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llvm/unittests/Support/FormatVariadicTest.cpp
Benoit Belley 6952476061 [Support] PR33388 - Fix formatv_object move constructor 
formatv_object currently uses the implicitly defined move constructor,
but it is buggy. In typical use-cases, the problem doesn't show-up
because all calls to the move constructor are elided. Thus, the buggy
constructors are never invoked.

The issue especially shows-up when code is compiled using the
-fno-elide-constructors compiler flag. For instance, this is useful when
attempting to collect accurate code coverage statistics.

The exact issue is the following:

The Parameters data member is correctly moved, thus making the
parameters occupy a new memory location in the target
object. Unfortunately, the default copying of the Adapters blindly
copies the vector of pointers, leaving each of these pointers
referencing the parameters in the original object instead of the copied
one. These pointers quickly become dangling when the original object is
deleted. This quickly leads to crashes.

The solution is to update the Adapters pointers when performing a move.
The copy constructor isn't useful for format objects and can thus be
deleted.

This resolves PR33388.

Differential Revision: https://reviews.llvm.org/D34463

git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@310475 91177308-0d34-0410-b5e6-96231b3b80d8
2017-08-09 13:47:01 +00:00

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//===- FormatVariadicTest.cpp - Unit tests for string formatting ----------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "llvm/Support/FormatVariadic.h"
#include "llvm/Support/FormatAdapters.h"
#include "gtest/gtest.h"
using namespace llvm;
// Compile-time tests templates in the detail namespace.
namespace {
struct Format : public FormatAdapter<int> {
Format(int N) : FormatAdapter<int>(std::move(N)) {}
void format(raw_ostream &OS, StringRef Opt) override { OS << "Format"; }
};
using detail::uses_format_member;
using detail::uses_missing_provider;
static_assert(uses_format_member<Format>::value, "");
static_assert(uses_format_member<Format &>::value, "");
static_assert(uses_format_member<Format &&>::value, "");
static_assert(uses_format_member<const Format>::value, "");
static_assert(uses_format_member<const Format &>::value, "");
static_assert(uses_format_member<const volatile Format>::value, "");
static_assert(uses_format_member<const volatile Format &>::value, "");
struct NoFormat {};
static_assert(uses_missing_provider<NoFormat>::value, "");
}
TEST(FormatVariadicTest, EmptyFormatString) {
auto Replacements = formatv_object_base::parseFormatString("");
EXPECT_EQ(0U, Replacements.size());
}
TEST(FormatVariadicTest, NoReplacements) {
const StringRef kFormatString = "This is a test";
auto Replacements = formatv_object_base::parseFormatString(kFormatString);
ASSERT_EQ(1U, Replacements.size());
EXPECT_EQ(kFormatString, Replacements[0].Spec);
EXPECT_EQ(ReplacementType::Literal, Replacements[0].Type);
}
TEST(FormatVariadicTest, EscapedBrace) {
// {{ should be replaced with {
auto Replacements = formatv_object_base::parseFormatString("{{");
ASSERT_EQ(1u, Replacements.size());
EXPECT_EQ("{", Replacements[0].Spec);
EXPECT_EQ(ReplacementType::Literal, Replacements[0].Type);
// An even number N of braces should be replaced with N/2 braces.
