/* -*- Mode: c; tab-width: 8; c-basic-offset: 4; indent-tabs-mode: t; -*- */ /* Cairo - a vector graphics library with display and print output * * Copyright © 2005 Red Hat, Inc. * * This library is free software; you can redistribute it and/or * modify it either under the terms of the GNU Lesser General Public * License version 2.1 as published by the Free Software Foundation * (the "LGPL") or, at your option, under the terms of the Mozilla * Public License Version 1.1 (the "MPL"). If you do not alter this * notice, a recipient may use your version of this file under either * the MPL or the LGPL. * * You should have received a copy of the LGPL along with this library * in the file COPYING-LGPL-2.1; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Suite 500, Boston, MA 02110-1335, USA * You should have received a copy of the MPL along with this library * in the file COPYING-MPL-1.1 * * The contents of this file are subject to the Mozilla Public License * Version 1.1 (the "License"); you may not use this file except in * compliance with the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY * OF ANY KIND, either express or implied. See the LGPL or the MPL for * the specific language governing rights and limitations. * * The Original Code is the cairo graphics library. * * The Initial Developer of the Original Code is Red Hat, Inc. * * Contributor(s): * Owen Taylor * Stuart Parmenter * Vladimir Vukicevic */ #define WIN32_LEAN_AND_MEAN /* We require Windows 2000 features such as ETO_PDY */ #if !defined(WINVER) || (WINVER < 0x0500) # define WINVER 0x0500 #endif #if !defined(_WIN32_WINNT) || (_WIN32_WINNT < 0x0500) # define _WIN32_WINNT 0x0500 #endif #include "cairoint.h" #include "cairo-clip-private.h" #include "cairo-composite-rectangles-private.h" #include "cairo-default-context-private.h" #include "cairo-error-private.h" #include "cairo-image-surface-private.h" #include "cairo-paginated-private.h" #include "cairo-pattern-private.h" #include "cairo-win32-private.h" #include "cairo-scaled-font-subsets-private.h" #include "cairo-surface-fallback-private.h" #include "cairo-surface-backend-private.h" #include #include #if defined(__MINGW32__) && !defined(ETO_PDY) # define ETO_PDY 0x2000 #endif #undef DEBUG_COMPOSITE /* for older SDKs */ #ifndef SHADEBLENDCAPS #define SHADEBLENDCAPS 120 #endif #ifndef SB_NONE #define SB_NONE 0x00000000 #endif #define PELS_72DPI ((LONG)(72. / 0.0254)) /** * SECTION:cairo-win32 * @Title: Win32 Surfaces * @Short_Description: Microsoft Windows surface support * @See_Also: #cairo_surface_t * * The Microsoft Windows surface is used to render cairo graphics to * Microsoft Windows windows, bitmaps, and printing device contexts. * * The surface returned by cairo_win32_printing_surface_create() is of surface * type %CAIRO_SURFACE_TYPE_WIN32_PRINTING and is a multi-page vector surface * type. * * The surface returned by the other win32 constructors is of surface type * %CAIRO_SURFACE_TYPE_WIN32 and is a raster surface type. */ /** * CAIRO_HAS_WIN32_SURFACE: * * Defined if the Microsoft Windows surface backend is available. * This macro can be used to conditionally compile backend-specific code. */ static const cairo_surface_backend_t cairo_win32_surface_backend; /** * _cairo_win32_print_gdi_error: * @context: context string to display along with the error * * Helper function to dump out a human readable form of the * current error code. * * Return value: A cairo status code for the error code **/ cairo_status_t _cairo_win32_print_gdi_error (const char *context) { void *lpMsgBuf; DWORD last_error = GetLastError (); if (!FormatMessageW (FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM, NULL, last_error, MAKELANGID (LANG_NEUTRAL, SUBLANG_DEFAULT), (LPWSTR) &lpMsgBuf, 0, NULL)) { fprintf (stderr, "%s: Unknown GDI error", context); } else { fprintf (stderr, "%s: %S", context, (wchar_t *)lpMsgBuf); LocalFree (lpMsgBuf); } fflush (stderr); /* We should switch off of last_status, but we'd either return * CAIRO_STATUS_NO_MEMORY or CAIRO_STATUS_UNKNOWN_ERROR and there * is no CAIRO_STATUS_UNKNOWN_ERROR. */ return _cairo_error (CAIRO_STATUS_NO_MEMORY); } uint32_t _cairo_win32_flags_for_dc (HDC dc) { uint32_t flags = 0; if (GetDeviceCaps(dc, TECHNOLOGY) == DT_RASDISPLAY) { flags |= CAIRO_WIN32_SURFACE_IS_DISPLAY; /* These will always be possible, but the actual GetDeviceCaps * calls will return whether they're accelerated or not. * We may want to use our own (pixman) routines sometimes * if they're eventually faster, but for now have GDI do * everything. */ flags |= CAIRO_WIN32_SURFACE_CAN_BITBLT; flags |= CAIRO_WIN32_SURFACE_CAN_ALPHABLEND; flags |= CAIRO_WIN32_SURFACE_CAN_STRETCHBLT; flags |= CAIRO_WIN32_SURFACE_CAN_STRETCHDIB; } else { int cap; cap = GetDeviceCaps(dc, SHADEBLENDCAPS); if (cap != SB_NONE) flags |= CAIRO_WIN32_SURFACE_CAN_ALPHABLEND; cap = GetDeviceCaps(dc, RASTERCAPS); if (cap & RC_BITBLT) flags |= CAIRO_WIN32_SURFACE_CAN_BITBLT; if (cap & RC_STRETCHBLT) flags |= CAIRO_WIN32_SURFACE_CAN_STRETCHBLT; if (cap & RC_STRETCHDIB) flags |= CAIRO_WIN32_SURFACE_CAN_STRETCHDIB; } return flags; } static cairo_status_t _create_dc_and_bitmap (cairo_win32_surface_t *surface, HDC original_dc, cairo_format_t format, int width, int height, unsigned char **bits_out, int *rowstride_out) { cairo_status_t status; BITMAPINFO *bitmap_info = NULL; struct { BITMAPINFOHEADER bmiHeader; RGBQUAD bmiColors[2]; } bmi_stack; void *bits; int num_palette = 0; /* Quiet GCC */ int i; surface->dc = NULL; surface->bitmap = NULL; surface->is_dib = FALSE; switch (format) { default: case CAIRO_FORMAT_INVALID: return _cairo_error (CAIRO_STATUS_INVALID_FORMAT); case CAIRO_FORMAT_ARGB32: case CAIRO_FORMAT_RGB24: num_palette = 0; break; case CAIRO_FORMAT_A8: num_palette = 256; break; case CAIRO_FORMAT_A1: num_palette = 2; break; } if (num_palette > 2) { bitmap_info = _cairo_malloc_ab_plus_c (num_palette, sizeof(RGBQUAD), sizeof(BITMAPINFOHEADER)); if (!bitmap_info) return _cairo_error (CAIRO_STATUS_NO_MEMORY); } else { bitmap_info = (BITMAPINFO *)&bmi_stack; } bitmap_info->bmiHeader.biSize = sizeof (BITMAPINFOHEADER); bitmap_info->bmiHeader.biWidth = width == 0 ? 