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|
// Copyright (C) 2002-2012 Nikolaus Gebhardt / Thomas Alten
// This file is part of the "Irrlicht Engine".
// For conditions of distribution and use, see copyright notice in irrlicht.h
/*
History:
- changed behavior for log2 textures ( replaced multiplies by shift )
*/
#ifndef __S_VIDEO_2_SOFTWARE_HELPER_H_INCLUDED__
#define __S_VIDEO_2_SOFTWARE_HELPER_H_INCLUDED__
#include "SoftwareDriver2_compile_config.h"
#include "irrMath.h"
#include "CSoftwareTexture2.h"
#include "SMaterial.h"
namespace irr
{
// supporting different packed pixel needs many defines...
#ifdef SOFTWARE_DRIVER_2_32BIT
typedef u32 tVideoSample;
#define MASK_A 0xFF000000
#define MASK_R 0x00FF0000
#define MASK_G 0x0000FF00
#define MASK_B 0x000000FF
#define SHIFT_A 24
#define SHIFT_R 16
#define SHIFT_G 8
#define SHIFT_B 0
#define COLOR_MAX 0xFF
#define COLOR_MAX_LOG2 8
#define COLOR_BRIGHT_WHITE 0xFFFFFFFF
#define VIDEO_SAMPLE_GRANULARITY 2
#else
typedef u16 tVideoSample;
#define MASK_A 0x8000
#define MASK_R 0x7C00
#define MASK_G 0x03E0
#define MASK_B 0x001F
#define SHIFT_A 15
#define SHIFT_R 10
#define SHIFT_G 5
#define SHIFT_B 0
#define COLOR_MAX 0x1F
#define COLOR_MAX_LOG2 5
#define COLOR_BRIGHT_WHITE 0xFFFF
#define VIDEO_SAMPLE_GRANULARITY 1
#endif
// ----------------------- Generic ----------------------------------
//! a more useful memset for pixel
// (standard memset only works with 8-bit values)
inline void memset32(void * dest, const u32 value, u32 bytesize)
{
u32 * d = (u32*) dest;
u32 i;
// loops unrolled to reduce the number of increments by factor ~8.
i = bytesize >> (2 + 3);
while (i)
{
d[0] = value;
d[1] = value;
d[2] = value;
d[3] = value;
d[4] = value;
d[5] = value;
d[6] = value;
d[7] = value;
d += 8;
i -= 1;
}
i = (bytesize >> 2 ) & 7;
while (i)
{
d[0] = value;
d += 1;
i -= 1;
}
}
//! a more useful memset for pixel
// (standard memset only works with 8-bit values)
inline void memset16(void * dest, const u16 value, u32 bytesize)
{
u16 * d = (u16*) dest;
u32 i;
// loops unrolled to reduce the number of increments by factor ~8.
i = bytesize >> (1 + 3);
while (i)
{
d[0] = value;
d[1] = value;
d[2] = value;
d[3] = value;
d[4] = value;
d[5] = value;
d[6] = value;
d[7] = value;
d += 8;
--i;
}
i = (bytesize >> 1 ) & 7;
while (i)
{
d[0] = value;
++d;
--i;
}
}
/*
use biased loop counter
--> 0 byte copy is forbidden
*/
REALINLINE void memcpy32_small ( void * dest, const void *source, u32 bytesize )
{
u32 c = bytesize >> 2;
do
{
((u32*) dest ) [ c-1 ] = ((u32*) source) [ c-1 ];
} while ( --c );
}
// integer log2 of a float ieee 754. TODO: non ieee floating point
static inline s32 s32_log2_f32( f32 f)
{
u32 x = IR ( f );
return ((x & 0x7F800000) >> 23) - 127;
}
static inline s32 s32_log2_s32(u32 x)
{
return s32_log2_f32( (f32) x);
}
static inline s32 s32_abs(s32 x)
{
s32 b = x >> 31;
return (x ^ b ) - b;
}
//! conditional set based on mask and arithmetic shift
REALINLINE u32 if_mask_a_else_b ( const u32 mask, const u32 a, const u32 b )
{
return ( mask & ( a ^ b ) ) ^ b;
}
// ------------------ Video---------------------------------------
/*!
Pixel = dest * ( 1 - alpha ) + source * alpha
alpha [0;256]
*/
REALINLINE u32 PixelBlend32 ( const u32 c2, const u32 c1, u32 alpha )
{
u32 srcRB = c1 & 0x00FF00FF;
u32 srcXG = c1 & 0x0000FF00;
u32 dstRB = c2 & 0x00FF00FF;
u32 dstXG = c2 & 0x0000FF00;
u32 rb = srcRB - dstRB;
u32 xg = srcXG - dstXG;
rb *= alpha;
xg *= alpha;
rb >>= 8;
xg >>= 8;
rb += dstRB;
xg += dstXG;
rb &= 0x00FF00FF;
xg &= 0x0000FF00;
return rb | xg;
}
/*!
