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Aquaria/BBGE/SimpleIStringStream.h

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/*
Copyright (C) 2010 Andrew Church <achurch@achurch.org>
This file is part of Aquaria.
Aquaria 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.
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.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#pragma once
/*
* This class implements a lightweight version of the std::istringstream
* class used for parsing strings. std::istringstream (like many STL
* classes) requires a significant amount of overhead to implement its
* flexibility, and in some environments, the simple act of reading a
* floating-point value:
*
* std::istringstream is; float f; is >> f;
*
* can be 20-30 times (not a typo!) slower than the C equivalent:
*
* float f = strtof(s, &s);
*
* This class eschews most of std::istringstream's flexibility in favor of
* a more efficient implementation to improve performance when reading
* text-format data files.
*
* To create a new SimpleIStringStream, initialize it with or assign to it
* the string to be parsed:
*
* SimpleIStringStream is("123 4.5 -6.78e9"); // Alternative 1
* SimpleIStringStream is = "123 4.5 -6.78e9"; // Alternative 2
*
* If the string is a "char *" or "const char *" that is guaranteed to
* exist throughout the lifetime of the SimpleIStringStream instance, you
* can also use this more efficient constructor:
*
* SimpleIStringStream is("123 4.5 -6.78e9", SimpleIStringStream::REUSE);
*
* which avoids making a separate copy of the string buffer. (It is then
* incumbent upon the caller to ensure that the string actually remains
* valid throughout the SimpleIStringStream's lifetime.) Alternatively, if
* you have a dynamically-allocated "char *" buffer that you want the
* SimpleIStringStream to free for you when you're done with it, construct
* the object like this:
*
* SimpleIStringStream is(buffer, SimpleIStringStream::TAKE_OVER);
*
* In either of the latter two cases, you must not modify the string buffer
* while the SimpleIStringStream object exists.
*
* While it is possible to create a SimpleIStringStream using a std::string
* object, the object's contents will always be copied on creation for
* performance reasons; it is not possible to use the REUSE or TAKE_OVER
* flags with STL strings.
*
* The only operators (other than assignment) implemented by
* SimpleIStringStream are "bool()", for testing end-of-stream (in the same
* manner as std::istringstream), and ">>", the extraction operator. All
* arithmetic, std::string, and character extractors supported by
* std::istringstream except "long double" are also supported here, but not
* the C string or function extractors.
*/
#include "Base.h"
/*************************************************************************/
/**
* SISS_VERIFY: Verify the behavior of SimpleIStringStream by creating an
* istringstream alongside the local buffer and ensuring that it always
* extracts the same values returned by the SimpleIStringStream.
*/
// #define SISS_VERIFY
/*************************************************************************/
/*************************** Class definition ****************************/
/*************************************************************************/
class SimpleIStringStream {
public:
/* Reuse flag passed to StringStream(char *,int). */
enum {
/* Make a copy of the buffer (default action). */
COPY,
/* Use the passed-in string pointer as is. Requires the string
* pointer to remain valid over the life of this object. */
REUSE,
/* Take over the passed-in string buffer, which must have been
* allocated with new[]. The buffer will be deleted on object
* destruction. */
TAKE_OVER,
};
/*-------------------------------------------------------------------*/
/**
* SimpleIStringStream(): Basic object constructor. No extraction is
* possible until a string has been assigned.
*/
inline SimpleIStringStream();
/**
* SimpleIStringStream(...): Create a new SimpleIStringStream from a
* C-style or STL string. Each of these constructors is exactly
* equivalent to creating a SimpleIString with the default constructor
* and then calling setString() with the same parameters.
*/
inline SimpleIStringStream(char *string, int reuse_flag = COPY);
inline SimpleIStringStream(const char *string, int reuse_flag = COPY);
inline SimpleIStringStream(std::string string);
/**
* ~SimpleIStringStream(): Object destructor.
*/
inline ~SimpleIStringStream();
/*------------------------------*/
/**
* setString(...): Set the string from which data will be extracted,
* replacing any existing string.
*
* [Parameters]
* string: String to use for extraction.
* reuse_flag: Flag indicating buffer reuse semantics for "char *"
* string buffers.
* [Return value]
* None
*/
inline void setString(char *string, int reuse_flag = COPY);
inline void setString(const char *string, int reuse_flag = COPY);
inline void setString(const std::string &string);
/**
* operator=(char *), operator=(const char *), operator=(std::string):
* Set the string from which data will be extracted. Exactly
* equivalent to setString(string).