1 : width; bitmap_info->bmiHeader.biHeight = height == 0 ? -1 : - height; /* top-down */ bitmap_info->bmiHeader.biSizeImage = 0; bitmap_info->bmiHeader.biXPelsPerMeter = PELS_72DPI; /* unused here */ bitmap_info->bmiHeader.biYPelsPerMeter = PELS_72DPI; /* unused here */ bitmap_info->bmiHeader.biPlanes = 1; switch (format) { /* We can't create real RGB24 bitmaps because something seems to * break if we do, especially if we don't set up an image * fallback. It could be a bug with using a 24bpp pixman image * (and creating one with masks). So treat them like 32bpp. * Note: This causes problems when using BitBlt/AlphaBlend/etc! * see end of file. */ case CAIRO_FORMAT_RGB24: case CAIRO_FORMAT_ARGB32: bitmap_info->bmiHeader.biBitCount = 32; bitmap_info->bmiHeader.biCompression = BI_RGB; bitmap_info->bmiHeader.biClrUsed = 0; /* unused */ bitmap_info->bmiHeader.biClrImportant = 0; break; case CAIRO_FORMAT_A8: bitmap_info->bmiHeader.biBitCount = 8; bitmap_info->bmiHeader.biCompression = BI_RGB; bitmap_info->bmiHeader.biClrUsed = 256; bitmap_info->bmiHeader.biClrImportant = 0; for (i = 0; i < 256; i++) { bitmap_info->bmiColors[i].rgbBlue = i; bitmap_info->bmiColors[i].rgbGreen = i; bitmap_info->bmiColors[i].rgbRed = i; bitmap_info->bmiColors[i].rgbReserved = 0; } break; case CAIRO_FORMAT_A1: bitmap_info->bmiHeader.biBitCount = 1; bitmap_info->bmiHeader.biCompression = BI_RGB; bitmap_info->bmiHeader.biClrUsed = 2; bitmap_info->bmiHeader.biClrImportant = 0; for (i = 0; i < 2; i++) { bitmap_info->bmiColors[i].rgbBlue = i * 255; bitmap_info->bmiColors[i].rgbGreen = i * 255; bitmap_info->bmiColors[i].rgbRed = i * 255; bitmap_info->bmiColors[i].rgbReserved = 0; } break; } surface->dc = CreateCompatibleDC (original_dc); if (!surface->dc) goto FAIL; surface->bitmap = CreateDIBSection (surface->dc, bitmap_info, DIB_RGB_COLORS, &bits, NULL, 0); if (!surface->bitmap) goto FAIL; surface->is_dib = TRUE; GdiFlush(); surface->saved_dc_bitmap = SelectObject (surface->dc, surface->bitmap); if (!surface->saved_dc_bitmap) goto FAIL; if (bitmap_info && num_palette > 2) free (bitmap_info); if (bits_out) *bits_out = bits; if (rowstride_out) { /* Windows bitmaps are padded to 32-bit (dword) boundaries */ switch (format) { case CAIRO_FORMAT_ARGB32: case CAIRO_FORMAT_RGB24: *rowstride_out = 4 * width; break; case CAIRO_FORMAT_A8: *rowstride_out = (width + 3) & ~3; break; case CAIRO_FORMAT_A1: *rowstride_out = ((width + 31) & ~31) / 8; break; } } surface->flags = _cairo_win32_flags_for_dc (surface->dc); return CAIRO_STATUS_SUCCESS; FAIL: status = _cairo_win32_print_gdi_error ("_create_dc_and_bitmap"); if (bitmap_info && num_palette > 2) free (bitmap_info); if (surface->saved_dc_bitmap) { SelectObject (surface->dc, surface->saved_dc_bitmap); surface->saved_dc_bitmap = NULL; } if (surface->bitmap) { DeleteObject (surface->bitmap); surface->bitmap = NULL; } if (surface->dc) { DeleteDC (surface->dc); surface->dc = NULL; } return status; } static cairo_surface_t * _cairo_win32_surface_create_for_dc (HDC original_dc, cairo_format_t format, int width, int height) { cairo_status_t status; cairo_win32_surface_t *surface; unsigned char *bits; int rowstride; if (! CAIRO_FORMAT_VALID (format)) return _cairo_surface_create_in_error (_cairo_error (CAIRO_STATUS_INVALID_FORMAT)); surface = malloc (sizeof (cairo_win32_surface_t)); if (surface == NULL) return _cairo_surface_create_in_error (_cairo_error (CAIRO_STATUS_NO_MEMORY)); surface->clip_region = NULL; status = _create_dc_and_bitmap (surface, original_dc, format, width, height, &bits, &rowstride); if (status) goto FAIL; surface->image = cairo_image_surface_create_for_data (bits, format, width, height, rowstride); status = surface->image->status; if (status) goto FAIL; surface->format = format; surface->clip_rect.x = 0; surface->clip_rect.y = 0; surface->clip_rect.width = width; surface->clip_rect.height = height; surface->initial_clip_rgn = NULL; surface->had_simple_clip = FALSE; surface->extents = surface->clip_rect; surface->font_subsets = NULL; _cairo_surface_init (&surface->base, &cairo_win32_surface_backend, NULL, /* device */ _cairo_content_from_format (format)); return &surface->base; FAIL: if (surface->bitmap) { SelectObject (surface->dc, surface->saved_dc_bitmap); DeleteObject (surface->bitmap); DeleteDC (surface->dc); } free (surface); return _cairo_surface_create_in_error (status); } static cairo_surface_t * _cairo_win32_surface_create_similar_internal (void *abstract_src, cairo_content_t content, int width, int height, cairo_bool_t force_dib) { cairo_win32_surface_t *src = abstract_src; cairo_format_t format = _cairo_format_from_content (content); cairo_surface_t *new_surf = NULL; /* We force a DIB always if: * - we need alpha; or * - the parent is a DIB; or * - the parent is for printing (because we don't care about the bit depth at that point) * * We also might end up with a DIB even if a DDB is requested if DDB creation failed * due to out of memory. */ if (src->is_dib || (content & CAIRO_CONTENT_ALPHA) || src->base.backend->type == CAIRO_SURFACE_TYPE_WIN32_PRINTING) { force_dib = TRUE; } if (!force_dib) { /* try to create a ddb */ new_surf = cairo_win32_surface_create_with_ddb (src->dc, CAIRO_FORMAT_RGB24, width, height); if (new_surf->status != CAIRO_STATUS_SUCCESS) new_surf = NULL; } if (new_surf == NULL) { new_surf = _cairo_win32_surface_create_for_dc (src->dc, format, width, height); } return new_surf; } cairo_surface_t * _cairo_win32_surface_create_similar (void *abstract_src, cairo_content_t content, int width, int height) { return _cairo_win32_surface_create_similar_internal (abstract_src, content, width, height, FALSE); } cairo_status_t _cairo_win32_surface_finish (void *abstract_surface) { cairo_win32_surface_t *surface = abstract_surface; if (surface->image) cairo_surface_destroy (surface->image); /* If we created the Bitmap and DC, destroy them */ if (surface->bitmap) { SelectObject (surface->dc, surface->saved_dc_bitmap); DeleteObject (surface->bitmap); DeleteDC (surface->dc); } else { _cairo_win32_restore_initial_clip (surface); } if (surface->initial_clip_rgn) DeleteObject (surface->initial_clip_rgn); if (surface->font_subsets != NULL) _cairo_scaled_font_subsets_destroy (surface->font_subsets); return CAIRO_STATUS_SUCCESS; } static cairo_status_t _cairo_win32_surface_get_subimage (cairo_win32_surface_t *surface, int x, int y, int width, int height, cairo_win32_surface_t **local_out) { cairo_win32_surface_t *local; cairo_int_status_t status; cairo_content_t content = _cairo_content_from_format (surface->format); local = (cairo_win32_surface_t *) _cairo_win32_surface_create_similar_internal (surface, content, width, height, TRUE); if (local == NULL) return CAIRO_INT_STATUS_UNSUPPORTED; if (local->base.status) return local->base.status; status = CAIRO_INT_STATUS_UNSUPPORTED; /* Only BitBlt if the source surface supports it. */ if ((surface->flags & CAIRO_WIN32_SURFACE_CAN_BITBLT) && BitBlt (local->dc, 0, 0, width, height, surface->dc, x, y, SRCCOPY)) { status = CAIRO_STATUS_SUCCESS; } if (status) { /* If we failed here, most likely the source or dest doesn't * support BitBlt/AlphaBlend (e.g. a printer). * You can't reliably get bits from a printer DC, so just fill in * the surface as white (common case for printing). */ RECT r; r.left = r.top = 0; r.right = width; r.bottom = height; FillRect(local->dc, &r, (HBRUSH)GetStockObject(WHITE_BRUSH)); } *local_out = local; return CAIRO_STATUS_SUCCESS; } static cairo_surface_t * _cairo_win32_surface_map_to_image (void *abstract_surface, const cairo_rectangle_int_t *extents) { cairo_win32_surface_t *surface = abstract_surface; cairo_win32_surface_t *local = NULL; cairo_status_t status; if (surface->image) { GdiFlush(); return _cairo_surface_create_for_rectangle_int (surface->image, extents); } status = _cairo_win32_surface_get_subimage (abstract_surface, extents->x, extents->y, extents->width, extents->height, &local); if (unlikely (status)) return _cairo_surface_create_in_error (status); status = cairo_surface_set_user_data (local->image, (const cairo_user_data_key_t *)surface->image, local, NULL); if (unlikely (status)) { cairo_surface_destroy (&local->base); return _cairo_surface_create_in_error (status); } cairo_surface_set_device_offset (local->image, -extents->x, -extents->y); return local->image; } static cairo_int_status_t _cairo_win32_surface_unmap_image (void *abstract_surface, cairo_image_surface_t *image) { cairo_win32_surface_t *surface = abstract_surface; cairo_win32_surface_t *local; local = cairo_surface_get_user_data (&image->base, (const cairo_user_data_key_t *) surface->image); if (!local) return CAIRO_INT_STATUS_SUCCESS; if (!BitBlt (surface->dc, image->base.device_transform.x0, image->base.device_transform.y0, image->width, image->height, local->dc, 0, 0, SRCCOPY)) _cairo_win32_print_gdi_error ("_cairo_win32_surface_release_dest_image"); return CAIRO_STATUS_SUCCESS; } static cairo_status_t _cairo_win32_surface_acquire_source_image (void *abstract_surface, cairo_image_surface_t **image_out, void **image_extra) { cairo_win32_surface_t *surface = abstract_surface; cairo_win32_surface_t *local; cairo_status_t status; if (surface->image) { *image_out = (cairo_image_surface_t *)surface->image; *image_extra = NULL; return CAIRO_STATUS_SUCCESS; } status = _cairo_win32_surface_get_subimage (abstract_surface, 0, 0, surface->extents.width, surface->extents.height, &local); if (status) return status; *image_out = (cairo_image_surface_t *)local->image; *image_extra = local; return CAIRO_STATUS_SUCCESS; } static void _cairo_win32_surface_release_source_image (void *abstract_surface, cairo_image_surface_t *image, void *image_extra) { cairo_win32_surface_t *local = image_extra; if (local) cairo_surface_destroy ((cairo_surface_t *)local); } cairo_status_t _cairo_win32_surface_set_clip_region (void *abstract_surface, cairo_region_t *region) { cairo_win32_surface_t *surface = abstract_surface; cairo_status_t status = CAIRO_STATUS_SUCCESS; if (surface->clip_region == region) return CAIRO_STATUS_SUCCESS; cairo_region_destroy (surface->clip_region); surface->clip_region = cairo_region_reference (region); /* The semantics we want is that any clip set by cairo combines * is intersected with the clip on device context that the * surface was created for. To implement this, we need to * save the original clip when first setting a clip on surface. */ /* Clear any clip set by cairo, return to the original first */ status = _cairo_win32_restore_initial_clip (surface); /* Then combine any new region with it */ if (region) { cairo_rectangle_int_t extents; int num_rects; RGNDATA *data; size_t data_size; RECT *rects; int i; HRGN gdi_region; /* Create a GDI region for the cairo region */ cairo_region_get_extents (region, &extents); num_rects = cairo_region_num_rectangles (region); /* XXX see notes in _cairo_win32_save_initial_clip -- * this code will interact badly with a HDC which had an initial * world transform -- we should probably manually transform the * region rects, because SelectClipRgn takes device units, not * logical units (unlike IntersectClipRect). */ data_size = sizeof (RGNDATAHEADER) + num_rects * sizeof (RECT); data = malloc (data_size); if (!data) return _cairo_error(CAIRO_STATUS_NO_MEMORY); rects = (RECT *)data->Buffer; data->rdh.dwSize = sizeof (RGNDATAHEADER); data->rdh.iType = RDH_RECTANGLES; data->rdh.nCount = num_rects; data->rdh.nRgnSize = num_rects * sizeof (RECT); data->rdh.rcBound.left = extents.x; data->rdh.rcBound.top = extents.y; data->rdh.rcBound.right = extents.x + extents.width; data->rdh.rcBound.bottom = extents.y + extents.height; for (i = 0; i < num_rects; i++) { cairo_rectangle_int_t rect; cairo_region_get_rectangle (region, i, &rect); rects[i].left = rect.x; rects[i].top = rect.y; rects[i].right = rect.x + rect.width; rects[i].bottom = rect.y + rect.height; } gdi_region = ExtCreateRegion (NULL, data_size, data); free (data); if (!gdi_region) return _cairo_error (CAIRO_STATUS_NO_MEMORY); /* AND the new region into our DC */ if (ExtSelectClipRgn (surface->dc, gdi_region, RGN_AND) == ERROR) status = _cairo_win32_print_gdi_error ("_cairo_win32_surface_set_clip_region"); DeleteObject (gdi_region); } return status; } #if !defined(AC_SRC_OVER) #define AC_SRC_OVER 0x00 #pragma pack(1) typedef struct { BYTE BlendOp; BYTE BlendFlags; BYTE SourceConstantAlpha; BYTE AlphaFormat; }BLENDFUNCTION; #pragma pack() #endif /* for compatibility with VC++ 6 */ #ifndef AC_SRC_ALPHA #define AC_SRC_ALPHA 0x01 #endif typedef BOOL (WINAPI *cairo_alpha_blend_func_t) (HDC hdcDest, int nXOriginDest, int nYOriginDest, int nWidthDest, int hHeightDest, HDC hdcSrc, int nXOriginSrc, int nYOriginSrc, int nWidthSrc, int nHeightSrc, BLENDFUNCTION blendFunction); static cairo_int_status_t _composite_alpha_blend (cairo_win32_surface_t *dst, cairo_win32_surface_t *src, int alpha, int src_x, int src_y, int src_w, int src_h, int dst_x, int dst_y, int dst_w, int dst_h) { static unsigned alpha_blend_checked = FALSE; static cairo_alpha_blend_func_t alpha_blend = NULL; BLENDFUNCTION blend_function; /* Check for AlphaBlend dynamically to allow compiling on * MSVC 6 and use on older windows versions */ if (!alpha_blend_checked) { OSVERSIONINFO os; os.dwOSVersionInfoSize = sizeof (os); GetVersionEx (&os); /* If running on Win98, disable using AlphaBlend() * to avoid Win98 AlphaBlend() bug */ if (VER_PLATFORM_WIN32_WINDOWS != os.dwPlatformId || os.dwMajorVersion != 4 || os.dwMinorVersion != 10) { HMODULE msimg32_dll = LoadLibraryW (L"msimg32"); if (msimg32_dll != NULL) alpha_blend = (cairo_alpha_blend_func_t)GetProcAddress (msimg32_dll, "AlphaBlend"); } alpha_blend_checked = TRUE; } if (alpha_blend == NULL) return CAIRO_INT_STATUS_UNSUPPORTED; if (!