/*
===========================================================================
Copyright (C) 1999-2005 Id Software, Inc.
Copyright (C) 2000-2013 Darklegion Development

This file is part of Tremulous.

Tremulous is free software; you can redistribute it
and/or modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2 of the License,
or (at your option) any later version.

Tremulous is distributed in the hope that it will be
useful, but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with Tremulous; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
===========================================================================
*/

#include "q_shared.h"
#include "qcommon.h"

//script flags
#define SCFL_NOERRORS             0x0001
#define SCFL_NOWARNINGS           0x0002
#define SCFL_NOSTRINGWHITESPACES  0x0004
#define SCFL_NOSTRINGESCAPECHARS  0x0008
#define SCFL_PRIMITIVE            0x0010
#define SCFL_NOBINARYNUMBERS      0x0020
#define SCFL_NONUMBERVALUES       0x0040

//token types
#define TT_STRING           1     // string
#define TT_LITERAL          2     // literal
#define TT_NUMBER           3     // number
#define TT_NAME             4     // name
#define TT_PUNCTUATION      5     // punctuation

//string sub type
//---------------
//    the length of the string
//literal sub type
//----------------
//    the ASCII code of the literal
//number sub type
//---------------
#define TT_DECIMAL          0x0008  // decimal number
#define TT_HEX              0x0100  // hexadecimal number
#define TT_OCTAL            0x0200  // octal number
#define TT_BINARY           0x0400  // binary number
#define TT_FLOAT            0x0800  // floating point number
#define TT_INTEGER          0x1000  // integer number
#define TT_LONG             0x2000  // long number
#define TT_UNSIGNED         0x4000  // unsigned number
//punctuation sub type
//--------------------
#define P_RSHIFT_ASSIGN       1
#define P_LSHIFT_ASSIGN       2
#define P_PARMS               3
#define P_PRECOMPMERGE        4

#define P_LOGIC_AND           5
#define P_LOGIC_OR            6
#define P_LOGIC_GEQ           7
#define P_LOGIC_LEQ           8
#define P_LOGIC_EQ            9
#define P_LOGIC_UNEQ          10

#define P_MUL_ASSIGN          11
#define P_DIV_ASSIGN          12
#define P_MOD_ASSIGN          13
#define P_ADD_ASSIGN          14
#define P_SUB_ASSIGN          15
#define P_INC                 16
#define P_DEC                 17

#define P_BIN_AND_ASSIGN      18
#define P_BIN_OR_ASSIGN       19
#define P_BIN_XOR_ASSIGN      20
#define P_RSHIFT              21
#define P_LSHIFT              22

#define P_POINTERREF          23
#define P_CPP1                24
#define P_CPP2                25
#define P_MUL                 26
#define P_DIV                 27
#define P_MOD                 28
#define P_ADD                 29
#define P_SUB                 30
#define P_ASSIGN              31

#define P_BIN_AND             32
#define P_BIN_OR              33
#define P_BIN_XOR             34
#define P_BIN_NOT             35

#define P_LOGIC_NOT           36
#define P_LOGIC_GREATER       37
#define P_LOGIC_LESS          38

#define P_REF                 39
#define P_COMMA               40
#define P_SEMICOLON           41
#define P_COLON               42
#define P_QUESTIONMARK        43

#define P_PARENTHESESOPEN     44
#define P_PARENTHESESCLOSE    45
#define P_BRACEOPEN           46
#define P_BRACECLOSE          47
#define P_SQBRACKETOPEN       48
#define P_SQBRACKETCLOSE      49
#define P_BACKSLASH           50

#define P_PRECOMP             51
#define P_DOLLAR              52

//name sub type
//-------------
//    the length of the name

//punctuation
typedef struct punctuation_s
{
  char *p;                    //punctuation character(s)
  int n;                      //punctuation indication
  struct punctuation_s *next; //next punctuation
} punctuation_t;

//token
typedef struct token_s
{
  char string[MAX_TOKEN_CHARS]; //available token
  int type;                     //last read token type
  int subtype;                  //last read token sub type
  unsigned long int intvalue;   //integer value
  double floatvalue;            //floating point value
  char *whitespace_p;           //start of white space before token
  char *endwhitespace_p;        //start of white space before token
  int line;                     //line the token was on
  int linescrossed;             //lines crossed in white space
  struct token_s *next;         //next token in chain
} token_t;

//script file
typedef struct script_s
{
  char filename[1024];            //file name of the script
  char *buffer;                   //buffer containing the script
  char *script_p;                 //current pointer in the script
  char *end_p;                    //pointer to the end of the script
  char *lastscript_p;             //script pointer before reading token
  char *whitespace_p;             //begin of the white space
  char *endwhitespace_p;         
  int length;                     //length of the script in bytes
  int line;                       //current line in script
  int lastline;                   //line before reading token
  int tokenavailable;             //set by UnreadLastToken
  int flags;                      //several script flags
  punctuation_t *punctuations;    //the punctuations used in the script
  punctuation_t **punctuationtable;
  token_t token;                  //available token
  struct script_s *next;          //next script in a chain
} script_t;


#define DEFINE_FIXED      0x0001

#define BUILTIN_LINE      1
#define BUILTIN_FILE      2
#define BUILTIN_DATE      3
#define BUILTIN_TIME      4
#define BUILTIN_STDC      5

#define INDENT_IF         0x0001
#define INDENT_ELSE       0x0002
#define INDENT_ELIF       0x0004
#define INDENT_IFDEF      0x0008
#define INDENT_IFNDEF     0x0010

//macro definitions
typedef struct define_s
{
  char *name;                 //define name
  int flags;                  //define flags
  int builtin;                // > 0 if builtin define
  int numparms;               //number of define parameters
  token_t *parms;             //define parameters
  token_t *tokens;            //macro tokens (possibly containing parm tokens)
  struct define_s *next;      //next defined macro in a list
  struct define_s *hashnext;  //next define in the hash chain
} define_t;

//indents
//used for conditional compilation directives:
//#if, #else, #elif, #ifdef, #ifndef
typedef struct indent_s
{
  int type;               //indent type
  int skip;               //true if skipping current indent
  script_t *script;       //script the indent was in
  struct indent_s *next;  //next indent on the indent stack
} indent_t;

//source file
typedef struct source_s
{
  char filename[MAX_QPATH];     //file name of the script
  char includepath[MAX_QPATH];  //path to include files
  punctuation_t *punctuations;  //punctuations to use
  script_t *scriptstack;        //stack with scripts of the source
  token_t *tokens;              //tokens to read first
  define_t *defines;            //list with macro definitions
  define_t **definehash;        //hash chain with defines
  indent_t *indentstack;        //stack with indents
  int skip;                     // > 0 if skipping conditional code
  token_t token;                //last read token
} source_t;

#define MAX_DEFINEPARMS     128

//directive name with parse function
typedef struct directive_s
{
  char *name;
  int (*func)(source_t *source);
} directive_t;

#define DEFINEHASHSIZE    1024

static int Parse_ReadToken(source_t *source, token_t *token);
static qboolean Parse_AddDefineToSourceFromString( source_t *source,
                                                   char *string );

int numtokens;

//list with global defines added to every source loaded
define_t *globaldefines;

//longer punctuations first
punctuation_t default_punctuations[] =
{
  //binary operators
  {">>=",P_RSHIFT_ASSIGN, NULL},
  {"<<=",P_LSHIFT_ASSIGN, NULL},
  //
  {"...",P_PARMS, NULL},
  //define merge operator
  {"##",P_PRECOMPMERGE, NULL},
  //logic operators
  {"&&",P_LOGIC_AND, NULL},
  {"||",P_LOGIC_OR, NULL},
  {">=",P_LOGIC_GEQ, NULL},
  {"<=",P_LOGIC_LEQ, NULL},
  {"==",P_LOGIC_EQ, NULL},
  {"!=",P_LOGIC_UNEQ, NULL},
  //arithmatic operators
  {"*=",P_MUL_ASSIGN, NULL},
  {"/=",P_DIV_ASSIGN, NULL},
  {"%=",P_MOD_ASSIGN, NULL},
  {"+=",P_ADD_ASSIGN, NULL},
  {"-=",P_SUB_ASSIGN, NULL},
  {"++",P_INC, NULL},
  {"--",P_DEC, NULL},
  //binary operators
  {"&=",P_BIN_AND_ASSIGN, NULL},
  {"|=",P_BIN_OR_ASSIGN, NULL},
  {"^=",P_BIN_XOR_ASSIGN, NULL},
  {">>",P_RSHIFT, NULL},
  {"<<",P_LSHIFT, NULL},
  //reference operators
  {"->",P_POINTERREF, NULL},
  //C++
  {"::",P_CPP1, NULL},
  {".*",P_CPP2, NULL},
  //arithmatic operators
  {"*",P_MUL, NULL},
  {"/",P_DIV, NULL},
  {"%",P_MOD, NULL},
  {"+",P_ADD, NULL},
  {"-",P_SUB, NULL},
  {"=",P_ASSIGN, NULL},
  //binary operators
  {"&",P_BIN_AND, NULL},
  {"|",P_BIN_OR, NULL},
  {"^",P_BIN_XOR, NULL},
  {"~",P_BIN_NOT, NULL},
  //logic operators
  {"!",P_LOGIC_NOT, NULL},
  {">",P_LOGIC_GREATER, NULL},
  {"<",P_LOGIC_LESS, NULL},
  //reference operator
  {".",P_REF, NULL},
  //seperators
  {",",P_COMMA, NULL},
  {";",P_SEMICOLON, NULL},
  //label indication
  {":",P_COLON, NULL},
  //if statement
  {"?",P_QUESTIONMARK, NULL},
  //embracements
  {"(",P_PARENTHESESOPEN, NULL},
  {")",P_PARENTHESESCLOSE, NULL},
  {"{",P_BRACEOPEN, NULL},
  {"}",P_BRACECLOSE, NULL},
  {"[",P_SQBRACKETOPEN, NULL},
  {"]",P_SQBRACKETCLOSE, NULL},
  //
  {"\\",P_BACKSLASH, NULL},
  //precompiler operator
  {"#",P_PRECOMP, NULL},
  {"$",P_DOLLAR, NULL},
  {NULL, 0}
};

/*
===============
Parse_CreatePunctuationTable
===============
*/
static void Parse_CreatePunctuationTable(script_t *script, punctuation_t *punctuations)
{
  int i;
  punctuation_t *p, *lastp, *newp;

  //get memory for the table
  if (!script->punctuationtable) script->punctuationtable = (punctuation_t **)
                        Z_Malloc(256 * sizeof(punctuation_t *));
  Com_Memset(script->punctuationtable, 0, 256 * sizeof(punctuation_t *));
  //add the punctuations in the list to the punctuation table
  for (i = 0; punctuations[i].p; i++)
  {
    newp = &punctuations[i];
    lastp = NULL;
    //sort the punctuations in this table entry on length (longer punctuations first)
    for (p = script->punctuationtable[(unsigned int) newp->p[0]]; p; p = p->next)
    {
      if (strlen(p->p) < strlen(newp->p))
      {
        newp->next = p;
        if (lastp) lastp->next = newp;
        else script->punctuationtable[(unsigned int) newp->p[0]] = newp;
        break;
      }
      lastp = p;
    }
    if (!p)
    {
      newp->next = NULL;
      if (lastp) lastp->next = newp;
      else script->punctuationtable[(unsigned int) newp->p[0]] = newp;
    }
  }
}

/*
===============
Parse_ScriptError
===============
*/
__attribute__ ((format (printf, 2, 3))) static void QDECL Parse_ScriptError(script_t *script, char *str, ...)
{
  char text[1024];
  va_list ap;

  if (script->flags & SCFL_NOERRORS) return;

  va_start(ap, str);
  vsprintf(text, str, ap);
  va_end(ap);
  Com_Printf( "file %s, line %d: %s\n", script->filename, script->line, text);
}

/*
===============
Parse_ScriptWarning
===============
*/
__attribute__ ((format (printf, 2, 3))) static void QDECL Parse_ScriptWarning(script_t *script, char *str, ...)
{
  char text[1024];
  va_list ap;

  if (script->flags & SCFL_NOWARNINGS) return;

  va_start(ap, str);
  vsprintf(text, str, ap);
  va_end(ap);
  Com_Printf( "file %s, line %d: %s\n", script->filename, script->line, text);
}

