gzdoom/src/zscript/zcc_parser.cpp

#include "dobject.h"
#include "sc_man.h"
#include "c_console.h"
#include "c_dispatch.h"
#include "w_wad.h"
#include "cmdlib.h"
#include "m_alloc.h"

class ZCCParser
{
public:
	void PrintError(const char *fmt, ...)
	{
		va_list argptr;
		va_start(argptr, fmt);
		VPrintf(PRINT_HIGH, fmt, argptr);
		va_end(argptr);
	}
};

union ZCCToken
{
	int Int;
	double Float;
	const char *String;
};

class StringTable
{
public:
	StringTable()
	{
		memset(Buckets, 0, sizeof(Buckets));
	}
	~StringTable()
	{
		for (size_t i = 0; i < countof(Buckets); ++i)
		{
			Node *node, *next;
			for (node = Buckets[i]; node != NULL; node = next)
			{
				if (node->String != NULL)
				{
					delete[] node->String;
				}
				next = node->Next;
				delete node;
			}
		}
	}
	const char *Get(const char *str, int len)
	{
		unsigned int hash = SuperFastHash(str, len);
		Node *node, **nodep;

		nodep = &Buckets[hash % countof(Buckets)];
		node = *nodep;
		// Search for string in the hash table.
		while (node != NULL)
		{
			if (node->Hash == hash && strcmp(str, node->String))
			{
				return node->String;
			}
			nodep = &node->Next;
			node = *nodep;
		}
		// String is not in the hash table; add it.
		node = new Node;
		*nodep = node;
		node->Hash = hash;
		node->String = copystring(str);
		node->Next = NULL;
		return node->String;
	}
private:
	struct Node
	{
		Node *Next;
		const char *String;
		unsigned int Hash;
	};
	Node *Buckets[256];
};

static FString ZCCTokenName(int terminal);

#include "zcc-parse.h"
#include "zcc-parse.c"

static TMap<SWORD, SWORD> TokenMap;
static SWORD BackTokenMap[YYERRORSYMBOL];	// YYERRORSYMBOL immediately follows the terminals described by the grammar

