1 //===-- StreamTest.cpp ----------------------------------------------------===//
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
7 //===----------------------------------------------------------------------===//
9 #include "lldb/Utility/StreamString.h"
10 #include "gtest/gtest.h"
12 using namespace lldb_private
;
15 struct StreamTest
: ::testing::Test
{
16 // Note: Stream is an abstract class, so we use StreamString to test it. To
17 // make it easier to change this later, only methods in this class explicitly
18 // refer to the StringStream class.
20 // We return here a std::string because that way gtest can print better
21 // assertion messages.
22 std::string
TakeValue() {
23 std::string result
= s
.GetString().str();
31 // A StreamTest where we expect the Stream output to be binary.
32 struct BinaryStreamTest
: StreamTest
{
33 void SetUp() override
{
34 s
.GetFlags().Set(Stream::eBinary
);
39 TEST_F(StreamTest
, AddressPrefix
) {
40 DumpAddress(s
.AsRawOstream(), 0x1, 1, "foo");
41 EXPECT_EQ("foo0x01", TakeValue());
44 TEST_F(StreamTest
, AddressEmptyPrefix
) {
45 DumpAddress(s
.AsRawOstream(), 0x1, 1, nullptr);
46 EXPECT_EQ("0x01", TakeValue());
47 DumpAddress(s
.AsRawOstream(), 0x1, 1, "");
48 EXPECT_EQ("0x01", TakeValue());
51 TEST_F(StreamTest
, AddressSuffix
) {
52 DumpAddress(s
.AsRawOstream(), 0x1, 1, nullptr, "foo");
53 EXPECT_EQ("0x01foo", TakeValue());
56 TEST_F(StreamTest
, AddressNoSuffix
) {
57 DumpAddress(s
.AsRawOstream(), 0x1, 1, nullptr, nullptr);
58 EXPECT_EQ("0x01", TakeValue());
59 DumpAddress(s
.AsRawOstream(), 0x1, 1, nullptr, "");
60 EXPECT_EQ("0x01", TakeValue());
63 TEST_F(StreamTest
, AddressPrefixAndSuffix
) {
64 DumpAddress(s
.AsRawOstream(), 0x1, 1, "foo", "bar");
65 EXPECT_EQ("foo0x01bar", TakeValue());
68 TEST_F(StreamTest
, AddressSize
) {
69 DumpAddress(s
.AsRawOstream(), 0x0, 0);
70 EXPECT_EQ("0x0", TakeValue());
71 DumpAddress(s
.AsRawOstream(), 0x1, 0);
72 EXPECT_EQ("0x1", TakeValue());
74 DumpAddress(s
.AsRawOstream(), 0x1, 1);
75 EXPECT_EQ("0x01", TakeValue());
76 DumpAddress(s
.AsRawOstream(), 0xf1, 1);
77 EXPECT_EQ("0xf1", TakeValue());
78 DumpAddress(s
.AsRawOstream(), 0xff, 1);
79 EXPECT_EQ("0xff", TakeValue());
80 DumpAddress(s
.AsRawOstream(), 0x100, 1);
81 EXPECT_EQ("0x100", TakeValue());
83 DumpAddress(s
.AsRawOstream(), 0xf00, 4);
84 EXPECT_EQ("0x00000f00", TakeValue());
85 DumpAddress(s
.AsRawOstream(), 0x100, 8);
86 EXPECT_EQ("0x0000000000000100", TakeValue());
89 TEST_F(StreamTest
, AddressRange
) {
90 DumpAddressRange(s
.AsRawOstream(), 0x100, 0x101, 2);
91 EXPECT_EQ("[0x0100-0x0101)", TakeValue());
94 TEST_F(StreamTest
, AddressRangeEmptyRange
) {
95 DumpAddressRange(s
.AsRawOstream(), 0x100, 0x100, 2);
96 EXPECT_EQ("[0x0100-0x0100)", TakeValue());
97 DumpAddressRange(s
.AsRawOstream(), 0x0, 0x0, 2);
98 EXPECT_EQ("[0x0000-0x0000)", TakeValue());
