UltimateZoneBuilder/Source/Core/IO/UniversalParser.cs

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#region ================== Copyright (c) 2007 Pascal vd Heiden
/*
* Copyright (c) 2007 Pascal vd Heiden, www.codeimp.com
* This program is released under GNU General Public License
*
* This program 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.
*
*/
#endregion
#region ================== Namespaces
using System;
using System.IO;
using System.Text;
using System.Globalization;
using System.Collections;
using System.Collections.Specialized;
using System.Collections.Generic;
#endregion
namespace CodeImp.DoomBuilder.IO
{
public sealed class UniversalParser
{
#region ================== Constants
// Path seperator
public const string DEFAULT_SEPERATOR = ".";
// Allowed characters in a key
public const string KEY_CHARACTERS = "abcdefghijklmnopqrstuvwxyz0123456789_";
// Parse mode constants
private const int PM_NOTHING = 0;
private const int PM_ASSIGNMENT = 1;
private const int PM_NUMBER = 2;
private const int PM_STRING = 3;
private const int PM_KEYWORD = 4;
// Error strings
private const string ERROR_KEYMISSING = "Missing key name in assignment or scope.";
private const string ERROR_KEYCHARACTERS = "Invalid characters in key name.";
private const string ERROR_ASSIGNINVALID = "Invalid assignment. Missing a previous terminator symbol?";
private const string ERROR_VALUEINVALID = "Invalid value in assignment. Missing a previous terminator symbol?";
private const string ERROR_VALUETOOBIG = "Value too big.";
private const string ERROR_KEYWITHOUTVALUE = "Key has no value assigned.";
private const string ERROR_KEYWORDUNKNOWN = "Unknown keyword in assignment. Missing a previous terminator symbol?";
#endregion
#region ================== Variables
// Error result
private int cpErrorResult = 0;
private string cpErrorDescription = "";
private int cpErrorLine = 0;
// Configuration root
private UniversalCollection root = null;
// Settings
private bool strictchecking = true;
#endregion
#region ================== Properties
// Properties
public int ErrorResult { get { return cpErrorResult; } }
public string ErrorDescription { get { return cpErrorDescription; } }
public int ErrorLine { get { return cpErrorLine; } }
public UniversalCollection Root { get { return root; } }
public bool StrictChecking { get { return strictchecking; } set { strictchecking = value; } }
#endregion
#region ================== Constructor / Destructor
// Constructor
public UniversalParser()
{
// Standard new configuration
NewConfiguration();
// We have no destructor
GC.SuppressFinalize(this);
}
// Constructor to load a file immediately
public UniversalParser(string filename)
{
// Load configuration from file
LoadConfiguration(filename);
// We have no destructor
GC.SuppressFinalize(this);
}
#endregion
#region ================== Private Methods
// This returns a string added with escape characters
private string EscapedString(string str)
{
// Replace the \ with \\ first!
str = str.Replace("\\", "\\\\");
str = str.Replace("\n", "\\n");
str = str.Replace("\r", "\\r");
str = str.Replace("\t", "\\t");
str = str.Replace("\"", "\\\"");
// Return result
return str;
}
// This raises an error
private void RaiseError(int line, string description)
{
// Raise error
cpErrorResult = 1;
cpErrorDescription = description;
cpErrorLine = line;
}
// This validates a given key and sets
// error properties if key is invalid and errorline > -1
private bool ValidateKey(string key, int errorline)
{
bool validateresult = true;
// Check if key is an empty string
if(key.Length == 0)
{
// ERROR: Missing key name in statement
if(errorline > -1) RaiseError(errorline, ERROR_KEYMISSING);
validateresult = false;
}
else
{
// Only when strict checking
if(strictchecking)
{
// Check if all characters are valid
foreach(char c in key)
{
if(KEY_CHARACTERS.IndexOf(c) == -1)
{
// ERROR: Invalid characters in key name
if(errorline > -1) RaiseError(errorline, ERROR_KEYCHARACTERS);
validateresult = false;
break;
}
}
}
}
// Return result
return validateresult;
}
// This parses a structure in the given data starting
// from the given pos and line and updates pos and line.
