Esempio n. 1
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 public ThroughputI()
 {
     _byteSeq = new byte[ByteSeqSize.value];
     _stringSeq = new string[StringSeqSize.value];
     for(int i = 0; i < StringSeqSize.value; ++i)
     {
         _stringSeq[i] = "hello";
     }
     _structSeq = new StringDouble[StringDoubleSeqSize.value];
     for(int i = 0; i < StringDoubleSeqSize.value; ++i)
     {
         _structSeq[i] = new StringDouble();
         _structSeq[i].s = "hello";
         _structSeq[i].d = 3.14;
     }
     _fixedSeq = new Fixed[FixedSeqSize.value];
     for(int i = 0; i < FixedSeqSize.value; ++i)
     {
         _fixedSeq[i].i = 0;
         _fixedSeq[i].j = 0;
         _fixedSeq[i].d = 0;
     }
 }
Esempio n. 2
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 public static void clearCache()
 {
     cache.clear();
     Fixed.clearCache();
 }
Esempio n. 3
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        public override void Run()
        {
            SectorActionResult result;

            var sa = this.world.SectorAction;

            switch (this.direction)
            {
            case 0:
                // In statis.
                break;

            case 1:
                // Up.
                result = sa.MovePlane(this.sector, this.speed, this.topHeight, false, 1, this.direction);

                if ((this.world.LevelTime & 7) == 0)
                {
                    switch (this.type)
                    {
                    case CeilingMoveType.SilentCrushAndRaise:
                        break;

                    default:
                        this.world.StartSound(this.sector.SoundOrigin, Sfx.STNMOV, SfxType.Misc);

                        break;
                    }
                }

                if (result == SectorActionResult.PastDestination)
                {
                    switch (this.type)
                    {
                    case CeilingMoveType.RaiseToHighest:
                        sa.RemoveActiveCeiling(this);

                        break;

                    case CeilingMoveType.SilentCrushAndRaise:
                    case CeilingMoveType.FastCrushAndRaise:
                    case CeilingMoveType.CrushAndRaise:
                        if (this.type == CeilingMoveType.SilentCrushAndRaise)
                        {
                            this.world.StartSound(this.sector.SoundOrigin, Sfx.PSTOP, SfxType.Misc);
                        }

                        this.direction = -1;

                        break;

                    default:
                        break;
                    }
                }

                break;

            case -1:
                // Down.
                result = sa.MovePlane(this.sector, this.speed, this.bottomHeight, this.crush, 1, this.direction);

                if ((this.world.LevelTime & 7) == 0)
                {
                    switch (this.type)
                    {
                    case CeilingMoveType.SilentCrushAndRaise:
                        break;

                    default:
                        this.world.StartSound(this.sector.SoundOrigin, Sfx.STNMOV, SfxType.Misc);

                        break;
                    }
                }

                if (result == SectorActionResult.PastDestination)
                {
                    switch (this.type)
                    {
                    case CeilingMoveType.SilentCrushAndRaise:
                    case CeilingMoveType.CrushAndRaise:
                    case CeilingMoveType.FastCrushAndRaise:
                        if (this.type == CeilingMoveType.SilentCrushAndRaise)
                        {
                            this.world.StartSound(this.sector.SoundOrigin, Sfx.PSTOP, SfxType.Misc);
                        }

                        if (this.type == CeilingMoveType.CrushAndRaise)
                        {
                            this.speed = SectorAction.CeilingSpeed;
                        }

                        this.direction = 1;

                        break;

                    case CeilingMoveType.LowerAndCrush:
                    case CeilingMoveType.LowerToFloor:
                        sa.RemoveActiveCeiling(this);

                        break;

                    default:
                        break;
                    }
                }
                else
                {
                    if (result == SectorActionResult.Crushed)
                    {
                        switch (this.type)
                        {
                        case CeilingMoveType.SilentCrushAndRaise:
                        case CeilingMoveType.CrushAndRaise:
                        case CeilingMoveType.LowerAndCrush:
                            this.speed = SectorAction.CeilingSpeed / 8;

                            break;

                        default:
                            break;
                        }
                    }
                }

                break;
            }
        }
			public override object Visit (Fixed fixedStatement)
			{
				var result = new FixedStatement ();
				var location = LocationsBag.GetLocations (fixedStatement);
				
				result.AddChild (new CSharpTokenNode (Convert (fixedStatement.loc), FixedStatement.FixedKeywordRole), FixedStatement.FixedKeywordRole);
				if (location != null)
					result.AddChild (new CSharpTokenNode (Convert (location [0]), Roles.LPar), Roles.LPar);
				
				if (fixedStatement.Variables != null) {
					var blockVariableDeclaration = fixedStatement.Variables;
					result.AddChild (ConvertToType (blockVariableDeclaration.TypeExpression), Roles.Type);
					var varInit = new VariableInitializer ();
					var initLocation = LocationsBag.GetLocations (blockVariableDeclaration);
					varInit.AddChild (Identifier.Create (blockVariableDeclaration.Variable.Name, Convert (blockVariableDeclaration.Variable.Location)), Roles.Identifier);
					if (blockVariableDeclaration.Initializer != null) {
						if (initLocation != null)
							varInit.AddChild (new CSharpTokenNode (Convert (initLocation [0]), Roles.Assign), Roles.Assign);
						varInit.AddChild ((Expression)blockVariableDeclaration.Initializer.Accept (this), Roles.Expression);
					}
					
					result.AddChild (varInit, Roles.Variable);
					
					if (blockVariableDeclaration.Declarators != null) {
						foreach (var decl in blockVariableDeclaration.Declarators) {
							var loc = LocationsBag.GetLocations (decl);
							var init = new VariableInitializer ();
							if (loc != null && loc.Count > 0)
								result.AddChild (new CSharpTokenNode (Convert (loc [0]), Roles.Comma), Roles.Comma);
							init.AddChild (Identifier.Create (decl.Variable.Name, Convert (decl.Variable.Location)), Roles.Identifier);
							if (decl.Initializer != null) {
								if (loc != null && loc.Count > 1)
									init.AddChild (new CSharpTokenNode (Convert (loc [1]), Roles.Assign), Roles.Assign);
								init.AddChild ((Expression)decl.Initializer.Accept (this), Roles.Expression);
							} else {
							}
							result.AddChild (init, Roles.Variable);
						}
					}
				}
				
				if (location != null && location.Count > 1)
					result.AddChild (new CSharpTokenNode (Convert (location [1]), Roles.RPar), Roles.RPar);
				if (fixedStatement.Statement != null)
					result.AddChild ((Statement)fixedStatement.Statement.Accept (this), Roles.EmbeddedStatement);
				return result;
			}
Esempio n. 5
0
 public virtual void VisitFixed(Fixed Fixed)
 {
   if (Fixed == null) return;
   this.Visit(Fixed.Declarators);
   this.VisitBlock(Fixed.Body);
 }
Esempio n. 6
0
 public override Statement VisitFixed(Fixed Fixed) {
   return Fixed;
 }
Esempio n. 7
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 public virtual Statement VisitFixed(Fixed fixed1, Fixed fixed2)
 {
     if (fixed1 == null) return null;
     if (fixed2 == null)
     {
         fixed1.Declarators = (Statement)this.Visit(fixed1.Declarators, null);
         fixed1.Body = this.VisitBlock(fixed1.Body, null);
     }
     else
     {
         fixed1.Declarators = (Statement)this.Visit(fixed1.Declarators, fixed2.Declarators);
         fixed1.Body = this.VisitBlock(fixed1.Body, fixed2.Body);
     }
     return fixed1;
 }
Esempio n. 8
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        /// <summary>
        /// Attempt to move to a new position, crossing special lines unless
        /// MobjFlags.Teleport is set.
        /// </summary>
        public bool TryMove(Mobj thing, Fixed x, Fixed y)
        {
            this.floatOk = false;

            if (!this.CheckPosition(thing, x, y))
            {
                // Solid wall or thing.
                return(false);
            }

            if ((thing.Flags & MobjFlags.NoClip) == 0)
            {
                if (this.currentCeilingZ - this.currentFloorZ < thing.Height)
                {
                    // Doesn't fit.
                    return(false);
                }

                this.floatOk = true;

                if ((thing.Flags & MobjFlags.Teleport) == 0 && this.currentCeilingZ - thing.Z < thing.Height)
                {
                    // Mobj must lower itself to fit.
                    return(false);
                }

                if ((thing.Flags & MobjFlags.Teleport) == 0 && this.currentFloorZ - thing.Z > Fixed.FromInt(24))
                {
                    // Too big a step up.
                    return(false);
                }

                if ((thing.Flags & (MobjFlags.DropOff | MobjFlags.Float)) == 0 && this.currentFloorZ - this.currentDropoffZ > Fixed.FromInt(24))
                {
                    // Don't stand over a dropoff.
                    return(false);
                }
            }

            // The move is ok,
            // so link the thing into its new position.
            this.UnsetThingPosition(thing);

            var oldx = thing.X;
            var oldy = thing.Y;

            thing.FloorZ   = this.currentFloorZ;
            thing.CeilingZ = this.currentCeilingZ;
            thing.X        = x;
            thing.Y        = y;

            this.SetThingPosition(thing);

            // If any special lines were hit, do the effect.
            if ((thing.Flags & (MobjFlags.Teleport | MobjFlags.NoClip)) == 0)
            {
                while (this.crossedSpecialCount-- > 0)
                {
                    // See if the line was crossed.
                    var line    = this.crossedSpecials[this.crossedSpecialCount];
                    var newSide = Geometry.PointOnLineSide(thing.X, thing.Y, line);
                    var oldSide = Geometry.PointOnLineSide(oldx, oldy, line);

                    if (newSide != oldSide)
                    {
                        if (line.Special != 0)
                        {
                            this.world.MapInteraction.CrossSpecialLine(line, oldSide, thing);
                        }
                    }
                }
            }

            return(true);
        }
Esempio n. 9
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        /// <summary>
        /// The MomX / MomY move is bad, so try to slide along a wall.
        /// Find the first line hit, move flush to it, and slide along it.
        /// This is a kludgy mess.
        /// </summary>
        private void SlideMove(Mobj thing)
        {
            var pt = this.world.PathTraversal;

            this.slideThing = thing;

            var hitCount = 0;

retry:

            // Don't loop forever.
            if (++hitCount == 3)
            {
                // The move most have hit the middle, so stairstep.
                this.StairStep(thing);

                return;
            }

            Fixed leadX;
            Fixed leadY;
            Fixed trailX;
            Fixed trailY;

            // Trace along the three leading corners.
            if (thing.MomX > Fixed.Zero)
            {
                leadX  = thing.X + thing.Radius;
                trailX = thing.X - thing.Radius;
            }
            else
            {
                leadX  = thing.X - thing.Radius;
                trailX = thing.X + thing.Radius;
            }

            if (thing.MomY > Fixed.Zero)
            {
                leadY  = thing.Y + thing.Radius;
                trailY = thing.Y - thing.Radius;
            }
            else
            {
                leadY  = thing.Y - thing.Radius;
                trailY = thing.Y + thing.Radius;
            }

            this.bestSlideFrac = Fixed.OnePlusEpsilon;

            pt.PathTraverse(leadX, leadY, leadX + thing.MomX, leadY + thing.MomY, PathTraverseFlags.AddLines, this.slideTraverseFunc);

            pt.PathTraverse(trailX, leadY, trailX + thing.MomX, leadY + thing.MomY, PathTraverseFlags.AddLines, this.slideTraverseFunc);

            pt.PathTraverse(leadX, trailY, leadX + thing.MomX, trailY + thing.MomY, PathTraverseFlags.AddLines, this.slideTraverseFunc);

            // Move up to the wall.
            if (this.bestSlideFrac == Fixed.OnePlusEpsilon)
            {
                // The move most have hit the middle, so stairstep.
                this.StairStep(thing);

                return;
            }

            // Fudge a bit to make sure it doesn't hit.
            this.bestSlideFrac = new Fixed(this.bestSlideFrac.Data - 0x800);

            if (this.bestSlideFrac > Fixed.Zero)
            {
                var newX = thing.MomX * this.bestSlideFrac;
                var newY = thing.MomY * this.bestSlideFrac;

                if (!this.TryMove(thing, thing.X + newX, thing.Y + newY))
                {
                    // The move most have hit the middle, so stairstep.
                    this.StairStep(thing);

                    return;
                }
            }

            // Now continue along the wall.
            // First calculate remainder.
            this.bestSlideFrac = new Fixed(Fixed.FracUnit - (this.bestSlideFrac.Data + 0x800));

            if (this.bestSlideFrac > Fixed.One)
            {
                this.bestSlideFrac = Fixed.One;
            }

            if (this.bestSlideFrac <= Fixed.Zero)
            {
                return;
            }

            this.slideMoveX = thing.MomX * this.bestSlideFrac;
            this.slideMoveY = thing.MomY * this.bestSlideFrac;

            // Clip the moves.
            this.HitSlideLine(this.bestSlideLine);

            thing.MomX = this.slideMoveX;
            thing.MomY = this.slideMoveY;

            if (!this.TryMove(thing, thing.X + this.slideMoveX, thing.Y + this.slideMoveY))
            {
                goto retry;
            }
        }
Esempio n. 10
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        private bool CheckThing(Mobj thing)
        {
            if ((thing.Flags & (MobjFlags.Solid | MobjFlags.Special | MobjFlags.Shootable)) == 0)
            {
                return(true);
            }

            var blockDist = thing.Radius + this.currentThing.Radius;

            if (Fixed.Abs(thing.X - this.currentX) >= blockDist || Fixed.Abs(thing.Y - this.currentY) >= blockDist)
            {
                // Didn't hit it.
                return(true);
            }