Replacements = formatv_object_base::parseFormatString("{{{{{{");
ASSERT_EQ(1u, Replacements.size());
EXPECT_EQ("{{{", Replacements[0].Spec);
EXPECT_EQ(ReplacementType::Literal, Replacements[0].Type);
}
TEST(FormatVariadicTest, ValidReplacementSequence) {
// 1. Simple replacement - parameter index only
auto Replacements = formatv_object_base::parseFormatString("{0}");
ASSERT_EQ(1u, Replacements.size());
EXPECT_EQ(ReplacementType::Format, Replacements[0].Type);
EXPECT_EQ(0u, Replacements[0].Index);
EXPECT_EQ(0u, Replacements[0].Align);
EXPECT_EQ("", Replacements[0].Options);
Replacements = formatv_object_base::parseFormatString("{1}");
ASSERT_EQ(1u, Replacements.size());
EXPECT_EQ(ReplacementType::Format, Replacements[0].Type);
EXPECT_EQ(1u, Replacements[0].Index);
EXPECT_EQ(0u, Replacements[0].Align);
EXPECT_EQ(AlignStyle::Right, Replacements[0].Where);
EXPECT_EQ("", Replacements[0].Options);
// 2. Parameter index with right alignment
Replacements = formatv_object_base::parseFormatString("{0,3}");
ASSERT_EQ(1u, Replacements.size());
EXPECT_EQ(ReplacementType::Format, Replacements[0].Type);
EXPECT_EQ(0u, Replacements[0].Index);
EXPECT_EQ(3u, Replacements[0].Align);
EXPECT_EQ(AlignStyle::Right, Replacements[0].Where);
EXPECT_EQ("", Replacements[0].Options);
// 3. And left alignment
Replacements = formatv_object_base::parseFormatString("{0,-3}");
ASSERT_EQ(1u, Replacements.size());
EXPECT_EQ(ReplacementType::Format, Replacements[0].Type);
EXPECT_EQ(0u, Replacements[0].Index);
EXPECT_EQ(3u, Replacements[0].Align);
EXPECT_EQ(AlignStyle::Left, Replacements[0].Where);
EXPECT_EQ("", Replacements[0].Options);
// 4. And center alignment
Replacements = formatv_object_base::parseFormatString("{0,=3}");
ASSERT_EQ(1u, Replacements.size());
EXPECT_EQ(ReplacementType::Format, Replacements[0].Type);
EXPECT_EQ(0u, Replacements[0].Index);
EXPECT_EQ(3u, Replacements[0].Align);
EXPECT_EQ(AlignStyle::Center, Replacements[0].Where);
EXPECT_EQ("", Replacements[0].Options);
// 4. Parameter index with option string
Replacements = formatv_object_base::parseFormatString("{0:foo}");
ASSERT_EQ(1u, Replacements.size());
EXPECT_EQ(ReplacementType::Format, Replacements[0].Type);
EXPECT_EQ(0u, Replacements[0].Index);
EXPECT_EQ(0u, Replacements[0].Align);
EXPECT_EQ(AlignStyle::Right, Replacements[0].Where);
EXPECT_EQ("foo", Replacements[0].Options);
// 5. Parameter index with alignment before option string
Replacements = formatv_object_base::parseFormatString("{0,-3:foo}");
ASSERT_EQ(1u, Replacements.size());
EXPECT_EQ(ReplacementType::Format, Replacements[0].Type);
EXPECT_EQ(0u, Replacements[0].Index);
EXPECT_EQ(3u, Replacements[0].Align);
EXPECT_EQ(AlignStyle::Left, Replacements[0].Where);
EXPECT_EQ("foo", Replacements[0].Options);
// 7. Parameter indices, options, and alignment can all have whitespace.
Replacements = formatv_object_base::parseFormatString("{ 0, -3 : foo }");
ASSERT_EQ(1u, Replacements.size());
EXPECT_EQ(ReplacementType::Format, Replacements[0].Type);
EXPECT_EQ(0u, Replacements[0].Index);
EXPECT_EQ(3u, Replacements[0].Align);
EXPECT_EQ(AlignStyle::Left, Replacements[0].Where);
EXPECT_EQ("foo", Replacements[0].Options);
// 8. Everything after the first option specifier is part of the style, even
// if it contains another option specifier.
