/* * Unit test suite for paths * * Copyright 2007 Laurent Vromman * Copyright 2007 Misha Koshelev * * 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 #include #include "windef.h" #include "winbase.h" #include "wingdi.h" #include "wine/test.h" #include "winuser.h" #include "winerror.h" #define expect(expected, got) ok(got == expected, "Expected %.8x, got %.8x\n", expected, got) static void test_path_state(void) { BYTE buffer[sizeof(BITMAPINFO) + 256 * sizeof(RGBQUAD)]; BITMAPINFO *bi = (BITMAPINFO *)buffer; HDC hdc; HBITMAP orig, dib; void *bits; BOOL ret; hdc = CreateCompatibleDC( 0 ); memset( buffer, 0, sizeof(buffer) ); bi->bmiHeader.biSize = sizeof(bi->bmiHeader); bi->bmiHeader.biHeight = 256; bi->bmiHeader.biWidth = 256; bi->bmiHeader.biBitCount = 32; bi->bmiHeader.biPlanes = 1; bi->bmiHeader.biCompression = BI_RGB; dib = CreateDIBSection( 0, bi, DIB_RGB_COLORS, (void**)&bits, NULL, 0 ); orig = SelectObject( hdc, dib ); BeginPath( hdc ); LineTo( hdc, 100, 100 ); ret = WidenPath( hdc ); ok( !ret, "WidenPath succeeded\n" ); /* selecting another bitmap doesn't affect the path */ SelectObject( hdc, orig ); ret = WidenPath( hdc ); ok( !ret, "WidenPath succeeded\n" ); SelectObject( hdc, dib ); ret = WidenPath( hdc ); ok( !ret, "WidenPath succeeded\n" ); ret = EndPath( hdc ); ok( ret, "EndPath failed error %u\n", GetLastError() ); ret = WidenPath( hdc ); ok( ret, "WidenPath failed error %u\n", GetLastError() ); SelectObject( hdc, orig ); ret = WidenPath( hdc ); ok( ret, "WidenPath failed error %u\n", GetLastError() ); BeginPath( hdc ); LineTo( hdc, 100, 100 ); ret = WidenPath( hdc ); ok( !ret, "WidenPath succeeded\n" ); SaveDC( hdc ); SelectObject( hdc, dib ); ret = EndPath( hdc ); ok( ret, "EndPath failed error %u\n", GetLastError() ); ret = WidenPath( hdc ); ok( ret, "WidenPath failed error %u\n", GetLastError() ); /* path should be open again after RestoreDC */ RestoreDC( hdc, -1 ); ret = WidenPath( hdc ); ok( !ret, "WidenPath succeeded\n" ); ret = EndPath( hdc ); ok( ret, "EndPath failed error %u\n", GetLastError() ); SaveDC( hdc ); BeginPath( hdc ); RestoreDC( hdc, -1 ); ret = WidenPath( hdc ); ok( ret, "WidenPath failed error %u\n", GetLastError() ); /* test all functions with no path at all */ AbortPath( hdc ); SetLastError( 0xdeadbeef ); ret = WidenPath( hdc ); ok( !ret, "WidenPath succeeded\n" ); ok( GetLastError() == ERROR_CAN_NOT_COMPLETE || broken(GetLastError() == 0xdeadbeef), "wrong error %u\n", GetLastError() ); SetLastError( 0xdeadbeef ); ret = FlattenPath( hdc ); ok( !ret, "FlattenPath succeeded\n" ); ok( GetLastError() == ERROR_CAN_NOT_COMPLETE || broken(GetLastError() == 0xdeadbeef), "wrong error %u\n", GetLastError() ); SetLastError( 0xdeadbeef ); ret = StrokePath( hdc ); ok( !ret, "StrokePath