More work on binder type registration, support in REPL to show registered types.
continuous-integration/drone/push Build is passing Details

This commit is contained in:
Deukhoofd 2021-01-08 18:18:24 +01:00
parent 093ffde6bc
commit 8660933f27
Signed by: Deukhoofd
GPG Key ID: F63E044490819F6F
12 changed files with 320 additions and 146 deletions

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@ -86,7 +86,7 @@ virtprop ::= ['private' | 'protected'] type ['&'] identifier '{' {('g
func ::= {'shared' | 'external'} ['private' | 'protected'] [((type ['&']) | '~')] identifier paramlist ['const'] funcattr (';' | statblock);
funcdef ::= {'external' | 'shared'} 'funcdef' type ['&'] identifier paramlist ';'
class ::= {'shared' | 'abstract' | 'final' | 'external'} 'class' identifier
(';' | ([':' identifier {',' identifier}] '{' {virtprop | func | var | funcdef} '}'));
(';' | ([':' identifier {',' identifier}] '{' {virtprop | func | var | funcdef | class} '}'));
mixin ::= 'mixin' class;
enum ::= {'shared' | 'external'} 'enum' identifier [ ':' primtype ] (';' | ('{' identifier ['=' expr] {',' identifier ['=' expr]} '}'));
import ::= 'import' type ['&'] identifier paramlist funcattr 'from' string ';';

58
repl/ResultWindow.hpp Normal file
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@ -0,0 +1,58 @@
#ifndef MALACHSCRIPT_RESULTWINDOW_HPP
#define MALACHSCRIPT_RESULTWINDOW_HPP
#include <ncurses.h>
#include <sstream>
#include "../src/Binder/BoundNamespaceStringifier.hpp"
#include "../src/Parser/Statements/ParsedStatementStringifier.hpp"
namespace MalachScriptRepl {
class ResultWindow {
public:
enum class View { ParseTree, TypeList };
ResultWindow(int height, int width, int y, int x) { _window = newwin(height, width, y, x); }
void SetResult(const MalachScript::Parser::ParsedStatement* statement,
const MalachScript::Binder::BoundNamespace* ns) {
std::stringstream parsedTreeStringStream;
MalachScript::Parser::ParsedStatementStringifier::Stringify(statement, parsedTreeStringStream, "", true);
_parseTree = parsedTreeStringStream.str();
std::stringstream boundNamespaceStringStream;
MalachScript::Binder::BoundNamespaceStringifier::Stringify(ns, boundNamespaceStringStream);
_boundNamespace = boundNamespaceStringStream.str();
switch (_view) {
case View::ParseTree: SetParseTree(); break;
case View::TypeList: SetTypeList(); break;
}
}
void SetView(View view) {
_view = view;
switch (view) {
case View::ParseTree: SetParseTree(); break;
case View::TypeList: SetTypeList(); break;
}
}
private:
WINDOW* _window;
std::string _parseTree;
std::string _boundNamespace;
View _view;
inline void SetParseTree() {
wclear(_window);
waddstr(_window, _parseTree.c_str());
wrefresh(_window);
}
inline void SetTypeList() {
wclear(_window);
waddstr(_window, _boundNamespace.c_str());
wrefresh(_window);
}
};
}
#endif // MALACHSCRIPT_RESULTWINDOW_HPP