static void InitTokenMap()
{
#define TOKENDEF(sc, zcc)	TokenMap.Insert(sc, zcc);	BackTokenMap[zcc] = sc
	TOKENDEF('=',			ZCC_EQ);
	TOKENDEF(TK_MulEq,		ZCC_MULEQ);
	TOKENDEF(TK_DivEq,		ZCC_DIVEQ);
	TOKENDEF(TK_ModEq,		ZCC_MODEQ);
	TOKENDEF(TK_AddEq,		ZCC_ADDEQ);
	TOKENDEF(TK_SubEq,		ZCC_SUBEQ);
	TOKENDEF(TK_LShiftEq,	ZCC_LSHEQ);
	TOKENDEF(TK_RShiftEq,	ZCC_RSHEQ);
	TOKENDEF(TK_AndEq,		ZCC_ANDEQ);
	TOKENDEF(TK_OrEq,		ZCC_OREQ);
	TOKENDEF(TK_XorEq,		ZCC_XOREQ);
	TOKENDEF('?',			ZCC_QUESTION);
	TOKENDEF(':',			ZCC_COLON);
	TOKENDEF(TK_OrOr,		ZCC_OROR);
	TOKENDEF(TK_AndAnd,		ZCC_ANDAND);
	TOKENDEF(TK_Eq,			ZCC_EQEQ);
	TOKENDEF(TK_Neq,		ZCC_NEQ);
	TOKENDEF(TK_ApproxEq,	ZCC_APPROXEQ);
	TOKENDEF('<',			ZCC_LT);
	TOKENDEF('>',			ZCC_GT);
	TOKENDEF(TK_Leq,		ZCC_LTEQ);
	TOKENDEF(TK_Geq,		ZCC_GTEQ);
	TOKENDEF(TK_LtGtEq,		ZCC_LTGTEQ);
	TOKENDEF(TK_Is,			ZCC_IS);
	TOKENDEF(TK_DotDot,		ZCC_DOTDOT);
	TOKENDEF('|',			ZCC_OR);
	TOKENDEF('^',			ZCC_XOR);
	TOKENDEF('&',			ZCC_AND);
	TOKENDEF(TK_LShift,		ZCC_LSH);
	TOKENDEF(TK_RShift,		ZCC_RSH);
	TOKENDEF('-',			ZCC_SUB);
	TOKENDEF('+',			ZCC_ADD);
	TOKENDEF('*',			ZCC_MUL);
	TOKENDEF('/',			ZCC_DIV);
	TOKENDEF('%',			ZCC_MOD);
	TOKENDEF(TK_Cross,		ZCC_CROSSPROD);
	TOKENDEF(TK_Dot,		ZCC_DOTPROD);
	TOKENDEF(TK_MulMul,		ZCC_POW);
	TOKENDEF(TK_Incr,		ZCC_ADDADD);
	TOKENDEF(TK_Decr,		ZCC_SUBSUB);
	TOKENDEF('.',			ZCC_DOT);
	TOKENDEF('(',			ZCC_LPAREN);
	TOKENDEF(')',			ZCC_RPAREN);
	TOKENDEF(TK_ColonColon,	ZCC_SCOPE);
	TOKENDEF(';',			ZCC_SEMICOLON);
	TOKENDEF(',',			ZCC_COMMA);
	TOKENDEF(TK_Class,		ZCC_CLASS);
	TOKENDEF(TK_Abstract,	ZCC_ABSTRACT);
	TOKENDEF(TK_Native,		ZCC_NATIVE);
	TOKENDEF(TK_Replaces,	ZCC_REPLACES);
	TOKENDEF(TK_Static,		ZCC_STATIC);
	TOKENDEF(TK_Private,	ZCC_PRIVATE);
	TOKENDEF(TK_Protected,	ZCC_PROTECTED);
	TOKENDEF(TK_Latent,		ZCC_LATENT);
	TOKENDEF(TK_Final,		ZCC_FINAL);
	TOKENDEF(TK_Meta,		ZCC_META);
	TOKENDEF(TK_Deprecated,	ZCC_DEPRECATED);
	TOKENDEF('{',			ZCC_LBRACE);
	TOKENDEF('}',			ZCC_RBRACE);
	TOKENDEF(TK_Struct,		ZCC_STRUCT);
	TOKENDEF(TK_Enum,		ZCC_ENUM);
	TOKENDEF(TK_SByte,		ZCC_SBYTE);
	TOKENDEF(TK_Byte,		ZCC_BYTE);
	TOKENDEF(TK_Short,		ZCC_SHORT);
	TOKENDEF(TK_UShort,		ZCC_USHORT);
	TOKENDEF(TK_Int,		ZCC_INT);
	TOKENDEF(TK_UInt,		ZCC_UINT);
	TOKENDEF(TK_Bool,		ZCC_BOOL);
	TOKENDEF(TK_Float,		ZCC_FLOAT);
	TOKENDEF(TK_Double,		ZCC_DOUBLE);
	TOKENDEF(TK_String,		ZCC_STRING);
	TOKENDEF(TK_Vector,		ZCC_VECTOR);
	TOKENDEF(TK_Name,		ZCC_NAME);
	TOKENDEF(TK_Map,		ZCC_MAP);
	TOKENDEF(TK_Array,		ZCC_ARRAY);
	TOKENDEF(TK_Void,		ZCC_VOID);
	TOKENDEF('[',			ZCC_LBRACKET);
	TOKENDEF(']',			ZCC_RBRACKET);
	TOKENDEF(TK_In,			ZCC_IN);
	TOKENDEF(TK_Out,		ZCC_OUT);
	TOKENDEF(TK_Optional,	ZCC_OPTIONAL);
	TOKENDEF(TK_Super,		ZCC_SUPER);
	TOKENDEF(TK_Self,		ZCC_SELF);
	TOKENDEF('~',			ZCC_TILDE);
	TOKENDEF('!',			ZCC_BANG);
	TOKENDEF(TK_SizeOf,		ZCC_SIZEOF);
	TOKENDEF(TK_AlignOf,	ZCC_ALIGNOF);
	TOKENDEF(TK_Continue,	ZCC_CONTINUE);
	TOKENDEF(TK_Break,		ZCC_BREAK);
	TOKENDEF(TK_Return,		ZCC_RETURN);
	TOKENDEF(TK_Do,			ZCC_DO);
	TOKENDEF(TK_For,		ZCC_FOR);
	TOKENDEF(TK_While,		ZCC_WHILE);
	TOKENDEF(TK_Until,		ZCC_UNTIL);
	TOKENDEF(TK_If,			ZCC_IF);
	TOKENDEF(TK_Else,		ZCC_ELSE);
	TOKENDEF(TK_Switch,		ZCC_SWITCH);
	TOKENDEF(TK_Case,		ZCC_CASE);
	TOKENDEF(TK_Default,	ZCC_DEFAULT);
	TOKENDEF(TK_Const,		ZCC_CONST);
	TOKENDEF(TK_Stop,		ZCC_STOP);
	TOKENDEF(TK_Wait,		ZCC_WAIT);
	TOKENDEF(TK_Fail,		ZCC_FAIL);
	TOKENDEF(TK_Loop,		ZCC_LOOP);
	TOKENDEF(TK_Goto,		ZCC_GOTO);
	TOKENDEF(TK_States,		ZCC_STATES);

