/* * Unit test suite for metafiles * * Copyright (C) 2011 Vincent Povirk for CodeWeavers * * 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 */ #include #include "objbase.h" #include "gdiplus.h" #include "winspool.h" #include "wine/test.h" #define expect(expected, got) ok(got == expected, "Expected %.8x, got %.8x\n", expected, got) #define expectf_(expected, got, precision) ok(fabs((expected) - (got)) <= (precision), "Expected %f, got %f\n", (expected), (got)) #define expectf(expected, got) expectf_((expected), (got), 0.001) static BOOL save_metafiles; static BOOL load_metafiles; static const WCHAR description[] = L"winetest"; typedef struct emfplus_record { DWORD record_type; DWORD flags; /* Used for EMF+ records only. */ BOOL todo; BOOL playback_todo; void (*playback_fn)(GpMetafile* metafile, EmfPlusRecordType record_type, unsigned int flags, unsigned int dataSize, const unsigned char *pStr); DWORD broken_flags; } emfplus_record; typedef struct emfplus_check_state { const char *desc; int count; const struct emfplus_record *expected; GpMetafile *metafile; } emfplus_check_state; static void check_record(int count, const char *desc, const struct emfplus_record *expected, const struct emfplus_record *actual) { if (actual->record_type > GDIP_EMFPLUS_RECORD_BASE) { todo_wine_if (expected->todo) ok(expected->record_type == actual->record_type && (expected->flags == actual->flags || broken(expected->broken_flags == actual->flags)), "%s.%i: Expected record type 0x%x, got 0x%x. Expected flags %#x, got %#x.\n", desc, count, expected->record_type, actual->record_type, expected->flags, actual->flags); } else { todo_wine_if (expected->todo) ok(expected->record_type == actual->record_type, "%s.%i: Expected record type 0x%x, got 0x%x.\n", desc, count, expected->record_type, actual->record_type); } } typedef struct EmfPlusRecordHeader { WORD Type; WORD Flags; DWORD Size; DWORD DataSize; } EmfPlusRecordHeader; typedef enum { ObjectTypeInvalid, ObjectTypeBrush, ObjectTypePen, ObjectTypePath, ObjectTypeRegion, ObjectTypeImage, ObjectTypeFont, ObjectTypeStringFormat, ObjectTypeImageAttributes, ObjectTypeCustomLineCap, } ObjectType; typedef enum { ImageDataTypeUnknown, ImageDataTypeBitmap, ImageDataTypeMetafile, } ImageDataType; typedef struct { EmfPlusRecordHeader Header; /* EmfPlusImage */ DWORD Version; ImageDataType Type; /* EmfPlusMetafile */ DWORD MetafileType; DWORD MetafileDataSize; BYTE MetafileData[1]; } MetafileImageObject; static int CALLBACK enum_emf_proc(HDC hDC, HANDLETABLE *lpHTable, const ENHMETARECORD *lpEMFR, int nObj, LPARAM lpData) { emfplus_check_state *state = (emfplus_check_state*)lpData; emfplus_record actual; if (lpEMFR->iType == EMR_GDICOMMENT) { const EMRGDICOMMENT *comment = (const EMRGDICOMMENT*)lpEMFR; if (comment->cbData >= 4 && memcmp(comment->Data, "EMF+", 4) == 0) { int offset = 4; while (offset + sizeof(EmfPlusRecordHeader) <= comment->cbData) { const EmfPlusRecordHeader *record = (const EmfPlusRecordHeader*)&comment->Data[offset]; ok(record->Size == record->DataSize + sizeof(EmfPlusRecordHeader), "%s: EMF+ record datasize %u and size %u mismatch\n", state->desc, record->DataSize, record->Size); ok(offset + record->DataSize <= comment->cbData, "%s: EMF+ record truncated\n", state->desc); if (offset + record->DataSize > comment->cbData) return 0; if (state->expected[state->count].record_type) { actual.todo = FALSE; actual.record_type = record->Type; actual.flags = record->Flags; check_record(state->count, state->desc, &state->expected[state->count], &actual); state->count++; if (state->expected[state->count-1].todo && state->expected[state->count-1].record_type != actual.record_type) continue; } else { ok(0, "%s: Unexpected EMF+ 0x%x record\n", state->desc, record->Type); } if ((record->Flags >> 8) == ObjectTypeImage && record->Type == EmfPlusRecordTypeObject) { const MetafileImageObject *image = (const MetafileImageObject*)record; if (image->Type == ImageDataTypeMetafile) { HENHMETAFILE hemf = SetEnhMetaFileBits(image->MetafileDataSize, image->MetafileData); ok(hemf != NULL, "%s: SetEnhMetaFileBits failed\n", state->desc); EnumEnhMetaFile(0, hemf, enum_emf_proc, state, NULL); DeleteEnhMetaFile(hemf); } } offset += record->Size; } ok(offset == comment->cbData, "%s: truncated EMF+ record data?\n", state->desc); return 1; } } if (state->expected[state->count].record_type) { actual.todo = FALSE; actual.record_type = lpEMFR->iType; actual.flags = 0; check_record(state->count, state->desc, &state->expected[state->count], &actual); state->count++; } else { ok(0, "%s: Unexpected EMF 0x%x record\n", state->desc, lpEMFR->iType); } return 1; } static void check_emfplus(HENHMETAFILE hemf, const emfplus_record *expected, const char *desc) { emfplus_check_state state; state.desc = desc; state.count = 0; state.expected = expected; EnumEnhMetaFile(0, hemf, enum_emf_proc, &state, NULL); todo_wine_if (expected[state.count].todo) ok(expected[state.count].record_type == 0, "%s: Got %i records, expecting more\n", desc, state.count); } static BOOL CALLBACK enum_metafile_proc(EmfPlusRecordType record_type, unsigned int flags, unsigned int dataSize, const unsigned char *pStr, void *userdata) { emfplus_check_state *state = (emfplus_check_state*)userdata; emfplus_record actual; actual.todo = FALSE; actual.record_type = record_type; actual.flags = flags; if (dataSize == 0) ok(pStr == NULL, "non-NULL pStr\n"); if (state->expected[state->count].record_type) { check_record(state->count, state->desc, &state->expected[state->count], &actual); state->count++; } else { ok(0, "%s: Unexpected EMF 0x%x record\n", state->desc, record_type); } return TRUE; } static void check_metafile(GpMetafile *metafile, const emfplus_record *expected, const char *desc, const GpPointF *dst_points, const GpRectF *src_rect, Unit src_unit) { GpStatus stat; HDC hdc; GpGraphics *graphics; emfplus_check_state state; state.desc = desc; state.count = 0; state.expected = expected; state.metafile = metafile; hdc = CreateCompatibleDC(0); stat = GdipCreateFromHDC(hdc, &graphics); expect(Ok, stat); stat = GdipEnumerateMetafileSrcRectDestPoints(graphics, metafile, dst_points, 3, src_rect, src_unit, enum_metafile_proc, &state, NULL); expect(Ok, stat); todo_wine_if (expected[state.count].todo) ok(expected[state.count].record_type == 0, "%s: Got %i records, expecting more\n", desc, state.count); GdipDeleteGraphics(graphics); DeleteDC(hdc); } static BOOL CALLBACK play_metafile_proc(EmfPlusRecordType record_type, unsigned int flags, unsigned int dataSize, const unsigned char *pStr, void *userdata) { emfplus_check_state *state = (emfplus_check_state*)userdata; GpStatus stat; if (state->expected[state->count].record_type) { BOOL match = (state->expected[state->count].record_type == record_type); if (match && state->expected[state->count].playback_fn) state->expected[state->count].playback_fn(state->metafile, record_type, flags, dataSize, pStr); else { stat = GdipPlayMetafileRecord(state->metafile, record_type, flags, dataSize, pStr); todo_wine_if (state->expected[state->count].playback_todo) ok(stat == Ok, "%s.%i: GdipPlayMetafileRecord failed with stat %i\n", state->desc, state->count, stat); } todo_wine_if (state->expected[state->count].todo) ok(state->expected[state->count].record_type == record_type, "%s.%i: expected record type 0x%x, got 0x%x\n", state->desc, state->count, state->expected[state->count].record_type, record_type); state->count++; } else { todo_wine_if (state->expected[state->count].playback_todo) ok(0, "%s: unexpected record 0x%x\n", state->desc, record_type); return FALSE; } return TRUE; } static void play_metafile(GpMetafile *metafile, GpGraphics *graphics, const emfplus_record *expected, const char *desc, const GpPointF *dst_points, const GpRectF *src_rect, Unit src_unit) { GpStatus stat; emfplus_check_state state; state.desc = desc; state.count = 0; state.expected = expected; state.metafile = metafile; stat = GdipEnumerateMetafileSrcRectDestPoints(graphics, metafile, dst_points, 3, src_rect, src_unit, play_metafile_proc, &state, NULL); expect(Ok, stat); } /* When 'save' or 'load' is specified on the command line, save or * load the specified filename. */ static void sync_metafile(GpMetafile **metafile, const char *filename) { GpStatus stat; if (save_metafiles) { GpMetafile *clone; HENHMETAFILE hemf; stat = GdipCloneImage((GpImage*)*metafile, (GpImage**)&clone); expect(Ok, stat); stat = GdipGetHemfFromMetafile(clone, &hemf); expect(Ok, stat); DeleteEnhMetaFile(CopyEnhMetaFileA(hemf, filename)); DeleteEnhMetaFile(hemf); stat = GdipDisposeImage((GpImage*)clone); expect(Ok, stat); } else if (load_metafiles) { HENHMETAFILE hemf; stat = GdipDisposeImage((GpImage*)*metafile); expect(Ok, stat); *metafile = NULL; hemf = GetEnhMetaFileA(filename); ok(hemf != NULL, "%s could not be opened\n", filename); stat = GdipCreateMetafileFromEmf(hemf, TRUE, metafile); expect(Ok, stat); } } static const emfplus_record empty_records[] = { { EMR_HEADER }, { EmfPlusRecordTypeHeader }, { EmfPlusRecordTypeEndOfFile }, { EMR_EOF }, { 0 } }; static void test_empty(void) { GpStatus stat; GpMetafile *metafile; GpGraphics *graphics; HDC hdc; GpRectF bounds; GpUnit unit; REAL xres, yres; HENHMETAFILE hemf, dummy; MetafileHeader header; static const GpRectF frame = {0.0, 0.0, 100.0, 100.0}; static const GpPointF dst_points[3] = {{0.0,0.0},{100.0,0.0},{0.0,100.0}}; UINT limit_dpi; hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(NULL, EmfTypeEmfPlusOnly, &frame, MetafileFrameUnitPixel, description, &metafile); expect(InvalidParameter, stat); stat = GdipRecordMetafile(hdc, MetafileTypeInvalid, &frame, MetafileFrameUnitPixel, description, &metafile); expect(InvalidParameter, stat); stat = GdipRecordMetafile(hdc, MetafileTypeWmf, &frame, MetafileFrameUnitPixel, description, &metafile); expect(InvalidParameter, stat); stat = GdipRecordMetafile(hdc, MetafileTypeWmfPlaceable, &frame, MetafileFrameUnitPixel, description, &metafile); expect(InvalidParameter, stat); stat = GdipRecordMetafile(hdc, MetafileTypeEmfPlusDual+1, &frame, MetafileFrameUnitPixel, description, &metafile); expect(InvalidParameter, stat); stat = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, &frame, MetafileFrameUnitPixel, description, NULL); expect(InvalidParameter, stat); stat = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, &frame, MetafileFrameUnitPixel, description, &metafile); expect(Ok, stat); DeleteDC(hdc); if (stat != Ok) return; stat = GdipGetMetafileDownLevelRasterizationLimit(metafile, NULL); expect(InvalidParameter, stat); stat = GdipGetMetafileDownLevelRasterizationLimit(NULL, &limit_dpi); expect(InvalidParameter, stat); limit_dpi = 0xdeadbeef; stat = GdipGetMetafileDownLevelRasterizationLimit(metafile, &limit_dpi); expect(Ok, stat); ok(limit_dpi == 96, "limit_dpi was %d\n", limit_dpi); stat = GdipSetMetafileDownLevelRasterizationLimit(metafile, 255); expect(Ok, stat); limit_dpi = 0xdeadbeef; stat = GdipGetMetafileDownLevelRasterizationLimit(metafile, &limit_dpi); expect(Ok, stat); ok(limit_dpi == 255, "limit_dpi was %d\n", limit_dpi); stat = GdipSetMetafileDownLevelRasterizationLimit(metafile, 0); expect(Ok, stat); limit_dpi = 0xdeadbeef; stat = GdipGetMetafileDownLevelRasterizationLimit(metafile, &limit_dpi); expect(Ok, stat); ok(limit_dpi == 96, "limit_dpi was %d\n", limit_dpi); stat = GdipSetMetafileDownLevelRasterizationLimit(metafile, 1); expect(InvalidParameter, stat); stat = GdipSetMetafileDownLevelRasterizationLimit(metafile, 9); expect(InvalidParameter, stat); stat = GdipSetMetafileDownLevelRasterizationLimit(metafile, 10); expect(Ok, stat); stat = GdipGetHemfFromMetafile(metafile, &hemf); expect(InvalidParameter, stat); stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); stat = GdipGetHemfFromMetafile(metafile, &hemf); expect(InvalidParameter, stat); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); limit_dpi = 0xdeadbeef; stat = GdipGetMetafileDownLevelRasterizationLimit(metafile, &limit_dpi); expect(WrongState, stat); expect(0xdeadbeef, limit_dpi); stat = GdipSetMetafileDownLevelRasterizationLimit(metafile, 200); expect(WrongState, stat); check_metafile(metafile, empty_records, "empty metafile", dst_points, &frame, UnitPixel); sync_metafile(&metafile, "empty.emf"); stat = GdipGetImageBounds((GpImage*)metafile, &bounds, &unit); expect(Ok, stat); expectf(0.0, bounds.X); expectf(0.0, bounds.Y); expectf_(100.0, bounds.Width, 0.05); expectf_(100.0, bounds.Height, 0.05); expect(UnitPixel, unit); stat = GdipGetImageHorizontalResolution((GpImage*)metafile, &xres); expect(Ok, stat); stat = GdipGetImageVerticalResolution((GpImage*)metafile, &yres); expect(Ok, stat); memset(&header, 0xaa, sizeof(header)); stat = GdipGetMetafileHeaderFromMetafile(metafile, &header); expect(Ok, stat); expect(MetafileTypeEmfPlusOnly, header.Type); expect(U(header).EmfHeader.nBytes, header.Size); ok(header.Version == 0xdbc01001 || header.Version == 0xdbc01002, "Unexpected version %x\n", header.Version); expect(1, header.EmfPlusFlags); /* reference device was display, not printer */ expectf(xres, header.DpiX); expectf(xres, U(header).EmfHeader.szlDevice.cx / (REAL)U(header).EmfHeader.szlMillimeters.cx * 25.4); expectf(yres, header.DpiY); expectf(yres, U(header).EmfHeader.szlDevice.cy / (REAL)U(header).EmfHeader.szlMillimeters.cy * 25.4); expect(0, header.X); expect(0, header.Y); expect(100, header.Width); expect(100, header.Height); expect(28, header.EmfPlusHeaderSize); expect(96, header.LogicalDpiX); expect(96, header.LogicalDpiY); expect(EMR_HEADER, U(header).EmfHeader.iType); expect(0, U(header).EmfHeader.rclBounds.left); expect(0, U(header).EmfHeader.rclBounds.top); expect(-1, U(header).EmfHeader.rclBounds.right); expect(-1, U(header).EmfHeader.rclBounds.bottom); expect(0, U(header).EmfHeader.rclFrame.left); expect(0, U(header).EmfHeader.rclFrame.top); expectf_(100.0, U(header).EmfHeader.rclFrame.right * xres / 2540.0, 2.0); expectf_(100.0, U(header).EmfHeader.rclFrame.bottom * yres / 2540.0, 2.0); stat = GdipGetHemfFromMetafile(metafile, &hemf); expect(Ok, stat); stat = GdipGetHemfFromMetafile(metafile, &dummy); expect(InvalidParameter, stat); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); check_emfplus(hemf, empty_records, "empty emf"); memset(&header, 0xaa, sizeof(header)); stat = GdipGetMetafileHeaderFromEmf(hemf, &header); expect(Ok, stat); expect(MetafileTypeEmfPlusOnly, header.Type); expect(U(header).EmfHeader.nBytes, header.Size); ok(header.Version == 0xdbc01001 || header.Version == 0xdbc01002, "Unexpected version %x\n", header.Version); expect(1, header.EmfPlusFlags); /* reference device was display, not printer */ expectf(xres, header.DpiX); expectf(xres, U(header).EmfHeader.szlDevice.cx / (REAL)U(header).EmfHeader.szlMillimeters.cx * 25.4); expectf(yres, header.DpiY); expectf(yres, U(header).EmfHeader.szlDevice.cy / (REAL)U(header).EmfHeader.szlMillimeters.cy * 25.4); expect(0, header.X); expect(0, header.Y); expect(100, header.Width); expect(100, header.Height); expect(28, header.EmfPlusHeaderSize); expect(96, header.LogicalDpiX); expect(96, header.LogicalDpiY); expect(EMR_HEADER, U(header).EmfHeader.iType); expect(0, U(header).EmfHeader.rclBounds.left); expect(0, U(header).EmfHeader.rclBounds.top); expect(-1, U(header).EmfHeader.rclBounds.right); expect(-1, U(header).EmfHeader.rclBounds.bottom); expect(0, U(header).EmfHeader.rclFrame.left); expect(0, U(header).EmfHeader.rclFrame.top); expectf_(100.0, U(header).EmfHeader.rclFrame.right * xres / 2540.0, 2.0); expectf_(100.0, U(header).EmfHeader.rclFrame.bottom * yres / 2540.0, 2.0); stat = GdipCreateMetafileFromEmf(hemf, TRUE, &metafile); expect(Ok, stat); stat = GdipGetImageBounds((GpImage*)metafile, &bounds, &unit); expect(Ok, stat); expectf(0.0, bounds.X); expectf(0.0, bounds.Y); expectf_(100.0, bounds.Width, 0.05); expectf_(100.0, bounds.Height, 0.05); expect(UnitPixel, unit); stat = GdipGetImageHorizontalResolution((GpImage*)metafile, &xres); expect(Ok, stat); expectf(header.DpiX, xres); stat = GdipGetImageVerticalResolution((GpImage*)metafile, &yres); expect(Ok, stat); expectf(header.DpiY, yres); memset(&header, 0xaa, sizeof(header)); stat = GdipGetMetafileHeaderFromMetafile(metafile, &header); expect(Ok, stat); expect(MetafileTypeEmfPlusOnly, header.Type); expect(U(header).EmfHeader.nBytes, header.Size); ok(header.Version == 0xdbc01001 || header.Version == 0xdbc01002, "Unexpected version %x\n", header.Version); expect(1, header.EmfPlusFlags); /* reference device was display, not printer */ expectf(xres, header.DpiX); expectf(xres, U(header).EmfHeader.szlDevice.cx / (REAL)U(header).EmfHeader.szlMillimeters.cx * 25.4); expectf(yres, header.DpiY); expectf(yres, U(header).EmfHeader.szlDevice.cy / (REAL)U(header).EmfHeader.szlMillimeters.cy * 25.4); expect(0, header.X); expect(0, header.Y); expect(100, header.Width); expect(100, header.Height); expect(28, header.EmfPlusHeaderSize); expect(96, header.LogicalDpiX); expect(96, header.LogicalDpiY); expect(EMR_HEADER, U(header).EmfHeader.iType); expect(0, U(header).EmfHeader.rclBounds.left); expect(0, U(header).EmfHeader.rclBounds.top); expect(-1, U(header).EmfHeader.rclBounds.right); expect(-1, U(header).EmfHeader.rclBounds.bottom); expect(0, U(header).EmfHeader.rclFrame.left); expect(0, U(header).EmfHeader.rclFrame.top); expectf_(100.0, U(header).EmfHeader.rclFrame.right * xres / 2540.0, 2.0); expectf_(100.0, U(header).EmfHeader.rclFrame.bottom * yres / 2540.0, 2.0); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); } static const emfplus_record getdc_records[] = { { EMR_HEADER }, { EmfPlusRecordTypeHeader }, { EmfPlusRecordTypeGetDC }, { EMR_CREATEBRUSHINDIRECT }, { EMR_SELECTOBJECT }, { EMR_RECTANGLE }, { EMR_SELECTOBJECT }, { EMR_DELETEOBJECT }, { EmfPlusRecordTypeEndOfFile }, { EMR_EOF }, { 0 } }; static void test_getdc(void) { GpStatus stat; GpMetafile *metafile; GpGraphics *graphics; HDC hdc, metafile_dc; HENHMETAFILE hemf; BOOL ret; static const GpRectF frame = {0.0, 0.0, 100.0, 100.0}; static const GpPointF dst_points[3] = {{0.0,0.0},{100.0,0.0},{0.0,100.0}}; static const GpPointF dst_points_half[3] = {{0.0,0.0},{50.0,0.0},{0.0,50.0}}; HBRUSH hbrush, holdbrush; GpBitmap *bitmap; ARGB color; hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, &frame, MetafileFrameUnitPixel, description, &metafile); expect(Ok, stat); DeleteDC(hdc); if (stat != Ok) return; stat = GdipGetHemfFromMetafile(metafile, &hemf); expect(InvalidParameter, stat); stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); stat = GdipGetDC(graphics, &metafile_dc); expect(Ok, stat); if (stat != Ok) { GdipDeleteGraphics(graphics); GdipDisposeImage((GpImage*)metafile); return; } hbrush = CreateSolidBrush(0xff0000); holdbrush = SelectObject(metafile_dc, hbrush); Rectangle(metafile_dc, 25, 25, 75, 75); SelectObject(metafile_dc, holdbrush); DeleteObject(hbrush); stat = GdipReleaseDC(graphics, metafile_dc); expect(Ok, stat); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); check_metafile(metafile, getdc_records, "getdc metafile", dst_points, &frame, UnitPixel); sync_metafile(&metafile, "getdc.emf"); stat = GdipCreateBitmapFromScan0(100, 100, 0, PixelFormat32bppARGB, NULL, &bitmap); expect(Ok, stat); stat = GdipGetImageGraphicsContext((GpImage*)bitmap, &graphics); expect(Ok, stat); play_metafile(metafile, graphics, getdc_records, "getdc playback", dst_points, &frame, UnitPixel); stat = GdipBitmapGetPixel(bitmap, 15, 15, &color); expect(Ok, stat); expect(0, color); stat = GdipBitmapGetPixel(bitmap, 50, 50, &color); expect(Ok, stat); expect(0xff0000ff, color); stat = GdipBitmapSetPixel(bitmap, 50, 50, 0); expect(Ok, stat); play_metafile(metafile, graphics, getdc_records, "getdc playback", dst_points_half, &frame, UnitPixel); stat = GdipBitmapGetPixel(bitmap, 15, 15, &color); expect(Ok, stat); expect(0xff0000ff, color); stat = GdipBitmapGetPixel(bitmap, 50, 50, &color); expect(Ok, stat); expect(0, color); stat = GdipBitmapSetPixel(bitmap, 15, 15, 0); expect(Ok, stat); stat = GdipDrawImagePointsRect(graphics, (GpImage*)metafile, dst_points, 3, 0.0, 0.0, 100.0, 100.0, UnitPixel, NULL, NULL, NULL); expect(Ok, stat); stat = GdipBitmapGetPixel(bitmap, 15, 15, &color); expect(Ok, stat); expect(0, color); stat = GdipBitmapGetPixel(bitmap, 50, 50, &color); expect(Ok, stat); expect(0xff0000ff, color); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); stat = GdipDisposeImage((GpImage*)bitmap); expect(Ok, stat); stat = GdipGetHemfFromMetafile(metafile, &hemf); expect(Ok, stat); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); check_emfplus(hemf, getdc_records, "getdc emf"); ret = DeleteEnhMetaFile(hemf); ok(ret != 0, "Failed to delete enhmetafile %p\n", hemf); } static const emfplus_record emfonly_records[] = { { EMR_HEADER }, { EMR_CREATEBRUSHINDIRECT }, { EMR_SELECTOBJECT }, { EMR_RECTANGLE }, { EMR_SELECTOBJECT }, { EMR_DELETEOBJECT }, { EMR_EOF }, { 0 } }; static const emfplus_record emfonly_draw_records[] = { { EMR_HEADER }, { EMR_SAVEDC, 0, 1 }, { EMR_SETICMMODE, 0, 1 }, { EMR_SETMITERLIMIT, 0, 1 }, { EMR_MODIFYWORLDTRANSFORM, 0, 1 }, { EMR_EXTCREATEPEN, 0, 1 }, { EMR_SELECTOBJECT, 0, 1 }, { EMR_SELECTOBJECT, 0, 1 }, { EMR_POLYLINE16, 0, 1 }, { EMR_SELECTOBJECT, 0, 1 }, { EMR_SELECTOBJECT, 0, 1 }, { EMR_MODIFYWORLDTRANSFORM, 0, 1 }, { EMR_DELETEOBJECT, 0, 1 }, { EMR_SETMITERLIMIT, 0, 1 }, { EMR_RESTOREDC, 0, 1 }, { EMR_EOF }, { 0, 0, 1 } }; static void test_emfonly(void) { GpStatus stat; GpMetafile *metafile; GpImage *clone; GpGraphics *graphics; HDC hdc, metafile_dc; GpRectF bounds; GpUnit unit; REAL xres, yres; HENHMETAFILE hemf; MetafileHeader header; static const GpRectF frame = {0.0, 0.0, 100.0, 100.0}; static const GpPointF dst_points[3] = {{0.0,0.0},{100.0,0.0},{0.0,100.0}}; HBRUSH hbrush, holdbrush; GpBitmap *bitmap; ARGB color; GpPen *pen; hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(hdc, EmfTypeEmfOnly, &frame, MetafileFrameUnitPixel, description, &metafile); expect(Ok, stat); DeleteDC(hdc); if (stat != Ok) return; stat = GdipGetHemfFromMetafile(metafile, &hemf); expect(InvalidParameter, stat); memset(&header, 0xaa, sizeof(header)); stat = GdipGetMetafileHeaderFromMetafile(metafile, &header); expect(Ok, stat); expect(MetafileTypeEmf, header.Type); ok(header.Version == 0xdbc01001 || header.Version == 0xdbc01002, "Unexpected version %x\n", header.Version); /* The rest is zeroed or seemingly random/uninitialized garbage. */ stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); stat = GdipGetDC(graphics, &metafile_dc); expect(Ok, stat); if (stat != Ok) { GdipDeleteGraphics(graphics); GdipDisposeImage((GpImage*)metafile); return; } hbrush = CreateSolidBrush(0xff0000); holdbrush = SelectObject(metafile_dc, hbrush); Rectangle(metafile_dc, 25, 25, 75, 75); SelectObject(metafile_dc, holdbrush); DeleteObject(hbrush); stat = GdipReleaseDC(graphics, metafile_dc); expect(Ok, stat); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); check_metafile(metafile, emfonly_records, "emfonly metafile", dst_points, &frame, UnitPixel); sync_metafile(&metafile, "emfonly.emf"); stat = GdipGetImageBounds((GpImage*)metafile, &bounds, &unit); expect(Ok, stat); expectf(0.0, bounds.X); expectf(0.0, bounds.Y); expectf_(100.0, bounds.Width, 0.05); expectf_(100.0, bounds.Height, 0.05); expect(UnitPixel, unit); stat = GdipGetImageHorizontalResolution((GpImage*)metafile, &xres); expect(Ok, stat); stat = GdipGetImageVerticalResolution((GpImage*)metafile, &yres); expect(Ok, stat); memset(&header, 0xaa, sizeof(header)); stat = GdipGetMetafileHeaderFromMetafile(metafile, &header); expect(Ok, stat); expect(MetafileTypeEmf, header.Type); expect(U(header).EmfHeader.nBytes, header.Size); /* For some reason a recoreded EMF Metafile has an EMF+ version. */ todo_wine ok(header.Version == 0xdbc01001 || header.Version == 0xdbc01002, "Unexpected version %x\n", header.Version); expect(0, header.EmfPlusFlags); expectf(xres, header.DpiX); expectf(xres, U(header).EmfHeader.szlDevice.cx / (REAL)U(header).EmfHeader.szlMillimeters.cx * 25.4); expectf(yres, header.DpiY); expectf(yres, U(header).EmfHeader.szlDevice.cy / (REAL)U(header).EmfHeader.szlMillimeters.cy * 25.4); expect(0, header.X); expect(0, header.Y); expect(100, header.Width); expect(100, header.Height); expect(0, header.EmfPlusHeaderSize); expect(0, header.LogicalDpiX); expect(0, header.LogicalDpiY); expect(EMR_HEADER, U(header).EmfHeader.iType); expect(25, U(header).EmfHeader.rclBounds.left); expect(25, U(header).EmfHeader.rclBounds.top); expect(74, U(header).EmfHeader.rclBounds.right); expect(74, U(header).EmfHeader.rclBounds.bottom); expect(0, U(header).EmfHeader.rclFrame.left); expect(0, U(header).EmfHeader.rclFrame.top); expectf_(100.0, U(header).EmfHeader.rclFrame.right * xres / 2540.0, 2.0); expectf_(100.0, U(header).EmfHeader.rclFrame.bottom * yres / 2540.0, 2.0); stat = GdipCreateBitmapFromScan0(100, 100, 0, PixelFormat32bppARGB, NULL, &bitmap); expect(Ok, stat); stat = GdipGetImageGraphicsContext((GpImage*)bitmap, &graphics); expect(Ok, stat); play_metafile(metafile, graphics, emfonly_records, "emfonly playback", dst_points, &frame, UnitPixel); stat = GdipBitmapGetPixel(bitmap, 15, 15, &color); expect(Ok, stat); expect(0, color); stat = GdipBitmapGetPixel(bitmap, 50, 50, &color); expect(Ok, stat); expect(0xff0000ff, color); stat = GdipBitmapSetPixel(bitmap, 50, 50, 0); expect(Ok, stat); stat = GdipDrawImagePointsRect(graphics, (GpImage*)metafile, dst_points, 3, 0.0, 0.0, 100.0, 100.0, UnitPixel, NULL, NULL, NULL); expect(Ok, stat); stat = GdipBitmapGetPixel(bitmap, 15, 15, &color); expect(Ok, stat); expect(0, color); stat = GdipBitmapGetPixel(bitmap, 50, 50, &color); expect(Ok, stat); expect(0xff0000ff, color); stat = GdipCloneImage((GpImage*)metafile, &clone); expect(Ok, stat); if (stat == Ok) { stat = GdipBitmapSetPixel(bitmap, 50, 50, 0); expect(Ok, stat); stat = GdipDrawImagePointsRect(graphics, clone, dst_points, 3, 0.0, 0.0, 100.0, 100.0, UnitPixel, NULL, NULL, NULL); expect(Ok, stat); stat = GdipBitmapGetPixel(bitmap, 15, 15, &color); expect(Ok, stat); expect(0, color); stat = GdipBitmapGetPixel(bitmap, 50, 50, &color); expect(Ok, stat); expect(0xff0000ff, color); GdipDisposeImage(clone); } stat = GdipDeleteGraphics(graphics); expect(Ok, stat); stat = GdipDisposeImage((GpImage*)bitmap); expect(Ok, stat); stat = GdipGetHemfFromMetafile(metafile, &hemf); expect(Ok, stat); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); check_emfplus(hemf, emfonly_records, "emfonly emf"); memset(&header, 0xaa, sizeof(header)); stat = GdipGetMetafileHeaderFromEmf(hemf, &header); expect(Ok, stat); expect(MetafileTypeEmf, header.Type); expect(U(header).EmfHeader.nBytes, header.Size); expect(0x10000, header.Version); expect(0, header.EmfPlusFlags); expectf(xres, header.DpiX); expectf(xres, U(header).EmfHeader.szlDevice.cx / (REAL)U(header).EmfHeader.szlMillimeters.cx * 25.4); expectf(yres, header.DpiY); expectf(yres, U(header).EmfHeader.szlDevice.cy / (REAL)U(header).EmfHeader.szlMillimeters.cy * 25.4); expect(0, header.X); expect(0, header.Y); expect(100, header.Width); expect(100, header.Height); expect(0, header.EmfPlusHeaderSize); expect(0, header.LogicalDpiX); expect(0, header.LogicalDpiY); expect(EMR_HEADER, U(header).EmfHeader.iType); expect(25, U(header).EmfHeader.rclBounds.left); expect(25, U(header).EmfHeader.rclBounds.top); expect(74, U(header).EmfHeader.rclBounds.right); expect(74, U(header).EmfHeader.rclBounds.bottom); expect(0, U(header).EmfHeader.rclFrame.left); expect(0, U(header).EmfHeader.rclFrame.top); expectf_(100.0, U(header).EmfHeader.rclFrame.right * xres / 2540.0, 2.0); expectf_(100.0, U(header).EmfHeader.rclFrame.bottom * yres / 2540.0, 2.0); stat = GdipCreateMetafileFromEmf(hemf, TRUE, &metafile); expect(Ok, stat); stat = GdipGetImageBounds((GpImage*)metafile, &bounds, &unit); expect(Ok, stat); expectf(0.0, bounds.X); expectf(0.0, bounds.Y); expectf_(100.0, bounds.Width, 0.05); expectf_(100.0, bounds.Height, 0.05); expect(UnitPixel, unit); stat = GdipGetImageHorizontalResolution((GpImage*)metafile, &xres); expect(Ok, stat); expectf(header.DpiX, xres); stat = GdipGetImageVerticalResolution((GpImage*)metafile, &yres); expect(Ok, stat); expectf(header.DpiY, yres); memset(&header, 0xaa, sizeof(header)); stat = GdipGetMetafileHeaderFromMetafile(metafile, &header); expect(Ok, stat); expect(MetafileTypeEmf, header.Type); expect(U(header).EmfHeader.nBytes, header.Size); expect(0x10000, header.Version); expect(0, header.EmfPlusFlags); expectf(xres, header.DpiX); expectf(xres, U(header).EmfHeader.szlDevice.cx / (REAL)U(header).EmfHeader.szlMillimeters.cx * 25.4); expectf(yres, header.DpiY); expectf(yres, U(header).EmfHeader.szlDevice.cy / (REAL)U(header).EmfHeader.szlMillimeters.cy * 25.4); expect(0, header.X); expect(0, header.Y); expect(100, header.Width); expect(100, header.Height); expect(0, header.EmfPlusHeaderSize); expect(0, header.LogicalDpiX); expect(0, header.LogicalDpiY); expect(EMR_HEADER, U(header).EmfHeader.iType); expect(25, U(header).EmfHeader.rclBounds.left); expect(25, U(header).EmfHeader.rclBounds.top); expect(74, U(header).EmfHeader.rclBounds.right); expect(74, U(header).EmfHeader.rclBounds.bottom); expect(0, U(header).EmfHeader.rclFrame.left); expect(0, U(header).EmfHeader.rclFrame.top); expectf_(100.0, U(header).EmfHeader.rclFrame.right * xres / 2540.0, 2.0); expectf_(100.0, U(header).EmfHeader.rclFrame.bottom * yres / 2540.0, 2.0); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); /* test drawing to metafile with gdi+ functions */ hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(hdc, EmfTypeEmfOnly, &frame, MetafileFrameUnitPixel, description, &metafile); expect(Ok, stat); DeleteDC(hdc); if (stat != Ok) return; stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); stat = GdipCreatePen1((ARGB)0xffff00ff, 10.0f, UnitPixel, &pen); expect(Ok, stat); stat = GdipDrawLineI(graphics, pen, 0, 0, 10, 10); todo_wine expect(Ok, stat); GdipDeletePen(pen); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); check_metafile(metafile, emfonly_draw_records, "emfonly draw metafile", dst_points, &frame, UnitPixel); sync_metafile(&metafile, "emfonly_draw.emf"); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); } static const emfplus_record fillrect_records[] = { { EMR_HEADER }, { EmfPlusRecordTypeHeader }, { EmfPlusRecordTypeFillRects, 0xc000 }, { EmfPlusRecordTypeEndOfFile }, { EMR_EOF }, { 0 } }; static void test_fillrect(void) { GpStatus stat; GpMetafile *metafile; GpGraphics *graphics; HDC hdc; HENHMETAFILE hemf; static const GpRectF frame = {0.0, 0.0, 100.0, 100.0}; static const GpPointF dst_points[3] = {{0.0,0.0},{100.0,0.0},{0.0,100.0}}; static const GpPointF dst_points_half[3] = {{0.0,0.0},{50.0,0.0},{0.0,50.0}}; GpBitmap *bitmap; ARGB color; GpBrush *brush; hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, &frame, MetafileFrameUnitPixel, description, &metafile); expect(Ok, stat); DeleteDC(hdc); if (stat != Ok) return; stat = GdipGetHemfFromMetafile(metafile, &hemf); expect(InvalidParameter, stat); stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); stat = GdipCreateSolidFill((ARGB)0xff0000ff, (GpSolidFill**)&brush); expect(Ok, stat); stat = GdipFillRectangleI(graphics, brush, 25, 25, 75, 75); expect(Ok, stat); stat = GdipDeleteBrush(brush); expect(Ok, stat); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); check_metafile(metafile, fillrect_records, "fillrect metafile", dst_points, &frame, UnitPixel); sync_metafile(&metafile, "fillrect.emf"); stat = GdipCreateBitmapFromScan0(100, 100, 0, PixelFormat32bppARGB, NULL, &bitmap); expect(Ok, stat); stat = GdipGetImageGraphicsContext((GpImage*)bitmap, &graphics); expect(Ok, stat); play_metafile(metafile, graphics, fillrect_records, "fillrect playback", dst_points, &frame, UnitPixel); stat = GdipBitmapGetPixel(bitmap, 15, 15, &color); expect(Ok, stat); expect(0, color); stat = GdipBitmapGetPixel(bitmap, 50, 50, &color); expect(Ok, stat); expect(0xff0000ff, color); stat = GdipBitmapSetPixel(bitmap, 50, 50, 0); expect(Ok, stat); play_metafile(metafile, graphics, fillrect_records, "fillrect playback", dst_points_half, &frame, UnitPixel); stat = GdipBitmapGetPixel(bitmap, 15, 15, &color); expect(Ok, stat); expect(0xff0000ff, color); stat = GdipBitmapGetPixel(bitmap, 50, 50, &color); expect(Ok, stat); expect(0, color); stat = GdipBitmapSetPixel(bitmap, 15, 15, 0); expect(Ok, stat); stat = GdipDrawImagePointsRect(graphics, (GpImage*)metafile, dst_points, 3, 0.0, 0.0, 100.0, 100.0, UnitPixel, NULL, NULL, NULL); expect(Ok, stat); stat = GdipBitmapGetPixel(bitmap, 15, 15, &color); expect(Ok, stat); expect(0, color); stat = GdipBitmapGetPixel(bitmap, 50, 50, &color); expect(Ok, stat); expect(0xff0000ff, color); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); stat = GdipDisposeImage((GpImage*)bitmap); expect(Ok, stat); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); } static const emfplus_record clear_emf_records[] = { { EMR_HEADER }, { EmfPlusRecordTypeHeader }, { EmfPlusRecordTypeClear }, { EMR_SAVEDC, 0, 1 }, { EMR_SETICMMODE, 0, 1 }, { EMR_BITBLT, 0, 1 }, { EMR_RESTOREDC, 0, 1 }, { EmfPlusRecordTypeEndOfFile }, { EMR_EOF }, { 0 } }; static void test_clear(void) { GpStatus stat; GpMetafile *metafile; GpGraphics *graphics; HDC hdc; HENHMETAFILE hemf; static const GpRectF frame = {0.0, 0.0, 100.0, 100.0}; static const GpPointF dst_points[3] = {{10.0,10.0},{20.0,10.0},{10.0,20.0}}; GpBitmap *bitmap; ARGB color; hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, &frame, MetafileFrameUnitPixel, description, &metafile); expect(Ok, stat); DeleteDC(hdc); if (stat != Ok) return; stat = GdipGetHemfFromMetafile(metafile, &hemf); expect(InvalidParameter, stat); stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); stat = GdipGraphicsClear(graphics, 0xffffff00); expect(Ok, stat); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); sync_metafile(&metafile, "clear.emf"); stat = GdipCreateBitmapFromScan0(30, 30, 0, PixelFormat32bppRGB, NULL, &bitmap); expect(Ok, stat); stat = GdipGetImageGraphicsContext((GpImage*)bitmap, &graphics); expect(Ok, stat); stat = GdipDrawImagePointsRect(graphics, (GpImage*)metafile, dst_points, 3, 0.0, 0.0, 100.0, 100.0, UnitPixel, NULL, NULL, NULL); expect(Ok, stat); stat = GdipBitmapGetPixel(bitmap, 5, 5, &color); expect(Ok, stat); expect(0xff000000, color); stat = GdipBitmapGetPixel(bitmap, 15, 15, &color); expect(Ok, stat); expect(0xffffff00, color); stat = GdipBitmapGetPixel(bitmap, 25, 25, &color); expect(Ok, stat); expect(0xff000000, color); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); stat = GdipDisposeImage((GpImage*)bitmap); expect(Ok, stat); stat = GdipGetHemfFromMetafile(metafile, &hemf); expect(Ok, stat); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); check_emfplus(hemf, clear_emf_records, "clear emf"); DeleteEnhMetaFile(hemf); } static void test_nullframerect(void) { GpStatus stat; GpMetafile *metafile; GpGraphics *graphics; HDC hdc, metafile_dc; GpBrush *brush; HBRUSH hbrush, holdbrush; GpRectF bounds; GpUnit unit; hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, NULL, MetafileFrameUnitPixel, description, &metafile); expect(Ok, stat); DeleteDC(hdc); if (stat != Ok) return; stat = GdipGetImageBounds((GpImage*)metafile, &bounds, &unit); expect(Ok, stat); expect(UnitPixel, unit); expectf(0.0, bounds.X); expectf(0.0, bounds.Y); ok(bounds.Width == 1.0 || broken(bounds.Width == 0.0) /* xp sp1 */, "expected 1.0, got %f\n", bounds.Width); ok(bounds.Height == 1.0 || broken(bounds.Height == 0.0) /* xp sp1 */, "expected 1.0, got %f\n", bounds.Height); stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); stat = GdipCreateSolidFill((ARGB)0xff0000ff, (GpSolidFill**)&brush); expect(Ok, stat); stat = GdipFillRectangleI(graphics, brush, 25, 25, 75, 75); expect(Ok, stat); stat = GdipDeleteBrush(brush); expect(Ok, stat); stat = GdipGetImageBounds((GpImage*)metafile, &bounds, &unit); expect(Ok, stat); expect(UnitPixel, unit); expectf(0.0, bounds.X); expectf(0.0, bounds.Y); ok(bounds.Width == 1.0 || broken(bounds.Width == 0.0) /* xp sp1 */, "expected 1.0, got %f\n", bounds.Width); ok(bounds.Height == 1.0 || broken(bounds.Height == 0.0) /* xp sp1 */, "expected 1.0, got %f\n", bounds.Height); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); stat = GdipGetImageBounds((GpImage*)metafile, &bounds, &unit); expect(Ok, stat); expect(UnitPixel, unit); expectf_(25.0, bounds.X, 0.05); expectf_(25.0, bounds.Y, 0.05); expectf_(75.0, bounds.Width, 0.05); expectf_(75.0, bounds.Height, 0.05); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, NULL, MetafileFrameUnitMillimeter, description, &metafile); expect(Ok, stat); DeleteDC(hdc); stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); stat = GdipGetDC(graphics, &metafile_dc); expect(Ok, stat); if (stat != Ok) { GdipDeleteGraphics(graphics); GdipDisposeImage((GpImage*)metafile); return; } hbrush = CreateSolidBrush(0xff0000); holdbrush = SelectObject(metafile_dc, hbrush); Rectangle(metafile_dc, 25, 25, 75, 75); SelectObject(metafile_dc, holdbrush); DeleteObject(hbrush); stat = GdipReleaseDC(graphics, metafile_dc); expect(Ok, stat); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); stat = GdipGetImageBounds((GpImage*)metafile, &bounds, &unit); expect(Ok, stat); expect(UnitPixel, unit); expectf_(25.0, bounds.X, 0.05); expectf_(25.0, bounds.Y, 0.05); todo_wine expectf_(50.0, bounds.Width, 0.05); todo_wine expectf_(50.0, bounds.Height, 0.05); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, NULL, MetafileFrameUnitMillimeter, description, &metafile); expect(Ok, stat); DeleteDC(hdc); stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); stat = GdipGetDC(graphics, &metafile_dc); expect(Ok, stat); if (stat != Ok) { GdipDeleteGraphics(graphics); GdipDisposeImage((GpImage*)metafile); return; } hbrush = CreateSolidBrush(0xff0000); holdbrush = SelectObject(metafile_dc, hbrush); Rectangle(metafile_dc, 25, 25, 75, 75); SelectObject(metafile_dc, holdbrush); DeleteObject(hbrush); stat = GdipReleaseDC(graphics, metafile_dc); expect(Ok, stat); stat = GdipCreateSolidFill((ARGB)0xff0000ff, (GpSolidFill**)&brush); expect(Ok, stat); stat = GdipFillRectangleI(graphics, brush, 20, 40, 10, 70); expect(Ok, stat); stat = GdipDeleteBrush(brush); expect(Ok, stat); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); stat = GdipGetImageBounds((GpImage*)metafile, &bounds, &unit); expect(Ok, stat); expect(UnitPixel, unit); expectf_(20.0, bounds.X, 0.05); expectf_(25.0, bounds.Y, 0.05); expectf_(55.0, bounds.Width, 1.00); todo_wine expectf_(55.0, bounds.Width, 0.05); expectf_(85.0, bounds.Height, 0.05); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); } static const emfplus_record pagetransform_records[] = { { EMR_HEADER }, { EmfPlusRecordTypeHeader }, { EmfPlusRecordTypeFillRects, 0xc000 }, { EmfPlusRecordTypeSetPageTransform, UnitPixel }, { EmfPlusRecordTypeFillRects, 0xc000 }, { EmfPlusRecordTypeSetPageTransform, UnitPixel }, { EmfPlusRecordTypeFillRects, 0xc000 }, { EmfPlusRecordTypeSetPageTransform, UnitInch }, { EmfPlusRecordTypeFillRects, 0x8000 }, { EmfPlusRecordTypeSetPageTransform, UnitDisplay }, { EmfPlusRecordTypeFillRects, 0xc000 }, { EmfPlusRecordTypeEndOfFile }, { EMR_EOF }, { 0 } }; static void test_pagetransform(void) { GpStatus stat; GpMetafile *metafile; GpGraphics *graphics; HDC hdc; static const GpRectF frame = {0.0, 0.0, 5.0, 5.0}; static const GpPointF dst_points[3] = {{0.0,0.0},{100.0,0.0},{0.0,100.0}}; GpBitmap *bitmap; ARGB color; GpBrush *brush; GpUnit unit; REAL scale, dpix, dpiy; UINT width, height; hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, &frame, MetafileFrameUnitInch, description, &metafile); expect(Ok, stat); DeleteDC(hdc); if (stat != Ok) return; stat = GdipGetImageHorizontalResolution((GpImage*)metafile, &dpix); todo_wine expect(InvalidParameter, stat); stat = GdipGetImageVerticalResolution((GpImage*)metafile, &dpiy); todo_wine expect(InvalidParameter, stat); stat = GdipGetImageWidth((GpImage*)metafile, &width); todo_wine expect(InvalidParameter, stat); stat = GdipGetImageHeight((GpImage*)metafile, &height); todo_wine expect(InvalidParameter, stat); stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); /* initial scale */ stat = GdipGetPageUnit(graphics, &unit); expect(Ok, stat); expect(UnitDisplay, unit); stat = GdipGetPageScale(graphics, &scale); expect(Ok, stat); expectf(1.0, scale); stat = GdipGetDpiX(graphics, &dpix); expect(Ok, stat); expectf(96.0, dpix); stat = GdipGetDpiY(graphics, &dpiy); expect(Ok, stat); expectf(96.0, dpiy); stat = GdipCreateSolidFill((ARGB)0xff0000ff, (GpSolidFill**)&brush); expect(Ok, stat); stat = GdipFillRectangleI(graphics, brush, 1, 2, 1, 1); expect(Ok, stat); stat = GdipDeleteBrush(brush); expect(Ok, stat); /* page unit = pixels */ stat = GdipSetPageUnit(graphics, UnitPixel); expect(Ok, stat); stat = GdipGetPageUnit(graphics, &unit); expect(Ok, stat); expect(UnitPixel, unit); stat = GdipCreateSolidFill((ARGB)0xff00ff00, (GpSolidFill**)&brush); expect(Ok, stat); stat = GdipFillRectangleI(graphics, brush, 0, 1, 1, 1); expect(Ok, stat); stat = GdipDeleteBrush(brush); expect(Ok, stat); /* page scale = 3, unit = pixels */ stat = GdipSetPageScale(graphics, 3.0); expect(Ok, stat); stat = GdipGetPageScale(graphics, &scale); expect(Ok, stat); expectf(3.0, scale); stat = GdipCreateSolidFill((ARGB)0xff00ffff, (GpSolidFill**)&brush); expect(Ok, stat); stat = GdipFillRectangleI(graphics, brush, 0, 1, 2, 2); expect(Ok, stat); stat = GdipDeleteBrush(brush); expect(Ok, stat); /* page scale = 3, unit = inches */ stat = GdipSetPageUnit(graphics, UnitInch); expect(Ok, stat); stat = GdipGetPageUnit(graphics, &unit); expect(Ok, stat); expect(UnitInch, unit); stat = GdipCreateSolidFill((ARGB)0xffff0000, (GpSolidFill**)&brush); expect(Ok, stat); stat = GdipFillRectangle(graphics, brush, 1.0/96.0, 0, 1, 1); expect(Ok, stat); stat = GdipDeleteBrush(brush); expect(Ok, stat); /* page scale = 3, unit = display */ stat = GdipSetPageUnit(graphics, UnitDisplay); expect(Ok, stat); stat = GdipGetPageUnit(graphics, &unit); expect(Ok, stat); expect(UnitDisplay, unit); stat = GdipCreateSolidFill((ARGB)0xffff00ff, (GpSolidFill**)&brush); expect(Ok, stat); stat = GdipFillRectangle(graphics, brush, 3, 3, 2, 2); expect(Ok, stat); stat = GdipDeleteBrush(brush); expect(Ok, stat); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); check_metafile(metafile, pagetransform_records, "pagetransform metafile", dst_points, &frame, UnitPixel); sync_metafile(&metafile, "pagetransform.emf"); stat = GdipCreateBitmapFromScan0(100, 100, 0, PixelFormat32bppARGB, NULL, &bitmap); expect(Ok, stat); stat = GdipGetImageGraphicsContext((GpImage*)bitmap, &graphics); expect(Ok, stat); play_metafile(metafile, graphics, pagetransform_records, "pagetransform playback", dst_points, &frame, UnitPixel); stat = GdipBitmapGetPixel(bitmap, 50, 50, &color); expect(Ok, stat); expect(0, color); stat = GdipBitmapGetPixel(bitmap, 30, 50, &color); expect(Ok, stat); expect(0xff0000ff, color); stat = GdipBitmapGetPixel(bitmap, 10, 30, &color); expect(Ok, stat); expect(0xff00ff00, color); stat = GdipBitmapGetPixel(bitmap, 20, 80, &color); expect(Ok, stat); expect(0xff00ffff, color); stat = GdipBitmapGetPixel(bitmap, 80, 20, &color); expect(Ok, stat); expect(0xffff0000, color); stat = GdipBitmapGetPixel(bitmap, 80, 80, &color); expect(Ok, stat); expect(0xffff00ff, color); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); stat = GdipDisposeImage((GpImage*)bitmap); expect(Ok, stat); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); } static const emfplus_record worldtransform_records[] = { { EMR_HEADER }, { EmfPlusRecordTypeHeader }, { EmfPlusRecordTypeFillRects, 0xc000 }, { EmfPlusRecordTypeScaleWorldTransform }, { EmfPlusRecordTypeFillRects, 0x8000 }, { EmfPlusRecordTypeResetWorldTransform }, { EmfPlusRecordTypeFillRects, 0xc000 }, { EmfPlusRecordTypeMultiplyWorldTransform }, { EmfPlusRecordTypeFillRects, 0x8000 }, { EmfPlusRecordTypeRotateWorldTransform, 0x2000 }, { EmfPlusRecordTypeFillRects, 0x8000 }, { EmfPlusRecordTypeSetWorldTransform }, { EmfPlusRecordTypeFillRects, 0xc000 }, { EmfPlusRecordTypeTranslateWorldTransform, 0x2000 }, { EmfPlusRecordTypeFillRects, 0xc000 }, { EmfPlusRecordTypeEndOfFile }, { EMR_EOF }, { 0 } }; static void test_worldtransform(void) { GpStatus stat; GpMetafile *metafile; GpGraphics *graphics; HDC hdc; static const GpRectF frame = {0.0, 0.0, 5.0, 5.0}; static const GpPointF dst_points[3] = {{0.0,0.0},{100.0,0.0},{0.0,100.0}}; GpBitmap *bitmap; ARGB color; GpBrush *brush; GpMatrix *transform; BOOL identity; REAL elements[6]; hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, &frame, MetafileFrameUnitPixel, description, &metafile); expect(Ok, stat); DeleteDC(hdc); if (stat != Ok) return; stat = GdipCreateMatrix(&transform); expect(Ok, stat); stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); /* initial transform */ stat = GdipGetWorldTransform(graphics, transform); expect(Ok, stat); stat = GdipIsMatrixIdentity(transform, &identity); expect(Ok, stat); expect(TRUE, identity); stat = GdipCreateSolidFill((ARGB)0xff0000ff, (GpSolidFill**)&brush); expect(Ok, stat); stat = GdipFillRectangleI(graphics, brush, 0, 0, 1, 1); expect(Ok, stat); stat = GdipDeleteBrush(brush); expect(Ok, stat); /* scale transform */ stat = GdipScaleWorldTransform(graphics, 2.0, 4.0, MatrixOrderPrepend); expect(Ok, stat); stat = GdipGetWorldTransform(graphics, transform); expect(Ok, stat); stat = GdipGetMatrixElements(transform, elements); expect(Ok, stat); expectf(2.0, elements[0]); expectf(0.0, elements[1]); expectf(0.0, elements[2]); expectf(4.0, elements[3]); expectf(0.0, elements[4]); expectf(0.0, elements[5]); stat = GdipCreateSolidFill((ARGB)0xff00ff00, (GpSolidFill**)&brush); expect(Ok, stat); stat = GdipFillRectangle(graphics, brush, 0.5, 0.5, 0.5, 0.25); expect(Ok, stat); stat = GdipDeleteBrush(brush); expect(Ok, stat); /* reset transform */ stat = GdipResetWorldTransform(graphics); expect(Ok, stat); stat = GdipGetWorldTransform(graphics, transform); expect(Ok, stat); stat = GdipIsMatrixIdentity(transform, &identity); expect(Ok, stat); expect(TRUE, identity); stat = GdipCreateSolidFill((ARGB)0xff00ffff, (GpSolidFill**)&brush); expect(Ok, stat); stat = GdipFillRectangle(graphics, brush, 1.0, 0.0, 1.0, 1.0); expect(Ok, stat); stat = GdipDeleteBrush(brush); expect(Ok, stat); /* multiply transform */ stat = GdipSetMatrixElements(transform, 2.0, 0.0, 0.0, 1.0, 0.0, 0.0); expect(Ok, stat); stat = GdipMultiplyWorldTransform(graphics, transform, MatrixOrderPrepend); expect(Ok, stat); stat = GdipGetWorldTransform(graphics, transform); expect(Ok, stat); stat = GdipGetMatrixElements(transform, elements); expect(Ok, stat); expectf(2.0, elements[0]); expectf(0.0, elements[1]); expectf(0.0, elements[2]); expectf(1.0, elements[3]); expectf(0.0, elements[4]); expectf(0.0, elements[5]); stat = GdipCreateSolidFill((ARGB)0xffff0000, (GpSolidFill**)&brush); expect(Ok, stat); stat = GdipFillRectangle(graphics, brush, 1.0, 1.0, 0.5, 1.0); expect(Ok, stat); stat = GdipDeleteBrush(brush); expect(Ok, stat); /* rotate transform */ stat = GdipRotateWorldTransform(graphics, 90.0, MatrixOrderAppend); expect(Ok, stat); stat = GdipGetWorldTransform(graphics, transform); expect(Ok, stat); stat = GdipGetMatrixElements(transform, elements); expect(Ok, stat); expectf(0.0, elements[0]); expectf(2.0, elements[1]); expectf(-1.0, elements[2]); expectf(0.0, elements[3]); expectf(0.0, elements[4]); expectf(0.0, elements[5]); stat = GdipCreateSolidFill((ARGB)0xffff00ff, (GpSolidFill**)&brush); expect(Ok, stat); stat = GdipFillRectangle(graphics, brush, 1.0, -1.0, 0.5, 1.0); expect(Ok, stat); stat = GdipDeleteBrush(brush); expect(Ok, stat); /* set