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@ -1,129 +1,136 @@
#include <fstream>
#include <ncurses.h>
#include <sstream>
#include "../src/Binder/Binder.hpp"
#include "../src/Diagnostics/DiagnosticTypeEN_US.hpp"
#include "../src/Parser/Lexer/Lexer.hpp"
#include "../src/Parser/Parser.hpp"
#include "../src/Parser/Statements/ParsedStatementStringifier.hpp"
#include "InputWindow.hpp"
#include "ResultWindow.hpp"
void ParseAndUpdate(const std::vector<std::string>& lines, WINDOW* diagnosticsWindow, WINDOW* parsedWindow,
MalachScriptRepl::InputWindow& inputWindow) {
std::string script;
for (size_t i = 0; i < lines.size(); i++) {
script += lines[i];
if (i != lines.size() - 1) {
script += '\n';
namespace MalachScriptRepl {
void ParseAndUpdate(const std::vector<std::string>& lines, WINDOW* diagnosticsWindow, ResultWindow* parsedWindow,
MalachScriptRepl::InputWindow& inputWindow) {
std::string script;
for (size_t i = 0; i < lines.size(); i++) {
script += lines[i];
if (i != lines.size() - 1) {
script += '\n';
}
}
std::ofstream outfile;
outfile.open("script.ms", std::ios::out | std::ios::trunc);
outfile << (char*)script.data();
outfile.close();
auto logger = MalachScript::Diagnostics::Logger();
auto lexer = MalachScript::Parser::Lexer("diag", script, &logger);
const auto* firstToken = lexer.Lex();
const auto* parsedResult = MalachScript::Parser::Parser::Parse(firstToken, "diag", &logger);
auto* ns = new MalachScript::Binder::BoundNamespace();
const MalachScript::Binder::Binder::log_func log =
[&logger](MalachScript::Diagnostics::DiagnosticLevel level, MalachScript::Diagnostics::DiagnosticType type,
const MalachScript::TextSpan& span,
const std::vector<std::string>& formats) { logger.Log(level, type, "", span, formats); };
MalachScript::Binder::Binder::Bind(ns, {parsedResult}, log);
const MalachScript::Diagnostics::Diagnostic* diag = nullptr;
wclear(diagnosticsWindow);
if (!logger.GetMessages().empty()) {
diag = &logger.GetMessages()[0];
wattron(diagnosticsWindow, COLOR_PAIR(1));
waddch(diagnosticsWindow, '[');
waddstr(diagnosticsWindow, "Error");
waddch(diagnosticsWindow, ']');
wattroff(diagnosticsWindow, COLOR_PAIR(1));
waddch(diagnosticsWindow, ' ');
waddstr(diagnosticsWindow, std::to_string(diag->GetSpan().GetStart() + 1).c_str());
waddch(diagnosticsWindow, '-');
waddstr(diagnosticsWindow, std::to_string(diag->GetSpan().GetEnd() + 1).c_str());
waddch(diagnosticsWindow, ' ');
waddstr(diagnosticsWindow, MalachScript::Diagnostics::DiagnosticTypeHelper::ToEnglishString(diag).c_str());
waddch(diagnosticsWindow, '\n');
}
wrefresh(diagnosticsWindow);
parsedWindow->SetResult(parsedResult, ns);
inputWindow.SetScriptWithDiagnostics(script, diag);
delete parsedResult;
}
std::ofstream outfile;
outfile.open("script.ms", std::ios::out | std::ios::trunc);
outfile << (char*)script.data();
outfile.close();
int Run() {
setlocale(LC_ALL, "");
initscr();
cbreak();
noecho();
keypad(stdscr, true);
set_tabsize(4);
auto logger = MalachScript::Diagnostics::Logger();
auto lexer = MalachScript::Parser::Lexer("diag", script, &logger);
const auto* firstToken = lexer.Lex();
const auto* parsedResult = MalachScript::Parser::Parser::Parse(firstToken, "diag", &logger);
start_color();
init_pair(1, COLOR_RED, COLOR_BLACK);
clear();
const MalachScript::Diagnostics::Diagnostic* diag = nullptr;
wclear(diagnosticsWindow);
int maxX;
int maxY;
getmaxyx(stdscr, maxY, maxX);
wresize(stdscr, maxY, maxX);
wrefresh(stdscr);
if (!logger.GetMessages().empty()) {
diag = &logger.GetMessages()[0];
const int inputFieldSize = 30;
wattron(diagnosticsWindow, COLOR_PAIR(1));
waddch(diagnosticsWindow, '[');
waddstr(diagnosticsWindow, "Error");
waddch(diagnosticsWindow, ']');
wattroff(diagnosticsWindow, COLOR_PAIR(1));
waddch(diagnosticsWindow, ' ');
waddstr(diagnosticsWindow, std::to_string(diag->GetSpan().GetStart() + 1).c_str());
waddch(diagnosticsWindow, '-');
waddstr(diagnosticsWindow, std::to_string(diag->GetSpan().GetEnd() + 1).c_str());
waddch(diagnosticsWindow, ' ');
wborder(stdscr, 0, 0, 0, 0, 0, 0, 0, 0);
wmove(stdscr, 31, 1);
whline(stdscr, ACS_HLINE, maxX - 2);
wmove(stdscr, 32, maxX / 2);
wvline(stdscr, ACS_VLINE, 25);
waddstr(diagnosticsWindow, MalachScript::Diagnostics::DiagnosticTypeHelper::ToEnglishString(diag).c_str());
wrefresh(stdscr);
waddch(diagnosticsWindow, '\n');
[[maybe_unused]] auto* diagnosticsWindow = newwin(25, (maxX - 4) / 2, 32, 2);
auto* parsedResultWindow = new ResultWindow(25, (maxX - 4) / 2 - 2, 32, (maxX - 4) / 2 + 4);
auto inputWindow = MalachScriptRepl::InputWindow(inputFieldSize, maxX - 3, 1, 2);
inputWindow.RegisterOnChange(
[diagnosticsWindow, parsedResultWindow, &inputWindow](const std::vector<std::string>& lines) {
ParseAndUpdate(lines, diagnosticsWindow, parsedResultWindow, inputWindow);
});
int c;
bool running = true;
while (running) {
c = inputWindow.GetInput();
switch (c) {
case 27: running = false; break;
case KEY_LEFT: inputWindow.MoveCursorLeft(); break;
case KEY_RIGHT: inputWindow.MoveCursorRight(); break;
case KEY_UP: inputWindow.MoveCursorUp(); break;
case KEY_DOWN: inputWindow.MoveCursorDown(); break;
case KEY_BACKSPACE:
case 127: inputWindow.Backspace(); break;
case 10:
case KEY_ENTER: inputWindow.Return(); break;
case 9:
case KEY_STAB: inputWindow.Tab(); break;
case KEY_END: inputWindow.GoToEndOfLine(); break;
case KEY_HOME: inputWindow.GoToStartOfLine(); break;
case KEY_F(1): parsedResultWindow->SetView(ResultWindow::View::ParseTree); break;
case KEY_F(2): parsedResultWindow->SetView(ResultWindow::View::TypeList); break;
default: inputWindow.Input(c); break;
}
inputWindow.Refresh();
}
endwin();
return EXIT_SUCCESS;
}
wrefresh(diagnosticsWindow);
wclear(parsedWindow);
std::stringstream ss;
MalachScript::Parser::ParsedStatementStringifier::Stringify(parsedResult, ss, "", true);
waddstr(parsedWindow, ss.str().c_str());
wrefresh(parsedWindow);
inputWindow.SetScriptWithDiagnostics(script, diag);
delete parsedResult;
}
int main([[maybe_unused]] int argc, [[maybe_unused]] const char* argv[]) {
setlocale(LC_ALL, "");
initscr();
cbreak();
noecho();
keypad(stdscr, true);
set_tabsize(4);
start_color();
init_pair(1, COLOR_RED, COLOR_BLACK);
clear();
int maxX;
int maxY;
getmaxyx(stdscr, maxY, maxX);
wresize(stdscr, maxY, maxX);
wrefresh(stdscr);
const int inputFieldSize = 30;
wborder(stdscr, 0, 0, 0, 0, 0, 0, 0, 0);
wmove(stdscr, 31, 1);
whline(stdscr, ACS_HLINE, maxX - 2);
wmove(stdscr, 32, maxX / 2);
wvline(stdscr, ACS_VLINE, 25);
wrefresh(stdscr);
[[maybe_unused]] auto* diagnosticsWindow = newwin(25, (maxX - 4) / 2, 32, 2);
auto* parsedResultWindow = newwin(25, (maxX - 4) / 2 - 2, 32, (maxX - 4) / 2 + 4);
wrefresh(parsedResultWindow);
auto inputWindow = MalachScriptRepl::InputWindow(inputFieldSize, maxX - 3, 1, 2);
inputWindow.RegisterOnChange(
[diagnosticsWindow, parsedResultWindow, &inputWindow](const std::vector<std::string>& lines) {
ParseAndUpdate(lines, diagnosticsWindow, parsedResultWindow, inputWindow);
});
int c;
bool running = true;
while (running) {
c = inputWindow.GetInput();
switch (c) {
case 27: running = false; break;
case KEY_LEFT: inputWindow.MoveCursorLeft(); break;
case KEY_RIGHT: inputWindow.MoveCursorRight(); break;
case KEY_UP: inputWindow.MoveCursorUp(); break;
case KEY_DOWN: inputWindow.MoveCursorDown(); break;
case KEY_BACKSPACE:
case 127: inputWindow.Backspace(); break;
case 10:
case KEY_ENTER: inputWindow.Return(); break;
case 9:
case KEY_STAB: inputWindow.Tab(); break;
case KEY_END: inputWindow.GoToEndOfLine(); break;
case KEY_HOME: inputWindow.GoToStartOfLine(); break;
default: inputWindow.Input(c); break;
}
inputWindow.Refresh();
}
endwin();
return EXIT_SUCCESS;
}
int main([[maybe_unused]] int argc, [[maybe_unused]] const char* argv[]) { return MalachScriptRepl::Run(); }

