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F3999577
types.cpp
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Thu, Jul 9, 2:35 AM
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Sat, Jul 11, 2:35 AM (1 d, 6 h)
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rXR Xreate
types.cpp
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/*
* types.cpp
*
* Created on: Jun 4, 2015
* Author: pgess
*/
#include "gtest/gtest.h"
#include "xreatemanager.h"
#include "llvmlayer.h"
#include "main/Parser.h"
using namespace std;
using namespace xreate;
using namespace xreate::grammar::main;
TEST(Types, DependantTypes1) {
string&& code = "XmlNode = type {\n"
" tag:: string,\n"
" attrs:: [string], \n"
" content:: string\n"
"}.\n";
std::unique_ptr<XreateManager> program(XreateManager::prepare(move(code)));
ExpandedType typeXmlNode = program->root->findType("XmlNode");
ASSERT_EQ(TypeOperator::STRUCT, typeXmlNode->__operator);
ASSERT_EQ(3, typeXmlNode->__operands.size());
ASSERT_EQ(TypePrimitive::String, typeXmlNode->__operands.at(0).__value);
ASSERT_EQ(TypeOperator::ARRAY, typeXmlNode->__operands.at(1).__operator);
ASSERT_EQ(TypePrimitive::String, typeXmlNode->__operands.at(2).__value);
}
TEST(Types, ast_ParameterizedTypes_FeatureTypeIndex_1) {
string&& code = "XmlNode = type {\n"
" tag:: string,\n"
" attrs:: [string],\n"
" content:: string\n"
"}.\n"
""
"Template = type(Leaf) {Leaf, [Leaf[content]]}."
"Concrete = type Template(XmlNode).";
std::unique_ptr<XreateManager> program(XreateManager::prepare(move(code)));
ExpandedType typeConcrete = program->root->findType("Concrete");
ASSERT_EQ(TypeOperator::STRUCT, typeConcrete->__operator);
ASSERT_EQ(2, typeConcrete->__operands.size());
ASSERT_EQ(TypeOperator::STRUCT, typeConcrete->__operands.at(0).__operator);
ASSERT_EQ(TypeOperator::ARRAY, typeConcrete->__operands.at(1).__operator);
ASSERT_EQ(TypePrimitive::String, typeConcrete->__operands.at(1).__operands.at(0).__value);
}
TEST(Types, TreeType1) {
string&& code = "XmlNode = type {\n"
" tag:: string,\n"
" attrs:: [string],\n"
" content:: string\n"
"}.\n"
""
"Tree = type(Leaf) {Leaf, [Tree(Leaf)]}."
"Concrete = type Tree(XmlNode).";
std::unique_ptr<XreateManager> program(XreateManager::prepare(move(code)));
ExpandedType typeConcrete = program->root->findType("Concrete");
ASSERT_EQ(TypeOperator::STRUCT, typeConcrete->__operator);
ASSERT_EQ(2, typeConcrete->__operands.size());
ASSERT_EQ(TypeOperator::STRUCT, typeConcrete->__operands.at(0).__operator);
ASSERT_EQ(TypeOperator::ARRAY, typeConcrete->__operands.at(1).__operator);
auto typeLink = typeConcrete->__operands.at(1).__operands.at(0);
ASSERT_EQ(TypeOperator::LINK, typeLink.__operator);
ASSERT_EQ(typeConcrete->conjuctionId,typeLink.conjuctionId);
}
TEST(Types, TreeType1LLvm){
string&& code = "XmlNode = type {\n"
" tag:: string,\n"
" /* attrs:: [string],*/\n"
" content:: string\n"
"}.\n"
""
"Tree = type(Leaf) {Leaf, [Tree(Leaf)]}."
"Concrete = type Tree(XmlNode).";
std::unique_ptr<XreateManager> program(XreateManager::prepare(move(code)));
ExpandedType typeConcrete = program->root->findType("Concrete");
llvm::Type* raw = program->llvm->toLLVMType(typeConcrete);
}
TEST(Types, ArrayOfExternal1){
FILE* input = fopen("scripts/containers/Containers_Implementation_LinkedList1.xreate","r");
assert(input != nullptr);
Scanner scanner(input);
Parser parser(&scanner);
parser.Parse();
AST* ast = parser.root->finalize();
CodeScope* body = ast->findFunction("test")->getEntryScope();
const ExpandedType& t2 = ast->getType(body->getDeclaration(body->getSymbol("childrenRaw")));
EXPECT_EQ(t2->__operator, TypeOperator::ARRAY);
}
TEST(Types, ExternType1){
FILE* input = fopen("scripts/containers/Containers_Implementation_LinkedList1.xreate","r");
assert(input != nullptr);
Scanner scanner(input);
Parser parser(&scanner);
parser.Parse();
AST* ast = parser.root->finalize();
CodeScope* body = ast->findFunction("test")->getEntryScope();
const ExpandedType& t2 = ast->getType(body->getDeclaration(body->getSymbol("tree")));
EXPECT_EQ(t2->__operator, TypeOperator::CUSTOM);
}
TEST(Types, ast_VariantType1){
string&& code =
" colors = type variant {RED, BLUE, GREEN}.\n"
" test = function:: colors; entry {GREEN()}";
std::unique_ptr<XreateManager> program(XreateManager::prepare(move(code)));
ExpandedType typ = program->root->findType("colors");
EXPECT_EQ(TypeOperator::VARIANT, typ->__operator);
Expression eRed = program->root->findFunction("test")->getEntryScope()->getBody();
EXPECT_EQ(Operator::VARIANT, eRed.op);
const ExpandedType& typ2 = program->root->getType(eRed);
EXPECT_EQ(TypeOperator::VARIANT, typ2->__operator);
}
TEST(Types, full_VariantType_Switch1){
string&& code =
" colors = type variant{RED, BLUE, GREEN}. \n"
" test = function:: colors {GREEN()} \n"
"main = function:: int; entry { \n"
" switch(test()):: int \n"
" case (GREEN()) {0} \n"
" case default {1} \n"
"}";
XreateManager* man = XreateManager::prepare(move(code));
int (*main)() = (int (*)()) man->run();
EXPECT_EQ(0, main());
}
TEST(Types, ast_VariantType2){
std::string script=
R"Code(
Expression = type
variant {
Num:: int,
String:: string,
Func:: {name::string, arguments::[Expression]}
}.
)Code";
std::unique_ptr<XreateManager> program(XreateManager::prepare(move(script)));
ExpandedType typ = program->root->findType("Expression");
ASSERT_EQ(3, typ.get().fields.size());
}
//TEST(Types, A)
//TOTEST string type
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