Sweden-Number/dlls/gdiplus/tests/metafile.c

2838 lines
85 KiB
C

/*
* 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 <math.h>
#include "objbase.h"
#include "gdiplus.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;
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}};
static const WCHAR description[] = {'w','i','n','e','t','e','s','t',0};
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 = 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);
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.LogicalDpiX);
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.LogicalDpiX);
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.LogicalDpiX);
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}};
static const WCHAR description[] = {'w','i','n','e','t','e','s','t',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}};
static const WCHAR description[] = {'w','i','n','e','t','e','s','t',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.LogicalDpiX);
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.LogicalDpiX);
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.LogicalDpiX);
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}};
static const WCHAR description[] = {'w','i','n','e','t','e','s','t',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}};
static const WCHAR description[] = {'w','i','n','e','t','e','s','t',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;
static const WCHAR description[] = {'w','i','n','e','t','e','s','t',0};
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);
}
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}};
static const WCHAR description[] = {'w','i','n','e','t','e','s','t',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}};
static const WCHAR description[] = {'w','i','n','e','t','e','s','t',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};
static const WCHAR description[] = {'w','i','n','e','t','e','s','t',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};
static const WCHAR description[] = {'w','i','n','e','t','e','s','t',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}};
static const WCHAR description[] = {'w','i','n','e','t','e','s','t',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, 0, 1 },
{ EmfPlusRecordTypeSetClipRegion, 0x100, 0, 1 },
{ 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}};
static const WCHAR description[] = {'w','i','n','e','t','e','s','t',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, &region);
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}};
static const WCHAR description[] = {'w','i','n','e','t','e','s','t',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 WCHAR description[] = {'w','i','n','e','t','e','s','t',0};
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");
/* 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 WCHAR description[] = {'w','i','n','e','t','e','s','t',0};
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 WCHAR description[] = {'w','i','n','e','t','e','s','t',0};
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 WCHAR description[] = {'w','i','n','e','t','e','s','t',0};
static const GpRectF frame = {0.0, 0.0, 100.0, 100.0};
static const WCHAR winetestemfW[] = {'w','i','n','e','t','e','s','t','.','e','m','f',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, winetestemfW));
DeleteEnhMetaFile(hemf);
stat = GdipDisposeImage((GpImage*)metafile);
expect(Ok, stat);
/* should succeed when given path to an EMF */
stat = GdipCreateMetafileFromWmfFile(winetestemfW, NULL, &metafile);
expect(Ok, stat);
stat = GdipDisposeImage((GpImage*)metafile);
expect(Ok, stat);
DeleteFileW(winetestemfW);
stat = GdipCreateMetafileFromWmfFile(winetestemfW, NULL, &metafile);
expect(GenericError, stat);
}
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();
GdiplusShutdown(gdiplusToken);
}