Pixel = dest * ( 1 - alpha ) + source * alpha
alpha [0;32]
*/
inline u16 PixelBlend16 ( const u16 c2, const u32 c1, const u16 alpha )
{
const u16 srcRB = c1 & 0x7C1F;
const u16 srcXG = c1 & 0x03E0;
const u16 dstRB = c2 & 0x7C1F;
const u16 dstXG = c2 & 0x03E0;
u32 rb = srcRB - dstRB;
u32 xg = srcXG - dstXG;
rb *= alpha;
xg *= alpha;
rb >>= 5;
xg >>= 5;
rb += dstRB;
xg += dstXG;
rb &= 0x7C1F;
xg &= 0x03E0;
return (u16)(rb | xg);
}
/*
Pixel = c0 * (c1/31). c0 Alpha retain
*/
inline u16 PixelMul16 ( const u16 c0, const u16 c1)
{
return (u16)((( ( (c0 & 0x7C00) * (c1 & 0x7C00) ) & 0x3E000000 ) >> 15 ) |
(( ( (c0 & 0x03E0) * (c1 & 0x03E0) ) & 0x000F8000 ) >> 10 ) |
(( ( (c0 & 0x001F) * (c1 & 0x001F) ) & 0x000003E0 ) >> 5 ) |
(c0 & 0x8000));
}
/*
Pixel = c0 * (c1/31).
*/
inline u16 PixelMul16_2 ( u16 c0, u16 c1)
{
return (u16)(( ( (c0 & 0x7C00) * (c1 & 0x7C00) ) & 0x3E000000 ) >> 15 |
( ( (c0 & 0x03E0) * (c1 & 0x03E0) ) & 0x000F8000 ) >> 10 |
( ( (c0 & 0x001F) * (c1 & 0x001F) ) & 0x000003E0 ) >> 5 |
( c0 & c1 & 0x8000));
}
/*
Pixel = c0 * (c1/255). c0 Alpha Retain
*/
REALINLINE u32 PixelMul32 ( const u32 c0, const u32 c1)
{
return (c0 & 0xFF000000) |
(( ( (c0 & 0x00FF0000) >> 12 ) * ( (c1 & 0x00FF0000) >> 12 ) ) & 0x00FF0000 ) |
(( ( (c0 & 0x0000FF00) * (c1 & 0x0000FF00) ) >> 16 ) & 0x0000FF00 ) |
(( ( (c0 & 0x000000FF) * (c1 & 0x000000FF) ) >> 8 ) & 0x000000FF);
}
/*
Pixel = c0 * (c1/255).
*/
REALINLINE u32 PixelMul32_2 ( const u32 c0, const u32 c1)
{
return (( ( (c0 & 0xFF000000) >> 16 ) * ( (c1 & 0xFF000000) >> 16 ) ) & 0xFF000000 ) |
(( ( (c0 & 0x00FF0000) >> 12 ) * ( (c1 & 0x00FF0000) >> 12 ) ) & 0x00FF0000 ) |
(( ( (c0 & 0x0000FF00) * (c1 & 0x0000FF00) ) >> 16 ) & 0x0000FF00 ) |
(( ( (c0 & 0x000000FF) * (c1 & 0x000000FF) ) >> 8 ) & 0x000000FF);
}
/*
Pixel = clamp ( c0 + c1, 0, 255 )
*/
REALINLINE u32 PixelAdd32 ( const u32 c2, const u32 c1)
{
u32 sum = ( c2 & 0x00FFFFFF ) + ( c1 & 0x00FFFFFF );
u32 low_bits = ( c2 ^ c1 ) & 0x00010101;
s32 carries = ( sum - low_bits ) & 0x01010100;
u32 modulo = sum - carries;
u32 clamp = carries - ( carries >> 8 );
return modulo | clamp;
}
#if 0
// 1 - Bit Alpha Blending
inline u16 PixelBlend16 ( const u16 destination, const u16 source )
{
if((source & 0x8000) == 0x8000)
return source; // The source is visible, so use it.
else
return destination; // The source is transparent, so use the destination.