            // Don't clip against self.
            if (thing == this.currentThing)
            {
                return(true);
            }

            // Check for skulls slamming into things.
            if ((this.currentThing.Flags & MobjFlags.SkullFly) != 0)
            {
                var damage = ((this.world.Random.Next() % 8) + 1) * this.currentThing.Info.Damage;

                this.world.ThingInteraction.DamageMobj(thing, this.currentThing, this.currentThing, damage);

                this.currentThing.Flags &= ~MobjFlags.SkullFly;
                this.currentThing.MomX   = this.currentThing.MomY = this.currentThing.MomZ = Fixed.Zero;

                this.currentThing.SetState(this.currentThing.Info.SpawnState);

                // Stop moving.
                return(false);
            }

            // Missiles can hit other things.
            if ((this.currentThing.Flags & MobjFlags.Missile) != 0)
            {
                // See if it went over / under.
                if (this.currentThing.Z > thing.Z + thing.Height)
                {
                    // Overhead.
                    return(true);
                }

                if (this.currentThing.Z + this.currentThing.Height < thing.Z)
                {
                    // Underneath.
                    return(true);
                }

                if (this.currentThing.Target != null &&
                    (this.currentThing.Target.Type == thing.Type ||
                     (this.currentThing.Target.Type == MobjType.Knight && thing.Type == MobjType.Bruiser) ||
                     (this.currentThing.Target.Type == MobjType.Bruiser && thing.Type == MobjType.Knight)))
                {
                    // Don't hit same species as originator.
                    if (thing == this.currentThing.Target)
                    {
                        return(true);
                    }

                    if (thing.Type != MobjType.Player)
                    {
                        // Explode, but do no damage.
                        // Let players missile other players.
                        return(false);
                    }
                }

                if ((thing.Flags & MobjFlags.Shootable) == 0)
                {
                    // Didn't do any damage.
                    return((thing.Flags & MobjFlags.Solid) == 0);
                }

                // Damage / explode.
                var damage = ((this.world.Random.Next() % 8) + 1) * this.currentThing.Info.Damage;
                this.world.ThingInteraction.DamageMobj(thing, this.currentThing, this.currentThing.Target, damage);

                // Don't traverse any more.
                return(false);
            }

            // Check for special pickup.
            if ((thing.Flags & MobjFlags.Special) != 0)
            {
                var solid = (thing.Flags & MobjFlags.Solid) != 0;

                if ((this.currentFlags & MobjFlags.PickUp) != 0)
                {
                    // Can remove thing.
                    this.world.ItemPickup.TouchSpecialThing(thing, this.currentThing);
                }

                return(!solid);
            }

            return((thing.Flags & MobjFlags.Solid) == 0);
        }
Esempio n. 11
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        /// <summary>
        /// This is purely informative, nothing is modified
        /// (except things picked up).
        ///
        /// In:
        ///     A Mobj (can be valid or invalid)
        ///     A position to be checked
        ///     (doesn't need to be related to the mobj.X and Y)
        ///
        /// During:
        ///     Special things are touched if MobjFlags.PickUp
        ///     Early out on solid lines?
        ///
        /// Out:
        ///     New subsector
        ///     CurrentFloorZ
        ///     CurrentCeilingZ
        ///     CurrentDropoffZ
        ///     The lowest point contacted
        ///     (monsters won't move to a dropoff)
        ///     crossedSpecials[]
        ///     crossedSpecialCount
        /// </summary>
        public bool CheckPosition(Mobj thing, Fixed x, Fixed y)
        {
            var map = this.world.Map;
            var bm  = map.BlockMap;

            this.currentThing = thing;
            this.currentFlags = thing.Flags;

            this.currentX = x;
            this.currentY = y;

            this.currentBox[Box.Top]    = y + this.currentThing.Radius;
            this.currentBox[Box.Bottom] = y - this.currentThing.Radius;
            this.currentBox[Box.Right]  = x + this.currentThing.Radius;
            this.currentBox[Box.Left]   = x - this.currentThing.Radius;

            var newSubsector = Geometry.PointInSubsector(x, y, map);

            this.currentCeilingLine = null;

            // The base floor / ceiling is from the subsector that contains the point.
            // Any contacted lines the step closer together will adjust them.
            this.currentFloorZ   = this.currentDropoffZ = newSubsector.Sector.FloorHeight;
            this.currentCeilingZ = newSubsector.Sector.CeilingHeight;

            var validCount = this.world.GetNewValidCount();

            this.crossedSpecialCount = 0;

            if ((this.currentFlags & MobjFlags.NoClip) != 0)
            {
                return(true);
            }

            // Check things first, possibly picking things up.
            // The bounding box is extended by MaxThingRadius because mobj_ts are grouped into
            // mapblocks based on their origin point, and can overlap into adjacent blocks by up
            // to MaxThingRadius units.
            {
                var blockX1 = bm.GetBlockX(this.currentBox[Box.Left] - GameConst.MaxThingRadius);
                var blockX2 = bm.GetBlockX(this.currentBox[Box.Right] + GameConst.MaxThingRadius);
                var blockY1 = bm.GetBlockY(this.currentBox[Box.Bottom] - GameConst.MaxThingRadius);
                var blockY2 = bm.GetBlockY(this.currentBox[Box.Top] + GameConst.MaxThingRadius);

                for (var bx = blockX1; bx <= blockX2; bx++)
                {
                    for (var by = blockY1; by <= blockY2; by++)
                    {
                        if (!map.BlockMap.IterateThings(bx, by, this.checkThingFunc))
                        {
                            return(false);
                        }
                    }
                }
            }

            // Check lines.
            {
                var blockX1 = bm.GetBlockX(this.currentBox[Box.Left]);
                var blockX2 = bm.GetBlockX(this.currentBox[Box.Right]);
                var blockY1 = bm.GetBlockY(this.currentBox[Box.Bottom]);
                var blockY2 = bm.GetBlockY(this.currentBox[Box.Top]);

                for (var bx = blockX1; bx <= blockX2; bx++)
                {
                    for (var by = blockY1; by <= blockY2; by++)
                    {
                        if (!map.BlockMap.IterateLines(bx, by, this.checkLineFunc, validCount))
                        {
                            return(false);
                        }
                    }
                }
            }

            return(true);
        }
Esempio n. 12
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        /// <summary>
        /// Adjusts currentFloorZ and currentCeilingZ as lines are contacted.
        /// </summary>
        private bool CheckLine(LineDef line)
        {
            var mc = this.world.MapCollision;

            if (this.currentBox.Right() <= line.BoundingBox.Left() ||
                this.currentBox.Left() >= line.BoundingBox.Right() ||
                this.currentBox.Top() <= line.BoundingBox.Bottom() ||
                this.currentBox.Bottom() >= line.BoundingBox.Top())
            {
                return(true);
            }

            if (Geometry.BoxOnLineSide(this.currentBox, line) != -1)
            {
                return(true);
            }

            // A line has been hit.
            //
            // The moving thing's destination position will cross the given line.
            // If this should not be allowed, return false.
            // If the line is special, keep track of it to process later if the move is proven ok.
            //
            // NOTE:
            //     specials are NOT sorted by order, so two special lines that are only 8 pixels
            //     apart could be crossed in either order.

            if (line.BackSector == null)
            {
                // One sided line.
                return(false);
            }

            if ((this.currentThing.Flags & MobjFlags.Missile) == 0)
            {
                if ((line.Flags & LineFlags.Blocking) != 0)
                {
                    // Explicitly blocking everything.
                    return(false);
                }

                if (this.currentThing.Player == null && (line.Flags & LineFlags.BlockMonsters) != 0)
                {
                    // Block monsters only.
                    return(false);
                }
            }

            // Set openrange, opentop, openbottom.
            mc.LineOpening(line);

            // Adjust floor / ceiling heights.
            if (mc.OpenTop < this.currentCeilingZ)
            {
                this.currentCeilingZ    = mc.OpenTop;
                this.currentCeilingLine = line;
            }

            if (mc.OpenBottom > this.currentFloorZ)
            {
                this.currentFloorZ = mc.OpenBottom;
            }

            if (mc.LowFloor < this.currentDropoffZ)
            {
                this.currentDropoffZ = mc.LowFloor;
            }

            // If contacted a special line, add it to the list.
            if (line.Special != 0)
            {
                this.crossedSpecials[this.crossedSpecialCount] = line;
                this.crossedSpecialCount++;
            }

            return(true);
        }
Esempio n. 13
0
 public BuiltInFunctions()
 {
     // Text
     Functions["len"]         = new Len();
     Functions["lower"]       = new Lower();
     Functions["upper"]       = new Upper();
     Functions["left"]        = new Left();
     Functions["right"]       = new Right();
     Functions["mid"]         = new Mid();
     Functions["replace"]     = new Replace();
     Functions["rept"]        = new Rept();
     Functions["substitute"]  = new Substitute();
     Functions["concatenate"] = new Concatenate();
     Functions["char"]        = new CharFunction();
     Functions["exact"]       = new Exact();
     Functions["find"]        = new Find();
     Functions["fixed"]       = new Fixed();
     Functions["proper"]      = new Proper();
     Functions["text"]        = new Text.Text();
     Functions["t"]           = new T();
     Functions["hyperlink"]   = new Hyperlink();
     // Numbers
     Functions["int"] = new CInt();
     // Math
     Functions["abs"]         = new Abs();
     Functions["asin"]        = new Asin();
     Functions["asinh"]       = new Asinh();
     Functions["cos"]         = new Cos();
     Functions["cosh"]        = new Cosh();
     Functions["power"]       = new Power();
     Functions["sign"]        = new Sign();
     Functions["sqrt"]        = new Sqrt();
     Functions["sqrtpi"]      = new SqrtPi();
     Functions["pi"]          = new Pi();
     Functions["product"]     = new Product();
     Functions["ceiling"]     = new Ceiling();
     Functions["count"]       = new Count();
     Functions["counta"]      = new CountA();
     Functions["countblank"]  = new CountBlank();
     Functions["countif"]     = new CountIf();
     Functions["countifs"]    = new CountIfs();
     Functions["fact"]        = new Fact();
     Functions["floor"]       = new Floor();
     Functions["sin"]         = new Sin();
     Functions["sinh"]        = new Sinh();
     Functions["sum"]         = new Sum();
     Functions["sumif"]       = new SumIf();
     Functions["sumifs"]      = new SumIfs();
     Functions["sumproduct"]  = new SumProduct();
     Functions["sumsq"]       = new Sumsq();
     Functions["stdev"]       = new Stdev();
     Functions["stdevp"]      = new StdevP();
     Functions["stdev.s"]     = new Stdev();
     Functions["stdev.p"]     = new StdevP();
     Functions["subtotal"]    = new Subtotal();
     Functions["exp"]         = new Exp();
     Functions["log"]         = new Log();
     Functions["log10"]       = new Log10();
     Functions["ln"]          = new Ln();
     Functions["max"]         = new Max();
     Functions["maxa"]        = new Maxa();
     Functions["median"]      = new Median();
     Functions["min"]         = new Min();
     Functions["mina"]        = new Mina();
     Functions["mod"]         = new Mod();
     Functions["average"]     = new Average();
     Functions["averagea"]    = new AverageA();
     Functions["averageif"]   = new AverageIf();
     Functions["averageifs"]  = new AverageIfs();
     Functions["round"]       = new Round();
     Functions["rounddown"]   = new Rounddown();
     Functions["roundup"]     = new Roundup();
     Functions["rand"]        = new Rand();
     Functions["randbetween"] = new RandBetween();
     Functions["quotient"]    = new Quotient();
     Functions["trunc"]       = new Trunc();
     Functions["tan"]         = new Tan();
     Functions["tanh"]        = new Tanh();
     Functions["atan"]        = new Atan();
     Functions["atan2"]       = new Atan2();
     Functions["atanh"]       = new Atanh();
     Functions["acos"]        = new Acos();
     Functions["acosh"]       = new Acosh();
     Functions["var"]         = new Var();
     Functions["varp"]        = new VarP();
     Functions["large"]       = new Large();
     Functions["small"]       = new Small();
     Functions["degrees"]     = new Degrees();
     // Information
     Functions["isblank"]    = new IsBlank();
     Functions["isnumber"]   = new IsNumber();
     Functions["istext"]     = new IsText();
     Functions["isnontext"]  = new IsNonText();
     Functions["iserror"]    = new IsError();
     Functions["iserr"]      = new IsErr();
     Functions["error.type"] = new ErrorType();
     Functions["iseven"]     = new IsEven();
     Functions["isodd"]      = new IsOdd();
     Functions["islogical"]  = new IsLogical();
     Functions["isna"]       = new IsNa();
     Functions["na"]         = new Na();
     Functions["n"]          = new N();
     // Logical
     Functions["if"]      = new If();
     Functions["iferror"] = new IfError();
     Functions["ifna"]    = new IfNa();
     Functions["not"]     = new Not();
     Functions["and"]     = new And();
     Functions["or"]      = new Or();
     Functions["true"]    = new True();
     Functions["false"]   = new False();
     // Reference and lookup
     Functions["address"] = new Address();
     Functions["hlookup"] = new HLookup();
     Functions["vlookup"] = new VLookup();
     Functions["lookup"]  = new Lookup();
     Functions["match"]   = new Match();
     Functions["row"]     = new Row()
     {
         SkipArgumentEvaluation = true
     };
     Functions["rows"] = new Rows()
     {
         SkipArgumentEvaluation = true
     };
     Functions["column"] = new Column()
     {
         SkipArgumentEvaluation = true
     };
     Functions["columns"] = new Columns()
     {
         SkipArgumentEvaluation = true
     };
     Functions["choose"]   = new Choose();
     Functions["index"]    = new Index();
     Functions["indirect"] = new Indirect();
     Functions["offset"]   = new Offset()
     {
         SkipArgumentEvaluation = true
     };
     // Date
     Functions["date"]       = new Date();
     Functions["today"]      = new Today();
     Functions["now"]        = new Now();
     Functions["day"]        = new Day();
     Functions["month"]      = new Month();
     Functions["year"]       = new Year();
     Functions["time"]       = new Time();
     Functions["hour"]       = new Hour();
     Functions["minute"]     = new Minute();
     Functions["second"]     = new Second();
     Functions["weeknum"]    = new Weeknum();
     Functions["weekday"]    = new Weekday();
     Functions["days360"]    = new Days360();
     Functions["yearfrac"]   = new Yearfrac();
     Functions["edate"]      = new Edate();
     Functions["eomonth"]    = new Eomonth();
     Functions["isoweeknum"] = new IsoWeekNum();
     Functions["workday"]    = new Workday();
 }
Esempio n. 14
0
        public void Init()
        {
            gtkWin = new Window("DRAL Retag");

            var size = gtkWin.Display.PrimaryMonitor.Workarea.Size;

