// // CoreTest.cpp // // $Id: //poco/1.4/Foundation/testsuite/src/CoreTest.cpp#2 $ // // Copyright (c) 2004-2006, Applied Informatics Software Engineering GmbH. // and Contributors. // // SPDX-License-Identifier: BSL-1.0 // #include "CoreTest.h" #include "CppUnit/TestCaller.h" #include "CppUnit/TestSuite.h" #include "Poco/Bugcheck.h" #include "Poco/Exception.h" #include "Poco/Environment.h" #include "Poco/Thread.h" #include "Poco/Runnable.h" #include "Poco/Buffer.h" #include "Poco/FIFOBuffer.h" #include "Poco/AtomicCounter.h" #include "Poco/Nullable.h" #include "Poco/Ascii.h" #include "Poco/BasicEvent.h" #include "Poco/Delegate.h" #include "Poco/Exception.h" #include #include #include #include using Poco::Bugcheck; using Poco::Exception; using Poco::Environment; using Poco::Thread; using Poco::Runnable; using Poco::Buffer; using Poco::BasicFIFOBuffer; using Poco::FIFOBuffer; using Poco::AtomicCounter; using Poco::Nullable; using Poco::Ascii; using Poco::BasicEvent; using Poco::delegate; using Poco::NullType; using Poco::InvalidAccessException; namespace { class ACTRunnable: public Poco::Runnable { public: ACTRunnable(AtomicCounter& counter): _counter(counter) { } void run() { for (int i = 0; i < 100000; ++i) { _counter++; _counter--; ++_counter; --_counter; } } private: AtomicCounter& _counter; }; } class Small { }; struct Parent { Parent() { i = -1; } virtual ~Parent() { i= -2; } static int i; }; int Parent::i = 0; struct Medium : public Parent { }; struct Large { Large() : i(1), j(2), k(3), l(4) { } long i,j,k; const long l; }; // // The bugcheck test is normally disabled, as it // causes a break into the debugger. // #define ENABLE_BUGCHECK_TEST 0 CoreTest::CoreTest(const std::string& name): CppUnit::TestCase(name) { } CoreTest::~CoreTest() { } void CoreTest::testPlatform() { std::cout << "POCO_OS: " << POCO_OS << std::endl; std::cout << "POCO_ARCH: " << POCO_ARCH << std::endl; } void CoreTest::testFixedLength() { assert (sizeof(Poco::Int8) == 1); assert (sizeof(Poco::UInt8) == 1); assert (sizeof(Poco::Int16) == 2); assert (sizeof(Poco::UInt16) == 2); assert (sizeof(Poco::Int32) == 4); assert (sizeof(Poco::UInt32) == 4); #if defined(POCO_HAVE_INT64) assert (sizeof(Poco::Int64) == 8); assert (sizeof(Poco::UInt64) == 8); #endif assert (sizeof(Poco::IntPtr) == sizeof(void*)); assert (sizeof(Poco::UIntPtr) == sizeof(void*)); } void CoreTest::testBugcheck() { #if ENABLE_BUGCHECK_TEST try { Bugcheck::assertion("test", __FILE__, __LINE__); failmsg("must throw exception"); } catch (Exception&) { } try { Bugcheck::nullPointer("test", __FILE__, __LINE__); failmsg("must throw exception"); } catch (Exception&) { } try { Bugcheck::bugcheck("test", __FILE__, __LINE__); failmsg("must throw exception"); } catch (Exception&) { } #endif } void CoreTest::testEnvironment() { #if !defined(_WIN32_WCE) Environment::set("FOO", "BAR"); assert (Environment::has("FOO")); assert (Environment::get("FOO") == "BAR"); #endif try { std::string v = Environment::get("THISONEDOESNOTEXIST123"); failmsg("Environment variable does not exist - must throw exception"); } catch (Exception&) { } std::cout << "OS Name: " << Environment::osName() << std::endl; std::cout << "OS Display Name: " << Environment::osDisplayName() << std::endl; std::cout << "OS Version: " << Environment::osVersion() << std::endl; std::cout << "OS Architecture: " << Environment::osArchitecture() << std::endl; std::cout << "Node Name: " << Environment::nodeName() << std::endl; std::cout << "Node ID: " << Environment::nodeId() << std::endl; std::cout << "Number of CPUs: " << Environment::processorCount() << std::endl; } void CoreTest::testBuffer() { std::size_t s = 10; Buffer b(s); assert (b.size() == s); assert (b.sizeBytes() == s * sizeof(int)); assert (b.capacity() == s); assert (b.capacityBytes() == s * sizeof(int)); std::vector v; for (int i = 0; i < s; ++i) v.push_back(i); std::memcpy(b.begin(), &v[0], sizeof(int) * v.size()); assert (s == b.size()); for (int i = 0; i < s; ++i) assert (b[i] == i); b.resize(s/2); for (int i = 0; i < s/2; ++i) assert (b[i] == i); assert (b.size() == s/2); assert (b.capacity() == s); b.resize(s*2); v.clear(); for (int i = 0; i < s*2; ++i) v.push_back(i); std::memcpy(b.begin(), &v[0], sizeof(int) * v.size()); for (int i = 0; i < s*2; ++i) assert (b[i] == i); assert (b.size() == s*2); assert (b.capacity() == s*2); b.setCapacity(s * 4); assert (b.size() == s*2); assert (b.capacity() == s*4); b.setCapacity(s); assert (b.size() == s); assert (b.capacity() == s); #if ENABLE_BUGCHECK_TEST try { int i = b[s]; fail ("must fail"); } catch (Exception&) { } #endif Buffer c(s); Buffer d(c); assert (c == d); c[1] = -1; assert (c[1] == -1); c.clear(); assert (c[1] == 0); Buffer e(0); assert (e.empty()); assert (c != e); Buffer f = e; assert (f == e); Buffer g(0); g.append("hello", 5); assert (g.size() == 5); g.append("hello", 5); assert (g.size() == 10); assert ( !std::memcmp(g.begin(), "hellohello", 10) ); char h[10]; Buffer buf(h, 10); try { buf.append("hello", 5); fail ("must fail"); } catch (InvalidAccessException&) { } buf.assign("hello", 5); assert ( !std::memcmp(&h[0], "hello", 5) ); const char j[10] = "hello"; Buffer k(j, 5); k.append("hello", 5); assert ( !std::memcmp(&j[0], "hello", 5) ); assert ( !std::memcmp(k.begin(), "hellohello", 10) ); k.append('w'); assert (k.size() == 11); assert ( !std::memcmp(k.begin(), "hellohellow", k.size()) ); k.append('o'); assert (k.size() == 12); assert ( !std::memcmp(k.begin(), "hellohellowo", k.size()) ); k.append('r'); assert (k.size() == 13); assert ( !std::memcmp(k.begin(), "hellohellowor", k.size()) ); k.append('l'); assert (k.size() == 14); assert ( !std::memcmp(k.begin(), "hellohelloworl", k.size()) ); k.append('d'); assert (k.size() == 15); assert ( !std::memcmp(k.begin(), "hellohelloworld", k.size()) ); } void CoreTest::testFIFOBufferEOFAndError() { typedef FIFOBuffer::Type T; FIFOBuffer f(20, true); assert (f.isEmpty()); assert (!f.isFull()); Buffer b(10); std::vector v; f.readable += delegate(this, &CoreTest::onReadable); f.writable += delegate(this, &CoreTest::onWritable); for (T c = '0'; c < '0' + 10; ++c) v.push_back(c); std::memcpy(b.begin(), &v[0], sizeof(T) * v.size()); assert(0 == _notToReadable); assert(0 == _readableToNot); assert (10 == f.write(b)); assert(1 == _notToReadable); assert(0 == _readableToNot); assert (20 == f.size()); assert (10 == f.used()); assert (!f.isEmpty()); f.setEOF(); assert(0 == _notToWritable); assert(1 == _writableToNot); assert (f.hasEOF()); assert (!f.isEOF()); assert(1 == _notToReadable); assert(0 == _readableToNot); assert (20 == f.size()); assert (10 == f.used()); assert (0 == f.write(b)); assert (!f.isEmpty()); assert (5 == f.read(b, 5)); assert(1 == _notToReadable); assert(0 == _readableToNot); assert (f.hasEOF()); assert (!f.isEOF()); assert (5 == f.read(b, 5)); assert(1 == _notToReadable); assert(1 == _readableToNot); assert (f.hasEOF()); assert (f.isEOF()); assert(0 == _notToWritable); assert(1 == _writableToNot); f.setEOF(false); assert (!f.hasEOF()); assert (!f.isEOF()); assert(1 == _notToWritable); assert(1 == _writableToNot); assert(1 == _notToReadable); assert(1 == _readableToNot); assert (5 == f.write(b)); assert(1 == _notToWritable); assert(1 == _writableToNot); assert(2 == _notToReadable); assert(1 == _readableToNot); assert (20 == f.size()); assert (5 == f.used()); f.setError(); assert (0 == f.write(b)); try { f.copy(b.begin(), 5); fail ("must throw InvalidAccessException"); } catch (InvalidAccessException&) { } try { f.advance(5); fail ("must throw InvalidAccessException"); } catch (InvalidAccessException&) { } assert(1 == _notToWritable); assert(2 == _writableToNot); assert(2 == _notToReadable); assert(2 == _readableToNot); assert (20 == f.size()); assert (0 == f.used()); f.setError(false); assert(2 == _notToWritable); assert(2 == _writableToNot); assert(2 == _notToReadable); assert(2 == _readableToNot); assert (20 == f.size()); assert (0 == f.used()); assert (5 == f.write(b)); assert(2 == _notToWritable); assert(2 == _writableToNot); assert(3 == _notToReadable); assert(2 == _readableToNot); assert (20 == f.size()); assert (5 == f.used()); } void CoreTest::testFIFOBufferChar() { typedef FIFOBuffer::Type T; FIFOBuffer f(20, true); assert (f.isEmpty()); assert (!f.isFull()); Buffer b(10); std::vector v; f.readable += delegate(this, &CoreTest::onReadable); f.writable += delegate(this, &CoreTest::onWritable); for (T c = '0'; c < '0' + 10; ++c) v.push_back(c); std::memcpy(b.begin(), &v[0], sizeof(T) * v.size()); assert(0 == _notToReadable); assert(0 == _readableToNot); f.write(b); assert(1 == _notToReadable); assert(0 == _readableToNot); assert (20 == f.size()); assert (10 == f.used()); assert (!f.isEmpty()); assert ('0' == f[0]); assert ('1' == f[1]); assert ('2' == f[2]); assert ('3' == f[3]); assert ('4' == f[4]); assert ('5' == f[5]); assert ('6' == f[6]); assert ('7' == f[7]); assert ('8' == f[8]); assert ('9' == f[9]); b.resize(5); f.read(b, b.size()); assert (20 == f.size()); assert (5 == f.used()); assert (!f.isEmpty()); assert ('5' == f[0]); assert ('6' == f[1]); assert ('7' == f[2]); assert ('8' == f[3]); assert ('9' == f[4]); try { T i = f[10]; fail ("must fail"); } catch (InvalidAccessException&) { } v.clear(); for (T c = 'a'; c < 'a' + 10; ++c) v.push_back(c); b.resize(10); std::memcpy(b.begin(), &v[0], sizeof(T) * v.size()); f.write(b); assert (20 == f.size()); assert (15 == f.used()); assert (!f.isEmpty()); assert ('5' == f[0]); assert ('6' == f[1]); assert ('7' == f[2]); assert ('8' == f[3]); assert ('9' == f[4]); assert ('a' == f[5]); assert ('b' == f[6]); assert ('c' == f[7]); assert ('d' == f[8]); assert ('e' == f[9]); assert ('f' == f[10]); assert ('g' == f[11]); assert ('h' == f[12]); assert ('i' == f[13]); assert ('j' == f[14]); try { T i = f[15]; fail ("must fail"); } catch (InvalidAccessException&) { } f.read(b, 10); assert (20 == f.size()); assert (5 == f.used()); assert (!f.isEmpty()); assert ('f' == f[0]); assert ('g' == f[1]); assert ('h' == f[2]); assert ('i' == f[3]); assert ('j' == f[4]); try { T i = f[5]; fail ("must fail"); } catch (InvalidAccessException&) { } assert(1 == _notToReadable); assert(0 == _readableToNot); assert(0 == _notToWritable); assert(0 == _writableToNot); f.read(b, 6); assert(1 == _notToReadable); assert(1 == _readableToNot); assert(0 == _notToWritable); assert(0 == _writableToNot); assert (5 == b.size()); assert (20 == f.size()); assert (0 == f.used()); try { T i = f[0]; fail ("must fail"); } catch (InvalidAccessException&) { } assert (f.isEmpty()); assert(1 == _notToReadable); assert(1 == _readableToNot); assert(0 == _notToWritable); assert(0 == _writableToNot); assert (5 == f.write(b)); assert(2 == _notToReadable); assert(1 == _readableToNot); assert(0 == _notToWritable); assert(0 == _writableToNot); assert (20 == f.size()); assert (5 == f.used()); assert (!f.isEmpty()); assert ('f' == f[0]); assert ('g' == f[1]); assert ('h' == f[2]); assert ('i' == f[3]); assert ('j' == f[4]); f.resize(10); assert (10 == f.size()); assert (5 == f.used()); assert (!f.isEmpty()); assert ('f' == f[0]); assert ('g' == f[1]); assert ('h' == f[2]); assert ('i' == f[3]); assert ('j' == f[4]); assert(2 == _notToReadable); assert(1 == _readableToNot); assert(0 == _notToWritable); assert(0 == _writableToNot); f.resize(3, false); assert(2 == _notToReadable); assert(2 == _readableToNot); assert(0 == _notToWritable); assert(0 == _writableToNot); assert (3 == f.size()); assert (0 == f.used()); assert (f.isEmpty()); b.resize(3); b[0] = 'x'; b[1] = 'y'; b[2] = 'z'; f.resize(3); assert(2 == _notToReadable); assert(2 == _readableToNot); assert(0 == _notToWritable); assert(0 == _writableToNot); f.write(b); assert(3 == _notToReadable); assert(2 == _readableToNot); assert(0 == _notToWritable); assert(1 == _writableToNot); assert (f.isFull()); f.read(b); assert(3 == _notToReadable); assert(3 == _readableToNot); assert(1 == _notToWritable); assert(1 == _writableToNot); assert (f.isEmpty()); f.resize(10); assert (10 == f.size()); assert (0 == f.used()); assert (10 == f.available()); assert (f.isEmpty()); assert(3 == _notToReadable); assert(3 == _readableToNot); assert(1 == _notToWritable); assert(1 == _writableToNot); f.write(b); assert(4 == _notToReadable); assert(3 == _readableToNot); assert(1 == _notToWritable); assert(1 == _writableToNot); assert (10 == f.size()); assert (3 == f.used()); assert (7 == f.available()); assert (!f.isEmpty()); f.drain(1); assert(4 == _notToReadable); assert(3 == _readableToNot); assert(1 == _notToWritable); assert(1 == _writableToNot); assert (10 == f.size()); assert (2 == f.used()); assert (8 == f.available()); assert (!f.isEmpty()); f.drain(2); assert(4 == _notToReadable); assert(4 == _readableToNot); assert(1 == _notToWritable); assert(1 == _writableToNot); assert (10 == f.size()); assert (0 == f.used()); assert (10 == f.available()); assert (f.isEmpty()); f.write(b); assert(5 == _notToReadable); assert(4 == _readableToNot); assert(1 == _notToWritable); assert(1 == _writableToNot); assert (10 == f.size()); assert (3 == f.used()); assert (7 == f.available()); assert (!f.isEmpty()); f.drain(); assert(5 == _notToReadable); assert(5 == _readableToNot); assert(1 == _notToWritable); assert(1 == _writableToNot); assert (10 == f.size()); assert (0 == f.used()); assert (10 == f.available()); assert (f.isEmpty()); f.write(b, 2); assert (10 == f.size()); assert (2 == f.used()); assert (8 == f.available()); assert (!f.isEmpty()); assert(6 == _notToReadable); assert(5 == _readableToNot); assert(1 == _notToWritable); assert(1 == _writableToNot); f.drain(); assert(6 == _notToReadable); assert(6 == _readableToNot); assert(1 == _notToWritable); assert(1 == _writableToNot); assert (3 == f.write(b, 10)); assert (10 == f.size()); assert (3 == f.used()); assert (7 == f.available()); assert (!f.isEmpty()); assert(7 == _notToReadable); assert(6 == _readableToNot); assert(1 == _notToWritable); assert(1 == _writableToNot); const char arr[3] = {'4', '5', '6' }; try { f.copy(&arr[0], 8); fail("must fail"); } catch (InvalidAccessException&) { } f.copy(&arr[0], 3); assert(7 == _notToReadable); assert(6 == _readableToNot); assert(1 == _notToWritable); assert(1 == _writableToNot); assert (10 == f.size()); assert (6 == f.used()); assert (4 == f.available()); f.copy(&arr[0], 4); assert(7 == _notToReadable); assert(6 == _readableToNot); assert(1 == _notToWritable); assert(2 == _writableToNot); assert (f.isFull()); assert (10 == f.size()); assert (10 == f.used()); assert (0 == f.available()); try { f.copy(&arr[0], 1); fail("must fail"); } catch (InvalidAccessException&) { } f.drain(1); assert(7 == _notToReadable); assert(6 == _readableToNot); assert(2 == _notToWritable); assert(2 == _writableToNot); f.drain(9); assert (10 == f.size()); assert (0 == f.used()); assert (10 == f.available()); const char e[10] = { '1', '2', '3', '4', '5', '6', '7', '8', '9', '0' }; f.copy(&e[0], 10); assert (10 == f.size()); assert (10 == f.used()); assert (0 == f.available()); f.drain(1); f.write(e, 1); assert (10 == f.size()); assert (10 == f.used()); assert (0 == f.available()); assert(f[0] == '2'); assert(f[1] == '3'); assert(f[2] == '4'); assert(f[3] == '5'); assert(f[4] == '6'); assert(f[5] == '7'); assert(f[6] == '8'); assert(f[7] == '9'); assert(f[8] == '0'); assert(f[9] == '1'); f.readable -= delegate(this, &CoreTest::onReadable); f.writable -= delegate(this, &CoreTest::onReadable); } void CoreTest::testFIFOBufferInt() { typedef int T; BasicFIFOBuffer f(20); Buffer b(10); std::vector v; for (T c = 0; c < 10; ++c) v.push_back(c); std::memcpy(b.begin(), &v[0], sizeof(T) * v.size()); f.write(b); assert (20 == f.size()); assert (10 == f.used()); assert (!f.isEmpty()); assert (0 == f[0]); assert (1 == f[1]); assert (2 == f[2]); assert (3 == f[3]); assert (4 == f[4]); assert (5 == f[5]); assert (6 == f[6]); assert (7 == f[7]); assert (8 == f[8]); assert (9 == f[9]); b.resize(5); f.read(b, b.size()); assert (20 == f.size()); assert (5 == f.used()); assert (!f.isEmpty()); assert (5 == f[0]); assert (6 == f[1]); assert (7 == f[2]); assert (8 == f[3]); assert (9 == f[4]); try { T i = f[10]; fail ("must fail"); } catch (InvalidAccessException&) { } v.clear(); for (T c = 10; c < 20; ++c) v.push_back(c); b.resize(10); std::memcpy(b.begin(), &v[0], sizeof(T) * v.size()); f.write(b); assert (20 == f.size()); assert (15 == f.used()); assert (!f.isEmpty()); assert (5 == f[0]); assert (6 == f[1]); assert (7 == f[2]); assert (8 == f[3]); assert (9 == f[4]); assert (10 == f[5]); assert (11 == f[6]); assert (12 == f[7]); assert (13 == f[8]); assert (14 == f[9]); assert (15 == f[10]); assert (16 == f[11]); assert (17 == f[12]); assert (18 == f[13]); assert (19 == f[14]); try { T i = f[15]; fail ("must fail"); } catch (InvalidAccessException&) { } f.read(b, 10); assert (20 == f.size()); assert (5 == f.used()); assert (!f.isEmpty()); assert (15 == f[0]); assert (16 == f[1]); assert (17 == f[2]); assert (18 == f[3]); assert (19 == f[4]); try { T i = f[5]; fail ("must fail"); } catch (InvalidAccessException&) { } f.read(b, 6); assert (5 == b.size()); assert (20 == f.size()); assert (0 == f.used()); try { T i = f[0]; fail ("must fail"); } catch (InvalidAccessException&) { } assert (f.isEmpty()); assert (5 == f.write(b)); assert (20 == f.size()); assert (5 == f.used()); assert (!f.isEmpty()); assert (15 == f[0]); assert (16 == f[1]); assert (17 == f[2]); assert (18 == f[3]); assert (19 == f[4]); f.resize(10); assert (10 == f.size()); assert (5 == f.used()); assert (!f.isEmpty()); assert (15 == f[0]); assert (16 == f[1]); assert (17 == f[2]); assert (18 == f[3]); assert(19 == f[4]); f.drain(9); assert(10 == f.size()); assert(0 == f.used()); assert(10 == f.available()); const int e[10] = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 0 }; f.copy(&e[0], 10); assert(10 == f.size()); assert(10 == f.used()); assert(0 == f.available()); f.drain(1); f.write(e, 1); assert(10 == f.size()); assert(10 == f.used()); assert(0 == f.available()); assert(f[0] == 2); assert(f[1] == 3); assert(f[2] == 4); assert(f[3] == 5); assert(f[4] == 6); assert(f[5] == 7); assert(f[6] == 8); assert(f[7] == 9); assert(f[8] == 0); assert(f[9] == 1); f.resize(3, false); assert (3 == f.size()); assert (0 == f.used()); assert (f.isEmpty()); } void CoreTest::testAtomicCounter() { AtomicCounter ac; assert (ac.value() == 0); assert (ac++ == 0); assert (ac-- == 1); assert (++ac == 1); assert (--ac == 0); ac = 2; assert (ac.value() == 2); ac = 0; assert (ac.value() == 0); AtomicCounter ac2(2); assert (ac2.value() == 2); ACTRunnable act(ac); Thread t1; Thread t2; Thread t3; Thread t4; Thread t5; t1.start(act); t2.start(act); t3.start(act); t4.start(act); t5.start(act); t1.join(); t2.join(); t3.join(); t4.join(); t5.join(); assert (ac.value() == 0); } void CoreTest::testNullable() { Nullable i; Nullable f; Nullable s; assert (i.isNull()); assert (f.isNull()); assert (s.isNull()); i = 1; f = 1.5; s = "abc"; assert (!i.isNull()); assert (!f.isNull()); assert (!s.isNull()); assert (i == 1); assert (f == 1.5); assert (s == "abc"); i.clear(); f.clear(); s.clear(); assert (i.isNull()); assert (f.isNull()); assert (s.isNull()); Nullable n1; assert (n1.isNull()); assert (n1.value(42) == 42); assert (n1.isNull()); assert (!(0 == n1)); assert (0 != n1); assert (!(n1 == 0)); assert (n1 != 0); try { int tmp = n1.value(); fail("null value, must throw"); } catch (Poco::NullValueException&) { } n1 = 1; assert (!n1.isNull()); assert (n1.value() == 1); Nullable n2(42); assert (!n2.isNull()); assert (n2.value() == 42); assert (n2.value(99) == 42); assert (!(0 == n2)); assert (0 != n2); assert (!