diff --git a/src/game/g_grid.pas b/src/game/g_grid.pas
index 475cb68d7ec3b961c324f504bcf802230ae2bbfc..092f13ee201a53a54939da7ceced246ef4e39c24 100644 (file)
--- a/src/game/g_grid.pas
+++ b/src/game/g_grid.pas
{.$DEFINE D2F_DEBUG_XXQ}
{.$DEFINE D2F_DEBUG_MOVER}
{$ENDIF}
-{$DEFINE GRID_USE_ORTHO_ACCEL}
+{.$DEFINE GRID_USE_ORTHO_ACCEL}
unit g_grid;
interface
function getEnabled (): Boolean; inline;
procedure setEnabled (v: Boolean); inline;
+ function getX1 (): Integer; inline;
+ function getY1 (): Integer; inline;
+
public
property x: Integer read mX;
property y: Integer read mY;
property tag: Integer read getTag write setTag;
property enabled: Boolean read getEnabled write setEnabled;
property obj: ITP read mObj;
+
+ property x0: Integer read mX;
+ property y0: Integer read mY;
+ property x1: Integer read getX1;
+ property y1: Integer read getY1;
end;
private
function traceRay (const x0, y0, x1, y1: Integer; cb: TGridRayQueryCB; tagmask: Integer=-1): ITP; overload;
function traceRay (out ex, ey: Integer; const ax0, ay0, ax1, ay1: Integer; cb: TGridRayQueryCB; tagmask: Integer=-1): ITP;
- //function traceOrthoRayWhileIn (const x0, y0, x1, y1: Integer; tagmask: Integer=-1): ITP; overload;
- //function traceOrthoRayWhileIn (out ex, ey: Integer; const ax0, ay0, ax1, ay1: Integer; tagmask: Integer=-1): ITP;
+ // return `false` if we're still inside at the end
+ // line should be either strict horizontal, or strict vertical, otherwise an exception will be thrown
+ // `true`: endpoint will point at the last "inside" pixel
+ // `false`: endpoint will be (ax1, ay1)
+ function traceOrthoRayWhileIn (out ex, ey: Integer; ax0, ay0, ax1, ay1: Integer; tagmask: Integer=-1): Boolean;
//WARNING: don't modify grid while any query is in progress (no checks are made!)
// you can set enabled/disabled flag, tho (but iterator can still return objects disabled inside it)
//WARNING: don't change tags in callbacks here!
function forEachAlongLine (ax0, ay0, ax1, ay1: Integer; cb: TGridQueryCB; tagmask: Integer=-1; log: Boolean=false): ITP;
+ // trace box with the given velocity; return object hit (if any)
+ // `cb` is used unconvetionally here: if it returns `false`, tracer will ignore the object
+ function traceBox (out ex, ey: Integer; const ax0, ay0, aw, ah: Integer; const dx, dy: Integer; cb: TGridQueryCB; tagmask: Integer=-1): ITP;
+
// debug
procedure forEachBodyCell (body: TBodyProxyId; cb: TCellQueryCB);
function forEachInCell (x, y: Integer; cb: TGridQueryCB): ITP;
// if result is `false`, `inx` and `iny` are undefined
function lineAABBIntersects (x0, y0, x1, y1: Integer; bx, by, bw, bh: Integer; out inx, iny: Integer): Boolean;
+// sweep two AABB's to see if and when they are overlapping
+// returns `true` if collision was detected (but boxes doesn't overlap)
