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[Fix][Impl] 为了消除类构造带来的语法歧义,同时保持实现简洁和括号省略的语法,自此版本,引入了 `new` 操作符
            造成歧义的原方法:
                if a == A{}
            条件是 a == A,还是 a == A{} ?

            因此,现在使用 new a_struct{}来构造类
[Opti] 相较于 Fig v0.4.1-alpha版本,release O3同编译条件下
       Fib普通递归法性能提升 ~50%
       具体方式:
            增加了小整数优化,-128~127的整数现在会直接从IntPool获取而不是新构造
            ...忘了
[Fix] 类构造 shorthand模式忘写了,现在补上了
[Feat][Impl] 类型声明现在接受一个表达式,原为Identifier。实现 var start: time.Time = time.now() 的效果
             这是符合语法和语言特性的支持,类型为一等公民。类似Python的 <class 'type'>

[Impl] 修改了部分错误输出的细节
This commit is contained in:
PuqiAR
2026-01-22 08:24:14 +08:00
parent 21641f888e
commit ca4ae143b4
27 changed files with 947 additions and 670 deletions
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8
src/Ast/Statements/FunctionDefSt.hpp
View File

@@ -23,14 +23,14 @@ namespace Fig::Ast
FString name;
FunctionParameters paras;
bool isPublic;
FString retType;
Expression retType;
BlockStatement body;
FunctionDefSt() :
retType(ValueType::Null.name)
FunctionDefSt()
{
type = AstType::FunctionDefSt;
}
FunctionDefSt(FString _name, FunctionParameters _paras, bool _isPublic, FString _retType, BlockStatement _body)
FunctionDefSt(FString _name, FunctionParameters _paras, bool _isPublic, Expression _retType, BlockStatement _body)
{
type = AstType::FunctionDefSt;

2
src/Ast/Statements/InterfaceDefSt.hpp
View File

@@ -25,7 +25,7 @@ namespace Fig::Ast
{
FString name;
FunctionParameters paras;
FString returnType;
Expression returnType;
BlockStatement defaultBody = nullptr; // nullptr is non-default func

6
src/Ast/Statements/StructDefSt.hpp
View File

@@ -12,12 +12,12 @@ namespace Fig::Ast
{
AccessModifier am;
FString fieldName;
FString tiName;
Expression declaredType;
Expression defaultValueExpr;
StructDefField() {}
StructDefField(AccessModifier _am, FString _fieldName, FString _tiName, Expression _defaultValueExpr) :
am(std::move(_am)), fieldName(std::move(_fieldName)), tiName(std::move(_tiName)), defaultValueExpr(std::move(_defaultValueExpr))
StructDefField(AccessModifier _am, FString _fieldName, Expression _declaredType, Expression _defaultValueExpr) :
am(std::move(_am)), fieldName(std::move(_fieldName)), declaredType(std::move(_declaredType)), defaultValueExpr(std::move(_defaultValueExpr))
{
}
};

16
src/Ast/Statements/VarDef.hpp
View File

@@ -11,22 +11,28 @@ namespace Fig::Ast
bool isPublic;
bool isConst;
FString name;
FString typeName;
// FString typeName;
Expression declaredType;
Expression expr;
VarDefAst() :
typeName(ValueType::Any.name)
bool followupType;
VarDefAst()
{
type = AstType::VarDefSt;
declaredType = nullptr;
expr = nullptr;
followupType = false;
}
VarDefAst(bool _isPublic, bool _isConst, FString _name, FString _info, Expression _expr) :
typeName(std::move(_info))
VarDefAst(bool _isPublic, bool _isConst, FString _name, Expression _declaredType, Expression _expr, bool _followupType)
{
type = AstType::VarDefSt;
isPublic = _isPublic;
isConst = _isConst;
name = std::move(_name);
declaredType = std::move(_declaredType);
expr = std::move(_expr);
followupType = _followupType;
}
};

91
src/Ast/astBase.hpp
View File

@@ -26,14 +26,15 @@ namespace Fig::Ast
TernaryExpr,
/* Postfix */
MemberExpr, // a.b
IndexExpr, // a[b]
MemberExpr, // a.b
IndexExpr, // a[b]
FunctionCall, // a()
/* Literals */
ListExpr, // [1, "2", 3
TupleExpr, // (1, 2, 3)
MapExpr, // {a: 1}
InitExpr, // struct{"123", 456}
FunctionLiteralExpr,
@@ -119,30 +120,20 @@ namespace Fig::Ast
_AstBase() {}
void setAAI(AstAddressInfo _aai)
{
aai = std::move(_aai);
}
void setAAI(AstAddressInfo _aai) { aai = std::move(_aai); }
virtual FString typeName()
{
return FString::fromStringView(
FStringView::fromBasicStringView(magic_enum::enum_name(type)));
return FString::fromStringView(FStringView::fromBasicStringView(magic_enum::enum_name(type)));
}
virtual FString toString()
{
return FString(std::format("<Base Ast '{}' at {}:{}>", typeName().toBasicString(), aai.line, aai.column));
}
AstAddressInfo getAAI()
{
return aai;
}
AstAddressInfo getAAI() { return aai; }
AstType getType()
{
return type;
}
AstType getType() { return type; }
};
class StatementAst : public _AstBase
@@ -150,10 +141,7 @@ namespace Fig::Ast
public:
using _AstBase::_AstBase;
using _AstBase::operator=;
StatementAst()
{
type = AstType::StatementBase;
}
StatementAst() { type = AstType::StatementBase; }
virtual FString toString() override
{
@@ -164,10 +152,7 @@ namespace Fig::Ast
class EofStmt final : public StatementAst
{
public:
EofStmt()
{
type = AstType::StatementBase;
}
EofStmt() { type = AstType::StatementBase; }
virtual FString toString() override
{
@@ -180,10 +165,7 @@ namespace Fig::Ast
public:
using _AstBase::_AstBase;
using _AstBase::operator=;
ExpressionAst()
{
type = AstType::ExpressionBase;
}
ExpressionAst() { type = AstType::ExpressionBase; }
virtual FString toString() override
{
@@ -242,41 +224,22 @@ namespace Fig::Ast
static const std::unordered_set<Operator> unaryOps{
Operator::Not, // !
Operator::Subtract, // -
Operator::BitNot, // ~
Operator::BitNot, // ~
Operator::BitAnd, // reference operator &
};
static const std::unordered_set<Operator> binaryOps{
Operator::Add,
Operator::Subtract,
Operator::Multiply,
Operator::Divide,
Operator::Modulo,
Operator::Power,
Operator::And,
Operator::Or,
Operator::Add, Operator::Subtract, Operator::Multiply, Operator::Divide,
Operator::Modulo, Operator::Power, Operator::And, Operator::Or,
Operator::Equal,
Operator::NotEqual,
Operator::Less,
Operator::LessEqual,
Operator::Greater,
Operator::GreaterEqual,
Operator::Is,
Operator::Equal, Operator::NotEqual, Operator::Less, Operator::LessEqual,
Operator::Greater, Operator::GreaterEqual, Operator::Is,
Operator::BitAnd,
Operator::BitOr,
Operator::BitXor,
Operator::BitNot,
Operator::ShiftLeft,
Operator::ShiftRight,
Operator::BitAnd, Operator::BitOr, Operator::BitXor, Operator::BitNot,
Operator::ShiftLeft, Operator::ShiftRight,
Operator::Assign,
Operator::PlusAssign,
Operator::MinusAssign,
Operator::AsteriskAssign,
Operator::SlashAssign,
Operator::CaretAssign
Operator::Assign, Operator::PlusAssign, Operator::MinusAssign, Operator::AsteriskAssign,
Operator::SlashAssign, Operator::CaretAssign
// Operator::Walrus,
// Operator::Dot
@@ -352,19 +315,9 @@ namespace Fig::Ast
{
public:
std::vector<Statement> stmts;
BlockStatementAst()
{
type = AstType::BlockStatement;
}
BlockStatementAst(std::vector<Statement> _stmts) :
stmts(std::move(_stmts))
{
type = AstType::BlockStatement;
}
virtual FString typeName() override
{
return FString(u8"BlockStatement");
}
BlockStatementAst() { type = AstType::BlockStatement; }
BlockStatementAst(std::vector<Statement> _stmts) : stmts(std::move(_stmts)) { type = AstType::BlockStatement; }
virtual FString typeName() override { return FString(u8"BlockStatement"); }
virtual FString toString() override
{
return FString(std::format("<StmtAst '{}' at {}:{}>", typeName().toBasicString(), aai.line, aai.column));

2
src/Core/core.hpp
View File

@@ -4,7 +4,7 @@
#include <cstdint>
#include <string_view>
#define __FCORE_VERSION "0.4.1-alpha"
#define __FCORE_VERSION "0.4.2-alpha"
#if defined(_WIN32)
#define __FCORE_PLATFORM "Windows"

8
src/Evaluator/Context/context.hpp
View File

@@ -1,5 +1,6 @@
#pragma once
#include "Ast/Statements/InterfaceDefSt.hpp"
#include "Value/interface.hpp"
#include <Value/Type.hpp>
#include <algorithm>
@@ -303,7 +304,7 @@ namespace Fig
return false;
}
Function getDefaultImplementedMethod(const TypeInfo &structType, const FString &functionName)
Ast::InterfaceMethod getDefaultImplementedMethod(const TypeInfo &structType, const FString &functionName)
{
// O(N²)
// SLOW
@@ -336,15 +337,12 @@ namespace Fig
if (method.name == functionName)
{
if (!method.hasDefaultBody()) assert(false);
return Function(
method.paras, TypeInfo(method.returnType), method.defaultBody, shared_from_this());
return method;
}
}
}
assert(false);
return Function(); // ignore warning
}
const Function &getImplementedMethod(const TypeInfo &structType, const FString &functionName) const

