{
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
Apophysis Copyright (C) 2007-2008 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 Render48;
{$define _ASM_}
interface
uses
Windows, Classes, Forms, Graphics, ImageMaker,
RenderST, RenderTypes, Xform, ControlPoint;
type
pInt64 = ^int64;
type
TRenderer48 = class(TBaseSTRenderer)
protected
Buckets: TBucket48Array;
ColorMap: TColorMapArray;
function GetBits: integer; override;
function GetBucketsPtr: pointer; override;
procedure AllocateBuckets; override;
// procedure InitBuffers; override;
procedure ClearBuckets; override;
procedure CreateColorMap; override;
protected
procedure IterateBatch; override;
procedure IterateBatchAngle; override;
procedure IterateBatchFX; override;
procedure IterateBatchAngleFX; override;
end;
// ----------------------------------------------------------------------------
type
TRenderer48MM = class(TRenderer48)
protected
procedure CalcBufferSize; override;
public
procedure Render; override;
end;
implementation
uses
Math, Sysutils;
{ TRenderer48 }
///////////////////////////////////////////////////////////////////////////////
procedure TRenderer48.ClearBuckets;
var
i, j: integer;
begin
for j := 0 to BucketHeight - 1 do
for i := 0 to BucketWidth - 1 do
with buckets[j][i] do begin
rl := 0; rh := 0;
gl := 0; gh := 0;
bl := 0; bh := 0;
cl := 0; ch := 0;
end;
end;
// wtf??! /////////////////////////////////////////////////////////////////////
procedure TRenderer48.CreateColorMap;
var
i: integer;
begin
for i := 0 to 255 do
with ColorMap[i] do begin
Red := (fcp.CMap[i][0] * fcp.white_level) div 256;
Green := (fcp.CMap[i][1] * fcp.white_level) div 256;
Blue := (fcp.CMap[i][2] * fcp.white_level) div 256;
end;
end;
///////////////////////////////////////////////////////////////////////////////
function TRenderer48.GetBits: integer;
begin
Result := BITS_48;
end;
function TRenderer48.GetBucketsPtr: pointer;
begin
Result := Buckets;
end;
procedure TRenderer48.AllocateBuckets;
begin
SetLength(buckets, BucketHeight, BucketWidth);
end;
///////////////////////////////////////////////////////////////////////////////
procedure TRenderer48.IterateBatch;
var
i: integer;
px, py: double;
pBucket: PBucket48;
MapColor: PColorMapColor;
p: TCPPoint;
xf: TXForm;
t: int64;
begin
{$ifndef _ASM_}
p.x := 2 * random - 1;
p.y := 2 * random - 1;
p.c := random;
{$else}
asm
fld1
call System.@RandExt
fadd st, st
fsub st, st(1)
fstp qword ptr [p.x]
call System.@RandExt
fadd st, st
fsubrp st(1), st
fstp qword ptr [p.y]
call System.@RandExt
fstp qword ptr [p.c]
end;
{$endif}
try
xf := fcp.xform[0];
xf.NextPoint(p);
for i := 0 to FUSE do begin
xf := xf.PropTable[Random(PROP_TABLE_SIZE)];
xf.NextPoint(p);
end;
for i := 0 to SUB_BATCH_SIZE-1 do begin
xf := xf.PropTable[Random(PROP_TABLE_SIZE)];
xf.NextPoint(p);
if (xf.plotMode < 0) then continue
else if (xf.plotMode = 0) and (random > xf.opacity) then continue;
px := p.x - camX0;
if (px < 0) or (px > camW) then continue;
py := p.y - camY0;
if (py < 0) or (py > camH) then continue;
pBucket := @buckets[Round(bhs * py)][Round(bws * px)];
MapColor := @ColorMap[Round(p.c * 255)];
{$ifndef _ASM_}
// HACK warning!!!
// this WILL corrupt data in case of 48-bit overflow!