}
// 1 - Bit Alpha Blending 16Bit SIMD
inline u32 PixelBlend16_simd ( const u32 destination, const u32 source )
{
switch(source & 0x80008000)
{
case 0x80008000: // Both source pixels are visible
return source;
case 0x80000000: // Only the first source pixel is visible
return (source & 0xFFFF0000) | (destination & 0x0000FFFF);
case 0x00008000: // Only the second source pixel is visible.
return (destination & 0xFFFF0000) | (source & 0x0000FFFF);
default: // Neither source pixel is visible.
return destination;
}
}
#else
// 1 - Bit Alpha Blending
inline u16 PixelBlend16 ( const u16 c2, const u16 c1 )
{
u16 mask = ((c1 & 0x8000) >> 15 ) + 0x7fff;
return (c2 & mask ) | ( c1 & ~mask );
}
// 1 - Bit Alpha Blending 16Bit SIMD
inline u32 PixelBlend16_simd ( const u32 c2, const u32 c1 )
{
u32 mask = ((c1 & 0x80008000) >> 15 ) + 0x7fff7fff;
return (c2 & mask ) | ( c1 & ~mask );
}
#endif
/*!
Pixel = dest * ( 1 - SourceAlpha ) + source * SourceAlpha
*/
inline u32 PixelBlend32 ( const u32 c2, const u32 c1 )
{
// alpha test
u32 alpha = c1 & 0xFF000000;
if ( 0 == alpha )
return c2;
if ( 0xFF000000 == alpha )
{
return c1;
}
alpha >>= 24;
// add highbit alpha, if ( alpha > 127 ) alpha += 1;
alpha += ( alpha >> 7);
u32 srcRB = c1 & 0x00FF00FF;
u32 srcXG = c1 & 0x0000FF00;
u32 dstRB = c2 & 0x00FF00FF;
u32 dstXG = c2 & 0x0000FF00;
u32 rb = srcRB - dstRB;
u32 xg = srcXG - dstXG;
rb *= alpha;
xg *= alpha;
rb >>= 8;
xg >>= 8;
rb += dstRB;
xg += dstXG;
rb &= 0x00FF00FF;
xg &= 0x0000FF00;
return (c1 & 0xFF000000) | rb | xg;
}
// ------------------ Fix Point ----------------------------------
typedef s32 tFixPoint;
typedef u32 tFixPointu;
// Fix Point 12
#if 0
#define FIX_POINT_PRE 12
#define FIX_POINT_FRACT_MASK 0xFFF
#define FIX_POINT_SIGNED_MASK 0xFFFFF000
#define FIX_POINT_UNSIGNED_MASK 0x7FFFF000
#define FIX_POINT_ONE 0x1000
#define FIX_POINT_ZERO_DOT_FIVE 0x0800
#define FIX_POINT_F32_MUL 4096.f
#endif
// Fix Point 10
#if 1
#define FIX_POINT_PRE 10
#define FIX_POINT_FRACT_MASK 0x3FF
#define FIX_POINT_SIGNED_MASK 0xFFFFFC00
#define FIX_POINT_UNSIGNED_MASK 0x7FFFFE00
#define FIX_POINT_ONE 0x400
#define FIX_POINT_ZERO_DOT_FIVE 0x200
#define FIX_POINT_F32_MUL 1024.f
#endif
// Fix Point 9
#if 0
#define FIX_POINT_PRE 9
#define FIX_POINT_FRACT_MASK 0x1FF
#define FIX_POINT_SIGNED_MASK 0xFFFFFE00
#define FIX_POINT_UNSIGNED_MASK 0x7FFFFE00
#define FIX_POINT_ONE 0x200
#define FIX_POINT_ZERO_DOT_FIVE 0x100
#define FIX_POINT_F32_MUL 512.f
#endif
// Fix Point 7
#if 0
#define FIX_POINT_PRE 7
#define FIX_POINT_FRACT_MASK 0x7F
#define FIX_POINT_SIGNED_MASK 0xFFFFFF80
#define FIX_POINT_UNSIGNED_MASK 0x7FFFFF80
#define FIX_POINT_ONE 0x80
#define FIX_POINT_ZERO_DOT_FIVE 0x40
#define FIX_POINT_F32_MUL 128.f
#endif
#define FIXPOINT_COLOR_MAX ( COLOR_MAX << FIX_POINT_PRE )
#define FIX_POINT_HALF_COLOR ( (tFixPoint) ( ((f32) COLOR_MAX / 2.f * FIX_POINT_F32_MUL ) ) )
/*
convert signed integer to fixpoint
*/
inline tFixPoint s32_to_fixPoint (const s32 x)
{
return x << FIX_POINT_PRE;
}
inline tFixPointu u32_to_fixPoint (const u32 x)
{
return x << FIX_POINT_PRE;
}
inline u32 fixPointu_to_u32 (const tFixPointu x)
{
return x >> FIX_POINT_PRE;
}
// 1/x * FIX_POINT
REALINLINE f32 fix_inverse32 ( const f32 x )
{
return FIX_POINT_F32_MUL / x;
}
/*
convert float to fixpoint
fast convert (fistp on x86) HAS to be used..
hints: compileflag /QIfist for msvc7. msvc 8.0 has smth different
others should use their favourite assembler..
