495 lines
14 KiB
C
495 lines
14 KiB
C
/*
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* Copyright (C) 2007 Google (Evan Stade)
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
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*/
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#include <stdarg.h>
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#include <math.h>
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#include "windef.h"
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#include "winbase.h"
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#include "winerror.h"
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#include "wine/debug.h"
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#include "wingdi.h"
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#include "objbase.h"
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#include "winreg.h"
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#include "shlwapi.h"
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#include "gdiplus.h"
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#include "gdiplus_private.h"
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WINE_DEFAULT_DEBUG_CHANNEL(gdiplus);
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static const REAL mm_per_inch = 25.4;
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static const REAL point_per_inch = 72.0;
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static Status WINAPI NotificationHook(ULONG_PTR *token)
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{
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TRACE("%p\n", token);
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if(!token)
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return InvalidParameter;
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return Ok;
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}
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static void WINAPI NotificationUnhook(ULONG_PTR token)
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{
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TRACE("%Id\n", token);
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}
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/*****************************************************
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* DllMain
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*/
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BOOL WINAPI DllMain(HINSTANCE hinst, DWORD reason, LPVOID reserved)
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{
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TRACE("(%p, %ld, %p)\n", hinst, reason, reserved);
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switch(reason)
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{
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case DLL_PROCESS_ATTACH:
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DisableThreadLibraryCalls( hinst );
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init_generic_string_formats();
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break;
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case DLL_PROCESS_DETACH:
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if (reserved) break;
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free_installed_fonts();
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free_generic_string_formats();
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break;
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}
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return TRUE;
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}
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/*****************************************************
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* GdiplusStartup [GDIPLUS.@]
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*/
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Status WINAPI GdiplusStartup(ULONG_PTR *token, const struct GdiplusStartupInput *input,
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struct GdiplusStartupOutput *output)
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{
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if(!token || !input)
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return InvalidParameter;
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TRACE("%p %p %p\n", token, input, output);
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TRACE("GdiplusStartupInput %d %p %d %d\n", input->GdiplusVersion,
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input->DebugEventCallback, input->SuppressBackgroundThread,
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input->SuppressExternalCodecs);
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if(input->GdiplusVersion < 1 || input->GdiplusVersion > 2)
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return UnsupportedGdiplusVersion;
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if(input->SuppressBackgroundThread){
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if(!output)
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return InvalidParameter;
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output->NotificationHook = NotificationHook;
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output->NotificationUnhook = NotificationUnhook;
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}
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*token = 0xdeadbeef;
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/* FIXME: DebugEventCallback ignored */
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return Ok;
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}
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GpStatus WINAPI GdiplusNotificationHook(ULONG_PTR *token)
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{
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FIXME("%p\n", token);
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return NotificationHook(token);
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}
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void WINAPI GdiplusNotificationUnhook(ULONG_PTR token)
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{
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FIXME("%Id\n", token);
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NotificationUnhook(token);
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}
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/*****************************************************
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* GdiplusShutdown [GDIPLUS.@]
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*/
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ULONG WINAPI GdiplusShutdown_wrapper(ULONG_PTR token)
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{
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/* Notice the slightly different prototype from the official
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* signature which forces us to use the _wrapper suffix.
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*/
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/* FIXME: no object tracking */
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/* "bricksntiles" expects a return value of 0, which native
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* coincidentally gives.
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*/
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return 0;
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}
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/*****************************************************
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* GdipAlloc [GDIPLUS.@]
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*/
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void* WINGDIPAPI GdipAlloc(SIZE_T size)
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{
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return HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, size);
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}
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/*****************************************************
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* GdipFree [GDIPLUS.@]
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*/
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void WINGDIPAPI GdipFree(void* ptr)
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{
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HeapFree(GetProcessHeap(), 0, ptr);
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}
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/* Calculates the bezier points needed to fill in the arc portion starting at
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* angle start and ending at end. These two angles should be no more than 90
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* degrees from each other. x1, y1, x2, y2 describes the bounding box (upper
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* left and width and height). Angles must be in radians. write_first indicates
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* that the first bezier point should be written out (usually this is false).