Replacements = formatv_object_base::parseFormatString("{0:0:1}");
ASSERT_EQ(1u, Replacements.size());
EXPECT_EQ("0:0:1", Replacements[0].Spec);
EXPECT_EQ(ReplacementType::Format, Replacements[0].Type);
EXPECT_EQ(0u, Replacements[0].Index);
EXPECT_EQ(0u, Replacements[0].Align);
EXPECT_EQ(AlignStyle::Right, Replacements[0].Where);
EXPECT_EQ("0:1", Replacements[0].Options);
}
TEST(FormatVariadicTest, DefaultReplacementValues) {
// 2. If options string is missing, it defaults to empty.
auto Replacements = formatv_object_base::parseFormatString("{0,3}");
ASSERT_EQ(1u, Replacements.size());
EXPECT_EQ(ReplacementType::Format, Replacements[0].Type);
EXPECT_EQ(0u, Replacements[0].Index);
EXPECT_EQ(3u, Replacements[0].Align);
EXPECT_EQ("", Replacements[0].Options);
// Including if the colon is present but contains no text.
Replacements = formatv_object_base::parseFormatString("{0,3:}");
ASSERT_EQ(1u, Replacements.size());
EXPECT_EQ(ReplacementType::Format, Replacements[0].Type);
EXPECT_EQ(0u, Replacements[0].Index);
EXPECT_EQ(3u, Replacements[0].Align);
EXPECT_EQ("", Replacements[0].Options);
// 3. If alignment is missing, it defaults to 0, right, space
Replacements = formatv_object_base::parseFormatString("{0:foo}");
ASSERT_EQ(1u, Replacements.size());
EXPECT_EQ(ReplacementType::Format, Replacements[0].Type);
EXPECT_EQ(AlignStyle::Right, Replacements[0].Where);
EXPECT_EQ(' ', Replacements[0].Pad);
EXPECT_EQ(0u, Replacements[0].Index);
EXPECT_EQ(0u, Replacements[0].Align);
EXPECT_EQ("foo", Replacements[0].Options);
}
TEST(FormatVariadicTest, MultipleReplacements) {
auto Replacements =
formatv_object_base::parseFormatString("{0} {1:foo}-{2,-3:bar}");
ASSERT_EQ(5u, Replacements.size());
// {0}
EXPECT_EQ(ReplacementType::Format, Replacements[0].Type);
EXPECT_EQ(0u, Replacements[0].Index);
EXPECT_EQ(0u, Replacements[0].Align);
EXPECT_EQ(AlignStyle::Right, Replacements[0].Where);
EXPECT_EQ("", Replacements[0].Options);
// " "
EXPECT_EQ(ReplacementType::Literal, Replacements[1].Type);
EXPECT_EQ(" ", Replacements[1].Spec);
// {1:foo} - Options=foo
EXPECT_EQ(ReplacementType::Format, Replacements[2].Type);
EXPECT_EQ(1u, Replacements[2].Index);
EXPECT_EQ(0u, Replacements[2].Align);
EXPECT_EQ(AlignStyle::Right, Replacements[2].Where);
EXPECT_EQ("foo", Replacements[2].Options);
// "-"
EXPECT_EQ(ReplacementType::Literal, Replacements[3].Type);
EXPECT_EQ("-", Replacements[3].Spec);
// {2:bar,-3} - Options=bar, Align=-3
EXPECT_EQ(ReplacementType::Format, Replacements[4].Type);
EXPECT_EQ(2u, Replacements[4].Index);
EXPECT_EQ(3u, Replacements[4].Align);
EXPECT_EQ(AlignStyle::Left, Replacements[4].Where);
EXPECT_EQ("bar", Replacements[4].Options);
}
TEST(FormatVariadicTest, FormatNoReplacements) {
EXPECT_EQ("", formatv("").str());
EXPECT_EQ("Test", formatv("Test").str());
}
TEST(FormatVariadicTest, FormatBasicTypesOneReplacement) {
EXPECT_EQ("1", formatv("{0}", 1).str());
EXPECT_EQ("c", formatv("{0}", 'c').str());
EXPECT_EQ("-3", formatv("{0}", -3).str());
EXPECT_EQ("Test", formatv("{0}", "Test").str());
EXPECT_EQ("Test2", formatv("{0}", StringRef("Test2")).str());
EXPECT_EQ("Test3", formatv("{0}", std::string("Test3")).str());
}
TEST(FormatVariadicTest, IntegralHexFormatting) {
// 1. Trivial cases. Make sure hex is not the default.
