{
Flame screensaver Copyright (C) 2002 Ronald Hordijk
Apophysis Copyright (C) 2001-2004 Mark Townsend
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 RenderMM;
interface
uses
Windows, Graphics,
Render, Controlpoint, ImageMaker;
type
TRendererMM64 = class(TBaseRenderer)
private
oversample: Integer;
image_Width: Int64;
image_Height: Int64;
BucketWidth: Integer;
BucketHeight: Integer;
BucketSize: Integer;
gutter_width: Integer;
sample_density: extended;
Buckets: TBucketArray;
ColorMap: TColorMapArray;
bounds: array[0..3] of extended;
size: array[0..1] of extended;
FRotationCenter: array[0..1] of extended;
ppux, ppuy: extended;
nrSlices: int64;
Slice: int64;
FImageMaker: TImageMaker;
procedure InitValues;
procedure InitBuffers;
procedure ClearBuffers;
procedure ClearBuckets;
procedure CreateColorMap;
procedure CreateCamera;
procedure AddPointsToBuckets(const points: TPointsArray); overload;
procedure AddPointsToBucketsAngle(const points: TPointsArray); overload;
procedure SetPixels;
protected
function GetSlice: integer; override;
function GetNrSlices: integer; override;
public
constructor Create; override;
destructor Destroy; override;
function GetImage: TBitmap; override;
procedure SaveImage(const FileName: String); override;
procedure Render; override;
end;
implementation
uses
Math, Sysutils;
{ TRendererMM64 }
///////////////////////////////////////////////////////////////////////////////
procedure TRendererMM64.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 TRendererMM64.ClearBuffers;
begin
ClearBuckets;
end;
///////////////////////////////////////////////////////////////////////////////
procedure TRendererMM64.CreateCamera;
var
scale: double;
t0, t1: double;
corner0, corner1: 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);
corner0 := fcp.center[0] - image_width / ppux / 2.0;
corner1 := fcp.center[1] - image_height / ppuy / 2.0;
bounds[0] := corner0 - t0;
bounds[1] := corner1 - t1 + shift;
bounds[2] := corner0 + image_width / ppux + t0;
bounds[3] := corner1 + image_height / ppuy + t1; //+ shift;
if abs(bounds[2] - bounds[0]) > 0.01 then
size[0] := 1.0 / (bounds[2] - bounds[0])
else
size[0] := 1;
if abs(bounds[3] - bounds[1]) > 0.01 then
size[1] := 1.0 / (bounds[3] - bounds[1])
else
size[1] := 1;
end;
///////////////////////////////////////////////////////////////////////////////
procedure TRendererMM64.CreateColorMap;
var
i: integer;
begin
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;
end;
///////////////////////////////////////////////////////////////////////////////
destructor TRendererMM64.Destroy;
begin
FImageMaker.Free;
inherited;
end;
///////////////////////////////////////////////////////////////////////////////
function TRendererMM64.GetImage: TBitmap;
begin
Result := FImageMaker.GetImage;
end;
///////////////////////////////////////////////////////////////////////////////
procedure TRendererMM64.InitBuffers;
begin
oversample := fcp.spatial_oversample;
gutter_width := (FImageMaker.GetFilterSize - oversample) div 2;
BucketHeight := oversample * image_height + 2 * gutter_width;
Bucketwidth := oversample * image_width + 2 * gutter_width;
BucketSize := BucketWidth * BucketHeight;
if high(buckets) <> (BucketSize - 1) then begin
SetLength(buckets, BucketSize);
end;
// share the buffer with imagemaker
FImageMaker.SetBucketData(Buckets, BucketWidth);
end;
///////////////////////////////////////////////////////////////////////////////
procedure TRendererMM64.InitValues;
begin
image_height := fcp.Height;
image_Width := fcp.Width;
CreateCamera;
InitBuffers;
CreateColorMap;
end;
///////////////////////////////////////////////////////////////////////////////
procedure TRendererMM64.AddPointsToBuckets(const points: TPointsArray);
var
i: integer;
px, py: double;
bws, bhs: double;
bx, by: double;
wx, wy: double;
// R: double;
// V1, v2, v3: integer;
Bucket: PBucket;
MapColor: PColorMapColor;
begin
bws := (BucketWidth - 0.5) * size[0];
bhs := (BucketHeight - 0.5) * size[1];
bx := bounds[0];
by := bounds[1];
wx := bounds[2] - bounds[0];
wy := bounds[3] - bounds[1];
for i := SUB_BATCH_SIZE - 1 downto 0 do begin
if FStop then
Exit;
px := points[i].x - bx;
py := points[i].y - by;
if ((px < 0) or (px > wx) or
(py < 0) or (py > wy)) then
continue;
MapColor := @ColorMap[Round(points[i].c * 255)];
Bucket := @buckets[Round(bws * px) + Round(bhs * py) * BucketWidth];
Inc(Bucket.Red, MapColor.Red);
Inc(Bucket.Green, MapColor.Green);
Inc(Bucket.Blue, MapColor.Blue);
Inc(Bucket.Count);
end;
end;