101 TEST_F(StreamTest
, AddressRangeInvalidRange
) {
102 DumpAddressRange(s
.AsRawOstream(), 0x100, 0x0FF, 2);
103 EXPECT_EQ("[0x0100-0x00ff)", TakeValue());
104 DumpAddressRange(s
.AsRawOstream(), 0x100, 0x0, 2);
105 EXPECT_EQ("[0x0100-0x0000)", TakeValue());
108 TEST_F(StreamTest
, AddressRangeSize
) {
109 DumpAddressRange(s
.AsRawOstream(), 0x100, 0x101, 0);
110 EXPECT_EQ("[0x100-0x101)", TakeValue());
111 DumpAddressRange(s
.AsRawOstream(), 0x100, 0x101, 2);
112 EXPECT_EQ("[0x0100-0x0101)", TakeValue());
113 DumpAddressRange(s
.AsRawOstream(), 0x100, 0x101, 4);
114 EXPECT_EQ("[0x00000100-0x00000101)", TakeValue());
116 DumpAddressRange(s
.AsRawOstream(), 0x100, 0x101, 4);
117 EXPECT_EQ("[0x00000100-0x00000101)", TakeValue());
118 DumpAddressRange(s
.AsRawOstream(), 0x1, 0x101, 4);
119 EXPECT_EQ("[0x00000001-0x00000101)", TakeValue());
120 DumpAddressRange(s
.AsRawOstream(), 0x101, 0x1, 4);
121 EXPECT_EQ("[0x00000101-0x00000001)", TakeValue());
123 DumpAddressRange(s
.AsRawOstream(), 0x1, 0x101, 1);
124 EXPECT_EQ("[0x01-0x101)", TakeValue());
127 TEST_F(StreamTest
, ChangingByteOrder
) {
128 s
.SetByteOrder(lldb::eByteOrderPDP
);
129 EXPECT_EQ(lldb::eByteOrderPDP
, s
.GetByteOrder());
132 TEST_F(StreamTest
, SetIndentLevel
) {
134 EXPECT_EQ("a", TakeValue());
138 EXPECT_EQ(" a", TakeValue());
142 EXPECT_EQ(" a", TakeValue());
146 EXPECT_EQ("a", TakeValue());
149 TEST_F(StreamTest
, Indent
) {
151 const char *nullptr_cstring
= nullptr;
152 s
.Indent(nullptr_cstring
);
153 EXPECT_EQ(" ", TakeValue());
156 EXPECT_EQ(" ", TakeValue());
159 EXPECT_EQ(" ", TakeValue());
162 EXPECT_EQ(" aa", TakeValue());
165 TEST_F(StreamTest
, PutChar
) {
167 EXPECT_EQ(1U, s
.GetWrittenBytes());
168 EXPECT_EQ("a", TakeValue());
171 EXPECT_EQ(1U, s
.GetWrittenBytes());
172 EXPECT_EQ("1", TakeValue());
175 TEST_F(StreamTest
, PutCharWhitespace
) {
177 EXPECT_EQ(1U, s
.GetWrittenBytes());
178 EXPECT_EQ(" ", TakeValue());
181 EXPECT_EQ(1U, s
.GetWrittenBytes());
182 EXPECT_EQ("\n", TakeValue());
185 EXPECT_EQ(1U, s
.GetWrittenBytes());
186 EXPECT_EQ("\r", TakeValue());
189 EXPECT_EQ(1U, s
.GetWrittenBytes());
190 EXPECT_EQ("\t", TakeValue());
193 TEST_F(StreamTest
, PutCString
) {
195 EXPECT_EQ(0U, s
.GetWrittenBytes());
196 EXPECT_EQ("", TakeValue());
198 s
.PutCString("foobar");
199 EXPECT_EQ(6U, s
.GetWrittenBytes());
200 EXPECT_EQ("foobar", TakeValue());
203 EXPECT_EQ(1U, s
.GetWrittenBytes());
204 EXPECT_EQ(" ", TakeValue());
207 TEST_F(StreamTest
, PutCStringWithStringRef
) {
208 s
.PutCString(llvm::StringRef(""));
209 EXPECT_EQ(0U, s
.GetWrittenBytes());
210 EXPECT_EQ("", TakeValue());
212 s
.PutCString(llvm::StringRef("foobar"));
213 EXPECT_EQ(6U, s
.GetWrittenBytes());
214 EXPECT_EQ("foobar", TakeValue());
216 s
.PutCString(llvm::StringRef(" "));
217 EXPECT_EQ(1U, s
.GetWrittenBytes());
218 EXPECT_EQ(" ", TakeValue());