EXPECT_EQ("0", formatv("{0}", 0).str());
EXPECT_EQ("2748", formatv("{0}", 0xABC).str());
EXPECT_EQ("-2748", formatv("{0}", -0xABC).str());
// 3. various hex prefixes.
EXPECT_EQ("0xFF", formatv("{0:X}", 255).str());
EXPECT_EQ("0xFF", formatv("{0:X+}", 255).str());
EXPECT_EQ("0xff", formatv("{0:x}", 255).str());
EXPECT_EQ("0xff", formatv("{0:x+}", 255).str());
EXPECT_EQ("FF", formatv("{0:X-}", 255).str());
EXPECT_EQ("ff", formatv("{0:x-}", 255).str());
// 5. Precision pads left of the most significant digit but right of the
// prefix (if one exists).
EXPECT_EQ("0xFF", formatv("{0:X2}", 255).str());
EXPECT_EQ("0xFF", formatv("{0:X+2}", 255).str());
EXPECT_EQ("0x0ff", formatv("{0:x3}", 255).str());
EXPECT_EQ("0x0ff", formatv("{0:x+3}", 255).str());
EXPECT_EQ("00FF", formatv("{0:X-4}", 255).str());
EXPECT_EQ("00ff", formatv("{0:x-4}", 255).str());
// 6. Try some larger types.
EXPECT_EQ("0xDEADBEEFDEADBEEF",
formatv("{0:X16}", -2401053088876216593LL).str());
EXPECT_EQ("0xFEEBDAEDFEEBDAED",
formatv("{0:X16}", 0xFEEBDAEDFEEBDAEDULL).str());
EXPECT_EQ("0x00000000DEADBEEF", formatv("{0:X16}", 0xDEADBEEF).str());
// 7. Padding should take into account the prefix
EXPECT_EQ("0xff", formatv("{0,4:x}", 255).str());
EXPECT_EQ(" 0xff", formatv("{0,5:x+}", 255).str());
EXPECT_EQ(" FF", formatv("{0,4:X-}", 255).str());
EXPECT_EQ(" ff", formatv("{0,5:x-}", 255).str());
// 8. Including when it's been zero-padded
EXPECT_EQ(" 0x0ff", formatv("{0,7:x3}", 255).str());
EXPECT_EQ(" 0x00ff", formatv("{0,7:x+4}", 255).str());
EXPECT_EQ(" 000FF", formatv("{0,7:X-5}", 255).str());
EXPECT_EQ(" 0000ff", formatv("{0,7:x-6}", 255).str());
// 9. Precision with default format specifier should work too
EXPECT_EQ(" 255", formatv("{0,7:3}", 255).str());
EXPECT_EQ(" 0255", formatv("{0,7:4}", 255).str());
EXPECT_EQ(" 00255", formatv("{0,7:5}", 255).str());
EXPECT_EQ(" 000255", formatv("{0,7:6}", 255).str());
}
TEST(FormatVariadicTest, PointerFormatting) {
// 1. Trivial cases. Hex is default. Default Precision is pointer width.
if (sizeof(void *) == 4) {
EXPECT_EQ("0x00000000", formatv("{0}", (void *)0).str());
EXPECT_EQ("0x00000ABC", formatv("{0}", (void *)0xABC).str());
} else {
EXPECT_EQ("0x0000000000000000", formatv("{0}", (void *)0).str());
EXPECT_EQ("0x0000000000000ABC", formatv("{0}", (void *)0xABC).str());
}
// 2. But we can reduce the precision explicitly.
