// Copyright 2014 PDFium 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 "core/fxcrt/bytestring.h" #include #include #include #include "core/fxcrt/fx_string.h" #include "testing/gtest/include/gtest/gtest.h" #include "third_party/base/span.h" #include "third_party/base/stl_util.h" namespace fxcrt { TEST(ByteString, ElementAccess) { const ByteString abc("abc"); EXPECT_EQ('a', abc[0]); EXPECT_EQ('b', abc[1]); EXPECT_EQ('c', abc[2]); #ifndef NDEBUG EXPECT_DEATH({ abc[3]; }, ".*"); #endif pdfium::span abc_span = abc.AsSpan(); EXPECT_EQ(3u, abc_span.size()); EXPECT_EQ(0, memcmp(abc_span.data(), "abc", 3)); pdfium::span abc_raw_span = abc.AsRawSpan(); EXPECT_EQ(3u, abc_raw_span.size()); EXPECT_EQ(0, memcmp(abc_raw_span.data(), "abc", 3)); ByteString mutable_abc = abc; EXPECT_EQ(abc.c_str(), mutable_abc.c_str()); EXPECT_EQ('a', mutable_abc[0]); EXPECT_EQ('b', mutable_abc[1]); EXPECT_EQ('c', mutable_abc[2]); EXPECT_EQ(abc.c_str(), mutable_abc.c_str()); EXPECT_EQ("abc", abc); const char* c_str = abc.c_str(); mutable_abc.SetAt(0, 'd'); EXPECT_EQ(c_str, abc.c_str()); EXPECT_NE(c_str, mutable_abc.c_str()); EXPECT_EQ("abc", abc); EXPECT_EQ("dbc", mutable_abc); mutable_abc.SetAt(1, 'e'); EXPECT_EQ("abc", abc); EXPECT_EQ("dec", mutable_abc); mutable_abc.SetAt(2, 'f'); EXPECT_EQ("abc", abc); EXPECT_EQ("def", mutable_abc); #ifndef NDEBUG EXPECT_DEATH({ mutable_abc.SetAt(3, 'g'); }, ".*"); EXPECT_EQ("abc", abc); #endif } TEST(ByteString, Assign) { { // Copy-assign. ByteString string1; EXPECT_EQ(0, string1.ReferenceCountForTesting()); { ByteString string2("abc"); EXPECT_EQ(1, string2.ReferenceCountForTesting()); string1 = string2; EXPECT_EQ(2, string1.ReferenceCountForTesting()); EXPECT_EQ(2, string2.ReferenceCountForTesting()); } EXPECT_EQ(1, string1.ReferenceCountForTesting()); } { // Move-assign. ByteString string1; EXPECT_EQ(0, string1.ReferenceCountForTesting()); { ByteString string2("abc"); EXPECT_EQ(1, string2.ReferenceCountForTesting()); string1 = std::move(string2); EXPECT_EQ(1, string1.ReferenceCountForTesting()); EXPECT_EQ(0, string2.ReferenceCountForTesting()); } EXPECT_EQ(1, string1.ReferenceCountForTesting()); } } TEST(ByteString, OperatorLT) { ByteString empty; ByteString a("a"); ByteString abc("abc"); ByteString def("def"); ByteStringView v_empty; ByteStringView v_a("a"); ByteStringView v_abc("abc"); ByteStringView v_def("def"); const char* const c_null = nullptr; const char* const c_empty = ""; const char* const c_a = "a"; const char* const c_abc = "abc"; const char* const c_def = "def"; EXPECT_FALSE(empty < empty); EXPECT_FALSE(a < a); EXPECT_FALSE(abc < abc); EXPECT_FALSE(def < def); EXPECT_FALSE(c_null < empty); EXPECT_FALSE(c_empty < empty); EXPECT_FALSE(c_a < a); EXPECT_FALSE(c_abc < abc); EXPECT_FALSE(c_def < def); EXPECT_FALSE(empty < c_null); EXPECT_FALSE(empty < c_empty); EXPECT_FALSE(a < c_a); EXPECT_FALSE(abc < c_abc); EXPECT_FALSE(def < c_def); EXPECT_FALSE(empty < v_empty); EXPECT_FALSE(a < v_a); EXPECT_FALSE(abc < v_abc); EXPECT_FALSE(def < v_def); EXPECT_TRUE(empty < a); EXPECT_FALSE(a < empty); EXPECT_TRUE(c_null < a); EXPECT_TRUE(c_empty < a); EXPECT_FALSE(c_a < empty); EXPECT_TRUE(empty < c_a); EXPECT_FALSE(a < c_null); EXPECT_FALSE(a < c_empty); EXPECT_TRUE(empty < v_a); EXPECT_FALSE(a < v_empty); EXPECT_TRUE(empty < abc); EXPECT_FALSE(abc < empty); EXPECT_TRUE(c_null < abc); EXPECT_TRUE(c_empty < abc); EXPECT_FALSE(c_abc < empty); EXPECT_TRUE(empty < c_abc); EXPECT_FALSE(abc < c_null); EXPECT_FALSE(abc < c_empty); EXPECT_TRUE(empty < v_abc); EXPECT_FALSE(abc < v_empty); EXPECT_TRUE(empty < def); EXPECT_FALSE(def < empty); EXPECT_TRUE(c_null < def); EXPECT_TRUE(c_empty < def); EXPECT_FALSE(c_def < empty); EXPECT_TRUE(empty < c_def); EXPECT_FALSE(def < c_null); EXPECT_FALSE(def < c_empty); EXPECT_TRUE(empty < v_def); EXPECT_FALSE(def < v_empty); EXPECT_TRUE(a < abc); EXPECT_FALSE(abc < a); EXPECT_TRUE(c_a < abc); EXPECT_FALSE(c_abc < a); EXPECT_TRUE(a < c_abc); EXPECT_FALSE(abc < c_a); EXPECT_TRUE(a < v_abc); EXPECT_FALSE(abc < v_a); EXPECT_TRUE(a < def); EXPECT_FALSE(def < a); EXPECT_TRUE(c_a < def); EXPECT_FALSE(c_def < a); EXPECT_TRUE(a < c_def); EXPECT_FALSE(def < c_a); EXPECT_TRUE(a < v_def); EXPECT_FALSE(def < v_a); EXPECT_TRUE(abc < def); EXPECT_FALSE(def < abc); EXPECT_TRUE(c_abc < def); EXPECT_FALSE(c_def < abc); EXPECT_TRUE(abc < c_def); EXPECT_FALSE(def < c_abc); EXPECT_TRUE(abc < v_def); EXPECT_FALSE(def < v_abc); } TEST(ByteString, OperatorEQ) { ByteString null_string; EXPECT_TRUE(null_string == null_string); ByteString empty_string(""); EXPECT_TRUE(empty_string == empty_string); EXPECT_TRUE(empty_string == null_string); EXPECT_TRUE(null_string == empty_string); ByteString deleted_string("hello"); deleted_string.Delete(0, 5); EXPECT_TRUE(deleted_string == deleted_string); EXPECT_TRUE(deleted_string == null_string); EXPECT_TRUE(deleted_string == empty_string); EXPECT_TRUE(null_string == deleted_string); EXPECT_TRUE(empty_string == deleted_string); ByteString byte_string("hello"); EXPECT_TRUE(byte_string == byte_string); EXPECT_FALSE(byte_string == null_string); EXPECT_FALSE(byte_string == empty_string); EXPECT_FALSE(byte_string == deleted_string); EXPECT_FALSE(null_string == byte_string); EXPECT_FALSE(empty_string == byte_string); EXPECT_FALSE(deleted_string == byte_string); ByteString byte_string_same1("hello"); EXPECT_TRUE(byte_string == byte_string_same1); EXPECT_TRUE(byte_string_same1 == byte_string); ByteString byte_string_same2(byte_string); EXPECT_TRUE(byte_string == byte_string_same2); EXPECT_TRUE(byte_string_same2 == byte_string); ByteString byte_string1("he"); ByteString byte_string2("hellp"); ByteString byte_string3("hellod"); EXPECT_FALSE(byte_string == byte_string1); EXPECT_FALSE(byte_string == byte_string2); EXPECT_FALSE(byte_string == byte_string3); EXPECT_FALSE(byte_string1 == byte_string); EXPECT_FALSE(byte_string2 == byte_string); EXPECT_FALSE(byte_string3 == byte_string); ByteStringView null_string_c; ByteStringView empty_string_c(""); EXPECT_TRUE(null_string == null_string_c); EXPECT_TRUE(null_string == empty_string_c); EXPECT_TRUE(empty_string == null_string_c); EXPECT_TRUE(empty_string == empty_string_c); EXPECT_TRUE(deleted_string == null_string_c); EXPECT_TRUE(deleted_string == empty_string_c); EXPECT_TRUE(null_string_c == null_string); EXPECT_TRUE(empty_string_c == null_string); EXPECT_TRUE(null_string_c == empty_string); EXPECT_TRUE(empty_string_c == empty_string); EXPECT_TRUE(null_string_c == deleted_string); EXPECT_TRUE(empty_string_c == deleted_string); ByteStringView byte_string_c_same1("hello"); EXPECT_TRUE(byte_string == byte_string_c_same1); EXPECT_TRUE(byte_string_c_same1 == byte_string); ByteStringView byte_string_c1("he"); ByteStringView byte_string_c2("hellp"); ByteStringView byte_string_c3("hellod"); EXPECT_FALSE(byte_string == byte_string_c1); EXPECT_FALSE(byte_string == byte_string_c2); EXPECT_FALSE(byte_string == byte_string_c3); EXPECT_FALSE(byte_string_c1 == byte_string); EXPECT_FALSE(byte_string_c2 == byte_string); EXPECT_FALSE(byte_string_c3 == byte_string); const char* const c_null_string = nullptr; const char* const c_empty_string = ""; EXPECT_TRUE(null_string == c_null_string); EXPECT_TRUE(null_string == c_empty_string); EXPECT_TRUE(empty_string == c_null_string); EXPECT_TRUE(empty_string == c_empty_string); EXPECT_TRUE(deleted_string == c_null_string); EXPECT_TRUE(deleted_string == c_empty_string); EXPECT_TRUE(c_null_string == null_string); EXPECT_TRUE(c_empty_string == null_string); EXPECT_TRUE(c_null_string == empty_string); EXPECT_TRUE(c_empty_string == empty_string); EXPECT_TRUE(c_null_string == deleted_string); EXPECT_TRUE(c_empty_string == deleted_string); const char* const c_string_same1 = "hello"; EXPECT_TRUE(byte_string == c_string_same1); EXPECT_TRUE(c_string_same1 == byte_string); const char* const c_string1 = "he"; const char* const c_string2 = "hellp"; const char* const c_string3 = "hellod"; EXPECT_FALSE(byte_string == c_string1); EXPECT_FALSE(byte_string == c_string2); EXPECT_FALSE(byte_string == c_string3); EXPECT_FALSE(c_string1 == byte_string); EXPECT_FALSE(c_string2 == byte_string); EXPECT_FALSE(c_string3 == byte_string); } TEST(ByteString, OperatorNE) { ByteString null_string; EXPECT_FALSE(null_string != null_string); ByteString empty_string(""); EXPECT_FALSE(empty_string != empty_string); EXPECT_FALSE(empty_string != null_string); EXPECT_FALSE(null_string != empty_string); ByteString deleted_string("hello"); deleted_string.Delete(0, 5); EXPECT_FALSE(deleted_string != deleted_string); EXPECT_FALSE(deleted_string != null_string); EXPECT_FALSE(deleted_string != empty_string); EXPECT_FALSE(deleted_string != deleted_string); EXPECT_FALSE(null_string != deleted_string); EXPECT_FALSE(empty_string != deleted_string); EXPECT_FALSE(deleted_string != deleted_string); ByteString byte_string("hello"); EXPECT_FALSE(byte_string != byte_string); EXPECT_TRUE(byte_string != null_string); EXPECT_TRUE(byte_string != empty_string); EXPECT_TRUE(byte_string != deleted_string); EXPECT_TRUE(null_string != byte_string); EXPECT_TRUE(empty_string != byte_string); EXPECT_TRUE(deleted_string != byte_string); ByteString byte_string_same1("hello"); EXPECT_FALSE(byte_string != byte_string_same1); EXPECT_FALSE(byte_string_same1 != byte_string); ByteString byte_string_same2(byte_string); EXPECT_FALSE(byte_string != byte_string_same2); EXPECT_FALSE(byte_string_same2 != byte_string); ByteString byte_string1("he"); ByteString byte_string2("hellp"); ByteString byte_string3("hellod"); EXPECT_TRUE(byte_string != byte_string1); EXPECT_TRUE(byte_string != byte_string2); EXPECT_TRUE(byte_string != byte_string3); EXPECT_TRUE(byte_string1 != byte_string); EXPECT_TRUE(byte_string2 != byte_string); EXPECT_TRUE(byte_string3 != byte_string); ByteStringView null_string_c; ByteStringView empty_string_c(""); EXPECT_FALSE(null_string != null_string_c); EXPECT_FALSE(null_string != empty_string_c); EXPECT_FALSE(empty_string != null_string_c); EXPECT_FALSE(empty_string != empty_string_c); EXPECT_FALSE(null_string_c != null_string); EXPECT_FALSE(empty_string_c != null_string); EXPECT_FALSE(null_string_c != empty_string); EXPECT_FALSE(empty_string_c != empty_string); ByteStringView byte_string_c_same1("hello"); EXPECT_FALSE(byte_string != byte_string_c_same1); EXPECT_FALSE(byte_string_c_same1 != byte_string); ByteStringView byte_string_c1("he"); ByteStringView byte_string_c2("hellp"); ByteStringView byte_string_c3("hellod"); EXPECT_TRUE(byte_string != byte_string_c1); EXPECT_TRUE(byte_string != byte_string_c2); EXPECT_TRUE(byte_string != byte_string_c3); EXPECT_TRUE(byte_string_c1 != byte_string); EXPECT_TRUE(byte_string_c2 != byte_string); EXPECT_TRUE(byte_string_c3 != byte_string); const char* const c_null_string = nullptr; const char* const c_empty_string = ""; EXPECT_FALSE(null_string != c_null_string); EXPECT_FALSE(null_string != c_empty_string); EXPECT_FALSE(empty_string != c_null_string); EXPECT_FALSE(empty_string != c_empty_string); EXPECT_FALSE(deleted_string != c_null_string); EXPECT_FALSE(deleted_string != c_empty_string); EXPECT_FALSE(c_null_string != null_string); EXPECT_FALSE(c_empty_string != null_string); EXPECT_FALSE(c_null_string != empty_string); EXPECT_FALSE(c_empty_string != empty_string); EXPECT_FALSE(c_null_string != deleted_string); EXPECT_FALSE(c_empty_string != deleted_string); const char* const c_string_same1 = "hello"; EXPECT_FALSE(byte_string != c_string_same1); EXPECT_FALSE(c_string_same1 != byte_string); const char* const c_string1 = "he"; const char* const c_string2 = "hellp"; const char* const c_string3 = "hellod"; EXPECT_TRUE(byte_string != c_string1); EXPECT_TRUE(byte_string != c_string2); EXPECT_TRUE(byte_string != c_string3); EXPECT_TRUE(c_string1 != byte_string); EXPECT_TRUE(c_string2 != byte_string); EXPECT_TRUE(c_string3 != byte_string); } TEST(ByteString, OperatorPlus) { EXPECT_EQ("I like dogs", "I like " + ByteString("dogs")); EXPECT_EQ("Dogs like me", ByteString("Dogs") + " like me"); EXPECT_EQ("Oh no, error number 42", "Oh no, error number " + ByteString::Format("%d", 42)); } TEST(ByteString, Concat) { ByteString fred; fred.Concat("FRED", 4); EXPECT_EQ("FRED", fred); fred.Concat("DY", 