transform */ stat = GdipSetMatrixElements(transform, 1.0, 0.0, 0.0, 3.0, 0.0, 0.0); expect(Ok, stat); stat = GdipSetWorldTransform(graphics, transform); expect(Ok, stat); stat = GdipGetWorldTransform(graphics, transform); expect(Ok, stat); stat = GdipGetMatrixElements(transform, elements); expect(Ok, stat); expectf(1.0, elements[0]); expectf(0.0, elements[1]); expectf(0.0, elements[2]); expectf(3.0, elements[3]); expectf(0.0, elements[4]); expectf(0.0, elements[5]); stat = GdipCreateSolidFill((ARGB)0xffffff00, (GpSolidFill**)&brush); expect(Ok, stat); stat = GdipFillRectangle(graphics, brush, 1.0, 1.0, 1.0, 1.0); expect(Ok, stat); stat = GdipDeleteBrush(brush); expect(Ok, stat); /* translate transform */ stat = GdipTranslateWorldTransform(graphics, -1.0, 0.0, MatrixOrderAppend); expect(Ok, stat); stat = GdipGetWorldTransform(graphics, transform); expect(Ok, stat); stat = GdipGetMatrixElements(transform, elements); expect(Ok, stat); expectf(1.0, elements[0]); expectf(0.0, elements[1]); expectf(0.0, elements[2]); expectf(3.0, elements[3]); expectf(-1.0, elements[4]); expectf(0.0, elements[5]); stat = GdipCreateSolidFill((ARGB)0xffffffff, (GpSolidFill**)&brush); expect(Ok, stat); stat = GdipFillRectangle(graphics, brush, 1.0, 1.0, 1.0, 1.0); expect(Ok, stat); stat = GdipDeleteBrush(brush); expect(Ok, stat); stat = GdipDeleteMatrix(transform); expect(Ok, stat); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); check_metafile(metafile, worldtransform_records, "worldtransform metafile", dst_points, &frame, UnitPixel); sync_metafile(&metafile, "worldtransform.emf"); stat = GdipCreateBitmapFromScan0(100, 100, 0, PixelFormat32bppARGB, NULL, &bitmap); expect(Ok, stat); stat = GdipGetImageGraphicsContext((GpImage*)bitmap, &graphics); expect(Ok, stat); play_metafile(metafile, graphics, worldtransform_records, "worldtransform playback", dst_points, &frame, UnitPixel); stat = GdipBitmapGetPixel(bitmap, 80, 80, &color); expect(Ok, stat); expect(0, color); stat = GdipBitmapGetPixel(bitmap, 10, 10, &color); expect(Ok, stat); expect(0xff0000ff, color); stat = GdipBitmapGetPixel(bitmap, 30, 50, &color); expect(Ok, stat); expect(0xff00ff00, color); stat = GdipBitmapGetPixel(bitmap, 30, 10, &color); expect(Ok, stat); expect(0xff00ffff, color); stat = GdipBitmapGetPixel(bitmap, 50, 30, &color); expect(Ok, stat); expect(0xffff0000, color); stat = GdipBitmapGetPixel(bitmap, 10, 50, &color); expect(Ok, stat); expect(0xffff00ff, color); stat = GdipBitmapGetPixel(bitmap, 30, 90, &color); expect(Ok, stat); expect(0xffffff00, color); stat = GdipBitmapGetPixel(bitmap, 10, 90, &color); expect(Ok, stat); expect(0xffffffff, color); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); stat = GdipDisposeImage((GpImage*)bitmap); expect(Ok, stat); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); } static void test_converttoemfplus(void) { GpStatus (WINAPI *pGdipConvertToEmfPlus)( const GpGraphics *graphics, GpMetafile *metafile, BOOL *succ, EmfType emfType, const WCHAR *description, GpMetafile **outmetafile); static const GpRectF frame = {0.0, 0.0, 100.0, 100.0}; GpStatus stat; GpMetafile *metafile, *metafile2 = NULL, *emhmeta; GpGraphics *graphics; HDC hdc; BOOL succ; HMODULE mod = GetModuleHandleA("gdiplus.dll"); pGdipConvertToEmfPlus = (void*)GetProcAddress( mod, "GdipConvertToEmfPlus"); if(!pGdipConvertToEmfPlus) { /* GdipConvertToEmfPlus was introduced in Windows Vista. */ win_skip("GDIPlus version 1.1 not available\n"); return; } hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(hdc, MetafileTypeEmf, &frame, MetafileFrameUnitPixel, description, &metafile); expect(Ok, stat); stat = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, &frame, MetafileFrameUnitPixel, description, &emhmeta); expect(Ok, stat); DeleteDC(hdc); if (stat != Ok) return; stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); /* Invalid Parameters */ stat = pGdipConvertToEmfPlus(NULL, metafile, &succ, EmfTypeEmfPlusOnly, description, &metafile2); expect(InvalidParameter, stat); stat = pGdipConvertToEmfPlus(graphics, NULL, &succ, EmfTypeEmfPlusOnly, description, &metafile2); expect(InvalidParameter, stat); stat = pGdipConvertToEmfPlus(graphics, metafile, &succ, EmfTypeEmfPlusOnly, description, NULL); expect(InvalidParameter, stat); stat = pGdipConvertToEmfPlus(graphics, metafile, NULL, MetafileTypeInvalid, NULL, &metafile2); expect(InvalidParameter, stat); stat = pGdipConvertToEmfPlus(graphics, metafile, NULL, MetafileTypeEmfPlusDual+1, NULL, &metafile2); expect(InvalidParameter, stat); /* If we are already an Enhanced Metafile then the conversion fails. */ stat = pGdipConvertToEmfPlus(graphics, emhmeta, NULL, EmfTypeEmfPlusOnly, NULL, &metafile2); todo_wine expect(InvalidParameter, stat); stat = pGdipConvertToEmfPlus(graphics, metafile, NULL, EmfTypeEmfPlusOnly, NULL, &metafile2); todo_wine expect(Ok, stat); if(metafile2) GdipDisposeImage((GpImage*)metafile2); succ = FALSE; stat = pGdipConvertToEmfPlus(graphics, metafile, &succ, EmfTypeEmfPlusOnly, NULL, &metafile2); todo_wine expect(Ok, stat); if(metafile2) GdipDisposeImage((GpImage*)metafile2); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); stat = GdipDisposeImage((GpImage*)emhmeta); expect(Ok, stat); } static void test_frameunit(void) { GpStatus stat; GpMetafile *metafile; GpGraphics *graphics; HDC hdc; static const GpRectF frame = {0.0, 0.0, 5.0, 5.0}; GpUnit unit; REAL dpix, dpiy; GpRectF bounds; hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, &frame, MetafileFrameUnitInch, description, &metafile); expect(Ok, stat); DeleteDC(hdc); if (stat != Ok) return; stat = GdipGetImageBounds((GpImage*)metafile, &bounds, &unit); expect(Ok, stat); expect(UnitPixel, unit); expectf(0.0, bounds.X); expectf(0.0, bounds.Y); ok(bounds.Width == 1.0 || broken(bounds.Width == 0.0) /* xp sp1 */, "expected 1.0, got %f\n", bounds.Width); ok(bounds.Height == 1.0 || broken(bounds.Height == 0.0) /* xp sp1 */, "expected 1.0, got %f\n", bounds.Height); stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); stat = GdipGetImageBounds((GpImage*)metafile, &bounds, &unit); expect(Ok, stat); expect(UnitPixel, unit); expectf(0.0, bounds.X); expectf(0.0, bounds.Y); ok(bounds.Width == 1.0 || broken(bounds.Width == 0.0) /* xp sp1 */, "expected 1.0, got %f\n", bounds.Width); ok(bounds.Height == 1.0 || broken(bounds.Height == 0.0) /* xp sp1 */, "expected 1.0, got %f\n", bounds.Height); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); stat = GdipGetImageHorizontalResolution((GpImage*)metafile, &dpix); expect(Ok, stat); stat = GdipGetImageVerticalResolution((GpImage*)metafile, &dpiy); expect(Ok, stat); stat = GdipGetImageBounds((GpImage*)metafile, &bounds, &unit); expect(Ok, stat); expect(UnitPixel, unit); expectf(0.0, bounds.X); expectf(0.0, bounds.Y); expectf_(5.0 * dpix, bounds.Width, 1.0); expectf_(5.0 * dpiy, bounds.Height, 1.0); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); } static const emfplus_record container_records[] = { { EMR_HEADER }, { EmfPlusRecordTypeHeader }, { EmfPlusRecordTypeBeginContainerNoParams }, { EmfPlusRecordTypeScaleWorldTransform }, { EmfPlusRecordTypeFillRects, 0xc000 }, { EmfPlusRecordTypeEndContainer }, { EmfPlusRecordTypeScaleWorldTransform }, { EmfPlusRecordTypeFillRects, 0xc000 }, { EmfPlusRecordTypeSave }, { EmfPlusRecordTypeRestore }, { EmfPlusRecordTypeScaleWorldTransform }, { EmfPlusRecordTypeBeginContainerNoParams }, { EmfPlusRecordTypeScaleWorldTransform }, { EmfPlusRecordTypeBeginContainerNoParams }, { EmfPlusRecordTypeEndContainer }, { EmfPlusRecordTypeFillRects, 0xc000 }, { EmfPlusRecordTypeBeginContainer, UnitInch }, { EmfPlusRecordTypeFillRects, 0xc000 }, { EmfPlusRecordTypeEndContainer }, { EmfPlusRecordTypeBeginContainerNoParams }, { EmfPlusRecordTypeEndOfFile }, { EMR_EOF }, { 0 } }; static void test_containers(void) { GpStatus stat; GpMetafile *metafile; GpGraphics *graphics; GpBitmap *bitmap; GpBrush *brush; ARGB color; HDC hdc; static const GpRectF frame = {0.0, 0.0, 100.0, 100.0}; static const GpPointF dst_points[3] = {{0.0,0.0},{100.0,0.0},{0.0,100.0}}; GraphicsContainer state1, state2; GpRectF srcrect, dstrect; REAL dpix, dpiy; hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, &frame, MetafileFrameUnitPixel, description, &metafile); expect(Ok, stat); DeleteDC(hdc); if (stat != Ok) return; stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); /* Normal usage */ stat = GdipBeginContainer2(graphics, &state1); expect(Ok, stat); stat = GdipScaleWorldTransform(graphics, 2.0, 2.0, MatrixOrderPrepend); expect(Ok, stat); stat = GdipCreateSolidFill((ARGB)0xff000000, (GpSolidFill**)&brush); expect(Ok, stat); stat = GdipFillRectangle(graphics, brush, 5.0, 5.0, 5.0, 5.0); expect(Ok, stat); stat = GdipDeleteBrush(brush); expect(Ok, stat); stat = GdipEndContainer(graphics, state1); expect(Ok, stat); stat = GdipScaleWorldTransform(graphics, 1.0, 1.0, MatrixOrderPrepend); expect(Ok, stat); stat = GdipCreateSolidFill((ARGB)0xff0000ff, (GpSolidFill**)&brush); expect(Ok, stat); stat = GdipFillRectangle(graphics, brush, 5.0, 5.0, 5.0, 5.0); expect(Ok, stat); stat = GdipDeleteBrush(brush); expect(Ok, stat); stat = GdipSaveGraphics(graphics, &state1); expect(Ok, stat); stat = GdipRestoreGraphics(graphics, state1); expect(Ok, stat); /* Popping two states at once */ stat = GdipScaleWorldTransform(graphics, 2.0, 2.0, MatrixOrderPrepend); expect(Ok, stat); stat = GdipBeginContainer2(graphics, &state1); expect(Ok, stat); stat = GdipScaleWorldTransform(graphics, 4.0, 4.0, MatrixOrderPrepend); expect(Ok, stat); stat = GdipBeginContainer2(graphics, &state2); expect(Ok, stat); stat = GdipEndContainer(graphics, state1); expect(Ok, stat); stat = GdipCreateSolidFill((ARGB)0xff00ff00, (GpSolidFill**)&brush); expect(Ok, stat); stat = GdipFillRectangle(graphics, brush, 20.0, 20.0, 5.0, 5.0); expect(Ok, stat); stat = GdipDeleteBrush(brush); expect(Ok, stat); /* With transform applied */ stat = GdipGetDpiX(graphics, &dpix); expect(Ok, stat); stat = GdipGetDpiY(graphics, &dpiy); expect(Ok, stat); srcrect.X = 0.0; srcrect.Y = 0.0; srcrect.Width = 1.0; srcrect.Height = 1.0; dstrect.X = 25.0; dstrect.Y = 0.0; dstrect.Width = 5.0; dstrect.Height = 5.0; stat = GdipBeginContainer(graphics, &dstrect, &srcrect, UnitInch, &state1); expect(Ok, stat); stat = GdipCreateSolidFill((ARGB)0xff00ffff, (GpSolidFill**)&brush); expect(Ok, stat); stat = GdipFillRectangle(graphics, brush, 0.0, 0.0, dpix, dpiy); expect(Ok, stat); stat = GdipDeleteBrush(brush); expect(Ok, stat); stat = GdipEndContainer(graphics, state1); expect(Ok, stat); /* Restoring an invalid state seems to break the graphics object? */ if (0) { stat = GdipEndContainer(graphics, state1); expect(Ok, stat); } /* Ending metafile with a state open */ stat = GdipBeginContainer2(graphics, &state1); expect(Ok, stat); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); check_metafile(metafile, container_records, "container metafile", dst_points, &frame, UnitPixel); sync_metafile(&metafile, "container.emf"); stat = GdipCreateBitmapFromScan0(100, 100, 0, PixelFormat32bppARGB, NULL, &bitmap); expect(Ok, stat); stat = GdipGetImageGraphicsContext((GpImage*)bitmap, &graphics); expect(Ok, stat); play_metafile(metafile, graphics, container_records, "container playback", dst_points, &frame, UnitPixel); stat = GdipBitmapGetPixel(bitmap, 80, 80, &color); expect(Ok, stat); expect(0, color); stat = GdipBitmapGetPixel(bitmap, 12, 12, &color); expect(Ok, stat); expect(0xff000000, color); stat = GdipBitmapGetPixel(bitmap, 8, 8, &color); expect(Ok, stat); expect(0xff0000ff, color); stat = GdipBitmapGetPixel(bitmap, 42, 42, &color); expect(Ok, stat); expect(0xff00ff00, color); stat = GdipBitmapGetPixel(bitmap, 55, 5, &color); expect(Ok, stat); expect(0xff00ffff, color); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); stat = GdipDisposeImage((GpImage*)bitmap); expect(Ok, stat); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); } static