40
src/Evaluator/Value/IntPool.hpp Normal file
View File

@@ -0,0 +1,40 @@
#pragma once
#include "Value/value.hpp"
#include <Core/fig_string.hpp>
#include <Value/value_forward.hpp>
#include <Value/Type.hpp>
#include <array>
#include <memory>
namespace Fig
{
class IntPool
{
private:
static constexpr ValueType::IntClass CACHE_MIN = -128;
static constexpr ValueType::IntClass CACHE_MAX = 127;
std::array<ObjectPtr, CACHE_MAX - CACHE_MIN + 1> cache;
public:
IntPool()
{
for (ValueType::IntClass i = CACHE_MIN; i <= CACHE_MAX; ++i)
{
cache[i - CACHE_MIN] = std::make_shared<Object>(i);
}
}
ObjectPtr createInt(ValueType::IntClass val) const
{
if (val >= CACHE_MIN && val <= CACHE_MAX) { return cache[val - CACHE_MIN]; }
return std::make_shared<Object>(val);
}
static const IntPool &getInstance()
{
static IntPool pool;
return pool;
}
};
}; // namespace Fig

2
src/Evaluator/Value/LvObject.hpp
View File

@@ -87,7 +87,7 @@ namespace Fig
std::format("Variable `{}` expects type `{}`, but got '{}'",
s->name.toBasicString(),
s->declaredType.toString().toBasicString(),
v->getTypeInfo().toString().toBasicString())));
prettyType(v).toBasicString())));
}
if (isAccessConst(s->am))
{

5
src/Evaluator/Value/VariableSlot.hpp
View File

@@ -4,11 +4,12 @@
#include <Ast/AccessModifier.hpp>
#include <Core/fig_string.hpp>
#include <Value/Type.hpp>
#include <Value/value_forward.hpp>
#include <memory>
namespace Fig
{
class Object;
using ObjectPtr = std::shared_ptr<Object>;
struct VariableSlot
{
FString name;

67
src/Evaluator/Value/value.cpp
View File

@@ -1,3 +1,4 @@
#include "Value/structType.hpp"
#include <Value/Type.hpp>
#include <Value/value.hpp>
#include <Context/context.hpp>
@@ -26,9 +27,7 @@ namespace Fig
{
if (!typeMap.contains(_name))
{
throw RuntimeError(FString(std::format(
"No type named '{}'",
_name.toBasicString())));
throw RuntimeError(FString(std::format("No type named '{}'", _name.toBasicString())));
// *this = ValueType::String;
}
id = typeMap.at(name); // may throw
@@ -41,10 +40,7 @@ namespace Fig
ObjectPtr value = key.value;
const TypeInfo &type = value->getTypeInfo();
if (type == ValueType::Int)
{
return std::hash<ValueType::IntClass>{}(value->as<ValueType::IntClass>());
}
if (type == ValueType::Int) { return std::hash<ValueType::IntClass>{}(value->as<ValueType::IntClass>()); }
if (type == ValueType::Double)
{
return std::hash<ValueType::DoubleClass>{}(value->as<ValueType::DoubleClass>());
@@ -61,10 +57,7 @@ namespace Fig
{
auto HashFields = [](std::vector<Field> fields) {
size_t r = 0;
for (auto &f : fields)
{
r += std::hash<Field>{}(f);
}
for (auto &f : fields) { r += std::hash<Field>{}(f); }
return r;
};
const StructType &st = value->as<StructType>();
@@ -73,19 +66,30 @@ namespace Fig
if (type == ValueType::StructInstance)
{
const StructInstance &si = value->as<StructInstance>();
return std::hash<TypeInfo>{}(si.parentType) + std::hash<uint64_t>{}(reinterpret_cast<uint64_t>(std::addressof(*si.localContext)));
return std::hash<TypeInfo>{}(si.parentType)
+ std::hash<uint64_t>{}(reinterpret_cast<uint64_t>(std::addressof(*si.localContext)));
}
assert(false);
throw ""; // ignore warning
}
}
FString prettyType(std::shared_ptr<const Object> obj)
TypeInfo actualType(std::shared_ptr<const Object> obj)
{
auto t = obj->getTypeInfo();
if (t == ValueType::StructInstance)
return obj->as<StructInstance>().parentType.toString();
return t.toString();
// dispatch builtin struct types (like Int{}, List{} e.g...)
if (t == ValueType::StructType)
{
return obj->as<StructType>().type;
}
if (t == ValueType::StructInstance) return obj->as<StructInstance>().parentType;
return t;
}
FString prettyType(std::shared_ptr<const Object> obj)
{
return actualType(obj).toString();
}
const TypeInfo ValueType::Any(FString(u8"Any"), true); // id: 1
@@ -102,8 +106,6 @@ namespace Fig
const TypeInfo ValueType::Module(FString(u8"Module"), true); // id: 12
const TypeInfo ValueType::InterfaceType(FString(u8"InterfaceType"), true); // id: 13
bool implements(const TypeInfo &structType, const TypeInfo &interfaceType, ContextPtr ctx)
{
return ctx->hasImplRegisted(structType, interfaceType);
@@ -111,28 +113,25 @@ namespace Fig
bool isTypeMatch(const TypeInfo &expected, ObjectPtr obj, ContextPtr ctx)
{
if (expected == ValueType::Any)
return true;
if (expected == ValueType::Any) return true;
TypeInfo actual = obj->getTypeInfo();
if (obj->is<StructInstance>())
if (obj->is<StructType>())
{
const StructType &t = obj->as<StructType>();
if (expected == t.type) // the StructType typeinfo
{
return true;
}
}
else if (obj->is<StructInstance>())
{
const StructInstance &si = obj->as<StructInstance>();
if (si.parentType == expected)
{
return true;
}
if (implements(si.parentType, expected, ctx))
{
return true;
}
return false;
}
else
{
return expected == actual;
if (si.parentType == expected) { return true; }
if (implements(si.parentType, expected, ctx)) { return true; }
}
return expected == actual;
}
} // namespace Fig

41
src/Evaluator/Value/value.hpp
View File

@@ -6,6 +6,7 @@
#include <Value/Type.hpp>
#include <Value/valueError.hpp>
#include <Value/module.hpp>
#include <Value/value_forward.hpp>
#include <memory>
#include <variant>
@@ -31,10 +32,8 @@ namespace Fig
static_cast<ValueType::DoubleClass>(std::numeric_limits<ValueType::IntClass>::min());
return d > intMaxAsDouble || d < intMinAsDouble;
}
class Object;
using ObjectPtr = std::shared_ptr<Object>;
TypeInfo actualType(std::shared_ptr<const Object> obj);
FString prettyType(std::shared_ptr<const Object> obj);
bool operator==(const Object &, const Object &);
@@ -509,7 +508,7 @@ namespace Fig
{
bool bothInt = lhs.is<ValueType::IntClass>() && rhs.is<ValueType::IntClass>();
auto result = lhs.getNumericValue() + rhs.getNumericValue();
if (bothInt && !isNumberExceededIntLimit(result))
if (bothInt)
return Object(static_cast<ValueType::IntClass>(result));
return Object(result);
}
@@ -526,7 +525,7 @@ namespace Fig
{
bool bothInt = lhs.is<ValueType::IntClass>() && rhs.is<ValueType::IntClass>();
auto result = lhs.getNumericValue() - rhs.getNumericValue();
if (bothInt && !isNumberExceededIntLimit(result))
if (bothInt)
return Object(static_cast<ValueType::IntClass>(result));
return Object(result);
}
@@ -541,10 +540,20 @@ namespace Fig
{
bool bothInt = lhs.is<ValueType::IntClass>() && rhs.is<ValueType::IntClass>();
auto result = lhs.getNumericValue() * rhs.getNumericValue();
if (bothInt && !isNumberExceededIntLimit(result))
if (bothInt)
return Object(static_cast<ValueType::IntClass>(result));
return Object(result);
}
if (lhs.is<ValueType::StringClass>() && rhs.is<ValueType::IntClass>())
{
FString result;
const FString &l = lhs.as<ValueType::StringClass>();
for (size_t i=0; i < rhs.getNumericValue(); ++i)
{
result += l;
}
return Object(result);
}
throw ValueError(FString(makeTypeErrorMessage("Unsupported operation", "*", lhs, rhs)));
}
@@ -559,7 +568,7 @@ namespace Fig
throw ValueError(FString(makeTypeErrorMessage("Division by zero", "/", lhs, rhs)));
// bool bothInt = lhs.is<ValueType::IntClass>() && rhs.is<ValueType::IntClass>();
auto result = lhs.getNumericValue() / rnv;
// if (bothInt && !isNumberExceededIntLimit(result))
// if (bothInt)
// return Object(static_cast<ValueType::IntClass>(result));
// int / int maybe decimals
@@ -573,15 +582,24 @@ namespace Fig
{
if (lhs.isNull() || rhs.isNull())
throw ValueError(FString(makeTypeErrorMessage("Cannot modulo", "%", lhs, rhs)));
if (lhs.is<ValueType::IntClass>() && rhs.is<ValueType::IntClass>())
{
ValueType::IntClass lv = lhs.as<ValueType::IntClass>();
ValueType::IntClass rv = lhs.as<ValueType::IntClass>();
if (rv == 0) throw ValueError(FString(makeTypeErrorMessage("Modulo by zero", "/", lhs, rhs)));
ValueType::IntClass q = lv / rv;
ValueType::IntClass r = lv % rv;
if (r != 0 && ((lv < 0) != (rv < 0))) { q -= 1; }
return q;
}
if (lhs.isNumeric() && rhs.isNumeric())
{
auto rnv = rhs.getNumericValue();
if (rnv == 0)
throw ValueError(FString(makeTypeErrorMessage("Modulo by zero", "/", lhs, rhs)));
bool bothInt = lhs.is<ValueType::IntClass>() && rhs.is<ValueType::IntClass>();
auto result = std::fmod(lhs.getNumericValue(), rnv);
if (bothInt && !isNumberExceededIntLimit(result))
return Object(static_cast<ValueType::IntClass>(result));
return Object(result);
}
throw ValueError(FString(makeTypeErrorMessage("Unsupported operation", "%", lhs, rhs)));
@@ -698,7 +716,7 @@ namespace Fig
{
bool bothInt = base.is<ValueType::IntClass>() && exp.is<ValueType::IntClass>();
auto result = std::pow(base.getNumericValue(), exp.getNumericValue());
if (bothInt && !isNumberExceededIntLimit(result))
if (bothInt)
return Object(static_cast<ValueType::IntClass>(result));
return Object(result);
}
@@ -706,7 +724,6 @@ namespace Fig
}
};
using ObjectPtr = std::shared_ptr<Object>;
using RvObject = ObjectPtr;
inline bool operator==(const ValueKey &l, const ValueKey &r)

