// Copyright (C) 2002-2011 Nikolaus Gebhardt / Thomas Alten // This file is part of the "Irrlicht Engine". // For conditions of distribution and use, see copyright notice in irrlicht.h #ifndef _C_BLIT_H_INCLUDED_ #define _C_BLIT_H_INCLUDED_ #include "SoftwareDriver2_helper.h" namespace irr { struct SBlitJob { AbsRectangle Dest; AbsRectangle Source; u32 argb; void * src; void * dst; s32 width; s32 height; u32 srcPitch; u32 dstPitch; u32 srcPixelMul; u32 dstPixelMul; }; // Bitfields Cohen Sutherland enum eClipCode { CLIPCODE_EMPTY = 0, CLIPCODE_BOTTOM = 1, CLIPCODE_TOP = 2, CLIPCODE_LEFT = 4, CLIPCODE_RIGHT = 8 }; inline u32 GetClipCode( const AbsRectangle &r, const core::position2d<s32> &p ) { u32 code = CLIPCODE_EMPTY; if ( p.X < r.x0 ) code = CLIPCODE_LEFT; else if ( p.X > r.x1 ) code = CLIPCODE_RIGHT; if ( p.Y < r.y0 ) code |= CLIPCODE_TOP; else if ( p.Y > r.y1 ) code |= CLIPCODE_BOTTOM; return code; } /*! Cohen Sutherland clipping @return: 1 if valid */ static int ClipLine(const AbsRectangle &clipping, core::position2d<s32> &p0, core::position2d<s32> &p1, const core::position2d<s32>& p0_in, const core::position2d<s32>& p1_in) { u32 code0; u32 code1; u32 code; p0 = p0_in; p1 = p1_in; code0 = GetClipCode( clipping, p0 ); code1 = GetClipCode( clipping, p1 ); // trivial accepted while ( code0 | code1 ) { s32 x=0; s32 y=0; // trivial reject if ( code0 & code1 ) return 0; if ( code0 ) { // clip first point code = code0; } else { // clip last point code = code1; } if ( (code & CLIPCODE_BOTTOM) == CLIPCODE_BOTTOM ) { // clip bottom viewport y = clipping.y1; x = p0.X + ( p1.X - p0.X ) * ( y - p0.Y ) / ( p1.Y - p0.Y ); } else if ( (code & CLIPCODE_TOP) == CLIPCODE_TOP ) { // clip to viewport y = clipping.y0; x = p0.X + ( p1.X - p0.X ) * ( y - p0.Y ) / ( p1.Y - p0.Y ); } else if ( (code & CLIPCODE_RIGHT) == CLIPCODE_RIGHT ) { // clip right viewport x = clipping.x1; y = p0.Y + ( p1.Y - p0.Y ) * ( x - p0.X ) / ( p1.X - p0.X ); } else if ( (code & CLIPCODE_LEFT) == CLIPCODE_LEFT ) { // clip left viewport x = clipping.x0; y = p0.Y + ( p1.Y - p0.Y ) * ( x - p0.X ) / ( p1.X - p0.X ); } if ( code == code0 ) { // modify first point p0.X = x; p0.Y = y; code0 = GetClipCode( clipping, p0 ); } else { // modify second point p1.X = x; p1.Y = y; code1 = GetClipCode( clipping, p1 ); } } return 1; } /* */ inline void GetClip(AbsRectangle &clipping, video::IImage * t) { clipping.x0 = 0; clipping.y0 = 0; clipping.x1 = t->getDimension().Width - 1; clipping.y1 = t->getDimension().Height - 1; } /* return alpha in [0;256] Granularity from 32-Bit ARGB add highbit alpha ( alpha > 127 ? + 1 ) */ static inline u32 extractAlpha ( const u32 c ) { return ( c >> 24 ) + ( c >> 31 ); } /* return alpha in [0;255] Granularity and 32-Bit ARGB add highbit alpha ( alpha > 127 ? + 1 ) */ static inline u32 packAlpha ( const u32 c ) { return (c > 127 ? c - 1 : c) << 24; } /*! Scale Color by (1/value) value 0 - 256 ( alpha ) */ inline u32 