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* pt is the array of GpPointFs that gets written to.
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**/
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static void add_arc_part(GpPointF * pt, REAL x1, REAL y1, REAL x2, REAL y2,
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REAL start, REAL end, BOOL write_first)
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{
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REAL center_x, center_y, rad_x, rad_y, cos_start, cos_end,
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sin_start, sin_end, a, half;
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INT i;
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rad_x = x2 / 2.0;
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rad_y = y2 / 2.0;
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center_x = x1 + rad_x;
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center_y = y1 + rad_y;
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cos_start = cos(start);
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cos_end = cos(end);
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sin_start = sin(start);
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sin_end = sin(end);
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half = (end - start) / 2.0;
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a = 4.0 / 3.0 * (1 - cos(half)) / sin(half);
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if(write_first){
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pt[0].X = cos_start;
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pt[0].Y = sin_start;
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}
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pt[1].X = cos_start - a * sin_start;
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pt[1].Y = sin_start + a * cos_start;
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pt[3].X = cos_end;
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pt[3].Y = sin_end;
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pt[2].X = cos_end + a * sin_end;
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pt[2].Y = sin_end - a * cos_end;
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/* expand the points back from the unit circle to the ellipse */
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for(i = (write_first ? 0 : 1); i < 4; i ++){
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pt[i].X = pt[i].X * rad_x + center_x;
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pt[i].Y = pt[i].Y * rad_y + center_y;
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}
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}
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/* We plot the curve as if it is on a circle then stretch the points. This
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* adjusts the angles so that when we stretch the points they will end in the
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* right place. This is only complicated because atan and atan2 do not behave
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* conveniently. */
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static REAL unstretch_angle(REAL angle, REAL dia_x, REAL dia_y)
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{
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REAL stretched;
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INT revs_off;
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if(fabs(cos(angle)) < 0.00001 || fabs(sin(angle)) < 0.00001)
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return angle;
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stretched = gdiplus_atan2(sin(angle) / fabs(dia_y), cos(angle) / fabs(dia_x));
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revs_off = gdip_round(angle / (2.0 * M_PI)) - gdip_round(stretched / (2.0 * M_PI));
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stretched += ((REAL)revs_off) * M_PI * 2.0;
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return stretched;
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}
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/* Stores the bezier points that correspond to the arc in points. If points is
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* null, just return the number of points needed to represent the arc. */
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INT arc2polybezier(GpPointF * points, REAL left, REAL top, REAL width, REAL height,
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REAL start_angle, REAL sweep_angle)
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{
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INT i;
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REAL partial_end_angle, end_angle;
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end_angle = deg2rad(start_angle + sweep_angle);
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start_angle = deg2rad(start_angle);
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if (width != height)
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{
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start_angle = unstretch_angle(start_angle, width, height);
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end_angle = unstretch_angle(end_angle, width, height);
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}
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for(i = 0; i < MAX_ARC_PTS - 1; i += 3){
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/* check if we've overshot the end angle */
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if( sweep_angle > 0.0 )
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{
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if (start_angle >= end_angle) break;
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partial_end_angle = min(start_angle + M_PI_2, end_angle);
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}
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else
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{
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if (start_angle <= end_angle) break;
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partial_end_angle = max(start_angle - M_PI_2, end_angle);
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}
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if (points)
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add_arc_part(&points[i], left, top, width, height, start_angle, partial_end_angle, i == 0);
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start_angle = partial_end_angle;
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}
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if (i == 0) return 0;
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else return i+1;
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}
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COLORREF ARGB2COLORREF(ARGB color)
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{
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/*
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Packing of these color structures:
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COLORREF: 00bbggrr
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ARGB: aarrggbb
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FIXME:doesn't handle alpha channel
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*/
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return ((color & 0x0000ff) << 16) +
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(color & 0x00ff00) +
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((color & 0xff0000) >> 16);
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}
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HBITMAP ARGB2BMP(ARGB color)