	TOKENDEF(TK_Identifier,		ZCC_IDENTIFIER);
	TOKENDEF(TK_StringConst,	ZCC_STRCONST);
	TOKENDEF(TK_IntConst,		ZCC_INTCONST);
	TOKENDEF(TK_FloatConst,		ZCC_FLOATCONST);
	TOKENDEF(TK_NonWhitespace,	ZCC_NWS);
#undef TOKENDEF
}

static void DoParse(const char *filename)
{
	if (TokenMap.CountUsed() == 0)
	{
		InitTokenMap();
	}

	FScanner sc;
	StringTable strings;
	void *parser;
	int tokentype;
	int lump;
	bool failed;
	ZCCToken value;

	lump = Wads.CheckNumForFullName(filename, true);
	if (lump >= 0)
	{
		sc.OpenLumpNum(lump);
	}
	else if (FileExists(filename))
	{
		sc.OpenFile(filename);
	}
	else
	{
		Printf("Could not find script lump '%s'\n", filename);
		return;
	}
	
	parser = ZCCParseAlloc(malloc);
	failed = false;
	FILE *f = fopen("trace.txt", "w");
	ZCCParseTrace(f, "");
	while (sc.GetToken())
	{
		if (sc.TokenType == TK_StringConst)
		{
			value.String = strings.Get(sc.String, sc.StringLen);
			tokentype = ZCC_STRCONST;
		}
		else if (sc.TokenType == TK_IntConst)
		{
			value.Int = sc.Number;
			tokentype = ZCC_INTCONST;
		}
		else if (sc.TokenType == TK_FloatConst)
		{
			value.Float = sc.Float;
			tokentype = ZCC_FLOATCONST;
		}
		else if (sc.TokenType == TK_Identifier)
		{
			value.Int = FName(sc.String);
			tokentype = ZCC_IDENTIFIER;
		}
		else if (sc.TokenType == TK_NonWhitespace)
		{
			value.Int = FName(sc.String);
			tokentype = ZCC_NWS;
		}
		else
		{
			SWORD *zcctoken = TokenMap.CheckKey(sc.TokenType);
			if (zcctoken != NULL)
			{
				tokentype = *zcctoken;
			}
			else
			{
				sc.ScriptMessage("Unexpected token %s.\n", sc.TokenName(sc.TokenType).GetChars());
				break;
			}
		}
		ZCCParse(parser, tokentype, value, &sc);
		if (failed)
		{
			sc.ScriptMessage("Parse failed\n");
			break;
		}
	}
	value.Int = -1;
	ZCCParse(parser, ZCC_EOF, value, &sc);
	ZCCParse(parser, 0, value, &sc);
	ZCCParseFree(parser, free);
	if (f != NULL)
	{
		fclose(f);
	}
}

