jediacademy/codemp/qcommon/GenericParser2.cpp
2013-04-04 17:35:38 -05:00

1203 lines
20 KiB
C++

// this include must remain at the top of every CPP file
//Anything above this #include will be ignored by the compiler
#include "../qcommon/exe_headers.h"
#if !defined(GENERICPARSER2_H_INC)
#include "GenericParser2.h"
#endif
#define _EXE
#define MAX_TOKEN_SIZE 1024
static char token[MAX_TOKEN_SIZE];
static char *GetToken(char **text, bool allowLineBreaks, bool readUntilEOL = false)
{
char *pointer = *text;
int length = 0;
int c = 0;
bool foundLineBreak;
token[0] = 0;
if (!pointer)
{
return token;
}
while(1)
{
foundLineBreak = false;
while(1)
{
c = *pointer;
if (c > ' ')
{
break;
}
if (!c)
{
*text = 0;
return token;
}
if (c == '\n')
{
foundLineBreak = true;
}
pointer++;
}
if (foundLineBreak && !allowLineBreaks)
{
*text = pointer;
return token;
}
c = *pointer;
// skip single line comment
if (c == '/' && pointer[1] == '/')
{
pointer += 2;
while (*pointer && *pointer != '\n')
{
pointer++;
}
}
// skip multi line comments
else if (c == '/' && pointer[1] == '*')
{
pointer += 2;
while (*pointer && (*pointer != '*' || pointer[1] != '/'))
{
pointer++;
}
if (*pointer)
{
pointer += 2;
}
}
else
{ // found the start of a token
break;
}
}
if (c == '\"')
{ // handle a string
pointer++;
while (1)
{
c = *pointer++;
if (c == '\"')
{
// token[length++] = c;
break;
}
else if (!c)
{
break;
}
else if (length < MAX_TOKEN_SIZE)
{
token[length++] = c;
}
}
}
else if (readUntilEOL)
{
// absorb all characters until EOL
while(c != '\n' && c != '\r')
{
if (c == '/' && ((*(pointer+1)) == '/' || (*(pointer+1)) == '*'))
{
break;
}
if (length < MAX_TOKEN_SIZE)
{
token[length++] = c;
}
pointer++;
c = *pointer;
}
// remove trailing white space
while(length && token[length-1] < ' ')
{
length--;
}
}
else
{
while(c > ' ')
{
if (length < MAX_TOKEN_SIZE)
{
token[length++] = c;
}
pointer++;
c = *pointer;
}
}
if (token[0] == '\"')
{ // remove start quote
length--;
memmove(token, token+1, length);
if (length && token[length-1] == '\"')
{ // remove end quote
length--;
}
}
if (length >= MAX_TOKEN_SIZE)
{
length = 0;
}
token[length] = 0;
*text = (char *)pointer;
return token;
}
CTextPool::CTextPool(int initSize) :
mNext(0),
mSize(initSize),
mUsed(0)
{
#ifdef _EXE
// mPool = (char *)Z_Malloc(mSize, TAG_GP2);
mPool = (char *)Z_Malloc(mSize, TAG_TEXTPOOL, qtrue);
#else
mPool = (char *)trap_Z_Malloc(mSize, TAG_GP2);
#endif
}
CTextPool::~CTextPool(void)
{
#ifdef _EXE
Z_Free(mPool);
#else
trap_Z_Free(mPool);
#endif
}
char *CTextPool::AllocText(char *text, bool addNULL, CTextPool **poolPtr)
{
int length = strlen(text) + (addNULL ? 1 : 0);
if (mUsed + length + 1> mSize)
{ // extra 1 to put a null on the end
if (poolPtr)
{
(*poolPtr)->SetNext(new CTextPool(mSize));
*poolPtr = (*poolPtr)->GetNext();
return (*poolPtr)->AllocText(text, addNULL);
}
return 0;
}
strcpy(mPool + mUsed, text);
mUsed += length;
mPool[mUsed] = 0;
return mPool + mUsed - length;
}
void CleanTextPool(CTextPool *pool)
{
CTextPool *next;
while(pool)
{
next = pool->GetNext();
delete pool;
pool = next;
}
}
CGPObject::CGPObject(const char *initName) :
mName(initName),
mNext(0),
mInOrderNext(0),
mInOrderPrevious(0)
{
}
bool CGPObject::WriteText(CTextPool **textPool, const char *text)
