{ Flame screensaver Copyright (C) 2002 Ronald Hordijk Apophysis Copyright (C) 2001-2004 Mark Townsend Apophysis Copyright (C) 2005-2006 Ronald Hordijk, Piotr Borys, Peter Sdobnov This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. } unit Render64MT; interface uses Windows, Forms, Classes, Graphics, Render, Controlpoint, ImageMaker, BucketFillerthread; type TRenderer64MT = class(TBaseRenderer) protected camX0, camX1, camY0, camY1, // camera bounds camW, camH, // camera sizes bws, bhs, cosa, sina, rcX, rcY: double; ppux, ppuy: extended; BucketWidth, BucketHeight: Int64; BucketSize: Int64; sample_density: extended; oversample: integer; gutter_width: Integer; max_gutter_width: Integer; batchcounter: Integer; FNrBatches: Int64; Buckets: TBucketArray; ColorMap: TColorMapArray; FNrOfTreads: integer; WorkingThreads: array of TBucketFillerThread; CriticalSection: TRTLCriticalSection; FImageMaker: TImageMaker; procedure InitValues; procedure InitBuffers; procedure ClearBuffers; procedure ClearBuckets; procedure CreateColorMap; procedure CreateCamera; procedure SetPixelsMT; procedure SetNrOfTreads(const Value: integer); function NewThread: TBucketFillerThread; public constructor Create; override; destructor Destroy; override; function GetImage: TBitmap; override; procedure Render; override; procedure Stop; override; procedure Pause(paused: boolean); override; procedure UpdateImage(CP: TControlPoint); override; procedure SaveImage(const FileName: String); override; property NrOfTreads: integer read FNrOfTreads write SetNrOfTreads; end; implementation uses Math, Sysutils; { TRenderer64MT } /////////////////////////////////////////////////////////////////////////////// procedure TRenderer64MT.ClearBuckets; var i: integer; begin for i := 0 to BucketSize - 1 do begin buckets[i].Red := 0; buckets[i].Green := 0; buckets[i].Blue := 0; buckets[i].Count := 0; end; end; /////////////////////////////////////////////////////////////////////////////// procedure TRenderer64MT.ClearBuffers; begin ClearBuckets; end; /////////////////////////////////////////////////////////////////////////////// procedure TRenderer64MT.CreateCamera; var scale: double; t0, t1: double; t2, t3: double; corner_x, corner_y, Xsize, Ysize: double; shift: Integer; begin scale := power(2, fcp.zoom); sample_density := fcp.sample_density * scale * scale; ppux := fcp.pixels_per_unit * scale; ppuy := fcp.pixels_per_unit * scale; // todo field stuff shift := 0; t0 := (gutter_width) / (oversample * ppux); t1 := (gutter_width) / (oversample * ppuy); t2 := (2 * max_gutter_width - gutter_width) / (oversample * ppux); t3 := (2 * max_gutter_width - gutter_width) / (oversample * ppuy); corner_x := fcp.center[0] - fcp.Width / ppux / 2.0; corner_y := fcp.center[1] - fcp.Height / ppuy / 2.0; camX0 := corner_x - t0; camY0 := corner_y - t1 + shift; camX1 := corner_x + fcp.Width / ppux + t2; camY1 := corner_y + fcp.Height / ppuy + t3; //+ shift; camW := camX1 - camX0; if abs(camW) > 0.01 then Xsize := 1.0 / camW else Xsize := 1; camH := camY1 - camY0; if abs(camH) > 0.01 then Ysize := 1.0 / camH else Ysize := 1; bws := (BucketWidth - 0.5) * Xsize; bhs := (BucketHeight - 0.5) * Ysize; if FCP.FAngle <> 0 then begin cosa := cos(FCP.FAngle); sina := sin(FCP.FAngle); rcX := FCP.Center[0]*(1 - cosa) - FCP.Center[1]*sina - camX0; rcY := FCP.Center[1]*(1 - cosa) + FCP.Center[0]*sina - camY0; end; end; /////////////////////////////////////////////////////////////////////////////// procedure TRenderer64MT.CreateColorMap; var i: integer; begin {$IFDEF TESTVARIANT} for i := 0 to 255 do begin ColorMap[i].Red := i; ColorMap[i].Green := i; ColorMap[i].Blue := i; // cmap[i][3] := fcp.white_level; end; {$ELSE} for i := 0 to 255 do begin ColorMap[i].Red := (fcp.CMap[i][0] * fcp.white_level) div 256; ColorMap[i].Green := (fcp.CMap[i][1] * fcp.white_level) div 256; ColorMap[i].Blue := (fcp.CMap[i][2] * fcp.white_level) div 256; // cmap[i][3] := fcp.white_level; end; {$ENDIF} end; /////////////////////////////////////////////////////////////////////////////// constructor TRenderer64MT.Create; begin inherited Create; FImageMaker := TImageMaker.Create; end; /////////////////////////////////////////////////////////////////////////////// destructor TRenderer64MT.Destroy; begin