///////////////////////////////////////////////////////////////////////////////
procedure TRendererMM64.AddPointsToBucketsAngle(const points: TPointsArray);
var
i: integer;
px, py: double;
ca,sa: double;
nx, ny: double;
bws, bhs: double;
bx, by: double;
wx, wy: double;
// R: double;
// V1, v2, v3: integer;
Bucket: PBucket;
MapColor: PColorMapColor;
begin
bws := (BucketWidth - 0.5) * size[0];
bhs := (BucketHeight - 0.5) * size[1];
bx := bounds[0];
by := bounds[1];
wx := bounds[2] - bounds[0];
wy := bounds[3] - bounds[1];
ca := cos(FCP.FAngle);
sa := sin(FCP.FAngle);
for i := SUB_BATCH_SIZE - 1 downto 0 do begin
if FStop then
Exit;
px := points[i].x - FRotationCenter[0];
py := points[i].y - FRotationCenter[1];
nx := px * ca + py * sa;
ny := -px * sa + py * ca;
px := nx + FRotationCenter[0] - bx;
py := ny + FRotationCenter[1] - by;
if ((px < 0) or (px > wx) or
(py < 0) or (py > wy)) then
continue;
MapColor := @ColorMap[Round(points[i].c * 255)];
Bucket := @buckets[Round(bws * px) + Round(bhs * py) * BucketWidth];
Inc(Bucket.Red, MapColor.Red);
Inc(Bucket.Green, MapColor.Green);
Inc(Bucket.Blue, MapColor.Blue);
Inc(Bucket.Count);
end;
end;
///////////////////////////////////////////////////////////////////////////////
procedure TRendererMM64.SetPixels;
var
i: integer;
nsamples: Int64;
nrbatches: Integer;
points: TPointsArray;
begin
SetLength(Points, SUB_BATCH_SIZE);
nsamples := Round(sample_density * bucketSize / (oversample * oversample));
nrbatches := Round(nsamples / (fcp.nbatches * SUB_BATCH_SIZE));
Randomize;
for i := 0 to nrbatches do begin
if FStop then
Exit;
if (i and $F = 0) then
if nrbatches > 0 then
Progress(i / nrbatches)
else
Progress(0);
// generate points
case Compatibility of
0: fcp.iterate_Old(SUB_BATCH_SIZE, points);
1: fcp.iterateXYC(SUB_BATCH_SIZE, points);
end;
if FCP.FAngle = 0 then
AddPointsToBuckets(points)
else
AddPointsToBucketsAngle(points);
end;
Progress(1);
end;
///////////////////////////////////////////////////////////////////////////////
constructor TRendererMM64.Create;
begin
inherited Create;
FImageMaker := TImageMaker.Create;
end;
///////////////////////////////////////////////////////////////////////////////
procedure TRendererMM64.Render;
const
Dividers: array[0..15] of integer = (1, 2, 3, 4, 5, 6, 7, 8, 10, 16, 20, 32, 64, 128, 256, 512);
var
ApproxMemory, MaxMemory: int64;
i: integer;
zoom_scale, center_base, center_y: double;
begin
FStop := False;
FRotationCenter[0] := fcp.center[0];
FRotationCenter[1] := fcp.center[1];
image_height := fcp.Height;
image_Width := fcp.Width;
oversample := fcp.spatial_oversample;
// entered memory - imagesize
MaxMemory := FMaxMem * 1024 * 1024 - 4 * image_height * image_width;
ApproxMemory := 32 * oversample * oversample * image_height * image_width;
if (MaxMemory < 0) then
Exit;
nrSlices := 1 + ApproxMemory div MaxMemory;
if nrSlices > Dividers[High(Dividers)] then begin
for i := High(Dividers) downto 0 do begin
if image_height <> (image_height div dividers[i]) * dividers[i] then begin
nrSlices := dividers[i];
break;
end;
end;
end else begin
for i := 0 to High(Dividers) do begin
if image_height <> (image_height div dividers[i]) * dividers[i] then
continue;
if nrslices <= dividers[i] then begin
nrSlices := dividers[i];
break;
end;
end;
end;
FImageMaker.SetCP(FCP);
FImageMaker.Init;
fcp.sample_density := fcp.sample_density * nrslices;
fcp.height := fcp.height div nrslices;
center_y := fcp.center[1];
zoom_scale := power(2.0, fcp.zoom);
center_base := center_y - ((nrslices - 1) * fcp.height) / (2 * fcp.pixels_per_unit * zoom_scale);
InitValues;
for i := 0 to NrSlices - 1 do begin
if FStop then
Exit;
Slice := i;
fcp.center[1] := center_base + fcp.height * slice / (fcp.pixels_per_unit * zoom_scale);
CreateCamera;
ClearBuffers;
SetPixels;
if not FStop then begin
FImageMaker.OnProgress := OnProgress;
FImageMaker.CreateImage(Slice * fcp.height);
end;
end;
fcp.sample_density := fcp.sample_density / nrslices;
fcp.height := fcp.height * nrslices;
end;
///////////////////////////////////////////////////////////////////////////////
function TRendererMM64.GetSlice: integer;
begin
Result := Slice;
end;
///////////////////////////////////////////////////////////////////////////////
function TRendererMM64.GetNrSlices: integer;
begin
Result := NrSlices;
end;
///////////////////////////////////////////////////////////////////////////////
procedure TRendererMM64.SaveImage(const FileName: String);
begin
FImageMaker.SaveImage(FileName);
end;
///////////////////////////////////////////////////////////////////////////////
end.