(dst->flags & CAIRO_WIN32_SURFACE_CAN_ALPHABLEND)) return CAIRO_INT_STATUS_UNSUPPORTED; if (src->format == CAIRO_FORMAT_RGB24 && dst->format == CAIRO_FORMAT_ARGB32) return CAIRO_INT_STATUS_UNSUPPORTED; blend_function.BlendOp = AC_SRC_OVER; blend_function.BlendFlags = 0; blend_function.SourceConstantAlpha = alpha; blend_function.AlphaFormat = (src->format == CAIRO_FORMAT_ARGB32) ? AC_SRC_ALPHA : 0; if (!alpha_blend (dst->dc, dst_x, dst_y, dst_w, dst_h, src->dc, src_x, src_y, src_w, src_h, blend_function)) return _cairo_win32_print_gdi_error ("_cairo_win32_surface_composite(AlphaBlend)"); return CAIRO_STATUS_SUCCESS; } static cairo_int_status_t _cairo_win32_surface_composite_inner (cairo_win32_surface_t *src, cairo_image_surface_t *src_image, cairo_win32_surface_t *dst, cairo_rectangle_int_t src_extents, cairo_rectangle_int_t src_r, cairo_rectangle_int_t dst_r, int alpha, cairo_bool_t needs_alpha, cairo_bool_t needs_scale) { /* Then do BitBlt, StretchDIBits, StretchBlt, AlphaBlend, or MaskBlt */ if (src_image) { if (needs_alpha || needs_scale) return CAIRO_INT_STATUS_UNSUPPORTED; if (dst->flags & CAIRO_WIN32_SURFACE_CAN_STRETCHBLT) { BITMAPINFO bi; bi.bmiHeader.biSize = sizeof(BITMAPINFOHEADER); bi.bmiHeader.biWidth = src_image->width; bi.bmiHeader.biHeight = - src_image->height; bi.bmiHeader.biSizeImage = 0; bi.bmiHeader.biXPelsPerMeter = PELS_72DPI; bi.bmiHeader.biYPelsPerMeter = PELS_72DPI; bi.bmiHeader.biPlanes = 1; bi.bmiHeader.biBitCount = 32; bi.bmiHeader.biCompression = BI_RGB; bi.bmiHeader.biClrUsed = 0; bi.bmiHeader.biClrImportant = 0; /* StretchDIBits is broken with top-down dibs; you need to do some * special munging to make the coordinate space work (basically, * need to address everything based on the bottom left, instead of top left, * and need to tell it to flip the resulting image. * * See http://blog.vlad1.com/archives/2006/10/26/134/ and comments. */ if (!StretchDIBits (dst->dc, /* dst x,y,w,h */ dst_r.x, dst_r.y + dst_r.height - 1, dst_r.width, - (int) dst_r.height, /* src x,y,w,h */ src_r.x, src_extents.height - src_r.y + 1, src_r.width, - (int) src_r.height, src_image->data, &bi, DIB_RGB_COLORS, SRCCOPY)) return _cairo_win32_print_gdi_error ("_cairo_win32_surface_composite(StretchDIBits)"); } } else if (!needs_alpha) { /* BitBlt or StretchBlt? */ if (!needs_scale && (dst->flags & CAIRO_WIN32_SURFACE_CAN_BITBLT)) { if (!BitBlt (dst->dc, dst_r.x, dst_r.y, dst_r.width, dst_r.height, src->dc, src_r.x, src_r.y, SRCCOPY)) return _cairo_win32_print_gdi_error ("_cairo_win32_surface_composite(BitBlt)"); } else if (dst->flags & CAIRO_WIN32_SURFACE_CAN_STRETCHBLT) { /* StretchBlt? */ /* XXX check if we want HALFTONE, based on the src filter */ BOOL success; int oldmode = SetStretchBltMode(dst->dc, HALFTONE); success = StretchBlt(dst->dc, dst_r.x, dst_r.y, dst_r.width, dst_r.height, src->dc, src_r.x, src_r.y, src_r.width, src_r.height, SRCCOPY); SetStretchBltMode(dst->dc, oldmode); if (!success) return _cairo_win32_print_gdi_error ("StretchBlt"); } } else if (needs_alpha && !needs_scale) { return _composite_alpha_blend (dst, src, alpha, src_r.x, src_r.y, src_r.width, src_r.height, dst_r.x, dst_r.y, dst_r.width, dst_r.height); } return CAIRO_STATUS_SUCCESS; } /* from pixman-private.h */ #define MOD(a,b) ((a) < 0 ? ((b) - ((-(a) - 1) % (b))) - 1 : (a) % (b)) static cairo_int_status_t _cairo_win32_surface_composite (cairo_operator_t op, const cairo_pattern_t *pattern, const cairo_pattern_t *mask_pattern, void *abstract_dst, int src_x, int src_y, int mask_x, int mask_y, int dst_x, int dst_y, unsigned int width, unsigned int height, cairo_region_t *clip_region) { cairo_win32_surface_t *dst = abstract_dst; cairo_win32_surface_t *src; cairo_surface_pattern_t *src_surface_pattern; int alpha; double scalex, scaley; cairo_fixed_t x0_fixed, y0_fixed; cairo_int_status_t status; cairo_bool_t needs_alpha, needs_scale, needs_repeat; cairo_image_surface_t *src_image = NULL; cairo_format_t src_format; cairo_rectangle_int_t src_extents; cairo_rectangle_int_t src_r = { src_x, src_y, width, height }; cairo_rectangle_int_t dst_r = { dst_x, dst_y, width, height }; #ifdef DEBUG_COMPOSITE fprintf (stderr, "+++ composite: %d %p %p %p [%d %d] [%d %d] [%d %d] %dx%d\n", op, pattern, mask_pattern, abstract_dst, src_x, src_y, mask_x, mask_y, dst_x, dst_y, width, height); #endif /* If the destination can't do any of these, then * we may as well give up, since this is what we'll * look to for optimization. */ if ((dst->flags & (CAIRO_WIN32_SURFACE_CAN_BITBLT | CAIRO_WIN32_SURFACE_CAN_ALPHABLEND | CAIRO_WIN32_SURFACE_CAN_STRETCHBLT | CAIRO_WIN32_SURFACE_CAN_STRETCHDIB)) == 0) { goto UNSUPPORTED; } if (pattern->type != CAIRO_PATTERN_TYPE_SURFACE) goto UNSUPPORTED; if (pattern->extend != CAIRO_EXTEND_NONE && pattern->extend != CAIRO_EXTEND_REPEAT) goto UNSUPPORTED; if (mask_pattern) { /* FIXME: When we fully support RENDER style 4-channel * masks we need to check r/g/b != 1.0. */ if (mask_pattern->type != CAIRO_PATTERN_TYPE_SOLID) return CAIRO_INT_STATUS_UNSUPPORTED; alpha = ((cairo_solid_pattern_t *)mask_pattern)->color.alpha_short >> 8; } else { alpha = 255; } src_surface_pattern = (cairo_surface_pattern_t *)pattern; src = (cairo_win32_surface_t *)src_surface_pattern->surface; if (src->base.type == CAIRO_SURFACE_TYPE_IMAGE && dst->flags & (CAIRO_WIN32_SURFACE_CAN_STRETCHDIB)) { /* In some very limited cases, we can use StretchDIBits to draw * an image surface directly: * - source is CAIRO_FORMAT_ARGB32 * - dest is CAIRO_FORMAT_ARGB32 * - alpha is 255 * - operator is SOURCE or OVER * - image stride is 4*width */ src_image = (cairo_image_surface_t*) src; if (src_image->format != CAIRO_FORMAT_RGB24 || dst->format != CAIRO_FORMAT_RGB24 || alpha != 255 || (op != CAIRO_OPERATOR_SOURCE && op != CAIRO_OPERATOR_OVER) || src_image->stride != (src_image->width * 4)) { goto UNSUPPORTED; } src_format = src_image->format; src_extents.x = 0; src_extents.y = 0; src_extents.width = src_image->width; src_extents.height = src_image->height; } else if (src->base.backend != dst->base.backend) { goto UNSUPPORTED; } else { src_format = src->format; src_extents = src->extents; } #ifdef DEBUG_COMPOSITE fprintf (stderr, "Before check: src size: (%d %d) xy [%d %d] -> dst [%d %d %d %d] {srcmat %f %f %f %f}\n", src_extents.width, src_extents.height, src_x, src_y, dst_x, dst_y, width, height, pattern->matrix.x0, pattern->matrix.y0, pattern->matrix.xx, pattern->matrix.yy); #endif /* We can only use GDI functions if the source and destination rectangles * are on integer pixel boundaries. Figure that out here. */ x0_fixed = _cairo_fixed_from_double(pattern->matrix.x0 / pattern->matrix.xx); y0_fixed = _cairo_fixed_from_double(pattern->matrix.y0 / pattern->matrix.yy); if (pattern->matrix.yx != 0.0 || pattern->matrix.xy != 0.0 || !_cairo_fixed_is_integer(x0_fixed) || !