/* Popup Plus plugin for Miranda IM Copyright © 2002 Luca Santarelli, © 2004-2007 Victor Pavlychko 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "stdhdr.h" #include "bitmap_funcs.h" #include #include #define PU_FONT_THRESHOLD 96 #define PU_BMP_ACCURATE_ARITHMETICS #ifdef PU_BMP_ACCURATE_ARITHMETICS #define PU_DIV255(x) ((x)/255) #define PU_DIV128(x) ((x)/128) typedef float pu_koef; #else #define PU_DIV255(x) ((x)>>8) #define PU_DIV128(x) ((x)>>7) typedef long pu_koef; #endif MyBitmap::MyBitmap() { dcBmp = 0; hBmp = 0; bits = 0; width = height = 0; bitsSave = 0; } MyBitmap::MyBitmap(int w, int h) { dcBmp = 0; hBmp = 0; bits = 0; width = height = 0; bitsSave = 0; allocate(w,h); } MyBitmap::MyBitmap(const char *fn, const char *fnAlpha) { dcBmp = 0; hBmp = 0; bits = 0; width = height = 0; bitsSave = 0; loadFromFile(fn, fnAlpha); } MyBitmap::~MyBitmap() { if (bitsSave) delete [] bitsSave; free(); } void MyBitmap::setAlpha(BYTE level) { if (!bits) return; GdiFlush(); for (int i = 0; i < width*height; i++) { if (bits[i] & 0xff000000) { bits[i] = rgba(getr(bits[i])*level/255, getg(bits[i])*level/255, getb(bits[i])*level/255, geta(bits[i])*level/255); } else { bits[i] = rgba(getr(bits[i])*level/255, getg(bits[i])*level/255, getb(bits[i])*level/255, level); } } } void MyBitmap::setAlphaRect(int x1, int y1, int x2, int y2, BYTE level) { if (!bits) return; GdiFlush(); for (int i = y1; i < y2; i++) for (int j = x1; j < x2; j++) { int idx = i * width + j; if (bits[idx] & 0xff000000) bits[idx] = rgba(getr(bits[idx])*level/255, getg(bits[idx])*level/255, getb(bits[idx])*level/255, geta(bits[idx])*level/255); else bits[idx] = rgba(getr(bits[idx])*level/255, getg(bits[idx])*level/255, getb(bits[idx])*level/255, level); } } void MyBitmap::makeOpaque() { if (!bits) return; GdiFlush(); for (int i = 0; i < width*height; i++) bits[i] |= 0xff000000; } void MyBitmap::makeOpaqueRect(int x1, int y1, int x2, int y2) { if (!bits) return; GdiFlush(); for (int i = y1; i < y2; i++) for (int j = x1; j < x2; j++) { int idx = i * width + j; bits[idx] |= 0xff000000; } } void MyBitmap::saveAlpha(int x, int y, int w, int h) { if (bitsSave) delete [] bitsSave; GdiFlush(); if (!w) w = width; if (!h) h = height; bitsSave = new COLOR32[w*h]; COLOR32 *p1 = bitsSave; for (int i = 0; i < h; i++) { if (i+y < 0) continue; if (i+y >= height) break; COLOR32 *p2 = bits + (y+i)*width + x; p1 = bitsSave + i*w; for (int j = 0; j < w; j++) { if (j+x < 0) continue; if (j+x >= width) break; *p1++=*p2++; } } } void MyBitmap::restoreAlpha(int x, int y, int w, int h) { if (!bitsSave) return; GdiFlush(); if (!w) w = width; if (!h) h = height; COLOR32 *p1 = bitsSave; for (int i = 0; i < h; i++) { if (i+y < 0) continue; if (i+y >= height) break; COLOR32 *p2 = bits + (y+i)*width + x; p1 = bitsSave + i*w; for (int j = 0; j < w; j++) { if (j+x < 0) continue; if (j+x >= width) break; if ((*p1&0x00ffffff) != (*p2&0x00ffffff)) { *p2 |= 0xff000000; } else { *p2 = (*p2&0x00ffffff) | (*p1&0xff000000); } ++p1; ++p2; } } delete [] bitsSave; bitsSave = 0; } void MyBitmap::DrawBits(COLOR32 *inbits, int inw, int inh, int x, int y, int w, int h) { if (!