/* * Copyright 2018 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef SkRectPriv_DEFINED #define SkRectPriv_DEFINED #include "SkRect.h" #include "SkMathPriv.h" class SkRectPriv { public: // Returns an irect that is very large, and can be safely round-trip with SkRect and still // be considered non-empty (i.e. width/height > 0) even if we round-out the SkRect. static SkIRect MakeILarge() { // SK_MaxS32 >> 1 seemed better, but it did not survive round-trip with SkRect and rounding. // Also, 1 << 29 can be perfectly represented in float, while SK_MaxS32 >> 1 cannot. const int32_t large = 1 << 29; return { -large, -large, large, large }; } static SkIRect MakeILargestInverted() { return { SK_MaxS32, SK_MaxS32, SK_MinS32, SK_MinS32 }; } static SkRect MakeLargeS32() { SkRect r; r.set(MakeILarge()); return r; } static SkRect MakeLargest() { return { SK_ScalarMin, SK_ScalarMin, SK_ScalarMax, SK_ScalarMax }; } static SkRect MakeLargestInverted() { return { SK_ScalarMax, SK_ScalarMax, SK_ScalarMin, SK_ScalarMin }; } static void GrowToInclude(SkRect* r, const SkPoint& pt) { r->fLeft = SkMinScalar(pt.fX, r->fLeft); r->fRight = SkMaxScalar(pt.fX, r->fRight); r->fTop = SkMinScalar(pt.fY, r->fTop); r->fBottom = SkMaxScalar(pt.fY, r->fBottom); } // Conservative check if r can be expressed in fixed-point. // Will return false for very large values that might have fit static bool FitsInFixed(const SkRect& r) { return SkFitsInFixed(r.fLeft) && SkFitsInFixed(r.fTop) && SkFitsInFixed(r.fRight) && SkFitsInFixed(r.fBottom); } static bool Is16Bit(const SkIRect& r) { return SkTFitsIn(r.fLeft) && SkTFitsIn(r.fTop) && SkTFitsIn(r.fRight) && SkTFitsIn(r.fBottom); } }; #endif