221 TEST_F(StreamTest
, QuotedCString
) {
222 s
.QuotedCString("foo");
223 EXPECT_EQ(5U, s
.GetWrittenBytes());
224 EXPECT_EQ(R
"("foo
")", TakeValue());
226 s
.QuotedCString("ba r");
227 EXPECT_EQ(6U, s
.GetWrittenBytes());
228 EXPECT_EQ(R
"("ba r
")", TakeValue());
230 s
.QuotedCString(" ");
231 EXPECT_EQ(3U, s
.GetWrittenBytes());
232 EXPECT_EQ(R
"(" ")", TakeValue());
235 TEST_F(StreamTest
, PutCharNull
) {
237 EXPECT_EQ(1U, s
.GetWrittenBytes());
238 EXPECT_EQ(std::string("\0", 1), TakeValue());
241 EXPECT_EQ(1U, s
.GetWrittenBytes());
242 EXPECT_EQ(std::string("a", 1), TakeValue());
245 TEST_F(StreamTest
, PutStringAsRawHex8
) {
246 s
.PutStringAsRawHex8("");
247 EXPECT_EQ(0U, s
.GetWrittenBytes());
248 EXPECT_EQ("", TakeValue());
250 s
.PutStringAsRawHex8("foobar");
251 EXPECT_EQ(12U, s
.GetWrittenBytes());
252 EXPECT_EQ("666f6f626172", TakeValue());
254 s
.PutStringAsRawHex8(" ");
255 EXPECT_EQ(2U, s
.GetWrittenBytes());
256 EXPECT_EQ("20", TakeValue());
259 TEST_F(StreamTest
, PutHex8
) {
260 s
.PutHex8((uint8_t)55);
261 EXPECT_EQ(2U, s
.GetWrittenBytes());
262 EXPECT_EQ("37", TakeValue());
264 s
.PutHex8(std::numeric_limits
<uint8_t>::max());
265 EXPECT_EQ(2U, s
.GetWrittenBytes());
266 EXPECT_EQ("ff", TakeValue());
268 s
.PutHex8((uint8_t)0);
269 EXPECT_EQ(2U, s
.GetWrittenBytes());
270 EXPECT_EQ("00", TakeValue());
273 TEST_F(StreamTest
, PutNHex8
) {
274 s
.PutNHex8(0, (uint8_t)55);
275 EXPECT_EQ(0U, s
.GetWrittenBytes());
276 EXPECT_EQ("", TakeValue());
278 s
.PutNHex8(1, (uint8_t)55);
279 EXPECT_EQ(2U, s
.GetWrittenBytes());
280 EXPECT_EQ("37", TakeValue());
282 s
.PutNHex8(2, (uint8_t)55);
283 EXPECT_EQ(4U, s
.GetWrittenBytes());
284 EXPECT_EQ("3737", TakeValue());
286 s
.PutNHex8(1, (uint8_t)56);
287 EXPECT_EQ(2U, s
.GetWrittenBytes());
288 EXPECT_EQ("38", TakeValue());
291 TEST_F(StreamTest
, PutHex16ByteOrderLittle
) {
292 s
.PutHex16(0x1234U
, lldb::eByteOrderLittle
);
293 EXPECT_EQ(4U, s
.GetWrittenBytes());
294 EXPECT_EQ("3412", TakeValue());
296 s
.PutHex16(std::numeric_limits
<uint16_t>::max(), lldb::eByteOrderLittle
);
297 EXPECT_EQ(4U, s
.GetWrittenBytes());
298 EXPECT_EQ("ffff", TakeValue());
300 s
.PutHex16(0U, lldb::eByteOrderLittle
);
301 EXPECT_EQ(4U, s
.GetWrittenBytes());
302 EXPECT_EQ("0000", TakeValue());
305 TEST_F(StreamTest
, PutHex16ByteOrderBig
) {
306 s
.PutHex16(0x1234U
, lldb::eByteOrderBig
);
307 EXPECT_EQ(4U, s
.GetWrittenBytes());
308 EXPECT_EQ("1234", TakeValue());
310 s
.PutHex16(std::numeric_limits
<uint16_t>::max(), lldb::eByteOrderBig
);
311 EXPECT_EQ(4U, s
.GetWrittenBytes());
312 EXPECT_EQ("ffff", TakeValue());
314 s
.PutHex16(0U, lldb::eByteOrderBig
);
315 EXPECT_EQ(4U, s
.GetWrittenBytes());
316 EXPECT_EQ("0000", TakeValue());
319 TEST_F(StreamTest
, PutHex32ByteOrderLittle
) {
320 s
.PutHex32(0x12345678U
, lldb::eByteOrderLittle
);
321 EXPECT_EQ(8U, s
.GetWrittenBytes());
