package kotlin.text; import C.w; import com.google.firebase.analytics.FirebaseAnalytics; import com.google.firebase.dynamiclinks.DynamicLink; import java.util.Arrays; import kotlin.ExperimentalStdlibApi; import kotlin.Metadata; import kotlin.SinceKotlin; import kotlin.ULong; import kotlin.collections.AbstractList; import kotlin.jvm.internal.Intrinsics; import kotlin.jvm.internal.SourceDebugExtension; import kotlin.ranges.ClosedRange; import kotlin.ranges.IntRange; import kotlin.ranges.RangesKt; import kotlin.ranges.RangesKt___RangesKt; import kotlin.text.HexFormat; @Metadata(d1 = {"\u0000L\n\u0000\n\u0002\u0010\u0015\n\u0000\n\u0002\u0010\u000e\n\u0002\b\u0002\n\u0002\u0010\t\n\u0002\b\u0002\n\u0002\u0010\b\n\u0002\b\u0012\n\u0002\u0010\u0002\n\u0002\b\u0003\n\u0002\u0010\u000b\n\u0002\b\u0003\n\u0002\u0010\u0005\n\u0000\n\u0002\u0018\u0002\n\u0000\n\u0002\u0010\u0012\n\u0002\b\u0004\n\u0002\u0010\n\n\u0002\b\u0004\u001a 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d2 = {"HEX_DIGITS_TO_DECIMAL", "", "LOWER_CASE_HEX_DIGITS", "", "UPPER_CASE_HEX_DIGITS", "charsPerSet", "", "charsPerElement", "elementsPerSet", "", "elementSeparatorLength", "formattedStringLength", "totalBytes", "bytesPerLine", "bytesPerGroup", "groupSeparatorLength", "byteSeparatorLength", "bytePrefixLength", "byteSuffixLength", "parsedByteArrayMaxSize", "stringLength", "wholeElementsPerSet", "checkContainsAt", "part", FirebaseAnalytics.Param.INDEX, "endIndex", "partName", "checkHexLength", "", "startIndex", "maxDigits", "requireMaxLength", "", "checkNewLineAt", "decimalFromHexDigitAt", "hexToByte", "", "format", "Lkotlin/text/HexFormat;", "hexToByteArray", "", "hexToInt", "hexToLong", "hexToLongImpl", "hexToShort", "", "toHexString", "toHexStringImpl", "bits", "kotlin-stdlib"}, k = 2, mv = {1, 9, 0}, xi = 48) @SourceDebugExtension({"SMAP\nHexExtensions.kt\nKotlin\n*S Kotlin\n*F\n+ 1 HexExtensions.kt\nkotlin/text/HexExtensionsKt\n+ 2 fake.kt\nkotlin/jvm/internal/FakeKt\n+ 3 _Strings.kt\nkotlin/text/StringsKt___StringsKt\n*L\n1#1,591:1\n1#2:592\n1183#3,3:593\n1183#3,3:596\n*S KotlinDebug\n*F\n+ 1 HexExtensions.kt\nkotlin/text/HexExtensionsKt\n*L\n13#1:593,3\n14#1:596,3\n*E\n"}) /* loaded from: classes3.dex */ public final class HexExtensionsKt { private static final int[] HEX_DIGITS_TO_DECIMAL; private static final String LOWER_CASE_HEX_DIGITS = "0123456789abcdef"; private static final String UPPER_CASE_HEX_DIGITS = "0123456789ABCDEF"; static { int[] iArr = new int[128]; int i = 0; for (int i4 = 0; i4 < 128; i4++) { iArr[i4] = -1; } int i5 = 0; int i6 = 0; while (i5 < LOWER_CASE_HEX_DIGITS.length()) { iArr[LOWER_CASE_HEX_DIGITS.charAt(i5)] = i6; i5++; i6++; } int i7 = 0; while (i < UPPER_CASE_HEX_DIGITS.length()) { iArr[UPPER_CASE_HEX_DIGITS.charAt(i)] = i7; i++; i7++; } HEX_DIGITS_TO_DECIMAL = iArr; } private static final long charsPerSet(long j4, int i, int i4) { if (i <= 0) { throw new IllegalArgumentException("Failed requirement."); } long j5 = i; return ((j5 - 1) * i4) + (j4 * j5); } private static final int checkContainsAt(String str, String str2, int i, int i4, String str3) { String str4; String str5; int i5; int length = str2.length() + i; if (length <= i4) { str4 = str; str5 = str2; i5 = i; if (StringsKt__StringsJVMKt.regionMatches(str4, i5, str5, 0, str2.length(), true)) { return length; } } else { str4 = str; str5 = str2; i5 = i; } StringBuilder sb = new StringBuilder("Expected "); sb.append(str3); sb.append(" \""); sb.append(str5); sb.append("\" at index "); sb.append(i5); sb.append(", but was "); int coerceAtMost = RangesKt.coerceAtMost(length, i4); Intrinsics.checkNotNull(str4, "null cannot be cast to non-null type java.lang.String"); String substring = str4.substring(i5, coerceAtMost); Intrinsics.checkNotNullExpressionValue(substring, "substring(...)"); sb.append(substring); throw new NumberFormatException(sb.toString()); } private static final void checkHexLength(String str, int i, int i4, int i5, boolean z3) { int i6 = i4 - i; if (z3) { if (i6 == i5) { return; } } else if (i6 <= i5) { return; } String str2 = z3 ? "exactly" : "at most"; Intrinsics.checkNotNull(str, "null cannot be cast to non-null type java.lang.String"); String substring = str.substring(i, i4); Intrinsics.checkNotNullExpressionValue(substring, "substring(...)"); throw new NumberFormatException("Expected " + str2 + ' ' + i5 + " hexadecimal digits at index " + i + ", but was " + substring + " of length " + i6); } private static final int checkNewLineAt(String str, int i, int i4) { if (str.charAt(i) == '\r') { int i5 = i + 1; return (i5 >= i4 || str.charAt(i5) != '\n') ? i5 : i + 2; } if (str.charAt(i) == '\n') { return i + 1; } StringBuilder t2 = w.t(i, "Expected a new line at index ", ", but was "); t2.append(str.charAt(i)); throw new NumberFormatException(t2.toString()); } private static final int decimalFromHexDigitAt(String str, int i) { int i4; char charAt = str.charAt(i); if (charAt <= 127 && (i4 = HEX_DIGITS_TO_DECIMAL[charAt]) >= 0) { return i4; } StringBuilder t2 = w.t(i, "Expected a hexadecimal digit at index ", ", but was "); t2.append(str.charAt(i)); throw new NumberFormatException(t2.toString()); } public static final int formattedStringLength(int i, int i4, int i5, int i6, int i7, int i8, int i9) { boolean intRangeContains; if (i <= 0) { throw new IllegalArgumentException("Failed requirement."); } int i10 = i - 1; int i11 = i10 / i4; int i12 = (i4 - 1) / i5; int i13 = i % i4; if (i13 != 0) { i4 = i13; } int i14 = (i12 * i11) + ((i4 - 1) / i5); long j4 = ((i8 + 2 + i9) * i) + (((i10 - i11) - i14) * i7) + (i14 * i6) + i11; intRangeContains = RangesKt___RangesKt.intRangeContains((ClosedRange) new IntRange(0, Integer.MAX_VALUE), j4); if (intRangeContains) { return (int) j4; } throw new IllegalArgumentException("The resulting string length is too big: " + ((Object) ULong.m336toStringimpl(ULong.m290constructorimpl(j4)))); } @SinceKotlin(version = "1.9") @ExperimentalStdlibApi public static final byte hexToByte(String str, HexFormat format) { Intrinsics.checkNotNullParameter(str, ""); Intrinsics.checkNotNullParameter(format, "format"); return hexToByte(str, 0, str.length(), format); } public static /* synthetic */ byte hexToByte$default(String str, HexFormat hexFormat, int i, Object obj) { if ((i & 1) != 0) { hexFormat = HexFormat.INSTANCE.getDefault(); } return hexToByte(str, hexFormat); } @SinceKotlin(version = "1.9") @ExperimentalStdlibApi public static final byte[] hexToByteArray(String str, HexFormat format) { Intrinsics.checkNotNullParameter(str, ""); Intrinsics.checkNotNullParameter(format, "format"); return hexToByteArray(str, 0, str.length(), format); } public static /* synthetic */ byte[] hexToByteArray$default(String str, HexFormat hexFormat, int i, Object obj) { if ((i & 1) != 0) { hexFormat = HexFormat.INSTANCE.getDefault(); } return hexToByteArray(str, hexFormat); } @SinceKotlin(version = "1.9") @ExperimentalStdlibApi