private UniversalCollection InputStructure(ref string data, ref int pos, ref int line)
{
char c = '\0'; // current data character
int pm = PM_NOTHING; // current parse mode
string key = "", val = ""; // current key and value beign built
bool escape = false; // escape sequence?
bool endofstruct = false; // true as soon as this level struct ends
UniversalCollection cs = new UniversalCollection();
// Go through all of the data until
// the end or until the struct closes
// or when an arror occurred
while ((pos < data.Length) && (cpErrorResult == 0) && (endofstruct == false))
{
// Get current character
c = data[pos];
// ================ What parse mode are we at?
if(pm == PM_NOTHING)
{
// Now check what character this is
switch(c)
{
case '{': // Begin of new struct
// Validate key
if(ValidateKey(key.Trim(), line))
{
// Next character
pos++;
// Parse this struct and add it
cs.Add(new UniversalEntry(key.Trim(), InputStructure(ref data, ref pos, ref line)));
// Check the last character
pos--;
// Reset the key
key = "";
}
// Leave switch
break;
case '}': // End of this struct
// Stop parsing in this struct
endofstruct = true;
// Leave the loop
break;
case '=': // Assignment
// Validate key
if(ValidateKey(key.Trim(), line))
{
// Now parsing assignment
pm = PM_ASSIGNMENT;
}
// Leave switch
break;
case ';': // Terminator
// Validate key
if(ValidateKey(key.Trim(), line))
{
// Error: No value
RaiseError(line, ERROR_KEYWITHOUTVALUE);
}
// Leave switch
break;
case '\n': // New line
// Count the line
line++;
// Add this to the key as a space.
// Spaces are not allowed, but it will be trimmed
// when its the first or last character.
key += " ";
// Leave switch
break;
case '\\': // Possible comment
case '/':
// Check for the line comment //
if(data.Substring(pos, 2) == "//")
{
// Find the next line
int np = data.IndexOf("\n", pos);
// Next line found?
if(np > -1)
{
// Count the line
line++;
// Skip everything on this line
pos = np;
}
else
{
// No end of line
// Skip everything else
pos = data.Length;
}
}
// Check for the block comment /* */
else if(data.Substring(pos, 2) == "/*")
{
// Find the next closing block comment
int np = data.IndexOf("*/", pos);
// Closing block comment found?
if(np > -1)
{
// Count the lines in the block comment
string blockdata = data.Substring(pos, np - pos + 2);
line += (blockdata.Split("\n".ToCharArray()).Length - 1);
// Skip everything in this block
pos = np + 1;
}
else
{
// No end of line
// Skip everything else
pos = data.Length;
}
}
// Leave switch
break;
default: // Everything else
// Add character to key
key += c.ToString(CultureInfo.InvariantCulture).ToLowerInvariant();
// Leave switch
break;
}
}
// ================ Parsing an assignment
else if(pm == PM_ASSIGNMENT)
{
// Check for string opening
if(c == '\"')
{
// Now parsing string
pm = PM_STRING;
}
// Check for numeric character
else if("0123456789-.&".IndexOf(c.ToString(CultureInfo.InvariantCulture)) > -1)
{
// Now parsing number
pm = PM_NUMBER;
// Go one byte back, because this
// byte is part of the number!
pos--;
}
// Check for new line
else if(c == '\n')
{
// Count the new line
line++;
}
// Check if assignment ends
else if(c == ';')
{
// End of assignment
pm = PM_NOTHING;
// Remove this if it causes problems
key = "";
val = "";
}
// Otherwise (if not whitespace) it will be a keyword
else if((c != ' ') && (c != '\t'))
{
// Now parsing a keyword
pm = PM_KEYWORD;
// Go one byte back, because this
// byte is part of the keyword!