(bits && inbits)) return; GdiFlush(); float kx = (float)inw / w; float ky = (float)inh / h; if (x+w >= this->getWidth()) w = this->getWidth() - x; if (y+h >= this->getHeight()) h = this->getHeight() - y; for (int i = 0; i < h; i++) { if (i+y < 0) continue; if (i+y >= height) break; for (int j = 0; j < w; j++) { if (j+x < 0) continue; if (j+x >= width) break; bits[(i+y)*width + (j+x)] = inbits[int(i*ky)*inw + int(j*kx)]; } } } void MyBitmap::BlendBits(COLOR32 *inbits, int inw, int inh, int x, int y, int w, int h) { if (!(bits && inbits)) return; GdiFlush(); float kx = (float)inw / w; float ky = (float)inh / h; if (x+w >= this->getWidth()) w = this->getWidth() - x; if (y+h >= this->getHeight()) h = this->getHeight() - y; for (int i = 0; i < h; i++) { if (i+y < 0) continue; if (i+y >= height) break; for (int j = 0; j < w; j++) { if (j+x < 0) continue; if (j+x >= width) break; COLOR32 src = inbits[int(i*ky)*inw + int(j*kx)]; COLOR32 dst = bits[(i+y)*width + (j+x)]; long alpha = geta(src); bits[(i+y)*width + (j+x)] = rgba( getr(src)+PU_DIV255((255-alpha)*getr(dst)), getg(src)+PU_DIV255((255-alpha)*getg(dst)), getb(src)+PU_DIV255((255-alpha)*getb(dst)), geta(src)+PU_DIV255((255-alpha)*geta(dst)) ); } } } void MyBitmap::Blend(MyBitmap *bmp, int x, int y, int w, int h) { if (!(bits && bmp && bmp->bits)) return; GdiFlush(); if (!w) w = bmp->width; if (!h) h = bmp->height; float kx = (float)bmp->width / w; float ky = (float)bmp->height / h; if (x+w >= this->getWidth()) w = this->getWidth() - x; if (y+h >= this->getHeight()) h = this->getHeight() - y; for (int i = 0; i < h; i++) { if (i+y < 0) continue; if (i+y >= height) break; for (int j = 0; j < w; j++) { if (j+x < 0) continue; if (j+x >= width) break; COLOR32 src = bmp->bits[int(i*ky)*bmp->width + int(j*kx)]; COLOR32 dst = bits[(i+y)*width + (j+x)]; long alpha = geta(src); bits[(i+y)*width + (j+x)] = rgba( getr(src)+PU_DIV255((255-alpha)*getr(dst)), getg(src)+PU_DIV255((255-alpha)*getg(dst)), getb(src)+PU_DIV255((255-alpha)*getb(dst)), geta(src)+PU_DIV255((255-alpha)*geta(dst)) ); } } } void MyBitmap::Draw(MyBitmap *bmp, int x, int y, int w, int h) { if (!(bits && bmp && bmp->bits)) return; GdiFlush(); if (!w) w = bmp->width; if (!h) h = bmp->height; if (!x && !y && (w == width) && (h == height) && (w == bmp->width) && (h == bmp->height)) { // fast bitmap copy is possible good for animated avatars CopyMemory(bits, bmp->bits, width*height*sizeof(COLOR32)); return; } float kx = (float)bmp->width / w; float ky = (float)bmp->height / h; if (x+w >= this->getWidth()) w = this->getWidth() - x; if (y+h >= this->getHeight()) h = this->getHeight() - y; for (int i = 0; i < h; i++) { if (i+y < 0) continue; if (i+y >= height) break; for (int j = 0; j < w; j++) { if (j+x < 0) continue; if (j+x >= width) break; bits[(i+y)*width + (j+x)] = bmp->bits[int(i*ky)*bmp->width + int(j*kx)]; } } } void MyBitmap::BlendColorized(MyBitmap *bmp, int x, int y, int w, int h, COLOR32 color) { if (!