*/
static inline int f_round2(f32 f)
{
f += (3<<22);
return IR(f) - 0x4b400000;
}
/*
convert f32 to Fix Point.
multiply is needed anyway, so scale mulby
*/
REALINLINE tFixPoint tofix (const f32 x, const f32 mulby = FIX_POINT_F32_MUL )
{
return (tFixPoint) (x * mulby);
}
/*
Fix Point , Fix Point Multiply
*/
REALINLINE tFixPointu imulFixu(const tFixPointu x, const tFixPointu y)
{
return (x * y) >> (tFixPointu) FIX_POINT_PRE;
}
/*
Fix Point , Fix Point Multiply
*/
REALINLINE tFixPoint imulFix(const tFixPoint x, const tFixPoint y)
{
return ( x * y) >> ( FIX_POINT_PRE );
}
/*
Fix Point , Fix Point Multiply x * y * 2
*/
REALINLINE tFixPoint imulFix2(const tFixPoint x, const tFixPoint y)
{
return ( x * y) >> ( FIX_POINT_PRE -1 );
}
/*
Multiply x * y * 1
*/
REALINLINE tFixPoint imulFix_tex1(const tFixPoint x, const tFixPoint y)
{
return ( ( (tFixPointu) x >> 2 ) * ( (tFixPointu) y >> 2 ) ) >> (tFixPointu) ( FIX_POINT_PRE + 4 );
}
/*
Multiply x * y * 2
*/
REALINLINE tFixPoint imulFix_tex2(const tFixPoint x, const tFixPoint y)
{
return ( ( (tFixPointu) x >> 2 ) * ( (tFixPointu) y >> 2 ) ) >> (tFixPointu) ( FIX_POINT_PRE + 3 );
}
/*
Multiply x * y * 4
*/
REALINLINE tFixPoint imulFix_tex4(const tFixPoint x, const tFixPoint y)
{
#ifdef SOFTWARE_DRIVER_2_32BIT
return ( ( (tFixPointu) x >> 2 ) * ( (tFixPointu) y >> 2 ) ) >> (tFixPointu) ( FIX_POINT_PRE + 2 );
#else
return ( x * y) >> ( FIX_POINT_PRE + ( VIDEO_SAMPLE_GRANULARITY * 3 ) );
#endif
}
/*!
clamp FixPoint to maxcolor in FixPoint, min(a,31)
*/
REALINLINE tFixPoint clampfix_maxcolor ( const tFixPoint a)
{
tFixPoint c = (a - FIXPOINT_COLOR_MAX) >> 31;
return (a & c) | ( FIXPOINT_COLOR_MAX & ~c);
}
/*!
clamp FixPoint to 0 in FixPoint, max(a,0)
*/
REALINLINE tFixPoint clampfix_mincolor ( const tFixPoint a)
{
return a - ( a & ( a >> 31 ) );
}
REALINLINE tFixPoint saturateFix ( const tFixPoint a)
{
return clampfix_mincolor ( clampfix_maxcolor ( a ) );
}
// rount fixpoint to int
inline s32 roundFix ( const tFixPoint x )
{
return ( x + FIX_POINT_ZERO_DOT_FIVE ) >> FIX_POINT_PRE;
}
// x in [0;1[
inline s32 f32_to_23Bits(const f32 x)
{
f32 y = x + 1.f;
return IR(y) & 0x7FFFFF; // last 23 bits
}
/*!
return VideoSample from fixpoint
*/
REALINLINE tVideoSample fix_to_color ( const tFixPoint r, const tFixPoint g, const tFixPoint b )
{
#ifdef __BIG_ENDIAN__
return FIXPOINT_COLOR_MAX |
( r & FIXPOINT_COLOR_MAX) >> ( FIX_POINT_PRE - 8) |
( g & FIXPOINT_COLOR_MAX) << ( 16 - FIX_POINT_PRE ) |
( b & FIXPOINT_COLOR_MAX) << ( 24 - FIX_POINT_PRE );
#else
return ( FIXPOINT_COLOR_MAX & FIXPOINT_COLOR_MAX) << ( SHIFT_A - FIX_POINT_PRE ) |
( r & FIXPOINT_COLOR_MAX) << ( SHIFT_R - FIX_POINT_PRE ) |
( g & FIXPOINT_COLOR_MAX) >> ( FIX_POINT_PRE - SHIFT_G ) |
( b & FIXPOINT_COLOR_MAX) >> ( FIX_POINT_PRE - SHIFT_B );
#endif
}
/*!