pos--;
}
}
// ================ Parsing a number
else if(pm == PM_NUMBER)
{
// Check if number ends here
if(c == ';')
{
// Hexadecimal?
if((val.Length > 2) && val.StartsWith("0x", StringComparison.InvariantCultureIgnoreCase))
{
int ival = 0;
long lval = 0;
// Convert to int
try
{
// Convert to value
ival = System.Convert.ToInt32(val.Substring(2).Trim(), 16);
// Add it to struct
cs.Add(new UniversalEntry(key.Trim(), ival));
}
catch(System.OverflowException)
{
// Too large for Int32, try Int64
try
{
// Convert to value
lval = System.Convert.ToInt64(val.Substring(2).Trim(), 16);
// Add it to struct
cs.Add(new UniversalEntry(key.Trim(), lval));
}
catch(System.OverflowException)
{
// Too large for Int64, return error
RaiseError(line, ERROR_VALUETOOBIG);
}
catch(System.FormatException)
{
// ERROR: Invalid value in assignment
RaiseError(line, ERROR_VALUEINVALID);
}
}
catch(System.FormatException)
{
// ERROR: Invalid value in assignment
RaiseError(line, ERROR_VALUEINVALID);
}
}
// Floating point?
else if(val.IndexOf(".") > -1)
{
float fval = 0;
// Convert to float (remove the f first)
try { fval = System.Convert.ToSingle(val.Trim(), CultureInfo.InvariantCulture); }
catch(System.FormatException)
{
// ERROR: Invalid value in assignment
RaiseError(line, ERROR_VALUEINVALID);
}
// Add it to struct
cs.Add(new UniversalEntry(key.Trim(), fval));
}
else
{
int ival = 0;
long lval = 0;
// Convert to int
try
{
// Convert to value
ival = System.Convert.ToInt32(val.Trim(), CultureInfo.InvariantCulture);
// Add it to struct
cs.Add(new UniversalEntry(key.Trim(), ival));
}
catch(System.OverflowException)
{
// Too large for Int32, try Int64
try
{
// Convert to value
lval = System.Convert.ToInt64(val.Trim(), CultureInfo.InvariantCulture);
// Add it to struct
cs.Add(new UniversalEntry(key.Trim(), lval));
}
catch(System.OverflowException)
{
// Too large for Int64, return error
RaiseError(line, ERROR_VALUETOOBIG);
}
catch(System.FormatException)
{
// ERROR: Invalid value in assignment
RaiseError(line, ERROR_VALUEINVALID);
}
}
catch(System.FormatException)
{
// ERROR: Invalid value in assignment
RaiseError(line, ERROR_VALUEINVALID);
}
}
// Reset key and value
key = "";
val = "";
// End of assignment
pm = PM_NOTHING;
}
// Check for new line
else if(c == '\n')
{
// Count the new line
line++;
}
// Everything else is part of the value
else
{
val += c.ToString(CultureInfo.InvariantCulture);
}
}
// ================ Parsing a string
else if(pm == PM_STRING)
{
// Check if in an escape sequence
if(escape)
{
// What character?
switch(c)
{
case '\\': val += "\\"; break;
case 'n': val += "\n"; break;
case '\"': val += "\""; break;
case 'r': val += "\r"; break;
case 't': val += "\t"; break;
default:
// Is it a number?
