//===-- Unittests for sscanf ----------------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "src/stdio/sscanf.h" #include "hdr/stdio_macros.h" // For EOF #include "src/__support/CPP/limits.h" #include "src/__support/FPUtil/FPBits.h" #include "test/UnitTest/FPMatcher.h" #include "test/UnitTest/Test.h" TEST(LlvmLibcSScanfTest, SimpleStringConv) { int ret_val; char buffer[10]; char buffer2[10]; ret_val = LIBC_NAMESPACE::sscanf("abc123", "abc %s", buffer); ASSERT_EQ(ret_val, 1); ASSERT_STREQ(buffer, "123"); ret_val = LIBC_NAMESPACE::sscanf("abc123", "%3s %3s", buffer, buffer2); ASSERT_EQ(ret_val, 2); ASSERT_STREQ(buffer, "abc"); ASSERT_STREQ(buffer2, "123"); ret_val = LIBC_NAMESPACE::sscanf("abc 123", "%3s%3s", buffer, buffer2); ASSERT_EQ(ret_val, 2); ASSERT_STREQ(buffer, "abc"); ASSERT_STREQ(buffer2, "123"); } TEST(LlvmLibcSScanfTest, IntConvSimple) { int ret_val; int result = 0; ret_val = LIBC_NAMESPACE::sscanf("123", "%d", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, 123); ret_val = LIBC_NAMESPACE::sscanf("456", "%i", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, 456); ret_val = LIBC_NAMESPACE::sscanf("789", "%x", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, 0x789); ret_val = LIBC_NAMESPACE::sscanf("012", "%o", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, 012); ret_val = LIBC_NAMESPACE::sscanf("345", "%u", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, 345); // 288 characters ret_val = LIBC_NAMESPACE::sscanf("10000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000", "%d", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, int(LIBC_NAMESPACE::cpp::numeric_limits::max())); ret_val = LIBC_NAMESPACE::sscanf("Not an integer", "%d", &result); EXPECT_EQ(ret_val, 0); } TEST(LlvmLibcSScanfTest, IntConvLengthModifier) { int ret_val; uintmax_t max_result = 0; int int_result = 0; char char_result = 0; ret_val = LIBC_NAMESPACE::sscanf("123", "%ju", &max_result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(max_result, uintmax_t(123)); // Check overflow handling ret_val = LIBC_NAMESPACE::sscanf("999999999999999999999999999999999999", "%ju", &max_result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(max_result, LIBC_NAMESPACE::cpp::numeric_limits::max()); // Because this is unsigned, any out of range value should return the maximum, // even with a negative sign. ret_val = LIBC_NAMESPACE::sscanf("-999999999999999999999999999999999999", "%ju", &max_result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(max_result, LIBC_NAMESPACE::cpp::numeric_limits::max()); ret_val = LIBC_NAMESPACE::sscanf("-18446744073709551616", "%ju", &max_result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(max_result, LIBC_NAMESPACE::cpp::numeric_limits::max()); // But any number below the maximum should have the - sign applied. ret_val = LIBC_NAMESPACE::sscanf("-1", "%ju", &max_result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(max_result, uintmax_t(-1)); ret_val = LIBC_NAMESPACE::sscanf("-1", "%u", &int_result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(int_result, -1); max_result = 0xff00ff00ff00ff00; char_result = 0x6f; // Overflows for sizes larger than the maximum are handled by casting. ret_val = LIBC_NAMESPACE::sscanf("8589967360", "%d", &int_result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(int_result, int(8589967360)); // 2^33 + 2^15 // Check that the adjacent values weren't touched by the overflow. ASSERT_EQ(max_result, uintmax_t(0xff00ff00ff00ff00)); ASSERT_EQ(char_result, char(0x6f)); ret_val = LIBC_NAMESPACE::sscanf("-8589967360", "%d", &int_result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(int_result, int(-8589967360)); ASSERT_EQ(max_result, uintmax_t(0xff00ff00ff00ff00)); ASSERT_EQ(char_result, char(0x6f)); ret_val = LIBC_NAMESPACE::sscanf("25", "%hhd", &char_result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(char_result, char(25)); } TEST(LlvmLibcSScanfTest, IntConvBaseSelection) { int