コード例 #1
0
 public void InsertTest3()
 {
     using ValueStringBuilder sb = ValueStringBuilder.CreateFrom("llo ".AsSpan());
     sb.Insert(0, "He".AsSpan());
     sb.Insert(6, "World".AsSpan());
     Assert.AreEqual(11, sb.Length);
     Assert.AreEqual("Hello World", sb.ToString());
 }
コード例 #2
0
        public void Insert_IntCharInt_MatchesStringBuilder()
        {
            var sb   = new StringBuilder();
            var vsb  = new ValueStringBuilder();
            var rand = new Random(42);

            for (int i = 1; i <= 100; i++)
            {
                int index = rand.Next(sb.Length);
                sb.Insert(index, new string((char)i, 1), i);
                vsb.Insert(index, (char)i, i);
            }

            Assert.Equal(sb.Length, vsb.Length);
            Assert.Equal(sb.ToString(), vsb.ToString());
        }
コード例 #3
0
        public unsafe string Translate(int clilocNum, string arg = "", bool capitalize = false)
        {
            string baseCliloc = GetString(clilocNum);

            if (baseCliloc == null)
            {
                return(null);
            }

            if (arg == null)
            {
                arg = "";
            }

            var roChars = arg.AsSpan();


            // get count of valid args
            int i         = 0;
            int totalArgs = 0;
            int trueStart = -1;

            for (; i < roChars.Length; ++i)
            {
                if (roChars[i] != '\t')
                {
                    if (trueStart == -1)
                    {
                        trueStart = i;
                    }
                }
                else if (trueStart >= 0)
                {
                    ++totalArgs;
                }
            }

            if (trueStart == -1)
            {
                trueStart = 0;
            }

            // store index locations
            Point *locations = stackalloc Point[++totalArgs];

            i = trueStart;
            for (int j = 0; i < roChars.Length; ++i)
            {
                if (roChars[i] == '\t')
                {
                    locations[j].X = trueStart;
                    locations[j].Y = i;

                    trueStart = i + 1;

                    ++j;
                }
            }

            bool has_arguments = totalArgs - 1 > 0;

            locations[totalArgs - 1].X = trueStart;
            locations[totalArgs - 1].Y = i;

            ValueStringBuilder sb = new ValueStringBuilder(baseCliloc.AsSpan());
            {
                int index, pos = 0;

                while (pos < sb.Length)
                {
                    int poss = pos;
                    pos = sb.RawChars.Slice(pos, sb.Length - pos).IndexOf('~');

                    if (pos == -1)
                    {
                        break;
                    }

                    pos += poss;

                    int pos2 = sb.RawChars.Slice(pos + 1, sb.Length - (pos + 1)).IndexOf('~');

                    if (pos2 == -1) //non valid arg
                    {
                        break;
                    }

                    pos2 += pos + 1;

                    index = sb.RawChars.Slice(pos + 1, pos2 - (pos + 1)).IndexOf('_');

                    if (index == -1)
                    {
                        //there is no underscore inside the bounds, so we use all the part to get the number of argument
                        index = pos2;
                    }
                    else
                    {
                        index += pos + 1;
                    }

                    int start = pos + 1;
                    int max   = index - start;
                    int count = 0;

                    for (; count < max; count++)
                    {
                        if (!char.IsNumber(sb.RawChars[start + count]))
                        {
                            break;
                        }
                    }

                    if (!int.TryParse(sb.RawChars.Slice(start, count).ToString(), out index))
                    {
                        return($"MegaCliloc: error for {clilocNum}");
                    }

                    --index;

                    var a = index < 0 || index >= totalArgs?string.Empty.AsSpan() : arg.AsSpan().Slice(locations[index].X, locations[index].Y - locations[index].X);

                    if (a.Length > 1)
                    {
                        if (a[0] == '#')
                        {
                            if (int.TryParse(a.Slice(1).ToString(), out int id1))
                            {
                                var ss = GetString(id1);

                                if (string.IsNullOrEmpty(ss))
                                {
                                    a = string.Empty.AsSpan();
                                }
                                else
                                {
                                    a = ss.AsSpan();
                                }
                            }
                        }
                        else if (has_arguments && int.TryParse(a.ToString(), out int clil))
                        {
                            if (_entries.TryGetValue(clil, out string value) && !string.IsNullOrEmpty(value))
                            {
                                a = value.AsSpan();
                            }
                        }
                    }

                    sb.Remove(pos, pos2 - pos + 1);
                    sb.Insert(pos, a);

                    if (index >= 0 && index < totalArgs)
                    {
                        pos += a.Length /*locations[index].Y - locations[index].X*/;
                    }
                }

                baseCliloc = sb.ToString();

                sb.Dispose();

                if (capitalize)
                {
                    baseCliloc = StringHelper.CapitalizeAllWords(baseCliloc);
                }

                return(baseCliloc);
            }
        }
コード例 #4
0
        private static string FormatBigIntegerToHex(bool targetSpan, BigInteger value, char format, int digits, NumberFormatInfo info, Span <char> destination, out int charsWritten, out bool spanSuccess)
        {
            Debug.Assert(format == 'x' || format == 'X');