return VideoSample from fixpoint
*/
REALINLINE tVideoSample fix4_to_color ( const tFixPoint a, const tFixPoint r, const tFixPoint g, const tFixPoint b )
{
#ifdef __BIG_ENDIAN__
return ( a & (FIX_POINT_FRACT_MASK - 1 )) >> ( FIX_POINT_PRE ) |
( r & FIXPOINT_COLOR_MAX) >> ( FIX_POINT_PRE - 8) |
( g & FIXPOINT_COLOR_MAX) << ( 16 - FIX_POINT_PRE ) |
( b & FIXPOINT_COLOR_MAX) << ( 24 - FIX_POINT_PRE );
#else
return ( a & (FIX_POINT_FRACT_MASK - 1 )) << ( SHIFT_A - 1 ) |
( r & FIXPOINT_COLOR_MAX) << ( SHIFT_R - FIX_POINT_PRE ) |
( g & FIXPOINT_COLOR_MAX) >> ( FIX_POINT_PRE - SHIFT_G ) |
( b & FIXPOINT_COLOR_MAX) >> ( FIX_POINT_PRE - SHIFT_B );
#endif
}
/*!
return fixpoint from VideoSample granularity COLOR_MAX
*/
inline void color_to_fix ( tFixPoint &r, tFixPoint &g, tFixPoint &b, const tVideoSample t00 )
{
(tFixPointu&) r = (t00 & MASK_R) >> ( SHIFT_R - FIX_POINT_PRE );
(tFixPointu&) g = (t00 & MASK_G) << ( FIX_POINT_PRE - SHIFT_G );
(tFixPointu&) b = (t00 & MASK_B) << ( FIX_POINT_PRE - SHIFT_B );
}
/*!
return fixpoint from VideoSample granularity COLOR_MAX
*/
inline void color_to_fix ( tFixPoint &a, tFixPoint &r, tFixPoint &g, tFixPoint &b, const tVideoSample t00 )
{
(tFixPointu&) a = (t00 & MASK_A) >> ( SHIFT_A - FIX_POINT_PRE );
(tFixPointu&) r = (t00 & MASK_R) >> ( SHIFT_R - FIX_POINT_PRE );
(tFixPointu&) g = (t00 & MASK_G) << ( FIX_POINT_PRE - SHIFT_G );
(tFixPointu&) b = (t00 & MASK_B) << ( FIX_POINT_PRE - SHIFT_B );
}
/*!
return fixpoint from VideoSample granularity 0..FIX_POINT_ONE
*/
inline void color_to_fix1 ( tFixPoint &r, tFixPoint &g, tFixPoint &b, const tVideoSample t00 )
{
(tFixPointu&) r = (t00 & MASK_R) >> ( SHIFT_R + COLOR_MAX_LOG2 - FIX_POINT_PRE );
(tFixPointu&) g = (t00 & MASK_G) >> ( SHIFT_G + COLOR_MAX_LOG2 - FIX_POINT_PRE );
(tFixPointu&) b = (t00 & MASK_B) << ( FIX_POINT_PRE - COLOR_MAX_LOG2 );
}
/*!