            Image <Pixel> icon = new Image <Pixel>(32, 32);

            icon.ApplyFilter((_, _2) => Pixels.Black);
            Graphics.FromImage(icon).DrawString("DR", new FontSize(BaseFonts.Premia, 2), Pixels.Red, 0, 0);
            Graphics.FromImage(icon).DrawString("AL", new FontSize(BaseFonts.Premia, 2), Pixels.Red, 0, 16);
            gtkWin.Icon = GtkWrapper.ToPixbuf(icon);
            gtkWin.Resize(size.Width, size.Height);

            //Wfrm = 13/9 of Wimg
            //Wimg = 9*Wfrm/13
            int maxImageWidth  = 9 * size.Width / 13;
            int maxImageHeight = size.Height - 100;
            int maxImageWidthTakingImageHeight = maxImageHeight * 4 / 3;
            int maxImageHeightTakingImageWidth = maxImageWidth * 3 / 4;

            var imageWidth  = Math.Min(maxImageWidth, maxImageWidthTakingImageHeight);
            var imageHeight = Math.Min(maxImageHeight, maxImageHeightTakingImageWidth);

            Box    bx               = new Box(Orientation.Vertical, 1);
            Box    menu             = new Box(Orientation.Horizontal, 1);
            Button buttonLoadLabels = new Button()
            {
                Label = "Load labels"
            };

            buttonLoadLabels.Clicked += ButtonLoadLabels_Clicked;
            menu.Add(buttonLoadLabels);
            buttons.Add(buttonLoadLabels);
            Button buttonLoadImages = new Button()
            {
                Label = "Load Image"
            };

            buttonLoadImages.Clicked += ButtonLoadImages_Clicked;
            menu.Add(buttonLoadImages);
            buttons.Add(buttonLoadImages);
            Button buttonSave = new Button()
            {
                Label = "Save"
            };

            buttonSave.Clicked += ButtonSave_Clicked;
            menu.Add(buttonSave);
            buttons.Add(buttonSave);
            Button btnFixMissing = new Button()
            {
                Label = "Repair Dataset"
            };

            btnFixMissing.Clicked += BtnFixMissing_Clicked;
            menu.Add(btnFixMissing);
            buttons.Add(btnFixMissing);
            chkGenNow        = new CheckButton("Generate now");
            chkGenNow.Active = true;
            menu.Add(chkGenNow);

            lblCount = new Label("0");
            menu.Add(lblCount);
            Label lblImageInTraining = new Label("images in training");

            menu.Add(lblImageInTraining);

            Box      bottom = new Box(Orientation.Horizontal, 1);
            EventBox evt    = new EventBox();

            left = new Fixed();
            evt.Add(left);

            pictureBox = new FixedSizeImage(new MoyskleyTech.ImageProcessing.Image.Size(imageWidth, imageHeight));
            pictureBox.WidthRequest = imageWidth;
            left.Put(pictureBox, 0, 0);

            evt.AddEvents((int)Gdk.EventMask.AllEventsMask);
            evt.MotionNotifyEvent  += Left_MotionNotifyEvent;
            evt.ButtonPressEvent   += Evt_ButtonPressEvent;
            evt.ButtonReleaseEvent += Evt_ButtonReleaseEvent;

            right = new Box(Orientation.Vertical, 1);
            right.WidthRequest = 200;
            var siz = new MoyskleyTech.ImageProcessing.Image.Size(imageWidth * 4 / 9, imageHeight / 3);

            iOri        = new FixedSizeImage(siz);
            iActivated  = new FixedSizeImage(siz);
            iActivation = new FixedSizeImage(siz);
            right.Add(iOri);
            right.Add(iActivated);
            right.Add(iActivation);

            rectangle_top    = new DrawingArea();
            rectangle_left   = new DrawingArea();
            rectangle_right  = new DrawingArea();
            rectangle_bottom = new DrawingArea();

            rectangle_top.Drawn    += Black_Drawn;
            rectangle_left.Drawn   += Black_Drawn;
            rectangle_right.Drawn  += Black_Drawn;
            rectangle_bottom.Drawn += Black_Drawn;

            viewCircle = new DrawingArea();
            viewCircle.WidthRequest  = windowSize;
            viewCircle.HeightRequest = windowSize;
            viewCircle.Drawn        += Da_Drawn;

            left.Put(rectangle_top, 0, 0);
            left.Put(rectangle_left, 0, 0);
            left.Put(rectangle_right, 0, 0);
            left.Put(rectangle_bottom, 0, 0);
            left.Put(viewCircle, 0, 0);

            bottom.Add(evt);
            bottom.Add(right);

            menu.HeightRequest = 30;
            bx.Add(menu);
            bx.Add(bottom);
            gtkWin.KeyPressEvent += GtkWin_KeyPressEvent;
            gtkWin.Add(bx);
            //Show Everything
            gtkWin.DeleteEvent += delegate { Application.Quit(); };
        }
        static void Main(string[] args)
        {
            Console.WriteLine("Q24_8:");
            {
                var f1 = new Fixed <Q24_8>(3);
                Console.WriteLine($"3: {f1}");

                var f2 = new Fixed <Q24_8>(2);
                var f3 = f1.Add(f2);
                Console.WriteLine($"3 + 2: {f3}");

                f3 = f1.Multiply(f2);
                Console.WriteLine($"3 * 2: {f3}");

                f1 = new Fixed <Q24_8>(19);
                f2 = new Fixed <Q24_8>(13);
                f3 = f1.Multiply(f2);
                Console.WriteLine($"19 * 13: {f3}");

                f1 = new Fixed <Q24_8>(3);
                f2 = new Fixed <Q24_8>(2);
                f3 = f1.Divide(f2);
                Console.WriteLine($"3 / 2: {f3}");

                f1 = new Fixed <Q24_8>(248);
                f2 = new Fixed <Q24_8>(10);
                f3 = f1.Divide(f2);
                Console.WriteLine($"248 / 10: {f3}");

                f1 = new Fixed <Q24_8>(625);
                f2 = new Fixed <Q24_8>(1000);
                f3 = f1.Divide(f2);
                Console.WriteLine($"625 / 1000: {f3}");
            }

            //

            Console.WriteLine();
            Console.WriteLine("Q16_16:");
            {
                var f1 = new Fixed <Q16_16>(3);
                Console.WriteLine($"3: {f1}");

                var f2 = new Fixed <Q16_16>(2);
                var f3 = f1.Add(f2);
                Console.WriteLine($"3 + 2: {f3}");

                f3 = f1.Multiply(f2);
                Console.WriteLine($"3 * 2: {f3}");

                f1 = new Fixed <Q16_16>(19);
                f2 = new Fixed <Q16_16>(13);
                f3 = f1.Multiply(f2);
                Console.WriteLine($"19 * 13: {f3}");

                f1 = new Fixed <Q16_16>(248);
                f2 = new Fixed <Q16_16>(10);
                f3 = f1.Divide(f2);
                Console.WriteLine($"248 / 10: {f3}");

                f1 = new Fixed <Q16_16>(625);
                f2 = new Fixed <Q16_16>(1000);
                f3 = f1.Divide(f2);
                Console.WriteLine($"625 / 1000: {f3}");
            }

            //

            Console.WriteLine();
            Console.WriteLine("Q8_24:");
            {
                var f1 = new Fixed <Q8_24>(3);
                var f2 = new Fixed <Q8_24>(2);
                var f3 = f1.Add(f2);
                Console.WriteLine($"3 + 2: {f3}");

                f3 = f1.Multiply(f2);
                Console.WriteLine($"3 * 2: {f3}");

                f1 = new Fixed <Q8_24>(19);
                f2 = new Fixed <Q8_24>(13);
                f3 = f1.Multiply(f2);
                Console.WriteLine($"19 * 13: {f3}");

                f1 = new Fixed <Q8_24>(248);
                f2 = new Fixed <Q8_24>(10);
                f3 = f1.Divide(f2);
                Console.WriteLine($"248 / 10: {f3}");

                f1 = new Fixed <Q8_24>(625);
                f2 = new Fixed <Q8_24>(1000);
                f3 = f1.Divide(f2);
                Console.WriteLine($"625 / 1000: {f3}");
            }
        }
Esempio n. 16
0
 public static Action im(CPU cpu, Fixed o) =>
   () => cpu.interruptMode = o.Target;
Esempio n. 17
0
 public override Statement VisitFixed(Fixed Fixed){
   if (Fixed == null) return null;
   Block result = new Block(new StatementList());
   LocalDeclarationsStatement locStat = Fixed.Declarators as LocalDeclarationsStatement;
   if (locStat == null) return null;
   LocalDeclarationList locDecList = locStat.Declarations;
   for (int i = 0, n = locDecList == null ? 0 : locDecList.Count; i < n; i++){
     LocalDeclaration locDec = locDecList[i];
     if (locDec == null) continue;
     Field f = locDec.Field;
     if (f == null || f.Initializer == null) continue;
     TypeNode t = f.Type;
     if (t == null) continue;
     bool noPinning = false;  // NOTE: fixed pointer locals have type pinned T& not T*
     Pointer declaredPointerType = t as Pointer;
     if (declaredPointerType != null) {
       UnaryExpression arrayAddressOfElem0 = f.Initializer as UnaryExpression;
       if (arrayAddressOfElem0 != null && arrayAddressOfElem0.Operand is Indexer) {
         Indexer arrayElem0 = (Indexer)arrayAddressOfElem0.Operand;
         if (arrayElem0.ArgumentListIsIncomplete) {
           // Using IsIncomplete is the hacky way in which the Checker transmits to the normalizer that the right
           // hand of the fixed declaration was just an array and that the compiler added &arr[0].
           // Now we need to do 2 more things: check that arr is not null and that arr.Length > 0.
           Expression array = arrayElem0.Object;
           Local arrayLocal = new Local(array.Type);
           Statement assignment = new AssignmentStatement(arrayLocal, array, array.SourceContext);
           arrayElem0.Object = arrayLocal;
           BinaryExpression arrayIsNull = new BinaryExpression(arrayLocal, Literal.Null, NodeType.Eq);
           Expression arrayLength = new UnaryExpression(arrayLocal, NodeType.Ldlen, SystemTypes.Int32);
           BinaryExpression arrayIsEmpty = new BinaryExpression(arrayLength, Literal.Int32Zero, NodeType.Eq);
           TernaryExpression cond1 = new TernaryExpression(arrayIsEmpty, Literal.Null, arrayAddressOfElem0, NodeType.Conditional, t);
           TernaryExpression cond2 = new TernaryExpression(arrayIsNull, Literal.Null, cond1, NodeType.Conditional, t);
           StatementList statements = new StatementList(assignment, new ExpressionStatement(cond2));
           f.Initializer = new BlockExpression(new Block(statements), t);
         }
       } else if (f.Initializer.Type == SystemTypes.String) {
         Debug.Assert(((Pointer)t).ElementType == SystemTypes.Char);
         Local pinnedString = new Local(SystemTypes.String); pinnedString.Pinned = true;
         Statement assignment = new AssignmentStatement(pinnedString, f.Initializer, f.Initializer.SourceContext);
         BinaryExpression stringIsNull = new BinaryExpression(pinnedString, Literal.Null, NodeType.Eq);
         Expression call = new MethodCall(new MemberBinding(null, Runtime.GetOffsetToStringData), null, NodeType.Call);
         Expression add = new BinaryExpression(new UnaryExpression(pinnedString, NodeType.Conv_I), new UnaryExpression(call, NodeType.Conv_I), NodeType.Add);
         TernaryExpression cond = new TernaryExpression(stringIsNull, Literal.Null, add, NodeType.Conditional, t);
         StatementList statements = new StatementList(assignment, new ExpressionStatement(cond));
         f.Initializer = new BlockExpression(new Block(statements), t);
         noPinning = true;
       }
     }
     f.Flags &= ~FieldFlags.InitOnly;
     AssignmentStatement aStat = new AssignmentStatement(new MemberBinding(new ImplicitThis(), f), f.Initializer);
     aStat.SourceContext = f.Initializer.SourceContext;
     result.Statements.Add((Statement)this.Visit(aStat));
     LocalBinding lb = aStat.Target as LocalBinding;
     if (lb != null && !noPinning) {
       f.Type = declaredPointerType.ElementType.GetReferenceType(); // must be declared as a pinned T&
       lb.BoundLocal.Pinned = true;
       lb.BoundLocal.Type = f.Type;
     }
   }
   result.Statements.Add(this.VisitBlock(Fixed.Body));
   return result;
 }
Esempio n. 18
0
        /// <summary>
        /// Check for item pickup.
        /// </summary>
        public void TouchSpecialThing(Mobj special, Mobj toucher)
        {
            var delta = special.Z - toucher.Z;

            if (delta > toucher.Height || delta < Fixed.FromInt(-8))
            {
                // Out of reach.
                return;
            }

            var sound  = Sfx.ITEMUP;
            var player = toucher.Player;

