| /third_party/gptfdisk/ |
| D | gpttext.cc | 76 cout << "Found valid MBR and GPT. Which do you want to use?\n"; in UseWhichPartitions()
82 cout << "Using GPT and creating fresh protective MBR.\n"; in UseWhichPartitions()
90 cout << "Found valid MBR and corrupt GPT. Which do you want to use? (Using the\n" in UseWhichPartitions()
99 cout << "Found invalid MBR and corrupt GPT. What do you want to do? (Using the\n" in UseWhichPartitions()
126 cout << "Specified partition doesn't have a disklabel partition type " in XFormDisklabel()
165 cout << "Current partition table size is " << numParts << ".\n"; in ResizePartitionTable()
174 cout << "Caution: The partition table size should officially be 16KB or larger,\n" in ResizePartitionTable()
189 cout << "Currently, main partition table begins at sector " << mainHeader.partitionEntriesLBA in MoveMainTable()
196 cout << "Aborting change!\n"; in MoveMainTable()
225 cout << "partition " << partNum + 1 << " is in use.\n"; in CreatePartition()
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| D | gptpart.cc | 304 cout.fill(' ');
305 cout.width(4);
306 cout << partNum + 1 << " ";
307 cout.width(14);
308 cout << firstLBA << " ";
309 cout.width(14);
310 cout << lastLBA << " ";
311 cout << sizeInIeee << " ";
314 cout << " ";
315 cout.fill('0');
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| D | gpt.cc | 222 cout << "\nProblem: The CRC for the main GPT header is invalid. The main GPT header may\n" in Verify()
229 cout << "\nProblem: The CRC for the main partition table is invalid. This table may be\n" in Verify()
236 cout << "\nProblem: The CRC for the backup GPT header is invalid. The backup GPT header\n" in Verify()
243 cout << "\nCaution: The CRC for the backup partition table is invalid. This table may\n" in Verify()
251 cout << "\nProblem: The main header's self-pointer doesn't point to itself. This problem\n" in Verify()
258 cout << "\nProblem: The secondary header's self-pointer indicates that it doesn't reside\n" in Verify()
267 cout << "\nProblem: main GPT header's current LBA pointer (" << mainHeader.currentLBA in Verify()
273 cout << "\nProblem: main GPT header's backup LBA pointer (" << mainHeader.backupLBA in Verify()
280 cout << "\nProblem: main GPT header's first usable LBA pointer (" << mainHeader.firstUsableLBA in Verify()
286 cout << "\nProblem: main GPT header's last usable LBA pointer (" << mainHeader.lastUsableLBA in Verify()
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| D | attributes.cc | 74 cout << "Attribute value is "; in DisplayAttributes()
75 cout.setf(ios::uppercase); in DisplayAttributes()
76 cout.fill('0'); in DisplayAttributes()
77 cout.width(16); in DisplayAttributes()
78 cout << hex << attributes << dec << ". Set fields are:\n"; in DisplayAttributes()
81 cout << i << " (" << GetAttributeName(i) << ")" << "\n"; in DisplayAttributes()
85 cout.fill(' '); in DisplayAttributes()
87 cout << " No fields set\n"; in DisplayAttributes()
88 cout << "\n"; in DisplayAttributes()
100 cout << partNum+1 << ":" << bitNum << ":" << bitset in ShowAttributes()
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| /third_party/json/doc/examples/ |
| D | basic_json__CompatibleType.cpp | 52 std::cout << j_object_t << '\n'; in main()
53 std::cout << j_map << '\n'; in main()
54 std::cout << j_umap << '\n'; in main()
55 std::cout << j_mmap << '\n'; in main()
56 std::cout << j_ummap << "\n\n"; in main()
108 std::cout << j_array_t << '\n'; in main()
109 std::cout << j_vec << '\n'; in main()