succeeded\n" ); ok( GetLastError() == ERROR_CAN_NOT_COMPLETE || broken(GetLastError() == 0xdeadbeef), "wrong error %u\n", GetLastError() ); SetLastError( 0xdeadbeef ); ret = FillPath( hdc ); ok( !ret, "FillPath succeeded\n" ); ok( GetLastError() == ERROR_CAN_NOT_COMPLETE || broken(GetLastError() == 0xdeadbeef), "wrong error %u\n", GetLastError() ); SetLastError( 0xdeadbeef ); ret = StrokeAndFillPath( hdc ); ok( !ret, "StrokeAndFillPath succeeded\n" ); ok( GetLastError() == ERROR_CAN_NOT_COMPLETE || broken(GetLastError() == 0xdeadbeef), "wrong error %u\n", GetLastError() ); SetLastError( 0xdeadbeef ); ret = SelectClipPath( hdc, RGN_OR ); ok( !ret, "SelectClipPath succeeded\n" ); ok( GetLastError() == ERROR_CAN_NOT_COMPLETE || broken(GetLastError() == 0xdeadbeef), "wrong error %u\n", GetLastError() ); SetLastError( 0xdeadbeef ); ret = EndPath( hdc ); ok( !ret, "SelectClipPath succeeded\n" ); ok( GetLastError() == ERROR_CAN_NOT_COMPLETE || broken(GetLastError() == 0xdeadbeef), "wrong error %u\n", GetLastError() ); SetLastError( 0xdeadbeef ); ret = CloseFigure( hdc ); ok( !ret, "CloseFigure succeeded\n" ); ok( GetLastError() == ERROR_CAN_NOT_COMPLETE || broken(GetLastError() == 0xdeadbeef), "wrong error %u\n", GetLastError() ); /* test all functions with an open path */ AbortPath( hdc ); BeginPath( hdc ); SetLastError( 0xdeadbeef ); ret = WidenPath( hdc ); ok( !ret, "WidenPath succeeded\n" ); ok( GetLastError() == ERROR_CAN_NOT_COMPLETE || broken(GetLastError() == 0xdeadbeef), "wrong error %u\n", GetLastError() ); AbortPath( hdc ); BeginPath( hdc ); SetLastError( 0xdeadbeef ); ret = FlattenPath( hdc ); ok( !ret, "FlattenPath succeeded\n" ); ok( GetLastError() == ERROR_CAN_NOT_COMPLETE || broken(GetLastError() == 0xdeadbeef), "wrong error %u\n", GetLastError() ); AbortPath( hdc ); BeginPath( hdc ); SetLastError( 0xdeadbeef ); ret = StrokePath( hdc ); ok( !ret, "StrokePath succeeded\n" ); ok( GetLastError() == ERROR_CAN_NOT_COMPLETE || broken(GetLastError() == 0xdeadbeef), "wrong error %u\n", GetLastError() ); AbortPath( hdc ); BeginPath( hdc ); SetLastError( 0xdeadbeef ); ret = FillPath( hdc ); ok( !ret, "FillPath succeeded\n" ); ok( GetLastError() == ERROR_CAN_NOT_COMPLETE || broken(GetLastError() == 0xdeadbeef), "wrong error %u\n", GetLastError() ); AbortPath( hdc ); BeginPath( hdc ); SetLastError( 0xdeadbeef ); ret = StrokeAndFillPath( hdc ); ok( !ret, "StrokeAndFillPath succeeded\n" ); ok( GetLastError() == ERROR_CAN_NOT_COMPLETE || broken(GetLastError() == 0xdeadbeef), "wrong error %u\n", GetLastError() ); AbortPath( hdc ); BeginPath( hdc ); Rectangle( hdc, 1, 1, 10, 10 ); /* region needs some contents */ SetLastError( 0xdeadbeef ); ret = SelectClipPath( hdc, RGN_OR ); ok( !ret, "SelectClipPath succeeded\n" ); ok( GetLastError() == ERROR_CAN_NOT_COMPLETE || broken(GetLastError() == 0xdeadbeef), "wrong error %u\n", GetLastError() ); AbortPath( hdc ); BeginPath( hdc ); ret = CloseFigure( hdc ); ok( ret, "CloseFigure failed\n" ); /* test all functions with a closed path */ AbortPath( hdc ); BeginPath( hdc ); EndPath( hdc ); ret = WidenPath( hdc ); ok( ret, "WidenPath failed\n" ); AbortPath( hdc ); BeginPath( hdc ); EndPath( hdc ); ret = FlattenPath( hdc ); ok( ret, "FlattenPath failed\n" ); AbortPath( hdc ); BeginPath( hdc ); EndPath( hdc ); ret = StrokePath( hdc ); ok( ret, "StrokePath failed\n" ); AbortPath( hdc ); BeginPath( hdc ); EndPath( hdc ); ret = FillPath( hdc ); ok( ret, "FillPath failed\n" ); AbortPath( hdc ); BeginPath( hdc ); EndPath( hdc ); ret = StrokeAndFillPath( hdc ); ok( ret, "StrokeAndFillPath failed\n" ); AbortPath( hdc ); BeginPath( hdc ); Rectangle( hdc, 1, 1, 10, 10 ); /* region needs some contents */ EndPath( hdc ); ret = SelectClipPath( hdc, RGN_OR ); ok( ret, "SelectClipPath failed\n" ); AbortPath( hdc ); BeginPath( hdc ); EndPath( hdc ); SetLastError( 0xdeadbeef ); ret = CloseFigure( hdc ); ok( !ret, "CloseFigure succeeded\n" ); ok( GetLastError() == ERROR_CAN_NOT_COMPLETE || broken(GetLastError() == 0xdeadbeef), "wrong error %u\n", GetLastError() ); AbortPath( hdc ); BeginPath( hdc ); EndPath( hdc ); SetLastError( 0xdeadbeef ); ret = EndPath( hdc ); ok( !ret, "SelectClipPath succeeded\n" ); ok( GetLastError() == ERROR_CAN_NOT_COMPLETE || broken(GetLastError() == 0xdeadbeef), "wrong error %u\n", GetLastError() ); DeleteDC( hdc ); DeleteObject( dib ); } static void test_widenpath(void) { HDC hdc = GetDC(0); HPEN greenPen, narrowPen; POINT pnt[6]; INT nSize; BOOL ret; /* Create a pen to be used in WidenPath */ greenPen = CreatePen(PS_SOLID, 10, RGB(0,0,0)); SelectObject(hdc, greenPen); /* Prepare a path */ pnt[0].x = 100; pnt[0].y = 0; pnt[1].x = 200; pnt[1].y = 0; pnt[2].x = 300; pnt[2].y = 100; pnt[3].x = 300; pnt[3].y = 200; pnt[4].x = 200; pnt[4].y = 300; pnt[5].x = 100; pnt[5].y = 300; /* Set a polyline path */ BeginPath(hdc); Polyline(hdc, pnt, 6); EndPath(hdc); /* Widen the polyline path */ ok(WidenPath(hdc), "WidenPath fails while widening a poyline path.\n"); /* Test if WidenPath seems to have done his job */ nSize = GetPath(hdc, NULL, NULL, 0); ok(nSize != -1, "GetPath fails after calling WidenPath.\n"); ok(nSize > 6, "Path number of points is too low. Should be more than 6 but is %d\n", nSize); AbortPath(hdc); /* Test WidenPath with an open path (last error only set on Win2k and later) */ SetLastError(0xdeadbeef); BeginPath(hdc); ret = WidenPath(hdc); ok(ret == FALSE && (GetLastError() == ERROR_CAN_NOT_COMPLETE || GetLastError() == 0xdeadbeef), "WidenPath fails while widening an open path. Return value is %d, should be %d. Error is %u\n", ret, FALSE, GetLastError()); AbortPath(hdc); /* Test when the pen width is equal to 1. The path should change too */ narrowPen = CreatePen(PS_SOLID, 1, RGB(0,0,0)); SelectObject(hdc, narrowPen); BeginPath(hdc); Polyline(hdc, pnt, 6); EndPath(hdc); ret = WidenPath(hdc); ok(ret == TRUE, "WidenPath failed: %d\n", GetLastError()); nSize = GetPath(hdc, NULL, NULL, 0); ok(nSize > 6, "WidenPath should compute a widened path with a 1px wide pen. Path length is %d, should be more than 6\n", nSize); ReleaseDC(0, hdc); return; } /* * Tests for GDI drawing functions in paths */ typedef struct { int x, y; BYTE type; /* How many extra entries before this one only on wine * but not on native? */ int wine_only_entries_preceding; /* 0 - This entry matches on wine. * 1 - This entry corresponds to a single entry on wine that does not match the native entry. * 2 - This entry is currently skipped on wine but present on native. */ int todo; } path_test_t; /* Helper function to verify that the current path in the given DC matches the expected path. * * We use a "smart" matching algorithm that allows us to detect partial improvements * in conformance. Specifically, two running indices are kept, one through the actual * path and one through the expected path. The actual path index increases unless there is * no match and the todo field of the appropriate path_test_t element is 2. Similarly, * if the wine_entries_preceding field of the appropriate path_test_t element is non-zero, * the expected path index does not increase for that many elements as long as there * is no match. This allows us to todo_wine extra path elements that are present only * on wine but not on native and vice versa. * * Note that if expected_size is zero and the WINETEST_DEBUG environment variable is * greater than 2, the trace() output is a C path_test_t array structure, useful for making * new tests that use this function. */ static void ok_path(HDC hdc, const char *path_name, const path_test_t *expected, int expected_size, BOOL todo_size) { static const char *type_string[8] = { "Unknown (0)", "PT_CLOSEFIGURE", "PT_LINETO", "PT_LINETO | PT_CLOSEFIGURE", "PT_BEZIERTO", "PT_BEZIERTO | PT_CLOSEFIGURE", "PT_MOVETO", "PT_MOVETO | PT_CLOSEFIGURE"}; POINT *pnt = NULL; BYTE *types = NULL; int size, numskip, idx = 0, eidx = 0; /* Get the path */ assert(hdc != 0); size = GetPath(hdc, NULL, NULL, 0); ok(size > 0, "GetPath returned size %d, last error %d\n", size, GetLastError()); if (size <= 0) { skip("Cannot perform path comparisons due to failure to retrieve path.