コード例 #1
0
        internal override void ToBitfieldWrapper()
        {
            _bitfieldWrapper = new PauseBitfieldWrapper();

            // Set byte width opcode:
            _bitfieldWrapper.TickOpcode.SetValue(MiscOps.GetOpcode2Bit(Ticks, out var tickValueBitWidth));
            var valueBitfield = new Bitfield(width: tickValueBitWidth, value: Ticks, name: "tick value");

            _bitfieldWrapper.AddBitfield(valueBitfield);
        }
コード例 #2
0
        private Instruction_ContextRegion BuildContextRegionBitfields(List <List <Instruction> > instrSets, out uint contextRegionByteSize, out uint maxInstrPathByteSize)
        {
            var contextRegion = new Instruction_ContextRegion();

            contextRegion.ToBitfieldWrapper();

            // Build common context-region:
            var contextRegionByteLenBitfield = new Bitfield(width: 16, name: "contx-reg byte len");
            var instrRegionByteLenBitfield   = new Bitfield(width: 32, name: "instr-reg byte len");
            var ledCountBitfield             = new Bitfield(width: 16, value: DeviceTable.Dev.LedCount, name: "total led len");
            var timerIntervalMs        = new Bitfield(width: 16, value: DeviceTable.Dev.TickIntervalMs, name: "tick interval ms");
            var simBrightCoeffBitfield = new Bitfield(width: 16, value: DeviceTable.Dev.SimulatorBrightnessCoeff, name: "sim bright coeff");
            var totalPathsBitfield     = new Bitfield(width: 8, value: (uint)instrSets.Count, name: "total paths");
            var pathEndedBitmap        = new Bitfield(width: (uint)instrSets.Count, name: "path end bitmap");

            contextRegion.BitfieldWrapper.AddBitfield(contextRegionByteLenBitfield);
            contextRegion.BitfieldWrapper.AddBitfield(instrRegionByteLenBitfield);
            contextRegion.BitfieldWrapper.AddBitfield(ledCountBitfield);
            contextRegion.BitfieldWrapper.AddBitfield(timerIntervalMs);
            contextRegion.BitfieldWrapper.AddBitfield(simBrightCoeffBitfield);
            contextRegion.BitfieldWrapper.AddBitfield(totalPathsBitfield);
            contextRegion.BitfieldWrapper.AddBitfield(pathEndedBitmap);

            uint totalInstrRegionByteLen = 0;

            maxInstrPathByteSize = 0;

            // Build a context-region block for each path:
            for (var i = 0; i < instrSets.Count; i++)
            {
                // Mark current path as ended (except path 0):
                if (i > 0)
                {
                    pathEndedBitmap.SetFlag((uint)(instrSets.Count - i - 1));
                }

                // Add start of current path byte-address bitfield:
                if ((instrSets[i].First().BitAddress - instrSets[0].First().BitAddress) % BitsPerByte > 0)
                {
                    Console.WriteLine("Byte alignment error");
                    throw new Exception();
                }
                var pathStartByteAddr = (instrSets[i].First().BitAddress - instrSets[0].First().BitAddress) >> BitByteShift;
                var opcode2Bit        = MiscOps.GetOpcode2Bit(pathStartByteAddr, out var valueBitWidth);
                contextRegion.BitfieldWrapper.AddBitfield(new Bitfield(width: 2, value: opcode2Bit, name: "byte width opcode"));
                contextRegion.BitfieldWrapper.AddBitfield(new Bitfield(width: valueBitWidth, value: pathStartByteAddr, name: $"path={i} byte addr"));

                // Add current path byte-length bitfield:
                var instrPathByteLen = (instrSets[i].Last().BitAddress + instrSets[i].Last().BitfieldWrapper.BitWidth - instrSets[i].First().BitAddress) >> BitByteShift;
                opcode2Bit = MiscOps.GetOpcode2Bit(instrPathByteLen, out valueBitWidth);
                contextRegion.BitfieldWrapper.AddBitfield(new Bitfield(width: 2, value: opcode2Bit, name: "byte width opcode"));
                contextRegion.BitfieldWrapper.AddBitfield(new Bitfield(width: valueBitWidth, value: instrPathByteLen, name: $"path={i} byte len"));

                // Keep running total of paths length:
                totalInstrRegionByteLen += instrPathByteLen;
                maxInstrPathByteSize     = Math.Max(maxInstrPathByteSize, instrPathByteLen);

                // Add current path instruction bit address bitfield:
                var instrBitAddr = instrPathByteLen << BitByteShift;    // max possible value is number of bits in path.
                opcode2Bit = MiscOps.GetOpcode2Bit(instrBitAddr, out valueBitWidth);
                contextRegion.BitfieldWrapper.AddBitfield(new Bitfield(width: 2, value: opcode2Bit, name: "byte width opcode"));
                contextRegion.BitfieldWrapper.AddBitfield(new Bitfield(width: valueBitWidth, value: 0, name: $"path={i} instr bit addr"));