10
src/Evaluator/Value/value_forward.hpp Normal file
View File

@@ -0,0 +1,10 @@
#pragma once
#include <memory>
namespace Fig
{
class Object;
using ObjectPtr = std::shared_ptr<Object>;
}; // namespace Fig

817
src/Evaluator/evaluator.cpp
View File

@@ -1,3 +1,7 @@
#include <Ast/Expressions/VarExpr.hpp>
#include <Value/Type.hpp>
#include <Value/value.hpp>
#include <Value/IntPool.hpp>
#include <Ast/Statements/ErrorFlow.hpp>
#include <Value/VariableSlot.hpp>
#include <Value/value.hpp>
@@ -120,11 +124,11 @@ namespace Fig
}
else if (ctx->hasDefaultImplementedMethod(si.parentType, member))
{
const auto &ifm = ctx->getDefaultImplementedMethod(si.parentType, member);
Function fn(ifm.paras, actualType(eval(ifm.returnType, ctx)), ifm.defaultBody, ctx);
return LvObject(std::make_shared<VariableSlot>(
member,
std::make_shared<Object>(ctx->getDefaultImplementedMethod(si.parentType, member)),
ValueType::Function,
AccessModifier::PublicConst),
member, std::make_shared<Object>(fn), ValueType::Function, AccessModifier::PublicConst),
ctx);
}
else
@@ -222,6 +226,362 @@ namespace Fig
}
}
RvObject Evaluator::evalInitExpr(Ast::InitExpr initExpr, ContextPtr ctx)
{
LvObject structeLv = evalLv(initExpr->structe, ctx);
ObjectPtr structTypeVal = structeLv.get();
const FString &structName = structeLv.name();
if (!structTypeVal->is<StructType>())
{
throw EvaluatorError(u8"NotAStructTypeError",
std::format("'{}' is not a structure type", structName.toBasicString()),
initExpr);
}
const StructType &structT = structTypeVal->as<StructType>();
if (structT.builtin)
{
const TypeInfo &type = structT.type;
auto &args = initExpr->args;
size_t argSize = args.size();
if (argSize > 1)
{
throw EvaluatorError(u8"StructInitArgumentMismatchError",
std::format("Builtin class `{}` expects 0 or 1 argument, but {} were provided",
type.toString().toBasicString(),
argSize),
initExpr);
}
// default value
if (argSize == 0)
{
if (type == ValueType::Any || type == ValueType::Null || type == ValueType::Function)
{
throw EvaluatorError(
u8"BuiltinNotConstructibleError",
std::format("Builtin type `{}` cannot be constructed", type.toString().toBasicString()),
initExpr);
}
return std::make_shared<Object>(Object::defaultValue(type));
}
ObjectPtr val = eval(args[0].second, ctx);
auto err = [&](const char *msg) {
throw EvaluatorError(u8"BuiltinInitTypeMismatchError",
std::format("Builtin `{}` constructor {}", type.toString().toBasicString(), msg),
initExpr);
};
// ===================== Int =====================
if (type == ValueType::Int)
{
if (!val->is<ValueType::IntClass>()) err("expects Int");
return std::make_shared<Object>(val->as<ValueType::IntClass>());
}
// ===================== Double =====================
if (type == ValueType::Double)
{
if (!val->is<ValueType::DoubleClass>()) err("expects Double");
return std::make_shared<Object>(val->as<ValueType::DoubleClass>());
}
// ===================== Bool =====================
if (type == ValueType::Bool)
{
if (!val->is<ValueType::BoolClass>()) err("expects Bool");
return std::make_shared<Object>(val->as<ValueType::BoolClass>());
}
// ===================== String =====================
if (type == ValueType::String)
{
if (!val->is<ValueType::StringClass>()) err("expects String");
return std::make_shared<Object>(val->as<ValueType::StringClass>());
}
// ===================== Null =====================
if (type == ValueType::Null)
{
// Null basically ignores input but keep invariant strict:
if (!val->is<ValueType::NullClass>()) err("expects Null");
return Object::getNullInstance();
}
// ===================== List =====================
if (type == ValueType::List)
{
if (!val->is<List>()) err("expects List");
const auto &src = val->as<List>();
auto copied = std::make_shared<Object>(List{});
auto &dst = copied->as<List>();
dst.reserve(src.size());
for (auto &e : src) dst.push_back(e); // shallow element copy, but new container
return copied;
}
// ===================== Map =====================
if (type == ValueType::Map)
{
if (!val->is<Map>()) err("expects Map");
const auto &src = val->as<Map>();
auto copied = std::make_shared<Object>(Map{});
auto &dst = copied->as<Map>();
for (auto &[k, v] : src) dst.emplace(k, v);
return copied;
}
throw EvaluatorError(
u8"BuiltinNotConstructibleError",
std::format("Builtin type `{}` cannot be constructed", type.toString().toBasicString()),
initExpr);
}
ContextPtr defContext = structT.defContext; // definition context
// check init args
size_t minArgs = 0;
size_t maxArgs = structT.fields.size();
for (auto &f : structT.fields)
{
if (f.defaultValue == nullptr) minArgs++;
}
size_t got = initExpr->args.size();
if (got > maxArgs || got < minArgs)
{
throw EvaluatorError(u8"StructInitArgumentMismatchError",
std::format("Structure '{}' expects {} to {} fields, but {} were provided",
structName.toBasicString(),
minArgs,
maxArgs,
initExpr->args.size()),
initExpr);
}
std::vector<std::pair<FString, ObjectPtr>> evaluatedArgs;
auto evalArguments = [&evaluatedArgs, initExpr, ctx, this]() {
for (const auto &[argName, argExpr] : initExpr->args)
{
evaluatedArgs.push_back({argName, eval(argExpr, ctx)});
}
};
ContextPtr instanceCtx =
std::make_shared<Context>(FString(std::format("<StructInstance {}>", structName.toBasicString())), ctx);
/*
3 ways of calling constructor
.1 Person {"Fig", 1, "IDK"};
.2 Person {name: "Fig", age: 1, sex: "IDK"}; // can be unordered
.3 Person {name, age, sex};
*/
{
using enum Ast::InitExprAst::InitMode;
if (initExpr->initMode == Positional)
{
evalArguments();
for (size_t i = 0; i < maxArgs; ++i)
{
const Field &field = structT.fields[i];
const FString &fieldName = field.name;
const TypeInfo &expectedType = field.type;
if (i >= evaluatedArgs.size())
{
// we've checked argument count before, so here
// must be a default value
// evaluate default value in definition context
ObjectPtr defaultVal = eval(field.defaultValue,
ctx); // it can't be null here
// type check
if (!isTypeMatch(expectedType, defaultVal, ctx))
{
throw EvaluatorError(
u8"StructFieldTypeMismatchError",
std::format("In structure '{}', field '{}' expects type '{}', but got type '{}'",
structName.toBasicString(),
fieldName.toBasicString(),
expectedType.toString().toBasicString(),
prettyType(defaultVal).toBasicString()),
initExpr);
}
instanceCtx->def(fieldName, expectedType, field.am, defaultVal);
continue;
}
const ObjectPtr &argVal = evaluatedArgs[i].second;
if (!isTypeMatch(expectedType, argVal, ctx))
{
throw EvaluatorError(
u8"StructFieldTypeMismatchError",
std::format("In structure '{}', field '{}' expects type '{}', but got type '{}'",
structName.toBasicString(),
fieldName.toBasicString(),
expectedType.toString().toBasicString(),
prettyType(argVal).toBasicString()),
initExpr);
}
instanceCtx->def(fieldName, expectedType, field.am, argVal);
}
}
else if (initExpr->initMode == Named)
{
evalArguments();
// named
for (size_t i = 0; i < maxArgs; ++i)
{
const Field &field = structT.fields[i];
const FString &fieldName = (field.name.empty() ? evaluatedArgs[i].first : field.name);
if (instanceCtx->containsInThisScope(fieldName))
{
throw EvaluatorError(u8"StructFieldRedeclarationError",
std::format("Field '{}' already initialized in structure '{}'",
fieldName.toBasicString(),
structName.toBasicString()),
initExpr);
}
if (i + 1 > got)
{
// use default value //
// evaluate default value in definition context
ObjectPtr defaultVal = eval(field.defaultValue,
defContext); // it can't be null here
// type check
const TypeInfo &expectedType = field.type;
if (!isTypeMatch(expectedType, defaultVal, ctx))
{
throw EvaluatorError(
u8"StructFieldTypeMismatchError",
std::format("In structure '{}', field '{}' expects type '{}', but got type '{}'",
structName.toBasicString(),
fieldName.toBasicString(),
expectedType.toString().toBasicString(),
prettyType(defaultVal).toBasicString()),
initExpr);
}
instanceCtx->def(fieldName, field.type, field.am, defaultVal);
continue;
}
const ObjectPtr &argVal = evaluatedArgs[i].second;
if (!isTypeMatch(field.type, argVal, ctx))
{
throw EvaluatorError(
u8"StructFieldTypeMismatchError",
std::format("In structure '{}', field '{}' expects type '{}', but got type '{}'",
structName.toBasicString(),
fieldName.toBasicString(),
field.type.toString().toBasicString(),
prettyType(argVal).toBasicString()),
initExpr);
}
instanceCtx->def(fieldName, field.type, field.am, argVal);
}
}
else
{
// shorthand, can be unordered
// in this mode, initExpr args are all VarExpr
// field name is the variable name
for (const auto &[argName, argExpr] : initExpr->args)
{
// assert(argExpr->getType() == Ast::AstType::VarExpr);
// argName is var name
const ObjectPtr &argVal = eval(argExpr, ctx); // get the value
// find field
auto fieldIt = std::find_if(
structT.fields.begin(),
structT.fields.end(),
[&argName](const Field &f) { return f.name == argName; });
if (fieldIt == structT.fields.end())
{
throw EvaluatorError(u8"StructFieldNotFoundError",
std::format("Field '{}' not found in structure '{}'",
argName.toBasicString(),
structName.toBasicString()),
initExpr);
}
const Field &field = *fieldIt;
if (!isTypeMatch(field.type, argVal, ctx))
{
throw EvaluatorError(
u8"StructFieldTypeMismatchError",
std::format("In structure '{}', field '{}' expects type '{}', but got type '{}'",
structName.toBasicString(),
field.name.toBasicString(),
field.type.toString().toBasicString(),
prettyType(argVal).toBasicString()),
