is not supported"); } } catch (IndexOutOfBoundsException indexOutOfBoundsException) { D.a(indexOutOfBoundsException.getMessage()); return Double.NaN; } switch (this.l.b) { case 0: return (this.l.d != null) ? (this.l.d[0] + this.l.d[1] * d) : d; case 11: return d; case 65535: return d; case 1: case 2: case 6: case 9: case 132: case 133: return d; } throw new IllegalArgumentException("Channel conversion type " + this.l.b + " is not supported"); } public int hashCode() { null = 7; return 37 * null + Objects.hashCode(a()); } public boolean equals(Object paramObject) { if (this == paramObject) return true; if (paramObject == null) return false; if (getClass() != paramObject.getClass()) return false; af af1 = (af)paramObject; return Objects.equals(a(), af1.a()); } public k g() { return (this.l.b == 11) ? new aj(this.s.m.f.o, this.l.d, this.l.e) : null; } public float h() { return Float.NaN; } public float i() { return Float.NaN; } public String j() { return null; } } /* Location: /home/rewrich/Downloads/TunerStudioMS/TunerStudioMS/!/ak/af.class * Java compiler version: 8 (52.0) * JD-Core Version: 1.1.3 */