110 std::cout << j_valarray << '\n'; in main()
111 std::cout << j_deque << '\n'; in main()
112 std::cout << j_list << '\n'; in main()
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| D | at_json_pointer.cpp | 17 std::cout << j.at("/number"_json_pointer) << '\n'; in main()
19 std::cout << j.at("/string"_json_pointer) << '\n'; in main()
21 std::cout << j.at("/array"_json_pointer) << '\n'; in main()
23 std::cout << j.at("/array/1"_json_pointer) << '\n'; in main()
30 std::cout << j["string"] << '\n'; in main()
35 std::cout << j["array"] << '\n'; in main()
46 std::cout << e.what() << '\n'; in main()
57 std::cout << e.what() << '\n'; in main()
68 std::cout << e.what() << '\n'; in main()
79 std::cout << e.what() << '\n'; in main()
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| D | is_boolean.cpp | 20 std::cout << std::boolalpha; in main()
21 std::cout << j_null.is_boolean() << '\n'; in main()
22 std::cout << j_boolean.is_boolean() << '\n'; in main()
23 std::cout << j_number_integer.is_boolean() << '\n'; in main()
24 std::cout << j_number_unsigned_integer.is_boolean() << '\n'; in main()
25 std::cout << j_number_float.is_boolean() << '\n'; in main()
26 std::cout << j_object.is_boolean() << '\n'; in main()
27 std::cout << j_array.is_boolean() << '\n'; in main()
28 std::cout << j_string.is_boolean() << '\n'; in main()
29 std::cout << j_binary.is_boolean() << '\n'; in main()
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| D | is_structured.cpp | 20 std::cout << std::boolalpha; in main()
21 std::cout << j_null.is_structured() << '\n'; in main()
22 std::cout << j_boolean.is_structured() << '\n'; in main()
23 std::cout << j_number_integer.is_structured() << '\n'; in main()
24 std::cout << j_number_unsigned_integer.is_structured() << '\n'; in main()
25 std::cout << j_number_float.is_structured() << '\n'; in main()
26 std::cout << j_object.is_structured() << '\n'; in main()
27 std::cout << j_array.is_structured() << '\n'; in main()
28 std::cout << j_string.is_structured() << '\n'; in main()
29 std::cout << j_binary.is_structured() << '\n'; in main()
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| D | is_binary.cpp | 20 std::cout << std::boolalpha; in main()
21 std::cout << j_null.is_binary() << '\n'; in main()
22 std::cout << j_boolean.is_binary() << '\n'; in main()
23 std::cout << j_number_integer.is_binary() << '\n'; in main()
24 std::cout << j_number_unsigned_integer.is_binary() << '\n'; in main()
25 std::cout << j_number_float.is_binary() << '\n'; in main()
26 std::cout << j_object.is_binary() << '\n'; in main()
27 std::cout << j_array.is_binary() << '\n'; in main()
28 std::cout << j_string.is_binary() << '\n'; in main()
29 std::cout << j_binary.is_binary() << '\n'; in main()
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| D | is_number_float.cpp | 20 std::cout << std::boolalpha; in main()
21 std::cout << j_null.is_number_float() << '\n'; in main()
22 std::cout << j_boolean.is_number_float() << '\n'; in main()
23 std::cout << j_number_integer.is_number_float() << '\n'; in main()
24 std::cout << j_number_unsigned_integer.is_number_float() << '\n'; in main()
25 std::cout << j_number_float.is_number_float() << '\n'; in main()
26 std::cout << j_object.is_number_float() << '\n'; in main()
27 std::cout << j_array.is_number_float() << '\n'; in main()
28 std::cout << j_string.is_number_float() << '\n'; in main()
29 std::cout << j_binary.is_number_float() << '\n'; in main()
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| D | is_null.cpp | 20 std::cout << std::boolalpha; in main()