+// u1 and u1 has no sense if no collision was detected
+// u0 = normalized time of first collision (i.e. collision starts at myMove*u0)
+// u1 = normalized time of second collision (i.e. collision stops after myMove*u1)
+// hitedge for `it`: 0: top; 1: right; 2: bottom; 3: left
+// enter/exit coords will form non-intersecting configuration (i.e. will be before/after the actual collision)
+function sweepAABB (mex0, mey0, mew, meh: Integer; medx, medy: Integer; itx0, ity0, itw, ith: Integer;
+ u0: PSingle=nil; hitedge: PInteger=nil; u1: PSingle=nil): Boolean;
+
function distanceSq (x0, y0, x1, y1: Integer): Integer; inline;
procedure swapInt (var a: Integer; var b: Integer); inline;
implementation
uses
- SysUtils, e_log, g_console;
+ SysUtils, e_log, g_console, utils;
// ////////////////////////////////////////////////////////////////////////// //
end;
+// ////////////////////////////////////////////////////////////////////////// //
+function sweepAABB (mex0, mey0, mew, meh: Integer; medx, medy: Integer; itx0, ity0, itw, ith: Integer;
+ u0: PSingle=nil; hitedge: PInteger=nil; u1: PSingle=nil): Boolean;
+var
+ tin, tout: Single;
+
+ function axisOverlap (me0, me1, it0, it1, d, he0, he1: Integer): Boolean; inline;
+ var
+ t: Single;
+ begin
+ result := false;
+
+ if (me1 < it0) then
+ begin
+ if (d >= 0) then exit; // oops, no hit
+ t := (me1-it0+1)/d;
+ if (t > tin) then begin tin := t; hitedge^ := he1; end;
+ end
+ else if (it1 < me0) then
+ begin
+ if (d <= 0) then exit; // oops, no hit
+ t := (me0-it1-1)/d;
+ if (t > tin) then begin tin := t; hitedge^ := he0; end;
+ end;
+
+ if (d < 0) and (it1 > me0) then
+ begin
+ t := (me0-it1-1)/d;
+ if (t < tout) then tout := t;
+ end
+ else if (d > 0) and (me1 > it0) then
+ begin
+ t := (me1-it0+1)/d;
+ if (t < tout) then tout := t;
+ end;
+
+ result := true;
+ end;
+
+var
+ mex1, mey1, itx1, ity1, vx, vy: Integer;
+ htt: Integer = -1;
+begin
+ result := false;
+ if (u0 <> nil) then u0^ := -1.0;
+ if (u1 <> nil) then u1^ := -1.0;
+ if (hitedge = nil) then hitedge := @htt else hitedge^ := -1;
+
+ if (mew < 1) or (meh < 1) or (itw < 1) or (ith < 1) then exit;
+
+ mex1 := mex0+mew-1;
+ mey1 := mey0+meh-1;
+ itx1 := itx0+itw-1;
+ ity1 := ity0+ith-1;
+
+ // check if they are overlapping right now (SAT)
+ //if (mex1 >= itx0) and (mex0 <= itx1) and (mey1 >= ity0) and (mey0 <= ity1) then begin result := true; exit; end;
+
+ if (medx = 0) and (medy = 0) then exit; // both boxes are sationary
+
+ // treat b as stationary, so invert v to get relative velocity
+ vx := -medx;
+ vy := -medy;
+
+ tin := -100000000.0;
+ tout := 100000000.0;
+
+ if not axisOverlap(mex0, mex1, itx0, itx1, vx, 1, 3) then exit;
+ if not axisOverlap(mey0, mey1, ity0, ity1, vy, 2, 0) then exit;
+
+ if (u0 <> nil) then u0^ := tin;
+ if (u1 <> nil) then u1^ := tout;
