gtkradiant/libs/stringio.h

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/*
Copyright (C) 2001-2006, William Joseph.
All Rights Reserved.
This file is part of GtkRadiant.
GtkRadiant 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.
GtkRadiant 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 GtkRadiant; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#if !defined (INCLUDED_STRINGIO_H)
#define INCLUDED_STRINGIO_H
#include <stdlib.h>
#include <cctype>
#include "generic/vector.h"
#include "iscriplib.h"
#include "string/string.h"
#include "generic/callback.h"
inline float string_read_float(const char* string)
{
return static_cast<float>(atof(string));
}
inline int string_read_int(const char* string)
{
return atoi(string);
}
inline bool char_is_whitespace(char c)
{
return c == ' ' || c == '\t';
}
inline const char* string_remove_whitespace(const char* string)
{
for(;;)
{
if(!char_is_whitespace(*string))
{
break;
}
++string;
}
return string;
}
inline const char* string_remove_zeros(const char* string)
{
for(;;)
{
char c = *string;
if(c != '0')
{
break;
}
++string;
}
return string;
}
inline const char* string_remove_sign(const char* string)
{
if(*string == '-' || *string == '+') // signed zero - acceptable
{
return ++string;
}
return string;
}
inline bool string_is_unsigned_zero(const char* string)
{
for(;*string != '\0'; ++string)
{
if(*string != '0')
{
return false;
}
}
return true;
}
inline bool string_is_signed_zero(const char* string)
{
return string_is_unsigned_zero(string_remove_sign(string));
}
//[whitespaces][+|-][nnnnn][.nnnnn][e|E[+|-]nnnn]
//(where whitespaces are any tab or space character and nnnnn may be any number of digits)
inline bool string_is_float_zero(const char* string)
{
string = string_remove_whitespace(string);
if(string_empty(string))
{
return false;
}
string = string_remove_sign(string);
if(string_empty(string))
{
// no whole number or fraction part
return false;
}
// whole-number part
string = string_remove_zeros(string);
if(string_empty(string))
{
// no fraction or exponent
return true;
}
if(*string == '.')
{
// fraction part
if(*string++ != '0')
{
// invalid fraction
return false;
}
string = string_remove_zeros(++string);
if(string_empty(string))
{
// no exponent
return true;
}
}
if(*string == 'e' || *string == 'E')
{
// exponent part
string = string_remove_sign(++string);
if(*string++ != '0')
{
// invalid exponent
return false;
}
string = string_remove_zeros(++string);
if(string_empty(string))
{
// no trailing whitespace
return true;
}
}
string = string_remove_whitespace(string);
return string_empty(string);
}
inline double buffer_parse_floating_literal(const char*& buffer)
{
return strtod(buffer, const_cast<char**>(&buffer));
}
inline int buffer_parse_signed_decimal_integer_literal(const char*& buffer)
{
return strtol(buffer, const_cast<char**>(&buffer), 10);
}
inline int buffer_parse_unsigned_decimal_integer_literal(const char*& buffer)
{
return strtoul(buffer, const_cast<char**>(&buffer), 10);
}
// [+|-][nnnnn][.nnnnn][e|E[+|-]nnnnn]
inline bool string_parse_float(const char* string, float& f)
{
if(string_empty(string))
{
return false;
}
f = float(buffer_parse_floating_literal(string));
return string_empty(string);
}
// format same as float
inline bool string_parse_double(const char* string, double& f)
{
if(string_empty(string))
{
return false;
}
f = buffer_parse_floating_literal(string);
return string_empty(string);
}
// <float><space><float><space><float>
template<typename Element>
inline bool string_parse_vector3(const char* string, BasicVector3<Element>& v)
{
if(string_empty(string) || *string == ' ')
{
return false;
}
v[0] = float(buffer_parse_floating_literal(string));
if(*string++ != ' ')
{
return false;
}
v[1] = float(buffer_parse_floating_literal(string));
if(*string++ != ' ')
{
return false;
}
v[2] = float(buffer_parse_floating_literal(string));
return string_empty(string);
}
template<typename Float>
inline bool string_parse_vector(const char* string, Float* first, Float* last)
{
if(first != last && (string_empty(string) || *string == ' '))
{
return false;
}
for(;;)
{
*first = float(buffer_parse_floating_literal(string));