{
if (strchr(text, ' ') || !text[0])
{
(*textPool)->AllocText("\"", false, textPool);
(*textPool)->AllocText((char *)text, false, textPool);
(*textPool)->AllocText("\"", false, textPool);
}
else
{
(*textPool)->AllocText((char *)text, false, textPool);
}
return true;
}
CGPValue::CGPValue(const char *initName, const char *initValue) :
CGPObject(initName),
mList(0)
{
if (initValue)
{
AddValue(initValue);
}
}
CGPValue::~CGPValue(void)
{
CGPObject *next;
while(mList)
{
next = mList->GetNext();
delete mList;
mList = next;
}
}
CGPValue *CGPValue::Duplicate(CTextPool **textPool)
{
CGPValue *newValue;
CGPObject *iterator;
char *name;
if (textPool)
{
name = (*textPool)->AllocText((char *)mName, true, textPool);
}
else
{
name = (char *)mName;
}
newValue = new CGPValue(name);
iterator = mList;
while(iterator)
{
if (textPool)
{
name = (*textPool)->AllocText((char *)iterator->GetName(), true, textPool);
}
else
{
name = (char *)iterator->GetName();
}
newValue->AddValue(name);
iterator = iterator->GetNext();
}
return newValue;
}
bool CGPValue::IsList(void)
{
if (!mList || !mList->GetNext())
{
return false;
}
return true;
}
const char *CGPValue::GetTopValue(void)
{
if (mList)
{
return mList->GetName();
}
return 0;
}
void CGPValue::AddValue(const char *newValue, CTextPool **textPool)
{
if (textPool)
{
newValue = (*textPool)->AllocText((char *)newValue, true, textPool);
}
if (mList == 0)
{
mList = new CGPObject(newValue);
mList->SetInOrderNext(mList);
}
else
{
mList->GetInOrderNext()->SetNext(new CGPObject(newValue));
mList->SetInOrderNext(mList->GetInOrderNext()->GetNext());
}
}
bool CGPValue::Parse(char **dataPtr, CTextPool **textPool)
{
char *token;
char *value;
while(1)
{
token = GetToken(dataPtr, true, true);
if (!token[0])
{ // end of data - error!
return false;
}
else if (Q_stricmp(token, "]") == 0)
{ // ending brace for this list
break;
}
value = (*textPool)->AllocText(token, true, textPool);
AddValue(value);
}
return true;
}
bool CGPValue::Write(CTextPool **textPool, int depth)
{
int i;
CGPObject *next;
if (!mList)
{
return true;
}
for(i=0;i<depth;i++)
{
(*textPool)->AllocText("\t", false, textPool);
}
WriteText(textPool, mName);
if (!mList->GetNext())
{
(*textPool)->AllocText("\t\t", false, textPool);
mList->WriteText(textPool, mList->GetName());
(*textPool)->AllocText("\r\n", false, textPool);
}
else
{
(*textPool)->AllocText("\r\n", false, textPool);
for(i=0;i<depth;i++)
{
(*textPool)->AllocText("\t", false, textPool);
}
(*textPool)->AllocText("[\r\n", false, textPool);
next = mList;
while(next)
{
for(i=0;i<depth+1;i++)
{
(*textPool)->AllocText("\t", false, textPool);
}
mList->WriteText(textPool, next->GetName());
(*textPool)->AllocText("\r\n", false, textPool);
next = next->GetNext();
}
for(i=0;i<depth;i++)
{
(*textPool)->AllocText("\t", false, textPool);
}
(*textPool)->AllocText("]\r\n", false, textPool);
}
return true;
}
CGPGroup::CGPGroup(const char *initName, CGPGroup *initParent) :
CGPObject(initName),
mPairs(0),
mInOrderPairs(0),
mCurrentPair(0),
mSubGroups(0),
mInOrderSubGroups(0),
mCurrentSubGroup(0),
mParent(initParent),
mWriteable(false)
{
}
CGPGroup::~CGPGroup(void)
{
Clean();
}
int CGPGroup::GetNumSubGroups(void)
{
int count;
CGPGroup *group;
count = 0;