PixelLerp32 ( const u32 source, const u32 value ) { u32 srcRB = source & 0x00FF00FF; u32 srcXG = (source & 0xFF00FF00) >> 8; srcRB *= value; srcXG *= value; srcRB >>= 8; //srcXG >>= 8; srcXG &= 0xFF00FF00; srcRB &= 0x00FF00FF; return srcRB | srcXG; } /* */ static void RenderLine32_Decal(video::IImage *t, const core::position2d<s32> &p0, const core::position2d<s32> &p1, u32 argb ) { s32 dx = p1.X - p0.X; s32 dy = p1.Y - p0.Y; s32 c; s32 m; s32 d = 0; s32 run; s32 xInc = 4; s32 yInc = (s32) t->getPitch(); if ( dx < 0 ) { xInc = -xInc; dx = -dx; } if ( dy < 0 ) { yInc = -yInc; dy = -dy; } u32 *dst; dst = (u32*) ( (u8*) t->lock() + ( p0.Y * t->getPitch() ) + ( p0.X << 2 ) ); if ( dy > dx ) { s32 tmp; tmp = dx; dx = dy; dy = tmp; tmp = xInc; xInc = yInc; yInc = tmp; } c = dx << 1; m = dy << 1; run = dx; while ( run ) { *dst = argb; dst = (u32*) ( (u8*) dst + xInc ); // x += xInc d += m; if ( d > dx ) { dst = (u32*) ( (u8*) dst + yInc ); // y += yInc d -= c; } run -= 1; } t->unlock(); } /* */ static void RenderLine32_Blend(video::IImage *t, const core::position2d<s32> &p0, const core::position2d<s32> &p1, u32 argb, u32 alpha) { s32 dx = p1.X - p0.X; s32 dy = p1.Y - p0.Y; s32 c; s32 m; s32 d = 0; s32 run; s32 xInc = 4; s32 yInc = (s32) t->getPitch(); if ( dx < 0 ) { xInc = -xInc; dx = -dx; } if ( dy < 0 ) { yInc = -yInc; dy = -dy; } u32 *dst; dst = (u32*) ( (u8*) t->lock() + ( p0.Y * t->getPitch() ) + ( p0.X << 2 ) ); if ( dy > dx ) { s32 tmp; tmp = dx; dx = dy; dy = tmp; tmp = xInc; xInc = yInc; yInc = tmp; } c = dx << 1; m = dy << 1; run = dx; const u32 packA = packAlpha ( alpha ); while ( run ) { *dst = packA | PixelBlend32( *dst, argb, alpha ); dst = (u32*) ( (u8*) dst + xInc ); // x += xInc d += m; if ( d > dx ) { dst = (u32*) ( (u8*) dst + yInc ); // y += yInc d -= c; } run -= 1; } t->unlock(); } /* */ static void RenderLine16_Decal(video::IImage *t, const core::position2d<s32> &p0, const core::position2d<s32> &p1, u32 argb ) { s32 dx = p1.X - p0.X; s32 dy = p1.Y - p0.Y; s32 c; s32 m; s32 d = 0; s32 run; s32 xInc = 2; s32 yInc = (s32) t->getPitch(); if ( dx < 0 ) { xInc = -xInc; dx = -dx; } if ( dy < 0 ) { yInc = -yInc; dy = -dy; } u16 *dst; dst = (u16*) ( (u8*) t->lock() + ( p0.Y * t->getPitch() ) + ( p0.X << 1 ) ); if ( dy > dx ) { s32 tmp; tmp = dx; dx = dy; dy = tmp; tmp = xInc; xInc = yInc; yInc = tmp; } c = dx << 1; m = dy << 1; run = dx; while ( run ) { *dst = (u16)argb; dst = (u16*) ( (u8*) dst + xInc ); // x += xInc d += m; if ( d > dx ) { dst = (u16*) ( (u8*) dst + yInc ); // y += yInc d -= c; } run -= 1; } t->unlock(); } /* */ static void RenderLine16_Blend(video::IImage *t, const core::position2d<s32> &p0, const core::position2d<s32> &p1, u16 argb, u16 alpha) { s32 dx = p1.X - p0.X; s32 dy = p1.Y - p0.Y; s32 c; s32 m; s32 d = 0; s32 run; s32 xInc = 2; s32 yInc = (s32) t->getPitch(); if ( dx < 0 ) { xInc = -xInc; dx = -dx; } if ( dy < 0 ) { yInc = -yInc; dy = -dy; } u16 *dst; dst = (u16*) ( (u8*) t->lock() + ( p0.Y * t->getPitch() ) + ( p0.X << 1 ) ); if ( dy > dx ) { s32 tmp; tmp = dx; dx = dy; dy = tmp; tmp = xInc; xInc = yInc; yInc = tmp; } c = dx << 1; m = dy << 1; run = dx; const u16 packA = alpha ? 