MsgPackDocumentTest.cpp
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//===- MsgPackDocumentTest.cpp --------------------------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "llvm/BinaryFormat/MsgPackDocument.h"
#include "gtest/gtest.h"
using namespace llvm;
using namespace msgpack;
TEST(MsgPackDocument, DocNodeTest) {
Document Doc;
DocNode Int1 = Doc.getNode(1), Int2 = Doc.getNode(2);
DocNode Str1 = Doc.getNode("ab"), Str2 = Doc.getNode("ab");
ASSERT_TRUE(Int1 != Int2);
ASSERT_TRUE(Str1 == Str2);
}
TEST(MsgPackDocument, TestReadInt) {
Document Doc;
bool Ok = Doc.readFromBlob(StringRef("\xd0\x00", 2), /*Multi=*/false);
ASSERT_TRUE(Ok);
ASSERT_EQ(Doc.getRoot().getKind(), Type::Int);
ASSERT_EQ(Doc.getRoot().getInt(), 0);
}
TEST(MsgPackDocument, TestReadMergeArray) {
Document Doc;
bool Ok = Doc.readFromBlob(StringRef("\x92\xd0\x01\xc0"), /*Multi=*/false);
ASSERT_TRUE(Ok);
ASSERT_EQ(Doc.getRoot().getKind(), Type::Array);
auto A = Doc.getRoot().getArray();
ASSERT_EQ(A.size(), 2u);
auto SI = A[0];
ASSERT_EQ(SI.getKind(), Type::Int);
ASSERT_EQ(SI.getInt(), 1);
auto SN = A[1];
ASSERT_EQ(SN.getKind(), Type::Nil);
Ok = Doc.readFromBlob(StringRef("\x91\xd0\x2a"), /*Multi=*/false,
[](DocNode *DestNode, DocNode SrcNode, DocNode MapKey) {
// Allow array, merging into existing elements, ORing
// ints.
if (DestNode->getKind() == Type::Int &&
SrcNode.getKind() == Type::Int) {
*DestNode = DestNode->getDocument()->getNode(
DestNode->getInt() | SrcNode.getInt());
return 0;
}
return DestNode->isArray() && SrcNode.isArray() ? 0
: -1;
});
ASSERT_TRUE(Ok);
A = Doc.getRoot().getArray();
ASSERT_EQ(A.size(), 2u);
SI = A[0];
ASSERT_EQ(SI.getKind(), Type::Int);
ASSERT_EQ(SI.getInt(), 43);
SN = A[1];
ASSERT_EQ(SN.getKind(), Type::Nil);
}
TEST(MsgPackDocument, TestReadAppendArray) {
Document Doc;
bool Ok = Doc.readFromBlob(StringRef("\x92\xd0\x01\xc0"), /*Multi=*/false);
ASSERT_TRUE(Ok);
ASSERT_EQ(Doc.getRoot().getKind(), Type::Array);
auto A = Doc.getRoot().getArray();
ASSERT_EQ(A.size(), 2u);
auto SI = A[0];
ASSERT_EQ(SI.getKind(), Type::Int);
ASSERT_EQ(SI.getInt(), 1);
auto SN = A[1];
ASSERT_EQ(SN.getKind(), Type::Nil);
Ok = Doc.readFromBlob(StringRef("\x91\xd0\x2a"), /*Multi=*/false,
[](DocNode *DestNode, DocNode SrcNode, DocNode MapKey) {
// Allow array, appending after existing elements
return DestNode->isArray() && SrcNode.isArray()
? DestNode->getArray().size()
: -1;
});
ASSERT_TRUE(Ok);
A = Doc.getRoot().getArray();
ASSERT_EQ(A.size(), 3u);
SI = A[0];
ASSERT_EQ(SI.getKind(), Type::Int);
ASSERT_EQ(SI.getInt(), 1);
SN = A[1];