/*
===============
Parse_SetScriptPunctuations
===============
*/
static void Parse_SetScriptPunctuations(script_t *script, punctuation_t *p)
{
  if (p) Parse_CreatePunctuationTable(script, p);
  else  Parse_CreatePunctuationTable(script, default_punctuations);
  if (p) script->punctuations = p;
  else script->punctuations = default_punctuations;
}

/*
===============
Parse_ReadWhiteSpace
===============
*/
static int Parse_ReadWhiteSpace(script_t *script)
{
  while(1)
  {
    //skip white space
    while(*script->script_p <= ' ')
    {
      if (!*script->script_p) return 0;
      if (*script->script_p == '\n') script->line++;
      script->script_p++;
    }
    //skip comments
    if (*script->script_p == '/')
    {
      //comments //
      if (*(script->script_p+1) == '/')
      {
        script->script_p++;
        do
        {
          script->script_p++;
          if (!*script->script_p) return 0;
        }
        while(*script->script_p != '\n');
        script->line++;
        script->script_p++;
        if (!*script->script_p) return 0;
        continue;
      }
      //comments /* */
      else if (*(script->script_p+1) == '*')
      {
        script->script_p++;
        do
        {
          script->script_p++;
          if (!*script->script_p) return 0;
          if (*script->script_p == '\n') script->line++;
        }
        while(!(*script->script_p == '*' && *(script->script_p+1) == '/'));
        script->script_p++;
        if (!*script->script_p) return 0;
        script->script_p++;
        if (!*script->script_p) return 0;
        continue;
      }
    }
    break;
  }
  return 1;
}

/*
===============
Parse_ReadEscapeCharacter
===============
*/
static int Parse_ReadEscapeCharacter(script_t *script, char *ch)
{
  int c, val, i;

  //step over the leading '\\'
  script->script_p++;
  //determine the escape character
  switch(*script->script_p)
  {
    case '\\': c = '\\'; break;
    case 'n': c = '\n'; break;
    case 'r': c = '\r'; break;
    case 't': c = '\t'; break;
    case 'v': c = '\v'; break;
    case 'b': c = '\b'; break;
    case 'f': c = '\f'; break;
    case 'a': c = '\a'; break;
    case '\'': c = '\''; break;
    case '\"': c = '\"'; break;
    case '\?': c = '\?'; break;
    case 'x':
    {
      script->script_p++;
      for (i = 0, val = 0; ; i++, script->script_p++)
      {
        c = *script->script_p;
        if (c >= '0' && c <= '9') c = c - '0';
        else if (c >= 'A' && c <= 'Z') c = c - 'A' + 10;
        else if (c >= 'a' && c <= 'z') c = c - 'a' + 10;
        else break;
        val = (val << 4) + c;
      }
      script->script_p--;
      if (val > 0xFF)
      {
        Parse_ScriptWarning(script, "too large value in escape character");
        val = 0xFF;
      }
      c = val;
      break;
    }
    default: //NOTE: decimal ASCII code, NOT octal
    {
      if (*script->script_p < '0' || *script->script_p > '9') Parse_ScriptError(script, "unknown escape char");
      for (i = 0, val = 0; ; i++, script->script_p++)
      {
        c = *script->script_p;
        if (c >= '0' && c <= '9') c = c - '0';
        else break;
        val = val * 10 + c;
      }
      script->script_p--;
      if (val > 0xFF)
      {
        Parse_ScriptWarning(script, "too large value in escape character");
        val = 0xFF;
      }
      c = val;
      break;
    }
  }
  //step over the escape character or the last digit of the number
  script->script_p++;
  //store the escape character
  *ch = c;
  //succesfully read escape character
  return 1;
}

/*
===============
Parse_ReadString

Reads C-like string. Escape characters are interpretted.
Quotes are included with the string.
Reads two strings with a white space between them as one string.
===============
*/
static int Parse_ReadString(script_t *script, token_t *token, int quote)
{
  int len, tmpline;
  char *tmpscript_p;

  if (quote == '\"') token->type = TT_STRING;
  else token->type = TT_LITERAL;

  len = 0;
  //leading quote
  token->string[len++] = *script->script_p++;
  //
  while(1)
  {
    //minus 2 because trailing double quote and zero have to be appended
    if (len >= MAX_TOKEN_CHARS - 2)
    {
      Parse_ScriptError(script, "string longer than MAX_TOKEN_CHARS = %d", MAX_TOKEN_CHARS);
      return 0;
    }
    //if there is an escape character and
    //if escape characters inside a string are allowed
    if (*script->script_p == '\\' && !(script->flags & SCFL_NOSTRINGESCAPECHARS))
    {
      if (!Parse_ReadEscapeCharacter(script, &token->string[len]))
      {
        token->string[len] = 0;
        return 0;
      }
      len++;
    }
    //if a trailing quote
    else if (*script->script_p == quote)
    {
      //step over the double quote
      script->script_p++;
      //if white spaces in a string are not allowed
      if (script->flags & SCFL_NOSTRINGWHITESPACES) break;
      //
      tmpscript_p = script->script_p;
      tmpline = script->line;
      //read unusefull stuff between possible two following strings
      if (!Parse_ReadWhiteSpace(script))
      {
        script->script_p = tmpscript_p;
        script->line = tmpline;
        break;
      }
      //if there's no leading double qoute
      if (*script->script_p != quote)
      {
        script->script_p = tmpscript_p;
        script->line = tmpline;
        break;
      }
      //step over the new leading double quote
      script->script_p++;
    }
    else
    {
      if (*script->script_p == '\0')
      {
        token->string[len] = 0;
        Parse_ScriptError(script, "missing trailing quote");
        return 0;
      }
        if (*script->script_p == '\n')
      {
        token->string[len] = 0;
        Parse_ScriptError(script, "newline inside string %s", token->string);
        return 0;
      }
      token->string[len++] = *script->script_p++;
    }
  }
  //trailing quote
  token->string[len++] = quote;
  //end string with a zero
  token->string[len] = '\0';
  //the sub type is the length of the string
  token->subtype = len;
  return 1;
}

/*
===============
Parse_ReadName
===============
*/
static int Parse_ReadName(script_t *script, token_t *token)
{
  int len = 0;
  char c;

  token->type = TT_NAME;
  do
  {
    token->string[len++] = *script->script_p++;
    if (len >= MAX_TOKEN_CHARS)
    {
      Parse_ScriptError(script, "name longer than MAX_TOKEN_CHARS = %d", MAX_TOKEN_CHARS);
      return 0;
    }
    c = *script->script_p;
   } while ((c >= 'a' && c <= 'z') ||
        (c >= 'A' && c <= 'Z') ||
        (c >= '0' && c <= '9') ||
        c == '_');
  token->string[len] = '\0';
  //the sub type is the length of the name
  token->subtype = len;
  return 1;
}

/*
===============
Parse_NumberValue
===============
*/
static void Parse_NumberValue(char *string, int subtype, unsigned long int *intvalue,
                              double *floatvalue)
{
  unsigned long int dotfound = 0;

  *intvalue = 0;
  *floatvalue = 0;
  //floating point number
  if (subtype & TT_FLOAT)
  {
    while(*string)
    {
      if (*string == '.')
      {
        if (dotfound) return;
        dotfound = 10;
        string++;
      }
      if (dotfound)
      {
        *floatvalue = *floatvalue + (double) (*string - '0') /
                                  (double) dotfound;
        dotfound *= 10;
      }
      else
      {
        *floatvalue = *floatvalue * 10.0 + (double) (*string - '0');
      }
      string++;
    }
    *intvalue = (unsigned long) *floatvalue;
  }
  else if (subtype & TT_DECIMAL)
  {
    while(*string) *intvalue = *intvalue * 10 + (*string++ - '0');
    *floatvalue = *intvalue;
  }
  else if (subtype & TT_HEX)
  {
    //step over the leading 0x or 0X
    string += 2;
    while(*string)
    {
      *intvalue <<= 4;
      if (*string >= 'a' && *string <= 'f') *intvalue += *string - 'a' + 10;
      else if (*string >= 'A' && *string <= 'F') *intvalue += *string - 'A' + 10;
      else *intvalue += *string - '0';
      string++;
    }
    *floatvalue = *intvalue;
  }
  else if (subtype & TT_OCTAL)
  {
    //step over the first zero
    string += 1;
    while(*string) *intvalue = (*intvalue << 3) + (*string++ - '0');
    *floatvalue = *intvalue;
  }
  else if (subtype & TT_BINARY)
  {
    //step over the leading 0b or 0B
    string += 2;
    while(*string) *intvalue = (*intvalue << 1) + (*string++ - '0');
    *floatvalue = *intvalue;
  }
}

/*
===============
Parse_ReadNumber
===============
*/
static int Parse_ReadNumber(script_t *script, token_t *token)
{
  int len = 0, i;
  int octal, dot;
  char c;
//  unsigned long int intvalue = 0;
//  double floatvalue = 0;

  token->type = TT_NUMBER;
  //check for a hexadecimal number
  if (*script->script_p == '0' &&
    (*(script->script_p + 1) == 'x' ||
    *(script->script_p + 1) == 'X'))
  {
    token->string[len++] = *script->script_p++;
    token->string[len++] = *script->script_p++;
    c = *script->script_p;
    //hexadecimal
    while((c >= '0' && c <= '9') ||
          (c >= 'a' && c <= 'f') ||
          (c >= 'A' && c <= 'A'))
    {
      token->string[len++] = *script->script_p++;
      if (len >= MAX_TOKEN_CHARS)
      {
        Parse_ScriptError(script, "hexadecimal number longer than MAX_TOKEN_CHARS = %d", MAX_TOKEN_CHARS);
        return 0;
      }
      c = *script->script_p;
    }
    token->subtype |= TT_HEX;
  }
#ifdef BINARYNUMBERS
  //check for a binary number
  else if (*script->script_p == '0' &&
    (*(script->script_p + 1) == 'b' ||
    *(script->script_p + 1) == 'B'))
  {
    token->string[len++] = *script->script_p++;
    token->string[len++] = *script->script_p++;
    c = *script->script_p;
    //binary
    while(c == '0' || c == '1')
    {
      token->string[len++] = *script->script_p++;
      if (len >= MAX_TOKEN_CHARS)
      {
        Parse_ScriptError(script, "binary number longer than MAX_TOKEN_CHARS = %d", MAX_TOKEN_CHARS);
        return 0;
      }
      c = *script->script_p;
    }
    token->subtype |= TT_BINARY;
  }
#endif //BINARYNUMBERS
  else //decimal or octal integer or floating point number
  {
    octal = qfalse;
    dot = qfalse;
    if (*script->script_p == '0') octal = qtrue;
    while(1)
    {
      c = *script->script_p;
      if (c == '.') dot = qtrue;
      else if (c == '8' || c == '9') octal = qfalse;
      else if (c < '0' || c > '9') break;
      token->string[len++] = *script->script_p++;
      if (len >= MAX_TOKEN_CHARS - 1)
      {
        Parse_ScriptError(script, "number longer than MAX_TOKEN_CHARS = %d", MAX_TOKEN_CHARS);
        return 0;
      }
    }
    if (octal) token->subtype |= TT_OCTAL;
    else token->subtype |= TT_DECIMAL;
    if (dot) token->subtype |= TT_FLOAT;
  }
  for (i = 0; i < 2; i++)
  {
    c = *script->script_p;
    //check for a LONG number
    if ( (c == 'l' || c == 'L')
         && !(token->subtype & TT_LONG))
    {
      script->script_p++;
      token->subtype |= TT_LONG;
    }
    //check for an UNSIGNED number
    else if ( (c == 'u' || c == 'U')
        && !(token->subtype & (TT_UNSIGNED | TT_FLOAT)))
    {
      script->script_p++;
      token->subtype |= TT_UNSIGNED;
    }
  }
  token->string[len] = '\0';
  Parse_NumberValue(token->string, token->subtype, &token->intvalue, &token->floatvalue);
  if (!(token->subtype & TT_FLOAT)) token->subtype |= TT_INTEGER;
  return 1;
}

/*
===============
Parse_ReadPunctuation
===============
*/
static int Parse_ReadPunctuation(script_t *script, token_t *token)
{
  int len;
  char *p;
  punctuation_t *punc;

  for (punc = script->punctuationtable[(unsigned int)*script->script_p]; punc; punc = punc->next)
  {
    p = punc->p;
    len = strlen(p);
    //if the script contains at least as much characters as the punctuation
    if (script->script_p + len <= script->end_p)
    {
      //if the script contains the punctuation
      if (!strncmp(script->script_p, p, len))
      {
        strncpy(token->string, p, MAX_TOKEN_CHARS);
        script->script_p += len;
        token->type = TT_PUNCTUATION;
        //sub type is the number of the punctuation
        token->subtype = punc->n;
        return 1;
      }
    }
  }
  return 0;
}