\n"); return; } pnt = HeapAlloc(GetProcessHeap(), 0, size*sizeof(POINT)); assert(pnt != 0); types = HeapAlloc(GetProcessHeap(), 0, size*sizeof(BYTE)); assert(types != 0); size = GetPath(hdc, pnt, types, size); assert(size > 0); if (todo_size) todo_wine ok(size == expected_size, "Path size %d does not match expected size %d\n", size, expected_size); else ok(size == expected_size, "Path size %d does not match expected size %d\n", size, expected_size); if (winetest_debug > 2) trace("static const path_test_t %s[] = {\n", path_name); numskip = expected_size ? expected[eidx].wine_only_entries_preceding : 0; while (idx < size && eidx < expected_size) { /* We allow a few pixels fudge in matching X and Y coordinates to account for imprecision in * floating point to integer conversion */ BOOL match = (types[idx] == expected[eidx].type) && (pnt[idx].x >= expected[eidx].x-2 && pnt[idx].x <= expected[eidx].x+2) && (pnt[idx].y >= expected[eidx].y-2 && pnt[idx].y <= expected[eidx].y+2); if (expected[eidx].todo || numskip) todo_wine ok(match, "Expected #%d: %s (%d,%d) but got %s (%d,%d)\n", eidx, type_string[expected[eidx].type], expected[eidx].x, expected[eidx].y, type_string[types[idx]], pnt[idx].x, pnt[idx].y); else ok(match, "Expected #%d: %s (%d,%d) but got %s (%d,%d)\n", eidx, type_string[expected[eidx].type], expected[eidx].x, expected[eidx].y, type_string[types[idx]], pnt[idx].x, pnt[idx].y); if (match || expected[eidx].todo != 2) { if (winetest_debug > 2) trace(" {%d, %d, %s, 0, 0}%s /* %d */\n", pnt[idx].x, pnt[idx].y, type_string[types[idx]], idx < size-1 ? "," : "};", idx); idx++; } if (match || !numskip--) numskip = expected[++eidx].wine_only_entries_preceding; } /* If we are debugging and the actual path is longer than the expected path, make * sure to display the entire path */ if (winetest_debug > 2 && idx < size) for (; idx < size; idx++) trace(" {%d, %d, %s, 0, 0}%s /* %d */\n", pnt[idx].x, pnt[idx].y, type_string[types[idx]], idx < size-1 ? "," : "};", idx); HeapFree(GetProcessHeap(), 0, types); HeapFree(GetProcessHeap(), 0, pnt); } static const path_test_t arcto_path[] = { {0, 0, PT_MOVETO, 0, 0}, /* 0 */ {229, 215, PT_LINETO, 0, 0}, /* 1 */ {248, 205, PT_BEZIERTO, 0, 0}, /* 2 */ {273, 200, PT_BEZIERTO, 0, 0}, /* 3 */ {300, 200, PT_BEZIERTO, 0, 0}, /* 4 */ {355, 200, PT_BEZIERTO, 0, 0}, /* 5 */ {399, 222, PT_BEZIERTO, 0, 0}, /* 6 */ {399, 250, PT_BEZIERTO, 0, 0}, /* 7 */ {399, 263, PT_BEZIERTO, 0, 0}, /* 8 */ {389, 275, PT_BEZIERTO, 0, 0}, /* 9 */ {370, 285, PT_BEZIERTO, 0, 0}, /* 10 */ {363, 277, PT_LINETO, 0, 0}, /* 11 */ {380, 270, PT_BEZIERTO, 0, 0}, /* 12 */ {389, 260, PT_BEZIERTO, 0, 0}, /* 13 */ {389, 250, PT_BEZIERTO, 0, 0}, /* 14 */ {389, 228, PT_BEZIERTO, 0, 0}, /* 15 */ {349, 210, PT_BEZIERTO, 0, 0}, /* 16 */ {300, 210, PT_BEZIERTO, 0, 0}, /* 17 */ {276, 210, PT_BEZIERTO, 0, 0}, /* 18 */ {253, 214, PT_BEZIERTO, 0, 0}, /* 19 */ {236, 222, PT_BEZIERTO | PT_CLOSEFIGURE, 0, 0}}; /* 20 */ static void test_arcto(void) { HDC hdc = GetDC(0); BeginPath(hdc); SetArcDirection(hdc, AD_CLOCKWISE); if (!ArcTo(hdc, 200, 200, 400, 300, 200, 200, 400, 300) && GetLastError() == ERROR_CALL_NOT_IMPLEMENTED) { /* ArcTo is only available on Win2k and later */ win_skip("ArcTo is not available\n"); goto done; } SetArcDirection(hdc, AD_COUNTERCLOCKWISE); ArcTo(hdc, 210, 210, 390, 290, 390, 290, 210, 210); CloseFigure(hdc); EndPath(hdc); ok_path(hdc, "arcto_path", arcto_path, sizeof(arcto_path)/sizeof(path_test_t), 0); done: ReleaseDC(0, hdc); } static const path_test_t anglearc_path[] = { {0, 0, PT_MOVETO, 0, 0}, /* 0 */ {371, 229, PT_LINETO, 0, 0}, /* 1 */ {352, 211, PT_BEZIERTO, 0, 0}, /* 2 */ {327, 200, PT_BEZIERTO, 0, 0}, /* 3 */ {300, 200, PT_BEZIERTO, 0, 0}, /* 4 */ {245, 200, PT_BEZIERTO, 0, 0}, /* 5 */ {200, 245, PT_BEZIERTO, 0, 0}, /* 6 */ {200, 300, PT_BEZIERTO, 0, 0}, /* 7 */ {200, 300, PT_BEZIERTO, 0, 0}, /* 8 */ {200, 300, PT_BEZIERTO, 0, 0}, /* 9 */ {200, 300, PT_BEZIERTO, 0, 0}, /* 10 */ {231, 260, PT_LINETO, 0, 0}, /* 11 */ {245, 235, PT_BEZIERTO, 0, 0}, /* 12 */ {271, 220, PT_BEZIERTO, 0, 0}, /* 13 */ {300, 220, PT_BEZIERTO, 0, 0}, /* 14 */ {344, 220, PT_BEZIERTO, 0, 0}, /* 15 */ {380, 256, PT_BEZIERTO, 0, 0}, /* 16 */ {380, 300, PT_BEZIERTO, 0, 0}, /* 17 */ {380, 314, PT_BEZIERTO, 0, 0}, /* 18 */ {376, 328, PT_BEZIERTO, 0, 0}, /* 19 */ {369, 340, PT_BEZIERTO | PT_CLOSEFIGURE, 0, 0}}; /* 20 */ static void test_anglearc(void) { HDC hdc = GetDC(0); BeginPath(hdc); if (!AngleArc(hdc, 300, 300, 100, 45.0, 135.0) && GetLastError() == ERROR_CALL_NOT_IMPLEMENTED) { /* AngleArc is only available on Win2k and later */ win_skip("AngleArc is not available\n"); goto done; } AngleArc(hdc, 300, 300, 80, 150.0, -180.0); CloseFigure(hdc); EndPath(hdc); ok_path(hdc, "anglearc_path", anglearc_path, sizeof(anglearc_path)/sizeof(path_test_t), 0); done: ReleaseDC(0, hdc); } static const path_test_t polydraw_path[] = { {0, 0, PT_MOVETO, 0, 0}, /*0*/ {10, 10, PT_LINETO, 0, 0}, /*1*/ {10, 15, PT_LINETO | PT_CLOSEFIGURE, 0, 0}, /*2*/ {100, 100, PT_MOVETO, 0, 0}, /*3*/ {95, 95, PT_LINETO, 0, 0}, /*4*/ {10, 10, PT_LINETO, 0, 0}, /*5*/ {10, 15, PT_LINETO | PT_CLOSEFIGURE, 0, 0}, /*6*/ {100, 100, PT_MOVETO, 0, 0}, /*7*/ {15, 15, PT_LINETO, 0, 0}, /*8*/ {25, 25, PT_MOVETO, 0, 0}, /*9*/ {25, 30, PT_LINETO, 0, 0}, /*10*/ {100, 100, PT_MOVETO, 0, 0}, /*11*/ {30, 30, PT_BEZIERTO, 0, 0}, /*12*/ {30, 35, PT_BEZIERTO, 0, 0}, /*13*/ {35, 35, PT_BEZIERTO, 0, 0}, /*14*/ {35, 40, PT_LINETO, 0, 0}, /*15*/ {40, 40, PT_MOVETO, 0, 0}, /*16*/ {40, 45, PT_LINETO, 0, 0}, /*17*/ {35, 40, PT_MOVETO, 0, 0}, /*18*/ {45, 50, PT_LINETO, 0, 0}, /*19*/ {35, 40, PT_MOVETO, 0, 0}, /*20*/ {50, 55, PT_LINETO, 0, 0}, /*21*/ {45, 50, PT_LINETO, 0, 0}, /*22*/ {35, 40, PT_MOVETO, 0, 0}, /*23*/ {60, 60, PT_LINETO, 0, 0}, /*24*/ {60, 65, PT_MOVETO, 0, 0}, /*25*/ {65, 65, PT_LINETO, 0, 