public static final int hexToInt(String str, HexFormat format) { Intrinsics.checkNotNullParameter(str, ""); Intrinsics.checkNotNullParameter(format, "format"); return hexToInt(str, 0, str.length(), format); } public static /* synthetic */ int hexToInt$default(String str, HexFormat hexFormat, int i, Object obj) { if ((i & 1) != 0) { hexFormat = HexFormat.INSTANCE.getDefault(); } return hexToInt(str, hexFormat); } @SinceKotlin(version = "1.9") @ExperimentalStdlibApi public static final long hexToLong(String str, HexFormat format) { Intrinsics.checkNotNullParameter(str, ""); Intrinsics.checkNotNullParameter(format, "format"); return hexToLong(str, 0, str.length(), format); } public static /* synthetic */ long hexToLong$default(String str, HexFormat hexFormat, int i, Object obj) { if ((i & 1) != 0) { hexFormat = HexFormat.INSTANCE.getDefault(); } return hexToLong(str, hexFormat); } @ExperimentalStdlibApi private static final long hexToLongImpl(String str, int i, int i4, HexFormat hexFormat, int i5) { AbstractList.INSTANCE.checkBoundsIndexes$kotlin_stdlib(i, i4, str.length()); String prefix = hexFormat.getNumber().getPrefix(); String suffix = hexFormat.getNumber().getSuffix(); if (suffix.length() + prefix.length() < i4 - i) { int checkContainsAt = checkContainsAt(str, prefix, i, i4, "prefix"); int length = i4 - suffix.length(); checkContainsAt(str, suffix, length, i4, DynamicLink.Builder.KEY_SUFFIX); checkHexLength(str, checkContainsAt, length, i5, false); long j4 = 0; while (checkContainsAt < length) { j4 = (j4 << 4) | decimalFromHexDigitAt(str, checkContainsAt); checkContainsAt++; } return j4; } StringBuilder sb = new StringBuilder("Expected a hexadecimal number with prefix \""); sb.append(prefix); sb.append("\" and suffix \""); sb.append(suffix); sb.append("\", but was "); Intrinsics.checkNotNull(str, "null cannot be cast to non-null type java.lang.String"); String substring = str.substring(i, i4); Intrinsics.checkNotNullExpressionValue(substring, "substring(...)"); sb.append(substring); throw new NumberFormatException(sb.toString()); } public static /* synthetic */ long hexToLongImpl$default(String str, int i, int i4, HexFormat hexFormat, int i5, int i6, Object obj) { if ((i6 & 1) != 0) { i = 0; } if ((i6 & 2) != 0) { i4 = str.length(); } return hexToLongImpl(str, i, i4, hexFormat, i5); } @SinceKotlin(version = "1.9") @ExperimentalStdlibApi public static final short hexToShort(String str, HexFormat format) { Intrinsics.checkNotNullParameter(str, ""); Intrinsics.checkNotNullParameter(format, "format"); return hexToShort(str, 0, str.length(), format); } public static /* synthetic */ short hexToShort$default(String str, HexFormat hexFormat, int i, Object obj) { if ((i & 1) != 0) { hexFormat = HexFormat.INSTANCE.getDefault(); } return hexToShort(str, hexFormat); } public static final int parsedByteArrayMaxSize(int i, int i4, int i5, int i6, int i7, int i8, int i9) { long charsPerSet; if (i <= 0) { throw new IllegalArgumentException("Failed requirement."); } long j4 = i8 + 2 + i9; long charsPerSet2 = charsPerSet(j4, i5, i7); if (i4 <= i5) { charsPerSet = charsPerSet(j4, i4, i7); } else { charsPerSet = charsPerSet(charsPerSet2, i4 / i5, i6); int i10 = i4 % i5; if (i10 != 0) { charsPerSet = charsPerSet + i6 + charsPerSet(j4, i10, i7); } } long j5 = i; long wholeElementsPerSet = wholeElementsPerSet(j5, charsPerSet, 1); long j6 = j5 - ((charsPerSet + 1) * wholeElementsPerSet); long wholeElementsPerSet2 = wholeElementsPerSet(j6, charsPerSet2, i6); long j7 = j6 - ((charsPerSet2 + i6) * wholeElementsPerSet2); long wholeElementsPerSet3 = wholeElementsPerSet(j7, j4, i7); return (int) ((wholeElementsPerSet2 * i5) + (wholeElementsPerSet * i4) + wholeElementsPerSet3 + (j7 - ((j4 + ((long) i7)) * wholeElementsPerSet3) > 0 ? 