CCMD(parse)
{
	if (argv.argc() == 2)
	{
		DoParse(argv[1]);
	}
}

static FString ZCCTokenName(int terminal)
{
	if (terminal == ZCC_EOF)
	{
		return "end of file";
	}
	int sc_token;
	if (terminal > 0 && terminal < countof(BackTokenMap))
	{
		sc_token = BackTokenMap[terminal];
		if (sc_token == 0)
		{ // This token was not initialized. Whoops!
			sc_token = -terminal;
		}
	}
	else
	{ // This should never happen.
		sc_token = -terminal;
	}
	return FScanner::TokenName(sc_token);
}
- Add a preliminary grammar and a test driver for it. SVN r2233 (scripting) 2010-03-19 04:04:13 +00:00			`#include "dobject.h"`
			`#include "sc_man.h"`
			`#include "c_console.h"`
			`#include "c_dispatch.h"`
			`#include "w_wad.h"`
			`#include "cmdlib.h"`
			`#include "m_alloc.h"`

			`class ZCCParser`
			`{`
			`public:`
			`void PrintError(const char *fmt, ...)`
			`{`
			`va_list argptr;`
			`va_start(argptr, fmt);`
			`VPrintf(PRINT_HIGH, fmt, argptr);`
			`va_end(argptr);`
			`}`
			`};`

			`union ZCCToken`
			`{`
			`int Int;`
			`double Float;`
			`const char *String;`
			`};`

			`class StringTable`
			`{`
			`public:`
			`StringTable()`
			`{`
			`memset(Buckets, 0, sizeof(Buckets));`
			`}`
			`~StringTable()`
			`{`
			`for (size_t i = 0; i < countof(Buckets); ++i)`
			`{`
			`Node node, next;`
			`for (node = Buckets[i]; node != NULL; node = next)`
			`{`
			`if (node->String != NULL)`
			`{`
			`delete[] node->String;`
			`}`
			`next = node->Next;`
			`delete node;`
			`}`
			`}`
			`}`
			`const char Get(const char str, int len)`
			`{`
			`unsigned int hash = SuperFastHash(str, len);`
			`Node node, *nodep;`

			`nodep = &Buckets[hash % countof(Buckets)];`
			`node = *nodep;`
			`// Search for string in the hash table.`
			`while (node != NULL)`
			`{`
			`if (node->Hash == hash && strcmp(str, node->String))`
			`{`
			`return node->String;`
			`}`
			`nodep = &node->Next;`
			`node = *nodep;`
			`}`
			`// String is not in the hash table; add it.`
			`node = new Node;`
			`*nodep = node;`
			`node->Hash = hash;`
			`node->String = copystring(str);`
			`node->Next = NULL;`
			`return node->String;`
			`}`
			`private:`
			`struct Node`
			`{`
			`Node *Next;`
			`const char *String;`
			`unsigned int Hash;`
			`};`
			`Node *Buckets[256];`
			`};`

			`static FString ZCCTokenName(int terminal);`

			`#include "zcc-parse.h"`
			`#include "zcc-parse.c"`

			`static TMap<SWORD, SWORD> TokenMap;`
			`static SWORD BackTokenMap[YYERRORSYMBOL]; // YYERRORSYMBOL immediately follows the terminals described by the grammar`