322 EXPECT_EQ("78563412", TakeValue());
324 s
.PutHex32(std::numeric_limits
<uint32_t>::max(), lldb::eByteOrderLittle
);
325 EXPECT_EQ(8U, s
.GetWrittenBytes());
326 EXPECT_EQ("ffffffff", TakeValue());
328 s
.PutHex32(0U, lldb::eByteOrderLittle
);
329 EXPECT_EQ(8U, s
.GetWrittenBytes());
330 EXPECT_EQ("00000000", TakeValue());
333 TEST_F(StreamTest
, PutHex32ByteOrderBig
) {
334 s
.PutHex32(0x12345678U
, lldb::eByteOrderBig
);
335 EXPECT_EQ(8U, s
.GetWrittenBytes());
336 EXPECT_EQ("12345678", TakeValue());
338 s
.PutHex32(std::numeric_limits
<uint32_t>::max(), lldb::eByteOrderBig
);
339 EXPECT_EQ(8U, s
.GetWrittenBytes());
340 EXPECT_EQ("ffffffff", TakeValue());
342 s
.PutHex32(0U, lldb::eByteOrderBig
);
343 EXPECT_EQ(8U, s
.GetWrittenBytes());
344 EXPECT_EQ("00000000", TakeValue());
347 TEST_F(StreamTest
, PutHex64ByteOrderLittle
) {
348 s
.PutHex64(0x1234567890ABCDEFU
, lldb::eByteOrderLittle
);
349 EXPECT_EQ(16U, s
.GetWrittenBytes());
350 EXPECT_EQ("efcdab9078563412", TakeValue());
352 s
.PutHex64(std::numeric_limits
<uint64_t>::max(), lldb::eByteOrderLittle
);
353 EXPECT_EQ(16U, s
.GetWrittenBytes());
354 EXPECT_EQ("ffffffffffffffff", TakeValue());
356 s
.PutHex64(0U, lldb::eByteOrderLittle
);
357 EXPECT_EQ(16U, s
.GetWrittenBytes());
358 EXPECT_EQ("0000000000000000", TakeValue());
361 TEST_F(StreamTest
, PutHex64ByteOrderBig
) {
362 s
.PutHex64(0x1234567890ABCDEFU
, lldb::eByteOrderBig
);
363 EXPECT_EQ(16U, s
.GetWrittenBytes());
364 EXPECT_EQ("1234567890abcdef", TakeValue());
366 s
.PutHex64(std::numeric_limits
<uint64_t>::max(), lldb::eByteOrderBig
);
367 EXPECT_EQ(16U, s
.GetWrittenBytes());
368 EXPECT_EQ("ffffffffffffffff", TakeValue());
370 s
.PutHex64(0U, lldb::eByteOrderBig
);
371 EXPECT_EQ(16U, s
.GetWrittenBytes());
372 EXPECT_EQ("0000000000000000", TakeValue());
375 TEST_F(StreamTest
, PutMaxHex64ByteOrderBig
) {
377 bytes
= s
.PutMaxHex64(0x12U
, 1, lldb::eByteOrderBig
);
378 EXPECT_EQ(2U, bytes
);
379 bytes
= s
.PutMaxHex64(0x1234U
, 2, lldb::eByteOrderBig
);
380 EXPECT_EQ(4U, bytes
);
381 bytes
= s
.PutMaxHex64(0x12345678U
, 4, lldb::eByteOrderBig
);
382 EXPECT_EQ(8U, bytes
);
383 bytes
= s
.PutMaxHex64(0x1234567890ABCDEFU
, 8, lldb::eByteOrderBig
);
384 EXPECT_EQ(16U, bytes
);
385 EXPECT_EQ(30U, s
.GetWrittenBytes());
386 EXPECT_EQ("121234123456781234567890abcdef", TakeValue());
389 TEST_F(StreamTest
, PutMaxHex64ByteOrderLittle
) {
391 bytes
= s
.PutMaxHex64(0x12U
, 1, lldb::eByteOrderLittle
);
392 EXPECT_EQ(2U, bytes
);
393 bytes
= s
.PutMaxHex64(0x1234U
, 2, lldb::eByteOrderLittle
);
394 EXPECT_EQ(4U, bytes
);
395 bytes
= s
.PutMaxHex64(0x12345678U
, 4, lldb::eByteOrderLittle
);
396 EXPECT_EQ(8U, bytes
);
397 bytes
= s
.PutMaxHex64(0x1234567890ABCDEFU
, 8, lldb::eByteOrderLittle
);
398 EXPECT_EQ(16U, bytes
);
399 EXPECT_EQ(30U, s
.GetWrittenBytes());