+
+ if (tin <= tout) and (tin >= 0.0) and (tin <= 1.0) then
+ begin
+ result := true;
+ end;
+end;
+
+
// ////////////////////////////////////////////////////////////////////////// //
procedure TBodyGridBase.TBodyProxyRec.setup (aX, aY, aWidth, aHeight: Integer; aObj: ITP; aTag: Integer);
begin
if v then mTag := mTag and (not TagDisabled) else mTag := mTag or TagDisabled;
end;
+function TBodyGridBase.TBodyProxyRec.getX1 (): Integer; inline;
+begin
+ result := mX+mWidth-1;
+end;
+
+function TBodyGridBase.TBodyProxyRec.getY1 (): Integer; inline;
+begin
+ result := mY+mHeight-1;
+end;
+
// ////////////////////////////////////////////////////////////////////////// //
constructor TBodyGridBase.TAtPointEnumerator.Create (acells: TCellArray; aidx: Integer; agetpx: TGetProxyFn);
// ////////////////////////////////////////////////////////////////////////// //
function TBodyGridBase.getProxyEnabled (pid: TBodyProxyId): Boolean; inline;
begin
- if (pid >= 0) then result := ((mProxies[pid].mTag and TagDisabled) = 0) else result := false;
+ if (pid >= 0) and (pid < Length(mProxies)) then result := ((mProxies[pid].mTag and TagDisabled) = 0) else result := false;
end;
procedure TBodyGridBase.setProxyEnabled (pid: TBodyProxyId; val: Boolean); inline;
begin
- if (pid >= 0) then
+ if (pid >= 0) and (pid < Length(mProxies)) then
begin
if val then
begin
function TBodyGridBase.getProxyById (idx: TBodyProxyId): PBodyProxyRec; inline;
begin
- if (idx >= 0) and (idx < High(mProxies)) then result := @mProxies[idx] else result := nil;
+ if (idx >= 0) and (idx < Length(mProxies)) then result := @mProxies[idx] else result := nil;
end;
// one of those will never change
x := xptr^+minx;
y := yptr^+miny;
- //prevx := x;
- //prevy := y;
- {$IF DEFINED(D2F_DEBUG)}
- if hopt then
- begin
- if (y <> ay0) then raise Exception.Create('htrace fatal internal error');
- end
- else
- begin
- if (x <> ax0) then raise Exception.Create('vtrace fatal internal error');
- end;
- {$ENDIF}
while (wklen > 0) do
begin
{$IF DEFINED(D2F_DEBUG)}
ptag := px.mTag;
if ((ptag and TagDisabled) = 0) and ((ptag and tagmask) <> 0) and (px.mQueryMark <> lq) and
// constant coord should be inside
- ((hopt and (y >= px.mY) and (y < px.mY+px.mHeight)) or
- ((not hopt) and (x >= px.mX) and (x < px.mX+px.mWidth))) then
+ ((hopt and (y >= px.y0) and (y <= px.y1)) or
+ ((not hopt) and (x >= px.x0) and (x <= px.x1))) then
begin
px.mQueryMark := lq; // mark as processed
// inside the proxy?
- if (hopt and (x > px.mX) and (x < px.mX+px.mWidth-1)) or
- ((not hopt) and (y > px.mY) and (y < px.mY+px.mHeight-1)) then
+ if (hopt and (x > px.x0) and (x < px.x1)) or
+ ((not hopt) and (y > px.y0) and (y < px.y1)) then
begin
// setup prev[xy]
if assigned(cb) then
if (stx < 0) then
begin
// going left