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{
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BITMAPINFO bi;
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HBITMAP result;
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RGBQUAD *bits;
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int alpha;
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if ((color & 0xff000000) == 0xff000000) return 0;
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bi.bmiHeader.biSize = sizeof(bi.bmiHeader);
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bi.bmiHeader.biWidth = 1;
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bi.bmiHeader.biHeight = 1;
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bi.bmiHeader.biPlanes = 1;
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bi.bmiHeader.biBitCount = 32;
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bi.bmiHeader.biCompression = BI_RGB;
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bi.bmiHeader.biSizeImage = 0;
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bi.bmiHeader.biXPelsPerMeter = 0;
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bi.bmiHeader.biYPelsPerMeter = 0;
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bi.bmiHeader.biClrUsed = 0;
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bi.bmiHeader.biClrImportant = 0;
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result = CreateDIBSection(0, &bi, DIB_RGB_COLORS, (void*)&bits, NULL, 0);
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bits[0].rgbReserved = alpha = (color>>24)&0xff;
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bits[0].rgbRed = ((color>>16)&0xff)*alpha/255;
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bits[0].rgbGreen = ((color>>8)&0xff)*alpha/255;
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bits[0].rgbBlue = (color&0xff)*alpha/255;
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return result;
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}
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/* Like atan2, but puts angle in correct quadrant if dx is 0. */
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REAL gdiplus_atan2(REAL dy, REAL dx)
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{
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if((dx == 0.0) && (dy != 0.0))
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return dy > 0.0 ? M_PI_2 : -M_PI_2;
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return atan2(dy, dx);
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}
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GpStatus hresult_to_status(HRESULT res)
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{
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switch(res){
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case S_OK:
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return Ok;
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case E_OUTOFMEMORY:
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return OutOfMemory;
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case E_INVALIDARG:
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return InvalidParameter;
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default:
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return GenericError;
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}
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}
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/* converts a given unit to its value in pixels */
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REAL units_to_pixels(REAL units, GpUnit unit, REAL dpi, BOOL printer_display)
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{
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switch (unit)
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{
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case UnitPixel:
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case UnitWorld:
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return units;
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case UnitDisplay:
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if (printer_display)
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return units * dpi / 100.0;
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else
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return units;
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case UnitPoint:
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return units * dpi / point_per_inch;
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case UnitInch:
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return units * dpi;
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case UnitDocument:
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return units * dpi / 300.0; /* Per MSDN */
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case UnitMillimeter:
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return units * dpi / mm_per_inch;
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default:
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FIXME("Unhandled unit type: %d\n", unit);
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return 0;
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}
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}
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/* converts value in pixels to a given unit */
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REAL pixels_to_units(REAL pixels, GpUnit unit, REAL dpi, BOOL printer_display)
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{
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switch (unit)
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{
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case UnitPixel:
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case UnitWorld:
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return pixels;
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case UnitDisplay:
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if (printer_display)
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return pixels * 100.0 / dpi;
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else
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return pixels;
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case UnitPoint:
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return pixels * point_per_inch / dpi;
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case UnitInch:
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return pixels / dpi;
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case UnitDocument:
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return pixels * 300.0 / dpi;
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case UnitMillimeter:
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return pixels * mm_per_inch / dpi;
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default:
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FIXME("Unhandled unit type: %d\n", unit);
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return 0;
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}
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}
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REAL units_scale(GpUnit from, GpUnit to, REAL dpi, BOOL printer_display)
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{
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REAL pixels = units_to_pixels(1.0, from, dpi, printer_display);
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return pixels_to_units(pixels, to, dpi, printer_display);
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}
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/* Calculates Bezier points from cardinal spline points. */
