/* * Copyright 2019 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "include/utils/SkRandom.h" #include "src/gpu/ccpr/GrOctoBounds.h" #include "tests/Test.h" using namespace skiatest; constexpr static float kEpsilon = 1e-3f; static int numClipsOut = 0; static int numIntersectClips = 0; // Ensures devBounds and devBounds45 are valid. Namely, that they are both tight bounding boxes // around a valid octagon. static void validate_octo_bounds( Reporter* reporter, const SkIRect& clipRect, const GrOctoBounds& octoBounds) { // Verify dev bounds are inside the clip rect. REPORTER_ASSERT(reporter, octoBounds.left() >= (float)clipRect.left() - kEpsilon); REPORTER_ASSERT(reporter, octoBounds.top() >= (float)clipRect.top() - kEpsilon); REPORTER_ASSERT(reporter, octoBounds.right() <= (float)clipRect.right() + kEpsilon); REPORTER_ASSERT(reporter, octoBounds.bottom() <= (float)clipRect.bottom() + kEpsilon); octoBounds.validateBoundsAreTight([reporter]( bool cond, const char* file, int line, const char* code) { if (!cond) { reporter->reportFailedWithContext(skiatest::Failure(file, line, code, SkString())); } }); } // This is a variant of SkRandom::nextRangeU that can handle negative numbers. As currently written, // and assuming two's compliment, it would probably work to just call the existing nextRangeU // implementation with negative value(s), but we go through this method as an extra precaution. static int next_range_i(SkRandom* rand, int min, int max) { int u = rand->nextRangeU(0, max - min); return u + min; } static void test_octagon(Reporter* reporter, SkRandom* rand, float l, float t, float r, float b) { for (int i = 0; i < 20; ++i) { float minL45 = GrOctoBounds::Get_x45(l,b); float maxL45 = std::min(GrOctoBounds::Get_x45(r,b), GrOctoBounds::Get_x45(l,t)); float minT45 = GrOctoBounds::Get_y45(l,t); float maxT45 = std::min(GrOctoBounds::Get_y45(l,b), GrOctoBounds::Get_y45(r,t)); float minR45 = std::max(GrOctoBounds::Get_x45(l,t), GrOctoBounds::Get_x45(r,b)); float maxR45 = GrOctoBounds::Get_x45(r,t); float minB45 = std::max(GrOctoBounds::Get_y45(r,t), GrOctoBounds::Get_y45(l,b)); float maxB45 = GrOctoBounds::Get_y45(r,b); // Pick somewhat valid 45 degree bounds. float l45 = rand->nextRangeF(minL45, maxL45); float t45 = rand->nextRangeF(minT45, maxT45); float r45 = rand->nextRangeF(minR45, maxR45); float b45 = rand->nextRangeF(minB45, maxB45); // Grow out diagonal corners if too tight, making 45 bounds valid. std::function growOutDiagonals[4] = { [&]() { // Push top-left diagonal corner outside left edge. float miss = GrOctoBounds::Get_x(l45,t45) - l; if (miss > 0) { // x = (x45 + y45)/2 l45 -= miss; if (l45 < minL45) { t45 -= minL45 - l45; l45 = minL45; } t45 -= miss; if (t45 < minT45) { l45 -= minT45 - t45; t45 = minT45; } } }, [&]() { // Push top-right diagonal corner outside top edge. float miss = GrOctoBounds::Get_y(r45,t45) - t; if (miss > 0) { // y = (y45 - x45)/2 r45 += miss; if (r45 > maxR45) { t45 -= r45 - maxR45; r45 = maxR45; } t45 -= miss; if (t45 < minT45) { r45 += minT45 - t45; t45 = minT45; } } }, [&]() { // Push bottom-right diagonal corner outside right edge. float miss = r - GrOctoBounds::Get_x(r45,b45); if (miss > 0) { // x = (x45 + y45)/2 r45 += miss; if (r45 > maxR45) { b45 += r45 - maxR45; r45 = maxR45; } b45 += miss; if (b45 > maxB45) { r45 += b45 - maxB45; b45 = maxB45; } } }, [&]() { // Push bottom-left diagonal corner outside bottom edge. float miss = b - GrOctoBounds::Get_y(l45,b45); if (miss > 0) { // y = (y45 - x45)/2 l45 -= miss; if (l45 < minL45) { b45 += minL45 - l45; l45 = minL45; } b45 += miss; if (b45 > maxB45) { l45 -= b45 - maxB45; b45 = maxB45; } } }, }; // Shuffle. for (int i = 0; i < 10; ++i) { std::swap(growOutDiagonals[rand->nextRangeU(0, 3)], growOutDiagonals[rand->nextRangeU(0, 3)]); } for (const auto& f : growOutDiagonals) { f(); } GrOctoBounds octoBounds(SkRect::MakeLTRB(l,t,r,b), SkRect::MakeLTRB(l45,t45,r45,b45)); SkIRect devIBounds; octoBounds.roundOut(&devIBounds); // Test a clip rect that completely encloses the octagon. bool clipSuccess = octoBounds.clip(devIBounds); REPORTER_ASSERT(reporter, clipSuccess); // Should not have clipped anything. REPORTER_ASSERT(reporter, octoBounds == GrOctoBounds({l,t,r,b}, {l45,t45,r45,b45})); validate_octo_bounds(reporter, devIBounds, octoBounds); // Test a bunch of random clip rects. for (int j = 0; j < 20; ++j) { SkIRect clipRect; do { clipRect.fLeft = next_range_i(rand, devIBounds.left(), devIBounds.right() - 1); clipRect.fTop = next_range_i(rand, devIBounds.top(), devIBounds.bottom() - 1); clipRect.fRight = next_range_i(rand, clipRect.left() + 1, devIBounds.right()); clipRect.fBottom = next_range_i(rand, clipRect.top() + 1, devIBounds.bottom()); } while (clipRect == devIBounds); GrOctoBounds octoBoundsClipped = octoBounds; if (!octoBoundsClipped.clip(clipRect)) { // Ensure clipRect is completely outside one of the diagonals. float il = (float)clipRect.left(); float it = (float)clipRect.top(); float ir = (float)clipRect.right(); float ib = (float)clipRect.bottom(); REPORTER_ASSERT(reporter, GrOctoBounds::Get_x45(ir,it) <= l45 + kEpsilon || GrOctoBounds::Get_y45(ir,ib) <= t45 + kEpsilon || GrOctoBounds::Get_x45(il,ib) >= r45 - kEpsilon || GrOctoBounds::Get_y45(il,it) >= b45 - kEpsilon); ++numClipsOut; } else { validate_octo_bounds(reporter, clipRect, octoBoundsClipped); ++numIntersectClips; } } } } DEF_TEST(OctoBounds, reporter) { numClipsOut = 0; numIntersectClips = 0; SkRandom rand; test_octagon(reporter, &rand, 0, 0, 100, 100); test_octagon(reporter, &rand, -2, 0, 2, 100); test_octagon(reporter, &rand, 0, -10, 100, 0); // We can't test Infs or NaNs because they trigger internal asserts when setting GrOctoBounds. // Sanity check on our random clip testing.. Just make we hit both types of clip. REPORTER_ASSERT(reporter, numClipsOut > 0); REPORTER_ASSERT(reporter, numIntersectClips > 0); }