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QEnumDefinition.cpp
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140 lines (110 loc) · 3.03 KB
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#include <assert.h>
#include <iostream>
#include "FileLexer.h"
#include "Type.h"
#include "Expression.h"
#include "CompilerHelpers.h"
#include "logging.h"
SET_LOG_CAT( LOG_CAT_ALL );
SET_LOG_LEVEL( LOG_LVL_NOISE );
using namespace QLang;
using namespace std;
// Parse: enum Name { Variant1, Variant2(Type1, Type2), ... }
// Parse: enum Name<T> { Variant1, Variant2(T), ... }
EnumDefinition *EnumDefinition::Parse( Lexer &l, Scope *s, bool isPublic )
{
TRACE_BEGIN( LOG_LVL_INFO );
// Consume 'enum' keyword
int sym = l.getSymbol();
if ( sym != Lexer::KEYWORD_ENUM )
{
COMPILE_ERROR( l, "Internal Error: expected 'enum' keyword" );
}
// Parse enum name
sym = l.getSymbol();
if ( sym != Lexer::SYMBOL )
{
COMPILE_ERROR( l, "Expected enum name" );
}
string enumName = l.getSymbolText();
EnumDefinition *enumDef = new EnumDefinition( enumName );
enumDef->mIsPublic = isPublic;
// Check for generic parameters: <T> or <T: Constraint>
if ( l.peekSymbol() == '<' )
{
l.getSymbol(); // consume '<'
do {
sym = l.getSymbol();
if ( sym != Lexer::SYMBOL )
COMPILE_ERROR( l, "Expected type parameter name" );
GenericParam param;
param.mName = l.getSymbolText();
// Check for constraint: <T: Comparable>
if ( l.peekSymbol() == ':' )
{
l.getSymbol(); // consume ':'
sym = l.getSymbol();
if ( sym != Lexer::SYMBOL )
COMPILE_ERROR( l, "Expected constraint name after ':'" );
param.mConstraint = l.getSymbolText();
}
enumDef->mGenericParams.push_back( param );
// Register type parameter in scope
s->addType( new Type( param.mName ) );
sym = l.getSymbol();
} while ( sym == ',' );
if ( sym != '>' )
COMPILE_ERROR( l, "Expected '>' after generic parameters" );
}
// Expect '{'
sym = l.getSymbol();
if ( sym != '{' )
{
COMPILE_ERROR( l, "Expected '{' after enum name" );
}
// Parse variants until '}'
while ( l.peekSymbol() != '}' )
{
Variant variant;
// Parse variant name
sym = l.getSymbol();
if ( sym != Lexer::SYMBOL )
{
COMPILE_ERROR( l, "Expected variant name in enum" );
}
variant.mName = l.getSymbolText();
// Check for associated types: Variant(Type1, Type2)
if ( l.peekSymbol() == '(' )
{
l.getSymbol(); // consume '('
if ( l.peekSymbol() != ')' )
{
do {
Type *t = Type::Parse( l, s, false );
if ( t == nullptr )
COMPILE_ERROR( l, "Expected type in enum variant" );
variant.mAssociatedTypes.push_back( t );
sym = l.getSymbol();
} while ( sym == ',' );
if ( sym != ')' )
COMPILE_ERROR( l, "Expected ')' after variant types" );
}
else
{
l.getSymbol(); // consume ')'
}
}
enumDef->mVariants.push_back( variant );
// Optional comma between variants
if ( l.peekSymbol() == ',' )
l.getSymbol();
}
// Consume '}'
sym = l.getSymbol();
assert( sym == '}' );
// Register enum as a type and symbol in scope
s->addType( new Type( enumName ) );
s->addSymbol( enumDef );
LOG( "Parsed enum: %s with %d variants", enumName.c_str(), (int)enumDef->mVariants.size() );
return enumDef;
}