21 std::cout << j_null.is_null() << '\n'; in main()
22 std::cout << j_boolean.is_null() << '\n'; in main()
23 std::cout << j_number_integer.is_null() << '\n'; in main()
24 std::cout << j_number_unsigned_integer.is_null() << '\n'; in main()
25 std::cout << j_number_float.is_null() << '\n'; in main()
26 std::cout << j_object.is_null() << '\n'; in main()
27 std::cout << j_array.is_null() << '\n'; in main()
28 std::cout << j_string.is_null() << '\n'; in main()
29 std::cout << j_binary.is_null() << '\n'; in main()
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| D | is_primitive.cpp | 20 std::cout << std::boolalpha; in main()
21 std::cout << j_null.is_primitive() << '\n'; in main()
22 std::cout << j_boolean.is_primitive() << '\n'; in main()
23 std::cout << j_number_integer.is_primitive() << '\n'; in main()
24 std::cout << j_number_unsigned_integer.is_primitive() << '\n'; in main()
25 std::cout << j_number_float.is_primitive() << '\n'; in main()
26 std::cout << j_object.is_primitive() << '\n'; in main()
27 std::cout << j_array.is_primitive() << '\n'; in main()
28 std::cout << j_string.is_primitive() << '\n'; in main()
29 std::cout << j_binary.is_primitive() << '\n'; in main()
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| D | is_discarded.cpp | 20 std::cout << std::boolalpha; in main()
21 std::cout << j_null.is_discarded() << '\n'; in main()
22 std::cout << j_boolean.is_discarded() << '\n'; in main()
23 std::cout << j_number_integer.is_discarded() << '\n'; in main()
24 std::cout << j_number_unsigned_integer.is_discarded() << '\n'; in main()
25 std::cout << j_number_float.is_discarded() << '\n'; in main()
26 std::cout << j_object.is_discarded() << '\n'; in main()
27 std::cout << j_array.is_discarded() << '\n'; in main()
28 std::cout << j_string.is_discarded() << '\n'; in main()
29 std::cout << j_binary.is_discarded() << '\n'; in main()
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| D | is_number_unsigned.cpp | 20 std::cout << std::boolalpha; in main()
21 std::cout << j_null.is_number_unsigned() << '\n'; in main()
22 std::cout << j_boolean.is_number_unsigned() << '\n'; in main()
23 std::cout << j_number_integer.is_number_unsigned() << '\n'; in main()
24 std::cout << j_number_unsigned_integer.is_number_unsigned() << '\n'; in main()
25 std::cout << j_number_float.is_number_unsigned() << '\n'; in main()
26 std::cout << j_object.is_number_unsigned() << '\n'; in main()
27 std::cout << j_array.is_number_unsigned() << '\n'; in main()
28 std::cout << j_string.is_number_unsigned() << '\n'; in main()
29 std::cout << j_binary.is_number_unsigned() << '\n'; in main()
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| D | is_number.cpp | 20 std::cout << std::boolalpha; in main()
21 std::cout << j_null.is_number() << '\n'; in main()
22 std::cout << j_boolean.is_number() << '\n'; in main()
23 std::cout << j_number_integer.is_number() << '\n'; in main()
24 std::cout << j_number_unsigned_integer.is_number() << '\n'; in main()
25 std::cout << j_number_float.is_number() << '\n'; in main()
26 std::cout << j_object.is_number() << '\n'; in main()
27 std::cout << j_array.is_number() << '\n'; in main()
28 std::cout << j_string.is_number() << '\n'; in main()
29 std::cout << j_binary.is_number() << '\n'; in main()
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| D | is_string.cpp | 20 std::cout << std::boolalpha; in main()
21 std::cout << j_null.is_string() << '\n'; in main()
22 std::cout << j_boolean.is_string() << '\n'; in main()