_cairo_fixed_is_integer(y0_fixed)) { goto UNSUPPORTED; } scalex = pattern->matrix.xx; scaley = pattern->matrix.yy; src_r.x += _cairo_fixed_integer_part(x0_fixed); src_r.y += _cairo_fixed_integer_part(y0_fixed); /* Success, right? */ if (scalex == 0.0 || scaley == 0.0) return CAIRO_STATUS_SUCCESS; if (scalex != 1.0 || scaley != 1.0) goto UNSUPPORTED; /* If the src coordinates are outside of the source surface bounds, * we have to fix them up, because this is an error for the GDI * functions. */ #ifdef DEBUG_COMPOSITE fprintf (stderr, "before: [%d %d %d %d] -> [%d %d %d %d]\n", src_r.x, src_r.y, src_r.width, src_r.height, dst_r.x, dst_r.y, dst_r.width, dst_r.height); fflush (stderr); #endif /* If the src rectangle doesn't wholly lie within the src extents, * fudge things. We really need to do fixup on the unpainted * region -- e.g. the SOURCE operator is broken for areas outside * of the extents, because it won't clear that area to transparent * black. */ if (pattern->extend != CAIRO_EXTEND_REPEAT) { needs_repeat = FALSE; /* If the src rect and the extents of the source image don't overlap at all, * we can't do anything useful here. */ if (src_r.x > src_extents.width || src_r.y > src_extents.height || (src_r.x + src_r.width) < 0 || (src_r.y + src_r.height) < 0) { if (op == CAIRO_OPERATOR_OVER) return CAIRO_STATUS_SUCCESS; goto UNSUPPORTED; } if (src_r.x < 0) { src_r.width += src_r.x; src_r.x = 0; dst_r.width += src_r.x; dst_r.x -= src_r.x; } if (src_r.y < 0) { src_r.height += src_r.y; src_r.y = 0; dst_r.height += dst_r.y; dst_r.y -= src_r.y; } if (src_r.x + src_r.width > src_extents.width) { src_r.width = src_extents.width - src_r.x; dst_r.width = src_r.width; } if (src_r.y + src_r.height > src_extents.height) { src_r.height = src_extents.height - src_r.y; dst_r.height = src_r.height; } } else { needs_repeat = TRUE; } /* * Operations that we can do: * * RGB OVER RGB -> BitBlt (same as SOURCE) * RGB OVER ARGB -> UNSUPPORTED (AlphaBlend treats this as a BitBlt, even with SCA 255 and no AC_SRC_ALPHA) * ARGB OVER ARGB -> AlphaBlend, with AC_SRC_ALPHA * ARGB OVER RGB -> AlphaBlend, with AC_SRC_ALPHA; we'll have junk in the dst A byte * * RGB OVER RGB + mask -> AlphaBlend, no AC_SRC_ALPHA * RGB OVER ARGB + mask -> UNSUPPORTED * ARGB OVER ARGB + mask -> AlphaBlend, with AC_SRC_ALPHA * ARGB OVER RGB + mask -> AlphaBlend, with AC_SRC_ALPHA; junk in the dst A byte * * RGB SOURCE RGB -> BitBlt * RGB SOURCE ARGB -> UNSUPPORTED (AlphaBlend treats this as a BitBlt, even with SCA 255 and no AC_SRC_ALPHA) * ARGB SOURCE ARGB -> BitBlt * ARGB SOURCE RGB -> BitBlt * * RGB SOURCE RGB + mask -> unsupported * RGB SOURCE ARGB + mask -> unsupported * ARGB SOURCE ARGB + mask -> unsupported * ARGB SOURCE RGB + mask -> unsupported */ /* * Figure out what action to take. */ if (op == CAIRO_OPERATOR_OVER) { if (alpha == 0) return CAIRO_STATUS_SUCCESS; if (src_format == dst->format) { if (alpha == 255 && src_format == CAIRO_FORMAT_RGB24) { needs_alpha = FALSE; } else { needs_alpha = TRUE; } } else if (src_format == CAIRO_FORMAT_ARGB32 && dst->format == CAIRO_FORMAT_RGB24) { needs_alpha = TRUE; } else { goto UNSUPPORTED; } } else if (alpha == 255 && op == CAIRO_OPERATOR_SOURCE) { if ((src_format == dst->format) || (src_format == CAIRO_FORMAT_ARGB32 && dst->format == CAIRO_FORMAT_RGB24)) { needs_alpha = FALSE; } else { goto UNSUPPORTED; } } else { goto UNSUPPORTED; } if (scalex == 1.0 && scaley == 1.0) { needs_scale = FALSE; } else { /* Should never be reached until we turn StretchBlt back on */ needs_scale = TRUE; } #ifdef DEBUG_COMPOSITE fprintf (stderr, "action: [%d %d %d %d] -> [%d %d %d %d]\n", src_r.x, src_r.y, src_r.width, src_r.height, dst_r.x, dst_r.y, dst_r.width, dst_r.height); fflush (stderr); #endif status = _cairo_win32_surface_set_clip_region (dst, clip_region); if (status) return status; /* If we need to repeat, we turn the repeated blit into * a bunch of piece-by-piece blits. */ if (needs_repeat) { cairo_rectangle_int_t piece_src_r, piece_dst_r; uint32_t rendered_width = 0, rendered_height = 0; uint32_t to_render_height, to_render_width; int32_t piece_x, piece_y; int32_t src_start_x = MOD(src_r.x, src_extents.width); int32_t src_start_y = MOD(src_r.y, src_extents.height); if (needs_scale) goto UNSUPPORTED; /* If both the src and dest have an image, we may as well fall * back, because it will be faster than our separate blits. * Our blit code will be fastest when the src is a DDB and the * destination is a DDB. */ if ((src_image || src->image) && dst->image) goto UNSUPPORTED; /* If the src is not a bitmap but an on-screen (or unknown) * DC, chances are that fallback will be faster. */ if (src->bitmap == NULL) goto UNSUPPORTED; /* If we can use PatBlt, just do so */ if (!src_image && !needs_alpha) { HBRUSH brush; HGDIOBJ old_brush; POINT old_brush_origin; /* Set up the brush with our bitmap */ brush = CreatePatternBrush (src->bitmap); /* SetBrushOrgEx sets the coordinates in the destination DC of where the * pattern should start. */ SetBrushOrgEx (dst->dc, dst_r.x - src_start_x, dst_r.y - src_start_y, &old_brush_origin); old_brush = SelectObject (dst->dc, brush); PatBlt (dst->dc, dst_r.x, dst_r.y, dst_r.width, dst_r.height, PATCOPY); /* Restore the old brush and pen */ SetBrushOrgEx (dst->dc, old_brush_origin.x, old_brush_origin.y, NULL); SelectObject (dst->dc, old_brush); DeleteObject (brush); return CAIRO_STATUS_SUCCESS; } /* If we were not able to use PatBlt, then manually expand out the blit */ /* Arbitrary factor; we think that going through * fallback will be faster if we have to do more * than this amount of blits in either direction. */ if (dst_r.width / src_extents.width > 5 || dst_r.height / src_extents.height > 5) goto UNSUPPORTED; for (rendered_height = 0; rendered_height < dst_r.height; rendered_height += to_render_height) { piece_y = (src_start_y + rendered_height) % src_extents.height; to_render_height = src_extents.height - piece_y; if (rendered_height + to_render_height > dst_r.height) to_render_height = dst_r.height - rendered_height; for (rendered_width = 0; rendered_width < dst_r.width; rendered_width += to_render_width) { piece_x = (src_start_x + rendered_width) % src_extents.width; to_render_width = src_extents.width - piece_x; if (rendered_width + to_render_width > dst_r.width) to_render_width = dst_r.width - rendered_width; piece_src_r.x = piece_x; piece_src_r.y = piece_y; piece_src_r.width = to_render_width; piece_src_r.height = to_render_height; piece_dst_r.x = dst_r.x + rendered_width; piece_dst_r.y = dst_r.y + rendered_height; piece_dst_r.width = to_render_width; piece_dst_r.height = to_render_height; status = _cairo_win32_surface_composite_inner (src, src_image, dst, src_extents, piece_src_r, piece_dst_r, alpha, needs_alpha, needs_scale); if (status != CAIRO_STATUS_SUCCESS) { /* Uh oh. If something failed, and it's the first * piece, then we can jump to UNSUPPORTED. * Otherwise, this is bad times, because part of the * rendering was already done. */ if (rendered_width == 0 && rendered_height == 0) { goto UNSUPPORTED; } return status; } } } } else { status = _cairo_win32_surface_composite_inner (src, src_image, dst, src_extents, src_r, dst_r, alpha, needs_alpha, needs_scale); } if (status == CAIRO_STATUS_SUCCESS) return status; UNSUPPORTED: /* Fall back to image surface directly, if this is a DIB surface */ if (dst->image) { GdiFlush(); #if 0 return dst->image->backend->composite (op, pattern, mask_pattern, dst->image, src_x, src_y, mask_x, mask_y, dst_x, dst_y, width, height, clip_region); #endif } return CAIRO_INT_STATUS_UNSUPPORTED; } /* This big function tells us how to optimize operators for the * case of solid destination and constant-alpha source * * Note: This function needs revisiting if we add support for * super-luminescent colors (a == 0, r,g,b > 0) */ static enum { DO_CLEAR, DO_SOURCE, DO_NOTHING, DO_UNSUPPORTED } categorize_solid_dest_operator (cairo_operator_t op, unsigned short alpha) { enum { SOURCE_TRANSPARENT, SOURCE_LIGHT, SOURCE_SOLID, SOURCE_OTHER } source; if (alpha >= 0xff00) source = SOURCE_SOLID; else if (alpha < 0x100) source = SOURCE_TRANSPARENT; else source = SOURCE_OTHER; switch (op) { case CAIRO_OPERATOR_CLEAR: /* 0 0 */ case CAIRO_OPERATOR_OUT: /* 1 - Ab 0 */ return DO_CLEAR; break; case CAIRO_OPERATOR_SOURCE: /* 1 0 */ case CAIRO_OPERATOR_IN: /* Ab 0 */ return DO_SOURCE; break; case CAIRO_OPERATOR_OVER: /* 1 1 - Aa */ case CAIRO_OPERATOR_ATOP: /* Ab 1 - Aa */ if (source == SOURCE_SOLID) return DO_SOURCE; else if (source == SOURCE_TRANSPARENT) return DO_NOTHING; else return DO_UNSUPPORTED; break; case CAIRO_OPERATOR_DEST_OUT: /* 0 1 - Aa */ case CAIRO_OPERATOR_XOR: /* 1 - Ab 1 - Aa */ if (source == SOURCE_SOLID) return DO_CLEAR; else if (source == SOURCE_TRANSPARENT) return DO_NOTHING; else return DO_UNSUPPORTED; break; case CAIRO_OPERATOR_DEST: /* 0 1 */ case CAIRO_OPERATOR_DEST_OVER:/* 1 - Ab 1 */ case CAIRO_OPERATOR_SATURATE: /* min(1,(1-Ab)/Aa) 1 */ return DO_NOTHING; break; case CAIRO_OPERATOR_DEST_IN: /* 0 Aa */ case CAIRO_OPERATOR_DEST_ATOP:/* 1 - Ab Aa */ if (source == SOURCE_SOLID) return DO_NOTHING; else if (source == SOURCE_TRANSPARENT) return DO_CLEAR; else return DO_UNSUPPORTED; break; case CAIRO_OPERATOR_ADD: /* 1 1 */ if (source == SOURCE_TRANSPARENT) return DO_NOTHING; else return DO_UNSUPPORTED; break; case CAIRO_OPERATOR_MULTIPLY: case CAIRO_OPERATOR_SCREEN: case CAIRO_OPERATOR_OVERLAY: case CAIRO_OPERATOR_DARKEN: case CAIRO_OPERATOR_LIGHTEN: case CAIRO_OPERATOR_COLOR_DODGE: case CAIRO_OPERATOR_COLOR_BURN: case CAIRO_OPERATOR_HARD_LIGHT: case CAIRO_OPERATOR_SOFT_LIGHT: case CAIRO_OPERATOR_DIFFERENCE: case CAIRO_OPERATOR_EXCLUSION: case CAIRO_OPERATOR_HSL_HUE: case CAIRO_OPERATOR_HSL_SATURATION: case CAIRO_OPERATOR_HSL_COLOR: case CAIRO_OPERATOR_HSL_LUMINOSITY: return DO_UNSUPPORTED; default: ASSERT_NOT_REACHED; return DO_UNSUPPORTED; } } static cairo_int_status_t _cairo_win32_surface_fill_rectangles (void *abstract_surface, cairo_operator_t op, const cairo_color_t *color, cairo_rectangle_int_t *rects, int num_rects) { cairo_win32_surface_t *surface = abstract_surface; cairo_status_t status; COLORREF new_color; HBRUSH new_brush; int i; /* XXXperf If it's not RGB24, we need to do a little more checking * to figure out when we can use GDI. We don't have that checking * anywhere at the moment, so just bail and use the fallback * paths. */ if (surface->format != CAIRO_FORMAT_RGB24) return CAIRO_INT_STATUS_UNSUPPORTED; status = _cairo_win32_surface_set_clip_region (surface, NULL); if (status) return status; /* Optimize for no destination alpha (surface->pixman_image is non-NULL for all * surfaces with alpha.) */ switch (categorize_solid_dest_operator (op, color->alpha_short)) { case DO_CLEAR: new_color = RGB (0, 0, 0); break; case DO_SOURCE: new_color = RGB (color->red_short >> 8, color->green_short >> 8, color->blue_short >> 8); break; case DO_NOTHING: return CAIRO_STATUS_SUCCESS; case DO_UNSUPPORTED: default: return CAIRO_INT_STATUS_UNSUPPORTED; } new_brush = CreateSolidBrush (new_color); if (!new_brush) return _cairo_win32_print_gdi_error ("_cairo_win32_surface_fill_rectangles"); for (i = 0; i < num_rects; i++) { RECT rect; rect.left = rects[i].x; rect.top = rects[i].y; rect.right = rects[i].x + rects[i].width; rect.bottom = rects[i].y + rects[i].height; if (!FillRect (surface->dc, &rect, new_brush)) goto FAIL; } DeleteObject (new_brush); return CAIRO_STATUS_SUCCESS; FAIL: status = _cairo_win32_print_gdi_error ("_cairo_win32_surface_fill_rectangles"); DeleteObject (new_brush); return status; } cairo_bool_t _cairo_win32_surface_get_extents (void *abstract_surface, cairo_rectangle_int_t *rectangle) { cairo_win32_surface_t *surface = abstract_surface; *rectangle = surface->extents; return TRUE; } static cairo_status_t _cairo_win32_surface_flush (void *abstract_surface) { return _cairo_win32_surface_set_clip_region (abstract_surface, NULL); } #define STACK_GLYPH_SIZE 256 cairo_int_status_t _cairo_win32_surface_show_glyphs_internal (void *surface, cairo_operator_t op, const cairo_pattern_t *source, cairo_glyph_t *glyphs, int num_glyphs, cairo_scaled_font_t *scaled_font, const cairo_clip_t *clip, cairo_bool_t glyph_indexing) { #if CAIRO_HAS_WIN32_FONT cairo_win32_surface_t *dst = surface; WORD glyph_buf_stack[STACK_GLYPH_SIZE]; WORD *glyph_buf = glyph_buf_stack; int dxy_buf_stack[2 * STACK_GLYPH_SIZE]; int *dxy_buf = dxy_buf_stack; BOOL win_result = 0; int i, j; cairo_solid_pattern_t *solid_pattern; COLORREF color; cairo_matrix_t device_to_logical; int start_x, start_y; double user_x, user_y; int logical_x, logical_y; unsigned int glyph_index_option; /* We can only handle win32 fonts */ if (cairo_scaled_font_get_type (scaled_font) != CAIRO_FONT_TYPE_WIN32) return CAIRO_INT_STATUS_UNSUPPORTED; /* We can only handle opaque solid color sources */ if (!