private IEnumerable faceSetsAtAcrossIndexFlushWithRange(int acrossI, Range1D range, Direction dir)
{
int currentFSI = -1;
for (int j = range.start; j < range.extent(); ++j)
{
if (j < 0)
{
continue;
}
if (j > faceSetTableHalfDims.t)
{
break;
}
AlignedCoord curAlco = new AlignedCoord(acrossI, j);
int fsindex = indexOfFaceSetAtCoord(curAlco, dir);
if (fsindex >= 0 && fsindex != currentFSI)
{
currentFSI = fsindex;
yield return(fsindex);
}
}
}
private void addMeshDataForExposedRanges(List <Range1D> exposedRanges, Direction camFacingDir, ref int starting_tri_i, int xx, int zz)
{
ChunkIndex targetBlockIndex;
foreach (Range1D rng in exposedRanges)
{
int blockY = rng.start;
// while(blockY < rng.extent()) {
targetBlockIndex = new ChunkIndex(xx, blockY, zz);
if (blockY == Range1D.theErsatzNullRange().start)
{
throw new Exception("this range was ersatz nullish " + rng.toString());
}
Block b = m_noisePatch.blockAtChunkCoordOffset(chunkCoord, new Coord(xx, blockY, zz));
// addYFaceAtChunkIndex(targetBlockIndex, b.type, camFacingDir, starting_tri_i); // old way with the while loop (now each range is one quad)
addYFaceAtChunkIndex(targetBlockIndex, b.type, camFacingDir, starting_tri_i, rng.range);
starting_tri_i += 4;
// blockY++;
// }
}
}
// TODO: really make an index lookup table class
private void setIndicesOfFaceSetsAtRangeToIndex(Range1D range, int acrossI, Direction dir, int indexToSetTo)
{
for (int i = range.start; i < range.extent(); ++i)
{
setIndexOfFaceSetAtCoord(indexToSetTo, new AlignedCoord(acrossI, i), dir);
}
}
private void addDiscontinuityWith(Range1D aboveRange, Range1D belowRange, int xx, int zz, SurroundingSurfaceValues ssvs, bool wantToEditPossibly, bool doLightUpDate)
{
int gap = aboveRange.start - belowRange.extent();
if (gap > 0)
{
addDiscontinuityAt(new SimpleRange(belowRange.extent(), gap), xx, zz, ssvs, wantToEditPossibly, doLightUpDate);
}
}
public bool addNewZCurtainSectionAt(PTwo xzco, Range1D continuityRangeAtZPlusOrMinusOne, Range1D airRange)
{
if (doAddNewZCurtainSectionAt(xzco, continuityRangeAtZPlusOrMinusOne, airRange))
{
bounds = bounds.expandedToContainPoint(xzco);
return(true);
}
return(false);
}
public FaceInfo(Coord _coord, Range1D _range, Direction _dir, ILightDataProvider _lightDataProvider)
{
coord = _coord;
lightLevel = 0; // _range.top_light_level;
direction = _dir;
blockType = _range.blockType; // arg.. duplications...
