package com.google.android.gms.internal.measurement; import com.ubtrobot.jimu.robotapi.PeripheralType; import java.nio.ByteBuffer; /* loaded from: classes.dex */ final class zzxq extends zzxn { zzxq() { } /* JADX WARN: Code restructure failed: missing block: B:55:0x00b9, code lost: return -1; */ /* JADX WARN: Code restructure failed: missing block: B:69:0x0061, code lost: return -1; */ @Override // com.google.android.gms.internal.measurement.zzxn /* Code decompiled incorrectly, please refer to instructions dump. To view partially-correct code enable 'Show inconsistent code' option in preferences */ final int a(int r16, byte[] r17, int r18, int r19) { /* Method dump skipped, instructions count: 220 To view this dump change 'Code comments level' option to 'DEBUG' */ throw new UnsupportedOperationException("Method not decompiled: com.google.android.gms.internal.measurement.zzxq.a(int, byte[], int, int):int"); } @Override // com.google.android.gms.internal.measurement.zzxn final String b(byte[] bArr, int i, int i2) throws zzuv { boolean a; boolean a2; boolean b; boolean c; boolean a3; if ((i | i2 | ((bArr.length - i) - i2)) < 0) { throw new ArrayIndexOutOfBoundsException(String.format("buffer length=%d, index=%d, size=%d", Integer.valueOf(bArr.length), Integer.valueOf(i), Integer.valueOf(i2))); } int i3 = i + i2; char[] cArr = new char[i2]; int i4 = 0; while (i < i3) { byte a4 = zzxj.a(bArr, i); a3 = zzxm.a(a4); if (!a3) { break; } i++; zzxm.a(a4, cArr, i4); i4++; } int i5 = i4; while (i < i3) { int i6 = i + 1; byte a5 = zzxj.a(bArr, i); a = zzxm.a(a5); if (a) { int i7 = i5 + 1; zzxm.a(a5, cArr, i5); while (i6 < i3) { byte a6 = zzxj.a(bArr, i6); a2 = zzxm.a(a6); if (!a2) { break; } i6++; zzxm.a(a6, cArr, i7); i7++; } i = i6; i5 = i7; } else { b = zzxm.b(a5); if (!b) { c = zzxm.c(a5); if (c) { if (i6 >= i3 - 1) { throw zzuv.zzwx(); } int i8 = i6 + 1; zzxm.a(a5, zzxj.a(bArr, i6), zzxj.a(bArr, i8), cArr, i5); i = i8 + 1; i5++; } else { if (i6 >= i3 - 2) { throw zzuv.zzwx(); } int i9 = i6 + 1; byte a7 = zzxj.a(bArr, i6); int i10 = i9 + 1; zzxm.a(a5, a7, zzxj.a(bArr, i9), zzxj.a(bArr, i10), cArr, i5); i = i10 + 1; i5 = i5 + 1 + 1; } } else { if (i6 >= i3) { throw zzuv.zzwx(); } zzxm.a(a5, zzxj.a(bArr, i6), cArr, i5); i = i6 + 1; i5++; } } } return new String(cArr, 0, i5); } @Override // com.google.android.gms.internal.measurement.zzxn final int a(CharSequence charSequence, byte[] bArr, int i, int i2) { char c; long j; long j2; long j3; int i3; char charAt; long j4 = i; long j5 = i2 + j4; int length = charSequence.length(); if (length > i2 || bArr.length - i2 < i) { char charAt2 = charSequence.charAt(length - 1); StringBuilder sb = new StringBuilder(37); sb.append("Failed writing "); sb.append(charAt2); sb.append(" at index "); sb.append(i + i2); throw new ArrayIndexOutOfBoundsException(sb.toString()); } int i4 = 0; while (true) { c = 128; j = 1; if (i4 >= length || (charAt = charSequence.charAt(i4)) >= 128) { break; } zzxj.a(bArr, j4, (byte) charAt); i4++; j4 = 1 + j4; } if (i4 == length) { return (int) j4; } while (i4 < length) { char charAt3 = charSequence.charAt(i4); if (charAt3 >= c || j4 >= j5) { if (charAt3 < 2048 && j4 <= j5 - 2) { long j6 = j4 + j; zzxj.a(bArr, j4, (byte) ((charAt3 >>> 6) | 960)); zzxj.a(bArr, j6, (byte) ((charAt3 & '?') | PeripheralType.SERVO)); j2 = j6 + j; j3 = j; } else { if ((charAt3 >= 55296 && 57343 >= charAt3) || j4 > j5 - 3) { if (j4 <= j5 - 4) { int i5 = i4 + 1; if (i5 != length) { char charAt4 = charSequence.charAt(i5); if (Character.isSurrogatePair(charAt3, charAt4)) { int codePoint = Character.toCodePoint(charAt3, charAt4); long j7 = j4 + 1; zzxj.a(bArr, j4, (byte) ((codePoint >>> 18) | 240)); long j8 = j7 + 1; zzxj.a(bArr, j7, (byte) (((codePoint >>> 12) & 63) | PeripheralType.SERVO)); long j9 = j8 + 1; zzxj.a(bArr, j8, (byte) (((codePoint >>> 6) & 63) | PeripheralType.SERVO)); j3 = 