2); EXPECT_EQ("FREDDY", fred); fred.Delete(3, 3); EXPECT_EQ("FRE", fred); fred.Concat("D", 1); EXPECT_EQ("FRED", fred); ByteString copy = fred; fred.Concat("DY", 2); EXPECT_EQ("FREDDY", fred); EXPECT_EQ("FRED", copy); } TEST(ByteString, Remove) { ByteString freed("FREED"); freed.Remove('E'); EXPECT_EQ("FRD", freed); freed.Remove('F'); EXPECT_EQ("RD", freed); freed.Remove('D'); EXPECT_EQ("R", freed); freed.Remove('X'); EXPECT_EQ("R", freed); freed.Remove('R'); EXPECT_EQ("", freed); ByteString empty; empty.Remove('X'); EXPECT_EQ("", empty); } TEST(ByteString, RemoveCopies) { ByteString freed("FREED"); const char* old_buffer = freed.c_str(); // No change with single reference - no copy. freed.Remove('Q'); EXPECT_EQ("FREED", freed); EXPECT_EQ(old_buffer, freed.c_str()); // Change with single reference - no copy. freed.Remove('E'); EXPECT_EQ("FRD", freed); EXPECT_EQ(old_buffer, freed.c_str()); // No change with multiple references - no copy. ByteString shared(freed); freed.Remove('Q'); EXPECT_EQ("FRD", freed); EXPECT_EQ(old_buffer, freed.c_str()); EXPECT_EQ(old_buffer, shared.c_str()); // Change with multiple references -- must copy. freed.Remove('D'); EXPECT_EQ("FR", freed); EXPECT_NE(old_buffer, freed.c_str()); EXPECT_EQ("FRD", shared); EXPECT_EQ(old_buffer, shared.c_str()); } TEST(ByteString, Replace) { ByteString fred("FRED"); fred.Replace("FR", "BL"); EXPECT_EQ("BLED", fred); fred.Replace("D", "DDY"); EXPECT_EQ("BLEDDY", fred); fred.Replace("LEDD", ""); EXPECT_EQ("BY", fred); fred.Replace("X", "CLAMS"); EXPECT_EQ("BY", fred); fred.Replace("BY", "HI"); EXPECT_EQ("HI", fred); fred.Replace("", "CLAMS"); EXPECT_EQ("HI", fred); fred.Replace("HI", ""); EXPECT_EQ("", fred); } TEST(ByteString, Insert) { ByteString fred("FRED"); EXPECT_EQ(5u, fred.Insert(0, 'S')); EXPECT_EQ("SFRED", fred); EXPECT_EQ(6u, fred.Insert(1, 'T')); EXPECT_EQ("STFRED", fred); EXPECT_EQ(7u, fred.Insert(4, 'U')); EXPECT_EQ("STFRUED", fred); EXPECT_EQ(8u, fred.Insert(7, 'V')); EXPECT_EQ("STFRUEDV", fred); EXPECT_EQ(8u, fred.Insert(12, 'P')); EXPECT_EQ("STFRUEDV", fred); { ByteString empty; EXPECT_EQ(1u, empty.Insert(0, 'X')); EXPECT_EQ("X", empty); } { ByteString empty; EXPECT_EQ(0u, empty.Insert(5, 'X')); EXPECT_NE("X", empty); } } TEST(ByteString, InsertAtFrontAndInsertAtBack) { { ByteString empty; EXPECT_EQ(1u, empty.InsertAtFront('D')); EXPECT_EQ("D", empty); EXPECT_EQ(2u, empty.InsertAtFront('E')); EXPECT_EQ("ED", empty); EXPECT_EQ(3u, empty.InsertAtFront('R')); EXPECT_EQ("RED", empty); EXPECT_EQ(4u, empty.InsertAtFront('F')); EXPECT_EQ("FRED", empty); } { ByteString empty; EXPECT_EQ(1u, empty.InsertAtBack('F')); EXPECT_EQ("F", empty); EXPECT_EQ(2u, empty.InsertAtBack('R')); EXPECT_EQ("FR", empty); EXPECT_EQ(3u, empty.InsertAtBack('E')); EXPECT_EQ("FRE", empty); EXPECT_EQ(4u, empty.InsertAtBack('D')); EXPECT_EQ("FRED", empty); } { ByteString empty; EXPECT_EQ(1u, empty.InsertAtBack('E')); EXPECT_EQ("E", empty); EXPECT_EQ(2u, empty.InsertAtFront('R')); EXPECT_EQ("RE", empty); EXPECT_EQ(3u, empty.InsertAtBack('D')); EXPECT_EQ("RED", empty); EXPECT_EQ(4u, empty.InsertAtFront('F')); EXPECT_EQ("FRED", empty); } } TEST(ByteString, Delete) { ByteString fred("FRED"); EXPECT_EQ(4u, fred.Delete(0, 0)); EXPECT_EQ("FRED", fred); EXPECT_EQ(2u, fred.Delete(0, 2)); EXPECT_EQ("ED", fred); EXPECT_EQ(1u, fred.Delete(1)); EXPECT_EQ("E", fred); EXPECT_EQ(0u, fred.Delete(0)); EXPECT_EQ("", fred); EXPECT_EQ(0u, fred.Delete(0)); EXPECT_EQ("", fred); ByteString empty; EXPECT_EQ(0u, empty.Delete(0)); EXPECT_EQ("", empty); EXPECT_EQ(0u, empty.Delete(1)); EXPECT_EQ("", empty); } TEST(ByteString, Mid) { ByteString fred("FRED"); EXPECT_EQ("", fred.Mid(0, 0)); EXPECT_EQ("", fred.Mid(3, 0)); EXPECT_EQ("FRED", fred.Mid(0, 4)); EXPECT_EQ("RED", fred.Mid(1, 3)); EXPECT_EQ("ED", fred.Mid(2, 2)); EXPECT_EQ("D", fred.Mid(3, 1)); EXPECT_EQ("F", fred.Mid(0, 1)); EXPECT_EQ("R", fred.Mid(1, 1)); EXPECT_EQ("E", fred.Mid(2, 1)); EXPECT_EQ("D", fred.Mid(3, 1)); EXPECT_EQ("FR", fred.Mid(0, 2)); EXPECT_EQ("FRED", fred.Mid(0, 4)); EXPECT_EQ("", fred.Mid(0, 10)); EXPECT_EQ("RED", fred.Mid(1, 3)); EXPECT_EQ("", fred.Mid(4, 1)); ByteString empty; EXPECT_EQ("", empty.Mid(0, 0)); } TEST(ByteString, Left) { ByteString fred("FRED"); EXPECT_EQ("", fred.Left(0)); EXPECT_EQ("F", fred.Left(1)); EXPECT_EQ("FR", fred.Left(2)); EXPECT_EQ("FRE", fred.Left(3)); EXPECT_EQ("FRED", fred.Left(4)); EXPECT_EQ("", fred.Left(5)); ByteString empty; EXPECT_EQ("", empty.Left(0)); EXPECT_EQ("", empty.Left(1)); } TEST(ByteString, Right) { ByteString fred("FRED"); EXPECT_EQ("", fred.Right(0)); EXPECT_EQ("D", fred.Right(1)); EXPECT_EQ("ED", fred.Right(2)); EXPECT_EQ("RED", fred.Right(3)); EXPECT_EQ("FRED", fred.Right(4)); EXPECT_EQ("", fred.Right(5)); ByteString empty; EXPECT_EQ("", empty.Right(0)); EXPECT_EQ("", empty.Right(1)); } TEST(ByteString, Find) { ByteString null_string; EXPECT_FALSE(null_string.Find('a').has_value()); EXPECT_FALSE(null_string.Find('\0').has_value()); ByteString empty_string(""); EXPECT_FALSE(empty_string.Find('a').has_value()); EXPECT_FALSE(empty_string.Find('\0').has_value()); Optional result; ByteString single_string("a"); result = single_string.Find('a'); ASSERT_TRUE(result.has_value()); EXPECT_EQ(0u, result.value()); EXPECT_FALSE(single_string.Find('b').has_value()); EXPECT_FALSE(single_string.Find('\0').has_value()); ByteString longer_string("abccc"); result = longer_string.Find('a'); ASSERT_TRUE(result.has_value()); EXPECT_EQ(0u, result.value()); result = longer_string.Find('c'); ASSERT_TRUE(result.has_value()); EXPECT_EQ(2u, result.value()); result = longer_string.Find('c', 3); ASSERT_TRUE(result.has_value()); EXPECT_EQ(3u, result.value()); EXPECT_FALSE(longer_string.Find('d').has_value()); EXPECT_FALSE(longer_string.Find('\0').has_value()); result = longer_string.Find("ab"); ASSERT_TRUE(result.has_value()); EXPECT_EQ(0u, result.value()); result = longer_string.Find("ccc"); ASSERT_TRUE(result.has_value()); EXPECT_EQ(2u, result.value()); result = longer_string.Find("cc", 3); ASSERT_TRUE(result.has_value()); EXPECT_EQ(3u, result.value()); EXPECT_FALSE(longer_string.Find("d").has_value()); ByteString