0} /*26*/ }; static POINT polydraw_pts[] = { {10, 10}, {10, 15}, {15, 15}, {15, 20}, {20, 20}, {20, 25}, {25, 25}, {25, 30}, {30, 30}, {30, 35}, {35, 35}, {35, 40}, {40, 40}, {40, 45}, {45, 45}, {45, 50}, {50, 50}, {50, 55}, {45, 50}, {55, 60}, {60, 60}, {60, 65}, {65, 65}}; static BYTE polydraw_tps[] = {PT_LINETO, PT_CLOSEFIGURE | PT_LINETO, /* 2 */ PT_LINETO, PT_BEZIERTO, PT_LINETO, PT_LINETO, /* 6 */ PT_MOVETO, PT_LINETO, /* 8 */ PT_BEZIERTO, PT_BEZIERTO, PT_BEZIERTO, PT_LINETO, /* 12 */ PT_MOVETO, PT_LINETO, PT_CLOSEFIGURE, /* 15 */ PT_LINETO, PT_MOVETO | PT_CLOSEFIGURE, /* 17 */ PT_LINETO, PT_LINETO, PT_MOVETO | PT_CLOSEFIGURE, /* 20 */ PT_LINETO, PT_MOVETO | PT_LINETO, PT_LINETO}; /* 23 */ static void test_polydraw(void) { BOOL retb; HDC hdc = GetDC(0); BeginPath(hdc); /* closefigure with no previous moveto */ if (!(retb = PolyDraw(hdc, polydraw_pts, polydraw_tps, 2)) && GetLastError() == ERROR_CALL_NOT_IMPLEMENTED) { /* PolyDraw is only available on Win2k and later */ win_skip("PolyDraw is not available\n"); goto done; } expect(TRUE, retb); MoveToEx(hdc, 100, 100, NULL); LineTo(hdc, 95, 95); /* closefigure with previous moveto */ retb = PolyDraw(hdc, polydraw_pts, polydraw_tps, 2); expect(TRUE, retb); /* bad bezier points */ retb = PolyDraw(hdc, &(polydraw_pts[2]), &(polydraw_tps[2]), 4); expect(FALSE, retb); retb = PolyDraw(hdc, &(polydraw_pts[6]), &(polydraw_tps[6]), 4); expect(FALSE, retb); /* good bezier points */ retb = PolyDraw(hdc, &(polydraw_pts[8]), &(polydraw_tps[8]), 4); expect(TRUE, retb); /* does lineto or bezierto take precedence? */ retb = PolyDraw(hdc, &(polydraw_pts[12]), &(polydraw_tps[12]), 4); expect(FALSE, retb); /* bad point type, has already moved cursor position */ retb = PolyDraw(hdc, &(polydraw_pts[15]), &(polydraw_tps[15]), 4); expect(FALSE, retb); /* bad point type, cursor position is moved, but back to its original spot */ retb = PolyDraw(hdc, &(polydraw_pts[17]), &(polydraw_tps[17]), 4); expect(FALSE, retb); /* does lineto or moveto take precedence? */ retb = PolyDraw(hdc, &(polydraw_pts[20]), &(polydraw_tps[20]), 3); expect(TRUE, retb); EndPath(hdc); ok_path(hdc, "polydraw_path", polydraw_path, sizeof(polydraw_path)/sizeof(path_test_t), 0); done: ReleaseDC(0, hdc); } static void test_closefigure(void) { int nSize, nSizeWitness; HDC hdc = GetDC(0); BeginPath(hdc); MoveToEx(hdc, 95, 95, NULL); LineTo(hdc, 95, 0); LineTo(hdc, 0, 95); CloseFigure(hdc); EndPath(hdc); nSize = GetPath(hdc, NULL, NULL, 0); AbortPath(hdc); BeginPath(hdc); MoveToEx(hdc, 95, 95, NULL); LineTo(hdc, 95, 0); LineTo(hdc, 0, 95); EndPath(hdc); nSizeWitness = GetPath(hdc, NULL, NULL, 0); /* This test shows CloseFigure does not have to add a point at the end of the path */ ok(nSize == nSizeWitness, "Wrong number of points, no point should