- if (x < px.mX+px.mWidth-1) then continue; // not on the right edge
- prevx := px.mX+px.mWidth;
- x := prevx-1;
+ if (x < px.x1) then continue; // not on the right edge
+ x := px.x1;
+ prevx := x+1;
end
else
begin
// going right
- if (x > px.mX) then continue; // not on the left edge
- prevx := px.mX-1;
- x := prevx+1;
+ if (x > px.x0) then continue; // not on the left edge
+ x := px.x0;
+ prevx := x-1;
end;
end
else
if (stx < 0) then
begin
// going up
- if (y < px.mY+px.mHeight-1) then continue; // not on the bottom edge
- prevy := px.mY+px.mHeight;
- y := prevy-1;
+ if (y < px.y1) then continue; // not on the bottom edge
+ y := px.y1;
+ prevy := x+1;
end
else
begin
// going down
- if (y > px.mY) then continue; // not on the top edge
- prevy := px.mY-1;
- y := prevy+1;
+ if (y > px.y0) then continue; // not on the top edge
+ y := px.y0;
+ prevy := y-1;
end;
end;
if assigned(cb) then
{$ENDIF}
if (wkstep >= wklen) then break;
Inc(yptr^, wkstep);
- Inc(ga, mHeight);
+ Inc(ga, mWidth);
end
else
begin
{$ENDIF}
if (wkstep >= wklen) then break;
Dec(yptr^, wkstep);
- Dec(ga, mHeight);
+ Dec(ga, mWidth);
end;
end;
Dec(wklen, wkstep);
if dbgShowTraceLog then e_LogWritefln('optimized htrace; wklen=%d', [wklen]);
{$ENDIF}
ga := (yptr^ div tsize)*gw+(xptr^ div tsize);
- {$IF DEFINED(D2F_DEBUG)}
- if hopt then
- begin
- if (yptr^ <> ay0) then raise Exception.Create('htrace fatal internal error');
- end
- else
- begin
- if (xptr^ <> ax0) then raise Exception.Create('vtrace fatal internal error');
- end;
- {$ENDIF}
while (wklen > 0) do
begin
{$IF DEFINED(D2F_DEBUG)}
{$ENDIF}
if (wkstep >= wklen) then break;
Inc(yptr^, wkstep);
- Inc(ga, mHeight);
+ Inc(ga, mWidth);
end
else
begin
{$ENDIF}
if (wkstep >= wklen) then break;
Dec(yptr^, wkstep);
- Dec(ga, mHeight);
+ Dec(ga, mWidth);
end;
end;
Dec(wklen, wkstep);
end;
+// ////////////////////////////////////////////////////////////////////////// //
+// trace box with the given velocity; return object hit (if any)
+// `cb` is used unconvetionally here: if it returns `false`, tracer will ignore the object
+function TBodyGridBase.traceBox (out ex, ey: Integer; const ax0, ay0, aw, ah: Integer; const dx, dy: Integer; cb: TGridQueryCB; tagmask: Integer=-1): ITP;
+var
+ gx, gy: Integer;
+ cidx: Integer;
+ cc: PGridCell;
+ px: PBodyProxyRec;
+ lq: LongWord;
+ f, ptag: Integer;
+ minu0: Single = 100000.0;
+ u0, u1: Single;
+ hedge: Integer;
+ cx0, cy0, cx1, cy1: Integer;
+begin
+ result := Default(ITP);
+ ex := ax0+dx;
+ ey := ay0+dy;
+ if (aw < 1) or (ah < 1) then exit;
+
+ if mInQuery then raise Exception.Create('recursive queries aren''t supported');
+ mInQuery := true;
+
+ cx0 := nmin(ax0, ax0+dx);
+ cy0 := nmin(ay0, ay0+dy);
+ cx1 := nmax(ax0+aw-1, ax0+aw-1+dx);
+ cy1 := nmax(ay0+ah-1, ay0+ah-1+dy);
+
+ cx0 -= mMinX; cy0 -= mMinY;
+ cx1 -= mMinX; cy1 -= mMinY;