initExpr);
}
// field.name is argName (var name)
// Point{x=x, y=y} --> Point{x, y}
instanceCtx->def(field.name, field.type, field.am, argVal);
}
// fill default values
size_t currentFieldCount = initExpr->args.size(); // we have already check argument count, min <= got <= max
// so remain fields start from currentFieldCount to maxArgs
for (size_t i = currentFieldCount; i < maxArgs; ++i)
{
const Field &field = structT.fields[i];
// evaluate default value in definition context
ObjectPtr defaultVal = eval(field.defaultValue,
defContext); // it can't be null here
// type check
if (!isTypeMatch(field.type, defaultVal, ctx))
{
throw EvaluatorError(
u8"StructFieldTypeMismatchError",
std::format("In structure '{}', field '{}' expects type '{}', but got type '{}'",
structName.toBasicString(),
field.name.toBasicString(),
field.type.toString().toBasicString(),
prettyType(defaultVal).toBasicString()),
initExpr);
}
instanceCtx->def(field.name, field.type, field.am, defaultVal);
}
}
}
ContextPtr stDefCtx = structT.defContext;
// load struct method
for (auto &[id, fn] : stDefCtx->getFunctions())
{
auto funcNameOpt = stDefCtx->getFunctionName(id);
assert(funcNameOpt.has_value());
const FString &funcName = *funcNameOpt;
auto funcSlot = stDefCtx->get(funcName);
instanceCtx->def(funcName,
ValueType::Function,
funcSlot->am,
std::make_shared<Object>(Function(fn.paras, fn.retType, fn.body, instanceCtx)));
}
return std::make_shared<Object>(StructInstance(structT.type, instanceCtx));
}
RvObject Evaluator::evalBinary(Ast::BinaryExpr bin, ContextPtr ctx)
{
using Ast::Operator;
@@ -232,16 +592,37 @@ namespace Fig
case Operator::Add: {
ObjectPtr lhs = eval(lexp, ctx);
ObjectPtr rhs = eval(rexp, ctx);
if (lhs->is<ValueType::IntClass>() && rhs->is<ValueType::IntClass>())
{
ValueType::IntClass result = lhs->as<ValueType::IntClass>() + rhs->as<ValueType::IntClass>();
return IntPool::getInstance().createInt(result);
}
return std::make_shared<Object>(*lhs + *rhs);
}
case Operator::Subtract: {
ObjectPtr lhs = eval(lexp, ctx);
ObjectPtr rhs = eval(rexp, ctx);
if (lhs->is<ValueType::IntClass>() && rhs->is<ValueType::IntClass>())
{
ValueType::IntClass result = lhs->as<ValueType::IntClass>() - rhs->as<ValueType::IntClass>();
return IntPool::getInstance().createInt(result);
}
return std::make_shared<Object>(*lhs - *rhs);
};
case Operator::Multiply: {
ObjectPtr lhs = eval(lexp, ctx);
ObjectPtr rhs = eval(rexp, ctx);
if (lhs->is<ValueType::IntClass>() && rhs->is<ValueType::IntClass>())
{
ValueType::IntClass result = lhs->as<ValueType::IntClass>() * rhs->as<ValueType::IntClass>();
return IntPool::getInstance().createInt(result);
}
return std::make_shared<Object>((*lhs) * (*rhs));
};
case Operator::Divide: {
@@ -252,11 +633,40 @@ namespace Fig
case Operator::Modulo: {
ObjectPtr lhs = eval(lexp, ctx);
ObjectPtr rhs = eval(rexp, ctx);
if (lhs->is<ValueType::IntClass>() && rhs->is<ValueType::IntClass>())
{
ValueType::IntClass lv = lhs->as<ValueType::IntClass>();
ValueType::IntClass rv = lhs->as<ValueType::IntClass>();
if (rv == 0)
{
throw ValueError(
FString(
std::format(
"Modulo by zero: {} % {}",
lv,
rv
)
)
);
}
ValueType::IntClass result = lv / rv;
ValueType::IntClass r = lv % rv;
if (r != 0 && ((lv < 0) != (rv < 0))) { result -= 1; }
return IntPool::getInstance().createInt(result);
}
return std::make_shared<Object>(*lhs % *rhs);
};
case Operator::Power: {
ObjectPtr lhs = eval(lexp, ctx);
ObjectPtr rhs = eval(rexp, ctx);
if (lhs->is<ValueType::IntClass>() && rhs->is<ValueType::IntClass>())
{
ValueType::IntClass result = std::pow(lhs->as<ValueType::IntClass>(),rhs->as<ValueType::IntClass>());
return IntPool::getInstance().createInt(result);
}
return std::make_shared<Object>(power(*lhs, *rhs));
}
case Operator::And: {
@@ -343,34 +753,64 @@ namespace Fig
throw EvaluatorError(u8"TypeError",
std::format("Unsupported operator `is` for '{}' && '{}'",
lhsType.toString().toBasicString(),
rhsType.toString().toBasicString()),
prettyType(lhs).toBasicString(),
prettyType(rhs).toBasicString()),
bin->lexp);
}
case Operator::BitAnd: {
ObjectPtr lhs = eval(lexp, ctx);
ObjectPtr rhs = eval(rexp, ctx);
if (lhs->is<ValueType::IntClass>() && rhs->is<ValueType::IntClass>())
{
ValueType::IntClass result = lhs->as<ValueType::IntClass>() & rhs->as<ValueType::IntClass>();
return IntPool::getInstance().createInt(result);
}
return std::make_shared<Object>(bit_and(*lhs, *rhs));
}
case Operator::BitOr: {
ObjectPtr lhs = eval(lexp, ctx);
ObjectPtr rhs = eval(rexp, ctx);
if (lhs->is<ValueType::IntClass>() && rhs->is<ValueType::IntClass>())
{
ValueType::IntClass result = lhs->as<ValueType::IntClass>() | rhs->as<ValueType::IntClass>();
return IntPool::getInstance().createInt(result);
}
return std::make_shared<Object>(bit_or(*lhs, *rhs));
}
case Operator::BitXor: {
ObjectPtr lhs = eval(lexp, ctx);
ObjectPtr rhs = eval(rexp, ctx);
if (lhs->is<ValueType::IntClass>() && rhs->is<ValueType::IntClass>())
{
ValueType::IntClass result = lhs->as<ValueType::IntClass>() ^ rhs->as<ValueType::IntClass>();
return IntPool::getInstance().createInt(result);
}
return std::make_shared<Object>(bit_xor(*lhs, *rhs));
}
case Operator::ShiftLeft: {
ObjectPtr lhs = eval(lexp, ctx);
ObjectPtr rhs = eval(rexp, ctx);
if (lhs->is<ValueType::IntClass>() && rhs->is<ValueType::IntClass>())
{
ValueType::IntClass result = lhs->as<ValueType::IntClass>() << rhs->as<ValueType::IntClass>();
return IntPool::getInstance().createInt(result);
}
return std::make_shared<Object>(shift_left(*lhs, *rhs));
}
case Operator::ShiftRight: {
ObjectPtr lhs = eval(lexp, ctx);
ObjectPtr rhs = eval(rexp, ctx);
if (lhs->is<ValueType::IntClass>() && rhs->is<ValueType::IntClass>())
{
ValueType::IntClass result = lhs->as<ValueType::IntClass>() >> rhs->as<ValueType::IntClass>();
return IntPool::getInstance().createInt(result);
}
return std::make_shared<Object>(shift_right(*lhs, *rhs));
}
@@ -439,7 +879,6 @@ namespace Fig
case Operator::BitNot: {
return std::make_shared<Object>(bit_not((*value)));
}
default: {
throw EvaluatorError(u8"UnsupportedOpError",
std::format("Unsupported op '{}' for unary expression", magic_enum::enum_name(op)),
@@ -721,306 +1160,8 @@ namespace Fig
}
case AstType::InitExpr: {
auto initExpr = std::static_pointer_cast<Ast::InitExprAst>(exp);
LvObject structeLv = evalLv(initExpr->structe, ctx);
ObjectPtr structTypeVal = structeLv.get();
const FString &structName = structeLv.name();
if (!structTypeVal->is<StructType>())
{
throw EvaluatorError(u8"NotAStructTypeError",
std::format("'{}' is not a structure type", structName.toBasicString()),
initExpr);
}
const StructType &structT = structTypeVal->as<StructType>();
if (structT.builtin)
{
const TypeInfo &type = structT.type;
auto &args = initExpr->args;
size_t argSize = args.size();
if (argSize > 1)
{
throw EvaluatorError(
u8"StructInitArgumentMismatchError",
std::format("Builtin class `{}` expects 0 or 1 argument, but {} were provided",
type.toString().toBasicString(),
argSize),
initExpr);
}
// default value
if (argSize == 0)
{
if (type == ValueType::Any || type == ValueType::Null || type == ValueType::Function)
{
throw EvaluatorError(
u8"BuiltinNotConstructibleError",
std::format("Builtin type `{}` cannot be constructed", type.toString().toBasicString()),
initExpr);
}
return std::make_shared<Object>(Object::defaultValue(type));
}
ObjectPtr val = eval(args[0].second, ctx);
auto err = [&](const char *msg) {
throw EvaluatorError(
u8"BuiltinInitTypeMismatchError",
std::format("Builtin `{}` constructor {}", type.toString().toBasicString(), msg),
initExpr);
};
// ===================== Int =====================
if (type == ValueType::Int)
{
if (!val->is<ValueType::IntClass>()) err("expects Int");
return std::make_shared<Object>(val->as<ValueType::IntClass>());
}
// ===================== Double =====================
if (type == ValueType::Double)
{
if (!val->is<ValueType::DoubleClass>()) err("expects Double");
return std::make_shared<Object>(val->as<ValueType::DoubleClass>());
}
// ===================== Bool =====================
if (type == ValueType::Bool)
{
if (!val->is<ValueType::BoolClass>()) err("expects Bool");
return std::make_shared<Object>(val->as<ValueType::BoolClass>());
}
// ===================== String =====================
if (type == ValueType::String)
{
if (!val->is<ValueType::StringClass>()) err("expects String");
return std::make_shared<Object>(val->as<ValueType::StringClass>());
}
// ===================== Null =====================
if (type == ValueType::Null)
{
// Null basically ignores input but keep invariant strict:
if (!val->is<ValueType::NullClass>()) err("expects Null");
return Object::getNullInstance();
}
// ===================== List =====================
if (type == ValueType::List)
{
if (!val->is<List>()) err("expects List");
const auto &src = val->as<List>();
auto copied = std::make_shared<Object>(List{});
auto &dst = copied->as<List>();
dst.reserve(src.size());
for (auto &e : src) dst.push_back(e); // shallow element copy, but new container
return copied;
}
// ===================== Map =====================
if (type == ValueType::Map)
{
if (!val->is<Map>()) err("expects Map");
const auto &src = val->as<Map>();
auto copied = std::make_shared<Object>(Map{});
auto &dst = copied->as<Map>();
for (auto &[k, v] : src) dst.emplace(k, v);
return copied;
}
throw EvaluatorError(
u8"BuiltinNotConstructibleError",