FImageMaker.Free; inherited; end; /////////////////////////////////////////////////////////////////////////////// function TRenderer64MT.GetImage: TBitmap; begin Result := FImageMaker.GetImage; end; /////////////////////////////////////////////////////////////////////////////// procedure TRenderer64MT.InitBuffers; const MaxFilterWidth = 25; begin oversample := fcp.spatial_oversample; max_gutter_width := (MaxFilterWidth - oversample) div 2; gutter_width := (FImageMaker.GetFilterSize - oversample) div 2; BucketHeight := oversample * fcp.Height + 2 * max_gutter_width; Bucketwidth := oversample * fcp.width + 2 * max_gutter_width; BucketSize := BucketWidth * BucketHeight; if high(buckets) <> (BucketSize - 1) then try SetLength(buckets, BucketSize); except on EOutOfMemory do begin Application.MessageBox('Error: not enough memory for this render!', 'Apophysis', 48); FStop := true; end; end; // share the buffer with imagemaker FImageMaker.SetBucketData(Buckets, BucketWidth); end; /////////////////////////////////////////////////////////////////////////////// procedure TRenderer64MT.InitValues; begin InitBuffers; CreateCamera; CreateColorMap; fcp.Prepare; end; /////////////////////////////////////////////////////////////////////////////// procedure TRenderer64MT.SetPixelsMT; var i: integer; nsamples: Int64; bc : integer; begin nsamples := Round(sample_density * bucketSize / (oversample * oversample)); FNrBatches := Round(nsamples / (fcp.nbatches * SUB_BATCH_SIZE)); batchcounter := 0; Randomize; InitializeCriticalSection(CriticalSection); SetLength(WorkingThreads, NrOfTreads); for i := 0 to NrOfTreads - 1 do WorkingThreads[i] := NewThread; for i := 0 to NrOfTreads - 1 do WorkingThreads[i].Resume; bc := 0; while (Not FStop) and (bc < FNrBatches) do begin sleep(200); try EnterCriticalSection(CriticalSection); if batchcounter > 0 then Progress(batchcounter / FNrBatches) else Progress(0); bc := batchcounter; finally LeaveCriticalSection(CriticalSection); end; end; DeleteCriticalSection(CriticalSection); Progress(1); end; /////////////////////////////////////////////////////////////////////////////// procedure TRenderer64MT.Stop; var i: integer; begin for i := 0 to NrOfTreads - 1 do WorkingThreads[i].Terminate; inherited; end; procedure TRenderer64MT.Pause(paused: boolean); var i: integer; begin if paused then begin for i := 0 to NrOfTreads - 1 do WorkingThreads[i].Suspend; end else begin for i := 0 to NrOfTreads - 1 do WorkingThreads[i].Resume; end; end; /////////////////////////////////////////////////////////////////////////////// procedure TRenderer64MT.Render; begin FStop := False; FImageMaker.SetCP(FCP); FImageMaker.Init; InitValues; ClearBuffers; SetPixelsMT; if not FStop then begin FImageMaker.OnProgress := OnProgress; FImageMaker.CreateImage; end; end; /////////////////////////////////////////////////////////////////////////////// procedure TRenderer64MT.UpdateImage(CP: TControlPoint); begin FCP.background := cp.background; FCP.spatial_filter_radius := cp.spatial_filter_radius; FCP.gamma := cp.Gamma; FCP.vibrancy := cp.vibrancy; FCP.contrast := cp.contrast; FCP.brightness := cp.brightness; FImageMaker.SetCP(FCP); FImageMaker.Init; FImageMaker.OnProgress := OnProgress; FImageMaker.CreateImage; end; /////////////////////////////////////////////////////////////////////////////// procedure TRenderer64MT.SetNrOfTreads(const Value: integer); begin FNrOfTreads := Value; end; /////////////////////////////////////////////////////////////////////////////// function TRenderer64MT.NewThread: TBucketFillerThread; begin Result := TBucketFillerThread.Create(fcp); assert(Result<>nil); Result.BucketWidth := BucketWidth; Result.BucketHeight := BucketHeight; Result.Buckets := @Buckets; Result.camX0 := camX0; Result.camY0 := camY0; Result.camW := camW; Result.camH := camH; Result.bws := bws; Result.bhs := bhs; Result.cosa := cosa; Result.sina := sina; Result.rcX := rcX; Result.rcY := rcY; Result.ColorMap := colorMap; Result.CriticalSection := CriticalSection; Result.Nrbatches := FNrBatches; Result.batchcounter := @batchcounter; // Result.Resume; end; /////////////////////////////////////////////////////////////////////////////// procedure TRenderer64MT.SaveImage(const FileName: String); begin FImageMaker.SaveImage(FileName); end; /////////////////////////////////////////////////////////////////////////////// end.