+
+ if (cx1 < 0) or (cy1 < 0) or (cx0 >= mWidth*mTileSize) or (cy0 >= mHeight*mTileSize) then exit;
+
+ if (cx0 < 0) then cx0 := 0;
+ if (cy0 < 0) then cy0 := 0;
+ if (cx1 >= mWidth*mTileSize) then cx1 := mWidth*mTileSize-1;
+ if (cy1 >= mHeight*mTileSize) then cy1 := mHeight*mTileSize-1;
+ // just in case
+ if (cx0 > cx1) or (cy0 > cy1) then exit;
+
+ // increase query counter
+ Inc(mLastQuery);
+ if (mLastQuery = 0) then
+ begin
+ // just in case of overflow
+ mLastQuery := 1;
+ for f := 0 to High(mProxies) do mProxies[f].mQueryMark := 0;
+ end;
+ lq := mLastQuery;
+
+ for gy := cy0 div mTileSize to cy1 div mTileSize do
+ begin
+ for gx := cx0 div mTileSize to cx1 div mTileSize do
+ begin
+ cidx := mGrid[gy*mWidth+gx];
+ while (cidx <> -1) do
+ begin
+ cc := @mCells[cidx];
+ for f := 0 to GridCellBucketSize-1 do
+ begin
+ if (cc.bodies[f] = -1) then break;
+ px := @mProxies[cc.bodies[f]];
+ ptag := px.mTag;
+ if ((ptag and TagDisabled) = 0) and ((ptag and tagmask) <> 0) and (px.mQueryMark <> lq) then
+ begin
+ px.mQueryMark := lq; // mark as processed
+ if assigned(cb) then
+ begin
+ if not cb(px.mObj, ptag) then continue;
+ end;
+ if not sweepAABB(ax0, ay0, aw, ah, dx, dy, px.mX, px.mY, px.mWidth, px.mHeight, @u0, @hedge, @u1) then
+ begin
+ {
+ if (u1 >= 0) then
+ begin
+ // overlapping
+ ex := ax0;
+ ey := ay0;
+ result := px.mObj;
+ mInQuery := false;
+ exit;
+ end;
+ }
+ continue;
+ end;
+ if (minu0 > u0) then
+ begin
+ result := px.mObj;
+ minu0 := u0;
+ if (u0 = 0.0) then
+ begin
+ ex := ax0;
+ ey := ay0;
+ mInQuery := false;
+ exit;
+ end;
+ end;
+ end;
+ end;
+ // next cell
+ cidx := cc.next;
+ end;
+ end;
+ end;
+
+ if (minu0 <= 1.0) then
+ begin
+ ex := ax0+trunc(dx*minu0);
+ ey := ay0+trunc(dy*minu0);
+ end;
+
+ mInQuery := false;
+end;
+
+
+// ////////////////////////////////////////////////////////////////////////// //
+{.$DEFINE D2F_DEBUG_OTR}
+function TBodyGridBase.traceOrthoRayWhileIn (out ex, ey: Integer; ax0, ay0, ax1, ay1: Integer; tagmask: Integer=-1): Boolean;
+var
+ ccidx: Integer;
+ cc: PGridCell;
+ px: PBodyProxyRec;
+ ptag: Integer;
+ minx, miny: Integer;
+ f, c0, c1: Integer;
+ x0, y0, x1, y1: Integer;
+ celly0, celly1: Integer;
+ dy: Integer;
+ filled: array[0..mTileSize-1] of Byte;
+ {$IF DEFINED(D2F_DEBUG_OTR)}
+ s: AnsiString = '';
+ {$ENDIF}
+begin
+ result := false;
+ ex := ax1;
+ ey := ay1;
+ if not ((ax0 = ax1) or (ay0 = ay1)) then raise Exception.Create('orthoray is not orthogonal');
+
+ tagmask := tagmask and TagFullMask;
+ if (tagmask = 0) then exit;
+
+ if (forEachAtPoint(ax0, ay0, nil, tagmask) = nil) then exit;
+
+ minx := mMinX;
+ miny := mMinY;
+
+ // offset query coords to (0,0)-based
+ x0 := ax0-minx;
+ y0 := ay0-miny;
+ x1 := ax1-minx;
+ y1 := ay1-miny;
+
+ if (x0 = x1) then
+ begin