0x8000 : 0; while ( run ) { *dst = packA | PixelBlend16( *dst, argb, alpha ); dst = (u16*) ( (u8*) dst + xInc ); // x += xInc d += m; if ( d > dx ) { dst = (u16*) ( (u8*) dst + yInc ); // y += yInc d -= c; } run -= 1; } t->unlock(); } /*! */ static void executeBlit_TextureCopy_x_to_x( const SBlitJob * job ) { const void *src = (void*) job->src; void *dst = (void*) job->dst; const u32 widthPitch = job->width * job->dstPixelMul; for ( s32 dy = 0; dy != job->height; ++dy ) { memcpy( dst, src, widthPitch ); src = (void*) ( (u8*) (src) + job->srcPitch ); dst = (void*) ( (u8*) (dst) + job->dstPitch ); } } /*! */ static void executeBlit_TextureCopy_32_to_16( const SBlitJob * job ) { const u32 *src = static_cast<const u32*>(job->src); u16 *dst = static_cast<u16*>(job->dst); for ( s32 dy = 0; dy != job->height; ++dy ) { for ( s32 dx = 0; dx != job->width; ++dx ) { //16 bit Blitter depends on pre-multiplied color const u32 s = PixelLerp32( src[dx] | 0xFF000000, extractAlpha( src[dx] ) ); dst[dx] = video::A8R8G8B8toA1R5G5B5( s ); } src = (u32*) ( (u8*) (src) + job->srcPitch ); dst = (u16*) ( (u8*) (dst) + job->dstPitch ); } } /*! */ static void executeBlit_TextureCopy_24_to_16( const SBlitJob * job ) { const void *src = (void*) job->src; u16 *dst = (u16*) job->dst; for ( s32 dy = 0; dy != job->height; ++dy ) { u8 * s = (u8*) src; for ( s32 dx = 0; dx != job->width; ++dx ) { dst[dx] = video::RGBA16(s[0], s[1], s[2]); s += 3; } src = (void*) ( (u8*) (src) + job->srcPitch ); dst = (u16*) ( (u8*) (dst) + job->dstPitch ); } } /*! */ static void executeBlit_TextureCopy_16_to_32( const SBlitJob * job ) { const u16 *src = (u16*) job->src; u32 *dst = (u32*) job->dst; for ( s32 dy = 0; dy != job->height; ++dy ) { for ( s32 dx = 0; dx != job->width; ++dx ) { dst[dx] = video::A1R5G5B5toA8R8G8B8( src[dx] ); } src = (u16*) ( (u8*) (src) + job->srcPitch ); dst = (u32*) ( (u8*) (dst) + job->dstPitch ); } } static void executeBlit_TextureCopy_16_to_24( const SBlitJob * job ) { const u16 *src = (u16*) job->src; u8 *dst = (u8*) job->dst; for ( s32 dy = 0; dy != job->height; ++dy ) { for ( s32 dx = 0; dx != job->width; ++dx ) { u32 colour = video::A1R5G5B5toA8R8G8B8( src[dx] ); u8 * writeTo = &dst[dx * 3]; *writeTo++ = (colour >> 16)& 0xFF; *writeTo++ = (colour >> 8) & 0xFF; *writeTo++ = colour & 0xFF; } src = (u16*) ( (u8*) (src) + job->srcPitch ); dst += job->dstPitch; } } /*! */ static void executeBlit_TextureCopy_24_to_32( const SBlitJob * job ) { void *src = (void*) job->src; u32 *dst = (u32*) job->dst; for ( s32 dy = 0; dy != job->height; ++dy ) { u8 * s = (u8*) src; for ( s32 dx = 0; dx != job->width; ++dx ) { dst[dx] = 0xFF000000 | s[0] << 16 | s[1] << 8 | s[2]; s += 3; } src = (void*) ( (u8*) (src) + job->srcPitch ); dst = (u32*) ( (u8*) (dst) + job->dstPitch ); } } static void executeBlit_TextureCopy_32_to_24( const SBlitJob * job ) { const u32 * src = (u32*) job->src; u8 * dst = (u8*) job->dst; for ( s32 dy = 0; dy != job->height; ++dy ) { for ( s32 dx = 0; dx != job->width; ++dx ) { u8 * writeTo = &dst[dx * 3]; *writeTo++ = (src[dx] >> 16)& 0xFF; *writeTo++ = (src[dx] >> 8) & 0xFF; *writeTo++ = src[dx] & 0xFF; } src = (u32*) ( (u8*) (src) + job->srcPitch ); dst += job->dstPitch ; } } /*! */ static void executeBlit_TextureBlend_16_to_16( const SBlitJob * job ) { u32 dx; s32 dy; u32 *src = (u32*) job->src; u32 *dst = (u32*) job->dst; const u32 rdx = job->width >> 1; const u32 off = core::if_c_a_else_b( job->width & 1 ,job->width - 1, 0 ); for ( dy = 0; dy != job->height; ++dy ) { for ( dx = 0; dx != rdx; ++dx ) { dst[dx] = PixelBlend16_simd( dst[dx], src[dx] ); } if ( off ) { ((u16*) dst)[off] = PixelBlend16( ((u16*) dst)[off], ((u16*) src)[off] ); } src = (u32*) ( (u8*) (src) + job->srcPitch ); dst = (u32*) ( (u8*) (dst) + job->dstPitch ); } } /*! */ static void executeBlit_TextureBlend_32_to_32( const SBlitJob * job ) { u32 *src = (u32*) job->src; u32 *dst = (u32*) job->dst; for ( s32 dy = 0; dy != job->height; ++dy ) { for ( s32 dx = 0; dx != job->width; ++dx ) { dst[dx] = PixelBlend32( dst[dx], src[dx] ); } src = (u32*) ( (u8*) (src) + job->srcPitch ); dst = (u32*) ( (u8*) (dst) + job->dstPitch ); } } /*! */ static void executeBlit_TextureBlendColor_16_to_16( const SBlitJob * job ) { u16 *src = (u16*) job->src; u16 *dst = (u16*) job->dst; u16 blend = video::A8R8G8B8toA1R5G5B5 ( job->argb ); for ( s32 dy = 0; dy != job->height; ++dy ) { for ( s32 dx = 0; dx != job->width; ++dx ) { if ( 0 == (src[dx] & 0x8000) ) continue; dst[dx] = PixelMul16_2( src[dx], blend ); } src = (u16*) ( (u8*) (src) + job->srcPitch ); dst = (u16*) ( (u8*) (dst) + job->dstPitch ); } } /*! */ static void executeBlit_TextureBlendColor_32_to_32( const SBlitJob * job ) { u32 *src = (u32*) job->src; u32 *dst = (u32*) job->dst; for ( s32 dy = 0; dy != job->height; ++dy ) { for ( s32 dx = 0; dx != job->width; ++dx ) { dst[dx] = PixelBlend32( dst[dx], PixelMul32_2( src[dx], job->argb ) ); } src = (u32*) ( (u8*) (src) + job->srcPitch ); dst = (u32*) ( (u8*) (dst) + job->dstPitch ); } } /*! */ static void executeBlit_Color_16_to_16( const SBlitJob * job ) { u16 *dst = (u16*) job->dst; u16 c0 = video::A8R8G8B8toA1R5G5B5( job->argb ); u32 c = c0 | c0 << 16; if ( 0 == (job->srcPitch & 3 ) ) { for ( s32 dy = 0; dy != job->height; ++dy ) { memset32( dst, c, job->srcPitch ); dst = (u16*) ( (u8*) (dst) + job->dstPitch ); } } else { s32 dx = job->width - 1; for ( s32 dy = 0; dy != job->height; ++dy ) { memset32( dst, c, job->srcPitch ); dst[dx] = c0; dst = (u16*) ( (u8*) (dst) + job->dstPitch ); } } } /*! */ static void executeBlit_Color_32_to_32( const SBlitJob * job ) { u32 *dst = (u32*) job->dst; for ( s32 dy = 0; dy != job->height; ++dy ) { memset32( dst, job->argb, job->srcPitch ); dst = (u32*) ( (u8*) (dst) + job->dstPitch ); } } /*! */ static void executeBlit_ColorAlpha_16_to_16( const SBlitJob * job ) { u16 *dst = (u16*) job->dst; const u16 alpha = extractAlpha( job->argb ) >> 3; if ( 0 == alpha ) return; const u32 src = video::A8R8G8B8toA1R5G5B5( job->argb ); for ( s32 dy = 0; dy != job->height; ++dy ) { for ( s32 dx = 0; dx != job->width; ++dx ) { dst[dx] = 0x8000 | PixelBlend16( dst[dx], src, alpha ); } dst = (u16*) ( (u8*) (dst) + job->dstPitch ); } } /*! */ static void executeBlit_ColorAlpha_32_to_32( const SBlitJob * job ) { u32 *dst = (u32*) job->dst; const u32 alpha = extractAlpha( job->argb ); const u32 src = job->argb; for ( s32 dy = 0; dy != job->height; ++dy ) { for ( s32 dx = 0; dx != job->width; ++dx ) { dst[dx] = (job->argb & 0xFF000000 ) | PixelBlend32( dst[dx], src, alpha ); } dst = (u32*) ( (u8*) (dst) + job->dstPitch ); } } // Blitter Operation enum eBlitter { BLITTER_INVALID = 0, BLITTER_COLOR, BLITTER_COLOR_ALPHA, BLITTER_TEXTURE, BLITTER_TEXTURE_ALPHA_BLEND, BLITTER_TEXTURE_ALPHA_COLOR_BLEND }; typedef void (*tExecuteBlit) ( const SBlitJob * job ); /*! */ struct blitterTable { eBlitter operation; s32 destFormat; s32 sourceFormat; tExecuteBlit func; }; static const blitterTable blitTable[] = { { BLITTER_TEXTURE, -2, -2, executeBlit_TextureCopy_x_to_x }, { BLITTER_TEXTURE, video::ECF_A1R5G5B5, video::ECF_A8R8G8B8, executeBlit_TextureCopy_32_to_16 }, { BLITTER_TEXTURE, video::ECF_A1R5G5B5, video::ECF_R8G8B8, executeBlit_TextureCopy_24_to_16 }, { BLITTER_TEXTURE, video::ECF_A8R8G8B8, video::ECF_A1R5G5B5, executeBlit_TextureCopy_16_to_32 }, { BLITTER_TEXTURE, video::ECF_A8R8G8B8, video::ECF_R8G8B8, executeBlit_TextureCopy_24_to_32 }, { BLITTER_TEXTURE, video::ECF_R8G8B8, video::ECF_A1R5G5B5, executeBlit_TextureCopy_16_to_24 }, { BLITTER_TEXTURE, video::ECF_R8G8B8, video::ECF_A8R8G8B8, executeBlit_TextureCopy_32_to_24 }, { BLITTER_TEXTURE_ALPHA_BLEND, video::ECF_A1R5G5B5, video::ECF_A1R5G5B5, executeBlit_TextureBlend_16_to_16 }, { BLITTER_TEXTURE_ALPHA_BLEND, video::ECF_A8R8G8B8, video::ECF_A8R8G8B8, executeBlit_TextureBlend_32_to_32 }, { BLITTER_TEXTURE_ALPHA_COLOR_BLEND, video::ECF_A1R5G5B5, video::ECF_A1R5G5B5, executeBlit_TextureBlendColor_16_to_16 }, { BLITTER_TEXTURE_ALPHA_COLOR_BLEND, video::ECF_A8R8G8B8, video::ECF_A8R8G8B8, executeBlit_TextureBlendColor_32_to_32 }, { BLITTER_COLOR, video::ECF_A1R5G5B5, -1, executeBlit_Color_16_to_16 }, { BLITTER_COLOR, video::ECF_A8R8G8B8, -1, executeBlit_Color_32_to_32 }, { BLITTER_COLOR_ALPHA, video::ECF_A1R5G5B5, -1, executeBlit_ColorAlpha_16_to_16 }, { BLITTER_COLOR_ALPHA, video::ECF_A8R8G8B8, -1, executeBlit_ColorAlpha_32_to_32 }, { BLITTER_INVALID, -1, -1, 0 } }; static inline tExecuteBlit getBlitter2( eBlitter operation,const video::IImage * dest,const video::IImage * source ) { video::ECOLOR_FORMAT sourceFormat = (video::ECOLOR_FORMAT) ( source ? source->getColorFormat() : -1 ); video::ECOLOR_FORMAT destFormat = (video::ECOLOR_FORMAT) ( dest ? dest->getColorFormat() : -1 ); const blitterTable * b = blitTable; while ( b->operation != BLITTER_INVALID ) { if ( b->operation == operation ) { if (( b->destFormat == -1 || b->destFormat == destFormat ) && ( b->sourceFormat == -1 || b->sourceFormat == sourceFormat ) ) return b->func; else if ( b->destFormat == -2 && ( sourceFormat == destFormat ) ) return b->func; } b += 1; } return 0; } // bounce clipping to texture inline void setClip ( AbsRectangle &out, const core::rect<s32> *clip, const video::IImage * tex, s32 passnative ) { if ( clip && 0 == tex && passnative ) { out.x0 = clip->UpperLeftCorner.X; out.x1 = clip->LowerRightCorner.X; out.y0 = clip->UpperLeftCorner.Y; out.y1 = clip->LowerRightCorner.Y; return; } const s32 w = tex ? tex->getDimension().Width : 0; const s32 h = tex ? tex->getDimension().Height : 0; if ( clip ) { out.x0 = core::s32_clamp ( clip->UpperLeftCorner.X, 0, w ); out.x1 = core::s32_clamp ( clip->LowerRightCorner.X, out.x0, w ); out.y0 = core::s32_clamp ( clip->UpperLeftCorner.Y, 0, h ); out.y1 = core::s32_clamp ( clip->LowerRightCorner.Y, out.y0, h ); } else { out.x0 = 0; out.y0 = 0; out.x1 = w; out.y1 = h; } } /*! a generic 2D Blitter */ static s32 Blit(eBlitter operation, video::IImage * dest, const core::rect<s32> *destClipping, const core::position2d<s32> *destPos, video::IImage * const source, const core::rect<s32> *sourceClipping, u32 argb) { tExecuteBlit blitter = getBlitter2( operation, dest, source ); if ( 0 == blitter ) { return 0; } // Clipping AbsRectangle sourceClip; AbsRectangle destClip; AbsRectangle v; SBlitJob job; setClip ( sourceClip, sourceClipping, source, 1 ); setClip ( destClip, destClipping, dest, 0 ); v.x0 = destPos ? destPos->X : 0; v.y0 = destPos ? destPos->Y : 0; v.x1 = v.x0 + ( sourceClip.x1 - sourceClip.x0 ); v.y1 = v.y0 + ( sourceClip.y1 - sourceClip.y0 ); if ( !intersect( job.Dest, destClip, v ) ) return 0; job.width = job.Dest.x1 - job.Dest.x0; job.height = job.Dest.y1 - job.Dest.y0; job.Source.x0 = sourceClip.x0 + ( job.Dest.x0 - v.x0 ); job.Source.x1 = job.Source.x0 + job.width; job.Source.y0 = sourceClip.y0 + ( job.Dest.y0 - v.y0 ); job.Source.y1 = job.Source.y0 + job.height; job.argb = argb; if ( source ) { job.srcPitch = source->getPitch(); job.srcPixelMul = source->getBytesPerPixel(); job.src = (void*) ( (u8*) source->lock() + ( job.Source.y0 * job.srcPitch ) + ( job.Source.x0 * job.srcPixelMul ) ); } else { // use srcPitch for color operation on dest job.srcPitch = job.width * dest->getBytesPerPixel(); } job.dstPitch = dest->getPitch(); job.dstPixelMul = dest->getBytesPerPixel(); job.dst = (void*) ( (u8*) dest->lock() + ( job.Dest.y0 * job.dstPitch ) + ( job.Dest.x0 * job.dstPixelMul ) ); blitter( &job ); if ( source ) source->unlock(); if ( dest ) dest->unlock(); return 1; } } #endif
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