1 : 0)); } @SinceKotlin(version = "1.9") @ExperimentalStdlibApi public static final String toHexString(byte[] bArr, HexFormat format) { Intrinsics.checkNotNullParameter(bArr, ""); Intrinsics.checkNotNullParameter(format, "format"); return toHexString(bArr, 0, bArr.length, format); } public static /* synthetic */ String toHexString$default(byte[] bArr, HexFormat hexFormat, int i, Object obj) { if ((i & 1) != 0) { hexFormat = HexFormat.INSTANCE.getDefault(); } return toHexString(bArr, hexFormat); } @ExperimentalStdlibApi private static final String toHexStringImpl(long j4, HexFormat hexFormat, int i) { if ((i & 3) != 0) { throw new IllegalArgumentException("Failed requirement."); } String str = hexFormat.getUpperCase() ? UPPER_CASE_HEX_DIGITS : LOWER_CASE_HEX_DIGITS; String prefix = hexFormat.getNumber().getPrefix(); String suffix = hexFormat.getNumber().getSuffix(); int length = suffix.length() + prefix.length() + (i >> 2); boolean removeLeadingZeros = hexFormat.getNumber().getRemoveLeadingZeros(); StringBuilder sb = new StringBuilder(length); sb.append(prefix); while (i > 0) { i -= 4; int i4 = (int) ((j4 >> i) & 15); removeLeadingZeros = removeLeadingZeros && i4 == 0 && i > 0; if (!removeLeadingZeros) { sb.append(str.charAt(i4)); } } sb.append(suffix); String sb2 = sb.toString(); Intrinsics.checkNotNullExpressionValue(sb2, "toString(...)"); return sb2; } private static final long wholeElementsPerSet(long j4, long j5, int i) { if (j4 <= 0 || j5 <= 0) { return 0L; } long j6 = i; return (j4 + j6) / (j5 + j6); } @ExperimentalStdlibApi private static final byte hexToByte(String str, int i, int i4, HexFormat hexFormat) { return (byte) hexToLongImpl(str, i, i4, hexFormat, 2); } public static /* synthetic */ byte hexToByte$default(String str, int i, int i4, HexFormat hexFormat, int i5, Object obj) { if ((i5 & 1) != 0) { i = 0; } if ((i5 & 2) != 0) { i4 = str.length(); } if ((i5 & 4) != 0) { hexFormat = HexFormat.INSTANCE.getDefault(); } return hexToByte(str, i, i4, hexFormat); } @ExperimentalStdlibApi private static final byte[] hexToByteArray(String str, int i, int i4, HexFormat hexFormat) { int i5 = i; AbstractList.INSTANCE.checkBoundsIndexes$kotlin_stdlib(i5, i4, str.length()); int i6 = 0; if (i5 == i4) { return new byte[0]; } HexFormat.BytesHexFormat bytes = hexFormat.getBytes(); int bytesPerLine = bytes.getBytesPerLine(); int bytesPerGroup = bytes.getBytesPerGroup(); String bytePrefix = bytes.getBytePrefix(); String byteSuffix = bytes.getByteSuffix(); String byteSeparator = bytes.getByteSeparator(); String groupSeparator = bytes.getGroupSeparator(); int parsedByteArrayMaxSize = parsedByteArrayMaxSize(i4 - i5, bytesPerLine, bytesPerGroup, groupSeparator.length(), byteSeparator.length(), bytePrefix.length(), byteSuffix.length()); byte[] bArr = new byte[parsedByteArrayMaxSize]; int i7 = 0; int i8 = 0; int i9 = 0; while (i5 < i4) { if (i8 == bytesPerLine) { i5 = checkNewLineAt(str, i5, i4); i8 = i6; i9 = i8; } else if (i9 == bytesPerGroup) { i5 = checkContainsAt(str, groupSeparator, i5, i4, "group separator"); i9 = i6; } else if (i9 != 0) { i5 = checkContainsAt(str, byteSeparator, i5, i4, "byte