// (which is still quite hard to get :)
Inc((pInt64(@pBucket^.rl))^, MapColor.Red);
Inc((pInt64(@pBucket^.gl))^, MapColor.Green);
Inc((pInt64(@pBucket^.bl))^, MapColor.Blue);
Inc((pInt64(@pBucket^.cl))^);
{$else}
asm
mov edx, [MapColor]
mov ecx, [pBucket]
mov eax, [edx]
add [ecx], eax
jnc @skip_r
inc word ptr [ecx + 4]
@skip_r:
mov eax, [edx + 4]
add [ecx + 6], eax
jnc @skip_g
inc word ptr [ecx + 10]
@skip_g:
mov eax, [edx + 8]
add [ecx + 12], eax
jnc @skip_b
inc word ptr [ecx + 16]
@skip_b:
inc [ecx + 18]
jnc @skip_c
inc word ptr [ecx + 22]
@skip_c:
end;
{$endif}
end;
except
on EMathError do begin
exit;
end;
end;
end;
procedure TRenderer48.IterateBatchAngle;
var
i: integer;
px, py: double;
pBucket: PBucket48;
MapColor: PColorMapColor;
p: TCPPoint;
xf: TXForm;
t: int64;
begin
{$ifndef _ASM_}
p.x := 2 * random - 1;
p.y := 2 * random - 1;
p.c := random;
{$else}
asm
fld1
call System.@RandExt
fadd st, st
fsub st, st(1)
fstp qword ptr [p.x]
call System.@RandExt
fadd st, st
fsubrp st(1), st
fstp qword ptr [p.y]
call System.@RandExt
fstp qword ptr [p.c]
end;
{$endif}
try
xf := fcp.xform[0];
xf.NextPoint(p);
for i := 0 to FUSE do begin
xf := xf.PropTable[Random(PROP_TABLE_SIZE)];
xf.NextPoint(p);
end;
for i := 0 to SUB_BATCH_SIZE-1 do begin
xf := xf.PropTable[Random(PROP_TABLE_SIZE)];
xf.NextPoint(p);
if (xf.plotMode < 0) then continue
else if (xf.plotMode = 0) and (random > xf.opacity) then continue;
px := p.x * cosa + p.y * sina + rcX;
if (px < 0) or (px > camW) then continue;
py := p.y * cosa - p.x * sina + rcY;
if (py < 0) or (py > camH) then continue;
pBucket := @buckets[Round(bhs * py)][Round(bws * px)];
MapColor := @ColorMap[Round(p.c * 255)];
{$ifndef _ASM_}
// HACK warning!!!
// this WILL corrupt data in case of 48-bit overflow!
Inc((pInt64(@pBucket^.rl))^, MapColor.Red);
Inc((pInt64(@pBucket^.gl))^, MapColor.Green);
Inc((pInt64(@pBucket^.bl))^, MapColor.Blue);
Inc((pInt64(@pBucket^.cl))^);
{$else}
asm
mov edx, [MapColor]
mov ecx, [pBucket]
mov eax, [edx]
add [ecx], eax
jnc @skip_r
inc word ptr [ecx + 4]
@skip_r:
mov eax, [edx + 4]
add [ecx + 6], eax
jnc @skip_g
inc word ptr [ecx + 10]
@skip_g:
mov eax, [edx + 8]
add [ecx + 12], eax
jnc @skip_b
inc word ptr [ecx + 16]
@skip_b:
inc [ecx + 18]
jnc @skip_c
inc word ptr [ecx + 22]
@skip_c:
end;
{$endif}
end;
except
on EMathError do begin
exit;
end;
end;
end;
procedure TRenderer48.IterateBatchFX;
var
i: integer;
px, py: double;
pBucket: PBucket48;
MapColor: PColorMapColor;
p, q: TCPPoint;
xf: TXForm;
t: int64;
begin
{$ifndef _ASM_}
p.x := 2 * random - 1;
p.y := 2 * random - 1;
p.c := random;
{$else}
asm
fld1
call System.@RandExt
fadd st, st
fsub st, st(1)
fstp qword ptr [p.x]
call System.@RandExt
fadd st, st
fsubrp st(1), st
fstp qword ptr [p.y]
call System.@RandExt
fstp qword ptr [p.c]
end;
{$endif}
try
xf := fcp.xform[0];
xf.NextPoint(p);
for i := 0 to FUSE do begin
xf := xf.PropTable[Random(PROP_TABLE_SIZE)];
xf.NextPoint(p);
end;
for i := 0 to SUB_BATCH_SIZE-1 do begin
xf := xf.PropTable[Random(PROP_TABLE_SIZE)];
xf.NextPoint(p);
if (xf.plotMode < 0) then continue
else if (xf.plotMode = 0) and (random > xf.opacity) then continue;
finalXform.NextPointTo(p, q);
px := q.x - camX0;
if (px < 0) or (px > camW) then continue;
py := q.y - camY0;
if (py < 0) or (py > camH) then continue;
pBucket := @buckets[Round(bhs * py)][Round(bws * px)];
MapColor := @ColorMap[Round(q.c * 255)];
{$ifndef _ASM_}
// HACK warning!!!