            // Dead thing touching.
            // Can happen with a sliding player corpse.
            if (toucher.Health <= 0)
            {
                return;
            }

            var healthComponent = player.Entity.GetComponent <Health>();

            // Identify by sprite.
            switch (special.Sprite)
            {
            // Armor.
            case Sprite.ARM1:
                if (!this.GiveArmor(player, ItemPickup.GreenArmorClass))
                {
                    return;
                }

                player.SendMessage(DoomInfo.Strings.GOTARMOR);

                break;

            case Sprite.ARM2:
                if (!this.GiveArmor(player, ItemPickup.BlueArmorClass))
                {
                    return;
                }

                player.SendMessage(DoomInfo.Strings.GOTMEGA);

                break;

            // Bonus items.
            case Sprite.BON1:
                healthComponent.Current++;

                if (healthComponent.Current > healthComponent.Info.Maximum)
                {
                    healthComponent.Current = healthComponent.Info.Maximum;
                }

                player.Mobj.Health = healthComponent.Current;
                player.SendMessage(DoomInfo.Strings.GOTHTHBONUS);

                break;

            case Sprite.BON2:
                // Can go over 100%.
                player.ArmorPoints++;

                if (player.ArmorPoints > Player.MaxArmor)
                {
                    player.ArmorPoints = Player.MaxArmor;
                }

                if (player.ArmorType == 0)
                {
                    player.ArmorType = ItemPickup.GreenArmorClass;
                }

                player.SendMessage(DoomInfo.Strings.GOTARMBONUS);

                break;

            case Sprite.SOUL:
                healthComponent.Current += ItemPickup.SoulsphereHealth;

                if (healthComponent.Current > healthComponent.Info.Maximum)
                {
                    healthComponent.Current = healthComponent.Info.Maximum;
                }

                player.Mobj.Health = healthComponent.Current;
                player.SendMessage(DoomInfo.Strings.GOTSUPER);
                sound = Sfx.GETPOW;

                break;

            case Sprite.MEGA:
                if (DoomApplication.Instance.IWad != "doom2" &&
                    DoomApplication.Instance.IWad != "freedoom2" &&
                    DoomApplication.Instance.IWad != "plutonia" &&
                    DoomApplication.Instance.IWad != "tnt")
                {
                    return;
                }

                healthComponent.Current = ItemPickup.MegasphereHealth;
                player.Mobj.Health      = healthComponent.Current;
                this.GiveArmor(player, ItemPickup.BlueArmorClass);
                player.SendMessage(DoomInfo.Strings.GOTMSPHERE);
                sound = Sfx.GETPOW;

                break;

            // Cards.
            // Leave cards for everyone.
            case Sprite.BKEY:
                if (player.Entity.GetComponent <InventoryComponent>().TryAdd(EntityInfo.Create <BlueCard>(this.world)))
                {
                    player.SendMessage(DoomInfo.Strings.GOTBLUECARD);
                }

                break;

            case Sprite.YKEY:
                if (player.Entity.GetComponent <InventoryComponent>().TryAdd(EntityInfo.Create <YellowCard>(this.world)))
                {
                    player.SendMessage(DoomInfo.Strings.GOTYELWCARD);
                }

                break;

            case Sprite.RKEY:
                if (player.Entity.GetComponent <InventoryComponent>().TryAdd(EntityInfo.Create <RedCard>(this.world)))
                {
                    player.SendMessage(DoomInfo.Strings.GOTREDCARD);
                }

                break;

            case Sprite.BSKU:
                if (player.Entity.GetComponent <InventoryComponent>().TryAdd(EntityInfo.Create <BlueSkull>(this.world)))
                {
                    player.SendMessage(DoomInfo.Strings.GOTBLUESKUL);
                }

                break;

            case Sprite.YSKU:
                if (player.Entity.GetComponent <InventoryComponent>().TryAdd(EntityInfo.Create <YellowSkull>(this.world)))
                {
                    player.SendMessage(DoomInfo.Strings.GOTYELWSKUL);
                }

                break;

            case Sprite.RSKU:
                if (player.Entity.GetComponent <InventoryComponent>().TryAdd(EntityInfo.Create <RedSkull>(this.world)))
                {
                    player.SendMessage(DoomInfo.Strings.GOTREDSKULL);
                }

                break;

            // Medikits, heals.
            case Sprite.STIM:
                if (!this.GiveHealth(player, 10))
                {
                    return;
                }

                player.SendMessage(DoomInfo.Strings.GOTSTIM);

                break;

            case Sprite.MEDI:
                if (!this.GiveHealth(player, 25))
                {
                    return;
                }

                if (healthComponent.Current < 25)
                {
                    player.SendMessage(DoomInfo.Strings.GOTMEDINEED);
                }
                else
                {
                    player.SendMessage(DoomInfo.Strings.GOTMEDIKIT);
                }

                break;

            // Power ups.
            case Sprite.PINV:
                if (!this.GivePower(player, PowerType.Invulnerability))
                {
                    return;
                }

                player.SendMessage(DoomInfo.Strings.GOTINVUL);
                sound = Sfx.GETPOW;

                break;

            case Sprite.PSTR:
                if (!this.GivePower(player, PowerType.Strength))
                {
                    return;
                }

                player.SendMessage(DoomInfo.Strings.GOTBERSERK);

                var fists = player.Entity.GetComponent <InventoryComponent>().Items.FirstOrDefault(weapon => weapon.Info is WeaponFists);

                if (fists != null && player.ReadyWeapon != fists)
                {
                    player.PendingWeapon = fists;
                }

                sound = Sfx.GETPOW;

                break;

            case Sprite.PINS:
                if (!this.GivePower(player, PowerType.Invisibility))
                {
                    return;
                }

                player.SendMessage(DoomInfo.Strings.GOTINVIS);
                sound = Sfx.GETPOW;

                break;

            case Sprite.SUIT:
                if (!this.GivePower(player, PowerType.IronFeet))
                {
                    return;
                }

                player.SendMessage(DoomInfo.Strings.GOTSUIT);
                sound = Sfx.GETPOW;

                break;

            case Sprite.PMAP:
                if (!this.GivePower(player, PowerType.AllMap))
                {
                    return;
                }

                player.SendMessage(DoomInfo.Strings.GOTMAP);
                sound = Sfx.GETPOW;

                break;

            case Sprite.PVIS:
                if (!this.GivePower(player, PowerType.Infrared))
                {
                    return;
                }

                player.SendMessage(DoomInfo.Strings.GOTVISOR);
                sound = Sfx.GETPOW;

                break;

            // Ammo.
            case Sprite.CLIP:
                if ((special.Flags & MobjFlags.Dropped) != 0)
                {
                    if (!this.GiveAmmo(player, nameof(AmmoBullets), 0))
                    {
                        return;
                    }
                }
                else
                {
                    if (!this.GiveAmmo(player, nameof(AmmoBullets), 1))
                    {
                        return;
                    }
                }

                player.SendMessage(DoomInfo.Strings.GOTCLIP);

                break;

            case Sprite.AMMO:
                if (!this.GiveAmmo(player, nameof(AmmoBullets), 5))
                {
                    return;
                }

                player.SendMessage(DoomInfo.Strings.GOTCLIPBOX);

                break;

            case Sprite.ROCK:
                if (!this.GiveAmmo(player, nameof(AmmoRockets), 1))
                {
                    return;
                }

                player.SendMessage(DoomInfo.Strings.GOTROCKET);

                break;

            case Sprite.BROK:
                if (!this.GiveAmmo(player, nameof(AmmoRockets), 5))
                {
                    return;
                }

                player.SendMessage(DoomInfo.Strings.GOTROCKBOX);

                break;

            case Sprite.CELL:
                if (!this.GiveAmmo(player, nameof(AmmoCells), 1))
                {
                    return;
                }

                player.SendMessage(DoomInfo.Strings.GOTCELL);

                break;

            case Sprite.CELP:
                if (!this.GiveAmmo(player, nameof(AmmoCells), 5))
                {
                    return;
                }

                player.SendMessage(DoomInfo.Strings.GOTCELLBOX);

                break;

            case Sprite.SHEL:
                if (!this.GiveAmmo(player, nameof(AmmoShells), 1))
                {
                    return;
                }

                player.SendMessage(DoomInfo.Strings.GOTSHELLS);

                break;

            case Sprite.SBOX:
                if (!this.GiveAmmo(player, nameof(AmmoShells), 5))
                {
                    return;
                }

                player.SendMessage(DoomInfo.Strings.GOTSHELLBOX);

                break;

            case Sprite.BPAK:
                if (!player.Backpack)
                {
                    // TODO Re-implement this!

                    /*for (var i = 0; i < (int) AmmoType.Count; i++)
                     * {
                     *      player.MaxAmmo[i] *= 2;
                     * }*/

                    player.Backpack = true;
                }

                foreach (var entityInfo in EntityInfo.WithComponent <AmmoComponentInfo>())
                {
                    this.GiveAmmo(player, entityInfo.Name, 1);
                }

                player.SendMessage(DoomInfo.Strings.GOTBACKPACK);

                break;

            // Weapons.
            case Sprite.BFUG:
                if (!this.GiveWeapon(player, nameof(WeaponBfg), false))
                {
                    return;
                }

                player.SendMessage(DoomInfo.Strings.GOTBFG9000);
                sound = Sfx.WPNUP;

                break;

            case Sprite.MGUN:
                if (!this.GiveWeapon(player, nameof(WeaponChaingun), (special.Flags & MobjFlags.Dropped) != 0))
                {
                    return;
                }

                player.SendMessage(DoomInfo.Strings.GOTCHAINGUN);
                sound = Sfx.WPNUP;

                break;

            case Sprite.CSAW:
                if (!this.GiveWeapon(player, nameof(WeaponChainsaw), false))
                {
                    return;
                }

                player.SendMessage(DoomInfo.Strings.GOTCHAINSAW);
                sound = Sfx.WPNUP;

                break;

            case Sprite.LAUN:
                if (!this.GiveWeapon(player, nameof(WeaponRocketLauncher), false))
                {
                    return;
                }

                player.SendMessage(DoomInfo.Strings.GOTLAUNCHER);
                sound = Sfx.WPNUP;

                break;

            case Sprite.PLAS:
                if (!this.GiveWeapon(player, nameof(WeaponPlasmagun), false))
                {
                    return;
                }

                player.SendMessage(DoomInfo.Strings.GOTPLASMA);
                sound = Sfx.WPNUP;

                break;

            case Sprite.SHOT:
                if (!this.GiveWeapon(player, nameof(WeaponShotgun), (special.Flags & MobjFlags.Dropped) != 0))
                {
                    return;
                }

                player.SendMessage(DoomInfo.Strings.GOTSHOTGUN);
                sound = Sfx.WPNUP;

                break;

            case Sprite.SGN2:
                if (!this.GiveWeapon(player, nameof(WeaponSuperShotgun), (special.Flags & MobjFlags.Dropped) != 0))
                {
                    return;
                }

                player.SendMessage(DoomInfo.Strings.GOTSHOTGUN2);
                sound = Sfx.WPNUP;

                break;

            default:
                throw new Exception("Unknown gettable thing!");
            }

            if ((special.Flags & MobjFlags.CountItem) != 0)
            {
                player.ItemCount++;
            }

            this.world.ThingAllocation.RemoveMobj(special);

            player.BonusCount += ItemPickup.bonusAdd;

            this.world.StartSound(player.Mobj, sound, SfxType.Misc);
        }
Esempio n. 19
0
 public static Action res(CPU cpu, Fixed bit, Operand<byte> value) =>
   () => value.Target = Utils.SetBit(value.Target, bit.Target);
Esempio n. 20
0
 private static Fixed Operation(Fixed firstValue, OperationType operationType, Fixed secondValue) => default;
Esempio n. 21
0
		public virtual object Visit (Fixed fixedStatement)
		{
			return null;
		}
Esempio n. 22
0
 private Fixed CalcAbsoluteStats(Fixed @base, Fixed lp, Fixed lf, Fixed arena, Fixed bp, Fixed bf, Fixed ap, Fixed af, Fixed mp, Fixed mf) => default;
Esempio n. 23
0
void case_1012()
#line 6771 "cs-parser.jay"
{
		if (yyVals[0+yyTop] is EmptyStatement && lexer.peek_token () == Token.OPEN_BRACE)
			Warning_EmptyStatement (GetLocation (yyVals[0+yyTop]));
	  