return fixpoint from VideoSample granularity 0..FIX_POINT_ONE
*/
inline void color_to_fix1 ( tFixPoint &a, tFixPoint &r, tFixPoint &g, tFixPoint &b, const tVideoSample t00 )
{
(tFixPointu&) a = (t00 & MASK_A) >> ( SHIFT_A + COLOR_MAX_LOG2 - FIX_POINT_PRE );
(tFixPointu&) r = (t00 & MASK_R) >> ( SHIFT_R + COLOR_MAX_LOG2 - FIX_POINT_PRE );
(tFixPointu&) g = (t00 & MASK_G) >> ( SHIFT_G + COLOR_MAX_LOG2 - FIX_POINT_PRE );
(tFixPointu&) b = (t00 & MASK_B) << ( FIX_POINT_PRE - COLOR_MAX_LOG2 );
}
// ----- FP24 ---- floating point z-buffer
#if 1
typedef f32 fp24;
#else
struct fp24
{
u32 v;
fp24() {}
fp24 ( const f32 f )
{
f32 y = f + 1.f;
v = ((u32&)y) & 0x7FFFFF; // last 23 bits
}
void operator=(const f32 f )
{
f32 y = f + 1.f;
v = ((u32&)y) & 0x7FFFFF; // last 23 bits
}
void operator+=(const fp24 &other )
{
v += other.v;
}
operator f32 () const
{
f32 r = FR ( v );
return r + 1.f;
}
};
#endif
// ------------------------ Internal Texture -----------------------------
struct sInternalTexture
{
u32 textureXMask;
u32 textureYMask;
u32 pitchlog2;
void *data;
video::CSoftwareTexture2 *Texture;
s32 lodLevel;
};
// get video sample plain
inline tVideoSample getTexel_plain ( const sInternalTexture * t, const tFixPointu tx, const tFixPointu ty )
{
u32 ofs;
ofs = ( ( ty & t->textureYMask ) >> FIX_POINT_PRE ) << t->pitchlog2;
ofs |= ( tx & t->textureXMask ) >> ( FIX_POINT_PRE - VIDEO_SAMPLE_GRANULARITY );
// texel
return *((tVideoSample*)( (u8*) t->data + ofs ));
}
// get video sample to fix
inline void getTexel_fix ( tFixPoint &r, tFixPoint &g, tFixPoint &b,
const sInternalTexture * t, const tFixPointu tx, const tFixPointu ty
)
{
u32 ofs;
ofs = ( ( ty & t->textureYMask ) >> FIX_POINT_PRE ) << t->pitchlog2;
ofs |= ( tx & t->textureXMask ) >> ( FIX_POINT_PRE - VIDEO_SAMPLE_GRANULARITY );
// texel
tVideoSample t00;
t00 = *((tVideoSample*)( (u8*) t->data + ofs ));
r = (t00 & MASK_R) >> ( SHIFT_R - FIX_POINT_PRE);
g = (t00 & MASK_G) << ( FIX_POINT_PRE - SHIFT_G );
b = (t00 & MASK_B) << ( FIX_POINT_PRE - SHIFT_B );
}
// get video sample to fixpoint
REALINLINE void getTexel_fix ( tFixPoint &a,
const sInternalTexture * t, const tFixPointu tx, const tFixPointu ty
)
{
u32 ofs;
ofs = ( ( ty & t->textureYMask ) >> FIX_POINT_PRE ) << t->pitchlog2;
ofs |= ( tx & t->textureXMask ) >> ( FIX_POINT_PRE - VIDEO_SAMPLE_GRANULARITY );
// texel
tVideoSample t00;
t00 = *((tVideoSample*)( (u8*) t->data + ofs ));
a = (t00 & MASK_A) >> ( SHIFT_A - FIX_POINT_PRE);
}
inline void getSample_texture_dither ( tFixPoint &r, tFixPoint &g, tFixPoint &b,
const sInternalTexture * t, const tFixPointu tx, const tFixPointu ty,
const u32 x, const u32 y
)
{
static const tFixPointu dithermask[] =
{
0x00,0x80,0x20,0xa0,
0xc0,0x40,0xe0,0x60,
0x30,0xb0,0x10,0x90,
0xf0,0x70,0xd0,0x50
};
const u32 index = (y & 3 ) << 2 | (x & 3);
const tFixPointu _ntx = (tx + dithermask [ index ] ) & t->textureXMask;
const tFixPointu _nty = (ty + dithermask [ index ] ) & t->textureYMask;
u32 ofs;
ofs = ( ( _nty ) >> FIX_POINT_PRE ) << t->pitchlog2;
ofs |= ( _ntx ) >> ( FIX_POINT_PRE - VIDEO_SAMPLE_GRANULARITY );
// texel
const tVideoSample t00 = *((tVideoSample*)( (u8*) t->data + ofs ));
(tFixPointu &) r = (t00 & MASK_R) >> ( SHIFT_R - FIX_POINT_PRE);
(tFixPointu &) g = (t00 & MASK_G) << ( FIX_POINT_PRE - SHIFT_G );