const emfplus_record clipping_records[] = { { EMR_HEADER }, { EmfPlusRecordTypeHeader }, { EmfPlusRecordTypeSave }, { EmfPlusRecordTypeSetClipRect }, { EmfPlusRecordTypeFillRects, 0xc000 }, { EmfPlusRecordTypeRestore }, { EmfPlusRecordTypeSetClipRect, 0x300 }, { EmfPlusRecordTypeFillRects, 0xc000 }, { EmfPlusRecordTypeObject, ObjectTypeRegion << 8 }, { EmfPlusRecordTypeSetClipRegion, 0x100 }, { EmfPlusRecordTypeEndOfFile }, { EMR_EOF }, { 0 } }; static void test_clipping(void) { GpStatus stat; GpMetafile *metafile; GpGraphics *graphics; GpBitmap *bitmap; GpRegion *region; GpBrush *brush; GpRectF rect; ARGB color; HDC hdc; static const GpRectF frame = {0.0, 0.0, 100.0, 100.0}; static const GpPointF dst_points[3] = {{0.0,0.0},{100.0,0.0},{0.0,100.0}}; GraphicsState state; hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, &frame, MetafileFrameUnitPixel, description, &metafile); expect(Ok, stat); DeleteDC(hdc); if (stat != Ok) return; stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); stat = GdipSaveGraphics(graphics, &state); expect(Ok, stat); stat = GdipGetVisibleClipBounds(graphics, &rect); expect(Ok, stat); ok(rect.X == -0x400000, "rect.X = %f\n", rect.X); ok(rect.Y == -0x400000, "rect.Y = %f\n", rect.Y); ok(rect.Width == 0x800000, "rect.Width = %f\n", rect.Width); ok(rect.Height == 0x800000, "rect.Height = %f\n", rect.Height); stat = GdipSetClipRect(graphics, 30, 30, 10, 10, CombineModeReplace); expect(Ok, stat); stat = GdipGetVisibleClipBounds(graphics, &rect); expect(Ok, stat); ok(rect.X == 30, "rect.X = %f\n", rect.X); ok(rect.Y == 30, "rect.Y = %f\n", rect.Y); ok(rect.Width == 10, "rect.Width = %f\n", rect.Width); ok(rect.Height == 10, "rect.Height = %f\n", rect.Height); stat = GdipCreateSolidFill((ARGB)0xff000000, (GpSolidFill**)&brush); expect(Ok, stat); stat = GdipFillRectangle(graphics, brush, 0, 0, 100, 100); expect(Ok, stat); stat = GdipDeleteBrush(brush); expect(Ok, stat); stat = GdipRestoreGraphics(graphics, state); expect(Ok, stat); stat = GdipSetClipRect(graphics, 30, 30, 10, 10, CombineModeXor); expect(Ok, stat); stat = GdipCreateSolidFill((ARGB)0xff0000ff, (GpSolidFill**)&brush); expect(Ok, stat); stat = GdipFillRectangle(graphics, brush, 30, 30, 20, 10); expect(Ok, stat); stat = GdipDeleteBrush(brush); expect(Ok, stat); stat = GdipCreateRegionRect(&rect, ®ion); expect(Ok, stat); stat = GdipSetClipRegion(graphics, region, CombineModeIntersect); expect(Ok, stat); stat = GdipDeleteRegion(region); expect(Ok, stat); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); check_metafile(metafile, clipping_records, "clipping metafile", dst_points, &frame, UnitPixel); sync_metafile(&metafile, "clipping.emf"); stat = GdipCreateBitmapFromScan0(100, 100, 0, PixelFormat32bppARGB, NULL, &bitmap); expect(Ok, stat); stat = GdipGetImageGraphicsContext((GpImage*)bitmap, &graphics); expect(Ok, stat); play_metafile(metafile, graphics, clipping_records, "clipping playback", dst_points, &frame, UnitPixel); stat = GdipBitmapGetPixel(bitmap, 80, 80, &color); expect(Ok, stat); expect(0, color); stat = GdipBitmapGetPixel(bitmap, 35, 35, &color); expect(Ok, stat); expect(0xff000000, color); stat = GdipBitmapGetPixel(bitmap, 45, 35, &color); expect(Ok, stat); expect(0xff0000ff, color); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); stat = GdipDisposeImage((GpImage*)bitmap); expect(Ok, stat); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); } static void test_gditransform_cb(GpMetafile* metafile, EmfPlusRecordType record_type, unsigned int flags, unsigned int dataSize, const unsigned char *pStr) { static const XFORM xform = {0.5, 0, 0, 0.5, 0, 0}; static const RECTL rectangle = {0,0,100,100}; GpStatus stat; stat = GdipPlayMetafileRecord(metafile, EMR_SETWORLDTRANSFORM, 0, sizeof(xform), (void*)&xform); expect(Ok, stat); stat = GdipPlayMetafileRecord(metafile, EMR_RECTANGLE, 0, sizeof(rectangle), (void*)&rectangle); expect(Ok, stat); } static const emfplus_record gditransform_records[] = { { EMR_HEADER }, { EMR_CREATEBRUSHINDIRECT }, { EMR_SELECTOBJECT }, { EMR_GDICOMMENT, 0, 0, 0, test_gditransform_cb }, { EMR_SELECTOBJECT }, { EMR_DELETEOBJECT }, { EMR_EOF }, { 0 } }; static void test_gditransform(void) { GpStatus stat; GpMetafile *metafile; GpGraphics *graphics; HDC hdc, metafile_dc; HENHMETAFILE hemf; MetafileHeader header; static const GpRectF frame = {0.0, 0.0, 100.0, 100.0}; static const GpPointF dst_points[3] = {{0.0,0.0},{40.0,0.0},{0.0,40.0}}; HBRUSH hbrush, holdbrush; GpBitmap *bitmap; ARGB color; hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(hdc, EmfTypeEmfOnly, &frame, MetafileFrameUnitPixel, description, &metafile); expect(Ok, stat); DeleteDC(hdc); if (stat != Ok) return; stat = GdipGetHemfFromMetafile(metafile, &hemf); expect(InvalidParameter, stat); memset(&header, 0xaa, sizeof(header)); stat = GdipGetMetafileHeaderFromMetafile(metafile, &header); expect(Ok, stat); expect(MetafileTypeEmf, header.Type); ok(header.Version == 0xdbc01001 || header.Version == 0xdbc01002, "Unexpected version %x\n", header.Version); stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); stat = GdipGetDC(graphics, &metafile_dc); expect(Ok, stat); if (stat != Ok) { GdipDeleteGraphics(graphics); GdipDisposeImage((GpImage*)metafile); return; } hbrush = CreateSolidBrush(0xff); holdbrush = SelectObject(metafile_dc, hbrush); GdiComment(metafile_dc, 8, (const BYTE*)"winetest"); SelectObject(metafile_dc, holdbrush); DeleteObject(hbrush); stat = GdipReleaseDC(graphics, metafile_dc); expect(Ok, stat); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); check_metafile(metafile, gditransform_records, "gditransform metafile", dst_points, &frame, UnitPixel); sync_metafile(&metafile, "gditransform.emf"); stat = GdipCreateBitmapFromScan0(100, 100, 0, PixelFormat32bppARGB, NULL, &bitmap); expect(Ok, stat); stat = GdipGetImageGraphicsContext((GpImage*)bitmap, &graphics); expect(Ok, stat); play_metafile(metafile, graphics, gditransform_records, "gditransform playback", dst_points, &frame, UnitPixel); stat = GdipBitmapGetPixel(bitmap, 10, 10, &color); expect(Ok, stat); expect(0xffff0000, color); stat = GdipBitmapGetPixel(bitmap, 30, 30, &color); expect(Ok, stat); expect(0x00000000, color); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); stat = GdipDisposeImage((GpImage*)bitmap); expect(Ok, stat); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); } static const emfplus_record draw_image_bitmap_records[] = { { EMR_HEADER }, { EmfPlusRecordTypeHeader }, { EmfPlusRecordTypeObject, ObjectTypeImage << 8 }, { EmfPlusRecordTypeObject, (ObjectTypeImageAttributes << 8) | 1 }, { EmfPlusRecordTypeDrawImagePoints, 0, 0, 0, NULL, 0x4000 }, { EMR_SAVEDC, 0, 1 }, { EMR_SETICMMODE, 0, 1 }, { EMR_BITBLT, 0, 1 }, { EMR_RESTOREDC, 0, 1 }, { EmfPlusRecordTypeEndOfFile }, { EMR_EOF }, { 0 } }; static const emfplus_record draw_image_metafile_records[] = { { EMR_HEADER }, { EmfPlusRecordTypeHeader }, { EmfPlusRecordTypeObject, ObjectTypeImage << 8 }, /* metafile object */ { EMR_HEADER }, { EmfPlusRecordTypeHeader }, { EmfPlusRecordTypeObject, ObjectTypeImage << 8 }, { EmfPlusRecordTypeObject, (ObjectTypeImageAttributes << 8) | 1 }, { EmfPlusRecordTypeDrawImagePoints }, { EMR_SAVEDC, 0, 1 }, { EMR_SETICMMODE, 0, 1 }, { EMR_BITBLT, 0, 1 }, { EMR_RESTOREDC, 0, 1 }, { EmfPlusRecordTypeEndOfFile }, { EMR_EOF }, /* end of metafile object */ { EmfPlusRecordTypeDrawImagePoints }, { EMR_SAVEDC, 0, 1 }, { EMR_SETICMMODE, 0, 1 }, { EMR_BITBLT, 0, 1 }, { EMR_RESTOREDC, 0, 1 }, { EmfPlusRecordTypeEndOfFile }, { EMR_EOF }, { 0 } }; static void test_drawimage(void) { static const GpPointF dst_points[3] = {{10.0,10.0},{85.0,15.0},{10.0,80.0}}; static const GpRectF frame = {0.0, 0.0, 100.0, 100.0}; const ColorMatrix double_red = {{ {2.0,0.0,0.0,0.0,0.0}, {0.0,1.0,0.0,0.0,0.0}, {0.0,0.0,1.0,0.0,0.0}, {0.0,0.0,0.0,1.0,0.0}, {0.0,0.0,0.0,0.0,1.0}}}; GpImageAttributes *imageattr; GpMetafile *metafile; GpGraphics *graphics; HENHMETAFILE hemf; GpStatus stat; BITMAPINFO info; BYTE buff[400]; GpImage *image; HDC hdc; hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, &frame, MetafileFrameUnitPixel, description, &metafile); expect(Ok, stat); stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); memset(&info, 0, sizeof(info)); info.bmiHeader.biSize = sizeof(BITMAPINFOHEADER); info.bmiHeader.biWidth = 10; info.bmiHeader.biHeight = 10; info.bmiHeader.biPlanes = 1; info.bmiHeader.biBitCount = 32; info.bmiHeader.biCompression = BI_RGB; memset(buff, 0x80, sizeof(buff)); stat = GdipCreateBitmapFromGdiDib(&info, buff, (GpBitmap**)&image); expect(Ok, stat); stat = GdipCreateImageAttributes(&imageattr); expect(Ok, stat); stat = GdipSetImageAttributesColorMatrix(imageattr, ColorAdjustTypeDefault, TRUE, &double_red, NULL, ColorMatrixFlagsDefault); expect(Ok, stat); stat = GdipDrawImagePointsRect(graphics, image, dst_points, 3, 0.0, 0.0, 10.0, 10.0, UnitPixel, imageattr, NULL, NULL); GdipDisposeImageAttributes(imageattr); expect(Ok, stat); GdipDisposeImage(image); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); sync_metafile(&metafile, "draw_image_bitmap.emf"); stat = GdipGetHemfFromMetafile(metafile, &hemf); expect(Ok, stat); check_emfplus(hemf, draw_image_bitmap_records, "draw image bitmap"); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); /* test drawing metafile */ stat = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, &frame, MetafileFrameUnitPixel, description, &metafile); expect(Ok, stat); stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); stat = GdipCreateMetafileFromEmf(hemf, TRUE, (GpMetafile**)&image); expect(Ok, stat); stat = GdipDrawImagePointsRect(graphics, image, dst_points, 3, 0.0, 0.0, 100.0, 100.0, UnitPixel, NULL, NULL, NULL); expect(Ok, stat); GdipDisposeImage(image); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); sync_metafile(&metafile, "draw_image_metafile.emf"); stat = GdipGetHemfFromMetafile(metafile, &hemf); expect(Ok, stat); if (GetProcAddress(GetModuleHandleA("gdiplus.dll"), "GdipConvertToEmfPlus")) { check_emfplus(hemf, draw_image_metafile_records, "draw image metafile"); } else { win_skip("draw image metafile records tests skipped\n"); } DeleteEnhMetaFile(hemf); DeleteDC(hdc); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); } static const emfplus_record properties_records[] = { { EMR_HEADER }, { EmfPlusRecordTypeHeader }, { EmfPlusRecordTypeSetTextRenderingHint, TextRenderingHintAntiAlias }, { EmfPlusRecordTypeSetPixelOffsetMode, PixelOffsetModeHighQuality }, { EmfPlusRecordTypeSetAntiAliasMode, (SmoothingModeAntiAlias << 1) | 1, 0, 0, NULL, 0x1 }, { EmfPlusRecordTypeSetCompositingMode, CompositingModeSourceCopy }, { EmfPlusRecordTypeSetCompositingQuality, CompositingQualityHighQuality }, { EmfPlusRecordTypeSetInterpolationMode, InterpolationModeHighQualityBicubic }, { EmfPlusRecordTypeEndOfFile }, { EMR_EOF }, { 0 } }; static void test_properties(void) { static const GpRectF frame = {0.0, 0.0, 100.0, 100.0}; GpMetafile *metafile; GpGraphics *graphics; HENHMETAFILE hemf; GpStatus stat; HDC hdc; hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, &frame, MetafileFrameUnitPixel, description, &metafile); expect(Ok, stat); DeleteDC(hdc); stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); stat = GdipSetTextRenderingHint(graphics, TextRenderingHintSystemDefault); expect(Ok, stat); stat = GdipSetTextRenderingHint(graphics, TextRenderingHintAntiAlias); expect(Ok, stat); stat = GdipSetPixelOffsetMode(graphics, PixelOffsetModeHighQuality); expect(Ok, stat); stat = GdipSetPixelOffsetMode(graphics, PixelOffsetModeHighQuality); expect(Ok, stat); stat = GdipSetSmoothingMode(graphics, SmoothingModeAntiAlias); expect(Ok, stat); stat = GdipSetSmoothingMode(graphics, SmoothingModeAntiAlias); expect(Ok, stat); stat = GdipSetCompositingMode(graphics, CompositingModeSourceOver); expect(Ok, stat); stat = GdipSetCompositingMode(graphics, CompositingModeSourceCopy); expect(Ok, stat); stat = GdipSetCompositingQuality(graphics, CompositingQualityHighQuality); expect(Ok, stat); stat = GdipSetCompositingQuality(graphics, CompositingQualityHighQuality); expect(Ok, stat); stat = GdipSetInterpolationMode(graphics, InterpolationModeDefault); expect(Ok, stat); stat = GdipSetInterpolationMode(graphics, InterpolationModeHighQuality); expect(Ok, stat); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); sync_metafile(&metafile, "properties.emf"); stat = GdipGetHemfFromMetafile(metafile, &hemf); expect(Ok, stat); check_emfplus(hemf, properties_records, "properties"); DeleteEnhMetaFile(hemf); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); } static const emfplus_record draw_path_records[] = { { EMR_HEADER }, { EmfPlusRecordTypeHeader }, { EmfPlusRecordTypeObject, ObjectTypePen << 8 }, { EmfPlusRecordTypeObject, (ObjectTypePath << 8) | 1 }, { EmfPlusRecordTypeDrawPath, 1 }, { EMR_SAVEDC, 0, 1 }, { EMR_SETICMMODE, 0, 1 }, { EMR_BITBLT, 0, 1 }, { EMR_RESTOREDC, 0, 1 }, { EmfPlusRecordTypeEndOfFile }, { EMR_EOF }, { 0 } }; static void test_drawpath(void) { static const GpRectF frame = {0.0, 0.0, 100.0, 100.0}; GpMetafile *metafile; GpGraphics *graphics; HENHMETAFILE hemf; GpStatus stat; GpPath *path; GpPen *pen; HDC hdc; hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, &frame, MetafileFrameUnitPixel, description, &metafile); expect(Ok, stat); DeleteDC(hdc); stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); stat = GdipCreatePath(FillModeAlternate, &path); expect(Ok, stat); stat = GdipAddPathLine(path, 5, 5, 30, 30); expect(Ok, stat); stat = GdipCreatePen1((ARGB)0xffff00ff, 10.0f, UnitPixel, &pen); expect(Ok, stat); stat = GdipDrawPath(graphics, pen, path); expect(Ok, stat); stat = GdipDeletePen(pen); expect(Ok, stat); stat = GdipDeletePath(path); expect(Ok, stat); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); sync_metafile(&metafile, "draw_path.emf"); stat = GdipGetHemfFromMetafile(metafile, &hemf); expect(Ok, stat); check_emfplus(hemf, draw_path_records, "draw path"); DeleteEnhMetaFile(hemf); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); } static const emfplus_record fill_path_records[] = { { EMR_HEADER }, { EmfPlusRecordTypeHeader }, { EmfPlusRecordTypeObject, ObjectTypePath << 8 }, { EmfPlusRecordTypeFillPath, 0x8000 }, { EMR_SAVEDC, 0, 1 }, { EMR_SETICMMODE, 0, 1 }, { EMR_BITBLT, 0, 1 }, { EMR_RESTOREDC, 0, 1 }, { EmfPlusRecordTypeEndOfFile }, { EMR_EOF }, { 0 } }; static void test_fillpath(void) { static const GpRectF frame = {0.0, 0.0, 100.0, 100.0}; GpMetafile *metafile; GpGraphics *graphics; GpSolidFill *brush; HENHMETAFILE hemf; GpStatus stat; GpPath *path; HDC hdc; hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, &frame, MetafileFrameUnitPixel, description, &metafile); expect(Ok, stat); DeleteDC(hdc); stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); stat = GdipCreatePath(FillModeAlternate, &path); expect(Ok, stat); stat = GdipAddPathLine(path, 5, 5, 30, 30); expect(Ok, stat); stat = GdipAddPathLine(path, 30, 30, 5, 30); expect(Ok, stat); stat = GdipCreateSolidFill(0xffaabbcc, &brush); expect(Ok, stat); stat = GdipFillPath(graphics, (GpBrush*)brush, path); expect(Ok, stat); stat = GdipDeleteBrush((GpBrush*)brush); expect(Ok, stat); stat = GdipDeletePath(path); expect(Ok, stat); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); sync_metafile(&metafile, "fill_path.emf"); stat = GdipGetHemfFromMetafile(metafile, &hemf); expect(Ok, stat); check_emfplus(hemf, fill_path_records, "fill path"); /* write to disk */ DeleteEnhMetaFile(CopyEnhMetaFileW(hemf, L"winetest.emf")); DeleteEnhMetaFile(hemf); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); /* should succeed when given path to an EMF */ stat = GdipCreateMetafileFromWmfFile(L"winetest.emf", NULL, &metafile); expect(Ok, stat); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); DeleteFileW(L"winetest.emf"); stat = GdipCreateMetafileFromWmfFile(L"winetest.emf", NULL, &metafile); expect(GenericError, stat); } static const emfplus_record restoredc_records[] = { { EMR_HEADER }, { EMR_CREATEBRUSHINDIRECT }, { EMR_SELECTOBJECT }, { EMR_SAVEDC }, { EMR_SETVIEWPORTORGEX }, { EMR_SAVEDC }, { EMR_SETVIEWPORTORGEX }, { EMR_SAVEDC }, { EMR_SETVIEWPORTORGEX }, { EMR_RECTANGLE }, { EMR_RESTOREDC }, { EMR_RECTANGLE }, { EMR_RESTOREDC }, { EMR_RECTANGLE }, { EMR_SELECTOBJECT }, { EMR_DELETEOBJECT }, { EMR_EOF }, { 0 } }; static void test_restoredc(void) { static const GpPointF dst_points[3] = {{0.0,0.0},{100.0,0.0},{0.0,100.0}}; static const GpRectF frame = {0.0, 0.0, 100.0, 100.0}; GpBitmap *bitmap; GpGraphics *graphics; GpMetafile *metafile; GpStatus stat; HDC hdc, metafile_dc; HBRUSH hbrush, holdbrush; ARGB color; hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(hdc, EmfTypeEmfOnly, &frame, MetafileFrameUnitPixel, L"winetest", &metafile); expect(Ok, stat); DeleteDC(hdc); stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); stat = GdipGetDC(graphics, &metafile_dc); expect(Ok, stat); hbrush = CreateSolidBrush(0xff0000); holdbrush = SelectObject(metafile_dc, hbrush); SaveDC(metafile_dc); SetViewportOrgEx(metafile_dc, 20, 20, NULL); SaveDC(metafile_dc); SetViewportOrgEx(metafile_dc, 40, 40, NULL); SaveDC(metafile_dc); SetViewportOrgEx(metafile_dc, 60, 60, NULL); Rectangle(metafile_dc, 0, 0, 3, 3); RestoreDC(metafile_dc, -2); Rectangle(metafile_dc, 0, 0, 3, 3); RestoreDC(metafile_dc, -1); Rectangle(metafile_dc, 0, 0, 3, 3); SelectObject(metafile_dc, holdbrush); DeleteObject(hbrush); stat = GdipReleaseDC(graphics, metafile_dc); expect(Ok, stat); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); check_metafile(metafile, restoredc_records, "restoredc metafile", dst_points, &frame, UnitPixel); sync_metafile(&metafile, "restoredc.emf"); stat = GdipCreateBitmapFromScan0(100, 100, 0, PixelFormat32bppARGB, NULL, &bitmap); expect(Ok, stat); stat = GdipGetImageGraphicsContext((GpImage*)bitmap, &graphics); expect(Ok, stat); play_metafile(metafile, graphics, restoredc_records, "restoredc playback", dst_points, &frame, UnitPixel); stat = GdipBitmapGetPixel(bitmap, 1, 1, &color); expect(Ok, stat); expect(0xff0000ff, color); stat = GdipBitmapGetPixel(bitmap, 21, 21, &color); expect(Ok, stat); expect(0xff0000ff, color); stat = GdipBitmapGetPixel(bitmap, 41, 41, &color); expect(Ok, stat); expect(0, color); stat = GdipBitmapGetPixel(bitmap, 61, 61, &color); expect(Ok, stat); expect(0xff0000ff, color); stat = GdipDeleteGraphics(graphics); expect(Ok, stat); stat = GdipDisposeImage((GpImage*)bitmap); expect(Ok, stat); stat = GdipDisposeImage((GpImage*)metafile); expect(Ok, stat); } static const emfplus_record drawdriverstring_records[] = { { EMR_HEADER }, { EmfPlusRecordTypeHeader }, { EmfPlusRecordTypeObject, ObjectTypeFont << 8 }, { EmfPlusRecordTypeDrawDriverString, 0x8000 }, { EmfPlusRecordTypeObject, (ObjectTypeFont << 8) | 1 }, { EmfPlusRecordTypeObject, (ObjectTypeBrush << 8) | 2 }, { EmfPlusRecordTypeDrawDriverString, 0x1 }, { EmfPlusRecordTypeEndOfFile }, { EMR_EOF }, { 0 } }; static void test_drawdriverstring(void) { static const GpPointF dst_points[3] = {{0.0,0.0},{100.0,0.0},{0.0,100.0}}; static const GpRectF frame = {0.0, 0.0, 100.0, 100.0}; static const PointF solidpos[4] = {{10.0,10.0}, {20.0,10.0}, {30.0,10.0}, {40.0,10.0}}; static const PointF hatchpos = {10.0,30.0}; GpBitmap *bitmap; GpStatus stat; GpGraphics *graphics; GpFont *solidfont, *hatchfont; GpBrush *solidbrush, *hatchbrush; HDC hdc; GpMatrix *matrix; GpMetafile *metafile; LOGFONTA logfont = { 0 }; hdc = CreateCompatibleDC(0); strcpy(logfont.lfFaceName, "Times New Roman"); logfont.lfHeight = 12; logfont.lfCharSet = DEFAULT_CHARSET; stat = GdipCreateFontFromLogfontA(hdc, &logfont, &solidfont); if (stat == NotTrueTypeFont || stat == FileNotFound) { DeleteDC(hdc); skip("Times New Roman not installed.\n"); return; } stat = GdipCloneFont(solidfont, &hatchfont); expect(Ok, stat); stat = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, &frame, MetafileFrameUnitPixel, L"winetest", &metafile); expect(Ok, stat); DeleteDC(hdc); hdc = NULL; stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); stat = GdipCreateSolidFill((ARGB)0xff0000ff, (GpSolidFill**)&solidbrush); expect(Ok, stat); stat = GdipCreateHatchBrush(HatchStyleHorizontal, (ARGB)0xff00ff00, (ARGB)0xffff0000, (GpHatch**)&hatchbrush); expect(Ok, stat); stat = GdipCreateMatrix(&matrix); expect(Ok, stat); stat = GdipDrawDriverString(graphics, L"Test", 4, solidfont, solidbrush, solidpos, DriverStringOptionsCmapLookup, matrix); expect(Ok, stat); stat = GdipSetMatrixElements(matrix, 1.5, 0.0, 0.0, 1.5, 0.0, 0.0); expect(Ok, stat); stat = GdipDrawDriverString(graphics, L"Test ", 5, hatchfont, hatchbrush, &hatchpos, DriverStringOptionsCmapLookup|DriverStringOptionsRealizedAdvance, matrix); expect(Ok, stat); stat = GdipDeleteGraphics(graphics); graphics = NULL; check_metafile(metafile, drawdriverstring_records, "drawdriverstring metafile", dst_points, &frame, UnitPixel); sync_metafile(&metafile, "drawdriverstring.emf"); stat = GdipCreateBitmapFromScan0(100, 100, 0, PixelFormat32bppARGB, NULL, &bitmap); expect(Ok, stat); stat = GdipGetImageGraphicsContext((GpImage*)bitmap, &graphics); expect(Ok, stat); play_metafile(metafile, graphics, drawdriverstring_records, "drawdriverstring playback", dst_points, &frame, UnitPixel); GdipDeleteMatrix(matrix); GdipDeleteGraphics(graphics); GdipDeleteBrush(solidbrush); GdipDeleteBrush(hatchbrush); GdipDeleteFont(solidfont); GdipDeleteFont(hatchfont); GdipDisposeImage((GpImage*)bitmap); GdipDisposeImage((GpImage*)metafile); } static const emfplus_record unknownfontdecode_records[] = { { EMR_HEADER }, { EmfPlusRecordTypeHeader }, { EmfPlusRecordTypeObject, ObjectTypeFont << 8 }, { EmfPlusRecordTypeDrawDriverString, 0x8000 }, { EmfPlusRecordTypeEndOfFile }, { EMR_EOF }, { 0 } }; static void test_unknownfontdecode(void) { static const GpPointF dst_points[3] = {{0.0,0.0},{100.0,0.0},{0.0,100.0}}; static const GpRectF frame = {0.0, 0.0, 100.0, 100.0}; static const PointF pos = {10.0,30.0}; static const INT testfont0_resnum = 2; BOOL rval; DWORD written, ressize; GpBitmap *bitmap; GpBrush *brush; GpFont *font; GpFontCollection *fonts; GpFontFamily *family; GpGraphics *graphics; GpMetafile *metafile; GpStatus stat; HANDLE file; HDC hdc; HRSRC res; INT fontscount; WCHAR path[MAX_PATH]; void *buf; /* Create a custom font from a resource. */ GetTempPathW(MAX_PATH, path); lstrcatW(path, L"wine_testfont0.ttf"); file = CreateFileW(path, GENERIC_READ|GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, 0, 0); ok(file != INVALID_HANDLE_VALUE, "file creation failed, at %s, error %d\n", wine_dbgstr_w(path), GetLastError()); res = FindResourceA(GetModuleHandleA(NULL), MAKEINTRESOURCEA(testfont0_resnum), (LPCSTR)RT_RCDATA); ok(res != 0, "couldn't find resource\n"); buf = LockResource(LoadResource(GetModuleHandleA(NULL), res)); ressize = SizeofResource(GetModuleHandleA(NULL), res); WriteFile(file, buf, ressize, &written, NULL); expect(ressize, written); CloseHandle(file); stat = GdipNewPrivateFontCollection(&fonts); expect(Ok, stat); stat = GdipPrivateAddFontFile(fonts, path); expect(Ok, stat); stat = GdipGetFontCollectionFamilyCount(fonts, &fontscount); expect(Ok, stat); expect(1, fontscount); stat = GdipGetFontCollectionFamilyList(fonts, fontscount, &family, &fontscount); expect(Ok, stat); stat = GdipCreateFont(family, 16.0, FontStyleRegular, UnitPixel, &font); expect(Ok, stat); /* Start metafile recording. */ hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, &frame, MetafileFrameUnitPixel, L"winetest", &metafile); expect(Ok, stat); DeleteDC(hdc); hdc = NULL; stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); stat = GdipCreateSolidFill((ARGB)0xff0000ff, (GpSolidFill**)&brush); expect(Ok, stat); /* Write something with the custom font so that it is encoded. */ stat = GdipDrawDriverString(graphics, L"Test", 