		Fixed f = new Fixed ((Fixed.VariableDeclaration) yyVals[-1+yyTop], (Statement) yyVals[0+yyTop], GetLocation (yyVals[-9+yyTop]));
		current_block.AddStatement (f);
		lbag.AddStatement (f, GetLocation (yyVals[-8+yyTop]), GetLocation (yyVals[-2+yyTop]));
		yyVal = end_block (GetLocation (yyVals[-2+yyTop]));
	  }
Esempio n. 24
0
 private Fixed CalcPercentageStats(Fixed @base, Fixed lp, Fixed lf, Fixed bp, Fixed bf, Fixed ap, Fixed af, Fixed mp, Fixed mf) => default;
Esempio n. 25
0
 public virtual Statement VisitFixed(Fixed Fixed){
   if (Fixed == null) return null;
   Fixed.Declarators = (Statement)this.Visit(Fixed.Declarators);
   Fixed.Body = this.VisitBlock(Fixed.Body);
   return Fixed;
 }
Esempio n. 26
0
 private static Fixed CalcValue(Fixed baseStat, HeroGrade heroGrade, int level) => default;
Esempio n. 27
0
 public void CannotChangeValue() {
   Fixed f = new Fixed(0x50);
   f.Target = 0xFF;
   Assert.Equal(0x50, f.Target);
 }
Esempio n. 28
0
 public bool AnyLessThan(Fixed value) => default;
Esempio n. 29
0
 public void setSlippageForTest(double newSlippage)
 {
     overrideSlippageCalculator(typeof(Fixed));
     Fixed.setSlippageForTest(this, newSlippage);
 }
Esempio n. 30
0
 public bool AnyLessThanOrEqual(Fixed value) => default;
Esempio n. 31
0
        public CalibrationDialog(
            string name,
            Window parent,
            GetCalibrationValueHandler GetCalibrationValue,
            CalibrationState startingState = CalibrationState.ZeroValue)
            : base(name + " Calibration", parent, DialogFlags.DestroyWithParent)
        {
            Name           = "AquaPic.Calibration." + name;
            WindowPosition = (WindowPosition)4;
            SetSizeRequest(600, 300);
#if RPI_BUILD
            Decorated = false;

            ExposeEvent += (o, args) => {
                using (Context cr = Gdk.CairoHelper.Create(GdkWindow)) {
                    cr.MoveTo(Allocation.Left, Allocation.Top);
                    cr.LineTo(Allocation.Right, Allocation.Top);
                    cr.LineTo(Allocation.Right, Allocation.Bottom);
                    cr.LineTo(Allocation.Left, Allocation.Bottom);
                    cr.ClosePath();
                    cr.LineWidth = 1.8;
                    TouchColor.SetSource(cr, "grey4");
                    cr.Stroke();
                }
            };
#endif

            ModifyBg(StateType.Normal, TouchColor.NewGtkColor("grey0"));

            foreach (var w in Children)
            {
                Remove(w);
                w.Destroy();
            }

            ExposeEvent += OnExpose;

            this.GetCalibrationValue = GetCalibrationValue;
            if ((startingState == CalibrationState.ZeroActual) || (startingState == CalibrationState.ZeroValue))
            {
                calState = startingState;
            }
            else
            {
                calState = CalibrationState.ZeroValue;
            }
            calArgs = new CalibrationArguments();
            forced  = false;
            init    = false;

            fix = new Fixed();
            fix.SetSizeRequest(600, 300);

            tv = new TextView();
            tv.ModifyFont(Pango.FontDescription.FromString("Sans 11"));
            tv.ModifyBase(StateType.Normal, TouchColor.NewGtkColor("grey4"));
            tv.ModifyText(StateType.Normal, TouchColor.NewGtkColor("black"));
            tv.CanFocus = false;
            tv.Editable = false;

            ScrolledWindow sw = new ScrolledWindow();
            sw.SetSizeRequest(580, 225);
            sw.Add(tv);
            tv.Show();
            fix.Put(sw, 10, 25);
            sw.Show();

            var l = new TouchLabel();
            l.text          = name;
            l.WidthRequest  = 600;
            l.textAlignment = TouchAlignment.Center;
            fix.Put(l, 0, 3);
            l.Show();

            valTb = new TouchTextBox();
            valTb.SetSizeRequest(110, 30);
            valTb.textAlignment   = TouchAlignment.Center;
            valTb.backgroundColor = "grey1";
            if (calState == CalibrationState.ZeroActual)
            {
                valTb.text              = "Enter Actual";
                valTb.enableTouch       = true;
                valTb.backgroundColor   = "grey4";
                valTb.TextChangedEvent += OnValueTextBoxTextChanged;
            }
            else
            {
                valTb.text = GetCalibrationValue().ToString("F2");
            }
            fix.Put(valTb, 10, 260);
            valTb.Show();

            actionBtn = new TouchButton();
            actionBtn.SetSizeRequest(150, 30);
            if (calState == CalibrationState.ZeroActual)
            {
                actionBtn.text = "Zero Actual";
            }
            else
            {
                actionBtn.text = "Zero Value";
            }
            actionBtn.ButtonReleaseEvent += OnActionButtonReleaseEvent;
            fix.Put(actionBtn, 440, 260);
            actionBtn.Show();

            var cancelBtn = new TouchButton();
            cancelBtn.SetSizeRequest(100, 30);
            cancelBtn.text                = "Cancel";
            cancelBtn.buttonColor         = "compl";
            cancelBtn.ButtonReleaseEvent += (o, args) => Destroy();
            fix.Put(cancelBtn, 335, 260);
            cancelBtn.Show();

            skipBtn = new TouchButton();
            skipBtn.SetSizeRequest(100, 30);
            skipBtn.text                = "Skip";
            skipBtn.buttonColor         = "seca";
            skipBtn.ButtonReleaseEvent += OnSkipButtonReleaseEvent;
            fix.Put(skipBtn, 230, 260);
            skipBtn.Show();

            var forceBtn = new TouchButton();
            forceBtn.SetSizeRequest(100, 30);
            forceBtn.text                = "Force";
            forceBtn.buttonColor         = "grey3";
            forceBtn.ButtonReleaseEvent += OnForceButtonReleaseEvent;
            fix.Put(forceBtn, 125, 260);
            forceBtn.Show();

            Add(fix);
            fix.Show();

            timerId = GLib.Timeout.Add(1000, OnUpdateTimer);
        }
Esempio n. 32
0
 public bool AnyGreaterThan(Fixed value) => default;
Esempio n. 33
0
 public override Statement VisitFixed(Fixed Fixed){
   if (Fixed == null) return null;
   Scope savedScope = this.scope;
   BlockScope scope = Fixed.ScopeForTemporaryVariables = new BlockScope(savedScope, Fixed.Body);
   scope.MembersArePinned = true;
   this.scope = scope;
   this.AddToAllScopes(scope);
   Declarer declarer = new Declarer(this.ErrorHandler);
   declarer.VisitFixed(Fixed, scope);
   Statement result = base.VisitFixed(Fixed);
   this.scope = savedScope;
   return result;
 }
Esempio n. 34
0
 public void Change(StatKindId statKindId, OperationType operationType, Fixed value)
 {
 }
Esempio n. 35
0
 public static Action rst(CPU cpu, Fixed o) =>
   () => cpu.Call(o.Target, 1);
Esempio n. 36
0
        public PosTablesDialog(Window pSourceWindow, DialogFlags pDialogFlags, TableFilterMode pFilterMode = TableFilterMode.Default)
            : base(pSourceWindow, pDialogFlags)
        {
            //Init Local Vars
            String windowTitle = resources.CustomResources.GetCustomResources(GlobalFramework.Settings["customCultureResourceDefinition"], "window_title_dialog_orders");
            //TODO:THEME
            //Size windowSize = new Size(837, 650);
            Size   windowSize            = new Size(720, 580);
            String fileDefaultWindowIcon = string.Empty;
            /* IN009035 */
            String fileActionViewOrders = string.Empty;

            /* IN008024 */
            if (!SettingsApp.IsDefaultTheme)
            {
                fileDefaultWindowIcon = FrameworkUtils.OSSlash(GlobalFramework.Path["images"] + @"Icons\Windows\icon_window_tables_retail.png");
                fileActionViewOrders  = FrameworkUtils.OSSlash(GlobalFramework.Path["images"] + @"Icons\icon_pos_retail_view_order.png");
            }
            else
            {
                fileDefaultWindowIcon = FrameworkUtils.OSSlash(GlobalFramework.Path["images"] + @"Icons\Windows\icon_window_tables.png");
                fileActionViewOrders  = FrameworkUtils.OSSlash(GlobalFramework.Path["images"] + @"Icons\icon_pos_table_view_order.png");
            }

            //ActionArea Icons
            String fileActionTableReservation    = FrameworkUtils.OSSlash(GlobalFramework.Path["images"] + @"Icons\icon_pos_table_reservation.png");
            String fileActionTableFilterAll      = FrameworkUtils.OSSlash(GlobalFramework.Path["images"] + @"Icons\icon_pos_table_filter_all.png");
            String fileActionTableFilterFree     = FrameworkUtils.OSSlash(GlobalFramework.Path["images"] + @"Icons\icon_pos_table_filter_free.png");
            String fileActionTableFilterOpen     = FrameworkUtils.OSSlash(GlobalFramework.Path["images"] + @"Icons\icon_pos_table_filter_open.png");
            String fileActionTableFilterReserved = FrameworkUtils.OSSlash(GlobalFramework.Path["images"] + @"Icons\icon_pos_table_filter_reserved.png");
            String fileActionTableViewTables     = FrameworkUtils.OSSlash(GlobalFramework.Path["images"] + @"Icons\icon_pos_table_view_tables.png");

            //Parameters
            _FilterMode = pFilterMode;

            //Init Content
            _fixedContent = new Fixed();

            //Init Base Queries
            _sqlPlaceBase = @"
                SELECT 
                    Oid as id, Designation as name, NULL as label, ButtonImage as image, {0}
                FROM 
                    pos_configurationplace as p 
                WHERE 
                    (Disabled IS NULL or Disabled  <> 1)
            ";

            //Used to filter Places Tab, based o View Mode (Order or Table)
            _sqlPlaceBaseOrder = string.Format(_sqlPlaceBase,
                                               string.Format(@"
                    (SELECT COUNT(*) FROM fin_documentordermain as om LEFT JOIN pos_configurationplacetable as pt ON om.PlaceTable = pt.Oid WHERE (om.OrderStatus = {0} AND pt.Place = p.Oid)) as childs", (int)OrderStatus.Open)
                                               );
            _sqlPlaceBaseTable = string.Format(_sqlPlaceBase, @"(SELECT COUNT(*) FROM pos_configurationplacetable WHERE (Disabled IS NULL or Disabled <> 1) AND Place = p.Oid) as childs");

            //Build TablePads
            BuildPlace();
            BuildOrders();
            BuildTable();

            //ActionArea Buttons
            _buttonOk     = ActionAreaButton.FactoryGetDialogButtonType(PosBaseDialogButtonType.Ok);
            _buttonCancel = ActionAreaButton.FactoryGetDialogButtonType(PosBaseDialogButtonType.Cancel);

            //Table Actions
            _buttonTableReservation = new TouchButtonIconWithText("touchButtonTableReservation_DialogActionArea", _colorBaseDialogActionAreaButtonBackground, resources.CustomResources.GetCustomResources(GlobalFramework.Settings["customCultureResourceDefinition"], "pos_button_label_table_reservation"), _fontBaseDialogActionAreaButton, _colorBaseDialogActionAreaButtonFont, fileActionTableReservation, _sizeBaseDialogActionAreaButtonIcon, _sizeBaseDialogActionAreaButton.Width, _sizeBaseDialogActionAreaButton.Height)
            {
                Sensitive = false
            };
            //Tables
            _buttonTableFilterAll = new TouchButtonIconWithText("touchButtonTableFilterAll_Green", Color.Transparent, resources.CustomResources.GetCustomResources(GlobalFramework.Settings["customCultureResourceDefinition"], "dialog_orders_button_label_tables_all"), _fontBaseDialogActionAreaButton, _colorBaseDialogActionAreaButtonFont, fileActionTableFilterAll, _sizeBaseDialogActionAreaButtonIcon, _sizeBaseDialogActionAreaButton.Width, _sizeBaseDialogActionAreaButton.Height)
            {
                Visible = false, Sensitive = false
            };
            _buttonTableFilterFree = new TouchButtonIconWithText("touchButtonTableFilterFree_Green", Color.Transparent, resources.CustomResources.GetCustomResources(GlobalFramework.Settings["customCultureResourceDefinition"], "dialog_orders_button_label_tables_free"), _fontBaseDialogActionAreaButton, _colorBaseDialogActionAreaButtonFont, fileActionTableFilterFree, _sizeBaseDialogActionAreaButtonIcon, _sizeBaseDialogActionAreaButton.Width, _sizeBaseDialogActionAreaButton.Height)
            {
                Visible = false
            };
            _buttonTableFilterOpen = new TouchButtonIconWithText("touchButtonTableFilterOpen_Green", Color.Transparent, resources.CustomResources.GetCustomResources(GlobalFramework.Settings["customCultureResourceDefinition"], "dialog_orders_button_label_tables_open"), _fontBaseDialogActionAreaButton, _colorBaseDialogActionAreaButtonFont, fileActionTableFilterOpen, _sizeBaseDialogActionAreaButtonIcon, _sizeBaseDialogActionAreaButton.Width, _sizeBaseDialogActionAreaButton.Height)
            {
                Visible = false
            };
            _buttonTableFilterReserved = new TouchButtonIconWithText("touchButtonTableFilterReserved_Green", Color.Transparent, resources.CustomResources.GetCustomResources(GlobalFramework.Settings["customCultureResourceDefinition"], "dialog_orders_button_label_tables_reserved"), _fontBaseDialogActionAreaButton, _colorBaseDialogActionAreaButtonFont, fileActionTableFilterReserved, _sizeBaseDialogActionAreaButtonIcon, _sizeBaseDialogActionAreaButton.Width, _sizeBaseDialogActionAreaButton.Height)
            {
                Visible = false
            };
            //Views
            _buttonTableViewOrders = new TouchButtonIconWithText("touchButtonViewOrders_Red", Color.Transparent, resources.CustomResources.GetCustomResources(GlobalFramework.Settings["customCultureResourceDefinition"], "dialog_orders_button_label_view_orders"), _fontBaseDialogActionAreaButton, _colorBaseDialogActionAreaButtonFont, fileActionViewOrders, _sizeBaseDialogActionAreaButtonIcon, _sizeBaseDialogActionAreaButton.Width, _sizeBaseDialogActionAreaButton.Height);
            _buttonTableViewTables = new TouchButtonIconWithText("touchButtonViewTables_Green", Color.Transparent, resources.CustomResources.GetCustomResources(GlobalFramework.Settings["customCultureResourceDefinition"], "dialog_orders_button_label_view_tables"), _fontBaseDialogActionAreaButton, _colorBaseDialogActionAreaButtonFont, fileActionTableViewTables, _sizeBaseDialogActionAreaButtonIcon, _sizeBaseDialogActionAreaButton.Width, _sizeBaseDialogActionAreaButton.Height);
            //Orders
            //_buttonOrderChangeTable = new TouchButtonIconWithText("touchButtonOrderChangeTable_Red", Color.Transparent, resources.CustomResources.GetCustomResources(GlobalFramework.Settings["customCultureResourceDefinition"], "pos_button_label_change_table, _fontBaseDialogActionAreaButton, _colorBaseDialogActionAreaButtonFont, _fileActionDefault, _sizeBaseDialogActionAreaButtonIcon, _sizeBaseDialogActionAreaButton.Width, _sizeBaseDialogActionAreaButton.Height) { Sensitive = false };

