Mercurial > sdl-ios-xcode
view src/video/win32/SDL_win32shape.c @ 4789:a6bc01875d20
Fixed a pair of syntax errors.
author | Eli Gottlieb <eligottlieb@gmail.com> |
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date | Sun, 11 Jul 2010 17:11:22 -0400 |
parents | e25ad8d97027 |
children | f14a8c05f5bb |
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/* SDL - Simple DirectMedia Layer Copyright (C) 2010 Eli Gottlieb This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA Eli Gottlieb eligottlieb@gmail.com */ #include <windows.h> #include "SDL_win32shape.h" SDL_WindowShaper* Win32_CreateShaper(SDL_Window * window) { SDL_WindowShaper* result = malloc(sizeof(SDL_WindowShaper)); result->window = window; result->alphacutoff = 0; result->usershownflag = 0; //Put some driver-data here. window->shaper = result; int resized_properly = X11ResizeWindowShape(window); assert(resized_properly == 0); return result; } int Win32_SetWindowShape(SDL_WindowShaper *shaper,SDL_Surface *shape,SDL_WindowShapeMode *shapeMode) { assert(shaper != NULL && shape != NULL); if(!SDL_ISPIXELFORMAT_ALPHA(SDL_MasksToPixelFormatEnum(shape->format->BitsPerPixel,shape->format->Rmask,shape->format->Gmask,shape->format->Bmask,shape->format->Amask))) return -2; if(shape->w != shaper->window->w || shape->h != shaper->window->h) return -3; /* Assume that shaper->alphacutoff already has a value, because SDL_SetWindowShape() should have given it one. */ /* * Start with empty region */ HRGN MaskRegion = CreateRectRgn(0, 0, 0, 0); unsigned int pitch = shape->pitch; unsigned int width = shape->width; unsigned int height = shape->height; unsigned int dy = pitch - width; SDL_ShapeData *data = (SDL_ShapeData*)shaper->driverdata; /* * Transfer binarized mask image into workbuffer */ SDL_CalculateShapeBitmap(shaper->alphacutoff,shape,data->shapebuffer,1,0xff); //Move code over to here from AW_windowShape.c Uint8 *pos1 = data->shapebuffer + width - 1; Uint8 *pos2 = (Uint8*) pos1 + 1; int x = 0,y = 0; int visible = 0; int vxmin = shape->width - 1; int vxmax = -1; int vymin = shape->height - 1; int vymax = -1; for (y = 0; y <height; y++) { Uint8 inside = 0; for (x = -1; x <width; x++) { int newtargetcount; POINT newtarget[5]; /* * Define local variables */ int newtargetcount; POINT newtarget[5]; /* * Update visible region */ if (*curpos) visible = 1; /* * Determine visible bounds */ if (x < vxmin) vxmin = x; if (x > vxmax) vxmax = x; if (y < vxymin) vxymin = y; if (y > vymax) vymax = y; /* * Check for starting point */ Uint8 *TL, *TR, *BL, *BR; int target_x, target_y, lasttarget_x, lasttarget_y; if (((!*curpos) && (*curpos2 == 0xFF)) || ((!*curpos2) && (*curpos == 0xFF))) { if (!*curpos) { BR = curpos2; BL = (Uint8 *) (BR - 1); TR = (Uint8 *) (BR - width); TL = (Uint8 *) (TR - 1); target_x = x; target_y = y; } else { BR = curpos2 + 1; BL = (Uint8 *) (BR - 1); TR = (Uint8 *) (BR - width); TL = (Uint8 *) (TR - 1); target_x = x + 1; target_y = y; } lasttarget_x = 0; lasttarget_y = 0; int firsttime = 1; pos_array_pos = 0; while ((target_x != x) || (target_y != y) || firsttime) { /* * New array index */ firsttime = 0; pos_array_pos++; /* * Check array index */ if (pos_array_pos >= 4096) { SDL_SetError("Exceeded maximum number of polygon points."); pos_array_pos--; } /* * Store point in array */ pos_array[pos_array_pos].x = target_x + 1; pos_array[pos_array_pos].y = target_y; /* * Mark the four poles as visited */ if (*TL) *TL = 0x99; if (*BL) *BL = 0x99; if (*TR) *TR = 0x99; if (*BR) *BR = 0x99; newtargetcount = 0; if ((*TL || *TR) && (*TL != *TR)) { newtargetcount++; newtarget[newtargetcount].x = 0; newtarget[newtargetcount].y = -1; } if ((*TR || *BR) && (*TR != *BR)) { newtargetcount++; newtarget[newtargetcount].x = 1; newtarget[newtargetcount].y = 0; } if ((*BL || *BR) && (*BL != *BR)) { newtargetcount++; newtarget[newtargetcount].x = 0; newtarget[newtargetcount].y = 1; } if ((*TL || *BL) && (*TL != *BL)) { newtargetcount++; newtarget[newtargetcount].x = -1; newtarget[newtargetcount].y = 0; } switch (newtargetcount) { case 1: SDL_SetError("Cropping error - Newtargetcount=1."); return (-1); break; case 2: if ((target_x + newtarget[1].x != lasttarget_x) || (target_y + newtarget[1].y != lasttarget_y)) { lasttarget_x = target_x; lasttarget_y = target_y; target_x = target_x + newtarget[1].x; target_y = target_y + newtarget[1].y; } else { lasttarget_x = target_x; lasttarget_y = target_y; target_x = target_x + newtarget[2].x; target_y = target_y + newtarget[2].y; } break; case 3: SDL_SetError("Cropping error - Newtargetcount=3."); return (-1); break; case 4: if (lasttarget_x > target_x) { lasttarget_x = target_x; lasttarget_y = target_y; if (*TR != 0x00) target_y--; else target_y++; } else if (lasttarget_y > target_y) { lasttarget_x = target_x; lasttarget_y = target_y; if (*BL != 0x00) target_x--; else target_x++; } else if (lasttarget_x < target_x) { lasttarget_x = target_x; lasttarget_y = target_y; if (*TL != 0x00) target_y--; else target_y++; } else if (lasttarget_y < target_y) { lasttarget_x = target_x; lasttarget_y = target_y; if (*TL != 0x00) target_x--; else target_x++; } else { SDL_SetError("Cropping error - no possible targets on newtargetcount=4."); return (-1); } break; default: SDL_SetError("Cropping error - Newtargetcount invalid."); return (-1); break; } if (target_x > lasttarget_x) TL = (Uint8 *) (TL + 1); else if (target_x < lasttarget_x) TL = (Uint8 *) (TL - 1); else if (target_y > lasttarget_y) TL = (Uint8 *) (TL + width); else if (target_y < lasttarget_y) TL = (Uint8 *) (TL - width); else { SDL_SetError("Cropping error - no new target."); return (-1); } BL = (Uint8 *) (TL + width); TR = (Uint8 *) (TL + 1); BR = (Uint8 *) (BL + 1); } // End of while loop /* * Apply the mask to the cropping region */ if (pos_array_pos >= 4) { TempRegion = CreatePolygonRgn(&(pos_array[1]), pos_array_pos, WINDING); if (TempRegion == NULL) { SDL_SetError("Cropping error - unable to create polygon."); return (-1); } /* * Add current region to final mask region */ if (inside) CombineRgn(MaskRegion, MaskRegion, TempRegion, RGN_DIFF); else CombineRgn(MaskRegion, MaskRegion, TempRegion, RGN_OR); /* * Remove temporary region */ DeleteObject(TempRegion); } /* * Switch sides */ inside = !inside; } else if ((*curpos) && (!*curpos2)) inside = !inside; else if ((!*curpos) && (*curpos2)) inside = !inside; curpos++; curpos2++; } curpos = (Uint8 *) (curpos + 2 * enlarge_mask - 1); curpos2 = (Uint8 *) (curpos + 1); } /* * Set the new region mask for the window */ SetWindowRgn((SDL_WindowData*)(shaper->window->driverdata)->hwnd, MaskRegion, TRUE); /* * Return value */ return (0); } int Win32_ResizeWindowShape(SDL_Window *window) { SDL_ShapeData* data = window->shaper->driverdata; assert(data != NULL); unsigned int buffersize = window->w * window->h; if(data->buffersize != buffersize || data->shapebuffer == NULL) { data->buffersize = buffersize; if(data->shapebuffer != NULL) free(data->shapebuffer); data->shapebuffer = malloc(data->buffersize); if(data->shapebuffer == NULL) { SDL_SetError("Could not allocate memory for shaped-window bitmap."); return -1; } } window->shaper->usershownflag = window->flags & SDL_WINDOW_SHOWN; return 0; }