if("0123456789".IndexOf(c.ToString(CultureInfo.InvariantCulture)) > -1)
{
int vv = 0;
char vc = '0';
// Convert the next 3 characters to a number
string v = data.Substring(pos, 3);
try { vv = System.Convert.ToInt32(v.Trim(), CultureInfo.InvariantCulture); }
catch(System.FormatException)
{
// ERROR: Invalid value in assignment
RaiseError(line, ERROR_VALUEINVALID);
}
// Convert the number to a char
try { vc = System.Convert.ToChar(vv, CultureInfo.InvariantCulture); }
catch(System.FormatException)
{
// ERROR: Invalid value in assignment
RaiseError(line, ERROR_VALUEINVALID);
}
// Add the char
val += vc.ToString(CultureInfo.InvariantCulture);
}
else
{
// Add the character as it is
val += c.ToString(CultureInfo.InvariantCulture);
}
// Leave switch
break;
}
// End of escape sequence
escape = false;
}
else
{
// Check for sequence start
if(c == '\\')
{
// Next character is of escape sequence
escape = true;
}
// Check if string ends
else if(c == '\"')
{
// Add string to struct
cs.Add(new UniversalEntry(key.Trim(), val));
// End of assignment
pm = PM_ASSIGNMENT;
// Reset key and value
key = "";
val = "";
}
// Check for new line
else if(c == '\n')
{
// Count the new line
line++;
}
// Everything else is just part of string
else
{
// Add to value
val += c.ToString(CultureInfo.InvariantCulture);
}
}
}
// ================ Parsing a keyword
else if(pm == PM_KEYWORD)
{
// Check if keyword ends
if(c == ';')
{
// Add to the struct depending on the keyword
switch(val.Trim().ToLowerInvariant())
{
case "true":
// Add boolean true
cs.Add(new UniversalEntry(key.Trim(), true));
break;
case "false":
// Add boolean false
cs.Add(new UniversalEntry(key.Trim(), false));
break;
default:
// Unknown keyword
RaiseError(line, ERROR_KEYWORDUNKNOWN);
break;
}
// End of assignment
pm = PM_NOTHING;
// Reset key and value
key = "";
val = "";
}
// Check for new line
else if(c == '\n')
{
// Count the new line
line++;
}
// Everything else is just part of keyword
else
{
// Add to value
val += c.ToString(CultureInfo.InvariantCulture);
}
}
// Next character
pos++;
}
// Return the parsed result
return cs;
}
// This will create a data structure from the given object
private string OutputStructure(UniversalCollection cs, int level, string newline, bool whitespace)
{
string leveltabs = "";
string spacing = "";
StringBuilder db = new StringBuilder("");
// Check if this ConfigStruct is not empty
if(cs.Count > 0)
{
// Create whitespace
if(whitespace)
{
for(int i = 0; i < level; i++) leveltabs += "\t";
spacing = " ";
}
// Get enumerator
IEnumerator<UniversalEntry> de = cs.GetEnumerator();
// Go for each item
for(int i = 0; i < cs.Count; i++)
{
// Go to next item
de.MoveNext();
// Check if the value if of collection type
if(de.Current.Value is UniversalCollection)
{
// Output recursive structure
if(whitespace) { db.Append(leveltabs); db.Append(newline); }
db.Append(leveltabs); db.Append(de.Current.Key);
if(!string.IsNullOrEmpty(((UniversalCollection)de.Current.Value).Comment))
{
if(whitespace) db.Append("\t");
db.Append("// " + ((UniversalCollection)de.Current.Value).Comment);
}
db.Append(newline);
db.Append(leveltabs); db.Append("{"); db.Append(newline);
db.Append(OutputStructure((UniversalCollection)de.Current.Value, level + 1, newline, whitespace));
db.Append(leveltabs); db.Append("}"); db.Append(newline);
if(whitespace) { db.Append(leveltabs); db.Append(newline); }
}
// Check if the value is of boolean type
else if(de.Current.Value is bool)
{
// Check value
if((bool)de.Current.Value == true)
{
// Output the keyword "true"
db.Append(leveltabs); db.Append(de.Current.Key); db.Append(spacing);
db.Append("="); db.Append(spacing); db.Append("true;"); db.Append(newline);
}
else
{
// Output the keyword "false"
db.Append(leveltabs); db.Append(de.Current.Key); db.Append(spacing);