be added by CloseFigure\n"); ReleaseDC(0, hdc); } static void WINAPI linedda_callback(INT x, INT y, LPARAM lparam) { POINT **pt = (POINT**)lparam; ok((*pt)->x == x && (*pt)->y == y, "point mismatch expect(%d,%d) got(%d,%d)\n", (*pt)->x, (*pt)->y, x, y); (*pt)++; return; } static void test_linedda(void) { const POINT *pt; static const POINT array_10_20_20_40[] = {{10,20},{10,21},{11,22},{11,23}, {12,24},{12,25},{13,26},{13,27}, {14,28},{14,29},{15,30},{15,31}, {16,32},{16,33},{17,34},{17,35}, {18,36},{18,37},{19,38},{19,39}, {-1,-1}}; static const POINT array_10_20_20_43[] = {{10,20},{10,21},{11,22},{11,23}, {12,24},{12,25},{13,26},{13,27}, {13,28},{14,29},{14,30},{15,31}, {15,32},{16,33},{16,34},{17,35}, {17,36},{17,37},{18,38},{18,39}, {19,40},{19,41},{20,42},{-1,-1}}; static const POINT array_10_20_10_20[] = {{-1,-1}}; static const POINT array_10_20_11_27[] = {{10,20},{10,21},{10,22},{10,23}, {11,24},{11,25},{11,26},{-1,-1}}; static const POINT array_20_43_10_20[] = {{20,43},{20,42},{19,41},{19,40}, {18,39},{18,38},{17,37},{17,36}, {17,35},{16,34},{16,33},{15,32}, {15,31},{14,30},{14,29},{13,28}, {13,27},{13,26},{12,25},{12,24}, {11,23},{11,22},{10,21},{-1,-1}}; static const POINT array_20_20_10_43[] = {{20,20},{20,21},{19,22},{19,23}, {18,24},{18,25},{17,26},{17,27}, {17,28},{16,29},{16,30},{15,31}, {15,32},{14,33},{14,34},{13,35}, {13,36},{13,37},{12,38},{12,39}, {11,40},{11,41},{10,42},{-1,-1}}; static const POINT array_20_20_43_10[] = {{20,20},{21,20},{22,19},{23,19}, {24,18},{25,18},{26,17},{27,17}, {28,17},{29,16},{30,16},{31,15}, {32,15},{33,14},{34,14},{35,13}, {36,13},{37,13},{38,12},{39,12}, {40,11},{41,11},{42,10},{-1,-1}}; pt = array_10_20_20_40; LineDDA(10, 20, 20, 40, linedda_callback, (LPARAM)&pt); ok(pt->x == -1 && pt->y == -1, "didn't find terminator\n"); pt = array_10_20_20_43; LineDDA(10, 20, 20, 43, linedda_callback, (LPARAM)&pt); ok(pt->x == -1 && pt->y == -1, "didn't find terminator\n"); pt = array_10_20_10_20; LineDDA(10, 20, 10, 20, linedda_callback, (LPARAM)&pt); ok(pt->x == -1 && pt->y == -1, "didn't find terminator\n"); pt = array_10_20_11_27; LineDDA(10, 20, 11, 27, linedda_callback, (LPARAM)&pt); ok(pt->x == -1 && pt->y == -1, "didn't find terminator\n"); pt = array_20_43_10_20; LineDDA(20, 43, 10, 20, linedda_callback, (LPARAM)&pt); ok(pt->x == -1 && pt->y == -1, "didn't find terminator\n"); pt = array_20_20_10_43; LineDDA(20, 20, 10, 43, linedda_callback, (LPARAM)&pt); ok(pt->x == -1 && pt->y == -1, "didn't find terminator\n"); pt = array_20_20_43_10; LineDDA(20, 20, 43, 10, linedda_callback, (LPARAM)&pt); ok(pt->x == -1 && pt->y == -1, "didn't find terminator\n"); } START_TEST(path) { test_path_state(); test_widenpath(); test_arcto(); test_anglearc(); test_polydraw(); test_closefigure(); test_linedda(); }