400 EXPECT_EQ("12341278563412efcdab9078563412", TakeValue());
403 // Shift operator tests.
405 TEST_F(StreamTest
, ShiftOperatorChars
) {
407 EXPECT_EQ(2U, s
.GetWrittenBytes());
408 EXPECT_EQ("ab", TakeValue());
411 TEST_F(StreamTest
, ShiftOperatorStrings
) {
413 EXPECT_EQ(8U, s
.GetWrittenBytes());
414 s
<< llvm::StringRef("llvm::StringRef\n");
415 EXPECT_EQ(24U, s
.GetWrittenBytes());
416 EXPECT_EQ("cstring\nllvm::StringRef\n", TakeValue());
419 TEST_F(StreamTest
, ShiftOperatorPtr
) {
420 // This test is a bit tricky because pretty much everything related to
421 // pointer printing seems to lead to UB or IB. So let's make the most basic
422 // test that just checks that we print *something*. This way we at least know
423 // that pointer printing doesn't do really bad things (e.g. crashing, reading
424 // OOB/uninitialized memory which the sanitizers would spot).
426 // Shift our own pointer to the output.
431 EXPECT_NE(0U, s
.GetWrittenBytes());
432 EXPECT_TRUE(!TakeValue().empty());
435 TEST_F(StreamTest
, PutPtr
) {
436 // See the ShiftOperatorPtr test for the rationale.
441 EXPECT_NE(0U, s
.GetWrittenBytes());
442 EXPECT_TRUE(!TakeValue().empty());
445 // Alias to make it more clear that 'invalid' means for the Stream interface
446 // that it should use the host byte order.
447 const static auto hostByteOrder
= lldb::eByteOrderInvalid
;
449 // PutRawBytes/PutBytesAsRawHex tests.
451 TEST_F(StreamTest
, PutBytesAsRawHex8ToBigEndian
) {
452 uint32_t value
= 0x12345678;
453 s
.PutBytesAsRawHex8(static_cast<void*>(&value
), sizeof(value
),
454 hostByteOrder
, lldb::eByteOrderBig
);
455 EXPECT_EQ(8U, s
.GetWrittenBytes());
456 EXPECT_EQ("78563412", TakeValue());
459 TEST_F(StreamTest
, PutRawBytesToBigEndian
) {
460 uint32_t value
= 0x12345678;
461 s
.PutRawBytes(static_cast<void*>(&value
), sizeof(value
),
462 hostByteOrder
, lldb::eByteOrderBig
);
463 EXPECT_EQ(4U, s
.GetWrittenBytes());
464 EXPECT_EQ("\x78\x56\x34\x12", TakeValue());
467 TEST_F(StreamTest
, PutBytesAsRawHex8ToLittleEndian
) {
468 uint32_t value
= 0x12345678;
469 s
.PutBytesAsRawHex8(static_cast<void*>(&value
), sizeof(value
),
470 hostByteOrder
, lldb::eByteOrderLittle
);
471 EXPECT_EQ(8U, s
.GetWrittenBytes());
472 EXPECT_EQ("12345678", TakeValue());
475 TEST_F(StreamTest
, PutRawBytesToLittleEndian
) {
476 uint32_t value
= 0x12345678;
477 s
.PutRawBytes(static_cast<void*>(&value
), sizeof(value
),
478 hostByteOrder
, lldb::eByteOrderLittle
);
479 EXPECT_EQ(4U, s
.GetWrittenBytes());
480 EXPECT_EQ("\x12\x34\x56\x78", TakeValue());
483 TEST_F(StreamTest
, PutBytesAsRawHex8ToMixedEndian
) {
484 uint32_t value
= 0x12345678;
485 s
.PutBytesAsRawHex8(static_cast<void*>(&value
), sizeof(value
),
486 hostByteOrder
, lldb::eByteOrderPDP
);
488 // FIXME: PDP byte order is not actually implemented but Stream just silently
489 // prints the value in some random byte order...