*
* [Parameters]
* string: Assignment source
* [Return value]
* this
*/
inline SimpleIStringStream &operator=(char *string);
inline SimpleIStringStream &operator=(const char *string);
inline SimpleIStringStream &operator=(const std::string &string);
/**
* operator=(SimpleIStringStream): Make a copy of an existing stream.
* The input string buffer (if any) will always be copied, regardless
* of any reuse_flag passed to the original stream.
*
* [Parameters]
* stream: Assignment source
* [Return value]
* this
*/
inline SimpleIStringStream &operator=(const SimpleIStringStream &stream);
/*------------------------------*/
/**
* operator bool: Evaluate the stream as a boolean. Returns false if
* an error has occurred, true otherwise. (This allows the stream to
* be used in a while loop like "while (stream >> var)", in the same
* way as ordinary std::istringstream objects.)
*
* [Parameters]
* None
* [Return value]
* False if an error has occurred, else true
*/
inline operator bool() const;
/**
* operator>>: Extract a value from a stream. String extraction skips
* leading whitespace and stops at the first following whitespace
* character.
*
* [Parameters]
* target: Target for storing extracted value (right-hand operand)
* [Return value]
* this
*/
inline SimpleIStringStream &operator>>(bool &target);
inline SimpleIStringStream &operator>>(short &target);
inline SimpleIStringStream &operator>>(unsigned short &target);
inline SimpleIStringStream &operator>>(int &target);
inline SimpleIStringStream &operator>>(unsigned int &target);
inline SimpleIStringStream &operator>>(long &target);
inline SimpleIStringStream &operator>>(unsigned long &target);
inline SimpleIStringStream &operator>>(float &target);
inline SimpleIStringStream &operator>>(double &target);
inline SimpleIStringStream &operator>>(char &target);
inline SimpleIStringStream &operator>>(signed char &target);
inline SimpleIStringStream &operator>>(unsigned char &target);
inline SimpleIStringStream &operator>>(std::string &target);
/*-------------------------------------------------------------------*/
private:
char *buffer; // The buffer we're parsing.
char *position; // Our current position in the buffer.
bool freeOnDestroy; // Should we free the buffer when we're destroyed?
bool error; // Current error status.
#ifdef SISS_VERIFY
std::istringstream std_is;
unsigned long ispos;
#endif
/* Is the given character a whitespace character? */
inline bool my_isspace(char c) const {
return c==' ' || c=='\t' || c=='\r' || c=='\n' || c=='\v';
};
/* Skip over leading whitespace. Assumes "position" is valid. */
inline void skip_spaces() {
while (my_isspace(*position)) {
position++;
}
}
}; // class SimpleIStringStream
/*************************************************************************/
/*********************** Inline method definitions ***********************/
/*************************************************************************/
/* Helper macros used with SISS_VERIFY to verify result values. "type" is
* the type of data being read, and "def_value" is the default value to
* test against when the stream reports an error. */
#ifdef SISS_VERIFY
extern void debugLog(const std::string &s);
#define VERIFY_SETUP \
char *old_position = position;
#define VERIFY(type,def_value) do { \
type test; \
std_is >> test; \
ispos += std_is.gcount(); \
if (std_is.fail()) { \
test = def_value; \
} \
if (test != target) { \
std::ostringstream os_target; os_target << target; \
std::ostringstream os_test; os_test << test; \
std::ostringstream os_offset; os_offset << (position - buffer); \
debugLog(std::string("SimpleIStringStream >> " #type ": MISMATCH") \
+ " (us=" + os_target.str() \
+ " STL=" + (std_is.fail() ? "<<FAIL>>" : os_test.str()) \
+ ") at: [" + std::string(old_position).substr(0,100) \
+ "] ([" + std::string(buffer).substr(0,100) + "] + " \
+ os_offset.str() + ")"); \
} \
} while (0)
#else
#define VERIFY_SETUP /*nothing*/
#define VERIFY(type,def_value) /*nothing*/
#endif
/*************************************************************************/
inline SimpleIStringStream::SimpleIStringStream()
{
buffer = NULL;
position = NULL;
freeOnDestroy = false;
error = false;
}
inline SimpleIStringStream::SimpleIStringStream(char *string, int reuse_flag)
{
freeOnDestroy = false; // Don't try to free the uninitialized pointer.