(bits && bmp && bmp->bits)) return; GdiFlush(); if (!w) w = bmp->width; if (!h) h = bmp->height; float kx = (float)bmp->width / w; float ky = (float)bmp->height / h; // we should swap B and R channels when working with win32 COLORREF float koef1r = (255 - getb(color)) / 128.0f; float koef1g = (255 - getg(color)) / 128.0f; float koef1b = (255 - getr(color)) / 128.0f; int br = - 255 + 2 * getb(color); int bg = - 255 + 2 * getg(color); int bb = - 255 + 2 * getr(color); float koef2r = (getb(color)) / 128.0f; float koef2g = (getg(color)) / 128.0f; float koef2b = (getr(color)) / 128.0f; for (int i = 0; i < h; i++) { if (i+y < 0) continue; if (i+y >= height) break; for (int j = 0; j < w; j++) { if (j+x < 0) continue; if (j+x >= width) break; // COLOR32 cl = getr(bmp->bits[int(i*ky)*bmp->width + int(j*kx)]); // bits[(i+y)*width + (j+x)] = (cl > 128) ? // rgba(koef1r * cl + br, koef1g * cl + bg, koef1b * cl + bb, geta(bmp->bits[int(i*ky)*bmp->width + int(j*kx)])): // rgba(koef2r * cl, koef2g * cl, koef2b * cl, geta(bmp->bits[int(i*ky)*bmp->width + int(j*kx)])); long alpha = geta(bmp->bits[int(i*ky)*bmp->width + int(j*kx)]); // COLOR32 cl = getr(bmp->bits[int(i*ky)*bmp->width + int(j*kx)]); COLOR32 cl = alpha ? getr(bmp->bits[int(i*ky)*bmp->width + int(j*kx)])*255/alpha : 0; #pragma warning(push) #pragma warning(disable: 4244) COLOR32 src = (cl > 128) ? rgba( PU_DIV255((koef1r * cl + br)*alpha), PU_DIV255((koef1g * cl + bg)*alpha), PU_DIV255((koef1b * cl + bb)*alpha), alpha): rgba( PU_DIV255(koef2r * cl * alpha), PU_DIV255(koef2g * cl * alpha), PU_DIV255(koef2b * cl * alpha), alpha); #pragma warning(pop) // COLOR32 cl = getr(bmp->bits[int(i*ky)*bmp->width + int(j*kx)]); // COLOR32 src = (cl > 128) ? // rgba(koef1r * cl + br, koef1g * cl + bg, koef1b * cl + bb, alpha): // rgba(koef2r * cl, koef2g * cl, koef2b * cl, alpha); COLOR32 dst = bits[(i+y)*width + (j+x)]; // long alpha = geta(src); bits[(i+y)*width + (j+x)] = rgba( getr(src)+PU_DIV255((255-alpha)*getr(dst)), getg(src)+PU_DIV255((255-alpha)*getg(dst)), getb(src)+PU_DIV255((255-alpha)*getb(dst)), geta(src)+PU_DIV255((255-alpha)*geta(dst)) ); } } } void MyBitmap::DrawColorized(MyBitmap *bmp, int x, int y, int w, int h, COLOR32 color) { if (!(bits && bmp && bmp->bits)) return; GdiFlush(); if (!w) w = bmp->width; if (!h) h = bmp->height; float kx = (float)bmp->width / w; float ky = (float)bmp->height / h; // we should swap B and R channels when working with win32 COLORREF float koef1r = (255 - getb(color)) / 128.0f; float koef1g = (255 - getg(color)) / 128.0f; float koef1b = (255 - getr(color)) / 128.0f; int br = - 255 + 2 * getb(color); int bg = - 255 + 2 * getg(color); int bb = - 255 + 2 * getr(color); float koef2r = (getb(color)) / 128.0f; float koef2g = (getg(color)) / 128.0f; float koef2b = (getr(color)) / 128.0f; for (int i = 0; i < h; i++) { if (i+y < 0) continue; if (i+y >= height) break; for (int j = 0; j < w; j++) { if (j+x < 0) continue; if (j+x >= width) break; long alpha = geta(bmp->bits[int(i*ky)*bmp->width + int(j*kx)]); // COLOR32 cl = getr(bmp->bits[int(i*ky)*bmp->width + int(j*kx)]); COLOR32 cl = alpha ? getr(bmp->bits[int(i*ky)*bmp->width + int(j*kx)])*255/alpha : 0; #pragma warning(push) #pragma warning(disable: 4244) bits[(i+y)*width + (j+x)] = (cl > 128) ? rgba( PU_DIV255((koef1r * cl + br)*alpha), PU_DIV255((koef1g * cl + bg)*alpha), PU_DIV255((koef1b * cl + bb)*alpha), alpha): rgba( PU_DIV255(koef2r * cl * alpha), PU_DIV255(koef2g * cl * alpha), PU_DIV255(koef2b * cl * alpha), alpha); #pragma warning(pop) // bits[(i+y)*width + (j+x)] = (cl > 128) ? // rgba(koef1r * cl + br, koef1g * cl + bg, koef1b * cl + bb, geta(bmp->bits[int(i*ky)*bmp->width + int(j*kx)])): // rgba(koef2r * cl, koef2g * cl, koef2b * cl, geta(bmp->bits[int(i*ky)*bmp->width + int(j*kx)])); } } } void MyBitmap::BlendPart(MyBitmap *bmp, int xin, int yin, int win, int hin, int x, int y, int w, int h) { if (!