			`static void InitTokenMap()`
			`{`
			`#define TOKENDEF(sc, zcc) TokenMap.Insert(sc, zcc); BackTokenMap[zcc] = sc`
			`TOKENDEF('=', ZCC_EQ);`
			`TOKENDEF(TK_MulEq, ZCC_MULEQ);`
			`TOKENDEF(TK_DivEq, ZCC_DIVEQ);`
			`TOKENDEF(TK_ModEq, ZCC_MODEQ);`
			`TOKENDEF(TK_AddEq, ZCC_ADDEQ);`
			`TOKENDEF(TK_SubEq, ZCC_SUBEQ);`
			`TOKENDEF(TK_LShiftEq, ZCC_LSHEQ);`
			`TOKENDEF(TK_RShiftEq, ZCC_RSHEQ);`
			`TOKENDEF(TK_AndEq, ZCC_ANDEQ);`
			`TOKENDEF(TK_OrEq, ZCC_OREQ);`
			`TOKENDEF(TK_XorEq, ZCC_XOREQ);`
			`TOKENDEF('?', ZCC_QUESTION);`
			`TOKENDEF(':', ZCC_COLON);`
			`TOKENDEF(TK_OrOr, ZCC_OROR);`
			`TOKENDEF(TK_AndAnd, ZCC_ANDAND);`
			`TOKENDEF(TK_Eq, ZCC_EQEQ);`
			`TOKENDEF(TK_Neq, ZCC_NEQ);`
			`TOKENDEF(TK_ApproxEq, ZCC_APPROXEQ);`
			`TOKENDEF('<', ZCC_LT);`
			`TOKENDEF('>', ZCC_GT);`
			`TOKENDEF(TK_Leq, ZCC_LTEQ);`
			`TOKENDEF(TK_Geq, ZCC_GTEQ);`
			`TOKENDEF(TK_LtGtEq, ZCC_LTGTEQ);`
			`TOKENDEF(TK_Is, ZCC_IS);`
			`TOKENDEF(TK_DotDot, ZCC_DOTDOT);`
			`TOKENDEF('\|', ZCC_OR);`
			`TOKENDEF('^', ZCC_XOR);`
			`TOKENDEF('&', ZCC_AND);`
			`TOKENDEF(TK_LShift, ZCC_LSH);`
			`TOKENDEF(TK_RShift, ZCC_RSH);`
			`TOKENDEF('-', ZCC_SUB);`
			`TOKENDEF('+', ZCC_ADD);`
			`TOKENDEF('*', ZCC_MUL);`
			`TOKENDEF('/', ZCC_DIV);`
			`TOKENDEF('%', ZCC_MOD);`
			`TOKENDEF(TK_Cross, ZCC_CROSSPROD);`
			`TOKENDEF(TK_Dot, ZCC_DOTPROD);`
			`TOKENDEF(TK_MulMul, ZCC_POW);`
			`TOKENDEF(TK_Incr, ZCC_ADDADD);`
			`TOKENDEF(TK_Decr, ZCC_SUBSUB);`
			`TOKENDEF('.', ZCC_DOT);`
			`TOKENDEF('(', ZCC_LPAREN);`
			`TOKENDEF(')', ZCC_RPAREN);`
			`TOKENDEF(TK_ColonColon, ZCC_SCOPE);`
			`TOKENDEF(';', ZCC_SEMICOLON);`
			`TOKENDEF(',', ZCC_COMMA);`
			`TOKENDEF(TK_Class, ZCC_CLASS);`
			`TOKENDEF(TK_Abstract, ZCC_ABSTRACT);`
			`TOKENDEF(TK_Native, ZCC_NATIVE);`
			`TOKENDEF(TK_Replaces, ZCC_REPLACES);`
			`TOKENDEF(TK_Static, ZCC_STATIC);`
			`TOKENDEF(TK_Private, ZCC_PRIVATE);`