range = _range;
lightDataProvider = _lightDataProvider;
}
public static Range1D[] splitRangeIntoTopAndRemainder(Range1D splitMe, BlockType remainderType)
{
Range1D[] result = new Range1D[2];
Range1D top = new Range1D(splitMe.extentMinusOne(), 1, remainderType); //, splitMe.top_light_level, splitMe.top_light_level);
splitMe.range--;
result[0] = top;
result[1] = splitMe;
return(result);
}
public DiscontinuityCurtain(PTwo xzStartCoord, Range1D continuityRangeAtZMinusOne, Range1D airRange)
{
bounds = Quad.UnitQuadWithPoint(xzStartCoord);
ZCurtain inital_zc = new ZCurtain(xzStartCoord.t);
inital_zc.setDiscontinuityStartWithSurfaceRange(continuityRangeAtZMinusOne, airRange);
z_curtains.Add(inital_zc);
}
public Range1D subRangeBelow(int level)
{
if (level <= this.start)
{
return(Range1D.theErsatzNullRange());
}
int min = Mathf.Min(this.extent(), level);
return(new Range1D(this.start, min - this.start, this.blockType)); //, this.top_light_level, this.bottom_light_level);
}
public Range1D setRangeStartTo(int level)
{
int newRange = this.extent() - level - 1;
if (newRange <= 0)
{
return(Range1D.theErsatzNullRange());
}
return(new Range1D(level + 1, newRange, this.blockType)); //, this.top_light_level, this.bottom_light_level);
}
public static Range1D Union(Range1D raa, Range1D rbb)
{
int unionExtent = raa.extent() > rbb.extent() ? raa.extent() : rbb.extent();
int unionStart = raa.start < rbb.start ? raa.start : rbb.start;
if (unionStart >= unionExtent)
{
return(Range1D.theErsatzNullRange());
}
return(new Range1D(unionStart, unionExtent - unionStart, raa.blockType));
}
private void updateRangeListAtXZ(List <Range1D> heightRanges, Coord pRelCoord, bool solidBlockRemoved, SurroundingSurfaceValues ssvs)
{
DiscreteDomainRangeList <LightColumn> liCols = m_lightColumnMap[pRelCoord.x, pRelCoord.z];
if (!solidBlockRemoved && heightRanges.Count <= 1) // equal zero would be down right silly.
{
return;
}
// y above highest extent?
int highestDiscontinuity = liCols.highestExtent();
int lowestSurroundingLevel = ssvs.lowestValue();
//CASE WHERE A BLOCK IS ADDED TO THE TOP OF OR OVER TOP OF THE SURFACE
if (pRelCoord.y > highestDiscontinuity && !solidBlockRemoved)
{
// Y MUST BE THE TOP BLOCK?
int hRangeCount = heightRanges.Count;
SimpleRange between = discontinuityBetween(heightRanges[hRangeCount - 2], heightRanges[hRangeCount - 1]);
if (!between.isErsatzNull())
{
AssertUtil.Assert(pRelCoord.y == between.extentMinusOne(), "confused. y is " + pRelCoord.y + " between range is " + between.toString());
int lightValue = pRelCoord.y >= lowestSurroundingLevel? (int)Window.LIGHT_LEVEL_MAX_BYTE : 0;
LightColumn licol = new LightColumn(PTwo.PTwoXZFromCoord(pRelCoord), (byte)lightValue, between);
liCols.Add(licol);
return; // licol;
}
throw new Exception("don't want to be here. we think a block couldn't be placed vertically in between at this point");
}
//TODO handle case where y is above surface, solid block removed
// need to destroy some discon ranges (not incorporate y).
Range1D highest = heightRanges[heightRanges.Count - 1];
if (pRelCoord.y > highest.extent())
{
liCols.RemoveStartAbove(highest.extent());
}
else
{
LightColumn newCol = liCols.Incorporate(pRelCoord.y, solidBlockRemoved);
if (newCol != null)
{
newCol.coord = new PTwo(pRelCoord.x, pRelCoord.z);
}
// throw new Exception("lots of exceptions. we failed to incorp a solid block added.");
}
b.bug("we incorporated a pRelCOord: " + pRelCoord.toString() + "solid removed was: " + solidBlockRemoved);