ret_val; int result = 0; ret_val = LIBC_NAMESPACE::sscanf("0xabc123", "%i", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, 0xabc123); ret_val = LIBC_NAMESPACE::sscanf("0456", "%i", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, 0456); ret_val = LIBC_NAMESPACE::sscanf("0999", "%i", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, 0); ret_val = LIBC_NAMESPACE::sscanf("123abc456", "%i", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, 123); } TEST(LlvmLibcSScanfTest, IntConvMaxLengthTests) { int ret_val; int result = 0; ret_val = LIBC_NAMESPACE::sscanf("12", "%1d", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, 1); ret_val = LIBC_NAMESPACE::sscanf("-1", "%1d", &result); EXPECT_EQ(ret_val, 0); EXPECT_EQ(result, 0); ret_val = LIBC_NAMESPACE::sscanf("+1", "%1d", &result); EXPECT_EQ(ret_val, 0); EXPECT_EQ(result, 0); ret_val = LIBC_NAMESPACE::sscanf("01", "%1d", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, 0); ret_val = LIBC_NAMESPACE::sscanf("01", "%1i", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, 0); result = -999; // 0x is a valid prefix, but not a valid number. This should be a matching // failure and should not modify the values. ret_val = LIBC_NAMESPACE::sscanf("0x1", "%2i", &result); EXPECT_EQ(ret_val, 0); EXPECT_EQ(result, -999); ret_val = LIBC_NAMESPACE::sscanf("-0x1", "%3i", &result); EXPECT_EQ(ret_val, 0); EXPECT_EQ(result, -999); ret_val = LIBC_NAMESPACE::sscanf("0x1", "%3i", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, 1); ret_val = LIBC_NAMESPACE::sscanf("-0x1", "%4i", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, -1); ret_val = LIBC_NAMESPACE::sscanf("-0x123", "%4i", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, -1); ret_val = LIBC_NAMESPACE::sscanf("123456789", "%5i", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, 12345); ret_val = LIBC_NAMESPACE::sscanf("123456789", "%10i", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, 123456789); } TEST(LlvmLibcSScanfTest, IntConvNoWriteTests) { int ret_val; // Result shouldn't be used by these tests, but it's safer to have it and // check it. int result = 0; ret_val = LIBC_NAMESPACE::sscanf("-1", "%*1d", &result); EXPECT_EQ(ret_val, 0); EXPECT_EQ(result, 0); ret_val = LIBC_NAMESPACE::sscanf("01", "%*1i", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, 0); ret_val = LIBC_NAMESPACE::sscanf("0x1", "%*2i", &result); EXPECT_EQ(ret_val, 0); EXPECT_EQ(result, 0); ret_val = LIBC_NAMESPACE::sscanf("a", "%*i", &result); EXPECT_EQ(ret_val, 0); EXPECT_EQ(result, 0); ret_val = LIBC_NAMESPACE::sscanf("123", "%*i", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, 0); } #ifndef LIBC_COPT_SCANF_DISABLE_FLOAT TEST(LlvmLibcSScanfTest, FloatConvSimple) { int ret_val; float result = 0; float inf = LIBC_NAMESPACE::fputil::FPBits::inf().get_val(); float nan = LIBC_NAMESPACE::fputil::FPBits::quiet_nan().get_val(); ret_val = LIBC_NAMESPACE::sscanf("123", "%f", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 123.0); ret_val = LIBC_NAMESPACE::sscanf("456.1", "%a", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 456.1); ret_val = LIBC_NAMESPACE::sscanf("0x789.ap0", "%e", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 0x789.ap0); ret_val = LIBC_NAMESPACE::sscanf("0x.8", "%e", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 0x0.8p0); ret_val = LIBC_NAMESPACE::sscanf("0x8.", "%e", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 0x8.0p0); ret_val = LIBC_NAMESPACE::sscanf("+12.0e1", "%g", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 12.0e1); ret_val = LIBC_NAMESPACE::sscanf("inf", "%F", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, inf); ret_val = LIBC_NAMESPACE::sscanf("NaN", "%A", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, nan); ret_val = LIBC_NAMESPACE::sscanf("-InFiNiTy", "%E", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, -inf); ret_val = LIBC_NAMESPACE::sscanf("1e10", "%G", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 1e10); ret_val = LIBC_NAMESPACE::sscanf(".1", "%G", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 0.1); ret_val = LIBC_NAMESPACE::sscanf("1.", "%G", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 1.0); ret_val = LIBC_NAMESPACE::sscanf("0", "%f", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 0.0); ret_val = LIBC_NAMESPACE::sscanf("Not a float", "%f", &result); EXPECT_EQ(ret_val, 0); } TEST(LlvmLibcSScanfTest, FloatConvLengthModifier) { int ret_val; double d_result = 0; long double ld_result = 0; double d_inf = LIBC_NAMESPACE::fputil::FPBits::inf().get_val(); long double ld_nan = LIBC_NAMESPACE::fputil::FPBits::quiet_nan().get_val(); ret_val = LIBC_NAMESPACE::sscanf("123", "%lf", &d_result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(d_result, 123.0); ret_val = LIBC_NAMESPACE::sscanf("456.1", "%La", &ld_result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(ld_result, 456.1L); ret_val = LIBC_NAMESPACE::sscanf("inf", "%le", &d_result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(d_result, d_inf); ret_val = LIBC_NAMESPACE::sscanf("nan", "%Lg", &ld_result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(ld_result, ld_nan); ret_val = LIBC_NAMESPACE::sscanf("1e-300", "%lF", &d_result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(d_result, 1e-300); ret_val = LIBC_NAMESPACE::sscanf("1.0e600", "%LA", &ld_result); EXPECT_EQ(ret_val, 1); // 1e600 may be larger than the maximum long double (if long double is double). // In that case both of these should be evaluated as inf. #ifdef LIBC_TYPES_LONG_DOUBLE_IS_FLOAT64 EXPECT_FP_EQ(ld_result, d_inf); #else EXPECT_FP_EQ(ld_result, 1.0e600L); #endif } TEST(LlvmLibcSScanfTest, FloatConvLongNumber) { int ret_val; float result = 0; double d_result = 0; // 32 characters ret_val = LIBC_NAMESPACE::sscanf("123456789012345678901234567890.0", "%f", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 123456789012345678901234567890.0f); // 64 characters ret_val = LIBC_NAMESPACE::sscanf( "123456789012345678901234567890123456789012345678901234567890.000", "%la", &d_result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ( d_result, 123456789012345678901234567890123456789012345678901234567890.000); // 128 characters ret_val = LIBC_NAMESPACE::sscanf( "123456789012345678901234567890123456789012345678901234567890" "123456789012345678901234567890123456789012345678901234567890.0000000", "%le", &d_result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ( d_result, 123456789012345678901234567890123456789012345678901234567890123456789012345678901234567890123456789012345678901234567890.0000000); // 256 characters ret_val = LIBC_NAMESPACE::sscanf("10000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000", "%lf", &d_result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(d_result, 1e255); // 288 characters ret_val = LIBC_NAMESPACE::sscanf("10000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000", "%lf", &d_result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(d_result, 1e287); } TEST(LlvmLibcSScanfTest, FloatConvComplexParsing) { int ret_val; float result = 0; float inf = LIBC_NAMESPACE::fputil::FPBits::inf().get_val(); float nan = LIBC_NAMESPACE::fputil::FPBits::quiet_nan().get_val(); ret_val = LIBC_NAMESPACE::sscanf("0x1.0e3", "%f", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 0x1.0e3p0); ret_val = LIBC_NAMESPACE::sscanf("", "%a", &result); EXPECT_EQ(ret_val, 0); ret_val = LIBC_NAMESPACE::sscanf("+", "%a", &result); EXPECT_EQ(ret_val, 0); ret_val = LIBC_NAMESPACE::sscanf("-", "%a", &result); EXPECT_EQ(ret_val, 0); ret_val = LIBC_NAMESPACE::sscanf("+.", "%a", &result); EXPECT_EQ(ret_val, 0); ret_val = LIBC_NAMESPACE::sscanf("-.e+10", "%a", &result); EXPECT_EQ(ret_val, 