            //ActionArea
            ActionAreaButtons actionAreaButtons = new ActionAreaButtons();

            //Orders
            //actionAreaButtons.Add(new ActionAreaButton(_buttonOrderChangeTable, _responseTypeOrderChangeTable));
            //Tables
            if (SettingsApp.IsDefaultTheme)/* IN008024 */
            {
                actionAreaButtons.Add(new ActionAreaButton(_buttonTableFilterAll, (ResponseType)_tablesStatusShowAllIndex));
                actionAreaButtons.Add(new ActionAreaButton(_buttonTableFilterFree, (ResponseType)TableStatus.Free));
                actionAreaButtons.Add(new ActionAreaButton(_buttonTableFilterOpen, (ResponseType)TableStatus.Open));
                actionAreaButtons.Add(new ActionAreaButton(_buttonTableFilterReserved, (ResponseType)TableStatus.Reserved));
                //ViewMode
                actionAreaButtons.Add(new ActionAreaButton(_buttonTableViewOrders, _responseTypeViewOrders));
                actionAreaButtons.Add(new ActionAreaButton(_buttonTableViewTables, _responseTypeViewTables));
                //Modal Result
                actionAreaButtons.Add(new ActionAreaButton(_buttonTableReservation, _responseTypeTableReservation));
            }
            actionAreaButtons.Add(new ActionAreaButton(_buttonOk, ResponseType.Ok));
            actionAreaButtons.Add(new ActionAreaButton(_buttonCancel, ResponseType.Cancel));

            //Init Object
            this.InitObject(this, pDialogFlags, fileDefaultWindowIcon, windowTitle, windowSize, _fixedContent, actionAreaButtons);

            this.ExposeEvent += delegate
            {
                //Disable Buttons if in OnlyFreeTables FilterMode
                if (_FilterMode == TableFilterMode.OnlyFreeTables)
                {
                    //Filter Buttons
                    _buttonTableFilterAll.Visible      = false;
                    _buttonTableFilterFree.Visible     = false;
                    _buttonTableFilterOpen.Visible     = false;
                    _buttonTableFilterReserved.Visible = false;
                    //Other ActionButtons
                    _buttonTableViewOrders.Visible  = false;
                    _buttonTableReservation.Visible = false;
                }
            };

            //After Init, Disabled Widgets
            ToggleViewMode();
        }
Esempio n. 37
0
 public virtual Statement VisitFixed(Fixed Fixed, Class scope) {
   if (Fixed == null) return null;
   Class savedScope = this.scope;
   this.scope = scope;
   LocalDeclarationsStatement locDecs = Fixed.Declarators as LocalDeclarationsStatement;
   if (locDecs != null) {
     locDecs.InitOnly = true;
     Fixed.Declarators = this.VisitLocalDeclarationsStatement(locDecs);
   }
   Fixed.Body = this.VisitBlock(Fixed.Body);
   this.scope = savedScope;
   return Fixed;
 }
Esempio n. 38
0
 public Fixed ReadFixed()
 {
     return(Fixed.FromRaw(ReadInt64()));
 }
Esempio n. 39
0
 public static Action bit(CPU cpu, Fixed bit, Operand<byte> value) =>
   () => {
     cpu.Zero = Utils.Bit(value.Target, bit.Target);
     cpu.HalfCarry = true;
     cpu.AddSub = false;
   };
Esempio n. 40
0
        public void Update()
        {
            if (this.zoomIn)
            {
                this.zoom += this.zoom / 16;
            }

            if (this.zoomOut)
            {
                this.zoom -= this.zoom / 16;
            }

            if (this.zoom < Fixed.One / 2)
            {
                this.zoom = Fixed.One / 2;
            }
            else if (this.zoom > Fixed.One * 32)
            {
                this.zoom = Fixed.One * 32;
            }

            if (this.left)
            {
                this.viewX -= 64 / this.zoom;
            }

            if (this.right)
            {
                this.viewX += 64 / this.zoom;
            }

            if (this.up)
            {
                this.viewY += 64 / this.zoom;
            }

            if (this.down)
            {
                this.viewY -= 64 / this.zoom;
            }

            if (this.viewX < this.minX)
            {
                this.viewX = this.minX;
            }
            else if (this.viewX > this.maxX)
            {
                this.viewX = this.maxX;
            }

            if (this.viewY < this.minY)
            {
                this.viewY = this.minY;
            }
            else if (this.viewY > this.maxY)
            {
                this.viewY = this.maxY;
            }

            if (this.follow)
            {
                var player = this.world.ConsolePlayer.Mobj;
                this.viewX = player.X;
                this.viewY = player.Y;
            }
        }
Esempio n. 41
0
 public override Statement VisitFixed(Fixed Fixed)
 {
     if (Fixed == null) return null;
     return base.VisitFixed((Fixed)Fixed.Clone());
 }
Esempio n. 42
0
        /// <summary>
        /// Fire a hitscan bullet along the aiming line.
        /// </summary>
        private bool ShootTraverse(Intercept intercept)
        {
            var mi = this.world.MapInteraction;
            var pt = this.world.PathTraversal;

            if (intercept.Line != null)
            {
                var line = intercept.Line;

                if (line.Special != 0)
                {
                    mi.ShootSpecialLine(this.currentShooter, line);
                }

                if ((line.Flags & LineFlags.TwoSided) == 0)
                {
                    goto hitLine;
                }

                var mc = this.world.MapCollision;

                // Crosses a two sided line.
                mc.LineOpening(line);

                var dist = this.currentRange * intercept.Frac;

                // Similar to AimTraverse, the code below is imported from Chocolate Doom.
                if (line.BackSector == null)
                {
                    {
                        var slope = (mc.OpenBottom - this.currentShooterZ) / dist;

                        if (slope > this.currentAimSlope)
                        {
                            goto hitLine;
                        }
                    }

                    {
                        var slope = (mc.OpenTop - this.currentShooterZ) / dist;

                        if (slope < this.currentAimSlope)
                        {
                            goto hitLine;
                        }
                    }
                }
                else
                {
                    if (line.FrontSector.FloorHeight != line.BackSector.FloorHeight)
                    {
                        var slope = (mc.OpenBottom - this.currentShooterZ) / dist;

                        if (slope > this.currentAimSlope)
                        {
                            goto hitLine;
                        }
                    }

                    if (line.FrontSector.CeilingHeight != line.BackSector.CeilingHeight)
                    {
                        var slope = (mc.OpenTop - this.currentShooterZ) / dist;

                        if (slope < this.currentAimSlope)
                        {
                            goto hitLine;
                        }
                    }
                }

                // Shot continues.
                return(true);

                // Hit line.
hitLine:

                // Position a bit closer.
                var frac = intercept.Frac - Fixed.FromInt(4) / this.currentRange;
                var x = pt.Trace.X + pt.Trace.Dx * frac;
                var y = pt.Trace.Y + pt.Trace.Dy * frac;
                var z = this.currentShooterZ + this.currentAimSlope * (frac * this.currentRange);

                if (line.FrontSector.CeilingFlat == this.world.Map.SkyFlatNumber)
                {
                    // Don't shoot the sky!
                    if (z > line.FrontSector.CeilingHeight)
                    {
                        return(false);
                    }

                    // It's a sky hack wall.
                    if (line.BackSector != null && line.BackSector.CeilingFlat == this.world.Map.SkyFlatNumber)
                    {
                        return(false);
                    }
                }

                // Spawn bullet puffs.
                this.SpawnPuff(x, y, z);

                // Don't go any farther.
                return(false);
            }

            {
                // Shoot a thing.
                var thing = intercept.Thing;

                if (thing == this.currentShooter)
                {
                    // Can't shoot self.
                    return(true);
                }

                if ((thing.Flags & MobjFlags.Shootable) == 0)
                {
                    // Corpse or something.
                    return(true);
                }

                // Check angles to see if the thing can be aimed at.
                var dist          = this.currentRange * intercept.Frac;
                var thingTopSlope = (thing.Z + thing.Height - this.currentShooterZ) / dist;

                if (thingTopSlope < this.currentAimSlope)
                {
                    // Shot over the thing.
                    return(true);
                }

                var thingBottomSlope = (thing.Z - this.currentShooterZ) / dist;

                if (thingBottomSlope > this.currentAimSlope)
                {
                    // Shot under the thing.
                    return(true);
                }

                // Hit thing.
                // Position a bit closer.
                var frac = intercept.Frac - Fixed.FromInt(10) / this.currentRange;

                var x = pt.Trace.X + pt.Trace.Dx * frac;
                var y = pt.Trace.Y + pt.Trace.Dy * frac;
                var z = this.currentShooterZ + this.currentAimSlope * (frac * this.currentRange);

                // Spawn bullet puffs or blod spots, depending on target type.
                if ((intercept.Thing.Flags & MobjFlags.NoBlood) != 0)
                {
                    this.SpawnPuff(x, y, z);
                }
                else
                {
                    this.SpawnBlood(x, y, z, this.currentDamage);
                }

                if (this.currentDamage != 0)
                {
                    this.world.ThingInteraction.DamageMobj(thing, this.currentShooter, this.currentShooter, this.currentDamage);
                }

                // Don't go any farther.
                return(false);
            }
        }
Esempio n. 43
0
        public override int run(string[] args)
        {
            if(args.Length > 0)
            {
                Console.Error.WriteLine(appName() + ": too many arguments");
                return 1;
            }

            ThroughputPrx throughput = ThroughputPrxHelper.checkedCast(
                communicator().propertyToProxy("Throughput.Proxy"));
            if(throughput == null)
            {
                Console.Error.WriteLine("invalid proxy");
                return 1;
            }
            ThroughputPrx throughputOneway = ThroughputPrxHelper.uncheckedCast(throughput.ice_oneway());

            byte[] byteSeq = new byte[ByteSeqSize.value];

            string[] stringSeq = new string[StringSeqSize.value];
            for(int i = 0; i < StringSeqSize.value; ++i)
            {
                stringSeq[i] = "hello";
            }

            StringDouble[] structSeq = new StringDouble[StringDoubleSeqSize.value];
            for(int i = 0; i < StringDoubleSeqSize.value; ++i)
            {
                structSeq[i] = new StringDouble();
                structSeq[i].s = "hello";
                structSeq[i].d = 3.14;
            }

            Fixed[] fixedSeq = new Fixed[FixedSeqSize.value];
            for(int i = 0; i < FixedSeqSize.value; ++i)
            {
                fixedSeq[i].i = 0;
                fixedSeq[i].j = 0;
                fixedSeq[i].d = 0;
            }

            //
            // A method needs to be invoked thousands of times before the
            // JIT compiler will convert it to native code. To ensure an
            // accurate throughput measurement, we need to "warm up" the
            // JIT compiler.
            //
            {
                byte[] emptyBytes = new byte[1];
                string[] emptyStrings = new string[1];
                StringDouble[] emptyStructs = new StringDouble[1];
                emptyStructs[0] = new StringDouble();
                Fixed[] emptyFixed = new Fixed[1];

                throughput.startWarmup();