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@ -54,13 +54,23 @@ namespace MalachScript::Binder {
case Parser::ParsedStatementKind::Class: {
const auto* s = static_cast<const ParsedClassStatement*>(statement);
auto identifier = s->GetIdentifier();
if (activeType.has_value()) {
auto type = ns->ResolveType(s->GetIdentifier());
if (!type.has_value()) {
if (activeType.has_value()) {
type = activeType.value()->ResolveType(s->GetIdentifier());
}
}
auto* type = new BoundType(s->GetClassAttr());
if (type.has_value()) {
log(DiagnosticLevel::Error, DiagnosticType::TypeAlreadyDefined, s->GetSpan(),
{identifier.GetStdString()});
break;
}
type = new BoundType(identifier, s->GetClassAttr());
if (activeType.has_value()) {
activeType.value()->RegisterType(identifier, type);
activeType.value()->RegisterType(identifier, type.value());
} else {
ns->RegisterType(identifier, type);
ns->RegisterType(identifier, type.value());
}
for (const auto& child : s->GetBody()) {
TypeRegistrationFirstPass(ns, child.get(), type, log);
@ -92,7 +102,12 @@ namespace MalachScript::Binder {
const auto* s = static_cast<const ParsedClassStatement*>(statement);
auto type = ns->ResolveType(s->GetIdentifier());
if (!type.has_value()) {
throw std::logic_error("Shouldn't be reached");
if (activeType.has_value()) {
type = activeType.value()->ResolveType(s->GetIdentifier());
}
if (!type.has_value()) {
throw std::logic_error("Shouldn't be reached");
}
}
for (const auto& inherits : s->GetInherits()) {
auto inheritType = ResolveType(ns, inherits);
@ -152,7 +167,12 @@ namespace MalachScript::Binder {
const auto* s = static_cast<const ParsedClassStatement*>(statement);
auto type = ns->ResolveType(s->GetIdentifier());
if (!type.has_value()) {
throw std::logic_error("Shouldn't be reached");
if (activeType.has_value()) {
type = activeType.value()->ResolveType(s->GetIdentifier());
}
if (!type.has_value()) {
throw std::logic_error("Shouldn't be reached");
}
}
for (const auto& child : s->GetBody()) {
TypeRegistrationThirdPass(ns, child.get(), type.value(), log);