setString(string, reuse_flag);
}
inline SimpleIStringStream::SimpleIStringStream(const char *string, int reuse_flag)
{
freeOnDestroy = false;
setString(string, reuse_flag);
}
inline SimpleIStringStream::SimpleIStringStream(std::string string)
{
freeOnDestroy = false;
setString(string);
}
inline SimpleIStringStream::~SimpleIStringStream()
{
if (freeOnDestroy) {
delete[] buffer;
}
}
/*-----------------------------------------------------------------------*/
inline void SimpleIStringStream::setString(char *string, int reuse_flag)
{
if (freeOnDestroy) {
delete[] buffer;
}
if (reuse_flag == REUSE) {
buffer = string;
freeOnDestroy = false;
} else if (reuse_flag == TAKE_OVER) {
buffer = string;
freeOnDestroy = true;
} else {
const size_t size = strlen(string) + 1;
buffer = new char[size];
freeOnDestroy = true;
if (buffer) {
memcpy(buffer, string, size);
}
}
position = buffer;
error = false;
#ifdef SISS_VERIFY
if (buffer) {
std_is.str(buffer);
std_is.clear();
ispos = 0;
}
#endif
}
inline void SimpleIStringStream::setString(const char *string, int reuse_flag)
{
if (freeOnDestroy) {
delete[] buffer;
}
if (reuse_flag == REUSE) {
/* We never actually write to the buffer, and we won't attempt to
* free it, so this cast is safe. */
buffer = const_cast<char *>(string);
freeOnDestroy = false;
} else {
/* It makes no sense to TAKE_OVER a const char *, since we could
* never free it, so we treat TAKE_OVER like COPY. */
const size_t size = strlen(string) + 1;
buffer = new char[size];
freeOnDestroy = true;
if (buffer) {
memcpy(buffer, string, size);
}
}
position = buffer;
error = false;
#ifdef SISS_VERIFY
if (buffer) {
std_is.str(buffer);
std_is.clear();
ispos = 0;
}
#endif
}
inline void SimpleIStringStream::setString(const std::string &string)
{
setString(string.c_str(), COPY);
}
inline SimpleIStringStream &SimpleIStringStream::operator=(char *string)
{
setString(string);
return *this;
}
inline SimpleIStringStream &SimpleIStringStream::operator=(const char *string)
{
setString(string);
return *this;
}
inline SimpleIStringStream &SimpleIStringStream::operator=(
const std::string &string)
{
setString(string);
return *this;
}
inline SimpleIStringStream &SimpleIStringStream::operator=(
const SimpleIStringStream &stream)
{
/* Watch out that we don't try to assign ourselves, or we'll raise a
* use-after-free bug. */
if (&stream == this) {
return *this;
}
setString(stream.buffer, COPY);
return *this;
}
/*-----------------------------------------------------------------------*/
inline SimpleIStringStream::operator bool() const
{
#ifdef SISS_VERIFY
if (!error != bool(std_is)) {
std::ostringstream os_offset; os_offset << (position - buffer);
debugLog(std::string("SimpleIStringStream bool MISMATCH: us=")
+ (!error ? "true" : "false") + " STL="
+ (std_is ? "true" : "false") + " at: ["
+ std::string(position).substr(0,100) + "] (["
+ std::string(buffer).substr(0,100) + "] + "
+ os_offset.str() + ")");
}
#endif
return !error;
}
/*-----------------------------------------------------------------------*/
inline SimpleIStringStream &SimpleIStringStream::operator>>(bool &target)
{
if (position) {
char *old_position = position;
if (error) {
target = false;
} else {
skip_spaces();
unsigned long longval = strtoul(position, &position, 10);
target = (longval == 1);
error = (position == old_position || *position == 0);
}
VERIFY(bool, false);
} else {
target = false;
error = true;
}
return *this;
}
/*----------------------------------*/
inline SimpleIStringStream &SimpleIStringStream::operator>>(short &target)
{
if (position) {
char *old_position = position;
if (error) {
target = 0;
} else {
skip_spaces();
target = (short)strtol(position, &position, 0);
error = (position == old_position || *position == 0);
}
VERIFY(short, 0);
} else {
target = 0;
error = true;
}
return *this;
}
inline SimpleIStringStream &SimpleIStringStream::operator>>(unsigned short &target)
{
if (position) {
char *old_position = position;
if (error) {
target = 0;
} else {
skip_spaces();
target = (unsigned short)strtoul(position, &position, 0);
error = (position == old_position || *position == 0);
}
VERIFY(unsigned short, 0);
} else {
target = 0;
error = true;
}
return *this;
}
/*----------------------------------*/