hibyte_string( "ab\x8c" "def"); result = hibyte_string.Find('\x8c'); ASSERT_TRUE(result.has_value()); EXPECT_EQ(2u, result.value()); } TEST(ByteString, ReverseFind) { ByteString null_string; EXPECT_FALSE(null_string.ReverseFind('a').has_value()); EXPECT_FALSE(null_string.ReverseFind('\0').has_value()); ByteString empty_string(""); EXPECT_FALSE(empty_string.ReverseFind('a').has_value()); EXPECT_FALSE(empty_string.ReverseFind('\0').has_value()); Optional result; ByteString single_string("a"); result = single_string.ReverseFind('a'); ASSERT_TRUE(result.has_value()); EXPECT_EQ(0u, result.value()); EXPECT_FALSE(single_string.ReverseFind('b').has_value()); EXPECT_FALSE(single_string.ReverseFind('\0').has_value()); ByteString longer_string("abccc"); result = longer_string.ReverseFind('a'); ASSERT_TRUE(result.has_value()); EXPECT_EQ(0u, result.value()); result = longer_string.ReverseFind('c'); ASSERT_TRUE(result.has_value()); EXPECT_EQ(4u, result.value()); EXPECT_FALSE(longer_string.ReverseFind('\0').has_value()); ByteString hibyte_string( "ab\x8c" "def"); result = hibyte_string.ReverseFind('\x8c'); ASSERT_TRUE(result.has_value()); EXPECT_EQ(2u, result.value()); } TEST(ByteString, UpperLower) { ByteString fred("F-Re.42D"); fred.MakeLower(); EXPECT_EQ("f-re.42d", fred); fred.MakeUpper(); EXPECT_EQ("F-RE.42D", fred); ByteString empty; empty.MakeLower(); EXPECT_EQ("", empty); empty.MakeUpper(); EXPECT_EQ("", empty); } TEST(ByteString, Trim) { ByteString fred(" FRED "); fred.Trim(); EXPECT_EQ("FRED", fred); fred.Trim('E'); EXPECT_EQ("FRED", fred); fred.Trim('F'); EXPECT_EQ("RED", fred); fred.Trim("ERP"); EXPECT_EQ("D", fred); ByteString blank(" "); blank.Trim("ERP"); EXPECT_EQ(" ", blank); blank.Trim('E'); EXPECT_EQ(" ", blank); blank.Trim(); EXPECT_EQ("", blank); ByteString empty; empty.Trim("ERP"); EXPECT_EQ("", empty); empty.Trim('E'); EXPECT_EQ("", empty); empty.Trim(); EXPECT_EQ("", empty); ByteString abc(" ABCCBA "); abc.Trim("A"); EXPECT_EQ(" ABCCBA ", abc); abc.Trim(" A"); EXPECT_EQ("BCCB", abc); } TEST(ByteString, TrimLeft) { ByteString fred(" FRED "); fred.TrimLeft(); EXPECT_EQ("FRED ", fred); fred.TrimLeft('E'); EXPECT_EQ("FRED ", fred); fred.TrimLeft('F'); EXPECT_EQ("RED ", fred); fred.TrimLeft("ERP"); EXPECT_EQ("D ", fred); ByteString blank(" "); blank.TrimLeft("ERP"); EXPECT_EQ(" ", blank); blank.TrimLeft('E'); EXPECT_EQ(" ", blank); blank.TrimLeft(); EXPECT_EQ("", blank); ByteString empty; empty.TrimLeft("ERP"); EXPECT_EQ("", empty); empty.TrimLeft('E'); EXPECT_EQ("", empty); empty.TrimLeft(); EXPECT_EQ("", empty); } TEST(ByteString, TrimLeftCopies) { { // With a single reference, no copy takes place. ByteString fred(" FRED "); const char* old_buffer = fred.c_str(); fred.TrimLeft(); EXPECT_EQ("FRED ", fred); EXPECT_EQ(old_buffer, fred.c_str()); } { // With multiple references, we must copy. ByteString fred(" FRED "); ByteString other_fred = fred; const char* old_buffer = fred.c_str(); fred.TrimLeft(); EXPECT_EQ("FRED ", fred); EXPECT_EQ(" FRED ", other_fred); EXPECT_NE(old_buffer, fred.c_str()); } { // With multiple references, but no modifications, no copy. ByteString fred("FRED"); ByteString other_fred = fred; const char* old_buffer = fred.c_str(); fred.TrimLeft(); EXPECT_EQ("FRED", fred); EXPECT_EQ("FRED", other_fred); EXPECT_EQ(old_buffer, fred.c_str()); } } TEST(ByteString, TrimRight) { ByteString fred(" FRED "); fred.TrimRight(); EXPECT_EQ(" FRED", fred); fred.TrimRight('E'); EXPECT_EQ(" FRED", fred); fred.TrimRight('D'); EXPECT_EQ(" FRE", fred); fred.TrimRight("ERP"); EXPECT_EQ(" F", fred); ByteString blank(" "); blank.TrimRight("ERP"); EXPECT_EQ(" ", blank); blank.TrimRight('E'); EXPECT_EQ(" ", blank); blank.TrimRight(); EXPECT_EQ("", blank); ByteString empty; empty.TrimRight("ERP"); EXPECT_EQ("", empty); empty.TrimRight('E'); EXPECT_EQ("", empty); empty.TrimRight(); EXPECT_EQ("", empty); } TEST(ByteString, TrimRightCopies) { { // With a single reference, no copy takes place. ByteString fred(" FRED "); const char* old_buffer = fred.c_str(); fred.TrimRight(); EXPECT_EQ(" FRED", fred); EXPECT_EQ(old_buffer, fred.c_str()); } { // With multiple references, we must copy. ByteString fred(" FRED "); ByteString other_fred = fred; const char* old_buffer = fred.c_str(); fred.TrimRight(); EXPECT_EQ(" FRED", fred); EXPECT_EQ(" FRED ", other_fred); EXPECT_NE(old_buffer, fred.c_str()); } { // With multiple references, but no modifications, no copy. ByteString fred("FRED"); ByteString other_fred = fred; const char* old_buffer = fred.c_str(); fred.TrimRight(); EXPECT_EQ("FRED", fred); EXPECT_EQ("FRED", other_fred); EXPECT_EQ(old_buffer, fred.c_str()); } } TEST(ByteString, Reserve) { { ByteString str; str.Reserve(6); const char* old_buffer = str.c_str(); str += "ABCDEF"; EXPECT_EQ(old_buffer, str.c_str()); str += "Blah Blah Blah Blah Blah Blah"; EXPECT_NE(old_buffer, str.c_str()); } { ByteString str("A"); str.Reserve(6); const char* old_buffer = str.c_str(); str += "BCDEF"; EXPECT_EQ(old_buffer, str.c_str()); str += "Blah Blah Blah Blah Blah Blah"; EXPECT_NE(old_buffer, str.c_str()); } } TEST(ByteString, GetBuffer) { ByteString str1; { pdfium::span buffer = str1.GetBuffer(12); // NOLINTNEXTLINE(runtime/printf) strcpy(buffer.data(), "clams"); } str1.ReleaseBuffer(str1.GetStringLength()); EXPECT_EQ("clams", str1); ByteString str2("cl"); { pdfium::span buffer = str2.GetBuffer(12); // NOLINTNEXTLINE(runtime/printf) strcpy(&buffer[2], "ams"); } str2.ReleaseBuffer(str2.GetStringLength()); EXPECT_EQ("clams", str2); } TEST(ByteString, ReleaseBuffer) { { ByteString str; str.Reserve(12); str += "clams"; const char* old_buffer = str.c_str(); str.ReleaseBuffer(4); EXPECT_EQ(old_buffer, str.c_str()); EXPECT_EQ("clam", str); } { ByteString str("c"); str.Reserve(12); str += "lams"; const char* old_buffer = str.c_str(); str.ReleaseBuffer(4); EXPECT_EQ(old_buffer, str.c_str()); EXPECT_EQ("clam", str); } { ByteString str; str.Reserve(200); str += "clams"; const char* old_buffer = str.c_str(); str.ReleaseBuffer(4); EXPECT_NE(old_buffer, str.c_str()); EXPECT_EQ("clam", str); } { ByteString