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@ -0,0 +1,64 @@
#ifndef MALACHSCRIPT_BOUNDNAMESPACESTRINGIFIER_HPP
#define MALACHSCRIPT_BOUNDNAMESPACESTRINGIFIER_HPP
#include "BoundNamespace.hpp"
template <typename K, typename V> static std::vector<std::pair<K, V>> mapToVector(const std::unordered_map<K, V>& map) {
auto vec = std::vector<std::pair<K, V>>(map.begin(), map.end());
std::reverse(vec.begin(), vec.end());
return vec;
};
namespace MalachScript::Binder {
class BoundNamespaceStringifier {
static void StringifyField(const MalachScript::Identifier& identifier, const BoundVariable* field,
std::stringstream& stream, const std::string& prefix, bool isLast) {
stream << prefix;
stream << (isLast ? "└──" : "├──");
stream << identifier << ": " << field->GetType()->GetIdentifier();
}
static void StringifyType(const MalachScript::Identifier& identifier, const BoundType* type,
std::stringstream& stream, const std::string& prefix, bool isLast) {
stream << prefix;
stream << (isLast ? "└──" : "├──");
stream << "class " << identifier << " (size: " << type->GetSize() << ")";
auto types = mapToVector(type->GetTypes());
for (size_t i = 0; i < types.size(); i++) {
stream << std::endl;
StringifyType(types[i].first, types[i].second, stream, prefix + (isLast ? " " : ""),
i == types.size() - 1);
}
auto fields = mapToVector(type->GetFieldsLookup());
for (size_t i = 0; i < fields.size(); i++) {
stream << std::endl;
StringifyField(fields[i].first, fields[i].second, stream, prefix + (isLast ? " " : ""),
i == fields.size() - 1);
}
}
static void StringifyNamespace(const MalachScript::Identifier& identifier, const BoundNamespace* boundNamespace,
std::stringstream& stream, const std::string& prefix, bool isLast) {
stream << prefix;
stream << (isLast ? "└──" : "├──");
stream << "namespace " << identifier;
auto types = mapToVector(boundNamespace->GetTypes());
for (size_t i = 0; i < types.size(); i++) {
stream << std::endl;
StringifyType(types[i].first, types[i].second, stream, prefix + (isLast ? " " : ""),
i == types.size() - 1);
}
auto namespaces = mapToVector(boundNamespace->GetNamespaces());
for (size_t i = 0; i < namespaces.size(); i++) {
stream << std::endl;
StringifyNamespace(namespaces[i].first, namespaces[i].second, stream,
prefix + (isLast ? " " : ""), i == namespaces.size() - 1);
}
}
public:
static void Stringify(const BoundNamespace* ns, std::stringstream& stream) {
StringifyNamespace("global"_id, ns, stream, "", true);
}
};
}
#endif // MALACHSCRIPT_BOUNDNAMESPACESTRINGIFIER_HPP