(bits && bmp && bmp->bits)) return; if (!win || !hin) return; GdiFlush(); if (!w) w = win; if (!h) h = hin; float kx = (float)win / w; float ky = (float)hin / h; if (x+w >= this->getWidth()) w = this->getWidth() - x; if (y+h >= this->getHeight()) h = this->getHeight() - y; for (int i = 0; i < h; i++) { if (i+y < 0) continue; if (i+y >= height) break; for (int j = 0; j < w; j++) { if (j+x < 0) continue; if (j+x >= width) break; COLOR32 src = bmp->bits[int(yin+i*ky)*bmp->width + int(xin+j*kx)]; COLOR32 dst = bits[(i+y)*width + (j+x)]; long alpha = geta(src); bits[(i+y)*width + (j+x)] = rgba( getr(src)+PU_DIV255((255-alpha)*getr(dst)), getg(src)+PU_DIV255((255-alpha)*getg(dst)), getb(src)+PU_DIV255((255-alpha)*getb(dst)), geta(src)+PU_DIV255((255-alpha)*geta(dst)) ); // bits[(i+y)*width + (j+x)] = bmp->bits[int(yin+i*ky)*bmp->width + int(xin+j*kx)]; } } } void MyBitmap::BlendPartColorized(MyBitmap *bmp, int xin, int yin, int win, int hin, int x, int y, int w, int h, COLOR32 color) { if (!(bits && bmp && bmp->bits)) return; if (!win || !hin) return; GdiFlush(); if (!w) w = win; if (!h) h = hin; float kx = (float)win / w; float ky = (float)hin / h; if (x+w >= this->getWidth()) w = this->getWidth() - x; if (y+h >= this->getHeight()) h = this->getHeight() - y; // we should swap B and R channels when working with win32 COLORREF float koef1r = (255 - getb(color)) / 128.0f; float koef1g = (255 - getg(color)) / 128.0f; float koef1b = (255 - getr(color)) / 128.0f; int br = - 255 + 2 * getb(color); int bg = - 255 + 2 * getg(color); int bb = - 255 + 2 * getr(color); float koef2r = (getb(color)) / 128.0f; float koef2g = (getg(color)) / 128.0f; float koef2b = (getr(color)) / 128.0f; for (int i = 0; i < h; i++) { if (i+y < 0) continue; if (i+y >= height) break; for (int j = 0; j < w; j++) { if (j+x < 0) continue; if (j+x >= width) break; long alpha = geta(bmp->bits[int(yin+i*ky)*bmp->width + int(xin+j*kx)]); // COLOR32 cl = getr(bmp->bits[int(i*ky)*bmp->width + int(j*kx)]); COLOR32 cl = alpha ? getr(bmp->bits[int(yin+i*ky)*bmp->width + int(xin+j*kx)])*255/alpha : 0; #pragma warning(push) #pragma warning(disable: 4244) COLOR32 src = (cl > 128) ? rgba( PU_DIV255((koef1r * cl + br)*alpha), PU_DIV255((koef1g * cl + bg)*alpha), PU_DIV255((koef1b * cl + bb)*alpha), alpha): rgba( PU_DIV255(koef2r * cl * alpha), PU_DIV255(koef2g * cl * alpha), PU_DIV255(koef2b * cl * alpha), alpha); #pragma warning(pop) // COLOR32 cl = getr(bmp->bits[int(i*ky)*bmp->width + int(j*kx)]); // COLOR32 src = (cl > 128) ? // rgba(koef1r * cl + br, koef1g * cl + bg, koef1b * cl + bb, alpha): // rgba(koef2r * cl, koef2g * cl, koef2b * cl, alpha); COLOR32 dst = bits[(i+y)*width + (j+x)]; // long alpha = geta(src); bits[(i+y)*width + (j+x)] = rgba( getr(src)+PU_DIV255((255-alpha)*getr(dst)), getg(src)+PU_DIV255((255-alpha)*getg(dst)), getb(src)+PU_DIV255((255-alpha)*getb(dst)), geta(src)+PU_DIV255((255-alpha)*geta(dst)) ); /* COLOR32 