EXPECT_EQ("0x0", formatv("{0:0}", (void *)0).str());
EXPECT_EQ("0xABC", formatv("{0:0}", (void *)0xABC).str());
EXPECT_EQ("0x0000", formatv("{0:4}", (void *)0).str());
EXPECT_EQ("0x0ABC", formatv("{0:4}", (void *)0xABC).str());
// 3. various hex prefixes.
EXPECT_EQ("0x0ABC", formatv("{0:X4}", (void *)0xABC).str());
EXPECT_EQ("0x0abc", formatv("{0:x4}", (void *)0xABC).str());
EXPECT_EQ("0ABC", formatv("{0:X-4}", (void *)0xABC).str());
EXPECT_EQ("0abc", formatv("{0:x-4}", (void *)0xABC).str());
}
TEST(FormatVariadicTest, IntegralNumberFormatting) {
// 1. Test comma grouping with default widths and precisions.
EXPECT_EQ("0", formatv("{0:N}", 0).str());
EXPECT_EQ("10", formatv("{0:N}", 10).str());
EXPECT_EQ("100", formatv("{0:N}", 100).str());
EXPECT_EQ("1,000", formatv("{0:N}", 1000).str());
EXPECT_EQ("1,234,567,890", formatv("{0:N}", 1234567890).str());
EXPECT_EQ("-10", formatv("{0:N}", -10).str());
EXPECT_EQ("-100", formatv("{0:N}", -100).str());
EXPECT_EQ("-1,000", formatv("{0:N}", -1000).str());
EXPECT_EQ("-1,234,567,890", formatv("{0:N}", -1234567890).str());
// 2. If there is no comma, width and precision pad to the same absolute
// size.
EXPECT_EQ(" 1", formatv("{0,2:N}", 1).str());
// 3. But if there is a comma or negative sign, width factors them in but
// precision doesn't.
EXPECT_EQ(" 1,000", formatv("{0,6:N}", 1000).str());
EXPECT_EQ(" -1,000", formatv("{0,7:N}", -1000).str());
// 4. Large widths all line up.
EXPECT_EQ(" 1,000", formatv("{0,11:N}", 1000).str());
EXPECT_EQ(" -1,000", formatv("{0,11:N}", -1000).str());
EXPECT_EQ(" -100,000", formatv("{0,11:N}", -100000).str());
}
TEST(FormatVariadicTest, StringFormatting) {
const char FooArray[] = "FooArray";
const char *FooPtr = "FooPtr";
llvm::StringRef FooRef("FooRef");
constexpr StringLiteral FooLiteral("FooLiteral");
std::string FooString("FooString");
// 1. Test that we can print various types of strings.
EXPECT_EQ(FooArray, formatv("{0}", FooArray).str());
EXPECT_EQ(FooPtr, formatv("{0}", FooPtr).str());
EXPECT_EQ(FooRef, formatv("{0}", FooRef).str());
EXPECT_EQ(FooLiteral, formatv("{0}", FooLiteral).str());
EXPECT_EQ(FooString, formatv("{0}", FooString).str());
// 2. Test that the precision specifier prints the correct number of
// characters.
EXPECT_EQ("FooA", formatv("{0:4}", FooArray).str());
EXPECT_EQ("FooP", formatv("{0:4}", FooPtr).str());
EXPECT_EQ("FooR", formatv("{0:4}", FooRef).str());
EXPECT_EQ("FooS", formatv("{0:4}", FooString).str());
// 3. And that padding works.
EXPECT_EQ(" FooA", formatv("{0,6:4}", FooArray).str());
EXPECT_EQ(" FooP", formatv("{0,6:4}", FooPtr).str());
EXPECT_EQ(" FooR", formatv("{0,6:4}", FooRef).str());
EXPECT_EQ(" FooS", formatv("{0,6:4}", FooString).str());
}
TEST(FormatVariadicTest, CharFormatting) {
// 1. Not much to see here. Just print a char with and without padding.