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@ -7,14 +7,31 @@
namespace MalachScript::Binder {
class BoundType {
public:
BoundType(ClassAttr classAttr) : _classAttr(classAttr) {}
BoundType(ClassAttr classAttr, size_t size) : _classAttr(classAttr), _size(size), _inherits(0) {}
BoundType(Identifier identifier, ClassAttr classAttr) : _identifier(identifier), _classAttr(classAttr) {}
BoundType(Identifier identifier, ClassAttr classAttr, size_t size)
: _identifier(identifier), _classAttr(classAttr), _size(size), _inherits(0) {}
inline void Finalise() noexcept {
if (_initialised) {
return;
}
_initialised = true;
// TODO: Calculate size
for (auto& inherits : _inherits) {
if (!inherits->IsInitialised()) {
const_cast<BoundType*>(inherits)->Finalise();
}
_size += inherits->GetSize();
}
for (auto& field : _fields) {
if (!field->GetType()->IsInitialised()) {
const_cast<BoundType*>(field->GetType())->Finalise();
}
_size += field->GetType()->GetSize();
}
}
[[nodiscard]] inline const Identifier& GetIdentifier() const noexcept { return _identifier; }
[[nodiscard]] inline size_t GetSize() const noexcept { return _size; }
[[nodiscard]] inline bool IsInitialised() const noexcept { return _initialised; }
[[nodiscard]] inline ClassAttr GetAttributes() const noexcept { return _classAttr; }
inline void AddInheritType(const BoundType* type) { _inherits.push_back(type); }
@ -27,8 +44,24 @@ namespace MalachScript::Binder {
_types[identifier] = const_cast<BoundType*>(type);
}
[[nodiscard]] inline const std::unordered_map<Identifier, BoundType*>& GetTypes() const noexcept {
return _types;
}
[[nodiscard]] inline const std::unordered_map<Identifier, BoundVariable*>& GetFieldsLookup() const noexcept {
return _fieldsLookup;
}
inline std::optional<BoundType*> ResolveType(const Identifier& identifier) const noexcept {
auto find = _types.find(identifier);
if (find == _types.end()) {
return {};
}
return find->second;
}
private:
bool _initialised = false;
Identifier _identifier;
ClassAttr _classAttr;
size_t _size = 0;
std::vector<const BoundType*> _inherits;

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@ -48,7 +48,7 @@ namespace MalachScript {
uint32_t _hash;
public:
Identifier() : _str(nullptr), _length(0), _hash(0) {}
Identifier() : _str(empty.c_str()), _length(0), _hash(0) {}
constexpr Identifier(const char* c) : _str(c), _length(CalcLength(c)), _hash(Hash(c)) {}
constexpr Identifier(const char* c, size_t length) : _str(c), _length(length), _hash(Hash(c)) {}
constexpr Identifier(const char* c, size_t length, uint32_t hash) : _str(c), _length(length), _hash(hash) {}