/*
===============
Parse_ReadPrimitive
===============
*/
static int Parse_ReadPrimitive(script_t *script, token_t *token)
{
  int len;

  len = 0;
  while(*script->script_p > ' ' && *script->script_p != ';')
  {
    if (len >= MAX_TOKEN_CHARS)
    {
      Parse_ScriptError(script, "primitive token longer than MAX_TOKEN_CHARS = %d", MAX_TOKEN_CHARS);
      return 0;
    }
    token->string[len++] = *script->script_p++;
  }
  token->string[len] = 0;
  //copy the token into the script structure
  Com_Memcpy(&script->token, token, sizeof(token_t));
  //primitive reading successfull
  return 1;
}

/*
===============
Parse_ReadScriptToken
===============
*/
static int Parse_ReadScriptToken(script_t *script, token_t *token)
{
  //if there is a token available (from UnreadToken)
  if (script->tokenavailable)
  {
    script->tokenavailable = 0;
    Com_Memcpy(token, &script->token, sizeof(token_t));
    return 1;
  }
  //save script pointer
  script->lastscript_p = script->script_p;
  //save line counter
  script->lastline = script->line;
  //clear the token stuff
  Com_Memset(token, 0, sizeof(token_t));
  //start of the white space
  script->whitespace_p = script->script_p;
  token->whitespace_p = script->script_p;
  //read unusefull stuff
  if (!Parse_ReadWhiteSpace(script)) return 0;

  script->endwhitespace_p = script->script_p;
  token->endwhitespace_p = script->script_p;
  //line the token is on
  token->line = script->line;
  //number of lines crossed before token
  token->linescrossed = script->line - script->lastline;
  //if there is a leading double quote
  if (*script->script_p == '\"')
  {
    if (!Parse_ReadString(script, token, '\"')) return 0;
  }
  //if an literal
  else if (*script->script_p == '\'')
  {
    //if (!Parse_ReadLiteral(script, token)) return 0;
    if (!Parse_ReadString(script, token, '\'')) return 0;
  }
  //if there is a number
  else if ((*script->script_p >= '0' && *script->script_p <= '9') ||
        (*script->script_p == '.' &&
        (*(script->script_p + 1) >= '0' && *(script->script_p + 1) <= '9')))
  {
    if (!Parse_ReadNumber(script, token)) return 0;
  }
  //if this is a primitive script
  else if (script->flags & SCFL_PRIMITIVE)
  {
    return Parse_ReadPrimitive(script, token);
  }
  //if there is a name
  else if ((*script->script_p >= 'a' && *script->script_p <= 'z') ||
    (*script->script_p >= 'A' && *script->script_p <= 'Z') ||
    *script->script_p == '_')
  {
    if (!Parse_ReadName(script, token)) return 0;
  }
  //check for punctuations
  else if (!Parse_ReadPunctuation(script, token))
  {
    Parse_ScriptError(script, "can't read token");
    return 0;
  }
  //copy the token into the script structure
  Com_Memcpy(&script->token, token, sizeof(token_t));
  //succesfully read a token
  return 1;
}

/*
===============
Parse_StripDoubleQuotes
===============
*/
static void Parse_StripDoubleQuotes(char *string)
{
  if (*string == '\"')
  {
    memmove( string, string + 1, strlen( string ) + 1 );
  }
  if (string[strlen(string)-1] == '\"')
  {
    string[strlen(string)-1] = '\0';
  }
}

/*
===============
Parse_EndOfScript
===============
*/
static int Parse_EndOfScript(script_t *script)
{
  return script->script_p >= script->end_p;
}

/*
===============
Parse_LoadScriptFile
===============
*/
static script_t *Parse_LoadScriptFile(const char *filename)
{
  fileHandle_t fp;
  int length;
  void *buffer;
  script_t *script;

  length = FS_FOpenFileRead( filename, &fp, qfalse );
  if (!fp) return NULL;

  buffer = Z_Malloc(sizeof(script_t) + length + 1);
  Com_Memset( buffer, 0, sizeof(script_t) + length + 1 );

  script = (script_t *) buffer;
  Com_Memset(script, 0, sizeof(script_t));
  strcpy(script->filename, filename);
  script->buffer = (char *) buffer + sizeof(script_t);
  script->buffer[length] = 0;
  script->length = length;
  //pointer in script buffer
  script->script_p = script->buffer;
  //pointer in script buffer before reading token
  script->lastscript_p = script->buffer;
  //pointer to end of script buffer
  script->end_p = &script->buffer[length];
  //set if there's a token available in script->token
  script->tokenavailable = 0;
  //
  script->line = 1;
  script->lastline = 1;
  //
  Parse_SetScriptPunctuations(script, NULL);
  //
  FS_Read(script->buffer, length, fp);
  FS_FCloseFile(fp);
  //

  return script;
}

/*
===============
Parse_LoadScriptMemory
===============
*/
static script_t *Parse_LoadScriptMemory(char *ptr, int length, char *name)
{
  void *buffer;
  script_t *script;

  buffer = Z_Malloc(sizeof(script_t) + length + 1);
  Com_Memset( buffer, 0, sizeof(script_t) + length + 1 );

  script = (script_t *) buffer;
  Com_Memset(script, 0, sizeof(script_t));
  strcpy(script->filename, name);
  script->buffer = (char *) buffer + sizeof(script_t);
  script->buffer[length] = 0;
  script->length = length;
  //pointer in script buffer
  script->script_p = script->buffer;
  //pointer in script buffer before reading token
  script->lastscript_p = script->buffer;
  //pointer to end of script buffer
  script->end_p = &script->buffer[length];
  //set if there's a token available in script->token
  script->tokenavailable = 0;
  //
  script->line = 1;
  script->lastline = 1;
  //
  Parse_SetScriptPunctuations(script, NULL);
  //
  Com_Memcpy(script->buffer, ptr, length);
  //
  return script;
}

/*
===============
Parse_FreeScript
===============
*/
static void Parse_FreeScript(script_t *script)
{
  if (script->punctuationtable) Z_Free(script->punctuationtable);
  Z_Free(script);
}

/*
===============
Parse_SourceError
===============
*/
__attribute__ ((format (printf, 2, 3))) static void QDECL Parse_SourceError(source_t *source, char *str, ...)
{
  char text[1024];
  va_list ap;

  va_start(ap, str);
  vsprintf(text, str, ap);
  va_end(ap);
  Com_Printf( "file %s, line %d: %s\n", source->scriptstack->filename, source->scriptstack->line, text);
}

/*
===============
Parse_SourceWarning
===============
*/
__attribute__ ((format (printf, 2, 3))) static void QDECL Parse_SourceWarning(source_t *source, char *str, ...)
{
  char text[1024];
  va_list ap;

  va_start(ap, str);
  vsprintf(text, str, ap);
  va_end(ap);
  Com_Printf( "file %s, line %d: %s\n", source->scriptstack->filename, source->scriptstack->line, text);
}

/*
===============
Parse_PushIndent
===============
*/
static void Parse_PushIndent(source_t *source, int type, int skip)
{
  indent_t *indent;

  indent = (indent_t *) Z_Malloc(sizeof(indent_t));
  indent->type = type;
  indent->script = source->scriptstack;
  indent->skip = (skip != 0);
  source->skip += indent->skip;
  indent->next = source->indentstack;
  source->indentstack = indent;
}

/*
===============
Parse_PopIndent
===============
*/
static void Parse_PopIndent(source_t *source, int *type, int *skip)
{
  indent_t *indent;

  *type = 0;
  *skip = 0;

  indent = source->indentstack;
  if (!indent) return;

  //must be an indent from the current script
  if (source->indentstack->script != source->scriptstack) return;

  *type = indent->type;
  *skip = indent->skip;
  source->indentstack = source->indentstack->next;
  source->skip -= indent->skip;
  Z_Free(indent);
}

/*
===============
Parse_PushScript
===============
*/
static void Parse_PushScript(source_t *source, script_t *script)
{
  script_t *s;

  for (s = source->scriptstack; s; s = s->next)
  {
    if (!Q_stricmp(s->filename, script->filename))
    {
      Parse_SourceError(source, "%s recursively included", script->filename);
      return;
    }
  }
  //push the script on the script stack
  script->next = source->scriptstack;
  source->scriptstack = script;
}

/*
===============
Parse_CopyToken
===============
*/
static token_t *Parse_CopyToken(token_t *token)
{
  token_t *t;

//  t = (token_t *) malloc(sizeof(token_t));
  t = (token_t *) Z_Malloc(sizeof(token_t));
//  t = freetokens;
  if (!t)
  {
    Com_Error(ERR_FATAL, "out of token space\n");
    return NULL;
  }
//  freetokens = freetokens->next;
  Com_Memcpy(t, token, sizeof(token_t));
  t->next = NULL;
  numtokens++;
  return t;
}

/*
===============
Parse_FreeToken
===============
*/
static void Parse_FreeToken(token_t *token)
{
  //free(token);
  Z_Free(token);
//  token->next = freetokens;
//  freetokens = token;
  numtokens--;
}

/*
===============
Parse_ReadSourceToken
===============
*/
static int Parse_ReadSourceToken(source_t *source, token_t *token)
{
  token_t *t;
  script_t *script;
  int type, skip, lines;

  lines = 0;
  //if there's no token already available
  while(!source->tokens)
  {
    //if there's a token to read from the script
    if( Parse_ReadScriptToken( source->scriptstack, token ) )
    {
      token->linescrossed += lines;
      return qtrue;
    }

    // if lines were crossed before the end of the script, count them
    lines += source->scriptstack->line - source->scriptstack->lastline;

    //if at the end of the script
    if (Parse_EndOfScript(source->scriptstack))
    {
      //remove all indents of the script
      while(source->indentstack &&
          source->indentstack->script == source->scriptstack)
      {
        Parse_SourceWarning(source, "missing #endif");
        Parse_PopIndent(source, &type, &skip);
      }
    }
    //if this was the initial script
    if (!source->scriptstack->next) return qfalse;
    //remove the script and return to the last one
    script = source->scriptstack;
    source->scriptstack = source->scriptstack->next;
    Parse_FreeScript(script);
  }
  //copy the already available token
  Com_Memcpy(token, source->tokens, sizeof(token_t));
  //free the read token
  t = source->tokens;
  source->tokens = source->tokens->next;
  Parse_FreeToken(t);
  return qtrue;
}

/*
===============
Parse_UnreadSourceToken
===============
*/
static int Parse_UnreadSourceToken(source_t *source, token_t *token)
{
  token_t *t;

  t = Parse_CopyToken(token);
  t->next = source->tokens;
  source->tokens = t;
  return qtrue;
}

/*
===============
Parse_ReadDefineParms
===============
*/
static int Parse_ReadDefineParms(source_t *source, define_t *define, token_t **parms, int maxparms)
{
  token_t token, *t, *last;
  int i, done, lastcomma, numparms, indent;

  if (!Parse_ReadSourceToken(source, &token))
  {
    Parse_SourceError(source, "define %s missing parms", define->name);
    return qfalse;
  }
  //
  if (define->numparms > maxparms)
  {
    Parse_SourceError(source, "define with more than %d parameters", maxparms);
    return qfalse;
  }
  //
  for (i = 0; i < define->numparms; i++) parms[i] = NULL;
  //if no leading "("
  if (strcmp(token.string, "("))
  {
    Parse_UnreadSourceToken(source, &token);
    Parse_SourceError(source, "define %s missing parms", define->name);
    return qfalse;
  }
  //read the define parameters
  for (done = 0, numparms = 0, indent = 0; !done;)
  {
    if (numparms >= maxparms)
    {
      Parse_SourceError(source, "define %s with too many parms", define->name);
      return qfalse;
    }
    if (numparms >= define->numparms)
    {
      Parse_SourceWarning(source, "define %s has too many parms", define->name);
      return qfalse;
    }
    parms[numparms] = NULL;
    lastcomma = 1;
    last = NULL;
    while(!done)
    {
      //
      if (!Parse_ReadSourceToken(source, &token))
      {
        Parse_SourceError(source, "define %s incomplete", define->name);
        return qfalse;
      }
      //
      if (!strcmp(token.string, ","))
      {
        if (indent <= 0)
        {
          if (lastcomma) Parse_SourceWarning(source, "too many comma's");
          lastcomma = 1;
          break;
        }
      }
      lastcomma = 0;
      //
      if (!strcmp(token.string, "("))
      {
        indent++;
        continue;
      }
      else if (!strcmp(token.string, ")"))
      {
        if (--indent <= 0)
        {
          if (!parms[define->numparms-1])
          {
            Parse_SourceWarning(source, "too few define parms");
          }
          done = 1;
          break;
        }
      }
      //
      if (numparms < define->numparms)
      {
        //
        t = Parse_CopyToken(&token);
        t->next = NULL;
        if (last) last->next = t;
        else parms[numparms] = t;
        last = t;
      }
    }
    numparms++;
  }
  return qtrue;
}