if(++first == last)
{
return string_empty(string);
}
if(*string++ != ' ')
{
return false;
}
}
}
// decimal signed integer
inline bool string_parse_int(const char* string, int& i)
{
if(string_empty(string))
{
return false;
}
i = buffer_parse_signed_decimal_integer_literal(string);
return string_empty(string);
}
// decimal unsigned integer
inline bool string_parse_size(const char* string, std::size_t& i)
{
if(string_empty(string))
{
return false;
}
i = buffer_parse_unsigned_decimal_integer_literal(string);
return string_empty(string);
}
#define RETURN_FALSE_IF_FAIL(expression) if(!expression) return false; else
inline void Tokeniser_unexpectedError(Tokeniser& tokeniser, const char* token, const char* expected)
{
globalErrorStream() << Unsigned(tokeniser.getLine()) << ":" << Unsigned(tokeniser.getColumn()) << ": parse error at '" << (token != 0 ? token : "#EOF") << "': expected '" << expected << "'\n";
}
inline bool Tokeniser_getFloat(Tokeniser& tokeniser, float& f)
{
const char* token = tokeniser.getToken();
if(token != 0 && string_parse_float(token, f))
{
return true;
}
Tokeniser_unexpectedError(tokeniser, token, "#number");
return false;
}
inline bool Tokeniser_getDouble(Tokeniser& tokeniser, double& f)
{
const char* token = tokeniser.getToken();
if(token != 0 && string_parse_double(token, f))
{
return true;
}
Tokeniser_unexpectedError(tokeniser, token, "#number");
return false;
}
inline bool Tokeniser_getInteger(Tokeniser& tokeniser, int& i)
{
const char* token = tokeniser.getToken();
if(token != 0 && string_parse_int(token, i))
{
return true;
}
Tokeniser_unexpectedError(tokeniser, token, "#integer");
return false;
}
inline bool Tokeniser_getSize(Tokeniser& tokeniser, std::size_t& i)
{
const char* token = tokeniser.getToken();
if(token != 0 && string_parse_size(token, i))
{
return true;
}
Tokeniser_unexpectedError(tokeniser, token, "#unsigned-integer");
return false;
}
inline bool Tokeniser_parseToken(Tokeniser& tokeniser, const char* expected)
{
const char* token = tokeniser.getToken();
if(token != 0 && string_equal(token, expected))
{
return true;
}
Tokeniser_unexpectedError(tokeniser, token, expected);
return false;
}
inline bool Tokeniser_nextTokenIsDigit(Tokeniser& tokeniser)
{
const char* token = tokeniser.getToken();
if(token == 0)
{
return false;
}
char c = *token;
tokeniser.ungetToken();
return std::isdigit(c) != 0;
}
template<typename TextOutputStreamType>
inline TextOutputStreamType& ostream_write(TextOutputStreamType& outputStream, const Vector3& v)
{
return outputStream << '(' << v.x() << ' ' << v.y() << ' ' << v.z() << ')';
}
inline void CopiedString_importString(CopiedString& self, const char* string)
{
self = string;
}
typedef ReferenceCaller1<CopiedString, const char*, CopiedString_importString> CopiedStringImportStringCaller;
inline void CopiedString_exportString(const CopiedString& self, const StringImportCallback& importer)
{
importer(self.c_str());
}
typedef ConstReferenceCaller1<CopiedString, const StringImportCallback&, CopiedString_exportString> CopiedStringExportStringCaller;
inline void Bool_importString(bool& self, const char* string)
{
self = string_equal(string, "true");
}
typedef ReferenceCaller1<bool, const char*, Bool_importString> BoolImportStringCaller;
inline void Bool_exportString(const bool& self, const StringImportCallback& importer)
{
importer(self ? "true" : "false");
}
typedef ConstReferenceCaller1<bool, const StringImportCallback&, Bool_exportString> BoolExportStringCaller;
inline void Int_importString(int& self, const char* string)
{
if(!string_parse_int(string, self))
{
self = 0;
}
}
typedef ReferenceCaller1<int, const char*, Int_importString> IntImportStringCaller;
inline void Int_exportString(const int& self, const StringImportCallback& importer)
{
char buffer[16];
sprintf(buffer, "%d", self);
importer(buffer);
}
typedef ConstReferenceCaller1<int, const StringImportCallback&, Int_exportString> IntExportStringCaller;
inline void Size_importString(std::size_t& self, const char* string)
{
int i;
if(string_parse_int(string, i) && i >= 0)
{
self = i;
}
else
{
self = 0;
}
}
typedef ReferenceCaller1<std::size_t, const char*, Size_importString> SizeImportStringCaller;