23 std::cout << j_number_integer.is_string() << '\n'; in main()
24 std::cout << j_number_unsigned_integer.is_string() << '\n'; in main()
25 std::cout << j_number_float.is_string() << '\n'; in main()
26 std::cout << j_object.is_string() << '\n'; in main()
27 std::cout << j_array.is_string() << '\n'; in main()
28 std::cout << j_string.is_string() << '\n'; in main()
29 std::cout << j_binary.is_string() << '\n'; in main()
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| D | is_array.cpp | 20 std::cout << std::boolalpha; in main()
21 std::cout << j_null.is_array() << '\n'; in main()
22 std::cout << j_boolean.is_array() << '\n'; in main()
23 std::cout << j_number_integer.is_array() << '\n'; in main()
24 std::cout << j_number_unsigned_integer.is_array() << '\n'; in main()
25 std::cout << j_number_float.is_array() << '\n'; in main()
26 std::cout << j_object.is_array() << '\n'; in main()
27 std::cout << j_array.is_array() << '\n'; in main()
28 std::cout << j_string.is_array() << '\n'; in main()
29 std::cout << j_binary.is_array() << '\n'; in main()
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| D | is_object.cpp | 20 std::cout << std::boolalpha; in main()
21 std::cout << j_null.is_object() << '\n'; in main()
22 std::cout << j_boolean.is_object() << '\n'; in main()
23 std::cout << j_number_integer.is_object() << '\n'; in main()
24 std::cout << j_number_unsigned_integer.is_object() << '\n'; in main()
25 std::cout << j_number_float.is_object() << '\n'; in main()
26 std::cout << j_object.is_object() << '\n'; in main()
27 std::cout << j_array.is_object() << '\n'; in main()
28 std::cout << j_string.is_object() << '\n'; in main()
29 std::cout << j_binary.is_object() << '\n'; in main()
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| D | is_number_integer.cpp | 20 std::cout << std::boolalpha; in main()
21 std::cout << j_null.is_number_integer() << '\n'; in main()
22 std::cout << j_boolean.is_number_integer() << '\n'; in main()
23 std::cout << j_number_integer.is_number_integer() << '\n'; in main()
24 std::cout << j_number_unsigned_integer.is_number_integer() << '\n'; in main()
25 std::cout << j_number_float.is_number_integer() << '\n'; in main()
26 std::cout << j_object.is_number_integer() << '\n'; in main()
27 std::cout << j_array.is_number_integer() << '\n'; in main()
28 std::cout << j_string.is_number_integer() << '\n'; in main()
29 std::cout << j_binary.is_number_integer() << '\n'; in main()
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| /third_party/icu/tools/unicode/c/genregexcasing/ |
| D | genregexcasing.cpp | 51 … cout << "Got a string for \"" << sstring(UnicodeString(cp)) << "\" [\\u" << hex << cp << "]\n"; in main()
52 cout << " \"" << sstring(str) << "\" ["; in main()
54 cout << hex << "\\u" << str.char32At(j) << " "; in main()
56 cout << "]" << endl; in main()
59 cout << " Set contains first char.\n"; in main()
66 std::cout << "Iterating the map.\n"; in main()
69 std::cout << "key: \"" << sstring(UnicodeString(cp)) << "\" \\u" << cp << " : ["; in main()
71 std::cout << "\"" << sstring(UnicodeString(valCP)) << "\" \\u" << valCP << " "; in main()
73 std::cout << "]\n"; in main()
80 std::cout << "\n\nCopy the lines below into the file i18n/regexcmp.cpp.\n\n"; in main()
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| /third_party/googletest/googletest/test/ |
| D | googletest-env-var-test_.cc | 39 using ::std::cout;
51 cout << GTEST_FLAG(break_on_failure); in PrintFlag()
56 cout << GTEST_FLAG(catch_exceptions); in PrintFlag()