/*
===============
Parse_StringizeTokens
===============
*/
static int Parse_StringizeTokens(token_t *tokens, token_t *token)
{
  token_t *t;

  token->type = TT_STRING;
  token->whitespace_p = NULL;
  token->endwhitespace_p = NULL;
  token->string[0] = '\0';
  strcat(token->string, "\"");
  for (t = tokens; t; t = t->next)
  {
    strncat(token->string, t->string, MAX_TOKEN_CHARS - strlen(token->string));
  }
  strncat(token->string, "\"", MAX_TOKEN_CHARS - strlen(token->string));
  return qtrue;
}

/*
===============
Parse_MergeTokens
===============
*/
static int Parse_MergeTokens(token_t *t1, token_t *t2)
{
  //merging of a name with a name or number
  if (t1->type == TT_NAME && (t2->type == TT_NAME || t2->type == TT_NUMBER))
  {
    strcat(t1->string, t2->string);
    return qtrue;
  }
  //merging of two strings
  if (t1->type == TT_STRING && t2->type == TT_STRING)
  {
    //remove trailing double quote
    t1->string[strlen(t1->string)-1] = '\0';
    //concat without leading double quote
    strcat(t1->string, &t2->string[1]);
    return qtrue;
  }
  //FIXME: merging of two number of the same sub type
  return qfalse;
}

/*
===============
Parse_NameHash
===============
*/
//char primes[16] = {1, 3, 5, 7, 11, 13, 17, 19, 23, 27, 29, 31, 37, 41, 43, 47};
static int Parse_NameHash(char *name)
{
  int register hash, i;

  hash = 0;
  for (i = 0; name[i] != '\0'; i++)
  {
    hash += name[i] * (119 + i);
    //hash += (name[i] << 7) + i;
    //hash += (name[i] << (i&15));
  }
  hash = (hash ^ (hash >> 10) ^ (hash >> 20)) & (DEFINEHASHSIZE-1);
  return hash;
}

/*
===============
Parse_AddDefineToHash
===============
*/
static void Parse_AddDefineToHash(define_t *define, define_t **definehash)
{
  int hash;

  hash = Parse_NameHash(define->name);
  define->hashnext = definehash[hash];
  definehash[hash] = define;
}

/*
===============
Parse_FindHashedDefine
===============
*/
static define_t *Parse_FindHashedDefine(define_t **definehash, char *name)
{
  define_t *d;
  int hash;

  hash = Parse_NameHash(name);
  for (d = definehash[hash]; d; d = d->hashnext)
  {
    if (!strcmp(d->name, name)) return d;
  }
  return NULL;
}

/*
===============
Parse_FindDefineParm
===============
*/
static int Parse_FindDefineParm(define_t *define, char *name)
{
  token_t *p;
  int i;

  i = 0;
  for (p = define->parms; p; p = p->next)
  {
    if (!strcmp(p->string, name)) return i;
    i++;
  }
  return -1;
}

/*
===============
Parse_FreeDefine
===============
*/
static void Parse_FreeDefine(define_t *define)
{
  token_t *t, *next;

  //free the define parameters
  for (t = define->parms; t; t = next)
  {
    next = t->next;
    Parse_FreeToken(t);
  }
  //free the define tokens
  for (t = define->tokens; t; t = next)
  {
    next = t->next;
    Parse_FreeToken(t);
  }
  //free the define
  Z_Free(define);
}

/*
===============
Parse_ExpandBuiltinDefine
===============
*/
static int Parse_ExpandBuiltinDefine(source_t *source, token_t *deftoken, define_t *define,
                    token_t **firsttoken, token_t **lasttoken)
{
  token_t *token;
  time_t t;

  char *curtime;

  token = Parse_CopyToken(deftoken);
  switch(define->builtin)
  {
    case BUILTIN_LINE:
    {
      sprintf(token->string, "%d", deftoken->line);
      token->intvalue = deftoken->line;
      token->floatvalue = deftoken->line;
      token->type = TT_NUMBER;
      token->subtype = TT_DECIMAL | TT_INTEGER;
      *firsttoken = token;
      *lasttoken = token;
      break;
    }
    case BUILTIN_FILE:
    {
      strcpy(token->string, source->scriptstack->filename);
      token->type = TT_NAME;
      token->subtype = strlen(token->string);
      *firsttoken = token;
      *lasttoken = token;
      break;
    }
    case BUILTIN_DATE:
    {
      t = time(NULL);
      curtime = ctime(&t);
      strcpy(token->string, "\"");
      strncat(token->string, curtime+4, 7);
      strncat(token->string+7, curtime+20, 4);
      strcat(token->string, "\"");
      free(curtime);
      token->type = TT_NAME;
      token->subtype = strlen(token->string);
      *firsttoken = token;
      *lasttoken = token;
      break;
    }
    case BUILTIN_TIME:
    {
      t = time(NULL);
      curtime = ctime(&t);
      strcpy(token->string, "\"");
      strncat(token->string, curtime+11, 8);
      strcat(token->string, "\"");
      free(curtime);
      token->type = TT_NAME;
      token->subtype = strlen(token->string);
      *firsttoken = token;
      *lasttoken = token;
      break;
    }
    case BUILTIN_STDC:
    default:
    {
      *firsttoken = NULL;
      *lasttoken = NULL;
      break;
    }
  }
  return qtrue;
}

/*
===============
Parse_ExpandDefine
===============
*/
static int Parse_ExpandDefine(source_t *source, token_t *deftoken, define_t *define,
                    token_t **firsttoken, token_t **lasttoken)
{
  token_t *parms[MAX_DEFINEPARMS], *dt, *pt, *t;
  token_t *t1, *t2, *first, *last, *nextpt, token;
  int parmnum, i;

  //if it is a builtin define
  if (define->builtin)
  {
    return Parse_ExpandBuiltinDefine(source, deftoken, define, firsttoken, lasttoken);
  }
  //if the define has parameters
  if (define->numparms)
  {
    if (!Parse_ReadDefineParms(source, define, parms, MAX_DEFINEPARMS)) return qfalse;
  }
  //empty list at first
  first = NULL;
  last = NULL;
  //create a list with tokens of the expanded define
  for (dt = define->tokens; dt; dt = dt->next)
  {
    parmnum = -1;
    //if the token is a name, it could be a define parameter
    if (dt->type == TT_NAME)
    {
      parmnum = Parse_FindDefineParm(define, dt->string);
    }
    //if it is a define parameter
    if (parmnum >= 0)
    {
      for (pt = parms[parmnum]; pt; pt = pt->next)
      {
        t = Parse_CopyToken(pt);
        //add the token to the list
        t->next = NULL;
        if (last) last->next = t;
        else first = t;
        last = t;
      }
    }
    else
    {
      //if stringizing operator
      if (dt->string[0] == '#' && dt->string[1] == '\0')
      {
        //the stringizing operator must be followed by a define parameter
        if (dt->next) parmnum = Parse_FindDefineParm(define, dt->next->string);
        else parmnum = -1;
        //
        if (parmnum >= 0)
        {
          //step over the stringizing operator
          dt = dt->next;
          //stringize the define parameter tokens
          if (!Parse_StringizeTokens(parms[parmnum], &token))
          {
            Parse_SourceError(source, "can't stringize tokens");
            return qfalse;
          }
          t = Parse_CopyToken(&token);
        }
        else
        {
          Parse_SourceWarning(source, "stringizing operator without define parameter");
          continue;
        }
      }
      else
      {
        t = Parse_CopyToken(dt);
      }
      //add the token to the list
      t->next = NULL;
      if (last) last->next = t;
      else first = t;
      last = t;
    }
  }
  //check for the merging operator
  for (t = first; t; )
  {
    if (t->next)
    {
      //if the merging operator
      if (t->next->string[0] == '#' && t->next->string[1] == '#')
      {
        t1 = t;
        t2 = t->next->next;
        if (t2)
        {
          if (!Parse_MergeTokens(t1, t2))
          {
            Parse_SourceError(source, "can't merge %s with %s", t1->string, t2->string);
            return qfalse;
          }
          Parse_FreeToken(t1->next);
          t1->next = t2->next;
          if (t2 == last) last = t1;
          Parse_FreeToken(t2);
          continue;
        }
      }
    }
    t = t->next;
  }
  //store the first and last token of the list
  *firsttoken = first;
  *lasttoken = last;
  //free all the parameter tokens
  for (i = 0; i < define->numparms; i++)
  {
    for (pt = parms[i]; pt; pt = nextpt)
    {
      nextpt = pt->next;
      Parse_FreeToken(pt);
    }
  }
  //
  return qtrue;
}

/*
===============
Parse_ExpandDefineIntoSource
===============
*/
static int Parse_ExpandDefineIntoSource(source_t *source, token_t *deftoken, define_t *define)
{
  token_t *firsttoken, *lasttoken;

  if (!Parse_ExpandDefine(source, deftoken, define, &firsttoken, &lasttoken)) return qfalse;

  if (firsttoken && lasttoken)
  {
    lasttoken->next = source->tokens;
    source->tokens = firsttoken;
    return qtrue;
  }
  return qfalse;
}

/*
===============
Parse_ConvertPath
===============
*/
static void Parse_ConvertPath(char *path)
{
  char *ptr;

  //remove double path seperators
  for (ptr = path; *ptr;)
  {
    if ((*ptr == '\\' || *ptr == '/') &&
        (*(ptr+1) == '\\' || *(ptr+1) == '/'))
    {
      memmove(ptr, ptr+1, strlen(ptr));
    }
    else
    {
      ptr++;
    }
  }
  //set OS dependent path seperators
  for (ptr = path; *ptr;)
  {
    if (*ptr == '/' || *ptr == '\\') *ptr = PATH_SEP;
    ptr++;
  }
}

/*
===============
Parse_ReadLine

reads a token from the current line, continues reading on the next
line only if a backslash '\' is encountered.
===============
*/
static int Parse_ReadLine(source_t *source, token_t *token)
{
  int crossline;

  crossline = 0;
  do
  {
    if (!Parse_ReadSourceToken(source, token)) return qfalse;

    if (token->linescrossed > crossline)
    {
      Parse_UnreadSourceToken(source, token);
      return qfalse;
    }
    crossline = 1;
  } while(!strcmp(token->string, "\\"));
  return qtrue;
}

/*
===============
Parse_OperatorPriority
===============
*/
typedef struct operator_s
{
  int operator;
  int priority;
  int parentheses;
  struct operator_s *prev, *next;
} operator_t;

typedef struct value_s
{
  signed long int intvalue;
  double floatvalue;
  int parentheses;
  struct value_s *prev, *next;
} value_t;

static int Parse_OperatorPriority(int op)
{
  switch(op)
  {
    case P_MUL: return 15;
    case P_DIV: return 15;
    case P_MOD: return 15;
    case P_ADD: return 14;
    case P_SUB: return 14;

    case P_LOGIC_AND: return 7;
    case P_LOGIC_OR: return 6;
    case P_LOGIC_GEQ: return 12;
    case P_LOGIC_LEQ: return 12;
    case P_LOGIC_EQ: return 11;
    case P_LOGIC_UNEQ: return 11;

    case P_LOGIC_NOT: return 16;
    case P_LOGIC_GREATER: return 12;
    case P_LOGIC_LESS: return 12;

    case P_RSHIFT: return 13;
    case P_LSHIFT: return 13;

    case P_BIN_AND: return 10;
    case P_BIN_OR: return 8;
    case P_BIN_XOR: return 9;
    case P_BIN_NOT: return 16;

    case P_COLON: return 5;
    case P_QUESTIONMARK: return 5;
  }
  return qfalse;
}