std::format("Builtin type `{}` cannot be constructed", type.toString().toBasicString()),
initExpr);
}
ContextPtr defContext = structT.defContext; // definition context
// check init args
size_t minArgs = 0;
size_t maxArgs = structT.fields.size();
for (auto &f : structT.fields)
{
if (f.defaultValue == nullptr) minArgs++;
}
size_t got = initExpr->args.size();
if (got > maxArgs || got < minArgs)
{
throw EvaluatorError(u8"StructInitArgumentMismatchError",
std::format("Structure '{}' expects {} to {} fields, but {} were provided",
structName.toBasicString(),
minArgs,
maxArgs,
initExpr->args.size()),
initExpr);
}
std::vector<std::pair<FString, ObjectPtr>> evaluatedArgs;
for (const auto &[argName, argExpr] : initExpr->args)
{
evaluatedArgs.push_back({argName, eval(argExpr, ctx)});
}
ContextPtr instanceCtx = std::make_shared<Context>(
FString(std::format("<StructInstance {}>", structName.toBasicString())), ctx);
/*
3 ways of calling constructor
.1 Person {"Fig", 1, "IDK"};
.2 Person {name: "Fig", age: 1, sex: "IDK"}; // can be unordered
.3 Person {name, age, sex};
*/
{
using enum Ast::InitExprAst::InitMode;
if (initExpr->initMode == Positional)
{
for (size_t i = 0; i < maxArgs; ++i)
{
const Field &field = structT.fields[i];
const FString &fieldName = field.name;
const TypeInfo &expectedType = field.type;
if (i >= evaluatedArgs.size())
{
// we've checked argument count before, so here
// must be a default value
// evaluate default value in definition context
ObjectPtr defaultVal = eval(field.defaultValue,
ctx); // it can't be null here
// type check
if (!isTypeMatch(expectedType, defaultVal, ctx))
{
throw EvaluatorError(
u8"StructFieldTypeMismatchError",
std::format(
"In structure '{}', field '{}' expects type '{}', but got type '{}'",
structName.toBasicString(),
fieldName.toBasicString(),
expectedType.toString().toBasicString(),
prettyType(defaultVal).toBasicString()),
initExpr);
}
instanceCtx->def(fieldName, expectedType, field.am, defaultVal);
continue;
}
const ObjectPtr &argVal = evaluatedArgs[i].second;
if (!isTypeMatch(expectedType, argVal, ctx))
{
throw EvaluatorError(
u8"StructFieldTypeMismatchError",
std::format("In structure '{}', field '{}' expects type '{}', but got type '{}'",
structName.toBasicString(),
fieldName.toBasicString(),
expectedType.toString().toBasicString(),
prettyType(argVal).toBasicString()),
initExpr);
}
instanceCtx->def(fieldName, expectedType, field.am, argVal);
}
}
else
{
// named / shorthand init
for (size_t i = 0; i < maxArgs; ++i)
{
const Field &field = structT.fields[i];
const FString &fieldName = (field.name.empty() ? evaluatedArgs[i].first : field.name);
if (instanceCtx->containsInThisScope(fieldName))
{
throw EvaluatorError(u8"StructFieldRedeclarationError",
std::format("Field '{}' already initialized in structure '{}'",
fieldName.toBasicString(),
structName.toBasicString()),
initExpr);
}
if (i + 1 > got)
{
// use default value //
// evaluate default value in definition context
ObjectPtr defaultVal = eval(field.defaultValue,
defContext); // it can't be null here
// type check
const TypeInfo &expectedType = field.type;
if (!isTypeMatch(expectedType, defaultVal, ctx))
{
throw EvaluatorError(
u8"StructFieldTypeMismatchError",
std::format(
"In structure '{}', field '{}' expects type '{}', but got type '{}'",
structName.toBasicString(),
fieldName.toBasicString(),
expectedType.toString().toBasicString(),
prettyType(defaultVal).toBasicString()),
initExpr);
}
instanceCtx->def(fieldName, field.type, field.am, defaultVal);
continue;
}
const ObjectPtr &argVal = evaluatedArgs[i].second;
if (!isTypeMatch(field.type, argVal, ctx))
{
throw EvaluatorError(
u8"StructFieldTypeMismatchError",
std::format("In structure '{}', field '{}' expects type '{}', but got type '{}'",
structName.toBasicString(),
fieldName.toBasicString(),
field.type.toString().toBasicString(),
prettyType(argVal).toBasicString()),
initExpr);
}
instanceCtx->def(fieldName, field.type, field.am, argVal);
}
}
}
// instanceCtx->merge(*structT.defContext);
// for (auto &[id, fn] : instanceCtx->getFunctions())
// {
// instanceCtx->_update(*instanceCtx->getFunctionName(id),
// std::make_shared<Object>(Function(fn.paras,
// fn.retType,
// fn.body,
// instanceCtx) // change its closureContext to
// // struct instance's context
// ));
// }
ContextPtr stDefCtx = structT.defContext;
// load struct method
for (auto &[id, fn] : stDefCtx->getFunctions())
{
auto funcNameOpt = stDefCtx->getFunctionName(id);
assert(funcNameOpt.has_value());
const FString &funcName = *funcNameOpt;
auto funcSlot = stDefCtx->get(funcName);
instanceCtx->def(
funcName,
ValueType::Function,
funcSlot->am,
std::make_shared<Object>(Function(
fn.paras,
fn.retType,
fn.body,
instanceCtx
))
);
}
return std::make_shared<Object>(StructInstance(structT.type, instanceCtx));
assert(initExpr != nullptr);
return evalInitExpr(initExpr, ctx);
}
case AstType::ListExpr: {
@@ -1081,18 +1222,22 @@ namespace Fig
RvObject value = nullptr;
if (varDef->expr) { value = eval(varDef->expr, ctx); }
TypeInfo declaredType; // default is Any
const FString &declaredTypeName = varDef->typeName;
if (declaredTypeName == Parser::varDefTypeFollowed) { declaredType = value->getTypeInfo(); }
else if (!declaredTypeName.empty())
const Ast::Expression &declaredTypeExp = varDef->declaredType;
if (varDef->followupType) { declaredType = actualType(value); }
else if (declaredTypeExp)
{
declaredType = TypeInfo(declaredTypeName);
ObjectPtr declaredTypeValue = eval(declaredTypeExp, ctx);
declaredType = actualType(declaredTypeValue);
if (value != nullptr && !isTypeMatch(declaredType, value, ctx))
{
throw EvaluatorError(u8"TypeError",
std::format("Variable `{}` expects init-value type `{}`, but got '{}'",
varDef->name.toBasicString(),
declaredTypeName.toBasicString(),
prettyType(declaredTypeValue).toBasicString(),
prettyType(value).toBasicString()),
varDef->expr);
}
@@ -1120,7 +1265,14 @@ namespace Fig
std::format("Function `{}` already declared in this scope", fnName.toBasicString()),
fnDef);
}
Function fn(fnDef->paras, TypeInfo(fnDef->retType), fnDef->body, ctx);
TypeInfo returnType = ValueType::Any;
if (fnDef->retType)
{
ObjectPtr returnTypeValue = eval(fnDef->retType, ctx);
returnType = actualType(returnTypeValue);
}
Function fn(fnDef->paras, returnType, fnDef->body, ctx);
ctx->def(fnName,
ValueType::Function,
(fnDef->isPublic ? AccessModifier::PublicConst : AccessModifier::Const),
@@ -1151,7 +1303,14 @@ namespace Fig
stDef->name.toBasicString()),
stDef);
}
fields.push_back(Field(field.am, field.fieldName, TypeInfo(field.tiName), field.defaultValueExpr));
TypeInfo fieldType = ValueType::Any;
if (field.declaredType)
{
ObjectPtr declaredTypeValue = eval(field.declaredType, ctx);
fieldType = actualType(declaredTypeValue);
}
fields.push_back(Field(field.am, field.fieldName, fieldType, field.defaultValueExpr));
}
ContextPtr defContext = std::make_shared<Context>(FString(std::format("<Struct {} at {}:{}>",
stDef->name.toBasicString(),
@@ -1322,8 +1481,10 @@ namespace Fig
implemented.insert(name);
ObjectPtr returnTypeValue = eval(ifMethod.returnType, ctx);
record.implMethods[name] =
Function(implMethod.paras, TypeInfo(ifMethod.returnType), implMethod.body, ctx);
Function(implMethod.paras, actualType(returnTypeValue), implMethod.body, ctx);
}
for (auto &m : interface.methods)
@@ -1499,13 +1660,11 @@ namespace Fig
case BreakSt: {
if (!ctx->parent)
{
throw EvaluatorError(
u8"BreakOutsideLoopError", u8"`break` statement outside loop", stmt);
throw EvaluatorError(u8"BreakOutsideLoopError", u8"`break` statement outside loop", stmt);
}
if (!ctx->isInLoopContext())
{
throw EvaluatorError(
u8"BreakOutsideLoopError", u8"`break` statement outside loop", stmt);
throw EvaluatorError(u8"BreakOutsideLoopError", u8"`break` statement outside loop", stmt);
}
return StatementResult::breakFlow();
}
@@ -1513,13 +1672,11 @@ namespace Fig
case ContinueSt: {
if (!ctx->parent)
{
throw EvaluatorError(
u8"ContinueOutsideLoopError", u8"`continue` statement outside loop", stmt);
throw EvaluatorError(u8"ContinueOutsideLoopError", u8"`continue` statement outside loop", stmt);
}
if (!ctx->isInLoopContext())
{
throw EvaluatorError(
u8"ContinueOutsideLoopError", u8"`continue` statement outside loop", stmt);
throw EvaluatorError(u8"ContinueOutsideLoopError", u8"`continue` statement outside loop", stmt);
}
return StatementResult::continueFlow();
}
@@ -1531,6 +1688,15 @@ namespace Fig
return StatementResult::normal(eval(exprStmt->exp, ctx));
}
case BlockStatement: {
auto block = std::static_pointer_cast<Ast::BlockStatementAst>(stmt);
assert(block != nullptr);
ContextPtr blockCtx = std::make_shared<Context>(
FString(std::format("<Block at {}:{}>", block->getAAI().line, block->getAAI().column)), ctx);
return evalBlockStatement(block, blockCtx);
}
default:
throw RuntimeError(
FString(std::format("Feature stmt {} unsupported yet", magic_enum::enum_name(stmt->getType()))));
@@ -1690,9 +1856,8 @@ namespace Fig
if (ctx->containsInThisScope(modName))
{
throw EvaluatorError(u8"RedeclarationError",
std::format("{} has already been declared.", modName.toBasicString()),
i);
throw EvaluatorError(
u8"RedeclarationError", std::format("{} has already been declared.", modName.toBasicString()), i);
}
ctx->def(
modName, ValueType::Module, AccessModifier::PublicConst, std::make_shared<Object>(Module(modName, modCtx)));