m_lightColumnMap[pRelCoord.x, pRelCoord.z] = liCols;
}
public static Range1D IntersectingRange(Range1D raa, Range1D rbb)
{
int interExtent = raa.extent() < rbb.extent() ? raa.extent() : rbb.extent();
int interStart = raa.start > rbb.start ? raa.start : rbb.start;
if (interStart >= interExtent)
{
return(Range1D.theErsatzNullRange());
}
return(new Range1D(interStart, interExtent - interStart, raa.blockType));
// int extentDif = raa.e
}
private static SimpleRange discontinuityBetween(Range1D belowRange, Range1D aboveRange)
{
int gap = aboveRange.start - belowRange.extent();
if (gap > 0)
{
return(new SimpleRange(belowRange.extent(), gap));
}
// throw new Exception("good to know if this happens. discon between got a null range. no gap?");
return(SimpleRange.theErsatzNullRange());
}
private void updateColumnsWithHigherHighestSurface(List <Range1D> heightRanges, Coord pRelCoord, SurroundingSurfaceValues ssvs, bool shouldPropagateLight)
{
b.bug("update w higher highest surf");
int x = pRelCoord.x, y = pRelCoord.y, z = pRelCoord.z;
SimpleRange justCoveredColumn = new SimpleRange(y, 1);
Range1D highest = heightRanges[heightRanges.Count - 1];
LightColumn newlico = null;
int lowestSurroundingSurface = ssvs.lowestValue();
if (highest.range == 1)
{
AssertUtil.Assert(heightRanges.Count > 1, "what we just 'covered' bedrock?");
Range1D secondHighest = heightRanges[heightRanges.Count - 2];
justCoveredColumn = new SimpleRange(secondHighest.extent(), y + 1 - secondHighest.extent()); //(extent - start)
//new column
SimpleRange newColRange = justCoveredColumn;
newColRange.range--;
newlico = new LightColumn(PTwo.PTwoXZFromCoord(pRelCoord), 0, newColRange);
m_lightColumnMap.addColumnAt(newlico, x, z);
if (newColRange.extent() > lowestSurroundingSurface)
{
newlico.lightLevel = Window.LIGHT_LEVEL_MAX_BYTE;
surfaceExposedColumns.Add(newlico);
}
}
List <LightColumn> adjColsFlushToJustCovered = m_lightColumnMap.lightColumnsAdjacentToAndFlushWithSimpleRangeAndPoint(justCoveredColumn, new PTwo(x, z));
foreach (LightColumn adjcol in adjColsFlushToJustCovered)
{
//adj cols could still be above
if (adjcol.extent() <= y)
{
//get surrounding surface for these?
SurroundingSurfaceValues assvs = m_noisePatch.surfaceValuesSurrounding(adjcol.coord);
if (adjcol.extent() <= assvs.lowestValue())
{
surfaceExposedColumns.Remove(adjcol);
adjcol.lightLevel = 0;
// put back?
}
}
}
resetAndUpdateColumnsWithin(LightDomainAround(x, z));
}
public Range1D subRangeAbove(int level)
{
if (level < this.start)
{
return(this);
}
int newRange = this.extentMinusOne() - level;
if (newRange <= 0)
{
return(Range1D.theErsatzNullRange());
}
return(new Range1D(level + 1, newRange, this.blockType)); //, this.top_light_level, this.bottom_light_level);
}
private void updateWindowsWithHeightRangesSolidAdded(List <Range1D> heightRanges, Coord pRelCoord,
SurroundingSurfaceValues ssvs, bool shouldPropagateLight)
{
Range1D highest = heightRanges[heightRanges.Count - 1];
int newSurfaceHeightAtXZ = highest.extent();
bool yIsNewHighestSurface = pRelCoord.y == newSurfaceHeightAtXZ - 1;
b.bug("y is " + pRelCoord.y + " new surf height minus one: " + (newSurfaceHeightAtXZ - 1));
// WAS A FORMERLY SURFACE EXPOSED SURFACE COLUMN JUST COVERED?
if (yIsNewHighestSurface)
{
updateColumnsWithHigherHighestSurface(heightRanges, pRelCoord, ssvs, shouldPropagateLight);
return;
}
updateColumnsSolidAddedBelowSurface(heightRanges, pRelCoord, ssvs, shouldPropagateLight);
}
//TODO: test this func.