                // Add current path extra-value bitfield:
                uint maxValue   = 0;
                var  rampInstrs = instrSets[i].Where(x => x.Type == Instruction.InstrType.GlowRamp);
                if (rampInstrs.Count() > 0)
                {
                    maxValue = rampInstrs.Max(x => ((GlowRampInstruction)x).RampTicks);
                }
                var opcode3Bit = MiscOps.GetOpcode3Bit(maxValue, out valueBitWidth);
                contextRegion.BitfieldWrapper.AddBitfield(new Bitfield(width: 3, value: opcode3Bit, name: "byte width opcode"));
                if (valueBitWidth > 0)
                {
                    contextRegion.BitfieldWrapper.AddBitfield(new Bitfield(width: valueBitWidth, value: 0, name: $"path={i} extra value"));
                }

                // Add current path pause-ticks bitfield:
                maxValue = 0;
                var pauseInstrs = instrSets[i].Where(x => x.Type == Instruction.InstrType.Pause);
                if (pauseInstrs.Count() > 0)
                {
                    maxValue = pauseInstrs.Max(x => ((PauseInstruction)x).Ticks);
                }
                else if (rampInstrs.Count() > 0)
                {
                    maxValue = 1;
                }
                opcode3Bit = MiscOps.GetOpcode3Bit(maxValue, out valueBitWidth);
                contextRegion.BitfieldWrapper.AddBitfield(new Bitfield(width: 3, value: opcode3Bit, name: "byte width opcode"));
                if (valueBitWidth > 0)
                {
                    contextRegion.BitfieldWrapper.AddBitfield(new Bitfield(width: valueBitWidth, value: 0, name: $"path={i} pause ticks"));
                }
            }

            // Set total instruction region byte length:
            instrRegionByteLenBitfield.SetValue(totalInstrRegionByteLen);

            // Add padding to context-region so following instruction path memory is byte-aligned:
            var paddingWidth = BitsPerByte - (contextRegion.BitfieldWrapper.BitWidth % BitsPerByte);

            if (paddingWidth < 8)
            {
                contextRegion.BitfieldWrapper.AddBitfield(new Bitfield(paddingWidth, "byte-align padding"));
            }

            // Set total context-region byte length (convert from bits):
            contextRegionByteSize = contextRegion.BitfieldWrapper.BitWidth >> BitByteShift;
            contextRegionByteLenBitfield.SetValue(contextRegionByteSize);

            return(contextRegion);
        }
コード例 #3
0
        internal override void ToBitfieldWrapper()
        {
            var isCrossPath = CrossPathLedList.Any(x => LedIdxList.Contains(x));

            _bitfieldWrapper = new GlowRampBitfieldWrapper();

            // Add ramp tick opcode:
            var opcode2Bit = MiscOps.GetOpcode2Bit(RampTicks, out var valueBitWidth);

            _bitfieldWrapper.RampTickOpcode.SetValue(opcode2Bit);
            _bitfieldWrapper.AddBitfield(_bitfieldWrapper.RampTickOpcode);

            // Add ramp tick value:
            _bitfieldWrapper.RampTickValue = new Bitfield(width: valueBitWidth, value: RampTicks, name: "ramp tick value");
            _bitfieldWrapper.AddBitfield(_bitfieldWrapper.RampTickValue);

            // Add color bitmap (flags set below):
            _bitfieldWrapper.AddBitfield(_bitfieldWrapper.ColorBitmap);

            if (LedColorDiff.Red != 0 || isCrossPath)
            {
                // Add color to bitmap:
                _bitfieldWrapper.ColorBitmap.SetFlag((uint)ColorSpecifier.Red);

                // Add initial color value:
                var bitfield = new Bitfield(width: 8, value: (uint)LedColorFrom.Red, name: "red init value");
                _bitfieldWrapper.AddBitfield(bitfield);

                // Set color inc/dec opcode:
                opcode2Bit = (uint)(LedColorDiff.Red == 0 ? 0 : LedColorDiff.Red > 0 ? 1 : 2);
                bitfield   = new Bitfield(width: 2, value: opcode2Bit, name: "inc/dec opcode");
                _bitfieldWrapper.AddBitfield(bitfield);

                if (LedColorDiff.Red != 0)
                {
                    // Set color byte width opcode:
                    opcode2Bit = MiscOps.GetOpcode2Bit((uint)TickStep.Red, out valueBitWidth);
                    bitfield   = new Bitfield(width: 2, value: opcode2Bit, name: "byte width opcode");
                    _bitfieldWrapper.AddBitfield(bitfield);

                    // Set tick step value:
                    bitfield = new Bitfield(width: valueBitWidth, value: (uint)TickStep.Red, name: "red tick step value");
                    _bitfieldWrapper.AddBitfield(bitfield);

                    // Set color step value:
                    bitfield = new Bitfield(width: 8, value: (uint)ColorStep.Red, name: "red color step value");
                    _bitfieldWrapper.AddBitfield(bitfield);
                }
            }

            if (LedColorDiff.Green != 0 || isCrossPath)
            {
                // Add color to bitmap:
                _bitfieldWrapper.ColorBitmap.SetFlag((uint)ColorSpecifier.Green);