src = bmp->bits[int(yin+i*ky)*bmp->width + int(xin+j*kx)]; COLOR32 dst = bits[(i+y)*width + (j+x)]; long alpha = geta(src); bits[(i+y)*width + (j+x)] = rgba( getr(src)+(255-alpha)*getr(dst)/255, getg(src)+(255-alpha)*getg(dst)/255, getb(src)+(255-alpha)*getb(dst)/255, geta(src)+(255-alpha)*geta(dst)/255 );*/ // bits[(i+y)*width + (j+x)] = bmp->bits[int(yin+i*ky)*bmp->width + int(xin+j*kx)]; } } } void MyBitmap::DrawPart(MyBitmap *bmp, int xin, int yin, int win, int hin, int x, int y, int w, int h) { if (!(bits && bmp && bmp->bits)) return; if (!win || !hin) return; GdiFlush(); if (!w) w = win; if (!h) h = hin; float kx = (float)win / w; float ky = (float)hin / h; if (x+w >= this->getWidth()) w = this->getWidth() - x; if (y+h >= this->getHeight()) h = this->getHeight() - y; for (int i = 0; i < h; i++) { if (i+y < 0) continue; if (i+y >= height) break; for (int j = 0; j < w; j++) { if (j+x < 0) continue; if (j+x >= width) break; bits[(i+y)*width + (j+x)] = bmp->bits[int(yin+i*ky)*bmp->width + int(xin+j*kx)]; } } } void MyBitmap::DrawNoAlpha(MyBitmap *bmp, int x, int y, int w, int h) { if (!(bits && bmp && bmp->bits)) return; GdiFlush(); for (int i = 0; i < bmp->height; i++) { if (i+y < 0) continue; if (i+y >= height) break; for (int j = 0; j < bmp->width; j++) { if (j+x < 0) continue; if (j+x >= width) break; bits[(i+y)*width + (j+x)] = bmp->bits[i*bmp->width + j]; } } } static __forceinline int ReadP(long *p, int w, int h, int x, int y, int k) { if (x<0) x = 0; else if (x>=w) x = w-1; if (y<0) y = 0; else if (y>=h) y = h-1; return p[(x+y*w)*4+k]; } void MyBitmap::Blur(int w, int h) { if ((w <= 0) || (h <= 0)) return; BYTE *buf_src = new BYTE[width*height*4]; long *buf_tmp = new long[width*height*4]; BYTE *buf_dst = (BYTE *)bits; memcpy(buf_src, buf_dst, width*height*4); BYTE *src, *dst; long *tmp; src = buf_src; tmp = buf_tmp; dst = buf_dst; int y; for (y = 0; y < height; ++y) { for (int x = 0; x < width; ++x) { for (int k = 0; k < 4; ++k) { int tot = src[0]; if (x > 0) tot += tmp[-4]; if (y > 0) tot += tmp[-width*4]; if (x > 0 && y > 0) tot -= tmp[-(width+1)*4]; *tmp = tot; ++src; ++tmp; } } } src = buf_src; tmp = buf_tmp; dst = buf_dst; float mul = 1.f/((w*2+1)*(h*2+1)); for (y = 0;yBlendBits((COLOR32 *)cbit, bmpColor.bmWidth, bmpColor.bmHeight, x, y, w, h); delete [] mbit; delete [] cbit; } else { this->saveAlpha(x,y,w,h); DrawIconEx(this->getDC(), x, y, hic, w, h, 0, NULL, DI_NORMAL); this->restoreAlpha(x,y,w,h); } DeleteObject(info.hbmColor); DeleteObject(info.hbmMask); } //Base on code by Artem Shpynov //from clist_modern plugin //slightly modified and integrated to MyBitmap class void MyBitmap::DrawText(TCHAR *str, int x, int y, int blur, int strength) { SIZE sz; GetTextExtentPoint32(this->getDC(), str, lstrlen(str), &sz); sz.cx += (blur+2)*2; sz.cy += (blur+2)*2; x -= blur+2; y -= blur+2; static BYTE pbGammaWeight[256] = {0}; static BOOL bGammaWeightFilled = FALSE; if (!bGammaWeightFilled) { int i; for(i = 0;i<256;i++) { double f; double gamma = (double)700/1000; f = (double)i/255; f = pow(f,(1/gamma)); pbGammaWeight[i] = (BYTE)(255*f); } bGammaWeightFilled = 1; } MyBitmap tmp(sz.cx, sz.cy); HFONT hfnTmp = (HFONT)SelectObject(tmp.getDC(), GetCurrentObject(this->getDC(), OBJ_FONT)); RECT