group = mSubGroups;
do
{
count++;
group = (CGPGroup *)group->GetNext();
}
while(group);
return(count);
}
int CGPGroup::GetNumPairs(void)
{
int count;
CGPValue *pair;
count = 0;
pair = mPairs;
do
{
count++;
pair = (CGPValue *)pair->GetNext();
}
while(pair);
return(count);
}
void CGPGroup::Clean(void)
{
while(mPairs)
{
mCurrentPair = (CGPValue *)mPairs->GetNext();
delete mPairs;
mPairs = mCurrentPair;
}
while(mSubGroups)
{
mCurrentSubGroup = (CGPGroup *)mSubGroups->GetNext();
delete mSubGroups;
mSubGroups = mCurrentSubGroup;
}
mPairs = mInOrderPairs = mCurrentPair = 0;
mSubGroups = mInOrderSubGroups = mCurrentSubGroup = 0;
mParent = 0;
mWriteable = false;
}
CGPGroup *CGPGroup::Duplicate(CTextPool **textPool, CGPGroup *initParent)
{
CGPGroup *newGroup, *subSub, *newSub;
CGPValue *newPair, *subPair;
char *name;
if (textPool)
{
name = (*textPool)->AllocText((char *)mName, true, textPool);
}
else
{
name = (char *)mName;
}
newGroup = new CGPGroup(name);
subSub = mSubGroups;
while(subSub)
{
newSub = subSub->Duplicate(textPool, newGroup);
newGroup->AddGroup(newSub);
subSub = (CGPGroup *)subSub->GetNext();
}
subPair = mPairs;
while(subPair)
{
newPair = subPair->Duplicate(textPool);
newGroup->AddPair(newPair);
subPair = (CGPValue *)subPair->GetNext();
}
return newGroup;
}
void CGPGroup::SortObject(CGPObject *object, CGPObject **unsortedList, CGPObject **sortedList,
CGPObject **lastObject)
{
CGPObject *test, *last;
if (!*unsortedList)
{
*unsortedList = *sortedList = object;
}
else
{
(*lastObject)->SetNext(object);
test = *sortedList;
last = 0;
while(test)
{
if (Q_stricmp(object->GetName(), test->GetName()) < 0)
{
break;
}
last = test;
test = test->GetInOrderNext();
}
if (test)
{
test->SetInOrderPrevious(object);
object->SetInOrderNext(test);
}
if (last)
{
last->SetInOrderNext(object);
object->SetInOrderPrevious(last);
}
else
{
*sortedList = object;
}
}
*lastObject = object;
}
CGPValue *CGPGroup::AddPair(const char *name, const char *value, CTextPool **textPool)
{
CGPValue *newPair;
if (textPool)
{
name = (*textPool)->AllocText((char *)name, true, textPool);
if (value)
{
value = (*textPool)->AllocText((char *)value, true, textPool);
}
}
newPair = new CGPValue(name, value);
AddPair(newPair);
return newPair;
}
void CGPGroup::AddPair(CGPValue *NewPair)
{
SortObject(NewPair, (CGPObject **)&mPairs, (CGPObject **)&mInOrderPairs,
(CGPObject **)&mCurrentPair);
}
CGPGroup *CGPGroup::AddGroup(const char *name, CTextPool **textPool)
{
CGPGroup *newGroup;
if (textPool)
{
name = (*textPool)->AllocText((char *)name, true, textPool);
}
newGroup = new CGPGroup(name, this);
AddGroup(newGroup);
return newGroup;
}
void CGPGroup::AddGroup(CGPGroup *NewGroup)
{
SortObject(NewGroup, (CGPObject **)&mSubGroups, (CGPObject **)&mInOrderSubGroups,
(CGPObject **)&mCurrentSubGroup);
}
CGPGroup *CGPGroup::FindSubGroup(const char *name)
{
CGPGroup *group;
group = mSubGroups;
while(group)
{
if(!stricmp(name, group->GetName()))
{
return(group);
}
group = (CGPGroup *)group->GetNext();
}
return(NULL);
}
bool CGPGroup::Parse(char **dataPtr, CTextPool **textPool)
{
char *token;
char lastToken[MAX_TOKEN_SIZE];
CGPGroup *newSubGroup;
CGPValue *newPair;
while(1)
{
token = GetToken(dataPtr, true);
if (!token[0])
{ // end of data - error!