(n2 == 0)); assert (n2 != 0); n1 = n2; assert (!n1.isNull()); assert (n1.value() == 42); std::ostringstream str; str << n1; assert (str.str() == "42"); n1.clear(); assert (n1.isNull()); str.str(""); str << n1; assert (str.str().empty()); n2.clear(); assert (n1 == n2); n1 = 1; n2 = 1; assert (n1 == n2); n1.clear(); assert (n1 < n2); assert (n2 > n1); n2 = -1; n1 = 0; assert (n2 < n1); assert (n2 != n1); assert (n1 > n2); NullType nd; assert (n1 != nd); assert (nd != n1); n1.clear(); assert (n1 == nd); assert (nd == n1); } void CoreTest::testAscii() { assert (Ascii::isAscii('A')); assert (!Ascii::isAscii(-1)); assert (!Ascii::isAscii(128)); assert (!Ascii::isAscii(222)); assert (Ascii::isSpace(' ')); assert (Ascii::isSpace('\t')); assert (Ascii::isSpace('\r')); assert (Ascii::isSpace('\n')); assert (!Ascii::isSpace('A')); assert (!Ascii::isSpace(-1)); assert (!Ascii::isSpace(222)); assert (Ascii::isDigit('0')); assert (Ascii::isDigit('1')); assert (Ascii::isDigit('2')); assert (Ascii::isDigit('3')); assert (Ascii::isDigit('4')); assert (Ascii::isDigit('5')); assert (Ascii::isDigit('6')); assert (Ascii::isDigit('7')); assert (Ascii::isDigit('8')); assert (Ascii::isDigit('9')); assert (!Ascii::isDigit('a')); assert (Ascii::isHexDigit('0')); assert (Ascii::isHexDigit('1')); assert (Ascii::isHexDigit('2')); assert (Ascii::isHexDigit('3')); assert (Ascii::isHexDigit('4')); assert (Ascii::isHexDigit('5')); assert (Ascii::isHexDigit('6')); assert (Ascii::isHexDigit('7')); assert (Ascii::isHexDigit('8')); assert (Ascii::isHexDigit('9')); assert (Ascii::isHexDigit('a')); assert (Ascii::isHexDigit('b')); assert (Ascii::isHexDigit('c')); assert (Ascii::isHexDigit('d')); assert (Ascii::isHexDigit('e')); assert (Ascii::isHexDigit('f')); assert (Ascii::isHexDigit('A')); assert (Ascii::isHexDigit('B')); assert (Ascii::isHexDigit('C')); assert (Ascii::isHexDigit('D')); assert (Ascii::isHexDigit('E')); assert (Ascii::isHexDigit('F')); assert (!Ascii::isHexDigit('G')); assert (Ascii::isPunct('.')); assert (Ascii::isPunct(',')); assert (!Ascii::isPunct('A')); assert (Ascii::isAlpha('a')); assert (Ascii::isAlpha('Z')); assert (!Ascii::isAlpha('0')); assert (Ascii::isLower('a')); assert (!Ascii::isLower('A')); assert (Ascii::isUpper('A')); assert (!Ascii::isUpper('a')); assert (Ascii::toLower('A') == 'a'); assert (Ascii::toLower('z') == 'z'); assert (Ascii::toLower('0') == '0'); assert (Ascii::toUpper('a') == 'A'); assert (Ascii::toUpper('0') == '0'); assert (Ascii::toUpper('Z') == 'Z'); } void CoreTest::onReadable(bool& b) { if (b) ++_notToReadable; else ++_readableToNot; }; void CoreTest::onWritable(bool& b) { if (b) ++_notToWritable; else ++_writableToNot; } void CoreTest::setUp() { _readableToNot = 0; _notToReadable = 0; _writableToNot = 0; _notToWritable = 0; } void CoreTest::tearDown() { } CppUnit::Test* CoreTest::suite() { CppUnit::TestSuite* pSuite = new CppUnit::TestSuite("CoreTest"); CppUnit_addTest(pSuite, CoreTest, testPlatform); CppUnit_addTest(pSuite, CoreTest, testFixedLength); CppUnit_addTest(pSuite, CoreTest, testBugcheck); CppUnit_addTest(pSuite, CoreTest, testEnvironment); CppUnit_addTest(pSuite, CoreTest, testBuffer); CppUnit_addTest(pSuite, CoreTest, testFIFOBufferChar); CppUnit_addTest(pSuite, CoreTest, testFIFOBufferInt); CppUnit_addTest(pSuite, CoreTest, testFIFOBufferEOFAndError); CppUnit_addTest(pSuite, CoreTest, testAtomicCounter); CppUnit_addTest(pSuite, CoreTest, testNullable); CppUnit_addTest(pSuite, CoreTest, testAscii); return pSuite; }