1; j2 = j9 + 1; zzxj.a(bArr, j9, (byte) ((codePoint & 63) | PeripheralType.SERVO)); i4 = i5; } else { i4 = i5; } } throw new zzxp(i4 - 1, length); } if (55296 <= charAt3 && charAt3 <= 57343 && ((i3 = i4 + 1) == length || !Character.isSurrogatePair(charAt3, charSequence.charAt(i3)))) { throw new zzxp(i4, length); } StringBuilder sb2 = new StringBuilder(46); sb2.append("Failed writing "); sb2.append(charAt3); sb2.append(" at index "); sb2.append(j4); throw new ArrayIndexOutOfBoundsException(sb2.toString()); } long j10 = j4 + j; zzxj.a(bArr, j4, (byte) ((charAt3 >>> '\f') | 480)); long j11 = j10 + j; zzxj.a(bArr, j10, (byte) (((charAt3 >>> 6) & 63) | PeripheralType.SERVO)); zzxj.a(bArr, j11, (byte) ((charAt3 & '?') | PeripheralType.SERVO)); j2 = j11 + 1; j3 = 1; } i4++; c = 128; long j12 = j3; j4 = j2; j = j12; } else { long j13 = j4 + j; zzxj.a(bArr, j4, (byte) charAt3); j3 = j; j2 = j13; } i4++; c = 128; long j122 = j3; j4 = j2; j = j122; } return (int) j4; } @Override // com.google.android.gms.internal.measurement.zzxn final void a(CharSequence charSequence, ByteBuffer byteBuffer) { char c; long j; int i; char charAt; long a = zzxj.a(byteBuffer); long position = byteBuffer.position() + a; long limit = byteBuffer.limit() + a; int length = charSequence.length(); if (length > limit - position) { char charAt2 = charSequence.charAt(length - 1); int limit2 = byteBuffer.limit(); StringBuilder sb = new StringBuilder(37); sb.append("Failed writing "); sb.append(charAt2); sb.append(" at index "); sb.append(limit2); throw new ArrayIndexOutOfBoundsException(sb.toString()); } int i2 = 0; while (true) { c = 128; if (i2 >= length || (charAt = charSequence.charAt(i2)) >= 128) { break; } zzxj.a(position, (byte) charAt); i2++; position++; } if (i2 == length) { byteBuffer.position((int) (position - a)); return; } while (i2 < length) { char charAt3 = charSequence.charAt(i2); if (charAt3 < c && position < limit) { zzxj.a(position, (byte) charAt3); position++; j = a; } else if (charAt3 >= 2048 || position > limit - 2) { j = a; if ((charAt3 >= 55296 && 57343 >= charAt3) || position > limit - 3) { if (position <= limit - 4) { int i3 = i2 + 1; if (i3 != length) { char charAt4 = charSequence.charAt(i3); if (Character.isSurrogatePair(charAt3, charAt4)) { int codePoint = Character.toCodePoint(charAt3, charAt4); long j2 = position + 1; zzxj.a(position, (byte) ((codePoint >>> 18) | 240)); long j3 = j2 + 1; zzxj.a(j2, (byte) (((codePoint >>> 12) & 63) | PeripheralType.SERVO)); long j4 = j3 + 1; zzxj.a(j3, (byte) (((codePoint >>> 6) & 63) | PeripheralType.SERVO)); long j5 = j4 + 1; zzxj.a(j4, (byte) ((codePoint & 63) | PeripheralType.SERVO)); i2 = i3; position = j5; } } else { i3 = i2; } throw new zzxp(i3 - 1, length); } if (55296 <= charAt3 && charAt3 <= 57343 && ((i = i2 + 1) == length || !Character.isSurrogatePair(charAt3, charSequence.charAt(i)))) { throw new zzxp(i2, length); } StringBuilder sb2 = new StringBuilder(46); sb2.append("Failed writing "); sb2.append(charAt3); sb2.append(" at index "); sb2.append(position); throw new ArrayIndexOutOfBoundsException(sb2.toString()); } long j6 = position + 1; zzxj.a(position, (byte) ((charAt3 >>> '\f') | 480)); long j7 = j6 + 1; zzxj.a(j6, (byte) (((charAt3 >>> 6) & 63) | PeripheralType.SERVO)); zzxj.a(j7, (byte) ((charAt3 & '?') | PeripheralType.SERVO)); position = j7 + 1; } else { j = a; long j8 = position + 1; zzxj.a(position, (byte) ((charAt3 >>> 6) | 960)); zzxj.a(j8, (byte) ((charAt3 & '?') | PeripheralType.SERVO)); position = j8 + 1; } i2++; a = j; c = 128; } byteBuffer.position((int) (position - a)); } private static int a(byte[] bArr, int i, long j, int i2) { int a; int a2; int a3; if (i2 == 0) { a = zzxl.a(i); return a; } if (i2 == 1) { a2 = zzxl.a(i, zzxj.a(bArr, j)); return a2; } if (i2 == 2) { a3 = zzxl.a(i, zzxj.a(bArr, j), zzxj.a(bArr, j + 1)); return a3; } throw new AssertionError(); } }