0); // This is a specific example from the standard. Its behavior diverges from // other implementations that accept "100e" as being the same as "100e0" ret_val = LIBC_NAMESPACE::sscanf("100er", "%a", &result); EXPECT_EQ(ret_val, 0); ret_val = LIBC_NAMESPACE::sscanf("nah", "%a", &result); EXPECT_EQ(ret_val, 0); ret_val = LIBC_NAMESPACE::sscanf("indirection", "%a", &result); EXPECT_EQ(ret_val, 0); ret_val = LIBC_NAMESPACE::sscanf("infnan", "%a", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, inf); ret_val = LIBC_NAMESPACE::sscanf("naninf", "%a", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, nan); ret_val = LIBC_NAMESPACE::sscanf("infinityinfinity", "%a", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, inf); // For %f to accept a string as representing it has to be either "inf" or // "infinity" when it stops. It only stops when it encounters a character that // isn't the next one in the string, so it accepts "infi" as the the longest // prefix of a possibly valid floating-point number, but determines that it is // not valid and returns a matching failure. This is because it can only unget // one character so when it finds that the character after the second 'i' is // not the next character in "infinity" it can't rewind to the point where it // had just "inf". ret_val = LIBC_NAMESPACE::sscanf("infi", "%a", &result); EXPECT_EQ(ret_val, 0); ret_val = LIBC_NAMESPACE::sscanf("infinite", "%a", &result); EXPECT_EQ(ret_val, 0); ret_val = LIBC_NAMESPACE::sscanf("-.1e1", "%f", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, -.1e1); ret_val = LIBC_NAMESPACE::sscanf("1.2.e1", "%f", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 1.2); } TEST(LlvmLibcSScanfTest, FloatConvMaxWidth) { int ret_val; float result = 0; float inf = LIBC_NAMESPACE::fputil::FPBits::inf().get_val(); ret_val = LIBC_NAMESPACE::sscanf("123", "%3f", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 123.0); ret_val = LIBC_NAMESPACE::sscanf("123", "%5f", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 123.0); ret_val = LIBC_NAMESPACE::sscanf("456", "%1f", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 4.0); ret_val = LIBC_NAMESPACE::sscanf("-789", "%1f", &result); EXPECT_EQ(ret_val, 0); ret_val = LIBC_NAMESPACE::sscanf("-123", "%2f", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, -1.0); ret_val = LIBC_NAMESPACE::sscanf("inf", "%2f", &result); EXPECT_EQ(ret_val, 0); ret_val = LIBC_NAMESPACE::sscanf("nan", "%1f", &result); EXPECT_EQ(ret_val, 0); ret_val = LIBC_NAMESPACE::sscanf("-inf", "%3f", &result); EXPECT_EQ(ret_val, 0); ret_val = LIBC_NAMESPACE::sscanf("-nan", "%3f", &result); EXPECT_EQ(ret_val, 0); // If the max length were not here this would fail as discussed above, but // since the max length limits it to the 3 it succeeds. ret_val = LIBC_NAMESPACE::sscanf("infinite", "%3f", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, inf); ret_val = LIBC_NAMESPACE::sscanf("-infinite", "%4f", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, -inf); ret_val = LIBC_NAMESPACE::sscanf("01", "%1f", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 0.0); ret_val = LIBC_NAMESPACE::sscanf("0x1", "%2f", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 0.0); ret_val = LIBC_NAMESPACE::sscanf("100e", "%4f", &result); EXPECT_EQ(ret_val, 0); ret_val = LIBC_NAMESPACE::sscanf("100e+10", "%5f", &result); EXPECT_EQ(ret_val, 0); ret_val = LIBC_NAMESPACE::sscanf("100e10", "%5f", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 100e1); } TEST(LlvmLibcSScanfTest, FloatConvNoWrite) { int ret_val; float result = 0; ret_val = LIBC_NAMESPACE::sscanf("123", "%*f", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 0.0); ret_val = LIBC_NAMESPACE::sscanf("456.1", "%*a", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 0.0); ret_val = LIBC_NAMESPACE::sscanf("0x789.ap0", "%*e", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 