str("c"); str.Reserve(200); str += "lams"; const char* old_buffer = str.c_str(); str.ReleaseBuffer(4); EXPECT_NE(old_buffer, str.c_str()); EXPECT_EQ("clam", str); } } TEST(ByteString, EmptyReverseIterator) { ByteString empty; auto iter = empty.rbegin(); EXPECT_TRUE(iter == empty.rend()); EXPECT_FALSE(iter != empty.rend()); EXPECT_FALSE(iter < empty.rend()); } TEST(ByteString, OneCharReverseIterator) { ByteString one_str("a"); auto iter = one_str.rbegin(); EXPECT_FALSE(iter == one_str.rend()); EXPECT_TRUE(iter != one_str.rend()); EXPECT_TRUE(iter < one_str.rend()); char ch = *iter++; EXPECT_EQ('a', ch); EXPECT_TRUE(iter == one_str.rend()); EXPECT_FALSE(iter != one_str.rend()); EXPECT_FALSE(iter < one_str.rend()); } TEST(ByteString, MultiCharReverseIterator) { ByteString multi_str("abcd"); auto iter = multi_str.rbegin(); EXPECT_FALSE(iter == multi_str.rend()); char ch = *iter++; EXPECT_EQ('d', ch); EXPECT_EQ('c', *iter); EXPECT_FALSE(iter == multi_str.rend()); ch = *(++iter); EXPECT_EQ('b', ch); EXPECT_EQ('b', *iter); EXPECT_FALSE(iter == multi_str.rend()); ch = *iter++; EXPECT_EQ('b', ch); EXPECT_EQ('a', *iter); EXPECT_FALSE(iter == multi_str.rend()); ch = *iter++; EXPECT_EQ('a', ch); EXPECT_TRUE(iter == multi_str.rend()); ch = *(--iter); EXPECT_EQ('a', ch); EXPECT_EQ('a', *iter); EXPECT_FALSE(iter == multi_str.rend()); ch = *iter--; EXPECT_EQ('a', ch); EXPECT_EQ('b', *iter); EXPECT_FALSE(iter == multi_str.rend()); ch = *iter--; EXPECT_EQ('b', ch); EXPECT_EQ('c', *iter); EXPECT_FALSE(iter == multi_str.rend()); ch = *(--iter); EXPECT_EQ('d', ch); EXPECT_EQ('d', *iter); EXPECT_TRUE(iter == multi_str.rbegin()); } TEST(ByteStringView, Null) { ByteStringView null_string; EXPECT_FALSE(null_string.raw_str()); EXPECT_EQ(0u, null_string.GetLength()); EXPECT_TRUE(null_string.IsEmpty()); ByteStringView another_null_string; EXPECT_EQ(null_string, another_null_string); ByteStringView copied_null_string(null_string); EXPECT_FALSE(copied_null_string.raw_str()); EXPECT_EQ(0u, copied_null_string.GetLength()); EXPECT_TRUE(copied_null_string.IsEmpty()); EXPECT_EQ(null_string, copied_null_string); ByteStringView span_null_string = pdfium::span(); EXPECT_FALSE(span_null_string.raw_str()); EXPECT_EQ(0u, span_null_string.GetLength()); EXPECT_TRUE(span_null_string.IsEmpty()); EXPECT_EQ(null_string, span_null_string); ByteStringView empty_string(""); // Pointer to NUL, not NULL pointer. EXPECT_TRUE(empty_string.raw_str()); EXPECT_EQ(0u, empty_string.GetLength()); EXPECT_TRUE(empty_string.IsEmpty()); EXPECT_EQ(null_string, empty_string); ByteStringView assigned_null_string("initially not nullptr"); assigned_null_string = null_string; EXPECT_FALSE(assigned_null_string.raw_str()); EXPECT_EQ(0u, assigned_null_string.GetLength()); EXPECT_TRUE(assigned_null_string.IsEmpty()); EXPECT_EQ(null_string, assigned_null_string); ByteStringView assigned_nullptr_string("initially not nullptr"); assigned_nullptr_string = nullptr; EXPECT_FALSE(assigned_nullptr_string.raw_str()); EXPECT_EQ(0u, assigned_nullptr_string.GetLength()); EXPECT_TRUE(assigned_nullptr_string.IsEmpty()); EXPECT_EQ(null_string, assigned_nullptr_string); ByteStringView assigned_span_null_string("initially not null span"); assigned_span_null_string = pdfium::span(); EXPECT_FALSE(assigned_span_null_string.raw_str()); EXPECT_EQ(0u, assigned_span_null_string.GetLength()); EXPECT_TRUE(assigned_span_null_string.IsEmpty()); EXPECT_EQ(null_string, assigned_span_null_string); ByteStringView non_null_string("a"); EXPECT_NE(null_string, non_null_string); } TEST(ByteStringView, NotNull) { ByteStringView string3("abc"); ByteStringView string6("abcdef"); ByteStringView alternate_string3("abcdef", 3); ByteStringView span_string4(pdfium::as_bytes(pdfium::make_span("abcd", 4))); ByteStringView embedded_nul_string7("abc\0def", 7); ByteStringView illegal_string7("abcdef", 7); EXPECT_EQ(3u, string3.GetLength()); EXPECT_EQ(6u, string6.GetLength()); EXPECT_EQ(3u, alternate_string3.GetLength()); EXPECT_EQ(4u, span_string4.GetLength()); EXPECT_EQ(7u, embedded_nul_string7.GetLength()); EXPECT_EQ(7u, illegal_string7.GetLength()); EXPECT_NE(string3, string6); EXPECT_EQ(string3, alternate_string3); EXPECT_NE(string3, embedded_nul_string7); EXPECT_NE(string3, illegal_string7); EXPECT_NE(string6, alternate_string3); EXPECT_NE(string6, embedded_nul_string7); EXPECT_NE(string6, illegal_string7); EXPECT_NE(alternate_string3, embedded_nul_string7); EXPECT_NE(alternate_string3, illegal_string7); EXPECT_NE(embedded_nul_string7, illegal_string7); ByteStringView copied_string3(string3); ByteStringView copied_alternate_string3(alternate_string3); ByteStringView copied_embedded_nul_string7(embedded_nul_string7); EXPECT_EQ(string3, copied_string3); EXPECT_EQ(alternate_string3, copied_alternate_string3); EXPECT_EQ(embedded_nul_string7, copied_embedded_nul_string7); ByteStringView assigned_string3("intially something else"); ByteStringView assigned_alternate_string3("initally something else"); ByteStringView assigned_ptr_string3("initially something else"); ByteStringView assigned_embedded_nul_string7("initially something else"); assigned_string3 = string3; assigned_alternate_string3 = alternate_string3; assigned_ptr_string3 = "abc"; assigned_embedded_nul_string7 = embedded_nul_string7; EXPECT_EQ(string3, assigned_string3); EXPECT_EQ(alternate_string3, assigned_alternate_string3); EXPECT_EQ(alternate_string3, assigned_ptr_string3); EXPECT_EQ(embedded_nul_string7, assigned_embedded_nul_string7); } TEST(ByteStringView, FromChar) { ByteStringView null_string; ByteStringView lower_a_string("a"); // Must have lvalues that outlive the corresponding ByteStringC. char nul = '\0'; char lower_a = 'a'; ByteStringView nul_string_from_char(nul); ByteStringView lower_a_string_from_char(lower_a); // Pointer to nul, not nullptr ptr, hence length 1 ... EXPECT_EQ(1u, nul_string_from_char.GetLength()); EXPECT_NE(null_string, nul_string_from_char); EXPECT_EQ(1u, lower_a_string_from_char.GetLength()); EXPECT_EQ(lower_a_string, lower_a_string_from_char); EXPECT_NE(nul_string_from_char, lower_a_string_from_char); ByteStringView