package com.google.common.net; import com.google.common.base.Preconditions; import com.google.common.escape.UnicodeEscaper; /* loaded from: classes2.dex */ public final class PercentEscaper extends UnicodeEscaper { private static final char[] PLUS_SIGN = {'+'}; private static final char[] UPPER_HEX_DIGITS = "0123456789ABCDEF".toCharArray(); private final boolean plusForSpace; private final boolean[] safeOctets; public PercentEscaper(String str, boolean z) { Preconditions.checkNotNull(str); if (str.matches(".*[0-9A-Za-z].*")) { throw new IllegalArgumentException("Alphanumeric characters are always 'safe' and should not be explicitly specified"); } String concat = String.valueOf(str).concat("abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789"); if (z && concat.contains(" ")) { throw new IllegalArgumentException("plusForSpace cannot be specified when space is a 'safe' character"); } this.plusForSpace = z; this.safeOctets = createSafeOctets(concat); } private static boolean[] createSafeOctets(String str) { char[] charArray = str.toCharArray(); int i = -1; for (char c : charArray) { i = Math.max((int) c, i); } boolean[] zArr = new boolean[i + 1]; for (char c2 : charArray) { zArr[c2] = true; } return zArr; } @Override // com.google.common.escape.UnicodeEscaper public final int nextEscapeIndex(CharSequence charSequence, int i, int i2) { Preconditions.checkNotNull(charSequence); while (i < i2) { char charAt = charSequence.charAt(i); boolean[] zArr = this.safeOctets; if (charAt >= zArr.length || !zArr[charAt]) { break; } i++; } return i; } @Override // com.google.common.escape.UnicodeEscaper, com.google.common.escape.Escaper public final String escape(String str) { Preconditions.checkNotNull(str); int length = str.length(); for (int i = 0; i < length; i++) { char charAt = str.charAt(i); boolean[] zArr = this.safeOctets; if (charAt >= zArr.length || !zArr[charAt]) { return escapeSlow(str, i); } } return str; } @Override // com.google.common.escape.UnicodeEscaper public final char[] escape(int i) { boolean[] zArr = this.safeOctets; if (i < zArr.length && zArr[i]) { return null; } if (i == 32 && this.plusForSpace) { return PLUS_SIGN; } if (i <= 127) { char[] cArr = UPPER_HEX_DIGITS; return new char[]{'%', cArr[i >>> 4], cArr[i & 15]}; } if (i <= 2047) { char[] cArr2 = UPPER_HEX_DIGITS; char c = cArr2[i & 15]; char c2 = cArr2[8 | ((i >>> 4) & 3)]; return new char[]{'%', cArr2[(i >>> 10) | 12], cArr2[(i >>> 6) & 15], '%', c2, c}; } if (i <= 65535) { char[] cArr3 = UPPER_HEX_DIGITS; char c3 = cArr3[i & 15]; char c4 = cArr3[((i >>> 4) & 3) | 8]; char c5 = cArr3[(i >>> 6) & 15]; return new char[]{'%', 'E', cArr3[i >>> 12], '%', cArr3[((i >>> 10) & 3) | 8], c5, '%', c4, c3}; } if (i <= 1114111) { char[] cArr4 = UPPER_HEX_DIGITS; char c6 = cArr4[i & 15]; char c7 = cArr4[((i >>> 4) & 3) | 8]; char c8 = cArr4[(i >>> 6) & 15]; char c9 = cArr4[((i >>> 10) & 3) | 8]; char c10 = cArr4[(i >>> 12) & 15]; return new char[]{'%', 'F', cArr4[(i >>> 18) & 7], '%', cArr4[((i >>> 16) & 3) | 8], c10, '%', c9, c8, '%', c7, c6}; } StringBuilder sb = new StringBuilder(43); sb.append("Invalid unicode character value "); sb.append(i); throw new IllegalArgumentException(sb.toString()); } }