3
src/Evaluator/evaluator.hpp
View File

@@ -1,3 +1,4 @@
#include "Ast/Expressions/InitExpr.hpp"
#include <Ast/Statements/ImplementSt.hpp>
#include <Ast/Statements/InterfaceDefSt.hpp>
#include <Value/Type.hpp>
@@ -127,7 +128,7 @@ namespace Fig
LvObject evalLv(Ast::Expression, ContextPtr); // for access: a.b / index a[b]
/* Right-value eval*/
RvObject evalInitExpr(Ast::InitExpr, ContextPtr); // only allows evalUnary to call
RvObject evalBinary(Ast::BinaryExpr, ContextPtr); // normal binary expr: +, -, *....
RvObject evalUnary(Ast::UnaryExpr, ContextPtr); // unary expr
RvObject evalTernary(Ast::TernaryExpr, ContextPtr); // ternary expr

6
src/Lexer/lexer.cpp
View File

@@ -66,7 +66,10 @@ namespace Fig
{FString(u8"["), TokenType::LeftBracket},
{FString(u8"]"), TokenType::RightBracket},
{FString(u8"{"), TokenType::LeftBrace},
{FString(u8"}"), TokenType::RightBrace}};
{FString(u8"}"), TokenType::RightBrace},
{FString(u8"?"), TokenType::Question},
{FString(u8"!"), TokenType::Not},
};
const std::unordered_map<FString, TokenType> Lexer::keyword_map{
{FString(u8"and"), TokenType::And},
@@ -81,6 +84,7 @@ namespace Fig
{FString(u8"for"), TokenType::For},
{FString(u8"if"), TokenType::If},
{FString(u8"else"), TokenType::Else},
{FString(u8"new"), TokenType::New},
{FString(u8"struct"), TokenType::Struct},
{FString(u8"interface"), TokenType::Interface},
{FString(u8"impl"), TokenType::Implement},

24
src/Module/Library/std/formater/formater.fig
View File

@@ -33,14 +33,14 @@ public func format(objects ...) -> Any
{
if objects.length() < 1
{
throw FormatError{"Require format string"};
throw new FormatError{"Require format string"};
}
var fmt := objects[0];
var fmtType := value.type(fmt);
if fmtType != "String"
{
throw FormatError{"arg 0 (fmt) must be String type, got " + fmtType};
throw new FormatError{"arg 0 (fmt) must be String type, got " + fmtType};
}
var result := "";
@@ -56,7 +56,7 @@ public func format(objects ...) -> Any
{
if (i + 1 >= length)
{
throw FormatError{"unclosed brace"};
throw new FormatError{"unclosed brace"};
}
var nextChar = fmt[i + 1];
@@ -80,12 +80,12 @@ public func format(objects ...) -> Any
if endIndex == -1
{
throw FormatError{"unclosed brace"};
throw new FormatError{"unclosed brace"};
}
if argIndex >= objects.length()
{
throw FormatError{"require enough format expression"};
throw new FormatError{"require enough format expression"};
}
result += value.string_from(objects[argIndex]);
@@ -102,7 +102,7 @@ public func format(objects ...) -> Any
continue;
}
throw FormatError{"invalid format syntax"};
throw new FormatError{"invalid format syntax"};
}
else
{
@@ -122,14 +122,14 @@ public func formatByListArgs(objects) -> Any
}
if objects.length() < 1
{
throw FormatError{"Require format string"};
throw new FormatError{"Require format string"};
}
var fmt := objects[0];
var fmtType := value.type(fmt);
if fmtType != "String"
{
throw FormatError{"arg 0 (fmt) must be String type, got " + fmtType};
throw new FormatError{"arg 0 (fmt) must be String type, got " + fmtType};
}
var result := "";
@@ -145,7 +145,7 @@ if objects.length() < 1
{
if (i + 1 >= length)
{
throw FormatError{"unclosed brace"};
throw new FormatError{"unclosed brace"};
}
var nextChar = fmt[i + 1];
@@ -169,12 +169,12 @@ if objects.length() < 1
if endIndex == -1
{
throw FormatError{"unclosed brace"};
throw new FormatError{"unclosed brace"};
}
if argIndex >= objects.length()
{
throw FormatError{"require enough format expression"};
throw new FormatError{"require enough format expression"};
}
result += value.string_from(objects[argIndex]);
@@ -191,7 +191,7 @@ if objects.length() < 1
continue;
}
throw FormatError{"invalid format syntax"};
throw new FormatError{"invalid format syntax"};
}
else
{

2
src/Module/Library/std/time/time.fig
View File

@@ -47,5 +47,5 @@ public struct Time
public func now() -> Time
{
return Time{__ftime_now_ns()};
return new Time{__ftime_now_ns()};
}

21
src/Module/builtins.hpp
View File

@@ -1,5 +1,8 @@
#pragma once
#include "Ast/Expressions/VarExpr.hpp"
#include "Ast/Statements/VarDef.hpp"
#include "Ast/astBase.hpp"
#include <Ast/Statements/InterfaceDefSt.hpp>
#include <Ast/functionParameters.hpp>
#include <Core/fig_string.hpp>
@@ -35,11 +38,19 @@ namespace Fig
{u8"true", Object::getTrueInstance()},
{u8"false", Object::getFalseInstance()},
{u8"Error",
std::make_shared<Object>(InterfaceType(
ErrorInterfaceTypeInfo,
{Ast::InterfaceMethod(u8"toString", Ast::FunctionParameters({}, {}), u8"String", nullptr),
Ast::InterfaceMethod(u8"getErrorClass", Ast::FunctionParameters({}, {}), u8"String", nullptr),
Ast::InterfaceMethod(u8"getErrorMessage", Ast::FunctionParameters({}, {}), u8"String", nullptr)}))},
std::make_shared<Object>(InterfaceType(ErrorInterfaceTypeInfo,
{Ast::InterfaceMethod(u8"toString",
Ast::FunctionParameters({}, {}),
std::make_shared<Ast::VarExprAst>(u8"String"),
nullptr),
Ast::InterfaceMethod(u8"getErrorClass",
Ast::FunctionParameters({}, {}),
std::make_shared<Ast::VarExprAst>(u8"String"),
nullptr),
Ast::InterfaceMethod(u8"getErrorMessage",
Ast::FunctionParameters({}, {}),
std::make_shared<Ast::VarExprAst>(u8"String"),
nullptr)}))},
{u8"Any", std::make_shared<Object>(StructType(ValueType::Any, nullptr, {}, true))},
{u8"Int", std::make_shared<Object>(StructType(ValueType::Int, nullptr, {}, true))},