public static Quad Intersection(Quad ii, Quad kk)
{
Range1D ii_s = new Range1D(ii.origin.s, ii.dimensions.s);
Range1D ii_t = new Range1D(ii.origin.t, ii.dimensions.t);
Range1D kk_s = new Range1D(kk.origin.s, kk.dimensions.s);
Range1D kk_t = new Range1D(kk.origin.t, kk.dimensions.t);
ii_s = Range1D.IntersectingRange(ii_s, kk_s);
kk_t = Range1D.IntersectingRange(ii_t, kk_t);
if (ii_s.isErsatzNull() || kk_t.isErsatzNull())
{
return(Quad.theErsatzNullQuad());
}
return(new Quad(new PTwo(ii_s.start, kk_t.start), new PTwo(ii_s.range, kk_t.range)));
}
static Range1D StrToRange(string s)
{
string[] segs = s.Split(new string[] { "," }, System.StringSplitOptions.RemoveEmptyEntries);
Range1D r = new Range1D();
if (segs.Length == 1)
{
float f = System.Convert.ToSingle(segs[0].Trim());
r.SetMinMax(f, f);
}
else if (segs.Length > 1)
{
r.SetMinMax(System.Convert.ToSingle(segs[0].Trim()), System.Convert.ToSingle(segs[1].Trim()));
}
else
{
throw new System.Exception("Invalid range string");
}
return(r);
}
//TODO: need extra parameters for the air and surface at z plus 1!
private void extendWithXZCoord(PTwo xzco, Range1D continuityRangeAtZPlusOrMinusOne, Range1D airRange, bool setTerminatingDisConStatus)
{
Range1D x_domain = bounds.sRange();
if (x_domain.contains(xzco.s))
{
PTwo relCo = xzco - bounds.origin;
ZCurtain zcur = z_curtains[relCo.s];
if (setTerminatingDisConStatus)
{
zcur.extendCurtainToIncludeWocoZ(xzco.t, continuityRangeAtZPlusOrMinusOne, airRange);
}
else
{
zcur.extendCurtainToIncludeNonTerminationWocoZ(xzco.t);
}
z_curtains[relCo.s] = zcur;
bounds = bounds.expandedToContainPoint(xzco);
}
}
private static bool aSolidRangeIsFlushWithRangeAtIndex(List <Range1D> heights, int currentIndex, bool wantAboveRange)
{
int nudgeIndex = wantAboveRange ? 1 : -1;
Range1D currentRange = heights[currentIndex];
if (wantAboveRange)
{
if (currentIndex == heights.Count - 1)
{
return(false);
}
Range1D nextRangeAbove = heights[currentIndex + 1];
if (currentRange.extent() == nextRangeAbove.start)
{
if (!Block.BlockTypeIsATranslucentType(nextRangeAbove.blockType))
{
return(true);
}
}
}
else
{
if (currentIndex == 0)
{
return(false);
}
Range1D prevRangeBelow = heights[currentIndex - 1];
if (currentRange.start == prevRangeBelow.extent())
{
if (!Block.BlockTypeIsATranslucentType(prevRangeBelow.blockType))
{
return(true);
}
}
}
return(false);
}
private void addToFaceSetsAt(int nextToRangeIndex, FaceInfo finfo)
{
Range1D addRange = finfo.range;
Direction dir = finfo.direction;
AssertUtil.Assert(nextToRangeIndex < this.faceSetTableHalfDims.s - 1, "need next to range to be in our table minus one column");
foreach (int faceSetIndex in faceSetsAtAcrossIndexFlushWithRange(nextToRangeIndex, addRange, dir))
{
FaceSet nextToFS = faceSets[faceSetIndex];
if (nextToFS.canIncorporatePartOrAllOfRange(addRange, nextToRangeIndex + 1))
{
Range1D usedRange = nextToFS.addRangeAtAcrossReturnAddedRange(addRange, nextToRangeIndex + 1);
AssertUtil.Assert(usedRange.range > 0, "confusing used range was zero or less? (in face agg add fs w range)");
setIndicesOfFaceSetsAtRangeToIndex(usedRange, nextToRangeIndex + 1, dir, faceSetIndex + FaceAggregator.FACETABLE_LOOKUP_SHIFT);