			`TOKENDEF(TK_Protected, ZCC_PROTECTED);`
			`TOKENDEF(TK_Latent, ZCC_LATENT);`
			`TOKENDEF(TK_Final, ZCC_FINAL);`
			`TOKENDEF(TK_Meta, ZCC_META);`
			`TOKENDEF(TK_Deprecated, ZCC_DEPRECATED);`
			`TOKENDEF('{', ZCC_LBRACE);`
			`TOKENDEF('}', ZCC_RBRACE);`
			`TOKENDEF(TK_Struct, ZCC_STRUCT);`
			`TOKENDEF(TK_Enum, ZCC_ENUM);`
			`TOKENDEF(TK_SByte, ZCC_SBYTE);`
			`TOKENDEF(TK_Byte, ZCC_BYTE);`
			`TOKENDEF(TK_Short, ZCC_SHORT);`
			`TOKENDEF(TK_UShort, ZCC_USHORT);`
			`TOKENDEF(TK_Int, ZCC_INT);`
			`TOKENDEF(TK_UInt, ZCC_UINT);`
			`TOKENDEF(TK_Bool, ZCC_BOOL);`
			`TOKENDEF(TK_Float, ZCC_FLOAT);`
			`TOKENDEF(TK_Double, ZCC_DOUBLE);`
			`TOKENDEF(TK_String, ZCC_STRING);`
			`TOKENDEF(TK_Vector, ZCC_VECTOR);`
			`TOKENDEF(TK_Name, ZCC_NAME);`
			`TOKENDEF(TK_Map, ZCC_MAP);`
			`TOKENDEF(TK_Array, ZCC_ARRAY);`
			`TOKENDEF(TK_Void, ZCC_VOID);`
			`TOKENDEF('[', ZCC_LBRACKET);`
			`TOKENDEF(']', ZCC_RBRACKET);`
			`TOKENDEF(TK_In, ZCC_IN);`
			`TOKENDEF(TK_Out, ZCC_OUT);`
			`TOKENDEF(TK_Optional, ZCC_OPTIONAL);`
			`TOKENDEF(TK_Super, ZCC_SUPER);`
			`TOKENDEF(TK_Self, ZCC_SELF);`
			`TOKENDEF('~', ZCC_TILDE);`
			`TOKENDEF('!', ZCC_BANG);`
			`TOKENDEF(TK_SizeOf, ZCC_SIZEOF);`
			`TOKENDEF(TK_AlignOf, ZCC_ALIGNOF);`
			`TOKENDEF(TK_Continue, ZCC_CONTINUE);`
			`TOKENDEF(TK_Break, ZCC_BREAK);`
			`TOKENDEF(TK_Return, ZCC_RETURN);`
			`TOKENDEF(TK_Do, ZCC_DO);`
			`TOKENDEF(TK_For, ZCC_FOR);`
			`TOKENDEF(TK_While, ZCC_WHILE);`
			`TOKENDEF(TK_Until, ZCC_UNTIL);`
			`TOKENDEF(TK_If, ZCC_IF);`
			`TOKENDEF(TK_Else, ZCC_ELSE);`
			`TOKENDEF(TK_Switch, ZCC_SWITCH);`
			`TOKENDEF(TK_Case, ZCC_CASE);`
			`TOKENDEF(TK_Default, ZCC_DEFAULT);`
			`TOKENDEF(TK_Const, ZCC_CONST);`
			`TOKENDEF(TK_Stop, ZCC_STOP);`
			`TOKENDEF(TK_Wait, ZCC_WAIT);`
			`TOKENDEF(TK_Fail, ZCC_FAIL);`
			`TOKENDEF(TK_Loop, ZCC_LOOP);`
			`TOKENDEF(TK_Goto, ZCC_GOTO);`
			`TOKENDEF(TK_States, ZCC_STATES);`