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@ -27,17 +27,17 @@ namespace MalachScript {
static constinit Identifier _autoName = "auto";
static Binder::BoundType _int8Type = Binder::BoundType(ClassAttr::None, sizeof(int8_t));
static Binder::BoundType _int16Type = Binder::BoundType(ClassAttr::None, sizeof(int16_t));
static Binder::BoundType _int32Type = Binder::BoundType(ClassAttr::None, sizeof(int32_t));
static Binder::BoundType _int64Type = Binder::BoundType(ClassAttr::None, sizeof(int64_t));
static Binder::BoundType _uint8Type = Binder::BoundType(ClassAttr::None, sizeof(uint8_t));
static Binder::BoundType _uint16Type = Binder::BoundType(ClassAttr::None, sizeof(uint16_t));
static Binder::BoundType _uint32Type = Binder::BoundType(ClassAttr::None, sizeof(uint32_t));
static Binder::BoundType _uint64Type = Binder::BoundType(ClassAttr::None, sizeof(uint64_t));
static Binder::BoundType _floatType = Binder::BoundType(ClassAttr::None, sizeof(float));
static Binder::BoundType _doubleType = Binder::BoundType(ClassAttr::None, sizeof(double));
static Binder::BoundType _boolType = Binder::BoundType(ClassAttr::None, sizeof(uint8_t));
static Binder::BoundType _int8Type = Binder::BoundType(_int8Name, ClassAttr::None, sizeof(int8_t));
static Binder::BoundType _int16Type = Binder::BoundType(_int16Name, ClassAttr::None, sizeof(int16_t));
static Binder::BoundType _int32Type = Binder::BoundType(_int32Name, ClassAttr::None, sizeof(int32_t));
static Binder::BoundType _int64Type = Binder::BoundType(_int64Name, ClassAttr::None, sizeof(int64_t));
static Binder::BoundType _uint8Type = Binder::BoundType(_uint8Name, ClassAttr::None, sizeof(uint8_t));
static Binder::BoundType _uint16Type = Binder::BoundType(_uint16Name, ClassAttr::None, sizeof(uint16_t));
static Binder::BoundType _uint32Type = Binder::BoundType(_uint32Name, ClassAttr::None, sizeof(uint32_t));
static Binder::BoundType _uint64Type = Binder::BoundType(_uint64Name, ClassAttr::None, sizeof(uint64_t));
static Binder::BoundType _floatType = Binder::BoundType(_floatName, ClassAttr::None, sizeof(float));
static Binder::BoundType _doubleType = Binder::BoundType(_doubleName, ClassAttr::None, sizeof(double));
static Binder::BoundType _boolType = Binder::BoundType(_boolName, ClassAttr::None, sizeof(uint8_t));
class PrimitiveTypes {
public:

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@ -10,6 +10,7 @@ namespace MalachScript::Diagnostics {
DoubleProperty,
UnknownType,
TypeAlreadyDefined,
};
}

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@ -24,7 +24,10 @@ namespace MalachScript::Diagnostics {
}
case DiagnosticType::DoubleProperty: return "Property block found twice.";
case DiagnosticType::UnknownType: util::Format("Unknown Type Encounted: '{0}'", diag->GetFormats());
case DiagnosticType::UnknownType:
return util::Format("Unknown Type Encounted: '{0}'", diag->GetFormats());
case DiagnosticType::TypeAlreadyDefined:
return util::Format("Type already defined: '{0}'", diag->GetFormats());
}
return std::to_string((uint8_t)diag->GetType());
}

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@ -159,7 +159,8 @@ namespace MalachScript::Parser {
ScopedPtr<const ParsedStatement> statement = nullptr;
// TODO: Sort by complexity
if (!ParseVirtProp(statement, current, log) && !ParseFunc(statement, current, log) &&
!ParseVar(statement, current, log) && !ParseFuncDef(statement, current, log)) {
!ParseVar(statement, current, log) && !ParseFuncDef(statement, current, log) &&
!ParseClass(statement, current, log)) {
logUnexpectedTokenWithoutExpected(current);
break;
}

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@ -1,13 +0,0 @@
#ifndef MALACHSCRIPT_TREEPRINTER_HPP
#define MALACHSCRIPT_TREEPRINTER_HPP
#include <sstream>
class MalachScript::Utils {
class TreePrinter {
public:
private:
std::stringstream _stream;
};
};
#endif // MALACHSCRIPT_TREEPRINTER_HPP