491 EXPECT_EQ("34127856", TakeValue());
495 TEST_F(StreamTest
, PutRawBytesToMixedEndian
) {
496 uint32_t value
= 0x12345678;
497 s
.PutRawBytes(static_cast<void*>(&value
), sizeof(value
),
498 lldb::eByteOrderInvalid
, lldb::eByteOrderPDP
);
500 // FIXME: PDP byte order is not actually implemented but Stream just silently
501 // prints the value in some random byte order...
503 EXPECT_EQ("\x34\x12\x78\x56", TakeValue());
507 TEST_F(StreamTest
, PutRawBytesZeroLenght
) {
508 uint32_t value
= 0x12345678;
510 s
.PutRawBytes(static_cast<void *>(&value
), 0, hostByteOrder
,
511 lldb::eByteOrderLittle
);
512 EXPECT_EQ(0U, s
.GetWrittenBytes());
514 s
.PutRawBytes(static_cast<void *>(&value
), 0, hostByteOrder
,
515 lldb::eByteOrderBig
);
516 EXPECT_EQ(0U, s
.GetWrittenBytes());
519 TEST_F(StreamTest
, PutBytesAsRawHex8ZeroLenght
) {
520 uint32_t value
= 0x12345678;
522 s
.PutBytesAsRawHex8(static_cast<void *>(&value
), 0, hostByteOrder
,
523 lldb::eByteOrderLittle
);
524 EXPECT_EQ(0U, s
.GetWrittenBytes());
526 s
.PutBytesAsRawHex8(static_cast<void *>(&value
), 0, hostByteOrder
,
527 lldb::eByteOrderBig
);
528 EXPECT_EQ(0U, s
.GetWrittenBytes());
531 // ULEB128 support for binary streams.
533 TEST_F(BinaryStreamTest
, PutULEB128OneByte
) {
534 auto bytes
= s
.PutULEB128(0x74ULL
);
535 EXPECT_EQ(1U, s
.GetWrittenBytes());
536 EXPECT_EQ("\x74", TakeValue());
537 EXPECT_EQ(1U, bytes
);
540 TEST_F(BinaryStreamTest
, PutULEB128TwoBytes
) {
541 auto bytes
= s
.PutULEB128(0x1985ULL
);
542 EXPECT_EQ(2U, s
.GetWrittenBytes());
543 EXPECT_EQ("\x85\x33", TakeValue());
544 EXPECT_EQ(2U, bytes
);
547 TEST_F(BinaryStreamTest
, PutULEB128ThreeBytes
) {
548 auto bytes
= s
.PutULEB128(0x5023ULL
);
549 EXPECT_EQ(3U, s
.GetWrittenBytes());
550 EXPECT_EQ("\xA3\xA0\x1", TakeValue());
551 EXPECT_EQ(3U, bytes
);
554 TEST_F(BinaryStreamTest
, PutULEB128FourBytes
) {
555 auto bytes
= s
.PutULEB128(0xA48032ULL
);
556 EXPECT_EQ(4U, s
.GetWrittenBytes());