                // Add initial color value:
                var bitfield = new Bitfield(width: 8, value: (uint)LedColorFrom.Green, name: "green init value");
                _bitfieldWrapper.AddBitfield(bitfield);

                // Set color inc/dec opcode:
                opcode2Bit = (uint)(LedColorDiff.Green == 0 ? 0 : LedColorDiff.Green > 0 ? 1 : 2);
                bitfield   = new Bitfield(width: 2, value: opcode2Bit, name: "inc/dec opcode");
                _bitfieldWrapper.AddBitfield(bitfield);

                if (LedColorDiff.Green != 0)
                {
                    // Set color byte width opcode:
                    opcode2Bit = MiscOps.GetOpcode2Bit((uint)TickStep.Green, out valueBitWidth);
                    bitfield   = new Bitfield(width: 2, value: opcode2Bit, name: "byte width opcode");
                    _bitfieldWrapper.AddBitfield(bitfield);

                    // Set tick step value:
                    bitfield = new Bitfield(width: valueBitWidth, value: (uint)TickStep.Green, name: "green tick step value");
                    _bitfieldWrapper.AddBitfield(bitfield);

                    // Set color step value:
                    bitfield = new Bitfield(width: 8, value: (uint)ColorStep.Green, name: "green color step value");
                    _bitfieldWrapper.AddBitfield(bitfield);
                }
            }

            if (LedColorDiff.Blue != 0 || isCrossPath)
            {
                // Add color to bitmap:
                _bitfieldWrapper.ColorBitmap.SetFlag((uint)ColorSpecifier.Blue);

                // Add initial color value:
                var bitfield = new Bitfield(width: 8, value: (uint)LedColorFrom.Blue, name: "blue init value");
                _bitfieldWrapper.AddBitfield(bitfield);

                // Set color inc/dec opcode:
                opcode2Bit = (uint)(LedColorDiff.Blue == 0 ? 0 : LedColorDiff.Blue > 0 ? 1 : 2);
                bitfield   = new Bitfield(width: 2, value: opcode2Bit, name: "inc/dec opcode");
                _bitfieldWrapper.AddBitfield(bitfield);

                if (LedColorDiff.Blue != 0)
                {
                    // Set color byte width opcode:
                    opcode2Bit = MiscOps.GetOpcode2Bit((uint)TickStep.Blue, out valueBitWidth);
                    bitfield   = new Bitfield(width: 2, value: opcode2Bit, name: "byte width opcode");
                    _bitfieldWrapper.AddBitfield(bitfield);

                    // Set tick step value:
                    bitfield = new Bitfield(width: valueBitWidth, value: (uint)TickStep.Blue, name: "blue tick step value");
                    _bitfieldWrapper.AddBitfield(bitfield);

                    // Set color step value:
                    bitfield = new Bitfield(width: 8, value: (uint)ColorStep.Blue, name: "blue color step value");
                    _bitfieldWrapper.AddBitfield(bitfield);
                }
            }

            if (LedColorDiff.Bright != 0 || isCrossPath)
            {
                // Add color to bitmap:
                _bitfieldWrapper.ColorBitmap.SetFlag((uint)ColorSpecifier.Bright);

                // Add initial color value:
                var bitfield = new Bitfield(width: 8, value: (uint)LedColorFrom.Bright, name: "bright init value");
                _bitfieldWrapper.AddBitfield(bitfield);

                // Set color inc/dec opcode:
                opcode2Bit = (uint)(LedColorDiff.Bright == 0 ? 0 : LedColorDiff.Bright > 0 ? 1 : 2);
                bitfield   = new Bitfield(width: 2, value: opcode2Bit, name: "inc/dec opcode");
                _bitfieldWrapper.AddBitfield(bitfield);

                if (LedColorDiff.Bright != 0)
                {
                    // Set color byte width opcode:
                    opcode2Bit = MiscOps.GetOpcode2Bit((uint)TickStep.Bright, out valueBitWidth);
                    bitfield   = new Bitfield(width: 2, value: opcode2Bit, name: "byte width opcode");
                    _bitfieldWrapper.AddBitfield(bitfield);

                    // Set tick step value:
                    bitfield = new Bitfield(width: valueBitWidth, value: (uint)TickStep.Bright, name: "bright tick step value");
                    _bitfieldWrapper.AddBitfield(bitfield);

                    // Set color step value:
                    bitfield = new Bitfield(width: 8, value: (uint)ColorStep.Bright, name: "bright color step value");
                    _bitfieldWrapper.AddBitfield(bitfield);
                }
            }

            // Add led bitmap (led index increases from left to right):
            _bitfieldWrapper.LedBitmap = new Bitfield(width: DeviceTable.Dev.LedCount, name: "led bitmap");
            LedIdxList.ToList().ForEach(idx => _bitfieldWrapper.LedBitmap.SetFlag((uint)(DeviceTable.Dev.LedCount - idx - 1)));
            _bitfieldWrapper.AddBitfield(_bitfieldWrapper.LedBitmap);
        }