289
src/Parser/parser.cpp
View File

@@ -1,9 +1,9 @@
#include "Ast/Statements/ErrorFlow.hpp"
#include "Ast/Statements/ImplementSt.hpp"
#include "Ast/astBase.hpp"
#include "Ast/functionParameters.hpp"
#include "Error/error.hpp"
#include "Token/token.hpp"
#include <Ast/Statements/ErrorFlow.hpp>
#include <Ast/Statements/ImplementSt.hpp>
#include <Ast/astBase.hpp>
#include <Ast/functionParameters.hpp>
#include <Error/error.hpp>
#include <Token/token.hpp>
#include <Parser/parser.hpp>
namespace Fig
@@ -54,17 +54,17 @@ namespace Fig
// // 点运算符
// {Ast::Operator::Dot, {40, 41}},
{Ast::Operator::TernaryCond, {3, 2}},
};
const std::unordered_map<Ast::Operator, Parser::Precedence> Parser::unaryOpPrecedence = {
{Ast::Operator::Subtract, 150}, // -
{Ast::Operator::BitAnd, 150}, // &
{Ast::Operator::BitNot, 150}, // ~
{Ast::Operator::Not, 150}, // !
{Ast::Operator::BitAnd, 150}, // &
{Ast::Operator::BitNot, 150}, // ~
{Ast::Operator::Not, 150}, // !
};
Ast::VarDef
Parser::__parseVarDef(bool isPublic)
Ast::VarDef Parser::__parseVarDef(bool isPublic)
{
// entry: current is keyword `var` or `const`
bool isConst = (currentToken().getType() == TokenType::Const ? true : false);
@@ -72,31 +72,31 @@ namespace Fig
expect(TokenType::Identifier);
FString name = currentToken().getValue();
next();
FString tiName = ValueType::Any.name;
Ast::Expression declaredType = nullptr;
bool hasSpecificType = false;
if (isThis(TokenType::Colon)) // :
{
expectPeek(TokenType::Identifier, FString(u8"Type name"));
next();
tiName = currentToken().getValue();
next();
next(); // consume `:`
declaredType = parseExpression(0, TokenType::Assign, TokenType::Semicolon);
hasSpecificType = true;
}
if (isThis(TokenType::Semicolon))
{
next(); // consume `;`, no using expectConsume here cause we don't need to check again
return makeAst<Ast::VarDefAst>(isPublic, isConst, name, tiName, nullptr);
return makeAst<Ast::VarDefAst>(isPublic, isConst, name, declaredType, nullptr, false);
}
if (!isThis(TokenType::Assign) and !isThis(TokenType::Walrus)) expect(TokenType::Assign, u8"assign or walrus");
bool followupType = false;
if (isThis(TokenType::Walrus))
{
if (hasSpecificType) throwAddressableError<SyntaxError>(FString(u8""));
tiName = Parser::varDefTypeFollowed;
followupType = true;
}
next();
Ast::Expression exp = parseExpression(0);
expectSemicolon();
return makeAst<Ast::VarDefAst>(isPublic, isConst, name, tiName, exp);
return makeAst<Ast::VarDefAst>(isPublic, isConst, name, declaredType, exp, followupType);
}
ObjectPtr Parser::__parseValue()
@@ -133,18 +133,12 @@ namespace Fig
return std::make_shared<Object>(i);
}
}
else if (currentToken().getType() == TokenType::LiteralString)
{
return std::make_shared<Object>(_val);
}
else if (currentToken().getType() == TokenType::LiteralString) { return std::make_shared<Object>(_val); }
else if (currentToken().getType() == TokenType::LiteralBool)
{
return std::make_shared<Object>((_val == u8"true" ? true : false));
}
else if (currentToken().getType() == TokenType::LiteralNull)
{
return Object::getNullInstance();
}
else if (currentToken().getType() == TokenType::LiteralNull) { return Object::getNullInstance(); }
else
{
throw std::runtime_error(std::string("Internal Error at: ") + std::string(__func__));
@@ -237,17 +231,17 @@ namespace Fig
next();
expect(TokenType::LeftParen);
Ast::FunctionParameters params = __parseFunctionParameters();
FString retTiName = ValueType::Any.name;
Ast::Expression returnType;
if (isThis(TokenType::RightArrow)) // ->
{
next(); // skip `->`
expect(TokenType::Identifier);
retTiName = currentToken().getValue();
next(); // skip return type
returnType = parseExpression(0, TokenType::LeftBrace, TokenType::Semicolon);
}
expect(TokenType::LeftBrace);
Ast::BlockStatement body = __parseBlockStatement();
return makeAst<Ast::FunctionDefSt>(funcName, params, isPublic, retTiName, body);
return makeAst<Ast::FunctionDefSt>(funcName, params, isPublic, returnType, body);
}
Ast::StructDef Parser::__parseStructDef(bool isPublic)
{
@@ -289,13 +283,11 @@ namespace Fig
{
throwAddressableError<SyntaxError>(FString(std::format("expect field name or field attribute")));
}
FString tiName = ValueType::Any.name;
Ast::Expression fieldType = nullptr;
if (isThis(TokenType::Colon))
{
next();
expect(TokenType::Identifier, u8"type name");
tiName = currentToken().getValue();
next();
next(); // consume `:`
fieldType = parseExpression(0, TokenType::Assign, TokenType::Semicolon);
}
Ast::Expression initExpr = nullptr;
if (isThis(TokenType::Assign))
@@ -305,7 +297,7 @@ namespace Fig
initExpr = parseExpression(0);
}
expectSemicolon();
return Ast::StructDefField(am, fieldName, tiName, initExpr);
return Ast::StructDefField(am, fieldName, fieldType, initExpr);
};
std::vector<Ast::Statement> stmts;
std::vector<Ast::StructDefField> fields;
@@ -318,10 +310,7 @@ namespace Fig
next(); // consume `}`
break;
}
if (isThis(TokenType::Identifier))
{
fields.push_back(__parseStructField(false));
}
if (isThis(TokenType::Identifier)) { fields.push_back(__parseStructField(false)); }
else if (isThis(TokenType::Public))
{
if (isNext(TokenType::Const))
@@ -361,23 +350,18 @@ namespace Fig
next(); // consume `struct`
stmts.push_back(__parseStructDef(false));
}
else if (isThis(TokenType::Const))
{
fields.push_back(__parseStructField(false));
}
else if (isThis(TokenType::Const)) { fields.push_back(__parseStructField(false)); }
else if (isThis(TokenType::Variable))
{
throwAddressableError<SyntaxError>(FString("Variables are not allowed to be defined within a structure."));
throwAddressableError<SyntaxError>(
FString("Variables are not allowed to be defined within a structure."));
}
else
{
throwAddressableError<SyntaxError>(FString("Invalid syntax"));
}
}
if (!braceClosed)
{
throwAddressableError<SyntaxError>(FString("braces are not closed"));
}
if (!braceClosed) { throwAddressableError<SyntaxError>(FString("braces are not closed")); }
return makeAst<Ast::StructDefSt>(isPublic, structName, fields, makeAst<Ast::BlockStatementAst>(stmts));
}
@@ -409,27 +393,18 @@ namespace Fig
expect(TokenType::RightArrow); // ->
next(); // consume `->`
expect(TokenType::Identifier, u8"return type");
FString returnType = currentToken().getValue();
next(); // consume return type
Ast::Expression returnType = parseExpression(0, TokenType::LeftBrace, TokenType::Semicolon);
if (isThis(TokenType::LeftBrace))
{
Ast::BlockStatement block = __parseBlockStatement();
methods.push_back(Ast::InterfaceMethod(
funcName,
paras,
returnType,
block));
methods.push_back(Ast::InterfaceMethod(funcName, paras, returnType, block));
continue;
}
expectSemicolon();
methods.push_back(Ast::InterfaceMethod(
funcName,
paras,
returnType));
methods.push_back(Ast::InterfaceMethod(funcName, paras, returnType));
}
else
{
@@ -454,7 +429,7 @@ namespace Fig
FString structName = currentToken().getValue();
next(); // consume name
expect(TokenType::LeftBrace); // {
next(); // consume `{`
next(); // consume `{`
std::vector<Ast::ImplementMethod> methods;
@@ -473,10 +448,7 @@ namespace Fig
Ast::FunctionParameters paras = __parseFunctionParameters();
expect(TokenType::LeftBrace);
Ast::BlockStatement body = __parseBlockStatement();
methods.push_back(Ast::ImplementMethod(
funcName,
paras,
body));
methods.push_back(Ast::ImplementMethod(funcName, paras, body));
}
else
{
@@ -501,18 +473,18 @@ namespace Fig
{
// entry: current is `try`
next(); // consume `try`
/*
try
{
...
...
}
catch(e: IOError)
{
}
catch(e: TimeOutError)
{
}
}
*/
expect(TokenType::LeftBrace);
Ast::BlockStatement body = __parseBlockStatement();
@@ -540,15 +512,13 @@ namespace Fig
hasType = true;
}
expect(TokenType::RightParen); //
next(); // consume `)`
expect(TokenType::LeftBrace); // {
next(); // consume `)`
expect(TokenType::LeftBrace); // {
Ast::BlockStatement catchBody = __parseBlockStatement();
if (hasType)
if (hasType) { catches.push_back(Ast::Catch(errVarName, errVarType, catchBody)); }
else
{
catches.push_back(Ast::Catch(errVarName, errVarType, catchBody));
}
else {
catches.push_back(Ast::Catch(errVarName, catchBody));
}
}
@@ -563,7 +533,7 @@ namespace Fig
expect(TokenType::LeftBrace);
finallyBlock = __parseBlockStatement();
}
else
else
{
break;
}
@@ -575,17 +545,11 @@ namespace Fig
{
Ast::Statement stmt;
if (isThis(TokenType::EndOfFile)) { return makeAst<Ast::EofStmt>(); }
else if (isThis(TokenType::Import))
{
stmt = __parseImport();
}
else if (isThis(TokenType::Import)) { stmt = __parseImport(); }
else if (isThis(TokenType::Public))
{
next(); // consume `public`
if (isThis(TokenType::Variable) || isThis(TokenType::Const))
{
stmt = __parseVarDef(true);
}
if (isThis(TokenType::Variable) || isThis(TokenType::Const)) { stmt = __parseVarDef(true); }
else if (isThis(TokenType::Function) and isNext(TokenType::Identifier))
{
next();
@@ -596,19 +560,14 @@ namespace Fig
next();
stmt = __parseStructDef(true);
}
else if (isThis(TokenType::Interface))
{
stmt = __parseInterfaceDef(true);
}
else if (isThis(TokenType::Interface)) { stmt = __parseInterfaceDef(true); }
else
{
throwAddressableError<SyntaxError>(FString(u8"Expected `var`, `const`, `function`, `struct` or `interface` after `public`"));
throwAddressableError<SyntaxError>(
FString(u8"Expected `var`, `const`, `function`, `struct` or `interface` after `public`"));
}
}
else if (isThis(TokenType::Variable) || isThis(TokenType::Const))
{
stmt = __parseVarDef(false);
}
else if (isThis(TokenType::Variable) || isThis(TokenType::Const)) { stmt = __parseVarDef(false); }
else if (isThis(TokenType::Function) and isNext(TokenType::Identifier))
{
next();
@@ -626,50 +585,20 @@ namespace Fig
next();
stmt = __parseInterfaceDef(false);
}
else if (isThis(TokenType::Implement))
{
stmt = __parseImplement();
}
else if (isThis(TokenType::If))
{
stmt = __parseIf();
}
else if (isThis(TokenType::Implement)) { stmt = __parseImplement(); }
else if (isThis(TokenType::If)) { stmt = __parseIf(); }
else if (isThis(TokenType::Else))
{
throwAddressableError<SyntaxError>(FString(u8"`else` without matching `if`"));
}
else if (isThis(TokenType::LeftBrace))
{
stmt = __parseBlockStatement();
}
else if (isThis(TokenType::While))
{
stmt = __parseWhile();
}
else if (isThis(TokenType::For))
{
stmt = __parseFor();
}
else if (isThis(TokenType::Return))
{
stmt = __parseReturn();
}
else if (isThis(TokenType::Break))
{
stmt = __parseBreak();
}
else if (isThis(TokenType::Continue))
{
stmt = __parseContinue();
}
else if (isThis(TokenType::Throw))
{
stmt = __parseThrow();
}
else if (isThis(TokenType::Try))
{
stmt = __parseTry();
}
else if (isThis(TokenType::LeftBrace)) { stmt = __parseBlockStatement(); }
else if (isThis(TokenType::While)) { stmt = __parseWhile(); }
else if (isThis(TokenType::For)) { stmt = __parseFor(); }
else if (isThis(TokenType::Return)) { stmt = __parseReturn(); }
else if (isThis(TokenType::Break)) { stmt = __parseBreak(); }
else if (isThis(TokenType::Continue)) { stmt = __parseContinue(); }
else if (isThis(TokenType::Throw)) { stmt = __parseThrow(); }
else if (isThis(TokenType::Try)) { stmt = __parseTry(); }
else if (allowExp)
{
// expression statement
@@ -677,7 +606,7 @@ namespace Fig
expectSemicolon();
stmt = makeAst<Ast::ExpressionStmtAst>(exp);
}
else
else
{
throwAddressableError<SyntaxError>(u8"invalid syntax", currentAAI.line, currentAAI.column);
}
@@ -766,7 +695,7 @@ namespace Fig
}
else
{
condition = parseExpression(0);
condition = parseExpression(0, TokenType::LeftBrace);
}
expect(TokenType::LeftBrace); // {
Ast::BlockStatement body = __parseBlockStatement();
@@ -784,7 +713,8 @@ namespace Fig
throwAddressableError<SyntaxError>(u8"BlockStatement cannot be used as for loop increment");
}
if (isThis(TokenType::If) || isThis(TokenType::While) || isThis(TokenType::For) || isThis(TokenType::Return) || isThis(TokenType::Break) || isThis(TokenType::Continue))
if (isThis(TokenType::If) || isThis(TokenType::While) || isThis(TokenType::For) || isThis(TokenType::Return)
|| isThis(TokenType::Break) || isThis(TokenType::Continue))
{
throwAddressableError<SyntaxError>(u8"Control flow statements cannot be used as for loop increment");
}
@@ -799,8 +729,7 @@ namespace Fig
// TODO: support enumeration
next(); // consume `for`
bool paren = isThis(TokenType::LeftParen);
if (paren)
next(); // consume `(`
if (paren) next(); // consume `(`
// support 3-part for loop
// for init; condition; increment {}
Ast::Statement initStmt = __parseStatement(false); // auto check ``
@@ -813,8 +742,7 @@ namespace Fig
// auto guard = disableSemicolon();
incrementStmt = __parseIncrementStatement();
} // after parse increment, semicolon check state restored
if (paren)
expectConsume(TokenType::RightParen); // consume `)` if has `(`
if (paren) expectConsume(TokenType::RightParen); // consume `)` if has `(`
expect(TokenType::LeftBrace); // {
Ast::BlockStatement body = __parseBlockStatement(); // auto consume `}`
return makeAst<Ast::ForSt>(initStmt, condition, incrementStmt, body);
@@ -938,10 +866,7 @@ namespace Fig
{
if (mode == 0)
{
if (isThis(TokenType::Identifier) && isNext(TokenType::Colon))
{
mode = 2;
}
if (isThis(TokenType::Identifier) && isNext(TokenType::Colon)) { mode = 2; }
else if (isThis(TokenType::Identifier) && (isNext(TokenType::Comma) || isNext(TokenType::RightBrace)))
{
mode = 3;
@@ -985,17 +910,19 @@ namespace Fig
}
else if (!isThis(TokenType::RightBrace))
{
throwAddressableError<SyntaxError>(FString(
std::format("Expect `,` or `}}` in struct initialization expression, got {}",
currentToken().toString().toBasicString())));
throwAddressableError<SyntaxError>(
FString(std::format("Expect `,` or `}}` in struct initialization expression, got {}",
currentToken().toString().toBasicString())));
}
}
expect(TokenType::RightBrace);
next(); // consume `}`
return makeAst<Ast::InitExprAst>(structe, args,
(mode == 1 ? Ast::InitExprAst::InitMode::Positional :
(mode == 2 ? Ast::InitExprAst::InitMode::Named : Ast::InitExprAst::InitMode::Shorthand)));
return makeAst<Ast::InitExprAst>(
structe,
args,
static_cast<Ast::InitExprAst::InitMode>(mode));
}
Ast::Expression Parser::__parseTupleOrParenExpr()
{
next();
@@ -1017,8 +944,7 @@ namespace Fig
{
next(); // consume ','
if (currentToken().getType() == TokenType::RightParen)
break;
if (currentToken().getType() == TokenType::RightParen) break;
elements.push_back(parseExpression(0));
}
@@ -1069,10 +995,7 @@ namespace Fig
expect(TokenType::Identifier, u8"package name");
path.push_back(currentToken().getValue());
next(); // consume package name
if (isThis(TokenType::Semicolon))
{
break;
}
if (isThis(TokenType::Semicolon)) { break; }
else if (isThis(TokenType::Dot))
{
next(); // consume `.`
@@ -1092,8 +1015,7 @@ namespace Fig
Ast::Operator op;
Token tok = currentToken();
if (tok == EOFTok)
throwAddressableError<SyntaxError>(FString(u8"Unexpected end of expression"));
if (tok == EOFTok) throwAddressableError<SyntaxError>(FString(u8"Unexpected end of expression"));
if (tok.getType() == stop || tok.getType() == stop2)
{
if (lhs == nullptr) throwAddressableError<SyntaxError>(FString(u8"Expected expression"));
@@ -1139,6 +1061,14 @@ namespace Fig
next();
lhs = makeAst<Ast::UnaryExprAst>(op, parseExpression(bp, stop, stop2));
}
else if (tok.getType() == TokenType::New)
{
// `new` now is an independent syntax
next();
Ast::Expression operand = parseExpression(bp, TokenType::LeftBrace);
expect(TokenType::LeftBrace);
lhs = __parseInitExpr(operand);
}
else
{
throwAddressableError<SyntaxError>(FString(u8"Unexpected token in expression:") + tok.toString());
@@ -1148,21 +1078,31 @@ namespace Fig
while (true)
{
tok = currentToken();
if (tok.getType() == stop || tok.getType() == stop2|| tok == EOFTok) break;
if (tok.getType() == stop || tok.getType() == stop2 || tok == EOFTok) break;
/* Postfix */
if (tok.getType() == TokenType::LeftBrace)
{
throwAddressableError<SyntaxError>(
FString(u8"Since Fig v0.4.2, please use new struct{} to avoid syntax ambiguity"));
}
if (tok.getType() == TokenType::LeftParen)
{
lhs = __parseCall(lhs);
continue;
}
// else if (tok.getType() == TokenType::LeftBrace) { lhs = __parseInitExpr(lhs); }
/*
since Fig v0.4.2, use new struct{};
if (tok.getType() == TokenType::LeftBrace)
{
lhs = __parseInitExpr(lhs);
continue;
}
if a == A{}
is A{} struct init?
or A a variable, {} is the body?
fuck.
*/
// member access: a.b
if (tok.getType() == TokenType::Dot)
@@ -1189,15 +1129,17 @@ namespace Fig
lhs = makeAst<Ast::IndexExprAst>(lhs, indexExpr);
continue;
}
// ternary
if (tok.getType() == TokenType::Question)
{
auto [lbp, rbp] = getBindingPower(Ast::Operator::TernaryCond);
if (bp >= lbp) break;
next(); // consume ?
Ast::Expression trueExpr = parseExpression(0, TokenType::Colon, stop2);
expect(TokenType::Colon);
next(); // consume :
Ast::Expression falseExpr = parseExpression(0, TokenType::Semicolon, stop2);
Ast::Expression trueExpr = parseExpression(0, TokenType::Colon);
expectConsume(TokenType::Colon);
Ast::Expression falseExpr = parseExpression(0);
lhs = makeAst<Ast::TernaryExprAst>(lhs, trueExpr, falseExpr);
continue;
}
@@ -1219,10 +1161,7 @@ namespace Fig
{
output.clear();
Token tok = currentToken();
if (tok == EOFTok)
{
return output;
}
if (tok == EOFTok) { return output; }
while (!isEOF())
{