                Console.Error.Write("warming up the client/server...");
                Console.Error.Flush();
                for(int i = 0; i < 10000; i++)
                {
                    throughput.sendByteSeq(emptyBytes);
                    throughput.sendStringSeq(emptyStrings);
                    throughput.sendStructSeq(emptyStructs);
                    throughput.sendFixedSeq(emptyFixed);

                    throughput.recvByteSeq();
                    throughput.recvStringSeq();
                    throughput.recvStructSeq();
                    throughput.recvFixedSeq();

                    throughput.echoByteSeq(emptyBytes);
                    throughput.echoStringSeq(emptyStrings);
                    throughput.echoStructSeq(emptyStructs);
                    throughput.echoFixedSeq(emptyFixed);
                }
                throughput.endWarmup();

                Console.Error.WriteLine("ok");
            }
            
            menu();
            
            //
            // By default use byte sequence.
            //
            char currentType = '1';
            int seqSize = ByteSeqSize.value;

            string line = null;
            do 
            {
                try
                {
                    Console.Write("==> ");
                    Console.Out.Flush();
                    line = Console.In.ReadLine();
                    if(line == null)
                    {
                        break;
                    }

                    long tmsec = System.DateTime.Now.Ticks / 10000;
                    const int repetitions = 100;

                    if(line.Equals("1") || line.Equals("2") || line.Equals("3") || line.Equals("4"))
                    {
                        currentType = line[0];
                        switch(currentType)
                        {
                            case '1':
                            {
                                Console.WriteLine("using byte sequences");
                                seqSize = ByteSeqSize.value;
                                break;
                            }
                            case '2':
                            {
                                Console.WriteLine("using string sequences");
                                seqSize = StringSeqSize.value;
                                break;
                            }
                            case '3':
                            {
                                Console.WriteLine("using variable-length struct sequences");
                                seqSize = StringDoubleSeqSize.value;
                                break;
                            }
                            case '4':
                            {
                                Console.WriteLine("using fixed-length struct sequences");
                                seqSize = FixedSeqSize.value;
                                break;
                            }
                        } 
                    }
                    else if(line.Equals("t") || line.Equals("o") || line.Equals("r") || line.Equals("e"))
                    {
                        char c = line[0];
                        switch (c)
                        {                       
                            case 't': 
                            {
                                Console.Write("sending");
                                break;
                            }                                            
                            case 'o': 
                            {
                                Console.Write("sending");
                                break;
                            }                                            
                            case 'r': 
                            {
                                Console.Write("receiving");
                                break;
                            }                              
                            case 'e': 
                            {
                                Console.Write("sending and receiving");
                                break;
                            }
                        }
                    
                        Console.Write(" " + repetitions);
                        switch(currentType)
                        {
                            case '1':
                            {
                                Console.Write(" byte");
                                break;
                            }
                            case '2':
                            {
                                Console.Write(" string");
                                break;
                            }
                            case '3':
                            {
                                Console.Write(" variable-length struct");
                                break;
                            }
                            case '4':
                            {
                                Console.Write(" fixed-length struct");
                                break;
                            }
                        }
                        Console.Write(" sequences of size " + seqSize);

                        if(c == 'o')
                        {
                            Console.Write(" as oneway");
                        }
            
                        Console.WriteLine("...");
            
                        for (int i = 0; i < repetitions; ++i)
                        {
                            switch(currentType)
                            {
                                case '1':
                                {
                                    switch(c)
                                    {
                                        case 't':
                                        {
                                            throughput.sendByteSeq(byteSeq);
                                            break;
                                        }

                                        case 'o': 
                                        {
                                            throughputOneway.sendByteSeq(byteSeq);
                                            break;
                                        }

                                        case 'r': 
                                        {
                                            throughput.recvByteSeq();
                                            break;
                                        }                            
                            
                                        case 'e': 
                                        {
                                            throughput.echoByteSeq(byteSeq);
                                            break;
                                        }
                                    }
                                    break;
                                }

                                case '2':
                                {
                                    switch(c)
                                    {
                                        case 't':
                                        {
                                            throughput.sendStringSeq(stringSeq);
                                            break;
                                        }

                                        case 'o': 
                                        {
                                            throughputOneway.sendStringSeq(stringSeq);
                                            break;
                                        }

                                        case 'r': 
                                        {
                                            throughput.recvStringSeq();
                                            break;
                                        }                            
                            
                                        case 'e': 
                                        {
                                            throughput.echoStringSeq(stringSeq);
                                            break;
                                        }
                                    }
                                    break;
                                }
                                
                                case '3':
                                {
                                    switch(c)
                                    {
                                        case 't':
                                        {
                                            throughput.sendStructSeq(structSeq);
                                            break;
                                        }

                                        case 'o': 
                                        {
                                            throughputOneway.sendStructSeq(structSeq);
                                            break;
                                        }

                                        case 'r': 
                                        {
                                            throughput.recvStructSeq();
                                            break;
                                        }                            
                            
                                        case 'e': 
                                        {
                                            throughput.echoStructSeq(structSeq);
                                            break;
                                        }
                                    }
                                    break;
                                }

                                case '4':
                                {
                                    switch(c)
                                    {
                                        case 't':
                                        {
                                            throughput.sendFixedSeq(fixedSeq);
                                            break;
                                        }

                                        case 'o': 
                                        {
                                            throughputOneway.sendFixedSeq(fixedSeq);
                                            break;
                                        }

                                        case 'r': 
                                        {
                                            throughput.recvFixedSeq();
                                            break;
                                        }                            
                            
                                        case 'e': 
                                        {
                                            throughput.echoFixedSeq(fixedSeq);
                                            break;
                                        }
                                    }
                                    break;
                                }
                            }
                        }
            
                        double dmsec = System.DateTime.Now.Ticks / 10000 - tmsec;
                        Console.WriteLine("time for " + repetitions + " sequences: " + dmsec.ToString("F") + "ms");
                        Console.WriteLine("time per sequence: " + ((double)(dmsec / repetitions)).ToString("F") + "ms");
                        int wireSize = 0;
                        switch(currentType)
                        {
                            case '1':
                            {
                                wireSize = 1;
                                break;
                            }
                            case '2':
                            {
                                wireSize = stringSeq[0].Length;
                                break;
                            }
                            case '3':
                            {
                                wireSize = structSeq[0].s.Length;
                                wireSize += 8; // Size of double on the wire.
                                break;
                            }
                            case '4':
                            {
                                wireSize = 16; // Sizes of two ints and a double on the wire.
                                break;
                            }
                        }
                        double mbit = repetitions * seqSize * wireSize * 8.0 / dmsec / 1000.0;
                        if(c == 'e')
                        {
                            mbit *= 2;
                        }
                        Console.WriteLine("throughput: " + mbit.ToString("#.##") + "Mbps");
                    }
                    else if(line.Equals("s"))
                    {
                        throughput.shutdown();
                    }
                    else if(line.Equals("x"))
                    {
                        // Nothing to do
                    }
                    else if(line.Equals("?"))
                    {
                        menu();
                    }
                    else
                    {
                        Console.WriteLine("unknown command `" + line + "'");
                        menu();
                    }
                }
                catch(System.Exception ex)
                {
                    Console.Error.WriteLine(ex);
                }
            }
            while(!line.Equals("x"));
            
            return 0;
        }
Esempio n. 44
0
        /// <summary>
        /// Find a thing or wall which is on the aiming line.
        /// Sets lineTaget and aimSlope when a target is aimed at.
        /// </summary>
        private bool AimTraverse(Intercept intercept)
        {
            if (intercept.Line != null)
            {
                var line = intercept.Line;

                if ((line.Flags & LineFlags.TwoSided) == 0)
                {
                    // Stop.
                    return(false);
                }

                var mc = this.world.MapCollision;

                // Crosses a two sided line.
                // A two sided line will restrict the possible target ranges.
                mc.LineOpening(line);

                if (mc.OpenBottom >= mc.OpenTop)
                {
                    // Stop.
                    return(false);
                }

                var dist = this.currentRange * intercept.Frac;

                // The null check of the backsector below is necessary to avoid crash
                // in certain PWADs, which contain two-sided lines with no backsector.
                // These are imported from Chocolate Doom.

                if (line.BackSector == null || line.FrontSector.FloorHeight != line.BackSector.FloorHeight)
                {
                    var slope = (mc.OpenBottom - this.currentShooterZ) / dist;

                    if (slope > this.bottomSlope)
                    {
                        this.bottomSlope = slope;
                    }
                }

                if (line.BackSector == null || line.FrontSector.CeilingHeight != line.BackSector.CeilingHeight)
                {
                    var slope = (mc.OpenTop - this.currentShooterZ) / dist;

                    if (slope < this.topSlope)
                    {
                        this.topSlope = slope;
                    }
                }

                if (this.topSlope <= this.bottomSlope)
                {
                    // Stop.
                    return(false);
                }

                // Shot continues.
                return(true);
            }

            // Shoot a thing.
            var thing = intercept.Thing;

            if (thing == this.currentShooter)
            {
                // Can't shoot self.
                return(true);
            }

            {
                if ((thing.Flags & MobjFlags.Shootable) == 0)
                {
                    // Corpse or something.
                    return(true);
                }

                // Check angles to see if the thing can be aimed at.
                var dist          = this.currentRange * intercept.Frac;
                var thingTopSlope = (thing.Z + thing.Height - this.currentShooterZ) / dist;

                if (thingTopSlope < this.bottomSlope)
                {
                    // Shot over the thing.
                    return(true);
                }

                var thingBottomSlope = (thing.Z - this.currentShooterZ) / dist;

                if (thingBottomSlope > this.topSlope)
                {
                    // Shot under the thing.
                    return(true);
                }

                // This thing can be hit!
                if (thingTopSlope > this.topSlope)
                {
                    thingTopSlope = this.topSlope;
                }

                if (thingBottomSlope < this.bottomSlope)
                {
                    thingBottomSlope = this.bottomSlope;
                }

                this.currentAimSlope = (thingTopSlope + thingBottomSlope) / 2;
                this.lineTarget      = thing;

                // Don't go any farther.
                return(false);
            }
        }
Esempio n. 45
0
 public override Statement VisitFixed(Fixed Fixed) {
   bool savedInsideFixed = this.insideFixed;
   this.insideFixed = true;
   bool savedInsideFixedDeclarator = this.insideFixedDeclarator;
   this.insideFixedDeclarator = true;
   Fixed.Declarators = (Statement)this.Visit(Fixed.Declarators);
   this.insideFixedDeclarator = savedInsideFixedDeclarator;
   Fixed.Body = this.VisitBlock(Fixed.Body);
   this.insideFixed = savedInsideFixed;
   return Fixed;
 }
Esempio n. 46
0
    public override void Update()
    {
        if (netData.Input.GetKeyDown(key))
        {
            UnityEngine.Debug.LogError("keyDown " + key + " " + netData.view.gameObject.name);
        }

        if (netData.Input.GetKeyUp(key))
        {
            UnityEngine.Debug.LogError("keyUp " + key + " " + netData.view.gameObject.name);
        }

        if (status == SkillStatus.CanUse)
        {
            if (netData.Input.GetKeyDown(key))
            {
                StartUse();
                status = SkillStatus.UseStart;
            }
        }

        if (status == SkillStatus.UseStart)
        {
            if (netData.Input.GetKey(key))
            {
                UnityEngine.Debug.LogError("GetKey使用技能 [" + skillId + "] ");
                StayUse();
            }

            if (netData.Input.GetKeyUp(key))
            {
                UseOver();
                UnityEngine.Debug.LogError("GetKeyUp使用技能 [" + skillId + "] ");
                if (skillData.animTime > 0)
                {
                    (netData as PlayerData).SetAnimTrigger("UseSkill");
                }

                timer  = skillData.animTime;
                status = SkillStatus.UseOver;
            }
        }

        if (status == SkillStatus.UseOver)
        {
            if (timer > 0)
            {
                timer -= netData.deltaTime;
            }
            else
            {
                timer = skillData.coolDownTime;
                AnimOver();
                status = SkillStatus.CoolDown;
            }
        }
        else if (status == SkillStatus.CoolDown)
        {
            if (timer > 0)
            {
                timer -= netData.deltaTime;
            }
            else
            {
                status = SkillStatus.CanUse;
            }
        }
    }
Esempio n. 47
0
 public override void sendFixedSeq(Fixed[] seq, Ice.Current current)
 {
 }
Esempio n. 48
0
 public virtual object Visit(Fixed fixedStatement)
 {
     return(null);
 }
Esempio n. 49
0
 public override Fixed[] echoFixedSeq(Fixed[] seq, Ice.Current current)
 {
     return seq;
 }
Esempio n. 50
0
    private static int run(Ice.Communicator communicator)
    {
        var throughput = ThroughputPrxHelper.checkedCast(communicator.propertyToProxy("Throughput.Proxy"));

        if (throughput == null)
        {
            Console.Error.WriteLine("invalid proxy");
            return(1);
        }
        var throughputOneway = ThroughputPrxHelper.uncheckedCast(throughput.ice_oneway());

        var byteSeq = new byte[ByteSeqSize.value];

        var stringSeq = new string[StringSeqSize.value];

        for (int i = 0; i < StringSeqSize.value; ++i)
        {
            stringSeq[i] = "hello";
        }

        var structSeq = new StringDouble[StringDoubleSeqSize.value];

        for (int i = 0; i < StringDoubleSeqSize.value; ++i)
        {
            structSeq[i]   = new StringDouble();
            structSeq[i].s = "hello";
            structSeq[i].d = 3.14;
        }

        var fixedSeq = new Fixed[FixedSeqSize.value];

        for (int i = 0; i < FixedSeqSize.value; ++i)
        {
            fixedSeq[i].i = 0;
            fixedSeq[i].j = 0;
            fixedSeq[i].d = 0;
        }