if (mParent)
{
return false;
}
else
{
break;
}
}
else if (Q_stricmp(token, "}") == 0)
{ // ending brace for this group
break;
}
strcpy(lastToken, token);
// read ahead to see what we are doing
token = GetToken(dataPtr, true, true);
if (Q_stricmp(token, "{") == 0)
{ // new sub group
newSubGroup = AddGroup(lastToken, textPool);
newSubGroup->SetWriteable(mWriteable);
if (!newSubGroup->Parse(dataPtr, textPool))
{
return false;
}
}
else if (Q_stricmp(token, "[") == 0)
{ // new pair list
newPair = AddPair(lastToken, 0, textPool);
if (!newPair->Parse(dataPtr, textPool))
{
return false;
}
}
else
{ // new pair
AddPair(lastToken, token, textPool);
}
}
return true;
}
bool CGPGroup::Write(CTextPool **textPool, int depth)
{
int i;
CGPValue *mPair = mPairs;
CGPGroup *mSubGroup = mSubGroups;
if (depth >= 0)
{
for(i=0;i<depth;i++)
{
(*textPool)->AllocText("\t", false, textPool);
}
WriteText(textPool, mName);
(*textPool)->AllocText("\r\n", false, textPool);
for(i=0;i<depth;i++)
{
(*textPool)->AllocText("\t", false, textPool);
}
(*textPool)->AllocText("{\r\n", false, textPool);
}
while(mPair)
{
mPair->Write(textPool, depth+1);
mPair = (CGPValue *)mPair->GetNext();
}
while(mSubGroup)
{
mSubGroup->Write(textPool, depth+1);
mSubGroup = (CGPGroup *)mSubGroup->GetNext();
}
if (depth >= 0)
{
for(i=0;i<depth;i++)
{
(*textPool)->AllocText("\t", false, textPool);
}
(*textPool)->AllocText("}\r\n", false, textPool);
}
return true;
}
/************************************************************************************************
* CGPGroup::FindPair
* This function will search for the pair with the specified key name. Multiple keys may be
* searched if you specify "||" inbetween each key name in the string. The first key to be
* found (from left to right) will be returned.
*
* Input
* key: the name of the key(s) to be searched for.
*
* Output / Return
* the group belonging to the first key found or 0 if no group was found.
*
************************************************************************************************/
CGPValue *CGPGroup::FindPair(const char *key)
{
CGPValue *pair;
int length;
const char *pos, *separator, *next;
pos = key;
while(pos[0])
{
separator = strstr(pos, "||");
if (separator)
{
length = separator - pos;
next = separator + 2;
}
else
{
length = strlen(pos);
next = pos + length;
}
pair = mPairs;
while(pair)
{
if (strlen(pair->GetName()) == length &&
Q_stricmpn(pair->GetName(), pos, length) == 0)
{
return pair;
}
pair = pair->GetNext();
}
pos = next;
}
return 0;
}
const char *CGPGroup::FindPairValue(const char *key, const char *defaultVal)
{
CGPValue *pair = FindPair(key);
if (pair)
{
return pair->GetTopValue();
}
return defaultVal;
}
CGenericParser2::CGenericParser2(void) :
mTextPool(0),
mWriteable(false)
{
}
CGenericParser2::~CGenericParser2(void)
{
Clean();
}
bool CGenericParser2::Parse(char **dataPtr, bool cleanFirst, bool writeable)
{
CTextPool *topPool;
#ifdef _XBOX
// Parsers are temporary structures. They exist mainly at load time.
extern void Z_SetNewDeleteTemporary(bool bTemp);
Z_SetNewDeleteTemporary(true);
#endif
if (cleanFirst)
{
Clean();
}
if (!mTextPool)
{
mTextPool = new CTextPool;
}
SetWriteable(writeable);
mTopLevel.SetWriteable(writeable);
topPool = mTextPool;
bool ret = mTopLevel.Parse(dataPtr, &topPool);
#ifdef _XBOX
Z_SetNewDeleteTemporary(false);
#endif
return ret;
}
void CGenericParser2::Clean(void)
{
mTopLevel.Clean();
CleanTextPool(mTextPool);
mTextPool = 0;
}
bool CGenericParser2::Write(CTextPool *textPool)
{
return mTopLevel.Write(&textPool, -1);
}
// The following groups of routines are used for a C interface into GP2.