ASSERT_EQ(SN.getKind(), Type::Nil);
SI = A[2];
ASSERT_EQ(SI.getKind(), Type::Int);
ASSERT_EQ(SI.getInt(), 42);
}
TEST(MsgPackDocument, TestReadMergeMap) {
Document Doc;
bool Ok = Doc.readFromBlob(StringRef("\x82\xa3"
"foo"
"\xd0\x01\xa3"
"bar"
"\xd0\x02"),
/*Multi=*/false);
ASSERT_TRUE(Ok);
ASSERT_EQ(Doc.getRoot().getKind(), Type::Map);
auto M = Doc.getRoot().getMap();
ASSERT_EQ(M.size(), 2u);
auto FooS = M["foo"];
ASSERT_EQ(FooS.getKind(), Type::Int);
ASSERT_EQ(FooS.getInt(), 1);
auto BarS = M["bar"];
ASSERT_EQ(BarS.getKind(), Type::Int);
ASSERT_EQ(BarS.getInt(), 2);
Ok = Doc.readFromBlob(StringRef("\x82\xa3"
"foz"
"\xd0\x03\xa3"
"baz"
"\xd0\x04"),
/*Multi=*/false,
[](DocNode *DestNode, DocNode SrcNode, DocNode MapKey) {
return DestNode->isMap() && SrcNode.isMap() ? 0 : -1;
});
ASSERT_TRUE(Ok);
ASSERT_EQ(M.size(), 4u);
FooS = M["foo"];
ASSERT_EQ(FooS.getKind(), Type::Int);
ASSERT_EQ(FooS.getInt(), 1);
BarS = M["bar"];
ASSERT_EQ(BarS.getKind(), Type::Int);
ASSERT_EQ(BarS.getInt(), 2);
auto FozS = M["foz"];
ASSERT_EQ(FozS.getKind(), Type::Int);
ASSERT_EQ(FozS.getInt(), 3);
auto BazS = M["baz"];
ASSERT_EQ(BazS.getKind(), Type::Int);
ASSERT_EQ(BazS.getInt(), 4);
Ok = Doc.readFromBlob(
StringRef("\x82\xa3"
"foz"
"\xd0\x06\xa3"
"bay"
"\xd0\x08"),
/*Multi=*/false, [](DocNode *Dest, DocNode Src, DocNode MapKey) {
// Merger function that merges two ints by ORing their values, as long
// as the map key is "foz".
if (Src.isMap())
return Dest->isMap();
if (Src.isArray())
return Dest->isArray();
if (MapKey.isString() && MapKey.getString() == "foz" &&
Dest->getKind() == Type::Int && Src.getKind() == Type::Int) {
*Dest = Src.getDocument()->getNode(Dest->getInt() | Src.getInt());
return true;
}
return false;
});
ASSERT_TRUE(Ok);
ASSERT_EQ(M.size(), 5u);
FooS = M["foo"];
ASSERT_EQ(FooS.getKind(), Type::Int);
ASSERT_EQ(FooS.getInt(), 1);
BarS = M["bar"];
ASSERT_EQ(BarS.getKind(), Type::Int);
ASSERT_EQ(BarS.getInt(), 2);
FozS = M["foz"];
ASSERT_EQ(FozS.getKind(), Type::Int);
ASSERT_EQ(FozS.getInt(), 7);
BazS = M["baz"];
ASSERT_EQ(BazS.getKind(), Type::Int);
ASSERT_EQ(BazS.getInt(), 4);
auto BayS = M["bay"];
ASSERT_EQ(BayS.getKind(), Type::Int);
ASSERT_EQ(BayS.getInt(), 8);
}
TEST(MsgPackDocument, TestWriteInt) {
Document Doc;
Doc.getRoot() = 1;
std::string Buffer;
Doc.writeToBlob(Buffer);
ASSERT_EQ(Buffer, "\x01");
}
TEST(MsgPackDocument, TestWriteArray) {
Document Doc;
auto A = Doc.getRoot().getArray(/*Convert=*/true);
A.push_back(Doc.getNode(int64_t(1)));
A.push_back(Doc.getNode());
std::string Buffer;
Doc.writeToBlob(Buffer);