            // Get the bytes that make up the BigInteger.
            byte[]      arrayToReturnToPool = null;
            Span <byte> bits = stackalloc byte[64]; // arbitrary threshold

            if (!value.TryWriteOrCountBytes(bits, out int bytesWrittenOrNeeded))
            {
                bits = arrayToReturnToPool = ArrayPool <byte> .Shared.Rent(bytesWrittenOrNeeded);

                bool success = value.TryWriteBytes(bits, out bytesWrittenOrNeeded);
                Debug.Assert(success);
            }
            bits = bits.Slice(0, bytesWrittenOrNeeded);

            Span <char> stackSpace = stackalloc char[128]; // each byte is typically two chars
            var         sb         = new ValueStringBuilder(stackSpace);

            int cur = bits.Length - 1;

            if (cur > -1)
            {
                // [FF..F8] drop the high F as the two's complement negative number remains clear
                // [F7..08] retain the high bits as the two's complement number is wrong without it
                // [07..00] drop the high 0 as the two's complement positive number remains clear
                bool clearHighF = false;
                byte head       = bits[cur];

                if (head > 0xF7)
                {
                    head      -= 0xF0;
                    clearHighF = true;
                }

                if (head < 0x08 || clearHighF)
                {
                    // {0xF8-0xFF} print as {8-F}
                    // {0x00-0x07} print as {0-7}
                    sb.Append(head < 10 ?
                              (char)(head + '0') :
                              format == 'X' ? (char)((head & 0xF) - 10 + 'A') : (char)((head & 0xF) - 10 + 'a'));
                    cur--;
                }
            }

            if (cur > -1)
            {
                Span <char> chars     = sb.AppendSpan((cur + 1) * 2);
                int         charsPos  = 0;
                string      hexValues = format == 'x' ? "0123456789abcdef" : "0123456789ABCDEF";
                while (cur > -1)
                {
                    byte b = bits[cur--];
                    chars[charsPos++] = hexValues[b >> 4];
                    chars[charsPos++] = hexValues[b & 0xF];
                }
            }

            if (digits > sb.Length)
            {
                // Insert leading zeros, e.g. user specified "X5" so we create "0ABCD" instead of "ABCD"
                sb.Insert(
                    0,
                    value._sign >= 0 ? '0' : (format == 'x') ? 'f' : 'F',
                    digits - sb.Length);
            }

            if (arrayToReturnToPool != null)
            {
                ArrayPool <byte> .Shared.Return(arrayToReturnToPool);
            }

            if (targetSpan)
            {
                spanSuccess = sb.TryCopyTo(destination, out charsWritten);
                return(null);
            }
            else
            {
                charsWritten = 0;
                spanSuccess  = false;
                return(sb.ToString());
            }
        }
コード例 #5
0
        private static string FormatBigIntegerToHex(BigInteger value, char format, int digits, NumberFormatInfo info)
        {
            Debug.Assert(format == 'x' || format == 'X');

            // Get the bytes that make up the BigInteger.
            Span <byte> bits = stackalloc byte[64]; // arbitrary limit to switch from stack to heap

            bits = value.TryWriteBytes(bits, out int bytesWritten) ?
                   bits.Slice(0, bytesWritten) :
                   value.ToByteArray();

            Span <char> stackSpace = stackalloc char[128]; // each byte is typically two chars
            var         sb         = new ValueStringBuilder(stackSpace);
            int         cur        = bits.Length - 1;

            if (cur > -1)
            {
                // [FF..F8] drop the high F as the two's complement negative number remains clear
                // [F7..08] retain the high bits as the two's complement number is wrong without it
                // [07..00] drop the high 0 as the two's complement positive number remains clear
                bool clearHighF = false;
                byte head       = bits[cur];

                if (head > 0xF7)
                {
                    head      -= 0xF0;
                    clearHighF = true;
                }

                if (head < 0x08 || clearHighF)
                {
                    // {0xF8-0xFF} print as {8-F}
                    // {0x00-0x07} print as {0-7}
                    sb.Append(head < 10 ?
                              (char)(head + '0') :
                              format == 'X' ? (char)((head & 0xF) - 10 + 'A') : (char)((head & 0xF) - 10 + 'a'));
                    cur--;
                }
            }

            if (cur > -1)
            {
                Span <char> chars     = sb.AppendSpan((cur + 1) * 2);
                int         charsPos  = 0;
                string      hexValues = format == 'x' ? "0123456789abcdef" : "0123456789ABCDEF";
                while (cur > -1)
                {
                    byte b = bits[cur--];
                    chars[charsPos++] = hexValues[b >> 4];
                    chars[charsPos++] = hexValues[b & 0xF];
                }
            }

            if (digits > sb.Length)
            {
                // Insert leading zeros, e.g. user specified "X5" so we create "0ABCD" instead of "ABCD"
                sb.Insert(
                    0,
                    value._sign >= 0 ? '0' : (format == 'x') ? 'f' : 'F',
                    digits - sb.Length);
            }

            return(sb.ToString());
        }