#define MAX_VALUES    64
#define MAX_OPERATORS 64
#define AllocValue(val)                 \
  if (numvalues >= MAX_VALUES) {            \
    Parse_SourceError(source, "out of value space\n");    \
    error = 1;                    \
    break;                      \
  }                         \
  else                        \
    val = &value_heap[numvalues++];
#define FreeValue(val)
//
#define AllocOperator(op)               \
  if (numoperators >= MAX_OPERATORS) {        \
    Parse_SourceError(source, "out of operator space\n"); \
    error = 1;                    \
    break;                      \
  }                         \
  else                        \
    op = &operator_heap[numoperators++];
#define FreeOperator(op)

/*
===============
Parse_EvaluateTokens
===============
*/
static int Parse_EvaluateTokens(source_t *source, token_t *tokens, signed long int *intvalue,
                                  double *floatvalue, int integer)
{
  operator_t *o, *firstoperator, *lastoperator;
  value_t *v, *firstvalue, *lastvalue, *v1, *v2;
  token_t *t;
  int brace = 0;
  int parentheses = 0;
  int error = 0;
  int lastwasvalue = 0;
  int negativevalue = 0;
  int questmarkintvalue = 0;
  double questmarkfloatvalue = 0;
  int gotquestmarkvalue = qfalse;
  //
  operator_t operator_heap[MAX_OPERATORS];
  int numoperators = 0;
  value_t value_heap[MAX_VALUES];
  int numvalues = 0;

  firstoperator = lastoperator = NULL;
  firstvalue = lastvalue = NULL;
  if (intvalue) *intvalue = 0;
  if (floatvalue) *floatvalue = 0;
  for (t = tokens; t; t = t->next)
  {
    switch(t->type)
    {
      case TT_NAME:
      {
        if (lastwasvalue || negativevalue)
        {
          Parse_SourceError(source, "syntax error in #if/#elif");
          error = 1;
          break;
        }
        if (strcmp(t->string, "defined"))
        {
          Parse_SourceError(source, "undefined name %s in #if/#elif", t->string);
          error = 1;
          break;
        }
        t = t->next;
        if (!strcmp(t->string, "("))
        {
          brace = qtrue;
          t = t->next;
        }
        if (!t || t->type != TT_NAME)
        {
          Parse_SourceError(source, "defined without name in #if/#elif");
          error = 1;
          break;
        }
        //v = (value_t *) Z_Malloc(sizeof(value_t));
        AllocValue(v);
        if (Parse_FindHashedDefine(source->definehash, t->string))
        {
          v->intvalue = 1;
          v->floatvalue = 1;
        }
        else
        {
          v->intvalue = 0;
          v->floatvalue = 0;
        }
        v->parentheses = parentheses;
        v->next = NULL;
        v->prev = lastvalue;
        if (lastvalue) lastvalue->next = v;
        else firstvalue = v;
        lastvalue = v;
        if (brace)
        {
          t = t->next;
          if (!t || strcmp(t->string, ")"))
          {
            Parse_SourceError(source, "defined without ) in #if/#elif");
            error = 1;
            break;
          }
        }
        brace = qfalse;
        // defined() creates a value
        lastwasvalue = 1;
        break;
      }
      case TT_NUMBER:
      {
        if (lastwasvalue)
        {
          Parse_SourceError(source, "syntax error in #if/#elif");
          error = 1;
          break;
        }
        //v = (value_t *) Z_Malloc(sizeof(value_t));
        AllocValue(v);
        if (negativevalue)
        {
          v->intvalue = - (signed int) t->intvalue;
          v->floatvalue = - t->floatvalue;
        }
        else
        {
          v->intvalue = t->intvalue;
          v->floatvalue = t->floatvalue;
        }
        v->parentheses = parentheses;
        v->next = NULL;
        v->prev = lastvalue;
        if (lastvalue) lastvalue->next = v;
        else firstvalue = v;
        lastvalue = v;
        //last token was a value
        lastwasvalue = 1;
        //
        negativevalue = 0;
        break;
      }
      case TT_PUNCTUATION:
      {
        if (negativevalue)
        {
          Parse_SourceError(source, "misplaced minus sign in #if/#elif");
          error = 1;
          break;
        }
        if (t->subtype == P_PARENTHESESOPEN)
        {
          parentheses++;
          break;
        }
        else if (t->subtype == P_PARENTHESESCLOSE)
        {
          parentheses--;
          if (parentheses < 0)
          {
            Parse_SourceError(source, "too many ) in #if/#elsif");
            error = 1;
          }
          break;
        }
        //check for invalid operators on floating point values
        if (!integer)
        {
          if (t->subtype == P_BIN_NOT || t->subtype == P_MOD ||
            t->subtype == P_RSHIFT || t->subtype == P_LSHIFT ||
            t->subtype == P_BIN_AND || t->subtype == P_BIN_OR ||
            t->subtype == P_BIN_XOR)
          {
            Parse_SourceError(source, "illigal operator %s on floating point operands\n", t->string);
            error = 1;
            break;
          }
        }
        switch(t->subtype)
        {
          case P_LOGIC_NOT:
          case P_BIN_NOT:
          {
            if (lastwasvalue)
            {
              Parse_SourceError(source, "! or ~ after value in #if/#elif");
              error = 1;
              break;
            }
            break;
          }
          case P_INC:
          case P_DEC:
          {
            Parse_SourceError(source, "++ or -- used in #if/#elif");
            break;
          }
          case P_SUB:
          {
            if (!lastwasvalue)
            {
              negativevalue = 1;
              break;
            }
          }

          case P_MUL:
          case P_DIV:
          case P_MOD:
          case P_ADD:

          case P_LOGIC_AND:
          case P_LOGIC_OR:
          case P_LOGIC_GEQ:
          case P_LOGIC_LEQ:
          case P_LOGIC_EQ:
          case P_LOGIC_UNEQ:

          case P_LOGIC_GREATER:
          case P_LOGIC_LESS:

          case P_RSHIFT:
          case P_LSHIFT:

          case P_BIN_AND:
          case P_BIN_OR:
          case P_BIN_XOR:

          case P_COLON:
          case P_QUESTIONMARK:
          {
            if (!lastwasvalue)
            {
              Parse_SourceError(source, "operator %s after operator in #if/#elif", t->string);
              error = 1;
              break;
            }
            break;
          }
          default:
          {
            Parse_SourceError(source, "invalid operator %s in #if/#elif", t->string);
            error = 1;
            break;
          }
        }
        if (!error && !negativevalue)
        {
          //o = (operator_t *) Z_Malloc(sizeof(operator_t));
          AllocOperator(o);
          o->operator = t->subtype;
          o->priority = Parse_OperatorPriority(t->subtype);
          o->parentheses = parentheses;
          o->next = NULL;
          o->prev = lastoperator;
          if (lastoperator) lastoperator->next = o;
          else firstoperator = o;
          lastoperator = o;
          lastwasvalue = 0;
        }
        break;
      }
      default:
      {
        Parse_SourceError(source, "unknown %s in #if/#elif", t->string);
        error = 1;
        break;
      }
    }
    if (error) break;
  }
  if (!error)
  {
    if (!lastwasvalue)
    {
      Parse_SourceError(source, "trailing operator in #if/#elif");
      error = 1;
    }
    else if (parentheses)
    {
      Parse_SourceError(source, "too many ( in #if/#elif");
      error = 1;
    }
  }
  //
  gotquestmarkvalue = qfalse;
  questmarkintvalue = 0;
  questmarkfloatvalue = 0;
  //while there are operators
  while(!error && firstoperator)
  {
    v = firstvalue;
    for (o = firstoperator; o->next; o = o->next)
    {
      //if the current operator is nested deeper in parentheses
      //than the next operator
      if (o->parentheses > o->next->parentheses) break;
      //if the current and next operator are nested equally deep in parentheses
      if (o->parentheses == o->next->parentheses)
      {
        //if the priority of the current operator is equal or higher
        //than the priority of the next operator
        if (o->priority >= o->next->priority) break;
      }
      //if the arity of the operator isn't equal to 1
      if (o->operator != P_LOGIC_NOT
          && o->operator != P_BIN_NOT) v = v->next;
      //if there's no value or no next value
      if (!v)
      {
        Parse_SourceError(source, "mising values in #if/#elif");
        error = 1;
        break;
      }
    }
    if (error) break;
    v1 = v;
    v2 = v->next;
    switch(o->operator)
    {
      case P_LOGIC_NOT:   v1->intvalue = !v1->intvalue;
                  v1->floatvalue = !v1->floatvalue; break;
      case P_BIN_NOT:     v1->intvalue = ~v1->intvalue;
                  break;
      case P_MUL:       v1->intvalue *= v2->intvalue;
                  v1->floatvalue *= v2->floatvalue; break;
      case P_DIV:       if (!v2->intvalue || !v2->floatvalue)
                  {
                    Parse_SourceError(source, "divide by zero in #if/#elif\n");
                    error = 1;
                    break;
                  }
                  v1->intvalue /= v2->intvalue;
                  v1->floatvalue /= v2->floatvalue; break;
      case P_MOD:       if (!v2->intvalue)
                  {
                    Parse_SourceError(source, "divide by zero in #if/#elif\n");
                    error = 1;
                    break;
                  }
                  v1->intvalue %= v2->intvalue; break;
      case P_ADD:       v1->intvalue += v2->intvalue;
                  v1->floatvalue += v2->floatvalue; break;
      case P_SUB:       v1->intvalue -= v2->intvalue;
                  v1->floatvalue -= v2->floatvalue; break;
      case P_LOGIC_AND:   v1->intvalue = v1->intvalue && v2->intvalue;
                  v1->floatvalue = v1->floatvalue && v2->floatvalue; break;
      case P_LOGIC_OR:    v1->intvalue = v1->intvalue || v2->intvalue;
                  v1->floatvalue = v1->floatvalue || v2->floatvalue; break;
      case P_LOGIC_GEQ:   v1->intvalue = v1->intvalue >= v2->intvalue;
                  v1->floatvalue = v1->floatvalue >= v2->floatvalue; break;
      case P_LOGIC_LEQ:   v1->intvalue = v1->intvalue <= v2->intvalue;
                  v1->floatvalue = v1->floatvalue <= v2->floatvalue; break;
      case P_LOGIC_EQ:    v1->intvalue = v1->intvalue == v2->intvalue;
                  v1->floatvalue = v1->floatvalue == v2->floatvalue; break;
      case P_LOGIC_UNEQ:    v1->intvalue = v1->intvalue != v2->intvalue;
                  v1->floatvalue = v1->floatvalue != v2->floatvalue; break;
      case P_LOGIC_GREATER: v1->intvalue = v1->intvalue > v2->intvalue;
                  v1->floatvalue = v1->floatvalue > v2->floatvalue; break;
      case P_LOGIC_LESS:    v1->intvalue = v1->intvalue < v2->intvalue;
                  v1->floatvalue = v1->floatvalue < v2->floatvalue; break;
      case P_RSHIFT:      v1->intvalue >>= v2->intvalue;
                  break;
      case P_LSHIFT:      v1->intvalue <<= v2->intvalue;
                  break;
      case P_BIN_AND:     v1->intvalue &= v2->intvalue;
                  break;
      case P_BIN_OR:      v1->intvalue |= v2->intvalue;
                  break;
      case P_BIN_XOR:     v1->intvalue ^= v2->intvalue;
                  break;
      case P_COLON:
      {
        if (!gotquestmarkvalue)
        {
          Parse_SourceError(source, ": without ? in #if/#elif");
          error = 1;
          break;
        }
        if (integer)
        {
          if (!questmarkintvalue) v1->intvalue = v2->intvalue;
        }
        else
        {
          if (!questmarkfloatvalue) v1->floatvalue = v2->floatvalue;
        }
        gotquestmarkvalue = qfalse;
        break;
      }
      case P_QUESTIONMARK:
      {
        if (gotquestmarkvalue)
        {
          Parse_SourceError(source, "? after ? in #if/#elif");
          error = 1;
          break;
        }
        questmarkintvalue = v1->intvalue;
        questmarkfloatvalue = v1->floatvalue;
        gotquestmarkvalue = qtrue;
        break;
      }
    }
    if (error) break;
    //if not an operator with arity 1
    if (o->operator != P_LOGIC_NOT
        && o->operator != P_BIN_NOT)
    {
      //remove the second value if not question mark operator
      if (o->operator != P_QUESTIONMARK) v = v->next;
      //
      if (v->prev) v->prev->next = v->next;
      else firstvalue = v->next;
      if (v->next) v->next->prev = v->prev;
      else lastvalue = v->prev;
      //Z_Free(v);
      FreeValue(v);
    }
    //remove the operator
    if (o->prev) o->prev->next = o->next;
    else firstoperator = o->next;
    if (o->next) o->next->prev = o->prev;
    else lastoperator = o->prev;
    //Z_Free(o);
    FreeOperator(o);
  }
  if (firstvalue)
  {
    if (intvalue) *intvalue = firstvalue->intvalue;
    if (floatvalue) *floatvalue = firstvalue->floatvalue;
  }
  for (o = firstoperator; o; o = lastoperator)
  {
    lastoperator = o->next;
    //Z_Free(o);
    FreeOperator(o);
  }
  for (v = firstvalue; v; v = lastvalue)
  {
    lastvalue = v->next;
    //Z_Free(v);
    FreeValue(v);
  }
  if (!error) return qtrue;
  if (intvalue) *intvalue = 0;
  if (floatvalue) *floatvalue = 0;
  return qfalse;
}

