public CompressedBitmap ToBitmap()
{
var writer = new CompressedBitmapWriter();
int p = 0;
var bits = this.Bits;
while (p < bits.Length)
{
writer.Write(GetLiteralAt(bits, p));
p += 31;
}
return(writer.GetBitmap());
}
public void TestFoo()
{
var rnd = new Random();
Func <Slice, Slice> compress = (input) =>
{
Console.WriteLine("IN [{0}] => {1}", input.Count, input);
var writer = new CompressedBitmapWriter();
int r = WordAlignHybridEncoder.CompressTo(input, writer);
Slice compressed = writer.GetBuffer();
Console.WriteLine("OUT [{0}] => {1} [r={2}]", compressed.Count, compressed, r);
var sb = new StringBuilder();
Console.WriteLine(WordAlignHybridEncoder.DumpCompressed(compressed).ToString());
Console.WriteLine();
return(compressed);
};
compress(Slice.FromString("This is a test of the emergency broadcast system"));
// all zeroes (multiple of 31 bits)
compress(Slice.Repeat(0, 62));
// all zeroes (with padding)
compress(Slice.Repeat(0, 42));
// all ones (multiple of 31 bits)
compress(Slice.Repeat(255, 62));
// all ones (with padding)
compress(Slice.Repeat(255, 42));
// random stuff (multiple of 31 bits)
compress(Slice.Random(rnd, 42));
// random stuff (with padding)
compress(Slice.Random(rnd, 42));
// mostly zeroes
Action <byte[], int> setBit = (b, p) => { b[p >> 3] |= (byte)(1 << (p & 7)); };
Func <int, byte[]> mostlyZeroes = (count) =>
{
var buf = new byte[1024];
for (int i = 0; i < count; i++)
{
setBit(buf, rnd.Next(buf.Length * 8));
}
Console.WriteLine("Mostly zeroes: " + count);
return(buf);
};
compress(Slice.Create(mostlyZeroes(1)));
compress(Slice.Create(mostlyZeroes(10)));
compress(Slice.Create(mostlyZeroes(42)));
compress(Slice.Create(mostlyZeroes(100)));
// mostly ones
Action <byte[], int> clearBit = (b, p) => { b[p >> 3] &= (byte)~(1 << (p & 7)); };
Func <int, byte[]> mostlyOnes = (count) =>
{
var buf = new byte[1024];
for (int i = 0; i < buf.Length; i++)
{
buf[i] = 0xFF;
}
for (int i = 0; i < 10; i++)
{
clearBit(buf, rnd.Next(buf.Length * 8));
}
Console.WriteLine("Mostly ones: " + count);
return(buf);
};
compress(Slice.Create(mostlyOnes(1)));
compress(Slice.Create(mostlyOnes(10)));
compress(Slice.Create(mostlyOnes(42)));
compress(Slice.Create(mostlyOnes(100)));
// progressive
Func <byte[], int, bool> testBit = (b, p) => (b[p >> 3] & (1 << (p & 7))) != 0;
const int VALUES = 8192;
var buffer = new byte[VALUES / 8];
var output = new CompressedBitmapWriter();
WordAlignHybridEncoder.CompressTo(Slice.Create(buffer), output);
Console.WriteLine("{0}\t{1}\t1024", 0, output.Length);
for (int i = 0; i < VALUES / 8; i++)
{
int p;
do
{
p = rnd.Next(VALUES);
}while (testBit(buffer, p));
setBit(buffer, p);
output.Reset();
WordAlignHybridEncoder.CompressTo(Slice.Create(buffer), output);
Console.WriteLine("{0}\t{1}\t1024", 1.0d * (i + 1) / VALUES, output.Length);
}
}
public void TestFoo()
{
var rnd = new Random();
void Compress(Slice input)
{
Log($"IN [{input.Count}] => {input}");
var writer = new CompressedBitmapWriter();
int r = WordAlignHybridEncoder.CompressTo(input, writer);
var compressed = writer.GetBuffer();
Log($"OUT [{compressed.Count}] => {compressed} [r={r}]");
var sb = new StringBuilder();
Log(WordAlignHybridEncoder.DumpCompressed(compressed).ToString());
Log();
}
Compress(Slice.FromString("This is a test of the emergency broadcast system"));
// all zeroes (multiple of 31 bits)
Compress(Slice.Repeat(0, 62));
// all zeroes (with padding)
Compress(Slice.Repeat(0, 42));
// all ones (multiple of 31 bits)
Compress(Slice.Repeat(255, 62));
// all ones (with padding)
Compress(Slice.Repeat(255, 42));
// random stuff (multiple of 31 bits)
Compress(Slice.Random(rnd, 42));
// random stuff (with padding)
Compress(Slice.Random(rnd, 42));
// mostly zeroes
void SetBit(byte[] b, int p)
{
b[p >> 3] |= (byte)(1 << (p & 7));
}
byte[] MostlyZeroes(int count)
{
var buf = new byte[1024];
for (int i = 0; i < count; i++)
{
SetBit(buf, rnd.Next(buf.Length * 8));
}
Log("Mostly zeroes: " + count);
return(buf);
}
Compress(MostlyZeroes(1).AsSlice());
Compress(MostlyZeroes(10).AsSlice());
Compress(MostlyZeroes(42).AsSlice());
Compress(MostlyZeroes(100).AsSlice());
// mostly ones
void ClearBit(byte[] b, int p)
{
b[p >> 3] &= (byte)~(1 << (p & 7));
}
byte[] MostlyOnes(int count)
{
var buf = new byte[1024];
for (int i = 0; i < buf.Length; i++)
{
buf[i] = 0xFF;
}
for (int i = 0; i < 10; i++)
{
ClearBit(buf, rnd.Next(buf.Length * 8));
}
Log("Mostly ones: " + count);
return(buf);
}
Compress(MostlyOnes(1).AsSlice());
Compress(MostlyOnes(10).AsSlice());
Compress(MostlyOnes(42).AsSlice());
Compress(MostlyOnes(100).AsSlice());
// progressive
bool TestBit(byte[] b, int p) => (b[p >> 3] & (1 << (p & 7))) != 0;
const int VALUES = 8192;
var buffer = new byte[VALUES / 8];
var output = new CompressedBitmapWriter();
WordAlignHybridEncoder.CompressTo(buffer.AsSlice(), output);
Log($"{0}\t{output.Length}\t1024");
for (int i = 0; i < VALUES / 8; i++)
{
int p;
do
{
p = rnd.Next(VALUES);
}while (TestBit(buffer, p));
SetBit(buffer, p);
output.Reset();
WordAlignHybridEncoder.CompressTo(buffer.AsSlice(), output);
Log($"{1.0d * (i + 1) / VALUES}\t{output.Length}\t1024");
}
}