separator"); } i8++; i9++; int checkContainsAt = checkContainsAt(str, bytePrefix, i5, i4, "byte prefix"); checkHexLength(str, checkContainsAt, RangesKt.coerceAtMost(checkContainsAt + 2, i4), 2, true); bArr[i7] = (byte) ((decimalFromHexDigitAt(str, checkContainsAt) << 4) | decimalFromHexDigitAt(str, checkContainsAt + 1)); i5 = checkContainsAt(str, byteSuffix, checkContainsAt + 2, i4, "byte suffix"); groupSeparator = groupSeparator; i7++; i6 = 0; } if (i7 == parsedByteArrayMaxSize) { return bArr; } byte[] copyOf = Arrays.copyOf(bArr, i7); Intrinsics.checkNotNullExpressionValue(copyOf, "copyOf(...)"); return copyOf; } public static /* synthetic */ byte[] hexToByteArray$default(String str, int i, int i4, HexFormat hexFormat, int i5, Object obj) { if ((i5 & 1) != 0) { i = 0; } if ((i5 & 2) != 0) { i4 = str.length(); } if ((i5 & 4) != 0) { hexFormat = HexFormat.INSTANCE.getDefault(); } return hexToByteArray(str, i, i4, hexFormat); } @ExperimentalStdlibApi private static final int hexToInt(String str, int i, int i4, HexFormat hexFormat) { return (int) hexToLongImpl(str, i, i4, hexFormat, 8); } public static /* synthetic */ int hexToInt$default(String str, int i, int i4, HexFormat hexFormat, int i5, Object obj) { if ((i5 & 1) != 0) { i = 0; } if ((i5 & 2) != 0) { i4 = str.length(); } if ((i5 & 4) != 0) { hexFormat = HexFormat.INSTANCE.getDefault(); } return hexToInt(str, i, i4, hexFormat); } @ExperimentalStdlibApi private static final long hexToLong(String str, int i, int i4, HexFormat hexFormat) { return hexToLongImpl(str, i, i4, hexFormat, 16); } public static /* synthetic */ long hexToLong$default(String str, int i, int i4, HexFormat hexFormat, int i5, Object obj) { if ((i5 & 1) != 0) { i = 0; } if ((i5 & 2) != 0) { i4 = str.length(); } if ((i5 & 4) != 0) { hexFormat = HexFormat.INSTANCE.getDefault(); } return hexToLong(str, i, i4, hexFormat); } @ExperimentalStdlibApi private static final short hexToShort(String str, int i, int i4, HexFormat hexFormat) { return (short) hexToLongImpl(str, i, i4, hexFormat, 4); } public static /* synthetic */ short hexToShort$default(String str, int i, int i4, HexFormat hexFormat, int i5, Object obj) { if ((i5 & 1) != 0) { i = 0; } if ((i5 & 2) != 0) { i4 = str.length(); } if ((i5 & 4) != 0) { hexFormat = HexFormat.INSTANCE.getDefault(); } return hexToShort(str, i, i4, hexFormat); } /* JADX WARN: Removed duplicated region for block: B:15:0x0079 */ /* JADX WARN: Removed duplicated region for block: B:18:0x007c A[SYNTHETIC] */ @kotlin.SinceKotlin(version = "1.9") @kotlin.ExperimentalStdlibApi /* Code decompiled incorrectly, please refer to instructions dump. To view partially-correct add '--show-bad-code' argument */ public static final java.lang.String toHexString(byte[] r16, int r17, int r18, kotlin.text.HexFormat r19) { /* r0 = r16 r1 = r17 r2 = r18 java.lang.String r3 = "" kotlin.jvm.internal.Intrinsics.checkNotNullParameter(r0, r3) java.lang.String r3 = "format" r4 = r19 kotlin.jvm.internal.Intrinsics.checkNotNullParameter(r4, r3) kotlin.collections.AbstractList$Companion r3 = kotlin.collections.AbstractList.INSTANCE int r5 = r0.length r3.checkBoundsIndexes$kotlin_stdlib(r1, r2, r5) if (r1 != r2) goto L1d java.lang.String r0 = "" return r0 L1d: boolean r3 = r4.getUpperCase() if (r3 == 0) goto L26 java.lang.String r3 = "0123456789ABCDEF" goto L28 L26: java.lang.String r3 = "0123456789abcdef" L28: kotlin.text.HexFormat$BytesHexFormat r4 = r4.getBytes() int r6 = r4.getBytesPerLine() int r7 = r4.getBytesPerGroup() java.lang.String r12 = r4.getBytePrefix() java.lang.String r13 = r4.getByteSuffix() java.lang.String r14 = r4.getByteSeparator() java.lang.String r4 = r4.getGroupSeparator() int r5 = r2 - r1 int r8 = r4.length() int r9 = r14.length() int r10 = r12.length() int r11 = r13.length() int r5 = formattedStringLength(r5, r6, r7, r8, r9, r10, r11) java.lang.StringBuilder r8 = new java.lang.StringBuilder r8.