rc; SetRect(&rc, 0, 0, sz.cx, sz.cy); SetTextColor(tmp.getDC(), RGB(255,255,255)); SetBkColor(tmp.getDC(), RGB(0,0,0)); ExtTextOutA(tmp.getDC(), 0, 0, ETO_OPAQUE, &rc, "", 0, NULL); ::DrawText(tmp.getDC(), str, lstrlen(str), &rc, DT_CENTER|DT_NOPREFIX|DT_SINGLELINE|DT_VCENTER); SelectObject(tmp.getDC(), hfnTmp); GdiFlush(); if (blur) { for (int i = 0; i < sz.cy; i++) { COLOR32 *row_src = tmp.bits + i * tmp.width; for (int j = 0; j < sz.cx; j++) { COLOR32 cl = row_src[j]; if (!cl) continue; int a1 = (getr(cl) + getg(cl) + getb(cl)) / 3; row_src[j] = rgba(a1, a1, a1, a1); } } tmp.Blur(blur, blur); tmp.IncreaseAlpha((float)(strength ? strength : blur)); } // use Get*Value for COLORREF and get* for COLOR32 COLOR32 textColor = GetTextColor(this->getDC()); COLOR32 r = GetRValue(textColor); COLOR32 g = GetGValue(textColor); COLOR32 b = GetBValue(textColor); int minx = max(0,-x); int miny = max(0,-y); int maxx = min(sz.cx, width-x); int maxy = min(sz.cy, height-y); for (int i = miny; i < maxy; i++) { COLOR32 *row_dst = bits + (i+y) * width + x; COLOR32 *row_src = tmp.bits + i * tmp.width; for (int j = minx; j < maxx; j++) { COLOR32 bx,rx,gx,mx; { bx = pbGammaWeight[getb(row_src[j])]; gx = pbGammaWeight[getg(row_src[j])]; rx = pbGammaWeight[getr(row_src[j])]; } bx = (pbGammaWeight[bx]*(255-b)+bx*(b))/255; gx = (pbGammaWeight[gx]*(255-g)+gx*(g))/255; rx = (pbGammaWeight[rx]*(255-r)+rx*(r))/255; mx = (BYTE)(max(max(bx,rx),gx)); if (1) { bx = (bx>3):bx; rx = (rx>3):rx; gx = (gx>3):gx; // reduce boldeness at white fonts } COLOR32 cl = row_dst[j]; if (mx) { COLOR32 rrx,grx,brx; COLOR32 rlx,glx,blx; COLOR32 axx = geta(cl); COLOR32 mmx = (bx+gx+rx)/3; COLOR32 nx = mmx;;//pbGammaWeight[mx];// { //Normalize components to alpha level bx = (nx*(255-axx)+bx*axx)/255; gx = (nx*(255-axx)+gx*axx)/255; rx = (nx*(255-axx)+rx*axx)/255; mx = (nx*(255-axx)+mmx*axx)/255; } { blx = getb(cl); glx = getg(cl); rlx = getr(cl); brx = (b-blx)*bx/255; grx = (g-glx)*gx/255; rrx = (r-rlx)*rx/255; row_dst[j] = rgba(rlx+rrx, glx+grx, blx+brx, mx+(255-mx)*axx/255); } } } } } // based on code by Yuriy Zaporozhets from: // http://www.codeproject.com/gdi/coolrgn.asp?df = 100&forumid = 739&exp = 0&select = 6341 // slightly modified to integrate with MyBitmap class. HRGN MyBitmap::buildOpaqueRgn(int level, bool opaque) { GdiFlush(); const int addRectsCount = 64; int rectsCount = addRectsCount; PRGNDATA pRgnData = (PRGNDATA)(new BYTE[sizeof(RGNDATAHEADER) + (rectsCount)*sizeof(RECT)]); LPRECT pRects = (LPRECT)(&pRgnData->Buffer); memset(pRgnData, 0, sizeof(RGNDATAHEADER) + (rectsCount)*sizeof(RECT)); pRgnData->rdh.dwSize = sizeof(RGNDATAHEADER); pRgnData->rdh.iType = RDH_RECTANGLES; int first = 0; bool wasfirst = false; bool ismask = false; for (int i = 0; i < height; i++) { int j; // we will need j after the loop! for (j = 0; j < width; j++) { ismask = opaque ? (int)geta(this->getRow(i)[j]) > level : (int)geta(this->getRow(i)[j]) < level; if (wasfirst) { if (!ismask) { SetRect(&pRects[pRgnData->rdh.nCount++], first, i, j, i+1); if ((int)(pRgnData->rdh.nCount) >= rectsCount) { rectsCount += addRectsCount; LPRGNDATA pRgnDataNew = (LPRGNDATA)(new