61 cout << GTEST_FLAG(color); in PrintFlag()
66 cout << GTEST_FLAG(death_test_style); in PrintFlag()
71 cout << GTEST_FLAG(death_test_use_fork); in PrintFlag()
76 cout << GTEST_FLAG(fail_fast); in PrintFlag()
81 cout << GTEST_FLAG(filter); in PrintFlag()
86 cout << GTEST_FLAG(output); in PrintFlag()
91 cout << GTEST_FLAG(brief); in PrintFlag()
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| /third_party/skia/third_party/externals/angle2/src/tests/egl_tests/ |
| D | EGLPrintEGLinfoTest.cpp | 78 std::cout << " EGL Information:" << std::endl; in TEST_P()
79 std::cout << "\tVendor: " << GetEGLString(mDisplay, EGL_VENDOR) << std::endl; in TEST_P()
80 std::cout << "\tVersion: " << GetEGLString(mDisplay, EGL_VENDOR) << std::endl; in TEST_P()
81 std::cout << "\tClient APIs: " << GetEGLString(mDisplay, EGL_CLIENT_APIS) << std::endl; in TEST_P()
83 std::cout << "\tEGL Client Extensions:" << std::endl; in TEST_P()
86 std::cout << "\t\t" << extension << std::endl; in TEST_P()
89 std::cout << "\tEGL Display Extensions:" << std::endl; in TEST_P()
92 std::cout << "\t\t" << extension << std::endl; in TEST_P()
95 std::cout << std::endl; in TEST_P()
101 std::cout << " GLES Information:" << std::endl; in TEST_P()
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| /third_party/libabigail/tools/ |
| D | abisym.cc | 23 using std::cout;
117 display_usage(argv[0], cout); in main()
123 abigail::tools_utils::emit_prefix(argv[0], cout) in main()
137 cout << "could not find symbol '" in main()
141 cout << opts.elf_path << "'\n"; in main()
143 cout << basename(opts.elf_path); in main()
148 cout << "found symbol '" << n << "'"; in main()
150 cout << " (" << sym->get_name() << ")"; in main()
151 cout << ", an instance of " in main()
156 cout << ", of version"; in main()
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| /third_party/elfio/examples/tutorial/ |
| D | tutorial.cpp | 31 std::cout << "Usage: tutorial <elf_file>" << std::endl; in main()
40 std::cout << "Can't find or process ELF file " << argv[1] << std::endl; in main()
45 std::cout << "ELF file class : "; in main()
47 std::cout << "ELF32" << std::endl; in main()
49 std::cout << "ELF64" << std::endl; in main()
51 std::cout << "ELF file encoding : "; in main()
53 std::cout << "Little endian" << std::endl; in main()
55 std::cout << "Big endian" << std::endl; in main()
59 std::cout << "Number of sections: " << sec_num << std::endl; in main()
62 std::cout << " [" << i << "] " << psec->get_name() << "\t" in main()
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| /third_party/protobuf/csharp/compatibility_tests/v3.0.0/src/Google.Protobuf.Test/ |
| D | CodedOutputStreamTest.cs | 296 CodedOutputStream cout = new CodedOutputStream(ms, 20); in TestCodedInputOutputPosition()
298 cout.WriteTag(11, WireFormat.WireType.Varint); in TestCodedInputOutputPosition()
299 Assert.AreEqual(1, cout.Position); in TestCodedInputOutputPosition()
300 cout.WriteInt32(500); in TestCodedInputOutputPosition()
301 Assert.AreEqual(3, cout.Position); in TestCodedInputOutputPosition()
303 cout.WriteTag(12, WireFormat.WireType.LengthDelimited); in TestCodedInputOutputPosition()
304 Assert.AreEqual(4, cout.Position); in TestCodedInputOutputPosition()
305 cout.WriteBytes(ByteString.CopyFrom(content)); in TestCodedInputOutputPosition()
306 Assert.AreEqual(115, cout.Position); in TestCodedInputOutputPosition()
308 cout.WriteTag(13, WireFormat.WireType.Fixed32); in TestCodedInputOutputPosition()
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