        //
        // A method needs to be invoked thousands of times before the
        // JIT compiler will convert it to native code. To ensure an
        // accurate throughput measurement, we need to "warm up" the
        // JIT compiler.
        //
        {
            var warmupBytes   = new byte[1];
            var warmupStrings = new string[1];
            var warmupStructs = new StringDouble[1];
            warmupStructs[0] = new StringDouble();
            var warmupFixed = new Fixed[1];

            throughput.startWarmup();

            Console.Error.Write("warming up the client/server...");
            Console.Error.Flush();
            for (int i = 0; i < 10000; i++)
            {
                throughput.sendByteSeq(warmupBytes);
                throughput.sendStringSeq(warmupStrings);
                throughput.sendStructSeq(warmupStructs);
                throughput.sendFixedSeq(warmupFixed);

                throughput.recvByteSeq();
                throughput.recvStringSeq();
                throughput.recvStructSeq();
                throughput.recvFixedSeq();

                throughput.echoByteSeq(warmupBytes);
                throughput.echoStringSeq(warmupStrings);
                throughput.echoStructSeq(warmupStructs);
                throughput.echoFixedSeq(warmupFixed);
            }
            throughput.endWarmup();

            Console.Error.WriteLine("ok");
        }

        menu();

        //
        // By default use byte sequence.
        //
        char currentType = '1';
        int  seqSize     = ByteSeqSize.value;

        string line = null;

        do
        {
            try
            {
                Console.Write("==> ");
                Console.Out.Flush();
                line = Console.In.ReadLine();
                if (line == null)
                {
                    break;
                }

                long tmsec       = DateTime.Now.Ticks / 10000;
                int  repetitions = 100;

                if (line.Equals("1") || line.Equals("2") || line.Equals("3") || line.Equals("4"))
                {
                    currentType = line[0];
                    switch (currentType)
                    {
                    case '1':
                    {
                        Console.WriteLine("using byte sequences");
                        seqSize = ByteSeqSize.value;
                        break;
                    }

                    case '2':
                    {
                        Console.WriteLine("using string sequences");
                        seqSize = StringSeqSize.value;
                        break;
                    }

                    case '3':
                    {
                        Console.WriteLine("using variable-length struct sequences");
                        seqSize = StringDoubleSeqSize.value;
                        break;
                    }

                    case '4':
                    {
                        Console.WriteLine("using fixed-length struct sequences");
                        seqSize = FixedSeqSize.value;
                        break;
                    }
                    }
                }
                else if (line.Equals("t") || line.Equals("o") || line.Equals("r") || line.Equals("e"))
                {
                    if (currentType == '1')
                    {
                        repetitions = 1000; // Use more iterations for  byte sequences as it's a lot faster
                    }

                    char c = line[0];
                    switch (c)
                    {
                    case 't':
                    {
                        Console.Write("sending");
                        break;
                    }

                    case 'o':
                    {
                        Console.Write("sending");
                        break;
                    }

                    case 'r':
                    {
                        Console.Write("receiving");
                        break;
                    }

                    case 'e':
                    {
                        Console.Write("sending and receiving");
                        break;
                    }
                    }

                    Console.Write(" " + repetitions);
                    switch (currentType)
                    {
                    case '1':
                    {
                        Console.Write(" byte");
                        break;
                    }

                    case '2':
                    {
                        Console.Write(" string");
                        break;
                    }

                    case '3':
                    {
                        Console.Write(" variable-length struct");
                        break;
                    }

                    case '4':
                    {
                        Console.Write(" fixed-length struct");
                        break;
                    }
                    }
                    Console.Write(" sequences of size " + seqSize);

                    if (c == 'o')
                    {
                        Console.Write(" as oneway");
                    }

                    Console.WriteLine("...");

                    for (int i = 0; i < repetitions; ++i)
                    {
                        switch (currentType)
                        {
                        case '1':
                        {
                            switch (c)
                            {
                            case 't':
                            {
                                throughput.sendByteSeq(byteSeq);
                                break;
                            }

                            case 'o':
                            {
                                throughputOneway.sendByteSeq(byteSeq);
                                break;
                            }

                            case 'r':
                            {
                                throughput.recvByteSeq();
                                break;
                            }

                            case 'e':
                            {
                                throughput.echoByteSeq(byteSeq);
                                break;
                            }
                            }
                            break;
                        }

                        case '2':
                        {
                            switch (c)
                            {
                            case 't':
                            {
                                throughput.sendStringSeq(stringSeq);
                                break;
                            }

                            case 'o':
                            {
                                throughputOneway.sendStringSeq(stringSeq);
                                break;
                            }

                            case 'r':
                            {
                                throughput.recvStringSeq();
                                break;
                            }

                            case 'e':
                            {
                                throughput.echoStringSeq(stringSeq);
                                break;
                            }
                            }
                            break;
                        }

                        case '3':
                        {
                            switch (c)
                            {
                            case 't':
                            {
                                throughput.sendStructSeq(structSeq);
                                break;
                            }

                            case 'o':
                            {
                                throughputOneway.sendStructSeq(structSeq);
                                break;
                            }

                            case 'r':
                            {
                                throughput.recvStructSeq();
                                break;
                            }

                            case 'e':
                            {
                                throughput.echoStructSeq(structSeq);
                                break;
                            }
                            }
                            break;
                        }

                        case '4':
                        {
                            switch (c)
                            {
                            case 't':
                            {
                                throughput.sendFixedSeq(fixedSeq);
                                break;
                            }

                            case 'o':
                            {
                                throughputOneway.sendFixedSeq(fixedSeq);
                                break;
                            }

                            case 'r':
                            {
                                throughput.recvFixedSeq();
                                break;
                            }

                            case 'e':
                            {
                                throughput.echoFixedSeq(fixedSeq);
                                break;
                            }
                            }
                            break;
                        }
                        }
                    }

                    double dmsec = DateTime.Now.Ticks / 10000 - tmsec;
                    Console.WriteLine("time for " + repetitions + " sequences: " + dmsec.ToString("F") + "ms");
                    Console.WriteLine("time per sequence: " + ((double)(dmsec / repetitions)).ToString("F") + "ms");
                    int wireSize = 0;
                    switch (currentType)
                    {
                    case '1':
                    {
                        wireSize = 1;
                        break;
                    }

                    case '2':
                    {
                        wireSize = stringSeq[0].Length;
                        break;
                    }

                    case '3':
                    {
                        wireSize  = structSeq[0].s.Length;
                        wireSize += 8;     // Size of double on the wire.
                        break;
                    }

                    case '4':
                    {
                        wireSize = 16;     // Sizes of two ints and a double on the wire.
                        break;
                    }
                    }
                    double mbit = repetitions * seqSize * wireSize * 8.0 / dmsec / 1000.0;
                    if (c == 'e')
                    {
                        mbit *= 2;
                    }
                    Console.WriteLine("throughput: " + mbit.ToString("#.##") + "Mbps");
                }
                else if (line.Equals("s"))
                {
                    throughput.shutdown();
                }
                else if (line.Equals("x"))
                {
                    // Nothing to do
                }
                else if (line.Equals("?"))
                {
                    menu();
                }
                else
                {
                    Console.WriteLine("unknown command `" + line + "'");
                    menu();
                }
            }
            catch (Exception ex)
            {
                Console.Error.WriteLine(ex);
            }
        }while(!line.Equals("x"));

        return(0);
    }
Esempio n. 51
0
    public virtual Differences VisitFixed(Fixed fixed1, Fixed fixed2){
      Differences differences = new Differences(fixed1, fixed2);
      if (fixed1 == null || fixed2 == null){
        if (fixed1 != fixed2) differences.NumberOfDifferences++; else differences.NumberOfSimilarities++;
        return differences;
      }
      Fixed changes = (Fixed)fixed2.Clone();
      Fixed deletions = (Fixed)fixed2.Clone();
      Fixed insertions = (Fixed)fixed2.Clone();

      Differences diff = this.VisitBlock(fixed1.Body, fixed2.Body);
      if (diff == null){Debug.Assert(false); return differences;}
      changes.Body = diff.Changes as Block;
      deletions.Body = diff.Deletions as Block;
      insertions.Body = diff.Insertions as Block;
      Debug.Assert(diff.Changes == changes.Body && diff.Deletions == deletions.Body && diff.Insertions == insertions.Body);
      differences.NumberOfDifferences += diff.NumberOfDifferences;
      differences.NumberOfSimilarities += diff.NumberOfSimilarities;

      diff = this.VisitStatement(fixed1.Declarators, fixed2.Declarators);
      if (diff == null){Debug.Assert(false); return differences;}
      changes.Declarators = diff.Changes as Statement;
      deletions.Declarators = diff.Deletions as Statement;
      insertions.Declarators = diff.Insertions as Statement;
      Debug.Assert(diff.Changes == changes.Declarators && diff.Deletions == deletions.Declarators && diff.Insertions == insertions.Declarators);
      differences.NumberOfDifferences += diff.NumberOfDifferences;
      differences.NumberOfSimilarities += diff.NumberOfSimilarities;

      if (differences.NumberOfDifferences == 0){
        differences.Changes = null;
        differences.Deletions = null;
        differences.Insertions = null;
      }else{
        differences.Changes = changes;
        differences.Deletions = deletions;
        differences.Insertions = insertions;
      }
      return differences;
    }
Esempio n. 52
0
        public static void Main(string[] args)
        {
            File.Copy("template/Tables.docx", "WordTables.docx", true);
            var dt = new DataTable();

            dt.Columns.Add("Col1");
            dt.Columns.Add("Col2");
            dt.Columns.Add("Col3");
            for (int i = 0; i < 100; i++)
            {
                dt.Rows.Add("a" + i, "b" + i, "c" + i);
            }
            var dt4 = new DataTable();

            dt4.Columns.Add("Name");
            dt4.Columns.Add("Description");
            //for (int i = 0; i < 10; i++)
            //dt4.Rows.Add("Name" + i, "Description" + i);
            var factory =
                Configuration.Builder
                .Include(Top10Rows)
                .Include <DataTable>(Limit10Table)
                .Include(CollapseNonEmpty)
                .Build();
            var dynamicResize1 = new object[7, 3] {
                { "a", "b", "c" },
                { "a", null, "c" },
                { "a", "b", null },
                { null, "b", "c" },
                { "a", null, null },
                { null, null, null },
                { "a", "b", "c" },
            };
            var dynamicResize2 = new object[7, 3] {
                { "a", "b", "c" },
                { null, null, "c" },
                { null, null, null },
                { null, "b", "c" },
                { "a", null, null },
                { null, "b", null },
                { "a", "b", null },
            };
            var map = new Dictionary <string, object>[] {
                new Dictionary <string, object> {
                    { "1", "a" }, { "2", "b" }, { "3", "c" }
                },
                new Dictionary <string, object> {
                    { "1", "a" }, { "2", null }, { "3", "c" }
                },
                new Dictionary <string, object> {
                    { "1", "a" }, { "2", "b" }, { "3", null }
                },
                new Dictionary <string, object> {
                    { "1", null }, { "2", "b" }, { "3", "c" }
                },
                new Dictionary <string, object> {
                    { "1", "a" }, { "2", null }, { "3", null }
                },
                new Dictionary <string, object> {
                    { "1", null }, { "2", null }, { "3", null }
                },
                new Dictionary <string, object> {
                    { "1", "a" }, { "2", "b" }, { "3", "c" }
                },
            };
            var combined = new Combined
            {
                Beers = new[]
                {
                    new Beer {
                        Name = "Heineken", Description = "Green and cold", Columns = new [, ] {
                            { "Light", "International" }
                        }
                    },
                    new Beer {
                        Name = "Leila", Description = "Blueish", Columns = new [, ] {
                            { "Blue", "Domestic" }
                        }
                    }
                },
                Headers = new[, ] {
                    { "Bottle", "Where" }
                }
            };
            var fixedItems = new Fixed[] {
                new Fixed {
                    Name = "A", Quantity = 1, Price = 42
                },
                new Fixed {
                    Name = "B", Quantity = 2, Price = 23
                },
                new Fixed {
                    Name = "C", Quantity = 3, Price = 505
                },
                new Fixed {
                    Name = "D", Quantity = 4, Price = 99
                },
                new Fixed {
                    Name = "E", Quantity = 5, Price = 199
                },
                new Fixed {
                    Name = "F", Quantity = 6, Price = 0
                },
                new Fixed {
                    Name = "G", Quantity = 7, Price = 7
                }
            };

            using (var doc = factory.Open("WordTables.docx"))
            {
                doc.Process(
                    new
                {
                    Table1                = dt,
                    Table2                = dt,
                    DynamicResize         = dynamicResize1,
                    DynamicResizeAndMerge = dynamicResize2,
                    Nulls    = map,
                    Table4   = dt4,
                    Combined = combined,
                    Fixed    = fixedItems
                });
            }
            Process.Start("WordTables.docx");
        }
Esempio n. 53
0
 public virtual Statement VisitFixed(Fixed Fixed, Fixed changes, Fixed deletions, Fixed insertions){
   this.UpdateSourceContext(Fixed, changes);
   if (Fixed == null) return changes;
   if (changes != null){
     if (deletions == null || insertions == null)
       Debug.Assert(false);
     else{
     }
   }else if (deletions != null)
     return null;
   return Fixed;
 }
Esempio n. 54
0
 public void CanGetValue() {
   Fixed f = new Fixed(0x35);
   Assert.Equal(0x35, f.Target);
 }