/* ---------------------------------------------------------------------- LAMMPS - Large-scale Atomic/Molecular Massively Parallel Simulator http://lammps.sandia.gov, Sandia National Laboratories Steve Plimpton, sjplimp@sandia.gov Copyright (2003) Sandia Corporation. Under the terms of Contract DE-AC04-94AL85000 with Sandia Corporation, the U.S. Government retains certain rights in this software. This software is distributed under the GNU General Public License. See the README file in the top-level LAMMPS directory. ------------------------------------------------------------------------- */ #include "tokenizer.h" #include "gmock/gmock.h" #include "gtest/gtest.h" using namespace LAMMPS_NS; using ::testing::Eq; TEST(Tokenizer, empty_string) { Tokenizer t("", " "); ASSERT_EQ(t.count(), 0); } TEST(Tokenizer, whitespace_only) { Tokenizer t(" ", " "); ASSERT_EQ(t.count(), 0); } TEST(Tokenizer, single_word) { Tokenizer t("test", " "); ASSERT_EQ(t.count(), 1); } TEST(Tokenizer, two_words) { Tokenizer t("test word", " "); ASSERT_EQ(t.count(), 2); } TEST(Tokenizer, prefix_separators) { Tokenizer t(" test word", " "); ASSERT_EQ(t.count(), 2); } TEST(Tokenizer, postfix_separators) { Tokenizer t("test word ", " "); ASSERT_EQ(t.count(), 2); } TEST(Tokenizer, iterate_words) { Tokenizer t(" test word ", " "); ASSERT_THAT(t.next(), Eq("test")); ASSERT_THAT(t.next(), Eq("word")); ASSERT_EQ(t.count(), 2); } TEST(Tokenizer, unix_paths) { Tokenizer t(":one:two:three:", ":"); ASSERT_EQ(t.count(), 3); ASSERT_THAT(t.next(), Eq("one")); ASSERT_THAT(t.next(), Eq("two")); ASSERT_EQ(t.has_next(), true); ASSERT_THAT(t.next(), Eq("three")); ASSERT_EQ(t.has_next(), false); } TEST(Tokenizer, windows_paths) { Tokenizer t("c:\\one;\\two\\three;d:four;", ";"); ASSERT_EQ(t.count(), 3); ASSERT_THAT(t.next(), Eq("c:\\one")); ASSERT_EQ(t.has_next(), true); ASSERT_THAT(t.next(), Eq("\\two\\three")); ASSERT_THAT(t.next(), Eq("d:four")); ASSERT_EQ(t.has_next(), false); } TEST(Tokenizer, default_separators) { Tokenizer t(" \r\n test \t word \f"); ASSERT_THAT(t.next(), Eq("test")); ASSERT_THAT(t.next(), Eq("word")); ASSERT_EQ(t.count(), 2); } TEST(Tokenizer, as_vector) { Tokenizer t(" \r\n test \t word \f"); std::vector list = t.as_vector(); ASSERT_THAT(list[0], Eq("test")); ASSERT_THAT(list[1], Eq("word")); } TEST(ValueTokenizer, empty_string) { ValueTokenizer values(""); ASSERT_FALSE(values.has_next()); } TEST(ValueTokenizer, bad_integer) { ValueTokenizer values("f10"); ASSERT_THROW(values.next_int(), InvalidIntegerException); } TEST(ValueTokenizer, bad_double) { ValueTokenizer values("1a.0"); ASSERT_THROW(values.next_double(), InvalidFloatException); } TEST(ValueTokenizer, valid_int) { ValueTokenizer values("10"); ASSERT_EQ(values.next_int(), 10); } TEST(ValueTokenizer, valid_tagint) { ValueTokenizer values("42"); ASSERT_EQ(values.next_tagint(), 42); } TEST(ValueTokenizer, valid_bigint) { ValueTokenizer values("42"); ASSERT_EQ(values.next_bigint(), 42); } TEST(ValueTokenizer, valid_double) { ValueTokenizer values("3.14"); ASSERT_DOUBLE_EQ(values.next_double(), 3.14); } TEST(ValueTokenizer, valid_double_with_exponential) { ValueTokenizer values("3.14e22"); ASSERT_DOUBLE_EQ(values.next_double(), 3.14e22); } TEST(ValueTokenizer, contains) { ValueTokenizer values("test word"); ASSERT_TRUE(values.contains("test")); ASSERT_TRUE(values.contains("word")); } TEST(ValueTokenizer, not_contains) { ValueTokenizer values("test word"); ASSERT_FALSE(values.contains("test2")); }