BYTE[sizeof(RGNDATAHEADER) + (rectsCount)*sizeof(RECT)]); memcpy(pRgnDataNew, pRgnData, sizeof(RGNDATAHEADER) + pRgnData->rdh.nCount * sizeof(RECT)); delete pRgnData; pRgnData = pRgnDataNew; pRects = (LPRECT)(&pRgnData->Buffer); } wasfirst = false; } } else if (ismask) // set wasfirst when mask is found { first = j; wasfirst = true; } } if (wasfirst && ismask) { SetRect(&pRects[pRgnData->rdh.nCount++], first, i, j, i+1); if ((int)(pRgnData->rdh.nCount) >= rectsCount) { rectsCount += addRectsCount; LPRGNDATA pRgnDataNew = (LPRGNDATA)(new BYTE[sizeof(RGNDATAHEADER) + (rectsCount)*sizeof(RECT)]); memcpy(pRgnDataNew, pRgnData, sizeof(RGNDATAHEADER) + pRgnData->rdh.nCount * sizeof(RECT)); delete pRgnData; pRgnData = pRgnDataNew; pRects = (LPRECT)(&pRgnData->Buffer); } wasfirst = false; } } HRGN hRgn = ExtCreateRegion(NULL, sizeof(RGNDATAHEADER) + pRgnData->rdh.nCount*sizeof(RECT), (LPRGNDATA)pRgnData); delete pRgnData; return hRgn; } static int hex2dec(char hex) { if ((hex >= '0') && (hex <= '9')) return hex - '0'; if ((hex >= 'a') && (hex <= 'f')) return hex - 'a' + 0xa; if ((hex >= 'A') && (hex <= 'F')) return hex - 'A' + 0xa; return 0; } bool MyBitmap::loadFromFile_pixel(const char *fn, const char *fnAlpha) { allocate(1,1); int r, g, b, a = 255; const char *p = fn + lstrlenA("pixel:"); r = (hex2dec(p[0]) << 4) + hex2dec(p[1]); g = (hex2dec(p[2]) << 4) + hex2dec(p[3]); b = (hex2dec(p[4]) << 4) + hex2dec(p[5]); *bits = rgba(r,g,b,a); return true; } bool MyBitmap::loadFromFile_gradient(const char *fn, const char *fnAlpha) { const char *p = fn + lstrlenA("gradient:"); if (*p == 'h') allocate(256,1); else allocate(1,256); int r, g, b, a = 255; p += 2; r = (hex2dec(p[0]) << 4) + hex2dec(p[1]); g = (hex2dec(p[2]) << 4) + hex2dec(p[3]); b = (hex2dec(p[4]) << 4) + hex2dec(p[5]); COLOR32 from = rgba(r,g,b,a); p += 7; r = (hex2dec(p[0]) << 4) + hex2dec(p[1]); g = (hex2dec(p[2]) << 4) + hex2dec(p[3]); b = (hex2dec(p[4]) << 4) + hex2dec(p[5]); COLOR32 to = rgba(r,g,b,a); for (int i = 0; i < 256; ++i) { bits[i] = rgba( ((255-i) * getr(from) + i * getr(to)) / 255, ((255-i) * getg(from) + i * getg(to)) / 255, ((255-i) * getb(from) + i * getb(to)) / 255, 255 ); } return true; } bool MyBitmap::loadFromFile_png(const char *fn, const char *fnAlpha) { if (ServiceExists(MS_PNG2DIB)) { HANDLE hFile, hMap = 0; BYTE *ppMap = 0; long cbFileSize = 0; BITMAPINFOHEADER *pDib; BYTE *pDibBits; if ((hFile = CreateFileA(fn, GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_EXISTING, 0, NULL)) != INVALID_HANDLE_VALUE) if ((hMap = CreateFileMapping(hFile, NULL, PAGE_READONLY, 0, 0, NULL)) != NULL) if ((ppMap = (BYTE*)MapViewOfFile( hMap, FILE_MAP_READ, 0, 0, 0 )) != NULL) cbFileSize = GetFileSize(hFile, NULL); if (cbFileSize) { PNG2DIB param; param.pSource = ppMap; param.cbSourceSize = cbFileSize; param.pResult = &pDib; if (CallService(MS_PNG2DIB, 0, (LPARAM)¶m)) pDibBits = (BYTE*)(pDib+1); else cbFileSize = 0; } if (ppMap) UnmapViewOfFile(ppMap); if (hMap) CloseHandle(hMap); if (hFile) CloseHandle(hFile); if (!cbFileSize) return false; BITMAPINFO *bi = (BITMAPINFO*)pDib; BYTE *pt = (BYTE*)bi; pt+=bi->bmiHeader.biSize; if (bi->bmiHeader.biBitCount != 32) { allocate(abs(bi->bmiHeader.biWidth), abs(bi->bmiHeader.biHeight)); HDC hdcTmp = CreateCompatibleDC(getDC()); HBITMAP