+ if (x0 < 0) or (x0 >= mWidth*mTileSize) then exit; // oops
+ // vertical
+ if (y0 < y1) then
+ begin
+ // down
+ if (y1 < 0) or (y0 >= mHeight*mTileSize) then exit;
+ //if (ay0 < 0) then ay0 := 0;
+ if (y0 < 0) then exit;
+ if (y1 >= mHeight*mTileSize) then y1 := mHeight*mTileSize-1;
+ dy := 1;
+ end
+ else
+ begin
+ // up
+ if (y0 < 0) or (y1 >= mHeight*mTileSize) then exit;
+ //if (ay1 < 0) then ay1 := 0;
+ if (y1 < 0) then exit;
+ if (y0 >= mHeight*mTileSize) then y0 := mHeight*mTileSize-1;
+ dy := -1;
+ end;
+ // check tile
+ while true do
+ begin
+ ccidx := mGrid[(y0 div mTileSize)*mWidth+(x0 div mTileSize)];
+ FillChar(filled, sizeof(filled), 0);
+ celly0 := y0 and (not (mTileSize-1));
+ celly1 := celly0+mTileSize-1;
+ while (ccidx <> -1) do
+ begin
+ cc := @mCells[ccidx];
+ for f := 0 to GridCellBucketSize-1 do
+ begin
+ if (cc.bodies[f] = -1) then break;
+ px := @mProxies[cc.bodies[f]];
+ ptag := px.mTag;
+ if ((ptag and TagDisabled) = 0) and ((ptag and tagmask) <> 0) and
+ (ax0 >= px.x0) and (ax0 <= px.x1) then
+ begin
+ // bound c0 and c1 to cell
+ c0 := nclamp(px.y0-miny, celly0, celly1);
+ c1 := nclamp(px.y1-miny, celly0, celly1);
+ // fill the thing
+ {$IF DEFINED(D2F_DEBUG_OTR)}
+ e_LogWritefln('**px.y0=%s; px.y1=%s; c0=%s; c1=%s; celly0=%s; celly1=%s; [%s..%s]', [px.y0-miny, px.y1-miny, c0, c1, celly0, celly1, c0-celly0, (c0-celly0)+(c1-c0)]);
+ {$ENDIF}
+ //assert(c0 <= c1);
+ FillChar(filled[c0-celly0], c1-c0+1, 1);
+ end;
+ end;
+ // next cell
+ ccidx := cc.next;
+ end;
+ {$IF DEFINED(D2F_DEBUG_OTR)}
+ s := formatstrf(' x=%s; ay0=%s; ay1=%s; y0=%s; celly0=%s; celly1=%s; dy=%s; [', [ax0, ay0, ay1, y0, celly0, celly1, dy]);
+ for f := 0 to High(filled) do if (filled[f] <> 0) then s += '1' else s += '0';
+ s += ']';
+ e_LogWriteln(s);
+ {$ENDIF}
+ // now go till we hit cell boundary or empty space
+ if (dy < 0) then
+ begin
+ // up
+ while (y0 >= celly0) and (filled[y0-celly0] <> 0) do
+ begin
+ {$IF DEFINED(D2F_DEBUG_OTR)}
+ e_LogWritefln(' filled: cdy=%s; y0=%s; celly0=%s; ay0=%s; ay1=%s', [y0-celly0, y0, celly0, ay0, ay1]);
+ {$ENDIF}
+ Dec(y0);
+ Dec(ay0);
+ end;
+ {$IF DEFINED(D2F_DEBUG_OTR)}
+ e_LogWritefln(' span done: cdy=%s; y0=%s; celly0=%s; ay0=%s; ay1=%s', [y0-celly0, y0, celly0, ay0, ay1]);
+ {$ENDIF}
+ if (ay0 <= ay1) then begin ey := ay1; result := false; exit; end;
+ if (y0 >= celly0) then begin ey := ay0+1; {assert(forEachAtPoint(ex, ey, nil, tagmask) <> nil);} result := true; exit; end;
+ end
+ else
+ begin
+ // down
+ while (y0 <= celly1) and (filled[y0-celly0] <> 0) do begin Inc(y0); Inc(ay0); end;
+ if (ay0 >= ay1) then begin ey := ay1; result := false; exit; end;
+ if (y0 <= celly1) then begin ey := ay0-1; result := true; exit; end;
+ end;
+ end;
+ end
+ else
+ begin
+ // horizontal
+ assert(false);
+ end;
+end;
+
+
end.