/* * Copyright 2011 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkRandom.h" #include "Test.h" #include "gradients/SkClampRange.h" static skiatest::Reporter* gReporter; static void debug_me() { if (NULL == gReporter) { SkDebugf("dsfdssd\n"); } } #ifdef USE_REPORTER #define R_ASSERT(cond) \ do { if (!(cond)) { \ debug_me(); \ REPORTER_ASSERT(gReporter, cond); \ }} while (0) #else #define R_ASSERT(cond) \ do { if (!(cond)) { \ debug_me(); \ }} while (0) #endif static int classify_value(SkFixed fx, int v0, int v1) { if (fx <= 0) { return v0; } if (fx >= 0xFFFF) { return v1; } R_ASSERT(false); return 0; } #define V0 -42 #define V1 1024 static void slow_check(const SkClampRange& range, SkFixed fx, SkFixed dx, int count) { SkASSERT(range.fCount0 + range.fCount1 + range.fCount2 == count); for (int i = 0; i < range.fCount0; i++) { int v = classify_value(fx, V0, V1); R_ASSERT(v == range.fV0); fx += dx; } if (range.fCount1 > 0 && fx != range.fFx1) { // SkDebugf("%x %x\n", fx, range.fFx1); R_ASSERT(false); // bad fFx1 return; } for (int i = 0; i < range.fCount1; i++) { R_ASSERT(fx >= 0 && fx <= 0xFFFF); fx += dx; } for (int i = 0; i < range.fCount2; i++) { int v = classify_value(fx, V0, V1); R_ASSERT(v == range.fV1); fx += dx; } } static void test_range(SkFixed fx, SkFixed dx, int count) { SkClampRange range; range.init(fx, dx, count, V0, V1); slow_check(range, fx, dx, count); } #define ff(x) SkIntToFixed(x) DEF_TEST(ClampRange, reporter) { gReporter = reporter; test_range(0, 0, 20); test_range(0xFFFF, 0, 20); test_range(-ff(2), 0, 20); test_range( ff(2), 0, 20); test_range(-10, 1, 20); test_range(10, -1, 20); test_range(-10, 3, 20); test_range(10, -3, 20); test_range(ff(1), ff(16384), 100); test_range(ff(-1), ff(-16384), 100); test_range(ff(1)/2, ff(16384), 100); test_range(ff(1)/2, ff(-16384), 100); SkRandom rand; // test non-overflow cases for (int i = 0; i < 1000000; i++) { SkFixed fx = rand.nextS() >> 1; SkFixed sx = rand.nextS() >> 1; int count = rand.nextU() % 1000 + 1; SkFixed dx = (sx - fx) / count; test_range(fx, dx, count); } // test overflow cases for (int i = 0; i < 100000; i++) { SkFixed fx = rand.nextS(); SkFixed dx = rand.nextS(); int count = rand.nextU() % 1000 + 1; test_range(fx, dx, count); } }