EXPECT_EQ("C", formatv("{0}", 'C').str());
EXPECT_EQ(" C", formatv("{0,3}", 'C').str());
// 2. char is really an integral type though, where the only difference is
// that the "default" is to print the ASCII. So if a non-default presentation
// specifier exists, it should print as an integer.
EXPECT_EQ("37", formatv("{0:D}", (char)37).str());
EXPECT_EQ(" 037", formatv("{0,5:D3}", (char)37).str());
}
TEST(FormatVariadicTest, BoolTest) {
// 1. Default style is lowercase text (same as 't')
EXPECT_EQ("true", formatv("{0}", true).str());
EXPECT_EQ("false", formatv("{0}", false).str());
EXPECT_EQ("true", formatv("{0:t}", true).str());
EXPECT_EQ("false", formatv("{0:t}", false).str());
// 2. T - uppercase text
EXPECT_EQ("TRUE", formatv("{0:T}", true).str());
EXPECT_EQ("FALSE", formatv("{0:T}", false).str());
// 3. D / d - integral
EXPECT_EQ("1", formatv("{0:D}", true).str());
EXPECT_EQ("0", formatv("{0:D}", false).str());
EXPECT_EQ("1", formatv("{0:d}", true).str());
EXPECT_EQ("0", formatv("{0:d}", false).str());
// 4. Y - uppercase yes/no
EXPECT_EQ("YES", formatv("{0:Y}", true).str());
EXPECT_EQ("NO", formatv("{0:Y}", false).str());
// 5. y - lowercase yes/no
EXPECT_EQ("yes", formatv("{0:y}", true).str());
EXPECT_EQ("no", formatv("{0:y}", false).str());
}
TEST(FormatVariadicTest, DoubleFormatting) {
// Test exponents, fixed point, and percent formatting.
// 1. Signed, unsigned, and zero exponent format.
EXPECT_EQ("0.000000E+00", formatv("{0:E}", 0.0).str());
EXPECT_EQ("-0.000000E+00", formatv("{0:E}", -0.0).str());
EXPECT_EQ("1.100000E+00", formatv("{0:E}", 1.1).str());
EXPECT_EQ("-1.100000E+00", formatv("{0:E}", -1.1).str());
EXPECT_EQ("1.234568E+03", formatv("{0:E}", 1234.5678).str());
EXPECT_EQ("-1.234568E+03", formatv("{0:E}", -1234.5678).str());
EXPECT_EQ("1.234568E-03", formatv("{0:E}", .0012345678).str());
EXPECT_EQ("-1.234568E-03", formatv("{0:E}", -.0012345678).str());
// 2. With padding and precision.
EXPECT_EQ(" 0.000E+00", formatv("{0,11:E3}", 0.0).str());
EXPECT_EQ(" -1.100E+00", formatv("{0,11:E3}", -1.1).str());
EXPECT_EQ(" 1.235E+03", formatv("{0,11:E3}", 1234.5678).str());
EXPECT_EQ(" -1.235E-03", formatv("{0,11:E3}", -.0012345678).str());
// 3. Signed, unsigned, and zero fixed point format.
EXPECT_EQ("0.00", formatv("{0:F}", 0.0).str());
EXPECT_EQ("-0.00", formatv("{0:F}", -0.0).str());
EXPECT_EQ("1.10", formatv("{0:F}", 1.1).str());
EXPECT_EQ("-1.10", formatv("{0:F}", -1.1).str());
EXPECT_EQ("1234.57", formatv("{0:F}", 1234.5678).str());
EXPECT_EQ("-1234.57", formatv("{0:F}", -1234.5678).str());
EXPECT_EQ("0.00", formatv("{0:F}", .0012345678).str());
EXPECT_EQ("-0.00", formatv("{0:F}", -.0012345678).str());
// 2. With padding and precision.