17
src/Parser/parser.hpp
View File

@@ -1,13 +1,12 @@
#pragma once
#include "Ast/astBase.hpp"
#include <Ast/astBase.hpp>
#include <Ast/ast.hpp>
#include <Lexer/lexer.hpp>
#include <Core/fig_string.hpp>
#include <Error/error.hpp>
#include <memory>
#include <print>
#include <source_location>
#include <unordered_map>
@@ -248,7 +247,7 @@ namespace Fig
[[nodiscard]] SemicolonDisabler disableSemicolon() { return SemicolonDisabler(this); }
void expectSemicolon()
void expectSemicolon(std::source_location loc = std::source_location::current())
{
// if need semicolon and stream has `;`, consume it. if not need semicolon, do nothing
@@ -263,18 +262,18 @@ namespace Fig
}
// normal semicolon check
expectConsume(TokenType::Semicolon);
expectConsume(TokenType::Semicolon, loc);
}
void expectConsume(TokenType type, FString expected)
void expectConsume(TokenType type, FString expected, std::source_location loc = std::source_location::current())
{
expect(type, expected);
expect(type, expected, loc);
next();
}
void expectConsume(TokenType type)
void expectConsume(TokenType type, std::source_location loc = std::source_location::current())
{
expect(type);
expect(type, loc);
next();
}
@@ -314,6 +313,8 @@ namespace Fig
Ast::MapExpr __parseMapExpr(); // entry: current is `{`
Ast::InitExpr __parseInitExpr(Ast::Expression); // entry: current is `{`, ahead is struct type exp.
Ast::Expression __parseTupleOrParenExpr(); // entry: current is `(`
Ast::FunctionLiteralExpr __parseFunctionLiteralExpr(); // entry: current is Token::LParen after Token::Function

1
src/Token/token.hpp
View File

@@ -31,6 +31,7 @@ namespace Fig
For, // for
If, // if
Else, // else
New, // new
Struct, // struct
Interface, // interface
Implement, // impl

2
src/Utils/AstPrinter.hpp
View File

@@ -111,7 +111,7 @@ private:
printFString(node->name, 0);
printIndent(indent + 2);
std::cout << "Type: ";
printFString(node->typeName, 0);
printFString(node->declaredType->toString(), 0);
if (node->expr)
{
printIndent(indent + 2);