// C++ users should just use the objects as normally and not call these routines below
//
// CGenericParser2 (void *) routines
TGenericParser2 GP_Parse(char **dataPtr, bool cleanFirst, bool writeable)
{
CGenericParser2 *parse;
parse = new CGenericParser2;
if (parse->Parse(dataPtr, cleanFirst, writeable))
{
return parse;
}
delete parse;
return 0;
}
void GP_Clean(TGenericParser2 GP2)
{
if (!GP2)
{
return;
}
((CGenericParser2 *)GP2)->Clean();
}
void GP_Delete(TGenericParser2 *GP2)
{
if (!GP2 || !(*GP2))
{
return;
}
delete ((CGenericParser2 *)(*GP2));
(*GP2) = 0;
}
TGPGroup GP_GetBaseParseGroup(TGenericParser2 GP2)
{
if (!GP2)
{
return 0;
}
return ((CGenericParser2 *)GP2)->GetBaseParseGroup();
}
// CGPGroup (void *) routines
const char *GPG_GetName(TGPGroup GPG)
{
if (!GPG)
{
return "";
}
return ((CGPGroup *)GPG)->GetName();
}
bool GPG_GetName(TGPGroup GPG, char *Value)
{
if (!GPG)
{
Value[0] = 0;
return false;
}
strcpy(Value, ((CGPGroup *)GPG)->GetName());
return true;
}
TGPGroup GPG_GetNext(TGPGroup GPG)
{
if (!GPG)
{
return 0;
}
return ((CGPGroup *)GPG)->GetNext();
}
TGPGroup GPG_GetInOrderNext(TGPGroup GPG)
{
if (!GPG)
{
return 0;
}
return ((CGPGroup *)GPG)->GetInOrderNext();
}
TGPGroup GPG_GetInOrderPrevious(TGPGroup GPG)
{
if (!GPG)
{
return 0;
}
return ((CGPGroup *)GPG)->GetInOrderPrevious();
}
TGPGroup GPG_GetPairs(TGPGroup GPG)
{
if (!GPG)
{
return 0;
}
return ((CGPGroup *)GPG)->GetPairs();
}
TGPGroup GPG_GetInOrderPairs(TGPGroup GPG)
{
if (!GPG)
{
return 0;
}
return ((CGPGroup *)GPG)->GetInOrderPairs();
}
TGPGroup GPG_GetSubGroups(TGPGroup GPG)
{
if (!GPG)
{
return 0;
}
return ((CGPGroup *)GPG)->GetSubGroups();
}
TGPGroup GPG_GetInOrderSubGroups(TGPGroup GPG)
{
if (!GPG)
{
return 0;
}
return ((CGPGroup *)GPG)->GetInOrderSubGroups();
}
TGPGroup GPG_FindSubGroup(TGPGroup GPG, const char *name)
{
if (!GPG)
{
return 0;
}
return ((CGPGroup *)GPG)->FindSubGroup(name);
}
TGPValue GPG_FindPair(TGPGroup GPG, const char *key)
{
if (!GPG)
{
return 0;
}
return ((CGPGroup *)GPG)->FindPair(key);
}
const char *GPG_FindPairValue(TGPGroup GPG, const char *key, const char *defaultVal)
{
if (!GPG)
{
return defaultVal;
}
return ((CGPGroup *)GPG)->FindPairValue(key, defaultVal);
}
bool GPG_FindPairValue(TGPGroup GPG, const char *key, const char *defaultVal, char *Value)
{
strcpy(Value, GPG_FindPairValue(GPG, key, defaultVal));
return true;
}
// CGPValue (void *) routines
const char *GPV_GetName(TGPValue GPV)
{
if (!GPV)
{
return "";
}
return ((CGPValue *)GPV)->GetName();
}
bool GPV_GetName(TGPValue GPV, char *Value)
{
if (!GPV)
{
Value[0] = 0;
return false;
}
strcpy(Value, ((CGPValue *)GPV)->GetName());
return true;
}
TGPValue GPV_GetNext(TGPValue GPV)
{
if (!GPV)
{
return 0;
}
return ((CGPValue *)GPV)->GetNext();
}
TGPValue GPV_GetInOrderNext(TGPValue GPV)
{
if (!GPV)
{
return 0;
}
return ((CGPValue *)GPV)->GetInOrderNext();
}
TGPValue GPV_GetInOrderPrevious(TGPValue GPV)
{
if (!GPV)
{
return 0;
}
return ((CGPValue *)GPV)->GetInOrderPrevious();
}
bool GPV_IsList(TGPValue GPV)
{
if (!GPV)
{
return 0;
}
return ((CGPValue *)GPV)->IsList();
}
const char *GPV_GetTopValue(TGPValue GPV)
{
if (!GPV)
{
return "";
}
return ((CGPValue *)GPV)->GetTopValue();
}
bool GPV_GetTopValue(TGPValue GPV, char *Value)
{
if (!GPV)
{
Value[0] = 0;
return false;
}
strcpy(Value, ((CGPValue *)GPV)->GetTopValue());
return true;
}
TGPValue GPV_GetList(TGPValue GPV)
{
if (!GPV)
{
return 0;
}
return ((CGPValue *)GPV)->GetList();
}