557 EXPECT_EQ("\xB2\x80\x92\x5", TakeValue());
558 EXPECT_EQ(4U, bytes
);
561 TEST_F(BinaryStreamTest
, PutULEB128FiveBytes
) {
562 auto bytes
= s
.PutULEB128(0x12345678ULL
);
563 EXPECT_EQ(5U, s
.GetWrittenBytes());
564 EXPECT_EQ("\xF8\xAC\xD1\x91\x1", TakeValue());
565 EXPECT_EQ(5U, bytes
);
568 TEST_F(BinaryStreamTest
, PutULEB128SixBytes
) {
569 auto bytes
= s
.PutULEB128(0xABFE3FAFDFULL
);
570 EXPECT_EQ(6U, s
.GetWrittenBytes());
571 EXPECT_EQ("\xDF\xDF\xFE\xF1\xBF\x15", TakeValue());
572 EXPECT_EQ(6U, bytes
);
575 TEST_F(BinaryStreamTest
, PutULEB128SevenBytes
) {
576 auto bytes
= s
.PutULEB128(0xDABFE3FAFDFULL
);
577 EXPECT_EQ(7U, s
.GetWrittenBytes());
578 EXPECT_EQ("\xDF\xDF\xFE\xF1\xBF\xB5\x3", TakeValue());
579 EXPECT_EQ(7U, bytes
);
582 TEST_F(BinaryStreamTest
, PutULEB128EightBytes
) {
583 auto bytes
= s
.PutULEB128(0x7CDABFE3FAFDFULL
);
584 EXPECT_EQ(8U, s
.GetWrittenBytes());
585 EXPECT_EQ("\xDF\xDF\xFE\xF1\xBF\xB5\xF3\x3", TakeValue());
586 EXPECT_EQ(8U, bytes
);
589 TEST_F(BinaryStreamTest
, PutULEB128NineBytes
) {
590 auto bytes
= s
.PutULEB128(0x327CDABFE3FAFDFULL
);
591 EXPECT_EQ(9U, s
.GetWrittenBytes());
592 EXPECT_EQ("\xDF\xDF\xFE\xF1\xBF\xB5\xF3\x93\x3", TakeValue());
593 EXPECT_EQ(9U, bytes
);
596 TEST_F(BinaryStreamTest
, PutULEB128MaxValue
) {
597 auto bytes
= s
.PutULEB128(std::numeric_limits
<uint64_t>::max());
598 EXPECT_EQ(10U, s
.GetWrittenBytes());
599 EXPECT_EQ("\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\x1", TakeValue());
600 EXPECT_EQ(10U, bytes
);
603 TEST_F(BinaryStreamTest
, PutULEB128Zero
) {
604 auto bytes
= s
.PutULEB128(0x0U
);
605 EXPECT_EQ(1U, s
.GetWrittenBytes());
606 EXPECT_EQ(std::string("\0", 1), TakeValue());
607 EXPECT_EQ(1U, bytes
);
610 TEST_F(BinaryStreamTest
, PutULEB128One
) {
611 auto bytes
= s
.PutULEB128(0x1U
);
612 EXPECT_EQ(1U, s
.GetWrittenBytes());
613 EXPECT_EQ("\x1", TakeValue());
614 EXPECT_EQ(1U, bytes
);
617 // SLEB128 support for binary streams.
