// Copyright 2013 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "base/strings/stringprintf.h" #include #include "base/basictypes.h" #include "testing/gtest/include/gtest/gtest.h" namespace base { namespace { // A helper for the StringAppendV test that follows. // // Just forwards its args to StringAppendV. static void StringAppendVTestHelper(std::string* out, const char* format, ...) { va_list ap; va_start(ap, format); StringAppendV(out, format, ap); va_end(ap); } } // namespace TEST(StringPrintfTest, StringPrintfEmpty) { EXPECT_EQ("", StringPrintf("%s", "")); } TEST(StringPrintfTest, StringPrintfMisc) { EXPECT_EQ("123hello w", StringPrintf("%3d%2s %1c", 123, "hello", 'w')); #if defined(OS_WIN) EXPECT_EQ(L"123hello w", StringPrintf(L"%3d%2ls %1lc", 123, L"hello", 'w')); #endif } TEST(StringPrintfTest, StringAppendfEmptyString) { std::string value("Hello"); StringAppendF(&value, "%s", ""); EXPECT_EQ("Hello", value); #if defined(OS_WIN) std::wstring valuew(L"Hello"); StringAppendF(&valuew, L"%ls", L""); EXPECT_EQ(L"Hello", valuew); #endif } TEST(StringPrintfTest, StringAppendfString) { std::string value("Hello"); StringAppendF(&value, " %s", "World"); EXPECT_EQ("Hello World", value); #if defined(OS_WIN) std::wstring valuew(L"Hello"); StringAppendF(&valuew, L" %ls", L"World"); EXPECT_EQ(L"Hello World", valuew); #endif } TEST(StringPrintfTest, StringAppendfInt) { std::string value("Hello"); StringAppendF(&value, " %d", 123); EXPECT_EQ("Hello 123", value); #if defined(OS_WIN) std::wstring valuew(L"Hello"); StringAppendF(&valuew, L" %d", 123); EXPECT_EQ(L"Hello 123", valuew); #endif } // Make sure that lengths exactly around the initial buffer size are handled // correctly. TEST(StringPrintfTest, StringPrintfBounds) { const int kSrcLen = 1026; char src[kSrcLen]; for (size_t i = 0; i < arraysize(src); i++) src[i] = 'A'; wchar_t srcw[kSrcLen]; for (size_t i = 0; i < arraysize(srcw); i++) srcw[i] = 'A'; for (int i = 1; i < 3; i++) { src[kSrcLen - i] = 0; std::string out; SStringPrintf(&out, "%s", src); EXPECT_STREQ(src, out.c_str()); #if defined(OS_WIN) srcw[kSrcLen - i] = 0; std::wstring outw; SStringPrintf(&outw, L"%ls", srcw); EXPECT_STREQ(srcw, outw.c_str()); #endif } } // Test very large sprintfs that will cause the buffer to grow. TEST(StringPrintfTest, Grow) { char src[1026]; for (size_t i = 0; i < arraysize(src); i++) src[i] = 'A'; src[1025] = 0; const char fmt[] = "%sB%sB%sB%sB%sB%sB%s"; std::string out; SStringPrintf(&out, fmt, src, src, src, src, src, src, src); const int kRefSize = 320000; char* ref = new char[kRefSize]; #if defined(OS_WIN) sprintf_s(ref, kRefSize, fmt, src, src, src, src, src, src, src); #elif defined(OS_POSIX) snprintf(ref, kRefSize, fmt, src, src, src, src, src, src, src); #endif EXPECT_STREQ(ref, out.c_str()); delete[] ref; } TEST(StringPrintfTest, StringAppendV) { std::string out; StringAppendVTestHelper(&out, "%d foo %s", 1, "bar"); EXPECT_EQ("1 foo bar", out); } // Test the boundary condition for the size of the string_util's // internal buffer. TEST(StringPrintfTest, GrowBoundary) { const int kStringUtilBufLen = 1024; // Our buffer should be one larger than the size of StringAppendVT's stack // buffer. // And need extra one for NULL-terminator. const int kBufLen = kStringUtilBufLen + 1 + 1; char src[kBufLen]; for (int i = 0; i < kBufLen - 1; ++i) src[i] = 'a'; src[kBufLen - 1] = 0; std::string out; SStringPrintf(&out, "%s", src); EXPECT_STREQ(src, out.c_str()); } // TODO(evanm): what's the proper cross-platform test here? #if defined(OS_WIN) // sprintf in Visual Studio fails when given U+FFFF. This tests that the // failure case is gracefuly handled. TEST(StringPrintfTest, Invalid) { wchar_t invalid[2]; invalid[0] = 0xffff; invalid[1] = 0; std::wstring out; SStringPrintf(&out, L"%ls", invalid); EXPECT_STREQ(L"", out.c_str()); } #endif // Test that StringPrintf and StringAppendV do not change errno. TEST(StringPrintfTest, StringPrintfErrno) { errno = 1; EXPECT_EQ("", StringPrintf("%s", "")); EXPECT_EQ(1, errno); std::string out; StringAppendVTestHelper(&out, "%d foo %s", 1, "bar"); EXPECT_EQ(1, errno); } } // namespace base