/*
===============
Parse_Evaluate
===============
*/
static int Parse_Evaluate(source_t *source, signed long int *intvalue,
                        double *floatvalue, int integer)
{
  token_t token, *firsttoken, *lasttoken;
  token_t *t, *nexttoken;
  define_t *define;
  int defined = qfalse;

  if (intvalue) *intvalue = 0;
  if (floatvalue) *floatvalue = 0;
  //
  if (!Parse_ReadLine(source, &token))
  {
    Parse_SourceError(source, "no value after #if/#elif");
    return qfalse;
  }
  firsttoken = NULL;
  lasttoken = NULL;
  do
  {
    //if the token is a name
    if (token.type == TT_NAME)
    {
      if (defined)
      {
        defined = qfalse;
        t = Parse_CopyToken(&token);
        t->next = NULL;
        if (lasttoken) lasttoken->next = t;
        else firsttoken = t;
        lasttoken = t;
      }
      else if (!strcmp(token.string, "defined"))
      {
        defined = qtrue;
        t = Parse_CopyToken(&token);
        t->next = NULL;
        if (lasttoken) lasttoken->next = t;
        else firsttoken = t;
        lasttoken = t;
      }
      else
      {
        //then it must be a define
        define = Parse_FindHashedDefine(source->definehash, token.string);
        if (!define)
        {
          Parse_SourceError(source, "can't evaluate %s, not defined", token.string);
          return qfalse;
        }
        if (!Parse_ExpandDefineIntoSource(source, &token, define)) return qfalse;
      }
    }
    //if the token is a number or a punctuation
    else if (token.type == TT_NUMBER || token.type == TT_PUNCTUATION)
    {
      t = Parse_CopyToken(&token);
      t->next = NULL;
      if (lasttoken) lasttoken->next = t;
      else firsttoken = t;
      lasttoken = t;
    }
    else //can't evaluate the token
    {
      Parse_SourceError(source, "can't evaluate %s", token.string);
      return qfalse;
    }
  } while(Parse_ReadLine(source, &token));
  //
  if (!Parse_EvaluateTokens(source, firsttoken, intvalue, floatvalue, integer)) return qfalse;
  //
  for (t = firsttoken; t; t = nexttoken)
  {
    nexttoken = t->next;
    Parse_FreeToken(t);
  }
  //
  return qtrue;
}

/*
===============
Parse_DollarEvaluate
===============
*/
static int Parse_DollarEvaluate(source_t *source, signed long int *intvalue,
                        double *floatvalue, int integer)
{
  int indent, defined = qfalse;
  token_t token, *firsttoken, *lasttoken;
  token_t *t, *nexttoken;
  define_t *define;

  if (intvalue) *intvalue = 0;
  if (floatvalue) *floatvalue = 0;
  //
  if (!Parse_ReadSourceToken(source, &token))
  {
    Parse_SourceError(source, "no leading ( after $evalint/$evalfloat");
    return qfalse;
  }
  if (!Parse_ReadSourceToken(source, &token))
  {
    Parse_SourceError(source, "nothing to evaluate");
    return qfalse;
  }
  indent = 1;
  firsttoken = NULL;
  lasttoken = NULL;
  do
  {
    //if the token is a name
    if (token.type == TT_NAME)
    {
      if (defined)
      {
        defined = qfalse;
        t = Parse_CopyToken(&token);
        t->next = NULL;
        if (lasttoken) lasttoken->next = t;
        else firsttoken = t;
        lasttoken = t;
      }
      else if (!strcmp(token.string, "defined"))
      {
        defined = qtrue;
        t = Parse_CopyToken(&token);
        t->next = NULL;
        if (lasttoken) lasttoken->next = t;
        else firsttoken = t;
        lasttoken = t;
      }
      else
      {
        //then it must be a define
        define = Parse_FindHashedDefine(source->definehash, token.string);
        if (!define)
        {
          Parse_SourceError(source, "can't evaluate %s, not defined", token.string);
          return qfalse;
        }
        if (!Parse_ExpandDefineIntoSource(source, &token, define)) return qfalse;
      }
    }
    //if the token is a number or a punctuation
    else if (token.type == TT_NUMBER || token.type == TT_PUNCTUATION)
    {
      if (*token.string == '(') indent++;
      else if (*token.string == ')') indent--;
      if (indent <= 0) break;
      t = Parse_CopyToken(&token);
      t->next = NULL;
      if (lasttoken) lasttoken->next = t;
      else firsttoken = t;
      lasttoken = t;
    }
    else //can't evaluate the token
    {
      Parse_SourceError(source, "can't evaluate %s", token.string);
      return qfalse;
    }
  } while(Parse_ReadSourceToken(source, &token));
  //
  if (!Parse_EvaluateTokens(source, firsttoken, intvalue, floatvalue, integer)) return qfalse;
  //
  for (t = firsttoken; t; t = nexttoken)
  {
    nexttoken = t->next;
    Parse_FreeToken(t);
  }
  //
  return qtrue;
}

/*
===============
Parse_Directive_include
===============
*/
static int Parse_Directive_include(source_t *source)
{
  script_t *script;
  token_t token;
  char path[MAX_QPATH];

  if (source->skip > 0) return qtrue;
  //
  if (!Parse_ReadSourceToken(source, &token))
  {
    Parse_SourceError(source, "#include without file name");
    return qfalse;
  }
  if (token.linescrossed > 0)
  {
    Parse_SourceError(source, "#include without file name");
    return qfalse;
  }
  if (token.type == TT_STRING)
  {
    Parse_StripDoubleQuotes(token.string);
    Parse_ConvertPath(token.string);
    script = Parse_LoadScriptFile(token.string);
    if (!script)
    {
      strcpy(path, source->includepath);
      strcat(path, token.string);
      script = Parse_LoadScriptFile(path);
    }
  }
  else if (token.type == TT_PUNCTUATION && *token.string == '<')
  {
    strcpy(path, source->includepath);
    while(Parse_ReadSourceToken(source, &token))
    {
      if (token.linescrossed > 0)
      {
        Parse_UnreadSourceToken(source, &token);
        break;
      }
      if (token.type == TT_PUNCTUATION && *token.string == '>') break;
      strncat(path, token.string, MAX_QPATH - 1);
    }
    if (*token.string != '>')
    {
      Parse_SourceWarning(source, "#include missing trailing >");
    }
    if (!strlen(path))
    {
      Parse_SourceError(source, "#include without file name between < >");
      return qfalse;
    }
    Parse_ConvertPath(path);
    script = Parse_LoadScriptFile(path);
  }
  else
  {
    Parse_SourceError(source, "#include without file name");
    return qfalse;
  }
  if (!script)
  {
    Parse_SourceError(source, "file %s not found", path);
    return qfalse;
  }
  Parse_PushScript(source, script);
  return qtrue;
}

/*
===============
Parse_WhiteSpaceBeforeToken
===============
*/
static int Parse_WhiteSpaceBeforeToken(token_t *token)
{
  return token->endwhitespace_p - token->whitespace_p > 0;
}

/*
===============
Parse_ClearTokenWhiteSpace
===============
*/
static void Parse_ClearTokenWhiteSpace(token_t *token)
{
  token->whitespace_p = NULL;
  token->endwhitespace_p = NULL;
  token->linescrossed = 0;
}

/*
===============
Parse_Directive_undef
===============
*/
static int Parse_Directive_undef(source_t *source)
{
  token_t token;
  define_t *define, *lastdefine;
  int hash;

  if (source->skip > 0) return qtrue;
  //
  if (!Parse_ReadLine(source, &token))
  {
    Parse_SourceError(source, "undef without name");
    return qfalse;
  }
  if (token.type != TT_NAME)
  {
    Parse_UnreadSourceToken(source, &token);
    Parse_SourceError(source, "expected name, found %s", token.string);
    return qfalse;
  }

  hash = Parse_NameHash(token.string);
  for (lastdefine = NULL, define = source->definehash[hash]; define; define = define->hashnext)
  {
    if (!strcmp(define->name, token.string))
    {
      if (define->flags & DEFINE_FIXED)
      {
        Parse_SourceWarning(source, "can't undef %s", token.string);
      }
      else
      {
        if (lastdefine) lastdefine->hashnext = define->hashnext;
        else source->definehash[hash] = define->hashnext;
        Parse_FreeDefine(define);
      }
      break;
    }
    lastdefine = define;
  }
  return qtrue;
}

/*
===============
Parse_Directive_elif
===============
*/
static int Parse_Directive_elif(source_t *source)
{
  signed long int value;
  int type, skip;

  Parse_PopIndent(source, &type, &skip);
  if (!type || type == INDENT_ELSE)
  {
    Parse_SourceError(source, "misplaced #elif");
    return qfalse;
  }
  if (!Parse_Evaluate(source, &value, NULL, qtrue)) return qfalse;
  skip = (value == 0);
  Parse_PushIndent(source, INDENT_ELIF, skip);
  return qtrue;
}

/*
===============
Parse_Directive_if
===============
*/
static int Parse_Directive_if(source_t *source)
{
  signed long int value;
  int skip;

  if (!Parse_Evaluate(source, &value, NULL, qtrue)) return qfalse;
  skip = (value == 0);
  Parse_PushIndent(source, INDENT_IF, skip);
  return qtrue;
}

/*
===============
Parse_Directive_line
===============
*/
static int Parse_Directive_line(source_t *source)
{
  Parse_SourceError(source, "#line directive not supported");
  return qfalse;
}

/*
===============
Parse_Directive_error
===============
*/
static int Parse_Directive_error(source_t *source)
{
  token_t token;

  strcpy(token.string, "");
  Parse_ReadSourceToken(source, &token);
  Parse_SourceError(source, "#error directive: %s", token.string);
  return qfalse;
}

/*
===============
Parse_Directive_pragma
===============
*/
static int Parse_Directive_pragma(source_t *source)
{
  token_t token;

  Parse_SourceWarning(source, "#pragma directive not supported");
  while(Parse_ReadLine(source, &token)) ;
  return qtrue;
}

/*
===============
Parse_UnreadSignToken
===============
*/
static void Parse_UnreadSignToken(source_t *source)
{
  token_t token;

  token.line = source->scriptstack->line;
  token.whitespace_p = source->scriptstack->script_p;
  token.endwhitespace_p = source->scriptstack->script_p;
  token.linescrossed = 0;
  strcpy(token.string, "-");
  token.type = TT_PUNCTUATION;
  token.subtype = P_SUB;
  Parse_UnreadSourceToken(source, &token);
}

/*
===============
Parse_Directive_eval
===============
*/
static int Parse_Directive_eval(source_t *source)
{
  signed long int value;
  token_t token;

  if (!Parse_Evaluate(source, &value, NULL, qtrue)) return qfalse;
  //
  token.line = source->scriptstack->line;
  token.whitespace_p = source->scriptstack->script_p;
  token.endwhitespace_p = source->scriptstack->script_p;
  token.linescrossed = 0;
  sprintf(token.string, "%d", abs(value));
  token.type = TT_NUMBER;
  token.subtype = TT_INTEGER|TT_LONG|TT_DECIMAL;
  Parse_UnreadSourceToken(source, &token);
  if (value < 0) Parse_UnreadSignToken(source);
  return qtrue;
}