(tFixPointu &) b = (t00 & MASK_B) << ( FIX_POINT_PRE - SHIFT_B );
}
/*
load a sample from internal texture at position tx,ty to fixpoint
*/
#ifndef SOFTWARE_DRIVER_2_BILINEAR
// get Sample linear == getSample_fixpoint
inline void getSample_texture ( tFixPoint &r, tFixPoint &g, tFixPoint &b,
const sInternalTexture * t, const tFixPointu tx, const tFixPointu ty
)
{
u32 ofs;
ofs = ( ( ty & t->textureYMask ) >> FIX_POINT_PRE ) << t->pitchlog2;
ofs |= ( tx & t->textureXMask ) >> ( FIX_POINT_PRE - VIDEO_SAMPLE_GRANULARITY );
// texel
const tVideoSample t00 = *((tVideoSample*)( (u8*) t->data + ofs ));
(tFixPointu &) r = (t00 & MASK_R) >> ( SHIFT_R - FIX_POINT_PRE);
(tFixPointu &) g = (t00 & MASK_G) << ( FIX_POINT_PRE - SHIFT_G );
(tFixPointu &) b = (t00 & MASK_B) << ( FIX_POINT_PRE - SHIFT_B );
}
inline void getSample_texture ( tFixPointu &a, tFixPointu &r, tFixPointu &g, tFixPointu &b,
const sInternalTexture * t, const tFixPointu tx, const tFixPointu ty
)
{
u32 ofs;
ofs = ( ( ty & t->textureYMask ) >> FIX_POINT_PRE ) << t->pitchlog2;
ofs |= ( tx & t->textureXMask ) >> ( FIX_POINT_PRE - VIDEO_SAMPLE_GRANULARITY );
// texel
const tVideoSample t00 = *((tVideoSample*)( (u8*) t->data + ofs ));
(tFixPointu &)a = (t00 & MASK_A) >> ( SHIFT_A - FIX_POINT_PRE);
(tFixPointu &)r = (t00 & MASK_R) >> ( SHIFT_R - FIX_POINT_PRE);
(tFixPointu &)g = (t00 & MASK_G) << ( FIX_POINT_PRE - SHIFT_G );
(tFixPointu &)b = (t00 & MASK_B) << ( FIX_POINT_PRE - SHIFT_B );
}
#else
// get sample linear
REALINLINE void getSample_linear ( tFixPointu &r, tFixPointu &g, tFixPointu &b,
const sInternalTexture * t, const tFixPointu tx, const tFixPointu ty
)
{
u32 ofs;
ofs = ( ( ty & t->textureYMask ) >> FIX_POINT_PRE ) << t->pitchlog2;
ofs |= ( tx & t->textureXMask ) >> ( FIX_POINT_PRE - VIDEO_SAMPLE_GRANULARITY );
// texel
tVideoSample t00;
t00 = *((tVideoSample*)( (u8*) t->data + ofs ));
r = (t00 & MASK_R) >> SHIFT_R;
g = (t00 & MASK_G) >> SHIFT_G;
b = (t00 & MASK_B);
}
// get Sample bilinear
REALINLINE void getSample_texture ( tFixPoint &r, tFixPoint &g, tFixPoint &b,
const sInternalTexture * t, const tFixPointu tx, const tFixPointu ty
)
{
tFixPointu r00,g00,b00;
tFixPointu r01,g01,b01;
tFixPointu r10,g10,b10;
tFixPointu r11,g11,b11;
#if 0
getSample_linear ( r00, g00, b00, t, tx,ty );
getSample_linear ( r10, g10, b10, t, tx + FIX_POINT_ONE,ty );
getSample_linear ( r01, g01, b01, t, tx,ty + FIX_POINT_ONE );
getSample_linear ( r11, g11, b11, t, tx + FIX_POINT_ONE,ty + FIX_POINT_ONE );
#else
u32 o0, o1,o2,o3;
tVideoSample t00;
o0 = ( ( (ty) & t->textureYMask ) >> FIX_POINT_PRE ) << t->pitchlog2;
o1 = ( ( (ty+FIX_POINT_ONE) & t->textureYMask ) >> FIX_POINT_PRE ) << t->pitchlog2;
o2 = ( (tx) & t->textureXMask ) >> ( FIX_POINT_PRE - VIDEO_SAMPLE_GRANULARITY );
o3 = ( (tx+FIX_POINT_ONE) & t->textureXMask ) >> ( FIX_POINT_PRE - VIDEO_SAMPLE_GRANULARITY );
t00 = *((tVideoSample*)( (u8*) t->data + (o0 | o2 ) ));
r00 = (t00 & MASK_R) >> SHIFT_R; g00 = (t00 & MASK_G) >> SHIFT_G; b00 = (t00 & MASK_B);
t00 = *((tVideoSample*)( (u8*) t->data + (o0 | o3 ) ));
r10 = (t00 & MASK_R) >> SHIFT_R; g10 = (t00 & MASK_G) >> SHIFT_G; b10 = (t00 & MASK_B);
t00 = *((tVideoSample*)( (u8*) t->data + (o1 | o2 ) ));
r01 = (t00 & MASK_R) >> SHIFT_R; g01 = (t00 & MASK_G) >> SHIFT_G; b01 = (t00 & MASK_B);
t00 = *((tVideoSample*)( (u8*) t->data + (o1 | o3 ) ));