longer_string("ab"); EXPECT_NE(longer_string, lower_a_string_from_char); } TEST(ByteStringView, FromVector) { std::vector null_vec; ByteStringView null_string(null_vec); EXPECT_EQ(0u, null_string.GetLength()); std::vector lower_a_vec(10, static_cast('a')); ByteStringView lower_a_string(lower_a_vec); EXPECT_EQ(static_cast(10), lower_a_string.GetLength()); EXPECT_EQ("aaaaaaaaaa", lower_a_string); std::vector cleared_vec; cleared_vec.push_back(42); cleared_vec.pop_back(); ByteStringView cleared_string(cleared_vec); EXPECT_EQ(0u, cleared_string.GetLength()); EXPECT_EQ(nullptr, cleared_string.raw_str()); } TEST(ByteStringView, GetID) { ByteStringView null_string; EXPECT_EQ(0u, null_string.GetID()); ByteStringView empty_string(""); EXPECT_EQ(0u, empty_string.GetID()); ByteStringView short_string("ab"); EXPECT_EQ(FXBSTR_ID('a', 'b', 0, 0), short_string.GetID()); ByteStringView longer_string("abcdef"); EXPECT_EQ(FXBSTR_ID('a', 'b', 'c', 'd'), longer_string.GetID()); } TEST(ByteStringView, Find) { ByteStringView null_string; EXPECT_FALSE(null_string.Find('a').has_value()); EXPECT_FALSE(null_string.Find('\0').has_value()); ByteStringView empty_string(""); EXPECT_FALSE(empty_string.Find('a').has_value()); EXPECT_FALSE(empty_string.Find('\0').has_value()); Optional result; ByteStringView single_string("a"); result = single_string.Find('a'); ASSERT_TRUE(result.has_value()); EXPECT_EQ(0u, result.value()); EXPECT_FALSE(single_string.Find('b').has_value()); EXPECT_FALSE(single_string.Find('\0').has_value()); ByteStringView longer_string("abccc"); result = longer_string.Find('a'); ASSERT_TRUE(result.has_value()); EXPECT_EQ(0u, result.value()); result = longer_string.Find('c'); ASSERT_TRUE(result.has_value()); EXPECT_EQ(2u, result.value()); EXPECT_FALSE(longer_string.Find('d').has_value()); EXPECT_FALSE(longer_string.Find('\0').has_value()); ByteStringView hibyte_string( "ab\x8c" "def"); result = hibyte_string.Find('\x8c'); ASSERT_TRUE(result.has_value()); EXPECT_EQ(2u, result.value()); } TEST(ByteStringView, Mid) { ByteStringView null_string; EXPECT_EQ(null_string, null_string.Mid(0, 1)); EXPECT_EQ(null_string, null_string.Mid(1, 1)); ByteStringView empty_string(""); EXPECT_EQ("", empty_string.Mid(0, 1)); EXPECT_EQ("", empty_string.Mid(1, 1)); ByteStringView single_character("a"); EXPECT_EQ("", single_character.Mid(0, 0)); EXPECT_EQ(single_character, single_character.Mid(0, 1)); EXPECT_EQ("", single_character.Mid(1, 0)); EXPECT_EQ("", single_character.Mid(1, 1)); ByteStringView longer_string("abcdef"); EXPECT_EQ(longer_string, longer_string.Mid(0, 6)); EXPECT_EQ("", longer_string.Mid(0, 187)); ByteStringView leading_substring("ab"); EXPECT_EQ(leading_substring, longer_string.Mid(0, 2)); ByteStringView middle_substring("bcde"); EXPECT_EQ(middle_substring, longer_string.Mid(1, 4)); ByteStringView trailing_substring("ef"); EXPECT_EQ(trailing_substring, longer_string.Mid(4, 2)); EXPECT_EQ("", longer_string.Mid(4, 3)); } TEST(ByteStringView, TrimmedRight) { ByteStringView fred("FRED"); EXPECT_EQ("FRED", fred.TrimmedRight('E')); EXPECT_EQ("FRE", fred.TrimmedRight('D')); ByteStringView fredd("FREDD"); EXPECT_EQ("FRE", fred.TrimmedRight('D')); } TEST(ByteStringView, ElementAccess) { // ByteStringView includes the NUL terminator for non-empty strings. ByteStringView abc("abc"); EXPECT_EQ('a', static_cast(abc[0])); EXPECT_EQ('b', static_cast(abc[1])); EXPECT_EQ('c', static_cast(abc[2])); #ifndef NDEBUG EXPECT_DEATH({ abc[3]; }, ".*"); #endif } TEST(ByteStringView, OperatorLT) { ByteStringView empty; ByteStringView a("a"); ByteStringView abc("abc"); ByteStringView def("def"); const char* const c_null = nullptr; const char* const c_empty = ""; const char* const c_a = "a"; const char* const c_abc = "abc"; const char* const c_def = "def"; EXPECT_FALSE(empty < empty); EXPECT_FALSE(a < a); EXPECT_FALSE(abc < abc); EXPECT_FALSE(def < def); EXPECT_FALSE(c_null < empty); EXPECT_FALSE(c_empty < empty); EXPECT_FALSE(c_a < a); EXPECT_FALSE(c_abc < abc); EXPECT_FALSE(c_def < def); EXPECT_FALSE(empty < c_null); EXPECT_FALSE(empty < c_empty); EXPECT_FALSE(a < c_a); EXPECT_FALSE(abc < c_abc); EXPECT_FALSE(def < c_def); EXPECT_TRUE(empty < a); EXPECT_FALSE(a < empty); EXPECT_TRUE(empty < c_a); EXPECT_FALSE(a < c_null); EXPECT_FALSE(a < c_empty); EXPECT_TRUE(empty < abc); EXPECT_FALSE(abc < empty); EXPECT_TRUE(empty < c_abc); EXPECT_FALSE(abc < c_null); EXPECT_FALSE(abc < c_empty); EXPECT_TRUE(empty < def); EXPECT_FALSE(def < empty); EXPECT_TRUE(empty < c_def); EXPECT_FALSE(def < c_null); EXPECT_FALSE(def < c_empty); EXPECT_TRUE(a < abc); EXPECT_FALSE(abc < a); EXPECT_TRUE(a < c_abc); EXPECT_FALSE(abc < c_a); EXPECT_TRUE(a < def); EXPECT_FALSE(def < a); EXPECT_TRUE(a < c_def); EXPECT_FALSE(def < c_a); EXPECT_TRUE(abc < def); EXPECT_FALSE(def < abc); EXPECT_TRUE(abc < c_def); EXPECT_FALSE(def < c_abc); } TEST(ByteStringView, OperatorEQ) { ByteStringView byte_string_c("hello"); EXPECT_TRUE(byte_string_c == byte_string_c); ByteStringView byte_string_c_same1("hello"); EXPECT_TRUE(byte_string_c == byte_string_c_same1); EXPECT_TRUE(byte_string_c_same1 == byte_string_c); ByteStringView byte_string_c_same2(byte_string_c); EXPECT_TRUE(byte_string_c == byte_string_c_same2); EXPECT_TRUE(byte_string_c_same2 == byte_string_c); ByteStringView byte_string_c1("he"); ByteStringView byte_string_c2("hellp"); ByteStringView byte_string_c3("hellod"); EXPECT_FALSE(byte_string_c == byte_string_c1); EXPECT_FALSE(byte_string_c == byte_string_c2); EXPECT_FALSE(byte_string_c == byte_string_c3); EXPECT_FALSE(byte_string_c1 == byte_string_c); EXPECT_FALSE(byte_string_c2 == byte_string_c); EXPECT_FALSE(byte_string_c3 == byte_string_c); ByteString byte_string_same1("hello"); EXPECT_TRUE(byte_string_c == byte_string_same1); EXPECT_TRUE(byte_string_same1 == byte_string_c); ByteString byte_string1("he"); ByteString byte_string2("hellp"); ByteString byte_string3("hellod"); EXPECT_FALSE(byte_string_c == byte_string1); EXPECT_FALSE(byte_string_c == byte_string2); EXPECT_FALSE(byte_string_c == byte_string3); EXPECT_FALSE(byte_string1 == byte_string_c); EXPECT_FALSE(byte_string2 == byte_string_c); EXPECT_FALSE(byte_string3 == byte_string_c); const char* const c_string_same1 = "hello"; EXPECT_TRUE(byte_string_c == c_string_same1); EXPECT_TRUE(c_string_same1 == byte_string_c); const char* const c_string1 = "he"; const char* const c_string2 = "hellp"; const char* const c_string3 = "hellod"; EXPECT_FALSE(byte_string_c == c_string1); EXPECT_FALSE(byte_string_c == c_string2); EXPECT_FALSE(byte_string_c == c_string3); EXPECT_FALSE(c_string1 == byte_string_c); EXPECT_FALSE(c_string2 == byte_string_c); EXPECT_FALSE(c_string3 == byte_string_c); pdfium::span span5( pdfium::as_bytes(pdfium::make_span("hello", 5))); EXPECT_EQ(byte_string_c.span(), span5); } TEST(ByteStringView, OperatorNE) { ByteStringView byte_string_c("hello"); EXPECT_FALSE(byte_string_c != byte_string_c); ByteStringView byte_string_c_same1("hello"); EXPECT_FALSE(byte_string_c != byte_string_c_same1); EXPECT_FALSE(byte_string_c_same1 != byte_string_c); ByteStringView byte_string_c_same2(byte_string_c); EXPECT_FALSE(byte_string_c != byte_string_c_same2); EXPECT_FALSE(byte_string_c_same2 != byte_string_c); ByteStringView byte_string_c1("he"); ByteStringView byte_string_c2("hellp"); ByteStringView byte_string_c3("hellod"); EXPECT_TRUE(byte_string_c != byte_string_c1); EXPECT_TRUE(byte_string_c != byte_string_c2); EXPECT_TRUE(byte_string_c != byte_string_c3); EXPECT_TRUE(byte_string_c1 != byte_string_c); EXPECT_TRUE(byte_string_c2 != byte_string_c); EXPECT_TRUE(byte_string_c3 != byte_string_c); ByteString byte_string_same1("hello"); EXPECT_FALSE(byte_string_c != byte_string_same1); EXPECT_FALSE(byte_string_same1 != byte_string_c); ByteString byte_string1("he"); ByteString byte_string2("hellp"); ByteString byte_string3("hellod"); EXPECT_TRUE(byte_string_c != byte_string1); EXPECT_TRUE(byte_string_c != byte_string2); EXPECT_TRUE(byte_string_c != byte_string3); EXPECT_TRUE(byte_string1 != byte_string_c); EXPECT_TRUE(byte_string2 != byte_string_c); EXPECT_TRUE(byte_string3 != byte_string_c); const char* const c_string_same1 = "hello"; EXPECT_FALSE(byte_string_c != c_string_same1); EXPECT_FALSE(c_string_same1 != byte_string_c); const char* const c_string1 = "he"; const char* const c_string2 = "hellp"; const char* const c_string3 = "hellod"; EXPECT_TRUE(byte_string_c != c_string1); EXPECT_TRUE(byte_string_c != c_string2); EXPECT_TRUE(byte_string_c != c_string3); EXPECT_TRUE(c_string1 != byte_string_c); EXPECT_TRUE(c_string2 != byte_string_c); EXPECT_TRUE(c_string3 != byte_string_c); } TEST(ByteStringView, NullIterator) { ByteStringView null_str; int32_t sum = 0; bool any_present = false; for (const auto& c : null_str) { sum += c; // Avoid unused arg warnings. any_present = true; } EXPECT_FALSE(any_present); EXPECT_EQ(0, sum); } TEST(ByteStringView, EmptyIterator) { ByteStringView empty_str(""); int32_t sum = 0; bool any_present = false; for (const auto& c : empty_str) { any_present = true; sum += c; // Avoid unused arg warnings. } EXPECT_FALSE(any_present); EXPECT_EQ(0, sum); } TEST(ByteStringView, OneCharIterator) { ByteStringView one_str("a"); int32_t sum = 0; bool any_present = false; for (const auto& c : one_str) { any_present = true; sum += c; // Avoid unused arg warnings. } EXPECT_TRUE(any_present); EXPECT_EQ('a', sum); } TEST(ByteStringView, MultiCharIterator) { ByteStringView one_str("abc"); int32_t sum = 0; bool any_present = false; for (const auto& c : one_str) { any_present = true; sum += c; // Avoid unused arg warnings. } EXPECT_TRUE(any_present); EXPECT_EQ('a' + 'b' + 'c', sum); } TEST(ByteStringView, EmptyReverseIterator) { ByteStringView empty; auto iter = empty.rbegin(); EXPECT_TRUE(iter == empty.rend()); EXPECT_FALSE(iter != empty.rend()); EXPECT_FALSE(iter < empty.rend()); } TEST(ByteStringView, OneCharReverseIterator) { ByteStringView one_str("a"); auto iter = one_str.rbegin(); EXPECT_FALSE(iter == one_str.rend()); EXPECT_TRUE(iter != one_str.rend()); EXPECT_TRUE(iter < one_str.rend()); char ch = *iter++; EXPECT_EQ('a', ch); EXPECT_TRUE(iter == one_str.rend()); EXPECT_FALSE(iter != one_str.rend()); EXPECT_FALSE(iter < one_str.rend()); } TEST(ByteStringView, MultiCharReverseIterator) { ByteStringView multi_str("abcd"); auto iter = multi_str.rbegin(); EXPECT_FALSE(iter == multi_str.rend()); char ch = *iter++; EXPECT_EQ('d', ch); EXPECT_EQ('c', *iter); EXPECT_FALSE(iter == multi_str.rend()); ch = *(++iter); EXPECT_EQ('b', ch); EXPECT_EQ('b', *iter); EXPECT_FALSE(iter == multi_str.rend()); ch = *iter++; EXPECT_EQ('b', ch); EXPECT_EQ('a', *iter); EXPECT_FALSE(iter == multi_str.rend()); ch = *iter++; EXPECT_EQ('a', ch); EXPECT_TRUE(iter == multi_str.rend()); ch = *(--iter); EXPECT_EQ('a', ch); EXPECT_EQ('a', *iter); EXPECT_FALSE(iter == multi_str.rend()); ch = *iter--; EXPECT_EQ('a', ch); EXPECT_EQ('b', *iter); EXPECT_FALSE(iter == multi_str.rend()); ch = *iter--; EXPECT_EQ('b', ch); EXPECT_EQ('c', *iter); EXPECT_FALSE(iter == multi_str.rend()); ch = *(--iter); EXPECT_EQ('d', ch); EXPECT_EQ('d', *iter); EXPECT_TRUE(iter == multi_str.rbegin()); } TEST(ByteStringView, AnyAllNoneOf) { ByteStringView str("aaaaaaaaaaaaaaaaab"); EXPECT_FALSE(std::all_of(str.begin(), str.end(), [](const char& c) { return c == 'a'; })); EXPECT_FALSE(std::none_of(str.begin(), str.end(), [](const char& c) { return c == 'a'; })); EXPECT_TRUE(std::any_of(str.begin(), str.end(), [](const char& c) { return c == 'a'; })); EXPECT_TRUE(pdfium::ContainsValue(str, 'a')); EXPECT_TRUE(pdfium::ContainsValue(str, 'b')); EXPECT_FALSE(pdfium::ContainsValue(str, 'z')); } TEST(ByteString, FormatWidth) { EXPECT_EQ(" 1", ByteString::Format("%5d", 1)); EXPECT_EQ("1", ByteString::Format("%d", 1)); EXPECT_EQ(" 1", ByteString::Format("%*d", 5, 1)); EXPECT_EQ("1", ByteString::Format("%-1d", 1)); EXPECT_EQ("1", ByteString::Format("%0d", 1)); } TEST(ByteString, FormatPrecision) { EXPECT_EQ("1.12", ByteString::Format("%.2f", 1.12345)); EXPECT_EQ("1.123", ByteString::Format("%.