/*
===============
Parse_Directive_evalfloat
===============
*/
static int Parse_Directive_evalfloat(source_t *source)
{
  double value;
  token_t token;

  if (!Parse_Evaluate(source, NULL, &value, qfalse)) return qfalse;
  token.line = source->scriptstack->line;
  token.whitespace_p = source->scriptstack->script_p;
  token.endwhitespace_p = source->scriptstack->script_p;
  token.linescrossed = 0;
  sprintf(token.string, "%1.2f", fabs(value));
  token.type = TT_NUMBER;
  token.subtype = TT_FLOAT|TT_LONG|TT_DECIMAL;
  Parse_UnreadSourceToken(source, &token);
  if (value < 0) Parse_UnreadSignToken(source);
  return qtrue;
}

/*
===============
Parse_DollarDirective_evalint
===============
*/
static int Parse_DollarDirective_evalint(source_t *source)
{
  signed long int value;
  token_t token;

  if (!Parse_DollarEvaluate(source, &value, NULL, qtrue)) return qfalse;
  //
  token.line = source->scriptstack->line;
  token.whitespace_p = source->scriptstack->script_p;
  token.endwhitespace_p = source->scriptstack->script_p;
  token.linescrossed = 0;
  sprintf(token.string, "%d", abs(value));
  token.type = TT_NUMBER;
  token.subtype = TT_INTEGER|TT_LONG|TT_DECIMAL;
  token.intvalue = value;
  token.floatvalue = value;
  Parse_UnreadSourceToken(source, &token);
  if (value < 0) Parse_UnreadSignToken(source);
  return qtrue;
}

/*
===============
Parse_DollarDirective_evalfloat
===============
*/
static int Parse_DollarDirective_evalfloat(source_t *source)
{
  double value;
  token_t token;

  if (!Parse_DollarEvaluate(source, NULL, &value, qfalse)) return qfalse;
  token.line = source->scriptstack->line;
  token.whitespace_p = source->scriptstack->script_p;
  token.endwhitespace_p = source->scriptstack->script_p;
  token.linescrossed = 0;
  sprintf(token.string, "%1.2f", fabs(value));
  token.type = TT_NUMBER;
  token.subtype = TT_FLOAT|TT_LONG|TT_DECIMAL;
  token.intvalue = (unsigned long) value;
  token.floatvalue = value;
  Parse_UnreadSourceToken(source, &token);
  if (value < 0) Parse_UnreadSignToken(source);
  return qtrue;
}

/*
===============
Parse_ReadDollarDirective
===============
*/
directive_t dollardirectives[20] =
{
  {"evalint", Parse_DollarDirective_evalint},
  {"evalfloat", Parse_DollarDirective_evalfloat},
  {NULL, NULL}
};

static int Parse_ReadDollarDirective(source_t *source)
{
  token_t token;
  int i;

  //read the directive name
  if (!Parse_ReadSourceToken(source, &token))
  {
    Parse_SourceError(source, "found $ without name");
    return qfalse;
  }
  //directive name must be on the same line
  if (token.linescrossed > 0)
  {
    Parse_UnreadSourceToken(source, &token);
    Parse_SourceError(source, "found $ at end of line");
    return qfalse;
  }
  //if if is a name
  if (token.type == TT_NAME)
  {
    //find the precompiler directive
    for (i = 0; dollardirectives[i].name; i++)
    {
      if (!strcmp(dollardirectives[i].name, token.string))
      {
        return dollardirectives[i].func(source);
      }
    }
  }
  Parse_UnreadSourceToken(source, &token);
  Parse_SourceError(source, "unknown precompiler directive %s", token.string);
  return qfalse;
}

/*
===============
Parse_Directive_if_def
===============
*/
static int Parse_Directive_if_def(source_t *source, int type)
{
  token_t token;
  define_t *d;
  int skip;

  if (!Parse_ReadLine(source, &token))
  {
    Parse_SourceError(source, "#ifdef without name");
    return qfalse;
  }
  if (token.type != TT_NAME)
  {
    Parse_UnreadSourceToken(source, &token);
    Parse_SourceError(source, "expected name after #ifdef, found %s", token.string);
    return qfalse;
  }
  d = Parse_FindHashedDefine(source->definehash, token.string);
  skip = (type == INDENT_IFDEF) == (d == NULL);
  Parse_PushIndent(source, type, skip);
  return qtrue;
}

/*
===============
Parse_Directive_ifdef
===============
*/
static int Parse_Directive_ifdef(source_t *source)
{
  return Parse_Directive_if_def(source, INDENT_IFDEF);
}

/*
===============
Parse_Directive_ifndef
===============
*/
static int Parse_Directive_ifndef(source_t *source)
{
  return Parse_Directive_if_def(source, INDENT_IFNDEF);
}

/*
===============
Parse_Directive_else
===============
*/
static int Parse_Directive_else(source_t *source)
{
  int type, skip;

  Parse_PopIndent(source, &type, &skip);
  if (!type)
  {
    Parse_SourceError(source, "misplaced #else");
    return qfalse;
  }
  if (type == INDENT_ELSE)
  {
    Parse_SourceError(source, "#else after #else");
    return qfalse;
  }
  Parse_PushIndent(source, INDENT_ELSE, !skip);
  return qtrue;
}

/*
===============
Parse_Directive_endif
===============
*/
static int Parse_Directive_endif(source_t *source)
{
  int type, skip;

  Parse_PopIndent(source, &type, &skip);
  if (!type)
  {
    Parse_SourceError(source, "misplaced #endif");
    return qfalse;
  }
  return qtrue;
}

/*
===============
Parse_CheckTokenString
===============
*/
static int Parse_CheckTokenString(source_t *source, char *string)
{
  token_t tok;

  if (!Parse_ReadToken(source, &tok)) return qfalse;
  //if the token is available
  if (!strcmp(tok.string, string)) return qtrue;
  //
  Parse_UnreadSourceToken(source, &tok);
  return qfalse;
}

/*
===============
Parse_Directive_define
===============
*/
static int Parse_Directive_define(source_t *source)
{
  token_t token, *t, *last;
  define_t *define;

  if (source->skip > 0) return qtrue;
  //
  if (!Parse_ReadLine(source, &token))
  {
    Parse_SourceError(source, "#define without name");
    return qfalse;
  }
  if (token.type != TT_NAME)
  {
    Parse_UnreadSourceToken(source, &token);
    Parse_SourceError(source, "expected name after #define, found %s", token.string);
    return qfalse;
  }
  //check if the define already exists
  define = Parse_FindHashedDefine(source->definehash, token.string);
  if (define)
  {
    if (define->flags & DEFINE_FIXED)
    {
      Parse_SourceError(source, "can't redefine %s", token.string);
      return qfalse;
    }
    Parse_SourceWarning(source, "redefinition of %s", token.string);
    //unread the define name before executing the #undef directive
    Parse_UnreadSourceToken(source, &token);
    if (!Parse_Directive_undef(source)) return qfalse;
    //if the define was not removed (define->flags & DEFINE_FIXED)
    define = Parse_FindHashedDefine(source->definehash, token.string);
  }
  //allocate define
  define = (define_t *) Z_Malloc(sizeof(define_t) + strlen(token.string) + 1);
  Com_Memset(define, 0, sizeof(define_t));
  define->name = (char *) define + sizeof(define_t);
  strcpy(define->name, token.string);
  //add the define to the source
  Parse_AddDefineToHash(define, source->definehash);
  //if nothing is defined, just return
  if (!Parse_ReadLine(source, &token)) return qtrue;
  //if it is a define with parameters
  if (!Parse_WhiteSpaceBeforeToken(&token) && !strcmp(token.string, "("))
  {
    //read the define parameters
    last = NULL;
    if (!Parse_CheckTokenString(source, ")"))
    {
      while(1)
      {
        if (!Parse_ReadLine(source, &token))
        {
          Parse_SourceError(source, "expected define parameter");
          return qfalse;
        }
        //if it isn't a name
        if (token.type != TT_NAME)
        {
          Parse_SourceError(source, "invalid define parameter");
          return qfalse;
        }
        //
        if (Parse_FindDefineParm(define, token.string) >= 0)
        {
          Parse_SourceError(source, "two the same define parameters");
          return qfalse;
        }
        //add the define parm
        t = Parse_CopyToken(&token);
        Parse_ClearTokenWhiteSpace(t);
        t->next = NULL;
        if (last) last->next = t;
        else define->parms = t;
        last = t;
        define->numparms++;
        //read next token
        if (!Parse_ReadLine(source, &token))
        {
          Parse_SourceError(source, "define parameters not terminated");
          return qfalse;
        }
        //
        if (!strcmp(token.string, ")")) break;
        //then it must be a comma
        if (strcmp(token.string, ","))
        {
          Parse_SourceError(source, "define not terminated");
          return qfalse;
        }
      }
    }
    if (!Parse_ReadLine(source, &token)) return qtrue;
  }
  //read the defined stuff
  last = NULL;
  do
  {
    t = Parse_CopyToken(&token);
    if (t->type == TT_NAME && !strcmp(t->string, define->name))
    {
      Parse_SourceError(source, "recursive define (removed recursion)");
      continue;
    }
    Parse_ClearTokenWhiteSpace(t);
    t->next = NULL;
    if (last) last->next = t;
    else define->tokens = t;
    last = t;
  } while(Parse_ReadLine(source, &token));
  //
  if (last)
  {
    //check for merge operators at the beginning or end
    if (!strcmp(define->tokens->string, "##") ||
        !strcmp(last->string, "##"))
    {
      Parse_SourceError(source, "define with misplaced ##");
      return qfalse;
    }
  }
  return qtrue;
}

/*
===============
Parse_ReadDirective
===============
*/
directive_t directives[20] =
{
  {"if", Parse_Directive_if},
  {"ifdef", Parse_Directive_ifdef},
  {"ifndef", Parse_Directive_ifndef},
  {"elif", Parse_Directive_elif},
  {"else", Parse_Directive_else},
  {"endif", Parse_Directive_endif},
  {"include", Parse_Directive_include},
  {"define", Parse_Directive_define},
  {"undef", Parse_Directive_undef},
  {"line", Parse_Directive_line},
  {"error", Parse_Directive_error},
  {"pragma", Parse_Directive_pragma},
  {"eval", Parse_Directive_eval},
  {"evalfloat", Parse_Directive_evalfloat},
  {NULL, NULL}
};

static int Parse_ReadDirective(source_t *source)
{
  token_t token;
  int i;

  //read the directive name
  if (!Parse_ReadSourceToken(source, &token))
  {
    Parse_SourceError(source, "found # without name");
    return qfalse;
  }
  //directive name must be on the same line
  if (token.linescrossed > 0)
  {
    Parse_UnreadSourceToken(source, &token);
    Parse_SourceError(source, "found # at end of line");
    return qfalse;
  }
  //if if is a name
  if (token.type == TT_NAME)
  {
    //find the precompiler directive
    for (i = 0; directives[i].name; i++)
    {
      if (!strcmp(directives[i].name, token.string))
      {
        return directives[i].func(source);
      }
    }
  }
  Parse_SourceError(source, "unknown precompiler directive %s", token.string);
  return qfalse;
}

/*
===============
Parse_UnreadToken
===============
*/
static void Parse_UnreadToken(source_t *source, token_t *token)
{
  Parse_UnreadSourceToken(source, token);
}

/*
===============
Parse_ReadEnumeration

It is assumed that the 'enum' token has already been consumed
This is fairly basic: it doesn't catch some fairly obvious errors like nested
enums, and enumerated names conflict with #define parameters
===============
*/
static qboolean Parse_ReadEnumeration( source_t *source )
{
  token_t newtoken;
  int value;

  if( !Parse_ReadToken( source, &newtoken ) )
    return qfalse;

  if( newtoken.type != TT_PUNCTUATION || newtoken.subtype != P_BRACEOPEN )
  {
    Parse_SourceError( source, "Found %s when expecting {\n",
                       newtoken.string );
    return qfalse;
  }

  for( value = 0;; value++ )
  {
    token_t name;

    // read the name
    if( !Parse_ReadToken( source, &name ) )
      break;

    // it's ok for the enum to end immediately
    if( name.type == TT_PUNCTUATION && name.subtype == P_BRACECLOSE )
    {
      if( !Parse_ReadToken( source, &name ) )
        break;