0.0); ret_val = LIBC_NAMESPACE::sscanf("+12.0e1", "%*g", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 0.0); ret_val = LIBC_NAMESPACE::sscanf("inf", "%*F", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 0.0); ret_val = LIBC_NAMESPACE::sscanf("NaN", "%*A", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 0.0); ret_val = LIBC_NAMESPACE::sscanf("-InFiNiTy", "%*E", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 0.0); ret_val = LIBC_NAMESPACE::sscanf("1e10", "%*G", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 0.0); ret_val = LIBC_NAMESPACE::sscanf(".1", "%*G", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 0.0); ret_val = LIBC_NAMESPACE::sscanf("123", "%*3f", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 0.0); ret_val = LIBC_NAMESPACE::sscanf("123", "%*5f", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 0.0); ret_val = LIBC_NAMESPACE::sscanf("456", "%*1f", &result); EXPECT_EQ(ret_val, 1); EXPECT_FP_EQ(result, 0.0); ret_val = LIBC_NAMESPACE::sscanf("Not a float", "%*f", &result); EXPECT_EQ(ret_val, 0); } #endif #ifndef LIBC_COPT_SCANF_DISABLE_INDEX_MODE TEST(LlvmLibcSScanfTest, CurPosCombined) { int ret_val; int result = -1; char c_result = 0; ret_val = LIBC_NAMESPACE::sscanf("some text", "%n", &result); // %n doesn't count as a conversion for the return value. EXPECT_EQ(ret_val, 0); EXPECT_EQ(result, 0); ret_val = LIBC_NAMESPACE::sscanf("1234567890", "12345%n", &result); EXPECT_EQ(ret_val, 0); EXPECT_EQ(result, 5); ret_val = LIBC_NAMESPACE::sscanf("1234567890", "12345%n", &result); EXPECT_EQ(ret_val, 0); EXPECT_EQ(result, 5); // 288 characters ret_val = LIBC_NAMESPACE::sscanf("10000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000", "%*d%hhn", &c_result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(c_result, char(288)); // Overflow is handled by casting. // 320 characters ret_val = LIBC_NAMESPACE::sscanf("10000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000" "00000000000000000000000000000000", "%*d%n", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, 320); } #endif TEST(LlvmLibcSScanfTest, PointerConvCombined) { int ret_val; void *result; ret_val = LIBC_NAMESPACE::sscanf("(nullptr)", "%p", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, static_cast(nullptr)); ret_val = LIBC_NAMESPACE::sscanf("(NuLlPtR)", "%p", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, static_cast(nullptr)); ret_val = LIBC_NAMESPACE::sscanf("(NULLPTR)", "%p", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, static_cast(nullptr)); ret_val = LIBC_NAMESPACE::sscanf("(null)", "%p", &result); EXPECT_EQ(ret_val, 0); ret_val = LIBC_NAMESPACE::sscanf("(nullptr2", "%p", &result); EXPECT_EQ(ret_val, 0); ret_val = LIBC_NAMESPACE::sscanf("0", "%p", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, reinterpret_cast(0)); ret_val = LIBC_NAMESPACE::sscanf("100", "%p", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, reinterpret_cast(0x100)); ret_val = LIBC_NAMESPACE::sscanf("-1", "%p", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, reinterpret_cast(-1)); ret_val = LIBC_NAMESPACE::sscanf("0xabcDEFG", "%p", &result); EXPECT_EQ(ret_val, 1); EXPECT_EQ(result, reinterpret_cast(0xabcdef)); } TEST(LlvmLibcSScanfTest, CombinedConv) { int ret_val; int result = 0; char buffer[10]; ret_val = LIBC_NAMESPACE::sscanf("123abc", "%i%s", &result, buffer); EXPECT_EQ(ret_val, 2); EXPECT_EQ(result, 123); ASSERT_STREQ(buffer, "abc"); result = -1; // 0x is a valid prefix, but not a valid number. This should be a matching // failure and should not modify the values. ret_val = LIBC_NAMESPACE::sscanf("0xZZZ", "%i%s", &result, buffer); EXPECT_EQ(ret_val, 0); EXPECT_EQ(result, -1); ASSERT_STREQ(buffer, "abc"); ret_val = LIBC_NAMESPACE::sscanf("0xZZZ", "%X%s", &result, buffer); EXPECT_EQ(ret_val, 0); EXPECT_EQ(result, -1); ASSERT_STREQ(buffer, "abc"); }