EXPECT_EQ(" 0.000", formatv("{0,8:F3}", 0.0).str());
EXPECT_EQ(" -1.100", formatv("{0,8:F3}", -1.1).str());
EXPECT_EQ("1234.568", formatv("{0,8:F3}", 1234.5678).str());
EXPECT_EQ(" -0.001", formatv("{0,8:F3}", -.0012345678).str());
}
struct format_tuple {
const char *Fmt;
explicit format_tuple(const char *Fmt) : Fmt(Fmt) {}
template <typename... Ts>
auto operator()(Ts &&... Values) const
-> decltype(formatv(Fmt, std::forward<Ts>(Values)...)) {
return formatv(Fmt, std::forward<Ts>(Values)...);
}
};
TEST(FormatVariadicTest, BigTest) {
using Tuple =
std::tuple<char, int, const char *, StringRef, std::string, double, float,
void *, int, double, int64_t, uint64_t, double, uint8_t>;
Tuple Ts[] = {
Tuple('a', 1, "Str", StringRef(), std::string(), 3.14159, -.17532f,
(void *)nullptr, 123456, 6.02E23, -908234908423, 908234908422234,
std::numeric_limits<double>::quiet_NaN(), 0xAB),
Tuple('x', 0xDDB5B, "LongerStr", "StringRef", "std::string", -2.7,
.08215f, (void *)nullptr, 0, 6.62E-34, -908234908423,
908234908422234, std::numeric_limits<double>::infinity(), 0x0)};
// Test long string formatting with many edge cases combined.
const char *Intro =
"There are {{{0}} items in the tuple, and {{{1}} tuple(s) in the array.";
const char *Header =
"{0,6}|{1,8}|{2,=10}|{3,=10}|{4,=13}|{5,7}|{6,7}|{7,10}|{8,"
"-7}|{9,10}|{10,16}|{11,17}|{12,6}|{13,4}";
const char *Line =
"{0,6}|{1,8:X}|{2,=10}|{3,=10:5}|{4,=13}|{5,7:3}|{6,7:P2}|{7,"
"10:X8}|{8,-7:N}|{9,10:E4}|{10,16:N}|{11,17:D}|{12,6}|{13,"
"4:X}";
std::string S;
llvm::raw_string_ostream Stream(S);
Stream << formatv(Intro, std::tuple_size<Tuple>::value,
llvm::array_lengthof(Ts))
<< "\n";
Stream << formatv(Header, "Char", "HexInt", "Str", "Ref", "std::str",
"double", "float", "pointer", "comma", "exp", "bigint",
"bigint2", "limit", "byte")
<< "\n";
for (auto &Item : Ts) {
Stream << llvm::apply_tuple(format_tuple(Line), Item) << "\n";
}
Stream.flush();
const char *Expected =
R"foo(There are {14} items in the tuple, and {2} tuple(s) in the array.
Char| HexInt| Str | Ref | std::str | double| float| pointer|comma | exp| bigint| bigint2| limit|byte
a| 0x1| Str | | | 3.142|-17.53%|0x00000000|123,456|6.0200E+23|-908,234,908,423| 908234908422234| nan|0xAB
x| 0xDDB5B|LongerStr | Strin | std::string | -2.700| 8.21%|0x00000000|0 |6.6200E-34|-908,234,908,423| 908234908422234| INF| 0x0
)foo";
EXPECT_EQ(Expected, S);
}
TEST(FormatVariadicTest, Range) {
std::vector<int> IntRange = {1, 1, 2, 3, 5, 8, 13};
// 1. Simple range with default separator and element style.
EXPECT_EQ("1, 1, 2, 3, 5, 8, 13",
formatv("{0}", make_range(IntRange.begin(), IntRange.end())).str());
EXPECT_EQ("1, 2, 3, 5, 8",
formatv("{0}", make_range(IntRange.begin() + 1, IntRange.end() - 1))
.str());
// 2. Non-default separator
EXPECT_EQ(
"1/1/2/3/5/8/13",
formatv("{0:$[/]}", make_range(IntRange.begin(), IntRange.end())).str());
// 3. Default separator, non-default element style.