			`TOKENDEF(TK_Identifier, ZCC_IDENTIFIER);`
			`TOKENDEF(TK_StringConst, ZCC_STRCONST);`
			`TOKENDEF(TK_IntConst, ZCC_INTCONST);`
			`TOKENDEF(TK_FloatConst, ZCC_FLOATCONST);`
			`TOKENDEF(TK_NonWhitespace, ZCC_NWS);`
			`#undef TOKENDEF`
			`}`

			`static void DoParse(const char *filename)`
			`{`
			`if (TokenMap.CountUsed() == 0)`
			`{`
			`InitTokenMap();`
			`}`

			`FScanner sc;`
			`StringTable strings;`
			`void *parser;`
			`int tokentype;`
			`int lump;`
			`bool failed;`
			`ZCCToken value;`

			`lump = Wads.CheckNumForFullName(filename, true);`
			`if (lump >= 0)`
			`{`
			`sc.OpenLumpNum(lump);`
			`}`
			`else if (FileExists(filename))`
			`{`
			`sc.OpenFile(filename);`
			`}`
			`else`
			`{`
			`Printf("Could not find script lump '%s'\n", filename);`
			`return;`
			`}`

			`parser = ZCCParseAlloc(malloc);`
			`failed = false;`
			`FILE *f = fopen("trace.txt", "w");`
			`ZCCParseTrace(f, "");`
			`while (sc.GetToken())`
			`{`
			`if (sc.TokenType == TK_StringConst)`
			`{`
			`value.String = strings.Get(sc.String, sc.StringLen);`
			`tokentype = ZCC_STRCONST;`
			`}`
			`else if (sc.TokenType == TK_IntConst)`
			`{`
			`value.Int = sc.Number;`
			`tokentype = ZCC_INTCONST;`
			`}`
			`else if (sc.TokenType == TK_FloatConst)`
			`{`
			`value.Float = sc.Float;`
			`tokentype = ZCC_FLOATCONST;`
			`}`
			`else if (sc.TokenType == TK_Identifier)`
			`{`
			`value.Int = FName(sc.String);`
			`tokentype = ZCC_IDENTIFIER;`
			`}`
			`else if (sc.TokenType == TK_NonWhitespace)`
			`{`
			`value.Int = FName(sc.String);`
			`tokentype = ZCC_NWS;`
			`}`
			`else`
			`{`
			`SWORD *zcctoken = TokenMap.CheckKey(sc.TokenType);`
			`if (zcctoken != NULL)`
			`{`
			`tokentype = *zcctoken;`
			`}`
			`else`
			`{`
			`sc.ScriptMessage("Unexpected token %s.\n", sc.TokenName(sc.TokenType).GetChars());`
			`break;`
			`}`
			`}`
			`ZCCParse(parser, tokentype, value, &sc);`
			`if (failed)`
			`{`
			`sc.ScriptMessage("Parse failed\n");`
			`break;`
			`}`
			`}`
			`value.Int = -1;`
			`ZCCParse(parser, ZCC_EOF, value, &sc);`
			`ZCCParse(parser, 0, value, &sc);`
			`ZCCParseFree(parser, free);`
			`if (f != NULL)`
			`{`
			`fclose(f);`
			`}`
			`}`

			`CCMD(parse)`
			`{`
			`if (argv.argc() == 2)`
			`{`
			`DoParse(argv[1]);`
			`}`
			`}`

			`static FString ZCCTokenName(int terminal)`
			`{`
			`if (terminal == ZCC_EOF)`
			`{`
			`return "end of file";`
			`}`
			`int sc_token;`
			`if (terminal > 0 && terminal < countof(BackTokenMap))`
			`{`
			`sc_token = BackTokenMap[terminal];`
			`if (sc_token == 0)`
			`{ // This token was not initialized. Whoops!`
			`sc_token = -terminal;`
			`}`
			`}`
			`else`
			`{ // This should never happen.`
			`sc_token = -terminal;`
			`}`
			`return FScanner::TokenName(sc_token);`
			`}`