r11 = (t00 & MASK_R) >> SHIFT_R; g11 = (t00 & MASK_G) >> SHIFT_G; b11 = (t00 & MASK_B);
#endif
const tFixPointu txFract = tx & FIX_POINT_FRACT_MASK;
const tFixPointu txFractInv = FIX_POINT_ONE - txFract;
const tFixPointu tyFract = ty & FIX_POINT_FRACT_MASK;
const tFixPointu tyFractInv = FIX_POINT_ONE - tyFract;
const tFixPointu w00 = imulFixu ( txFractInv, tyFractInv );
const tFixPointu w10 = imulFixu ( txFract , tyFractInv );
const tFixPointu w01 = imulFixu ( txFractInv, tyFract );
const tFixPointu w11 = imulFixu ( txFract , tyFract );
r = (r00 * w00 ) +
(r01 * w01 ) +
(r10 * w10 ) +
(r11 * w11 );
g = (g00 * w00 ) +
(g01 * w01 ) +
(g10 * w10 ) +
(g11 * w11 );
b = (b00 * w00 ) +
(b01 * w01 ) +
(b10 * w10 ) +
(b11 * w11 );
}
// get sample linear
REALINLINE void getSample_linear ( tFixPointu &a, tFixPointu &r, tFixPointu &g, tFixPointu &b,
const sInternalTexture * t, const tFixPointu tx, const tFixPointu ty
)
{
u32 ofs;
ofs = ( ( ty & t->textureYMask ) >> FIX_POINT_PRE ) << t->pitchlog2;
ofs |= ( tx & t->textureXMask ) >> ( FIX_POINT_PRE - VIDEO_SAMPLE_GRANULARITY );
// texel
tVideoSample t00;
t00 = *((tVideoSample*)( (u8*) t->data + ofs ));
a = (t00 & MASK_A) >> SHIFT_A;
r = (t00 & MASK_R) >> SHIFT_R;
g = (t00 & MASK_G) >> SHIFT_G;
b = (t00 & MASK_B);
}
// get Sample bilinear
REALINLINE void getSample_texture ( tFixPoint &a, tFixPoint &r, tFixPoint &g, tFixPoint &b,
const sInternalTexture * t, const tFixPointu tx, const tFixPointu ty
)
{
tFixPointu a00, r00,g00,b00;
tFixPointu a01, r01,g01,b01;
tFixPointu a10, r10,g10,b10;
tFixPointu a11, r11,g11,b11;
getSample_linear ( a00, r00, g00, b00, t, tx,ty );
getSample_linear ( a10, r10, g10, b10, t, tx + FIX_POINT_ONE,ty );
getSample_linear ( a01, r01, g01, b01, t, tx,ty + FIX_POINT_ONE );
getSample_linear ( a11, r11, g11, b11, t, tx + FIX_POINT_ONE,ty + FIX_POINT_ONE );
const tFixPointu txFract = tx & FIX_POINT_FRACT_MASK;
const tFixPointu txFractInv = FIX_POINT_ONE - txFract;
const tFixPointu tyFract = ty & FIX_POINT_FRACT_MASK;
const tFixPointu tyFractInv = FIX_POINT_ONE - tyFract;
const tFixPointu w00 = imulFixu ( txFractInv, tyFractInv );
const tFixPointu w10 = imulFixu ( txFract , tyFractInv );
const tFixPointu w01 = imulFixu ( txFractInv, tyFract );
const tFixPointu w11 = imulFixu ( txFract , tyFract );
a = (a00 * w00 ) +
(a01 * w01 ) +
(a10 * w10 ) +
(a11 * w11 );
r = (r00 * w00 ) +
(r01 * w01 ) +
(r10 * w10 ) +
(r11 * w11 );
g = (g00 * w00 ) +
(g01 * w01 ) +
(g10 * w10 ) +
(g11 * w11 );
b = (b00 * w00 ) +
(b01 * w01 ) +
(b10 * w10 ) +
(b11 * w11 );
}
#endif
// some 2D Defines
struct AbsRectangle
{
s32 x0;
s32 y0;
s32 x1;
s32 y1;
};
//! 2D Intersection test
inline bool intersect ( AbsRectangle &dest, const AbsRectangle& a, const AbsRectangle& b)
{
dest.x0 = core::s32_max( a.x0, b.x0 );
dest.y0 = core::s32_max( a.y0, b.y0 );
dest.x1 = core::s32_min( a.x1, b.x1 );
dest.y1 = core::s32_min( a.y1, b.y1 );
return dest.x0 < dest.x1 && dest.y0 < dest.y1;
}
// some 1D defines
struct sIntervall
{
s32 start;
s32 end;
};
// returning intersection width
inline s32 intervall_intersect_test( const sIntervall& a, const sIntervall& b)
{
return core::s32_min( a.end, b.end ) - core::s32_max( a.start, b.start );
}
} // end namespace irr
#endif
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