*f", 3, 1.12345)); EXPECT_EQ("1.123450", ByteString::Format("%f", 1.12345)); EXPECT_EQ("1.123450", ByteString::Format("%-1f", 1.12345)); EXPECT_EQ("1.123450", ByteString::Format("%0f", 1.12345)); } TEST(ByteString, Empty) { ByteString empty_str; EXPECT_TRUE(empty_str.IsEmpty()); EXPECT_EQ(0u, empty_str.GetLength()); const char* cstr = empty_str.c_str(); EXPECT_NE(nullptr, cstr); EXPECT_EQ(0u, strlen(cstr)); const uint8_t* rstr = empty_str.raw_str(); EXPECT_EQ(nullptr, rstr); pdfium::span cspan = empty_str.AsSpan(); EXPECT_TRUE(cspan.empty()); EXPECT_EQ(nullptr, cspan.data()); pdfium::span rspan = empty_str.AsRawSpan(); EXPECT_TRUE(rspan.empty()); EXPECT_EQ(nullptr, rspan.data()); } TEST(ByteString, InitializerList) { ByteString many_str({"clams", " and ", "oysters"}); EXPECT_EQ("clams and oysters", many_str); many_str = {"fish", " and ", "chips", " and ", "soda"}; EXPECT_EQ("fish and chips and soda", many_str); } TEST(ByteString, NullIterator) { ByteString null_str; int32_t sum = 0; bool any_present = false; for (const auto& c : null_str) { sum += c; // Avoid unused arg warnings. any_present = true; } EXPECT_FALSE(any_present); EXPECT_EQ(0, sum); } TEST(ByteString, EmptyIterator) { ByteString empty_str(""); int32_t sum = 0; bool any_present = false; for (const auto& c : empty_str) { any_present = true; sum += c; // Avoid unused arg warnings. } EXPECT_FALSE(any_present); EXPECT_EQ(0, sum); } TEST(ByteString, OneCharIterator) { ByteString one_str("a"); int32_t sum = 0; bool any_present = false; for (const auto& c : one_str) { any_present = true; sum += c; // Avoid unused arg warnings. } EXPECT_TRUE(any_present); EXPECT_EQ('a', sum); } TEST(ByteString, MultiCharIterator) { ByteString one_str("abc"); int32_t sum = 0; bool any_present = false; for (const auto& c : one_str) { any_present = true; sum += c; // Avoid unused arg warnings. } EXPECT_TRUE(any_present); EXPECT_EQ('a' + 'b' + 'c', sum); } TEST(ByteString, StdBegin) { ByteString one_str("abc"); std::vector vec(std::begin(one_str), std::end(one_str)); ASSERT_EQ(3u, vec.size()); EXPECT_EQ('a', vec[0]); EXPECT_EQ('b', vec[1]); EXPECT_EQ('c', vec[2]); } TEST(ByteString, AnyAllNoneOf) { ByteString str("aaaaaaaaaaaaaaaaab"); EXPECT_FALSE(std::all_of(str.begin(), str.end(), [](const char& c) { return c == 'a'; })); EXPECT_FALSE(std::none_of(str.begin(), str.end(), [](const char& c) { return c == 'a'; })); EXPECT_TRUE(std::any_of(str.begin(), str.end(), [](const char& c) { return c == 'a'; })); EXPECT_TRUE(pdfium::ContainsValue(str, 'a')); EXPECT_TRUE(pdfium::ContainsValue(str, 'b')); EXPECT_FALSE(pdfium::ContainsValue(str, 'z')); } TEST(CFX_BytrString, EqualNoCase) { ByteString str("aaa"); EXPECT_TRUE(str.EqualNoCase("aaa")); EXPECT_TRUE(str.EqualNoCase("AAA")); EXPECT_TRUE(str.EqualNoCase("aaA")); EXPECT_TRUE(str.EqualNoCase("Aaa")); EXPECT_FALSE(str.EqualNoCase("aab")); EXPECT_FALSE(str.EqualNoCase("aaaa")); EXPECT_FALSE(str.EqualNoCase("BBBB")); EXPECT_FALSE(str.EqualNoCase("a")); EXPECT_FALSE(str.EqualNoCase("")); } TEST(ByteString, OStreamOverload) { std::ostringstream stream; // Basic case, empty string ByteString str; stream << str; EXPECT_EQ("", stream.str()); // Basic case, non-empty string str = "def"; stream.str(""); stream << "abc" << str << "ghi"; EXPECT_EQ("abcdefghi", stream.str()); // Changing the ByteString does not change the stream it was written to. str = "123"; EXPECT_EQ("abcdefghi", stream.str()); // Writing it again to the stream will use the latest value. stream.str(""); stream << "abc" << str << "ghi"; EXPECT_EQ("abc123ghi", stream.str()); char stringWithNulls[]{'x', 'y', '\0', 'z'}; // Writing a ByteString with nulls and no specified length treats it as // a C-style null-terminated string. str = ByteString(stringWithNulls); EXPECT_EQ(2u, str.GetLength()); stream.str(""); stream << str; EXPECT_EQ(2u, stream.tellp()); // Writing a ByteString with nulls but specifying its length treats it as // a C++-style string. str = ByteString(stringWithNulls, 4); EXPECT_EQ(4u, str.GetLength()); stream.str(""); stream << str; EXPECT_EQ(4u, stream.tellp()); // << operators can be chained. ByteString str1("abc"); ByteString str2("def"); stream.str(""); stream << str1 << str2; EXPECT_EQ("abcdef", stream.str()); } TEST(ByteStringView, OStreamOverload) { // Basic case, empty string { std::ostringstream stream; ByteStringView str; stream << str; EXPECT_EQ("", stream.str()); } // Basic case, non-empty string { std::ostringstream stream; ByteStringView str("def"); stream << "abc" << str << "ghi"; EXPECT_EQ("abcdefghi", stream.str()); } // Changing the ByteStringView does not change the stream it was written to. { std::ostringstream stream; ByteStringView str("abc"); stream << str; str = "123"; EXPECT_EQ("abc", stream.str()); } // Writing it again to the stream will use the latest value. { std::ostringstream stream; ByteStringView str("abc"); stream << str; stream.str(""); str = "123"; stream << str; EXPECT_EQ("123", stream.str()); } // Writing a ByteStringView with nulls and no specified length treats it as // a C-style null-terminated string. { std::ostringstream stream; char stringWithNulls[]{'x', 'y', '\0', 'z'}; ByteStringView str(stringWithNulls); EXPECT_EQ(2u, str.GetLength()); stream << str; EXPECT_EQ(2u, stream.tellp()); str = ""; } // Writing a ByteStringView with nulls but specifying its length treats it as // a C++-style string. { std::ostringstream stream; char stringWithNulls[]{'x', 'y', '\0', 'z'}; ByteStringView str(stringWithNulls, 4); EXPECT_EQ(4u, str.GetLength()); stream << str; EXPECT_EQ(4u, stream.tellp()); str = ""; } // << operators can be chained. { std::ostringstream stream; ByteStringView str1("abc"); ByteStringView str2("def"); stream << str1 << str2; EXPECT_EQ("abcdef", stream.str()); } } TEST(ByteString, FormatInteger) { // Base case of 0. EXPECT_EQ("0", ByteString::FormatInteger(0)); // Positive ordinary number. EXPECT_EQ("123456", ByteString::FormatInteger(123456)); // Negative ordinary number. EXPECT_EQ("-123456", ByteString::FormatInteger(-123456)); // int limits. EXPECT_EQ("2147483647", ByteString::FormatInteger(INT_MAX)); EXPECT_EQ("-2147483648", ByteString::FormatInteger(INT_MIN)); } } // namespace fxcrt