619 TEST_F(BinaryStreamTest
, PutSLEB128OneByte
) {
620 auto bytes
= s
.PutSLEB128(0x74LL
);
621 EXPECT_EQ(2U, s
.GetWrittenBytes());
622 EXPECT_EQ(std::string("\xF4\0", 2), TakeValue());
623 EXPECT_EQ(2U, bytes
);
626 TEST_F(BinaryStreamTest
, PutSLEB128TwoBytes
) {
627 auto bytes
= s
.PutSLEB128(0x1985LL
);
628 EXPECT_EQ(2U, s
.GetWrittenBytes());
629 EXPECT_EQ("\x85\x33", TakeValue());
630 EXPECT_EQ(2U, bytes
);
633 TEST_F(BinaryStreamTest
, PutSLEB128ThreeBytes
) {
634 auto bytes
= s
.PutSLEB128(0x5023LL
);
635 EXPECT_EQ(3U, s
.GetWrittenBytes());
636 EXPECT_EQ("\xA3\xA0\x1", TakeValue());
637 EXPECT_EQ(3U, bytes
);
640 TEST_F(BinaryStreamTest
, PutSLEB128FourBytes
) {
641 auto bytes
= s
.PutSLEB128(0xA48032LL
);
642 EXPECT_EQ(4U, s
.GetWrittenBytes());
643 EXPECT_EQ("\xB2\x80\x92\x5", TakeValue());
644 EXPECT_EQ(4U, bytes
);
647 TEST_F(BinaryStreamTest
, PutSLEB128FiveBytes
) {
648 auto bytes
= s
.PutSLEB128(0x12345678LL
);
649 EXPECT_EQ(5U, s
.GetWrittenBytes());
650 EXPECT_EQ("\xF8\xAC\xD1\x91\x1", TakeValue());
651 EXPECT_EQ(5U, bytes
);
654 TEST_F(BinaryStreamTest
, PutSLEB128SixBytes
) {
655 auto bytes
= s
.PutSLEB128(0xABFE3FAFDFLL
);
656 EXPECT_EQ(6U, s
.GetWrittenBytes());
657 EXPECT_EQ("\xDF\xDF\xFE\xF1\xBF\x15", TakeValue());
658 EXPECT_EQ(6U, bytes
);
661 TEST_F(BinaryStreamTest
, PutSLEB128SevenBytes
) {
662 auto bytes
= s
.PutSLEB128(0xDABFE3FAFDFLL
);
663 EXPECT_EQ(7U, s
.GetWrittenBytes());
664 EXPECT_EQ("\xDF\xDF\xFE\xF1\xBF\xB5\x3", TakeValue());
665 EXPECT_EQ(7U, bytes
);
668 TEST_F(BinaryStreamTest
, PutSLEB128EightBytes
) {
669 auto bytes
= s
.PutSLEB128(0x7CDABFE3FAFDFLL
);
670 EXPECT_EQ(8U, s
.GetWrittenBytes());
671 EXPECT_EQ("\xDF\xDF\xFE\xF1\xBF\xB5\xF3\x3", TakeValue());
672 EXPECT_EQ(8U, bytes
);
675 TEST_F(BinaryStreamTest
, PutSLEB128NineBytes
) {
676 auto bytes
= s
.PutSLEB128(0x327CDABFE3FAFDFLL
);
677 EXPECT_EQ(9U, s
.GetWrittenBytes());
678 EXPECT_EQ("\xDF\xDF\xFE\xF1\xBF\xB5\xF3\x93\x3", TakeValue());
679 EXPECT_EQ(9U, bytes
);
682 TEST_F(BinaryStreamTest
, PutSLEB128MaxValue
) {
683 auto bytes
= s
.PutSLEB128(std::numeric_limits
<int64_t>::max());
684 EXPECT_EQ(10U, s
.GetWrittenBytes());
685 EXPECT_EQ(std::string("\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\0", 10), TakeValue());
686 EXPECT_EQ(10U, bytes
);
689 TEST_F(BinaryStreamTest
, PutSLEB128Zero
) {
690 auto bytes
= s
.PutSLEB128(0x0);
691 EXPECT_EQ(1U, s
.GetWrittenBytes());
692 EXPECT_EQ(std::string("\0", 1), TakeValue());
693 EXPECT_EQ(1U, bytes
);
696 TEST_F(BinaryStreamTest
, PutSLEB128One
) {
697 auto bytes
= s
.PutSLEB128(0x1);
698 EXPECT_EQ(1U, s
.GetWrittenBytes());
699 EXPECT_EQ(std::string("\x1", 1), TakeValue());
700 EXPECT_EQ(1U, bytes
);
703 // SLEB128/ULEB128 support for non-binary streams.
705 // The logic for this is very simple, so it should be enough to test some basic
708 TEST_F(StreamTest
, PutULEB128
) {
709 auto bytes
= s
.PutULEB128(0x74ULL
);
710 EXPECT_EQ(4U, s
.GetWrittenBytes());
711 EXPECT_EQ("0x74", TakeValue());
712 EXPECT_EQ(4U, bytes
);
715 TEST_F(StreamTest
, PutSLEB128
) {
716 auto bytes
= s
.PutSLEB128(0x1985LL
);
717 EXPECT_EQ(6U, s
.GetWrittenBytes());
718 EXPECT_EQ("0x6533", TakeValue());
719 EXPECT_EQ(6U, bytes
);