4, font, brush, &pos, DriverStringOptionsCmapLookup|DriverStringOptionsRealizedAdvance, NULL); expect(Ok, stat); /* Delete the custom font so that it is not present during playback. */ GdipDeleteFont(font); GdipDeletePrivateFontCollection(&fonts); rval = DeleteFileW(path); expect(TRUE, rval); GdipDeleteGraphics(graphics); graphics = NULL; check_metafile(metafile, unknownfontdecode_records, "unknownfontdecode metafile", dst_points, &frame, UnitPixel); sync_metafile(&metafile, "unknownfontdecode.emf"); stat = GdipCreateBitmapFromScan0(100, 100, 0, PixelFormat32bppARGB, NULL, &bitmap); expect(Ok, stat); stat = GdipGetImageGraphicsContext((GpImage*)bitmap, &graphics); expect(Ok, stat); play_metafile(metafile, graphics, unknownfontdecode_records, "unknownfontdecode playback", dst_points, &frame, UnitPixel); GdipDeleteGraphics(graphics); GdipDeleteBrush(brush); GdipDisposeImage((GpImage*)bitmap); GdipDisposeImage((GpImage*)metafile); } static const emfplus_record fillregion_records[] = { { EMR_HEADER }, { EmfPlusRecordTypeHeader }, { EmfPlusRecordTypeObject, ObjectTypeRegion << 8 }, { EmfPlusRecordTypeFillRegion, 0x8000 }, { EmfPlusRecordTypeObject, (ObjectTypeBrush << 8) | 1 }, { EmfPlusRecordTypeObject, (ObjectTypeRegion << 8) | 2 }, { EmfPlusRecordTypeFillRegion, 2 }, { EmfPlusRecordTypeEndOfFile }, { EMR_EOF }, { 0 } }; static void test_fillregion(void) { static const GpPointF dst_points[3] = {{0.0, 0.0}, {100.0, 0.0}, {0.0, 100.0}}; static const GpRectF frame = {0.0, 0.0, 100.0, 100.0}; static const GpRectF solidrect = {20.0, 20.0, 20.0, 20.0}; static const GpRectF hatchrect = {50.0, 50.0, 20.0, 20.0}; GpStatus stat; GpMetafile *metafile; GpGraphics *graphics; GpBitmap *bitmap; GpBrush *solidbrush, *hatchbrush; GpRegion *solidregion, *hatchregion; ARGB color; HDC hdc; hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, &frame, MetafileFrameUnitPixel, L"winetest", &metafile); expect(Ok, stat); DeleteDC(hdc); hdc = NULL; stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); stat = GdipCreateRegionRect(&solidrect, &solidregion); expect(Ok, stat); stat = GdipCreateSolidFill(0xffaabbcc, (GpSolidFill**)&solidbrush); expect(Ok, stat); stat = GdipFillRegion(graphics, solidbrush, solidregion); expect(Ok, stat); stat = GdipCreateRegionRect(&hatchrect, &hatchregion); expect(Ok, stat); stat = GdipCreateHatchBrush(HatchStyleHorizontal, 0xffff0000, 0xff0000ff, (GpHatch**)&hatchbrush); expect(Ok, stat); stat = GdipFillRegion(graphics, hatchbrush, hatchregion); expect(Ok, stat); stat = GdipDeleteGraphics(graphics); graphics = NULL; expect(Ok, stat); check_metafile(metafile, fillregion_records, "regionfill metafile", dst_points, &frame, UnitPixel); sync_metafile(&metafile, "regionfill.emf"); stat = GdipCreateBitmapFromScan0(100, 100, 0, PixelFormat32bppARGB, NULL, &bitmap); expect(Ok, stat); stat = GdipGetImageGraphicsContext((GpImage*)bitmap, &graphics); expect(Ok, stat); play_metafile(metafile, graphics, fillregion_records, "regionfill playback", dst_points, &frame, UnitPixel); stat = GdipBitmapGetPixel(bitmap, 25, 25, &color); expect(Ok, stat); expect(0xffaabbcc, color); stat = GdipBitmapGetPixel(bitmap, 56, 56, &color); expect(Ok, stat); expect(0xffff0000, color); stat = GdipBitmapGetPixel(bitmap, 57, 57, &color); expect(Ok, stat); expect(0xff0000ff, color); GdipDeleteRegion(solidregion); GdipDeleteRegion(hatchregion); GdipDeleteBrush(solidbrush); GdipDeleteBrush(hatchbrush); GdipDeleteGraphics(graphics); GdipDisposeImage((GpImage*)bitmap); GdipDisposeImage((GpImage*)metafile); } static const emfplus_record lineargradient_records[] = { { EMR_HEADER }, { EmfPlusRecordTypeHeader }, { EmfPlusRecordTypeObject, ObjectTypeBrush << 8 }, { EmfPlusRecordTypeFillRects, 0x4000 }, { EmfPlusRecordTypeObject, (ObjectTypeBrush << 8) | 1 }, { EmfPlusRecordTypeFillRects, 0x4000 }, { EmfPlusRecordTypeObject, (ObjectTypeBrush << 8) | 2 }, { EmfPlusRecordTypeFillRects, 0x4000 }, { EmfPlusRecordTypeObject, (ObjectTypeBrush << 8) | 3 }, { EmfPlusRecordTypeFillRects, 0x4000 }, { EmfPlusRecordTypeEndOfFile }, { EMR_EOF }, { 0 } }; static void test_lineargradient(void) { static const GpPointF dst_points[3] = {{0.0, 0.0}, {100.0, 0.0}, {0.0, 100.0}}; static const GpRectF frame = {0.0, 0.0, 100.0, 100.0}; static const GpRectF horizrect = {10.0, 10.0, 20.0, 20.0}; static const GpRectF vertrect = {50.0, 10.0, 20.0, 20.0}; static const GpRectF blendrect = {10.0, 50.0, 20.0, 20.0}; static const GpRectF presetrect = {50.0, 50.0, 20.0, 20.0}; static const REAL blendfac[3] = {0.0, 0.9, 1.0}; static const REAL blendpos[3] = {0.0, 0.5, 1.0}; static const ARGB pblendcolor[3] = {0xffff0000, 0xff00ff00, 0xff0000ff}; static const REAL pblendpos[3] = {0.0, 0.5, 1.0}; ARGB color; GpBitmap *bitmap; GpBrush *horizbrush, *vertbrush, *blendbrush, *presetbrush; GpGraphics *graphics; GpMetafile *metafile; GpStatus stat; HDC hdc; hdc = CreateCompatibleDC(0); stat = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, &frame, MetafileFrameUnitPixel, L"winetest", &metafile); expect(Ok, stat); DeleteDC(hdc); hdc = NULL; stat = GdipGetImageGraphicsContext((GpImage*)metafile, &graphics); expect(Ok, stat); /* Test various brush types to cover all valid combinations of optional serialized data. */ stat = GdipCreateLineBrushFromRect(&horizrect, 0xffff0000, 0xff0000ff, LinearGradientModeHorizontal, WrapModeTile, (GpLineGradient**)&horizbrush); expect(Ok, stat); stat = GdipCreateLineBrushFromRect(&vertrect, 0xffff0000, 0xff0000ff, LinearGradientModeVertical, WrapModeTile, (GpLineGradient**)&vertbrush); expect(Ok, stat); stat = GdipCreateLineBrushFromRect(&blendrect, 0xffff0000, 0xff0000ff, LinearGradientModeHorizontal, WrapModeTile, (GpLineGradient**)&blendbrush); expect(Ok, stat); stat = GdipSetLineBlend((GpLineGradient*)blendbrush, blendfac, blendpos, 3); expect(Ok, stat); stat = GdipCreateLineBrushFromRect(&presetrect, 0xffff0000, 0xff0000ff, LinearGradientModeVertical, WrapModeTile, (GpLineGradient**)&presetbrush); expect(Ok, stat); stat = GdipSetLinePresetBlend((GpLineGradient*)presetbrush, pblendcolor, pblendpos, 3); expect(Ok, stat); stat = GdipFillRectangles(graphics, vertbrush, &vertrect, 1); expect(Ok, stat); stat = GdipFillRectangles(graphics, horizbrush, &horizrect, 1); expect(Ok, stat); stat = GdipFillRectangles(graphics, blendbrush, &blendrect, 1); expect(Ok, stat); stat = GdipFillRectangles(graphics, presetbrush, &presetrect, 1); expect(Ok, stat); stat = GdipDeleteGraphics(graphics); graphics = NULL; expect(Ok, stat); check_metafile(metafile, lineargradient_records, "lineargradient metafile", dst_points, &frame, UnitPixel); sync_metafile(&metafile, "lineargradient.emf"); stat = GdipCreateBitmapFromScan0(100, 100, 0, PixelFormat32bppARGB, NULL, &bitmap); expect(Ok, stat); stat = GdipGetImageGraphicsContext((GpImage*)bitmap, &graphics); expect(Ok, stat); play_metafile(metafile, graphics, lineargradient_records, "lineargradient playback", dst_points, &frame, UnitPixel); /* Verify horizontal gradient fill. */ stat = GdipBitmapGetPixel(bitmap, 10, 10, &color); expect(Ok, stat); expect(0xffff0000, color); stat = GdipBitmapGetPixel(bitmap, 18, 10, &color); expect(Ok, stat); expect(0xff990066, color); /* Verify vertical gradient fill. */ stat = GdipBitmapGetPixel(bitmap, 50, 10, &color); expect(Ok, stat); expect(0xffff0000, color); stat = GdipBitmapGetPixel(bitmap, 50, 18, &color); expect(Ok, stat); expect(0xff990066, color); /* Verify custom blend gradient fill. */ stat = GdipBitmapGetPixel(bitmap, 10, 50, &color); expect(Ok, stat); expect(0xffff0000, color); stat = GdipBitmapGetPixel(bitmap, 18, 50, &color); expect(Ok, stat); expect(0xff4700b8, color); /* Verify preset color gradient fill. */ stat = GdipBitmapGetPixel(bitmap, 50, 50, &color); expect(Ok, stat); expect(0xffff0000, color); stat = GdipBitmapGetPixel(bitmap, 50, 60, &color); expect(Ok, stat); expect(0xff00ff00, color); GdipDeleteBrush(vertbrush); GdipDeleteBrush(horizbrush); GdipDeleteBrush(blendbrush); GdipDeleteBrush(presetbrush); GdipDeleteGraphics(graphics); GdipDisposeImage((GpImage*)bitmap); GdipDisposeImage((GpImage*)metafile); } static HDC create_printer_dc(void) { char buffer[260]; DWORD len; PRINTER_INFO_2A *pbuf = NULL; DRIVER_INFO_3A *dbuf = NULL; HANDLE hprn = 0; HDC hdc = 0; HMODULE winspool = LoadLibraryA("winspool.drv"); BOOL (WINAPI *pOpenPrinterA)(LPSTR, HANDLE *, LPPRINTER_DEFAULTSA); BOOL (WINAPI *pGetDefaultPrinterA)(LPSTR, LPDWORD); BOOL (WINAPI *pGetPrinterA)(HANDLE, DWORD, LPBYTE, DWORD, LPDWORD); BOOL (WINAPI *pGetPrinterDriverA)(HANDLE, LPSTR, DWORD, LPBYTE, DWORD, LPDWORD); BOOL (WINAPI *pClosePrinter)(HANDLE); pGetDefaultPrinterA = (void *)GetProcAddress(winspool, "GetDefaultPrinterA"); pOpenPrinterA = (void *)GetProcAddress(winspool, "OpenPrinterA"); pGetPrinterA = (void *)GetProcAddress(winspool, "GetPrinterA"); pGetPrinterDriverA = (void *)GetProcAddress(winspool, "GetPrinterDriverA"); pClosePrinter = (void *)GetProcAddress(winspool, "ClosePrinter"); if (!pGetDefaultPrinterA || !pOpenPrinterA || !pGetPrinterA || !pGetPrinterDriverA || !pClosePrinter) goto done; len = sizeof(buffer); if (!pGetDefaultPrinterA(buffer, &len)) goto done; if (!pOpenPrinterA(buffer, &hprn, NULL)) goto done; pGetPrinterA(hprn, 2, NULL, 0, &len); pbuf = HeapAlloc(GetProcessHeap(), 0, len); if (!pGetPrinterA(hprn, 2, (LPBYTE)pbuf, len, &len)) goto done; pGetPrinterDriverA(hprn, NULL, 3, NULL, 0, &len); dbuf = HeapAlloc(GetProcessHeap(), 0, len); if (!pGetPrinterDriverA(hprn, NULL, 3, (LPBYTE)dbuf, len, &len)) goto done; hdc = CreateDCA(dbuf->pDriverPath, pbuf->pPrinterName, pbuf->pPortName, pbuf->pDevMode); trace("hdc %p for driver '%s' printer '%s' port '%s'\n", hdc, dbuf->pDriverPath, pbuf->pPrinterName, pbuf->pPortName); done: HeapFree(GetProcessHeap(), 0, dbuf); HeapFree(GetProcessHeap(), 0, pbuf); if (hprn) pClosePrinter(hprn); if (winspool) FreeLibrary(winspool); return hdc; } static void test_printer_dc(void) { HDC hdc; Status status; RectF frame = { 0.0, 0.0, 1.0, 1.0 }; GpMetafile *metafile; GpGraphics *graphics; REAL dpix, dpiy; hdc = create_printer_dc(); if (!hdc) { skip("could not create a DC for the default printer\n"); return; } status = GdipRecordMetafile(hdc, EmfTypeEmfPlusOnly, &frame, MetafileFrameUnitInch, L"winetest", &metafile); expect(Ok, status); status = GdipGetImageGraphicsContext((GpImage *)metafile, &graphics); expect(Ok, status); GdipGetDpiX(graphics, &dpix); GdipGetDpiX(graphics, &dpiy); expectf((REAL)(GetDeviceCaps(hdc, LOGPIXELSX)), dpix); expectf((REAL)(GetDeviceCaps(hdc, LOGPIXELSY)), dpiy); GdipDeleteGraphics(graphics); GdipDisposeImage((GpImage *)metafile); } START_TEST(metafile) { struct GdiplusStartupInput gdiplusStartupInput; ULONG_PTR gdiplusToken; int myARGC; char **myARGV; HMODULE hmsvcrt; int (CDECL * _controlfp_s)(unsigned int *cur, unsigned int newval, unsigned int mask); /* Enable all FP exceptions except _EM_INEXACT, which gdi32 can trigger */ hmsvcrt = LoadLibraryA("msvcrt"); _controlfp_s = (void*)GetProcAddress(hmsvcrt, "_controlfp_s"); if (_controlfp_s) _controlfp_s(0, 0, 0x0008001e); gdiplusStartupInput.GdiplusVersion = 1; gdiplusStartupInput.DebugEventCallback = NULL; gdiplusStartupInput.SuppressBackgroundThread = 0; gdiplusStartupInput.SuppressExternalCodecs = 0; GdiplusStartup(&gdiplusToken, &gdiplusStartupInput, NULL); myARGC = winetest_get_mainargs( &myARGV ); if (myARGC >= 3) { if (!strcmp(myARGV[2], "save")) save_metafiles = TRUE; else if (!strcmp(myARGV[2], "load")) load_metafiles = TRUE; } test_empty(); test_getdc(); test_emfonly(); test_fillrect(); test_clear(); test_nullframerect(); test_pagetransform(); test_worldtransform(); test_converttoemfplus(); test_frameunit(); test_containers(); test_clipping(); test_gditransform(); test_drawimage(); test_properties(); test_drawpath(); test_fillpath(); test_restoredc(); test_drawdriverstring(); test_unknownfontdecode(); test_fillregion(); test_lineargradient(); test_printer_dc(); GdiplusShutdown(gdiplusToken); }