hBitmap = CreateDIBitmap(getDC(), pDib, CBM_INIT, pDibBits, bi, DIB_PAL_COLORS); SelectObject(hdcTmp, hBitmap); BitBlt(this->getDC(), 0, 0, abs(bi->bmiHeader.biWidth), abs(bi->bmiHeader.biHeight), hdcTmp, 0, 0, SRCCOPY); this->makeOpaque(); DeleteDC(hdcTmp); DeleteObject(hBitmap); } else { allocate(abs(bi->bmiHeader.biWidth), abs(bi->bmiHeader.biHeight)); BYTE *p2 = (BYTE *)pt; for (int y = 0; ybmiHeader.biHeight; ++y) { BYTE *p1 = (BYTE *)bits + (bi->bmiHeader.biHeight-y-1)*bi->bmiHeader.biWidth*4; for (int x = 0; xbmiHeader.biWidth; ++x) { p1[0] = p2[0]; p1[1] = p2[1]; p1[2] = p2[2]; p1[3] = p2[3]; p1 += 4; p2 += 4; } } // memcpy(bits, pt, bi->bmiHeader.biSizeImage); premultipleChannels(); } GlobalFree(pDib); return true; } else { // MessageBox(NULL, Translate("You need the png2dib plugin v. 0.1.3.x or later to process PNG images"), Translate("Error"), MB_OK); return false; } } bool MyBitmap::loadFromFile_default(const char *fn, const char *fnAlpha) { SIZE sz; HBITMAP hBmpLoaded = (HBITMAP)LoadImageA(NULL, fn, IMAGE_BITMAP, 0, 0, LR_LOADFROMFILE); if (!hBmpLoaded) return false; BITMAP bm; GetObject(hBmpLoaded, sizeof(bm), &bm); SetBitmapDimensionEx(hBmpLoaded, bm.bmWidth, bm.bmHeight, NULL); HDC dcTmp = CreateCompatibleDC(0); GetBitmapDimensionEx(hBmpLoaded, &sz); HBITMAP hBmpDcSave = (HBITMAP)SelectObject(dcTmp, hBmpLoaded); allocate(sz.cx, sz.cy); BitBlt(dcBmp, 0, 0, width, height, dcTmp, 0, 0, SRCCOPY); DeleteObject(SelectObject(dcTmp, hBmpDcSave)); DeleteDC(dcTmp); MyBitmap alpha; if (fnAlpha && alpha.loadFromFile(fnAlpha) && (alpha.getWidth() == width) && (alpha.getHeight() == height) ) { for (int i = 0; i < width*height; i++) bits[i] = (bits[i] & 0x00ffffff) | ( (alpha.bits[i] & 0x000000ff) << 24 ); premultipleChannels(); } else { makeOpaque(); } return true; } bool MyBitmap::loadFromFile(const char *fn, const char *fnAlpha) { if (bits) free(); if (!strncmp(fn, "pixel:", lstrlenA("pixel:"))) { return loadFromFile_pixel(fn, fnAlpha); } else if (!strncmp(fn, "gradient:", lstrlenA("gradient:"))) { return loadFromFile_gradient(fn, fnAlpha); } else { char ext[5]; memcpy(ext,fn+(strlen(fn)-4),5); if (!lstrcmpiA(ext,".png")) { return loadFromFile_png(fn, fnAlpha); } else { return loadFromFile_default(fn, fnAlpha); } } // unreachable place return false; } void MyBitmap::allocate(int w, int h) { if (dcBmp && (width == w) && (height == h)) return; width = w; height = h; BITMAPINFO bi; bi.bmiHeader.biSize = sizeof(bi.bmiHeader); bi.bmiHeader.biWidth = w; bi.bmiHeader.biHeight = -h; bi.bmiHeader.biPlanes = 1; bi.bmiHeader.biBitCount = 32; bi.bmiHeader.biCompression = BI_RGB; if (dcBmp) { DeleteObject(SelectObject(dcBmp, hBmpSave)); DeleteDC(dcBmp); } hBmp = (HBITMAP)CreateDIBSection(0, &bi, DIB_RGB_COLORS, (void **)&bits, 0, 0); dcBmp = CreateCompatibleDC(0); hBmpSave = (HBITMAP)SelectObject(dcBmp, hBmp); GdiFlush(); } void MyBitmap::free() { GdiFlush(); DeleteObject(SelectObject(dcBmp, hBmpSave)); DeleteDC(dcBmp); dcBmp = 0; hBmp = 0; bits = 0; width = height = 0; } void MyBitmap::premultipleChannels() { GdiFlush(); for (int i = 0; i < width*height; i++) bits[i] = rgba(getr(bits[i])*geta(bits[i])/255, getg(bits[i])*geta(bits[i])/255, getb(bits[i])*geta(bits[i])/255, geta(bits[i])); }