inline void Size_exportString(const std::size_t& self, const StringImportCallback& importer)
{
char buffer[16];
sprintf(buffer, "%u", Unsigned(self));
importer(buffer);
}
typedef ConstReferenceCaller1<std::size_t, const StringImportCallback&, Size_exportString> SizeExportStringCaller;
inline void Float_importString(float& self, const char* string)
{
if(!string_parse_float(string, self))
{
self = 0;
}
}
typedef ReferenceCaller1<float, const char*, Float_importString> FloatImportStringCaller;
inline void Float_exportString(const float& self, const StringImportCallback& importer)
{
char buffer[16];
sprintf(buffer, "%g", self);
importer(buffer);
}
typedef ConstReferenceCaller1<float, const StringImportCallback&, Float_exportString> FloatExportStringCaller;
inline void Vector3_importString(Vector3& self, const char* string)
{
if(!string_parse_vector3(string, self))
{
self = Vector3(0, 0, 0);
}
}
typedef ReferenceCaller1<Vector3, const char*, Vector3_importString> Vector3ImportStringCaller;
inline void Vector3_exportString(const Vector3& self, const StringImportCallback& importer)
{
char buffer[64];
sprintf(buffer, "%g %g %g", self[0], self[1], self[2]);
importer(buffer);
}
typedef ConstReferenceCaller1<Vector3, const StringImportCallback&, Vector3_exportString> Vector3ExportStringCaller;
template<typename FirstArgument, typename Caller, typename FirstConversion>
class ImportConvert1
{
public:
static void thunk(void* environment, FirstArgument firstArgument)
{
Caller::thunk(environment, FirstConversion(firstArgument));
}
};
class BoolFromString
{
bool m_value;
public:
BoolFromString(const char* string)
{
Bool_importString(m_value, string);
}
operator bool() const
{
return m_value;
}
};
inline void Bool_toString(const StringImportCallback& self, bool value)
{
Bool_exportString(value, self);
}
typedef ConstReferenceCaller1<StringImportCallback, bool, Bool_toString> BoolToString;
template<typename Caller>
inline StringImportCallback makeBoolStringImportCallback(const Caller& caller)
{
return StringImportCallback(caller.getEnvironment(), ImportConvert1<StringImportCallback::first_argument_type, Caller, BoolFromString>::thunk);
}
template<typename Caller>
inline StringExportCallback makeBoolStringExportCallback(const Caller& caller)
{
return StringExportCallback(caller.getEnvironment(), ImportConvert1<StringExportCallback::first_argument_type, Caller, BoolToString>::thunk);
}
class IntFromString
{
int m_value;
public:
IntFromString(const char* string)
{
Int_importString(m_value, string);
}
operator int() const
{
return m_value;
}
};
inline void Int_toString(const StringImportCallback& self, int value)
{
Int_exportString(value, self);
}
typedef ConstReferenceCaller1<StringImportCallback, int, Int_toString> IntToString;
template<typename Caller>
inline StringImportCallback makeIntStringImportCallback(const Caller& caller)
{
return StringImportCallback(caller.getEnvironment(), ImportConvert1<StringImportCallback::first_argument_type, Caller, IntFromString>::thunk);
}
template<typename Caller>
inline StringExportCallback makeIntStringExportCallback(const Caller& caller)
{
return StringExportCallback(caller.getEnvironment(), ImportConvert1<StringExportCallback::first_argument_type, Caller, IntToString>::thunk);
}
class SizeFromString
{
std::size_t m_value;
public:
SizeFromString(const char* string)
{
Size_importString(m_value, string);
}
operator std::size_t() const
{
return m_value;
}
};
inline void Size_toString(const StringImportCallback& self, std::size_t value)
{
Size_exportString(value, self);
}
typedef ConstReferenceCaller1<StringImportCallback, std::size_t, Size_toString> SizeToString;
template<typename Caller>
inline StringImportCallback makeSizeStringImportCallback(const Caller& caller)
{
return StringImportCallback(caller.getEnvironment(), ImportConvert1<StringImportCallback::first_argument_type, Caller, SizeFromString>::thunk);
}
template<typename Caller>
inline StringExportCallback makeSizeStringExportCallback(const Caller& caller)
{
return StringExportCallback(caller.getEnvironment(), ImportConvert1<StringExportCallback::first_argument_type, Caller, SizeToString>::thunk);
}
#endif