// this WILL corrupt color-data in case of 48-bit overflow!
Inc((pInt64(@pBucket^.rl))^, MapColor.Red);
Inc((pInt64(@pBucket^.gl))^, MapColor.Green);
Inc((pInt64(@pBucket^.bl))^, MapColor.Blue);
Inc((pInt64(@pBucket^.cl))^);
{$else}
asm
mov edx, [MapColor]
mov ecx, [pBucket]
mov eax, [edx]
add [ecx], eax
jnc @skip_r
inc word ptr [ecx + 4]
@skip_r:
mov eax, [edx + 4]
add [ecx + 6], eax
jnc @skip_g
inc word ptr [ecx + 10]
@skip_g:
mov eax, [edx + 8]
add [ecx + 12], eax
jnc @skip_b
inc word ptr [ecx + 16]
@skip_b:
inc [ecx + 18]
jnc @skip_c
inc word ptr [ecx + 22]
@skip_c:
end;
{$endif}
end;
except
on EMathError do begin
exit;
end;
end;
end;
procedure TRenderer48.IterateBatchAngleFX;
var
i: integer;
px, py: double;
pBucket: PBucket48;
MapColor: PColorMapColor;
p, q: TCPPoint;
xf: TXForm;
t: int64;
begin
{$ifndef _ASM_}
p.x := 2 * random - 1;
p.y := 2 * random - 1;
p.c := random;
{$else}
asm
fld1
call System.@RandExt
fadd st, st
fsub st, st(1)
fstp qword ptr [p.x]
call System.@RandExt
fadd st, st
fsubrp st(1), st
fstp qword ptr [p.y]
call System.@RandExt
fstp qword ptr [p.c]
end;
{$endif}
try
xf := fcp.xform[0];
xf.NextPoint(p);
for i := 0 to FUSE do begin
xf := xf.PropTable[Random(PROP_TABLE_SIZE)];
xf.NextPoint(p);
end;
for i := 0 to SUB_BATCH_SIZE-1 do begin
xf := xf.PropTable[Random(PROP_TABLE_SIZE)];
xf.NextPoint(p);
if (xf.plotMode < 0) then continue
else if (xf.plotMode = 0) and (random > xf.opacity) then continue;
finalXform.NextPointTo(p, q);
px := q.x * cosa + q.y * sina + rcX;
if (px < 0) or (px > camW) then continue;
py := q.y * cosa - q.x * sina + rcY;
if (py < 0) or (py > camH) then continue;
pBucket := @buckets[Round(bhs * py)][Round(bws * px)];
MapColor := @ColorMap[Round(q.c * 255)];
{$ifndef _ASM_}
// HACK warning!!!
// this WILL corrupt color-data in case of 48-bit overflow!
Inc((pInt64(@pBucket^.rl))^, MapColor.Red);
Inc((pInt64(@pBucket^.gl))^, MapColor.Green);
Inc((pInt64(@pBucket^.bl))^, MapColor.Blue);
Inc((pInt64(@pBucket^.cl))^);
{$else}
asm
mov edx, [MapColor]
mov ecx, [pBucket]
mov eax, [edx]
add [ecx], eax
jnc @skip_r
inc word ptr [ecx + 4]
@skip_r:
mov eax, [edx + 4]
add [ecx + 6], eax
jnc @skip_g
inc word ptr [ecx + 10]
@skip_g:
mov eax, [edx + 8]
add [ecx + 12], eax
jnc @skip_b
inc word ptr [ecx + 16]
@skip_b:
inc [ecx + 18]
jnc @skip_c
inc word ptr [ecx + 22]
@skip_c:
end;
{$endif}
end;
except
on EMathError do begin
exit;
end;
end;
end;
// -- { TRenderer48MM } -------------------------------------------------------
procedure TRenderer48MM.CalcBufferSize;
begin
CalcBufferSizeMM;
end;
procedure TRenderer48MM.Render;
begin
RenderMM;
end;
end.