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void calc_curve_bezier(const GpPointF *pts, REAL tension, REAL *x1,
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REAL *y1, REAL *x2, REAL *y2)
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{
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REAL xdiff, ydiff;
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/* calculate tangent */
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xdiff = pts[2].X - pts[0].X;
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ydiff = pts[2].Y - pts[0].Y;
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/* apply tangent to get control points */
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*x1 = pts[1].X - tension * xdiff;
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*y1 = pts[1].Y - tension * ydiff;
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*x2 = pts[1].X + tension * xdiff;
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*y2 = pts[1].Y + tension * ydiff;
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}
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/* Calculates Bezier points from cardinal spline endpoints. */
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void calc_curve_bezier_endp(REAL xend, REAL yend, REAL xadj, REAL yadj,
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REAL tension, REAL *x, REAL *y)
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{
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/* tangent at endpoints is the line from the endpoint to the adjacent point */
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*x = gdip_round(tension * (xadj - xend) + xend);
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*y = gdip_round(tension * (yadj - yend) + yend);
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}
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/* make sure path has enough space for len more points */
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BOOL lengthen_path(GpPath *path, INT len)
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{
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/* initial allocation */
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if(path->datalen == 0){
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path->datalen = len * 2;
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path->pathdata.Points = heap_alloc_zero(path->datalen * sizeof(PointF));
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if(!path->pathdata.Points) return FALSE;
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path->pathdata.Types = heap_alloc_zero(path->datalen);
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if(!path->pathdata.Types){
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heap_free(path->pathdata.Points);
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return FALSE;
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}
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}
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/* reallocation, double size of arrays */
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else if(path->datalen - path->pathdata.Count < len){
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while(path->datalen - path->pathdata.Count < len)
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path->datalen *= 2;
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path->pathdata.Points = heap_realloc(path->pathdata.Points, path->datalen * sizeof(PointF));
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if(!path->pathdata.Points) return FALSE;
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path->pathdata.Types = heap_realloc(path->pathdata.Types, path->datalen);
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if(!path->pathdata.Types) return FALSE;
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}
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return TRUE;
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}
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void convert_32bppARGB_to_32bppPARGB(UINT width, UINT height,
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BYTE *dst_bits, INT dst_stride, const BYTE *src_bits, INT src_stride)
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{
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INT x, y;
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for (y=0; y<height; y++)
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{
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const BYTE *src=src_bits+y*src_stride;
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BYTE *dst=dst_bits+y*dst_stride;
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for (x=0; x<width; x++)
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{
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BYTE alpha=src[3];
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*dst++ = (*src++ * alpha + 127) / 255;
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*dst++ = (*src++ * alpha + 127) / 255;
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*dst++ = (*src++ * alpha + 127) / 255;
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*dst++ = *src++;
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}
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}
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}
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/* recursive deletion of GpRegion nodes */
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void delete_element(region_element* element)
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{
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switch(element->type)
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{
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case RegionDataRect:
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break;
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case RegionDataPath:
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GdipDeletePath(element->elementdata.path);
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break;
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case RegionDataEmptyRect:
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case RegionDataInfiniteRect:
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break;
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default:
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delete_element(element->elementdata.combine.left);
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delete_element(element->elementdata.combine.right);
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heap_free(element->elementdata.combine.left);
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heap_free(element->elementdata.combine.right);
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break;
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}
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}
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const char *debugstr_rectf(const RectF* rc)
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{
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if (!rc) return "(null)";
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return wine_dbg_sprintf("(%0.2f,%0.2f,%0.2f,%0.2f)", rc->X, rc->Y, rc->Width, rc->Height);
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}
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const char *debugstr_pointf(const PointF* pt)
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{
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if (!pt) return "(null)";
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return wine_dbg_sprintf("(%0.2f,%0.2f)", pt->X, pt->Y);
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}
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