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#include "ast.h"

using namespace std;


static int indent_level_index=ios_base::xalloc();


namespace std{
	string to_string(Expression::Type type){
		switch(type){
			case Expression::Type::binop: return "binop";
			case Expression::Type::unop: return "unop";
			case Expression::Type::call: return "call";
			case Expression::Type::dive: return "dive";
			case Expression::Type::number: return "number";
			case Expression::Type::string: return "string";
			case Expression::Type::scope: return "scope";
			default: return to_string((int)type);
		}
	}

	string to_string(Statement::Type type){
		switch(type){
			case Statement::Type::create: return "create";
			case Statement::Type::assign: return "assign";
			case Statement::Type::expression: return "expression";
			default: return to_string((int)type);
		}
	}
}


Site::Site():lnum(-1),linex(-1){}
Site::Site(const string &filename,i64 lnum,i64 linex)
	:filename(filename),lnum(lnum),linex(linex){}

Site Site::addX(i64 dx){
	return Site(filename,lnum,linex+dx);
}

ostream& operator<<(ostream &os,Site site){
	return os<<site.filename<<':'<<site.lnum<<':'<<site.linex;
}


ScopeDef::ScopeDef():type(Type::direct){}
ScopeDef::ScopeDef(Type type,const StatementList &body,const vector<Name> &args)
	:type(type),body(body),args(args){}
/*ScopeDef::ScopeDef(Type type,const StatementList &body,const vector<Name> &nameargs)
		:type(type),body(body){
	for(const Name &n : nameargs){
		args.emplace_back(Expression::Type::call,n,vector<Expression>());
	}
}*/

string indent(int amount){
	return string(amount,'\t');
}

ostream& operator<<(ostream &os,const ScopeDef &scope){
	switch(scope.type){
		case ScopeDef::Type::direct: break;
		case ScopeDef::Type::lazy: os<<'?'; break;
		case ScopeDef::Type::function: os<<"??"; break;
	}
	if(scope.args.size()!=0){
		os<<'(';
		bool first=true;
		for(const Name &name : scope.args){
			if(!first)os<<", ";
			else first=false;
			os<<name;
		}
		os<<')';
	}
	if(scope.body.size()==0)return os<<"{}";
	os<<"{\n";
	os.iword(indent_level_index)++;
	int level=os.iword(indent_level_index);
	
	os<<indent(level)<<scope.body;

	os.iword(indent_level_index)--;
	return os<<'\n'<<indent(level-1)<<'}';
}


Expression::Expression(Type type,const Name &name,const vector<Expression> &args)
		:type(type),name(name),args(args){
	if(type!=Type::binop&&type!=Type::call){
		throw runtime_error("Expression(type,name,args) called with invalid type "+to_string(type));
	}
}
Expression::Expression(Type type,const Name &name,const Expression &arg)
		:type(type),name(name),args({arg}){
	if(type!=Type::unop){
		throw runtime_error("Expression(type,name,arg) called with invalid type "+to_string(type));
	}
}
Expression::Expression(Type type,const Name &name,const vector<Expression> &args,const ScopeDef &scope)
		:type(type),name(name),args(args),scope(scope){
	if(type!=Type::dive){
		throw runtime_error("Expression(type,name,args,scope) called with invalid type "+to_string(type));
	}
}
Expression::Expression(Type type,double numval)
		:type(type),numval(numval){
	if(type!=Type::number){
		throw runtime_error("Expression(type,numval) called with invalid type "+to_string(type));
	}
}
Expression::Expression(Type type,const string &strval)
		:type(type),strval(strval){
	if(type!=Type::string){
		throw runtime_error("Expression(type,strval) called with invalid type "+to_string(type));
	}
}
Expression::Expression(Type type,const ScopeDef &scope)
		:type(type),scope(scope){
	if(type!=Type::scope){
		throw runtime_error("Expression(type,scope) called with invalid type "+to_string(type));
	}
}
Expression::Expression(Type type,const vector<Expression> &args)
		:type(type),args(args){
	if(type!=Type::cond){
		throw runtime_error("Expression(type,args) called with invalid type "+to_string(type));
	}
}

ostream& operator<<(ostream &os,const Expression &expr){
	switch(expr.type){
		case Expression::Type::binop:
			return os<<'('<<expr.args[0]<<' '<<expr.name<<' '<<expr.args[1]<<')';

		case Expression::Type::unop:
			return os<<expr.name<<expr.args[0];

		case Expression::Type::call:
		case Expression::Type::dive:
			os<<expr.name;
			if(expr.args.size()!=0){
				os<<'(';
				bool first=true;
				for(const auto &a : expr.args){
					if(!first)os<<", ";
					else first=false;
					os<<a;
				}
				os<<')';
			}
			if(expr.type==Expression::Type::dive){
				if(expr.args.size()==0)os<<' ';
				os<<expr.scope;
			}
			return os;

		case Expression::Type::number:
			return os<<expr.numval;

		case Expression::Type::string:
			os<<'"';
			for(char c : expr.strval){
				if(c=='"')os<<"\\\"";
				else if(c=='\n')os<<"\\n";
				else if(c=='\r')os<<"\\r";
				else if(c=='\t')os<<"\\t";
				else if(c>=32&&c<=126)os<<c;
				else os<<"\\x"<<"0123456789abcdef"[(unsigned char)c/16]
				              <<"0123456789abcdef"[(unsigned char)c%16];
			}
			return os<<'"';

		case Expression::Type::scope:
			return os<<expr.scope;

		case Expression::Type::cond:
			return os<<"if "<<expr.args[0]<<" then "<<expr.args[1]<<" else "<<expr.args[2];
	}
}


Statement::Statement(Type type,const Name &dstvar,const Expression &expr)
		:type(type),dstvar(dstvar),expr(expr){
	if(type!=Type::create&&type!=Type::assign){
		throw runtime_error("Statement(type,dstvar,expr) called with invalid type "+to_string(type));
	}
}
Statement::Statement(Type type,const Expression &expr)
		:type(type),expr(expr){
	if(type!=Type::expression){
		throw runtime_error("Statement(type,expr) called with invalid type "+to_string(type));
	}
}


ostream& operator<<(ostream &os,const Statement &st){
	switch(st.type){
		case Statement::Type::create:
			return os<<st.dstvar<<" := "<<st.expr;

		case Statement::Type::assign:
			return os<<st.dstvar<<" = "<<st.expr;

		case Statement::Type::expression:
			return os<<st.expr;
	}
}

ostream& operator<<(ostream &os,const StatementList &stl){
	bool first=true;
	for(const Statement &st : stl){
		if(!first)os<<'\n'<<indent(os.iword(indent_level_index));
		else first=false;
		os<<st;
	}
	return os;
}