Range1D unusedRangeBelow = addRange.subRangeBelowRange(usedRange);
if (!unusedRangeBelow.isErsatzNull())
{
// addNewFaceSetsWith(nextToRangeIndex + 1, addRange, dir);
addNewFaceSetsWith(nextToRangeIndex + 1, finfo);
}
Range1D unusedAbove = addRange.subRangeAboveRange(usedRange);
if (!unusedAbove.isErsatzNull())
{
finfo.range = unusedAbove;
// addToFaceSetsAt(nextToRangeIndex, unusedAbove, dir);
addToFaceSetsAt(nextToRangeIndex, finfo);
}
return;
}
}
addNewFaceSetsWith(nextToRangeIndex + 1, finfo);
}
private bool doAddNewZCurtainSectionAt(PTwo xzco, Range1D continuityRangeAtZPlusOrMinusOne, Range1D airRange)
{
if (!thereIsAdjacencyOnOneSideOrTheOther(xzco))
{
return(false);
}
Range1D x_domain = bounds.sRange();
if (x_domain.contains(xzco.s))
{
PTwo relCo = bounds.origin - xzco;
ZCurtain zcur = z_curtains[relCo.s];
zcur.addNewCurtainUnitWithZNegStartAt(xzco.t);
zcur.setDiscontinuityStartWithSurfaceRange(continuityRangeAtZPlusOrMinusOne, airRange);
z_curtains[relCo.s] = zcur;
return(true);
}
if (x_domain.start - 1 == xzco.s)
{
ZCurtain zc = new ZCurtain(xzco.t);
zc.setDiscontinuityStartWithSurfaceRange(continuityRangeAtZPlusOrMinusOne, airRange);
z_curtains.Insert(0, zc);
return(true);
}
else if (x_domain.extent() == xzco.s)
{
ZCurtain zc = new ZCurtain(xzco.t);
zc.setDiscontinuityStartWithSurfaceRange(continuityRangeAtZPlusOrMinusOne, airRange);
z_curtains.Add(zc);
return(true);
}
return(false);
}
public OverlapState overlapWithRange(Range1D other)
{
if (this.start == other.extent())
{
return(OverlapState.FlushWithStart);
}
if (this.start > other.extent())
{
return(OverlapState.BeforeStart);
}
if (this.extent() == other.start)
{
return(OverlapState.FlushWithExtent);
}
if (RangesIntersect(this, other))
{
if (this.contains(other))
{
return(OverlapState.IContainIt);
}
if (other.contains(this))
{
return(OverlapState.ItContainsMe);
}
if (other.start < this.start)
{
return(OverlapState.OverlappingOverStart);
}
return(OverlapState.OverlappingOverEnd);
}
return(OverlapState.BeyondExtent);
}
public Plinth(PTwo _patchRelOrigin, int y_height, float seed) // : base(_patchRelativePlot)
{
Coord dims = new Coord(5, 5, 6); // fake
Quad _prplot = new Quad(_patchRelOrigin, PTwo.PTwoXZFromCoord(dims));
// setupSBB(_prplot, y_height);
setupSB(_prplot, y_height);
int i = 0;
int j = 0;
for (; i < this.plot.dimensions.s; ++i)
{
for (j = 0; j < this.plot.dimensions.t; ++j)
{
List <Range1D> rangs = new List <Range1D>();
// if (i == plot.dimensions.s /2 && j == plot.dimensions.t/2)
if (i == 0 || i == plot.dimensions.s - 1 || j == 0 || j == plot.dimensions.t - 1)
{
Range1D column = new Range1D(0, dims.y, BlockType.Stucco);
rangs.Add(column);
ranges[i, j] = rangs; // TODO: convert to range table
}
else
{
Range1D floor = new Range1D(0, 1, BlockType.Sand);
// Range1D mezzo = new Range1D(dims.y/2, 1, BlockType.Sand);
Range1D ceil = new Range1D(dims.y - 1, 1, BlockType.Stucco);
rangs.Add(floor);
// rangs.Add(mezzo);
rangs.Add(ceil);
ranges[i, j] = rangs;
}
}
}
}
// public ZDiscontinuityPointCoverageStatus zCoverageStatusForPointIncludeXAdjaceny(PTwo woco_pointxz)
// {