inline SimpleIStringStream &SimpleIStringStream::operator>>(int &target)
{
if (position) {
char *old_position = position;
if (error) {
target = 0;
} else {
skip_spaces();
target = (int)strtol(position, &position, 0);
error = (position == old_position || *position == 0);
}
VERIFY(int, 0);
} else {
target = 0;
error = true;
}
return *this;
}
inline SimpleIStringStream &SimpleIStringStream::operator>>(unsigned int &target)
{
if (position) {
char *old_position = position;
if (error) {
target = 0;
} else {
skip_spaces();
target = (unsigned int)strtoul(position, &position, 0);
error = (position == old_position || *position == 0);
}
VERIFY(unsigned int, 0);
} else {
target = 0;
error = true;
}
return *this;
}
/*----------------------------------*/
inline SimpleIStringStream &SimpleIStringStream::operator>>(long &target)
{
if (position) {
char *old_position = position;
if (error) {
target = 0;
} else {
skip_spaces();
target = strtol(position, &position, 0);
error = (position == old_position || *position == 0);
}
VERIFY(long, 0);
} else {
target = 0;
error = true;
}
return *this;
}
inline SimpleIStringStream &SimpleIStringStream::operator>>(unsigned long &target)
{
if (position) {
char *old_position = position;
if (error) {
target = 0;
} else {
skip_spaces();
target = strtoul(position, &position, 0);
error = (position == old_position || *position == 0);
}
VERIFY(unsigned long, 0);
} else {
target = 0;
error = true;
}
return *this;
}
/*----------------------------------*/
inline SimpleIStringStream &SimpleIStringStream::operator>>(float &target)
{
if (position) {
char *old_position = position;
if (error) {
target = 0;
} else {
skip_spaces();
target = strtof(position, &position);
error = (position == old_position || *position == 0);
}
VERIFY(float, 0);
} else {
target = 0;
error = true;
}
return *this;
}
inline SimpleIStringStream &SimpleIStringStream::operator>>(double &target)
{
if (position) {
char *old_position = position;
if (error) {
target = 0;
} else {
skip_spaces();
target = strtod(position, &position);
error = (position == old_position || *position == 0);
}
VERIFY(double, 0);
} else {
target = 0;
error = true;
}
return *this;
}
/*----------------------------------*/
inline SimpleIStringStream &SimpleIStringStream::operator>>(char &target)
{
if (position) {
#ifdef SISS_VERIFY
char *old_position = position;
#endif
if (error) {
target = 0;
} else {
target = *position;
if (*position) {
position++;
error = (*position == 0);
} else {
error = true;
}
}
VERIFY(char, 0);
} else {
target = 0;
error = true;
}
return *this;
}
inline SimpleIStringStream &SimpleIStringStream::operator>>(signed char &target)
{
if (position) {
#ifdef SISS_VERIFY
char *old_position = position;
#endif
if (error) {
target = 0;
} else {
target = *position;
if (*position) {
position++;
error = (*position == 0);
} else {
error = true;
}
}
VERIFY(signed char, 0);
} else {
target = 0;
error = true;
}
return *this;
}
inline SimpleIStringStream &SimpleIStringStream::operator>>(unsigned char &target)
{
if (position) {
#ifdef SISS_VERIFY
char *old_position = position;
#endif
if (error) {
target = 0;
} else {
target = *position;
if (*position) {
position++;
error = (*position == 0);
} else {
error = true;
}
}
VERIFY(unsigned char, 0);
} else {
target = 0;
error = true;
}
return *this;
}
/*----------------------------------*/
inline SimpleIStringStream &SimpleIStringStream::operator>>(std::string &target)
{
if (position) {
#ifdef SISS_VERIFY
char *old_position = position;
#endif
if (error) {
target = "";
} else {
skip_spaces();
if (!*position) {
target = "";
error = true;
} else {
char *start = position;
while (*position && !my_isspace(*position)) {
position++;
}
target.assign(start, position - start);
error = (*position == 0);
}
}
VERIFY(std::string, "");
} else {
target = "";
error = true;
}
return *this;
}
/*************************************************************************/
#undef VERIFY_SETUP
#undef VERIFY
/*************************************************************************/
/*************************************************************************/
/*
* Local variables:
* indent-tabs-mode: t
* tab-width: 4
* End:
*
* vim: shiftwidth=4:
*/