      // ignore trailing semicolon
      if( name.type != TT_PUNCTUATION || name.subtype != P_SEMICOLON )
        Parse_UnreadToken( source, &name );

      return qtrue;
    }

    // ... but not for it to do anything else
    if( name.type != TT_NAME )
    {
      Parse_SourceError( source, "Found %s when expecting identifier\n",
                         name.string );
      return qfalse;
    }

    if( !Parse_ReadToken( source, &newtoken ) )
      break;

    if( newtoken.type != TT_PUNCTUATION )
    {
      Parse_SourceError( source, "Found %s when expecting , or = or }\n",
                         newtoken.string );
      return qfalse;
    }

    if( newtoken.subtype == P_ASSIGN )
    {
      int neg = 1;

      if( !Parse_ReadToken( source, &newtoken ) )
        break;

      // Parse_ReadToken doesn't seem to read negative numbers, so we do it
      // ourselves
      if( newtoken.type == TT_PUNCTUATION && newtoken.subtype == P_SUB )
      {
        neg = -1;

        // the next token should be the number
        if( !Parse_ReadToken( source, &newtoken ) )
          break;
      }

      if( newtoken.type != TT_NUMBER || !( newtoken.subtype & TT_INTEGER ) )
      {
        Parse_SourceError( source, "Found %s when expecting integer\n",
                           newtoken.string );
        return qfalse;
      }

      // this is somewhat silly, but cheap to check
      if( neg == -1 && ( newtoken.subtype & TT_UNSIGNED ) )
      {
        Parse_SourceWarning( source, "Value in enumeration is negative and "
                                     "unsigned\n" );
      }

      // set the new define value
      value = newtoken.intvalue * neg;

      if( !Parse_ReadToken( source, &newtoken ) )
        break;
    }

    if( newtoken.type != TT_PUNCTUATION || ( newtoken.subtype != P_COMMA &&
        newtoken.subtype != P_BRACECLOSE ) )
    {
      Parse_SourceError( source, "Found %s when expecting , or }\n",
                         newtoken.string );
      return qfalse;
    }

    if( !Parse_AddDefineToSourceFromString( source, va( "%s %d\n", name.string,
                                                        value ) ) )
    {
      Parse_SourceWarning( source, "Couldn't add define to source: %s = %d\n",
                           name.string, value );
      return qfalse;
    }

    if( newtoken.subtype == P_BRACECLOSE )
    {
      if( !Parse_ReadToken( source, &name ) )
        break;

      // ignore trailing semicolon
      if( name.type != TT_PUNCTUATION || name.subtype != P_SEMICOLON )
        Parse_UnreadToken( source, &name );

      return qtrue;
    }
  }

  // got here if a ReadToken returned false
  return qfalse;
}

/*
===============
Parse_ReadToken
===============
*/
static int Parse_ReadToken(source_t *source, token_t *token)
{
  define_t *define;

  while(1)
  {
    if (!Parse_ReadSourceToken(source, token)) return qfalse;
    //check for precompiler directives
    if (token->type == TT_PUNCTUATION && *token->string == '#')
    {
      {
        //read the precompiler directive
        if (!Parse_ReadDirective(source)) return qfalse;
        continue;
      }
    }
    if (token->type == TT_PUNCTUATION && *token->string == '$')
    {
      {
        //read the precompiler directive
        if (!Parse_ReadDollarDirective(source)) return qfalse;
        continue;
      }
    }
    if( token->type == TT_NAME && !Q_stricmp( token->string, "enum" ) )
    {
      if( !Parse_ReadEnumeration( source ) )
        return qfalse;
      continue;
    }
    // recursively concatenate strings that are behind each other still resolving defines
    if (token->type == TT_STRING)
    {
      token_t newtoken;
      if (Parse_ReadToken(source, &newtoken))
      {
        if (newtoken.type == TT_STRING)
        {
          token->string[strlen(token->string)-1] = '\0';
          if (strlen(token->string) + strlen(newtoken.string+1) + 1 >= MAX_TOKEN_CHARS)
          {
            Parse_SourceError(source, "string longer than MAX_TOKEN_CHARS %d\n", MAX_TOKEN_CHARS);
            return qfalse;
          }
          strcat(token->string, newtoken.string+1);
        }
        else
        {
          Parse_UnreadToken(source, &newtoken);
        }
      }
    }
    //if skipping source because of conditional compilation
    if (source->skip) continue;
    //if the token is a name
    if (token->type == TT_NAME)
    {
      //check if the name is a define macro
      define = Parse_FindHashedDefine(source->definehash, token->string);
      //if it is a define macro
      if (define)
      {
        //expand the defined macro
        if (!Parse_ExpandDefineIntoSource(source, token, define)) return qfalse;
        continue;
      }
    }
    //copy token for unreading
    Com_Memcpy(&source->token, token, sizeof(token_t));
    //found a token
    return qtrue;
  }
}

/*
===============
Parse_DefineFromString
===============
*/
static define_t *Parse_DefineFromString(char *string)
{
  script_t *script;
  source_t src;
  token_t *t;
  int res, i;
  define_t *def;

  script = Parse_LoadScriptMemory(string, strlen(string), "*extern");
  //create a new source
  Com_Memset(&src, 0, sizeof(source_t));
  strncpy(src.filename, "*extern", MAX_QPATH);
  src.scriptstack = script;
  src.definehash = Z_Malloc(DEFINEHASHSIZE * sizeof(define_t *));
  Com_Memset( src.definehash, 0, DEFINEHASHSIZE * sizeof(define_t *));
  //create a define from the source
  res = Parse_Directive_define(&src);
  //free any tokens if left
  for (t = src.tokens; t; t = src.tokens)
  {
    src.tokens = src.tokens->next;
    Parse_FreeToken(t);
  }
  def = NULL;
  for (i = 0; i < DEFINEHASHSIZE; i++)
  {
    if (src.definehash[i])
    {
      def = src.definehash[i];
      break;
    }
  }
  //
  Z_Free(src.definehash);
  //
  Parse_FreeScript(script);
  //if the define was created succesfully
  if (res > 0) return def;
  //free the define is created
  if (src.defines) Parse_FreeDefine(def);
  //
  return NULL;
}

/*
===============
Parse_AddDefineToSourceFromString
===============
*/
static qboolean Parse_AddDefineToSourceFromString( source_t *source,
                                                   char *string )
{
  Parse_PushScript( source, Parse_LoadScriptMemory( string, strlen( string ),
                                                    "*extern" ) );
  return Parse_Directive_define( source );
}

/*
===============
Parse_AddGlobalDefine

add a globals define that will be added to all opened sources
===============
*/
int Parse_AddGlobalDefine(char *string)
{
  define_t *define;

  define = Parse_DefineFromString(string);
  if (!define) return qfalse;
  define->next = globaldefines;
  globaldefines = define;
  return qtrue;
}

/*
===============
Parse_CopyDefine
===============
*/
static define_t *Parse_CopyDefine(source_t *source, define_t *define)
{
  define_t *newdefine;
  token_t *token, *newtoken, *lasttoken;

  newdefine = (define_t *) Z_Malloc(sizeof(define_t) + strlen(define->name) + 1);
  //copy the define name
  newdefine->name = (char *) newdefine + sizeof(define_t);
  strcpy(newdefine->name, define->name);
  newdefine->flags = define->flags;
  newdefine->builtin = define->builtin;
  newdefine->numparms = define->numparms;
  //the define is not linked
  newdefine->next = NULL;
  newdefine->hashnext = NULL;
  //copy the define tokens
  newdefine->tokens = NULL;
  for (lasttoken = NULL, token = define->tokens; token; token = token->next)
  {
    newtoken = Parse_CopyToken(token);
    newtoken->next = NULL;
    if (lasttoken) lasttoken->next = newtoken;
    else newdefine->tokens = newtoken;
    lasttoken = newtoken;
  }
  //copy the define parameters
  newdefine->parms = NULL;
  for (lasttoken = NULL, token = define->parms; token; token = token->next)
  {
    newtoken = Parse_CopyToken(token);
    newtoken->next = NULL;
    if (lasttoken) lasttoken->next = newtoken;
    else newdefine->parms = newtoken;
    lasttoken = newtoken;
  }
  return newdefine;
}

/*
===============
Parse_AddGlobalDefinesToSource
===============
*/
static void Parse_AddGlobalDefinesToSource(source_t *source)
{
  define_t *define, *newdefine;

  for (define = globaldefines; define; define = define->next)
  {
    newdefine = Parse_CopyDefine(source, define);
    Parse_AddDefineToHash(newdefine, source->definehash);
  }
}

/*
===============
Parse_LoadSourceFile
===============
*/
static source_t *Parse_LoadSourceFile(const char *filename)
{
  source_t *source;
  script_t *script;

  script = Parse_LoadScriptFile(filename);
  if (!script) return NULL;

  script->next = NULL;

  source = (source_t *) Z_Malloc(sizeof(source_t));
  Com_Memset(source, 0, sizeof(source_t));

  strncpy(source->filename, filename, MAX_QPATH);
  source->scriptstack = script;
  source->tokens = NULL;
  source->defines = NULL;
  source->indentstack = NULL;
  source->skip = 0;

  source->definehash = Z_Malloc(DEFINEHASHSIZE * sizeof(define_t *));
  Com_Memset( source->definehash, 0, DEFINEHASHSIZE * sizeof(define_t *));
  Parse_AddGlobalDefinesToSource(source);
  return source;
}

/*
===============
Parse_FreeSource
===============
*/
static void Parse_FreeSource(source_t *source)
{
  script_t *script;
  token_t *token;
  define_t *define;
  indent_t *indent;
  int i;

  //Parse_PrintDefineHashTable(source->definehash);
  //free all the scripts
  while(source->scriptstack)
  {
    script = source->scriptstack;
    source->scriptstack = source->scriptstack->next;
    Parse_FreeScript(script);
  }
  //free all the tokens
  while(source->tokens)
  {
    token = source->tokens;
    source->tokens = source->tokens->next;
    Parse_FreeToken(token);
  }
  for (i = 0; i < DEFINEHASHSIZE; i++)
  {
    while(source->definehash[i])
    {
      define = source->definehash[i];
      source->definehash[i] = source->definehash[i]->hashnext;
      Parse_FreeDefine(define);
    }
  }
  //free all indents
  while(source->indentstack)
  {
    indent = source->indentstack;
    source->indentstack = source->indentstack->next;
    Z_Free(indent);
  }
  //
  if (source->definehash) Z_Free(source->definehash);
  //free the source itself
  Z_Free(source);
}

#define MAX_SOURCEFILES   64

source_t *sourceFiles[MAX_SOURCEFILES];

/*
===============
Parse_LoadSourceHandle
===============
*/
int Parse_LoadSourceHandle(const char *filename)
{
  source_t *source;
  int i;

  for (i = 1; i < MAX_SOURCEFILES; i++)
  {
    if (!sourceFiles[i])
      break;
  }
  if (i >= MAX_SOURCEFILES)
    return 0;
  source = Parse_LoadSourceFile(filename);
  if (!source)
    return 0;
  sourceFiles[i] = source;
  return i;
}

/*
===============
Parse_FreeSourceHandle
===============
*/
int Parse_FreeSourceHandle(int handle)
{
  if (handle < 1 || handle >= MAX_SOURCEFILES)
    return qfalse;
  if (!sourceFiles[handle])
    return qfalse;

  Parse_FreeSource(sourceFiles[handle]);
  sourceFiles[handle] = NULL;
  return qtrue;
}

/*
===============
Parse_ReadTokenHandle
===============
*/
int Parse_ReadTokenHandle(int handle, pc_token_t *pc_token)
{
  token_t token;
  int ret;

  if (handle < 1 || handle >= MAX_SOURCEFILES)
    return 0;
  if (!sourceFiles[handle])
    return 0;

  ret = Parse_ReadToken(sourceFiles[handle], &token);
  strcpy(pc_token->string, token.string);
  pc_token->type = token.type;
  pc_token->subtype = token.subtype;
  pc_token->intvalue = token.intvalue;
  pc_token->floatvalue = token.floatvalue;
  if (pc_token->type == TT_STRING)
    Parse_StripDoubleQuotes(pc_token->string);
  return ret;
}

/*
===============
Parse_SourceFileAndLine
===============
*/
int Parse_SourceFileAndLine(int handle, char *filename, int *line)
{
  if (handle < 1 || handle >= MAX_SOURCEFILES)
    return qfalse;
  if (!sourceFiles[handle])
    return qfalse;

  strcpy(filename, sourceFiles[handle]->filename);
  if (sourceFiles[handle]->scriptstack)
    *line = sourceFiles[handle]->scriptstack->line;
  else
    *line = 0;
  return qtrue;
}