// XDiscontinuityPointCoverageStatus xcoverage = this.xCoverageStatusForPoint(woco_pointxz);
//
// if (xcoverage <= XDiscontinuityPointCoverageStatus.BeyondBoundsXPos) //beyond bounds pos or neg
// return false;
//
// if (xcoverage == XDiscontinuityPointCoverageStatus.XAdjacentToLowerLimit) {
// woco_pointxz.s++;
// } else if (xcoverage == XDiscontinuityPointCoverageStatus.XAdjacentToUpperLimit) {
// woco_pointxz.s--;
// }
//
// ZDiscontinuityPointCoverageStatus zcoverage = this.zCoverageStatusForPoint(woco_pointxz);
//
// if (zcoverage <= ZDiscontinuityPointCoverageStatus.BeyondBoundsZPos) {
//
// }
// }
public XDiscontinuityPointCoverageStatus xCoverageStatusForPoint(PTwo woco_pointxz)
{
Range1D srange = bounds.sRange();
if (woco_pointxz.s > srange.extentMinusOne())
{
if (srange.extent() == woco_pointxz.s)
{
return(XDiscontinuityPointCoverageStatus.XAdjacentToUpperLimit);
}
return(XDiscontinuityPointCoverageStatus.BeyondBoundsXPos);
}
if (woco_pointxz.s < srange.start)
{
if (srange.start - 1 == woco_pointxz.s)
{
return(XDiscontinuityPointCoverageStatus.XAdjacentToLowerLimit);
}
return(XDiscontinuityPointCoverageStatus.BeyondBoundsXNeg);
}
return(XDiscontinuityPointCoverageStatus.WithinXDomain);
}
private void setDiscontinuityWithSurfaceRange(Range1D lastContinuityBeforeRange, Range1D airRange_, bool wantStart)
{
if (sections.Count < 1)
{
return;
}
SimpleRange surfRange = new SimpleRange(lastContinuityBeforeRange.start, lastContinuityBeforeRange.range);
SimpleRange airRange = new SimpleRange(airRange_.start, airRange_.range);
ZCurtainUnit zcu;
if (wantStart)
{
zcu = sections[0];
}
else
{
zcu = sections[sections.Count - 1];
}
// whether
zcu.startIsOpen = SimpleRange.SimpleRangeCoversRange(surfRange, airRange);
}
private void addNewFaceSetsWith(int acrossI, FaceInfo finfo)
{
Range1D addRange = finfo.range;
Direction dir = finfo.direction;
AlignedCoord startAlco = new AlignedCoord(acrossI, addRange.start);
int fsIndex = indexOfFaceSetAtCoord(startAlco, dir);
if (!indexRepresentsAnOccupiedCoord(fsIndex))
{
newFaceSetAtCoord(startAlco, addRange.blockType, dir, 0, finfo.lightDataProvider);
}
// newFaceSetAtCoord(startAlco, addRange.blockType, dir, addRange.bottom_light_level, finfo.lightDataProvider);
FaceSet justAddedFS = faceSetAt(startAlco, dir);
Range1D usedRange = justAddedFS.addRangeAtAcrossReturnAddedRange(addRange, acrossI);
int nowOccupiedFS = unshiftedIndexOfFaceSetAtCoord(startAlco, dir);
AssertUtil.Assert(nowOccupiedFS > -1, "wha negative occupied coord? " + nowOccupiedFS);
setIndicesOfFaceSetsAtRangeToIndex(usedRange, acrossI, dir, nowOccupiedFS);
AssertUtil.Assert(addRange.subRangeBelowRange(usedRange).isErsatzNull(), "we thought there would be no range below. whoops");
Range1D unusedRangeAbove = addRange.subRangeAboveRange(usedRange);
if (!unusedRangeAbove.isErsatzNull())
{
if (unusedRangeAbove.range > 0)
{
finfo.range = unusedRangeAbove;
addNewFaceSetsWith(acrossI, finfo);
}
}
}
public static Strip theErsatzNullStrip()
{
return(new Strip(Range1D.theErsatzNullRange(), IndexSet.theErsatzNullIndexSet()));
}
public static bool StripNotNull(Strip ss)
{
return(!Range1D.Equal(ss.range, Range1D.theErsatzNullRange()));
}