(r5) r10 = 0 r11 = 0 L61: if (r1 >= r2) goto L9b r15 = r0[r1] r9 = r15 & 255(0xff, float:3.57E-43) if (r10 != r6) goto L71 r10 = 10 r8.append(r10) r10 = 0 L6f: r11 = 0 goto L77 L71: if (r11 != r7) goto L77 r8.append(r4) goto L6f L77: if (r11 == 0) goto L7c r8.append(r14) L7c: r8.append(r12) int r9 = r9 >> 4 char r9 = r3.charAt(r9) r8.append(r9) r9 = r15 & 15 char r9 = r3.charAt(r9) r8.append(r9) r8.append(r13) int r11 = r11 + 1 int r10 = r10 + 1 int r1 = r1 + 1 goto L61 L9b: int r0 = r8.length() if (r5 != r0) goto Lab java.lang.String r0 = r8.toString() java.lang.String r1 = "toString(...)" kotlin.jvm.internal.Intrinsics.checkNotNullExpressionValue(r0, r1) return r0 Lab: java.lang.IllegalStateException r0 = new java.lang.IllegalStateException java.lang.String r1 = "Check failed." r0.(r1) throw r0 */ throw new UnsupportedOperationException("Method not decompiled: kotlin.text.HexExtensionsKt.toHexString(byte[], int, int, kotlin.text.HexFormat):java.lang.String"); } public static /* synthetic */ String toHexString$default(byte[] bArr, int i, int i4, HexFormat hexFormat, int i5, Object obj) { if ((i5 & 1) != 0) { i = 0; } if ((i5 & 2) != 0) { i4 = bArr.length; } if ((i5 & 4) != 0) { hexFormat = HexFormat.INSTANCE.getDefault(); } return toHexString(bArr, i, i4, hexFormat); } public static /* synthetic */ String toHexString$default(byte b4, HexFormat hexFormat, int i, Object obj) { if ((i & 1) != 0) { hexFormat = HexFormat.INSTANCE.getDefault(); } return toHexString(b4, hexFormat); } public static /* synthetic */ String toHexString$default(short s4, HexFormat hexFormat, int i, Object obj) { if ((i & 1) != 0) { hexFormat = HexFormat.INSTANCE.getDefault(); } return toHexString(s4, hexFormat); } public static /* synthetic */ String toHexString$default(int i, HexFormat hexFormat, int i4, Object obj) { if ((i4 & 1) != 0) { hexFormat = HexFormat.INSTANCE.getDefault(); } return toHexString(i, hexFormat); } public static /* synthetic */ String toHexString$default(long j4, HexFormat hexFormat, int i, Object obj) { if ((i & 1) != 0) { hexFormat = HexFormat.INSTANCE.getDefault(); } return toHexString(j4, hexFormat); } @SinceKotlin(version = "1.9") @ExperimentalStdlibApi public static final String toHexString(byte b4, HexFormat format) { Intrinsics.checkNotNullParameter(format, "format"); return toHexStringImpl(b4, format, 8); } @SinceKotlin(version = "1.9") @ExperimentalStdlibApi public static final String toHexString(short s4, HexFormat format) { Intrinsics.checkNotNullParameter(format, "format"); return toHexStringImpl(s4, format, 16); } @SinceKotlin(version = "1.9") @ExperimentalStdlibApi public static final String toHexString(int i, HexFormat format) { Intrinsics.checkNotNullParameter(format, "format"); return toHexStringImpl(i, format, 32); } @SinceKotlin(version = "1.9") @ExperimentalStdlibApi public static final String toHexString(long j4, HexFormat format) { Intrinsics.checkNotNullParameter(format, "format"); return toHexStringImpl(j4, format, 64); } }