//===- TwineTest.cpp - Twine unit tests -----------------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "llvm/ADT/Twine.h" #include "llvm/ADT/SmallString.h" #include "llvm/Support/FormatAdapters.h" #include "llvm/Support/FormatVariadic.h" #include "llvm/Support/raw_ostream.h" #include "gtest/gtest.h" using namespace llvm; namespace { std::string repr(const Twine &Value) { std::string res; llvm::raw_string_ostream OS(res); Value.printRepr(OS); return OS.str(); } TEST(TwineTest, Construction) { EXPECT_EQ("", Twine().str()); EXPECT_EQ("hi", Twine("hi").str()); EXPECT_EQ("hi", Twine(std::string("hi")).str()); EXPECT_EQ("hi", Twine(StringRef("hi")).str()); EXPECT_EQ("hi", Twine(StringRef(std::string("hi"))).str()); EXPECT_EQ("hi", Twine(StringRef("hithere", 2)).str()); EXPECT_EQ("hi", Twine(SmallString<4>("hi")).str()); EXPECT_EQ("hi", Twine(formatv("{0}", "hi")).str()); } TEST(TwineTest, Numbers) { EXPECT_EQ("123", Twine(123U).str()); EXPECT_EQ("123", Twine(123).str()); EXPECT_EQ("-123", Twine(-123).str()); EXPECT_EQ("123", Twine(123).str()); EXPECT_EQ("-123", Twine(-123).str()); EXPECT_EQ("7b", Twine::utohexstr(123).str()); } TEST(TwineTest, Characters) { EXPECT_EQ("x", Twine('x').str()); EXPECT_EQ("x", Twine(static_cast('x')).str()); EXPECT_EQ("x", Twine(static_cast('x')).str()); } TEST(TwineTest, Concat) { // Check verse repr, since we care about the actual representation not just // the result. // Concat with null. EXPECT_EQ("(Twine null empty)", repr(Twine("hi").concat(Twine::createNull()))); EXPECT_EQ("(Twine null empty)", repr(Twine::createNull().concat(Twine("hi")))); // Concat with empty. EXPECT_EQ("(Twine cstring:\"hi\" empty)", repr(Twine("hi").concat(Twine()))); EXPECT_EQ("(Twine cstring:\"hi\" empty)", repr(Twine().concat(Twine("hi")))); EXPECT_EQ("(Twine smallstring:\"hi\" empty)", repr(Twine().concat(Twine(SmallString<5>("hi"))))); EXPECT_EQ("(Twine formatv:\"howdy\" empty)", repr(Twine(formatv("howdy")).concat(Twine()))); EXPECT_EQ("(Twine formatv:\"howdy\" empty)", repr(Twine().concat(Twine(formatv("howdy"))))); EXPECT_EQ("(Twine smallstring:\"hey\" cstring:\"there\")", repr(Twine(SmallString<7>("hey")).concat(Twine("there")))); // Concatenation of unary ropes. EXPECT_EQ("(Twine cstring:\"a\" cstring:\"b\")", repr(Twine("a").concat(Twine("b")))); // Concatenation of other ropes. EXPECT_EQ("(Twine rope:(Twine cstring:\"a\" cstring:\"b\") cstring:\"c\")", repr(Twine("a").concat(Twine("b")).concat(Twine("c")))); EXPECT_EQ("(Twine cstring:\"a\" rope:(Twine cstring:\"b\" cstring:\"c\"))", repr(Twine("a").concat(Twine("b").concat(Twine("c"))))); EXPECT_EQ("(Twine cstring:\"a\" rope:(Twine smallstring:\"b\" cstring:\"c\"))", repr(Twine("a").concat(Twine(SmallString<3>("b")).concat(Twine("c"))))); } TEST(TwineTest, toNullTerminatedStringRef) { SmallString<8> storage; EXPECT_EQ(0, *Twine("hello").toNullTerminatedStringRef(storage).end()); EXPECT_EQ(0, *Twine(StringRef("hello")).toNullTerminatedStringRef(storage).end()); EXPECT_EQ(0, *Twine(SmallString<11>("hello")) .toNullTerminatedStringRef(storage) .end()); EXPECT_EQ(0, *Twine(formatv("{0}{1}", "how", "dy")) .toNullTerminatedStringRef(storage) .end()); } TEST(TwineTest, LazyEvaluation) { struct formatter : FormatAdapter { explicit formatter(int &Count) : FormatAdapter(0), Count(Count) {} int &Count; void format(raw_ostream &OS, StringRef Style) { ++Count; } }; int Count = 0; formatter Formatter(Count); (void)Twine(formatv("{0}", Formatter)); EXPECT_EQ(0, Count); (void)Twine(formatv("{0}", Formatter)).str(); EXPECT_EQ(1, Count); } // I suppose linking in the entire code generator to add a unit test to check // the code size of the concat operation is overkill... :) } // end anonymous namespace