ASSERT_EQ(Buffer, "\x92\x01\xc0");
}
TEST(MsgPackDocument, TestWriteMap) {
Document Doc;
auto M = Doc.getRoot().getMap(/*Convert=*/true);
M["foo"] = 1;
M["bar"] = 2;
std::string Buffer;
Doc.writeToBlob(Buffer);
ASSERT_EQ(Buffer, "\x82\xa3"
"bar"
"\x02\xa3"
"foo"
"\x01");
}
TEST(MsgPackDocument, TestOutputYAMLArray) {
Document Doc;
auto A = Doc.getRoot().getArray(/*Convert=*/true);
A.push_back(Doc.getNode(int64_t(1)));
A.push_back(Doc.getNode(int64_t(2)));
std::string Buffer;
raw_string_ostream OStream(Buffer);
Doc.toYAML(OStream);
ASSERT_EQ(OStream.str(), "---\n- 1\n- 2\n...\n");
}
TEST(MsgPackDocument, TestInputYAMLArray) {
Document Doc;
bool Ok = Doc.fromYAML("---\n- !int 0x1\n- !str 2\n...\n");
ASSERT_TRUE(Ok);
ASSERT_EQ(Doc.getRoot().getKind(), Type::Array);
auto A = Doc.getRoot().getArray();
ASSERT_EQ(A.size(), 2u);
auto SI = A[0];
ASSERT_EQ(SI.getKind(), Type::UInt);
ASSERT_EQ(SI.getUInt(), 1u);
auto SS = A[1];
ASSERT_EQ(SS.getKind(), Type::String);
ASSERT_EQ(SS.getString(), "2");
}
TEST(MsgPackDocument, TestOutputYAMLMap) {
Document Doc;
auto M = Doc.getRoot().getMap(/*Convert=*/true);
M["foo"] = 1;
M["bar"] = 2U;
auto N = Doc.getMapNode();
M["qux"] = N;
N["baz"] = true;
std::string Buffer;
raw_string_ostream OStream(Buffer);
Doc.toYAML(OStream);
ASSERT_EQ(OStream.str(), "---\n"
"bar: 2\n"
"foo: 1\n"
"qux:\n"
" baz: true\n"
"...\n");
}
TEST(MsgPackDocument, TestOutputYAMLMapWithErase) {
Document Doc;
auto M = Doc.getRoot().getMap(/*Convert=*/true);
M["foo"] = 1;
M["bar"] = 2U;
auto N = Doc.getMapNode();
M["qux"] = N;
N["baz"] = true;
M.erase(Doc.getNode("bar"));
std::string Buffer;
raw_string_ostream OStream(Buffer);
Doc.toYAML(OStream);
ASSERT_EQ(OStream.str(), "---\n"
"foo: 1\n"
"qux:\n"
" baz: true\n"
"...\n");
}
TEST(MsgPackDocument, TestOutputYAMLMapHex) {
Document Doc;
Doc.setHexMode();
auto M = Doc.getRoot().getMap(/*Convert=*/true);
M["foo"] = 1;
M["bar"] = 2U;
auto N = Doc.getMapNode();
M["qux"] = N;
N["baz"] = true;
std::string Buffer;
raw_string_ostream OStream(Buffer);
Doc.toYAML(OStream);
ASSERT_EQ(OStream.str(), "---\n"
"bar: 0x2\n"
"foo: 1\n"
"qux:\n"
" baz: true\n"
"...\n");
}
TEST(MsgPackDocument, TestInputYAMLMap) {
Document Doc;
bool Ok = Doc.fromYAML("---\nfoo: !int 0x1\nbaz: !str 2\n...\n");
ASSERT_TRUE(Ok);
ASSERT_EQ(Doc.getRoot().getKind(), Type::Map);
auto M = Doc.getRoot().getMap();
ASSERT_EQ(M.size(), 2u);
auto SI = M["foo"];
ASSERT_EQ(SI.getKind(), Type::UInt);
ASSERT_EQ(SI.getUInt(), 1u);
auto SS = M["baz"];
ASSERT_EQ(SS.getKind(), Type::String);
ASSERT_EQ(SS.getString(), "2");
}