EXPECT_EQ(
"0x1, 0x1, 0x2, 0x3, 0x5, 0x8, 0xd",
formatv("{0:@[x]}", make_range(IntRange.begin(), IntRange.end())).str());
// 4. Non-default separator and element style.
EXPECT_EQ(
"0x1 + 0x1 + 0x2 + 0x3 + 0x5 + 0x8 + 0xd",
formatv("{0:$[ + ]@[x]}", make_range(IntRange.begin(), IntRange.end()))
.str());
// 5. Element style and/or separator using alternate delimeters to allow using
// delimeter characters as part of the separator.
EXPECT_EQ(
"<0x1><0x1><0x2><0x3><0x5><0x8><0xd>",
formatv("<{0:$[><]@(x)}>", make_range(IntRange.begin(), IntRange.end()))
.str());
EXPECT_EQ(
"[0x1][0x1][0x2][0x3][0x5][0x8][0xd]",
formatv("[{0:$(][)@[x]}]", make_range(IntRange.begin(), IntRange.end()))
.str());
EXPECT_EQ(
"(0x1)(0x1)(0x2)(0x3)(0x5)(0x8)(0xd)",
formatv("({0:$<)(>@<x>})", make_range(IntRange.begin(), IntRange.end()))
.str());
// 5. Empty range.
EXPECT_EQ("", formatv("{0:$[+]@[x]}",
make_range(IntRange.begin(), IntRange.begin()))
.str());
// 6. Empty separator and style.
EXPECT_EQ("11235813",
formatv("{0:$[]@<>}", make_range(IntRange.begin(), IntRange.end()))
.str());
}
TEST(FormatVariadicTest, Adapter) {
class Negative : public FormatAdapter<int> {
public:
explicit Negative(int N) : FormatAdapter<int>(std::move(N)) {}
void format(raw_ostream &S, StringRef Options) override { S << -Item; }
};
EXPECT_EQ("-7", formatv("{0}", Negative(7)).str());
int N = 171;
EXPECT_EQ(" 171 ",
formatv("{0}", fmt_align(N, AlignStyle::Center, 7)).str());
EXPECT_EQ("--171--",
formatv("{0}", fmt_align(N, AlignStyle::Center, 7, '-')).str());
EXPECT_EQ(" 171 ", formatv("{0}", fmt_pad(N, 1, 3)).str());
EXPECT_EQ("171171171171171", formatv("{0}", fmt_repeat(N, 5)).str());
EXPECT_EQ(" ABABABABAB ",
formatv("{0:X-}", fmt_pad(fmt_repeat(N, 5), 1, 3)).str());
EXPECT_EQ(" AB AB AB AB AB ",
formatv("{0,=34:X-}", fmt_repeat(fmt_pad(N, 1, 3), 5)).str());
}
TEST(FormatVariadicTest, MoveConstructor) {
auto fmt = formatv("{0} {1}", 1, 2);
auto fmt2 = std::move(fmt);
std::string S = fmt2;
EXPECT_EQ("1 2", S);
}
TEST(FormatVariadicTest, ImplicitConversions) {
std::string S = formatv("{0} {1}", 1, 2);
EXPECT_EQ("1 2", S);
SmallString<4> S2 = formatv("{0} {1}", 1, 2);
EXPECT_EQ("1 2", S2);
}
TEST(FormatVariadicTest, FormatAdapter) {
EXPECT_EQ("Format", formatv("{0}", Format(1)).str());
Format var(1);
EXPECT_EQ("Format", formatv("{0}", var).str());
EXPECT_EQ("Format", formatv("{0}", std::move(var)).str());
// Not supposed to compile
// const Format cvar(1);
// EXPECT_EQ("Format", formatv("{0}", cvar).str());
}
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