_cairo_pattern_is_opaque_solid(source)) return CAIRO_INT_STATUS_UNSUPPORTED; /* We can only handle operator SOURCE or OVER with the destination * having no alpha */ if ((op != CAIRO_OPERATOR_SOURCE && op != CAIRO_OPERATOR_OVER) || (dst->format != CAIRO_FORMAT_RGB24)) return CAIRO_INT_STATUS_UNSUPPORTED; /* If we have a fallback mask clip set on the dst, we have * to go through the fallback path, but only if we're not * doing this for printing */ if (clip != NULL) { if ((dst->flags & CAIRO_WIN32_SURFACE_FOR_PRINTING) == 0) { if (! _cairo_clip_is_region (clip)) return CAIRO_INT_STATUS_UNSUPPORTED; _cairo_win32_surface_set_clip_region (surface, _cairo_clip_get_region (clip)); } } solid_pattern = (cairo_solid_pattern_t *)source; color = RGB(((int)solid_pattern->color.red_short) >> 8, ((int)solid_pattern->color.green_short) >> 8, ((int)solid_pattern->color.blue_short) >> 8); cairo_win32_scaled_font_get_device_to_logical(scaled_font, &device_to_logical); SaveDC(dst->dc); cairo_win32_scaled_font_select_font(scaled_font, dst->dc); SetTextColor(dst->dc, color); SetTextAlign(dst->dc, TA_BASELINE | TA_LEFT); SetBkMode(dst->dc, TRANSPARENT); if (num_glyphs > STACK_GLYPH_SIZE) { glyph_buf = (WORD *) _cairo_malloc_ab (num_glyphs, sizeof(WORD)); dxy_buf = (int *) _cairo_malloc_abc (num_glyphs, sizeof(int), 2); } /* It is vital that dx values for dxy_buf are calculated from the delta of * _logical_ x coordinates (not user x coordinates) or else the sum of all * previous dx values may start to diverge from the current glyph's x * coordinate due to accumulated rounding error. As a result strings could * be painted shorter or longer than expected. */ user_x = glyphs[0].x; user_y = glyphs[0].y; cairo_matrix_transform_point(&device_to_logical, &user_x, &user_y); logical_x = _cairo_lround (user_x); logical_y = _cairo_lround (user_y); start_x = logical_x; start_y = logical_y; for (i = 0, j = 0; i < num_glyphs; ++i, j = 2 * i) { glyph_buf[i] = (WORD) glyphs[i].index; if (i == num_glyphs - 1) { dxy_buf[j] = 0; dxy_buf[j+1] = 0; } else { double next_user_x = glyphs[i+1].x; double next_user_y = glyphs[i+1].y; int next_logical_x, next_logical_y; cairo_matrix_transform_point(&device_to_logical, &next_user_x, &next_user_y); next_logical_x = _cairo_lround (next_user_x); next_logical_y = _cairo_lround (next_user_y); dxy_buf[j] = _cairo_lround (next_logical_x - logical_x); dxy_buf[j+1] = _cairo_lround (next_logical_y - logical_y); logical_x = next_logical_x; logical_y = next_logical_y; } } if (glyph_indexing) glyph_index_option = ETO_GLYPH_INDEX; else glyph_index_option = 0; win_result = ExtTextOutW(dst->dc, start_x, start_y, glyph_index_option | ETO_PDY, NULL, glyph_buf, num_glyphs, dxy_buf); if (!win_result) { _cairo_win32_print_gdi_error("_cairo_win32_surface_show_glyphs(ExtTextOutW failed)"); } RestoreDC(dst->dc, -1); if (glyph_buf != glyph_buf_stack) { free(glyph_buf); free(dxy_buf); } return (win_result) ? CAIRO_STATUS_SUCCESS : CAIRO_INT_STATUS_UNSUPPORTED; #else return CAIRO_INT_STATUS_UNSUPPORTED; #endif } #undef STACK_GLYPH_SIZE cairo_int_status_t _cairo_win32_surface_show_glyphs (void *surface, cairo_operator_t op, const cairo_pattern_t *source, cairo_glyph_t *glyphs, int num_glyphs, cairo_scaled_font_t *scaled_font, const cairo_clip_t *clip) { return _cairo_win32_surface_show_glyphs_internal (surface, op, source, glyphs, num_glyphs, scaled_font, clip, TRUE); } /** * cairo_win32_surface_create: * @hdc: the DC to create a surface for * * Creates a cairo surface that targets the given DC. The DC will be * queried for its initial clip extents, and this will be used as the * size of the cairo surface. The resulting surface will always be of * format %CAIRO_FORMAT_RGB24; should you need another surface format, * you will need to create one through * cairo_win32_surface_create_with_dib(). * * Return value: the newly created surface **/ cairo_surface_t * cairo_win32_surface_create (HDC hdc) { cairo_win32_surface_t *surface; cairo_format_t format; RECT rect; /* Assume that everything coming in as a HDC is RGB24 */ format = CAIRO_FORMAT_RGB24; surface = malloc (sizeof (cairo_win32_surface_t)); if (surface == NULL) return _cairo_surface_create_in_error (_cairo_error (CAIRO_STATUS_NO_MEMORY)); if (_cairo_win32_save_initial_clip (hdc, surface) != CAIRO_STATUS_SUCCESS) { free (surface); return _cairo_surface_create_in_error (_cairo_error (CAIRO_STATUS_NO_MEMORY)); } surface->clip_region = NULL; surface->image = NULL; surface->format = format; surface->dc = hdc; surface->bitmap = NULL; surface->is_dib = FALSE; surface->saved_dc_bitmap = NULL; surface->brush = NULL; surface->old_brush = NULL; surface->font_subsets = NULL; GetClipBox(hdc, &rect); surface->extents.x = rect.left; surface->extents.y = rect.top; surface->extents.width = rect.right - rect.left; surface->extents.height = rect.bottom - rect.top; surface->flags = _cairo_win32_flags_for_dc (surface->dc); _cairo_surface_init (&surface->base, &cairo_win32_surface_backend, NULL, /* device */ _cairo_content_from_format (format)); return &surface->base; } /** * cairo_win32_surface_create_with_dib: * @format: format of pixels in the surface to create * @width: width of the surface, in pixels * @height: height of the surface, in pixels * * Creates a device-independent-bitmap surface not associated with * any particular existing surface or device context. The created * bitmap will be uninitialized. * * Return value: the newly created surface * * Since: 1.2 **/ cairo_surface_t * cairo_win32_surface_create_with_dib (cairo_format_t format, int width, int height) { return _cairo_win32_surface_create_for_dc (NULL, format, width, height); } /** * cairo_win32_surface_create_with_ddb: * @hdc: a DC compatible with the surface to create * @format: format of pixels in the surface to create * @width: width of the surface, in pixels * @height: height of the surface, in pixels * * Creates a device-dependent-bitmap surface not associated with * any particular existing surface or device context. The created * bitmap will be uninitialized. * * Return value: the newly created surface * * Since: 1.4 **/ cairo_surface_t * cairo_win32_surface_create_with_ddb (HDC hdc, cairo_format_t format, int width, int height) { cairo_win32_surface_t *new_surf; HBITMAP ddb; HDC screen_dc, ddb_dc; HBITMAP saved_dc_bitmap; if (format != CAIRO_FORMAT_RGB24) return _cairo_surface_create_in_error (_cairo_error (CAIRO_STATUS_INVALID_FORMAT)); /* XXX handle these eventually format != CAIRO_FORMAT_A8 || format != CAIRO_FORMAT_A1) */ if (!hdc) { screen_dc = GetDC (NULL); hdc = screen_dc; } else { screen_dc = NULL; } ddb_dc = CreateCompatibleDC (hdc); if (ddb_dc == NULL) { new_surf = (cairo_win32_surface_t*) _cairo_surface_create_in_error (_cairo_error (CAIRO_STATUS_NO_MEMORY)); goto FINISH; } ddb = CreateCompatibleBitmap (hdc, width, height); if (ddb == NULL) { DeleteDC (ddb_dc); /* Note that if an app actually does hit this out of memory * condition, it's going to have lots of other issues, as * video memory is probably exhausted. However, it can often * continue using DIBs instead of DDBs. */ new_surf = (cairo_win32_surface_t*) _cairo_surface_create_in_error (_cairo_error (CAIRO_STATUS_NO_MEMORY)); goto FINISH; } saved_dc_bitmap = SelectObject (ddb_dc, ddb); new_surf = (cairo_win32_surface_t*) cairo_win32_surface_create (ddb_dc); new_surf->bitmap = ddb; new_surf->saved_dc_bitmap = saved_dc_bitmap; new_surf->is_dib = FALSE; FINISH: if (screen_dc) ReleaseDC (NULL, screen_dc); return (cairo_surface_t*) new_surf; } /** * _cairo_surface_is_win32: * @surface: a #cairo_surface_t * * Checks if a surface is a win32 surface. This will * return False if this is a win32 printing surface; use * _cairo_surface_is_win32_printing() to check for that. * * Return value: True if the surface is an win32 surface **/ int _cairo_surface_is_win32 (cairo_surface_t *surface) { return surface->backend == &cairo_win32_surface_backend; } /** * cairo_win32_surface_get_dc * @surface: a #cairo_surface_t * * Returns the HDC associated with this surface, or %NULL if none. * Also returns %NULL if the surface is not a win32 surface. * * A call to cairo_surface_flush() is required before using the HDC to * ensure that all pending drawing operations are finished and to * restore any temporary modification cairo has made to its state. A * call to cairo_surface_mark_dirty() is required after the state or * the content of the HDC has been modified. * * Return value: HDC or %NULL if no HDC available. * * Since: 1.2 **/ HDC cairo_win32_surface_get_dc (cairo_surface_t *surface) { if (_cairo_surface_is_win32 (surface)) return ((cairo_win32_surface_t *) target)->dc; if (_cairo_surface_is_paginated (surface)) { cairo_surface_t *target = _cairo_paginated_surface_get_target (surface); if (_cairo_surface_is_win32_printing (target)) return ((cairo_win32_surface_t *) target)->dc; } return NULL; } /** * cairo_win32_surface_get_image * @surface: a #cairo_surface_t * * Returns a #cairo_surface_t image surface that refers to the same bits * as the DIB of the Win32 surface. If the passed-in win32 surface * is not a DIB surface, %NULL is returned. * * Return value: a #cairo_surface_t (owned by the win32 #cairo_surface_t), * or %NULL if the win32 surface is not a DIB. * * Since: 1.4 */ cairo_surface_t * cairo_win32_surface_get_image (cairo_surface_t *surface) { if (!_cairo_surface_is_win32(surface)) return NULL; return ((cairo_win32_surface_t*)surface)->image; } static const cairo_surface_backend_t cairo_win32_surface_backend = { CAIRO_SURFACE_TYPE_WIN32, _cairo_win32_surface_finish, _cairo_default_context_create, _cairo_win32_surface_create_similar, NULL, _cairo_win32_surface_map_to_image, _cairo_win32_surface_unmap_image, _cairo_surface_default_source, _cairo_win32_surface_acquire_source_image, _cairo_win32_surface_release_source_image, NULL, /* snapshot */ NULL, /* copy_page */ NULL, /* show_page */ _cairo_win32_surface_get_extents, NULL, /* get_font_options */ _cairo_win32_surface_flush, NULL, /* mark_dirty_rectangle */ NULL, /* paint */ NULL, /* mask */ NULL, /* stroke */ NULL, /* fill */ NULL, /* fill/stroke */ _cairo_win32_surface_show_glyphs, }; /* Notes: * * Win32 alpha-understanding functions * * BitBlt - will copy full 32 bits from a 32bpp DIB to result * (so it's safe to use for ARGB32->ARGB32 SOURCE blits) * (but not safe going RGB24->ARGB32, if RGB24 is also represented * as a 32bpp DIB, since the alpha isn't discarded!) * * AlphaBlend - if both the source and dest have alpha, even if AC_SRC_ALPHA isn't set, * it will still copy over the src alpha, because the SCA value (255) will be * multiplied by all the src components. */ cairo_int_status_t _cairo_win32_save_initial_clip (HDC hdc, cairo_win32_surface_t *surface) { RECT rect; int clipBoxType; int gm; XFORM saved_xform; /* GetClipBox/GetClipRgn and friends interact badly with a world transform * set. GetClipBox returns values in logical (transformed) coordinates; * it's unclear what GetClipRgn returns, because the region is empty in the * case of a SIMPLEREGION clip, but I assume device (untransformed) coordinates. * Similarly, IntersectClipRect works in logical units, whereas SelectClipRgn * works in device units. * * So, avoid the whole mess and get rid of the world transform * while we store our initial data and when we restore initial coordinates. * * XXX we may need to modify x/y by the ViewportOrg or WindowOrg * here in GM_COMPATIBLE; unclear. */ gm = GetGraphicsMode (hdc); if (gm == GM_ADVANCED) { GetWorldTransform (hdc, &saved_xform); ModifyWorldTransform (hdc, NULL, MWT_IDENTITY); } clipBoxType = GetClipBox (hdc, &rect); if (clipBoxType == ERROR) { _cairo_win32_print_gdi_error ("cairo_win32_surface_create"); SetGraphicsMode (hdc, gm); /* XXX: Can we make a more reasonable guess at the error cause here? */ return _cairo_error (CAIRO_STATUS_NO_MEMORY); } surface->clip_rect.x = rect.left; surface->clip_rect.y = rect.top; surface->clip_rect.width = rect.right - rect.left; surface->clip_rect.height = rect.bottom - rect.top; surface->initial_clip_rgn = NULL; surface->had_simple_clip = FALSE; if (clipBoxType == COMPLEXREGION) { surface->initial_clip_rgn = CreateRectRgn (0, 0, 0, 0); if (GetClipRgn (hdc, surface->initial_clip_rgn) <= 0) { DeleteObject(surface->initial_clip_rgn); surface->initial_clip_rgn = NULL; } } else if (clipBoxType == SIMPLEREGION) { surface->had_simple_clip = TRUE; } if (gm == GM_ADVANCED) SetWorldTransform (hdc, &saved_xform); return CAIRO_STATUS_SUCCESS; } cairo_int_status_t _cairo_win32_restore_initial_clip (cairo_win32_surface_t *surface) { cairo_int_status_t status = CAIRO_STATUS_SUCCESS; XFORM saved_xform; int gm = GetGraphicsMode (surface->dc); if (gm == GM_ADVANCED) { GetWorldTransform (surface->dc, &saved_xform); ModifyWorldTransform (surface->dc, NULL, MWT_IDENTITY); } /* initial_clip_rgn will either be a real region or NULL (which means reset to no clip region) */ SelectClipRgn (surface->dc, surface->initial_clip_rgn); if (surface->had_simple_clip) { /* then if we had a simple clip, intersect */ IntersectClipRect (surface->dc, surface->clip_rect.x, surface->clip_rect.y, surface->clip_rect.x + surface->clip_rect.width, surface->clip_rect.y + surface->clip_rect.height); } if (gm == GM_ADVANCED) SetWorldTransform (surface->dc, &saved_xform); return status; } void _cairo_win32_debug_dump_hrgn (HRGN rgn, char *header) { RGNDATA *rd; unsigned int z; if (header) fprintf (stderr, "%s\n", header); if (rgn == NULL) { fprintf (stderr, " NULL\n"); } z = GetRegionData(rgn, 0, NULL); rd = (RGNDATA*) malloc(z); z = GetRegionData(rgn, z, rd); fprintf (stderr, " %ld rects, bounds: %ld %ld %ld %ld\n", rd->rdh.nCount, rd->rdh.rcBound.left, rd->rdh.rcBound.top, rd->rdh.rcBound.right - rd->rdh.rcBound.left, rd->rdh.rcBound.bottom - rd->rdh.rcBound.top); for (z = 0; z < rd->rdh.nCount; z++) { RECT r = ((RECT*)rd->Buffer)[z]; fprintf (stderr, " [%d]: [%ld %ld %ld %ld]\n", z, r.left, r.top, r.right - r.left, r.bottom - r.top); } free(rd); fflush (stderr); }