CloverBootloader/rEFIt_UEFI/cpp_unit_test/xml_lite-reapeatingdict-test.cpp
jief666 710b2dcee5 Allow SmbiosDictClass to work without ProductName defined (using a
defaultMacModel member that has to be assigned before).
Move BiosVersion, BiosReleaseDate and EfiVersion checks in
SmbiosDictClass. Create warnings for incorrect values.
Rename MaxMachineType to MaxMacModel.
Remove GlobalConfig->BiosVersionUsed, ReleaseDateUsed and
EfiVersionUsed.
2021-10-19 19:57:27 +02:00

161 lines
5.0 KiB
C++
Executable File

#include <Platform.h> // Only use angled for Platform, else, xcode project won't compile
#include "../cpp_foundation/XString.h"
#include "../cpp_foundation/XStringArray.h"
//#include "../cpp_foundation/unicode_conversions.h"
//#include "../Platform/plist/plist.h"
#include "../cpp_lib/XmlLiteSimpleTypes.h"
#include "../cpp_lib/XmlLiteCompositeTypes.h"
#include "../cpp_lib/XmlLiteDictTypes.h"
#include "../cpp_lib/XmlLiteParser.h"
static int breakpoint(int i)
{
return i;
}
static XmlLiteParser gXmlLiteParser;
static int repeatingdict_test1()
{
bool b;
class DictClass : public XmlRepeatingDict<XmlAddKey<XmlKeyDisablable, XmlString8>>
{
public:
} dict;
const char* config_test =
"<dict>\r\n\
<key>key1.1</key>\r\n\
<string>foo1.1</string>\r\n\
<key>key1.2</key>\r\n\
<string>foo1.2</string>\r\n\
<key>key1.3</key>\r\n\
<string>foo1.3</string>\r\n\
<key>key1.4</key>\r\n\
<string>foo1.4</string>\r\n\
</dict>\r\n\
</plist>";
gXmlLiteParser.init(config_test);
b = dict.parseFromXmlLite(&gXmlLiteParser, "/"_XS8, true);
//gXmlLiteParser.printfErrorsAndWarnings();
for ( size_t idx = 0 ; idx < dict.valueArray().size() ; idx++ ) {
printf("%s %s\n", dict.valueArray()[idx].key().c_str(), dict.valueArray()[idx].value().c_str());
}
if ( !b ) return breakpoint(1);
if ( gXmlLiteParser.getXmlParserMessageArray().size() != 0 ) return breakpoint(1);
// if ( mainDict.arrayValue()[0].key() != "key1.1"_XS8 ) return breakpoint(14);
// if ( mainDict.arrayValue()[0].value() != "foo1.1"_XS8 ) return breakpoint(14);
// if ( mainDict.arrayValue()[1].key() != "key1.2"_XS8 ) return breakpoint(14);
// if ( mainDict.arrayValue()[1].value() != "foo1.2"_XS8 ) return breakpoint(14);
// if ( mainDict.arrayValue()[2].key() != "key1.3"_XS8 ) return breakpoint(14);
// if ( mainDict.arrayValue()[2].value() != "foo1.3"_XS8 ) return breakpoint(14);
// if ( mainDict.arrayValue()[3].key() != "key1.4"_XS8 ) return breakpoint(14);
// if ( mainDict.arrayValue()[3].value() != "foo1.4"_XS8 ) return breakpoint(14);
//
// if ( !b ) return breakpoint(1);
// gXmlLiteParser.init(config_test);
// mainDict.validate(&gXmlLiteParser, "/"_XS8, XmlParserPosition(), true);
////gXmlLiteParser.printfErrorsAndWarnings();
// if ( !b ) return breakpoint(1);
// if ( gXmlLiteParser.getErrorsAndWarnings().size() != 1 ) return breakpoint(1);
// if ( !gXmlLiteParser.getErrorsAndWarnings()[0].msg.contains("ict1 tag") ) return breakpoint(14);
return 0;
}
int repeatingdict_test2()
{
bool b;
class SubDictClass : public XmlAddKey<XmlKey, XmlDict>
{
public:
// using ValueType = Main2Dict_Class;
XmlBool xmlBool = XmlBool();
XmlString8 xmlString = XmlString8();
XmlDictField m_fields[2] = {
{"keybool", xmlBool},
{"keystring", xmlString},
};
virtual void getFields(XmlDictField** fields, size_t* nb) override { *fields = m_fields; *nb = sizeof(m_fields)/sizeof(m_fields[0]); };
};
class DictClass : public XmlRepeatingDict<SubDictClass>
{
public:
} dict;
const char* config_test =
"<dict>\r\n\
<key>array2.1</key>\r\n\
<dict>\r\n\
<key>keybool</key>\r\n\
<true/>\r\n\
<key>keystring</key>\r\n\
<string>foo2.1</string>\r\n\
</dict>\r\n\
<key>array2.2</key>\r\n\
<dict>\r\n\
<key>keybool</key>\r\n\
<false/>\r\n\
<key>keystring</key>\r\n\
<string>foo2.2</string>\r\n\
</dict>\r\n\
</dict>\r\n\
</plist>";
gXmlLiteParser.init(config_test);
b = dict.parseFromXmlLite(&gXmlLiteParser, "/"_XS8, true);
gXmlLiteParser.getXmlParserMessageArray();
for ( size_t idx = 0 ; idx < dict.valueArray().size() ; idx++ ) {
auto item = dict.valueArray()[idx];
printf("%s %d %s\n", dict.valueArray()[idx].key().c_str(), (bool)dict.valueArray()[idx].xmlBool.value(), dict.valueArray()[idx].xmlString.value().c_str());
}
if ( !b ) return breakpoint(1);
if ( gXmlLiteParser.getXmlParserMessageArray().size() != 0 ) return breakpoint(1);
if ( dict.valueArray()[0].xmlBool.value() != true ) return breakpoint(14);
if ( dict.valueArray()[0].xmlString.value() != "foo2.1"_XS8 ) return breakpoint(14);
if ( dict.valueArray()[1].xmlBool.value() != false ) return breakpoint(14);
if ( dict.valueArray()[1].xmlString.value() != "foo2.2"_XS8 ) return breakpoint(14);
// gXmlLiteParser.init(config_test);
// mainDict.validate(&gXmlLiteParser, "/"_XS8, XmlParserPosition(), true);
////gXmlLiteParser.printfErrorsAndWarnings();
// if ( !b ) return breakpoint(1);
// if ( gXmlLiteParser.getErrorsAndWarnings().size() != 1 ) return breakpoint(1);
// if ( !gXmlLiteParser.getErrorsAndWarnings()[0].msg.contains("dict2 tag") ) return breakpoint(14);
return 0;
}
int xml_lite_reapeatingdict_tests()
{
int ret;
ret = repeatingdict_test1();
if ( ret ) return ret;
ret = repeatingdict_test2();
if ( ret ) return ret;
// ret = repeatingdict_test3();
// if ( ret ) return ret;
return 0;
}