db.Append("="); db.Append(spacing); db.Append("false;"); db.Append(newline);
}
}
// Check if value is of float type
else if(de.Current.Value is float)
{
// Output the value as float (3 decimals)
float f = (float)de.Current.Value;
db.Append(leveltabs); db.Append(de.Current.Key); db.Append(spacing); db.Append("=");
db.Append(spacing); db.Append(f.ToString("0.000", CultureInfo.InvariantCulture)); db.Append(";"); db.Append(newline);
}
// Check if value is of other numeric type
else if(de.Current.Value.GetType().IsPrimitive)
{
// Output the value unquoted
db.Append(leveltabs); db.Append(de.Current.Key); db.Append(spacing); db.Append("=");
db.Append(spacing); db.Append(String.Format(CultureInfo.InvariantCulture, "{0}", de.Current.Value)); db.Append(";"); db.Append(newline);
}
else
{
// Output the value with quotes and escape characters
db.Append(leveltabs); db.Append(de.Current.Key); db.Append(spacing); db.Append("=");
db.Append(spacing); db.Append("\""); db.Append(EscapedString(de.Current.Value.ToString())); db.Append("\";"); db.Append(newline);
}
}
}
// Return the structure
return db.ToString();
}
#endregion
#region ================== Public Methods
// This clears the last error
public void ClearError()
{
// Clear error
cpErrorResult = 0;
cpErrorDescription = "";
cpErrorLine = 0;
}
// This creates a new configuration
public void NewConfiguration()
{
// Create new configuration
root = new UniversalCollection();
}
// This will save the current configuration to the specified file
public bool SaveConfiguration(string filename) { return SaveConfiguration(filename, "\r\n", true); }
public bool SaveConfiguration(string filename, string newline) { return SaveConfiguration(filename, newline, true); }
public bool SaveConfiguration(string filename, string newline, bool whitespace)
{
// Kill the file if it exists
if(File.Exists(filename) == true) File.Delete(filename);
// Open file stream for writing
FileStream fstream = File.OpenWrite(filename);
// Create output structure and write to file
string data = OutputConfiguration(newline, whitespace);
byte[] baData= Encoding.ASCII.GetBytes(data);
fstream.Write(baData, 0, baData.Length);
fstream.Flush();
fstream.Close();
// Return true when done, false when errors occurred
if(cpErrorResult == 0) return true; else return false;
}
// This will output the current configuration as a string
public string OutputConfiguration() { return OutputConfiguration("\r\n", true); }
public string OutputConfiguration(string newline) { return OutputConfiguration(newline, true); }
public string OutputConfiguration(string newline, bool whitespace)
{
// Simply return the configuration structure as string
return OutputStructure(root, 0, newline, whitespace);
}
// This will load a configuration from file
public bool LoadConfiguration(string filename)
{
// Check if the file is missing
if(File.Exists(filename) == false)
{
throw(new FileNotFoundException("File not found \"" + filename + "\"", filename));
}
else
{
// Load the file contents
FileStream fstream = File.OpenRead(filename);
byte[] fbuffer = new byte[fstream.Length];
fstream.Read(fbuffer, 0, fbuffer.Length);
fstream.Close();
// Convert byte array to string
string data = Encoding.ASCII.GetString(fbuffer);
// Load the configuration from this data
return InputConfiguration(data);
}
}
// This will load a configuration from string
public bool InputConfiguration(string data)
{
// Remove returns and tabs because the
// parser only uses newline for new lines.
data = data.Replace("\r", "");
data = data.Replace("\t", "");
// Clear errors
ClearError();
// Parse the data to the root structure
int pos = 0;
int line = 1;
root = InputStructure(ref data, ref pos, ref line);
// Return true when done, false when errors occurred
if(cpErrorResult == 0) return true; else return false;
}
#endregion
}
}