Counter Strike : Global Offensive Source Code
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//========= Copyright © 1996-2005, Valve Corporation, All rights reserved. ====
//
//=============================================================================
#include "fgdlib/fgdlib.h"
#include "fgdlib/gamedata.h"
#include "fgdlib/wckeyvalues.h"
#include "fgdlib/gdvar.h"
// memdbgon must be the last include file in a .cpp file!!!
#include <tier0/memdbgon.h>
typedef struct
{
GDIV_TYPE eType; // The enumeration of this type.
char *pszName; // The name of this type.
trtoken_t eStoreAs; // How this type is stored (STRING, INTEGER, etc).
} TypeMap_t;
//-----------------------------------------------------------------------------
// Maps type names to type enums and parsing logic for values.
//-----------------------------------------------------------------------------
static TypeMap_t TypeMap[] =
{
{ ivAngle, "angle", STRING },
{ ivChoices, "choices", STRING },
{ ivColor1, "color1", STRING },
{ ivColor255, "color255", STRING },
{ ivDecal, "decal", STRING },
{ ivFlags, "flags", INTEGER },
{ ivInteger, "integer", INTEGER },
{ ivSound, "sound", STRING },
{ ivSprite, "sprite", STRING },
{ ivString, "string", STRING },
{ ivStringInstanced, "string_instanced", STRING },
{ ivStudioModel, "studio", STRING },
{ ivTargetDest, "target_destination", STRING },
{ ivTargetSrc, "target_source", STRING },
{ ivTargetNameOrClass, "target_name_or_class", STRING }, // Another version of target_destination that accepts class names
{ ivVector, "vector", STRING },
{ ivNPCClass, "npcclass", STRING },
{ ivFilterClass, "filterclass", STRING },
{ ivFloat, "float", STRING },
{ ivMaterial, "material", STRING },
{ ivScene, "scene", STRING },
{ ivSide, "side", STRING },
{ ivSideList, "sidelist", STRING },
{ ivOrigin, "origin", STRING },
{ ivAxis, "axis", STRING },
{ ivVecLine, "vecline", STRING },
{ ivPointEntityClass, "pointentityclass", STRING },
{ ivNodeDest, "node_dest", INTEGER },
{ ivScript, "script", STRING },
{ ivScriptList, "scriptlist", STRING },
{ ivParticleSystem, "particlesystem", STRING },
{ ivInstanceFile, "instance_file", STRING },
{ ivAngleNegativePitch, "angle_negative_pitch", STRING },
{ ivInstanceVariable, "instance_variable", STRING },
{ ivInstanceParm, "instance_parm", STRING },
{ ivBoolean, "boolean", STRING },
{ ivNodeID, "node_id", INTEGER },
};
char *GDinputvariable::m_pszEmpty = "";
//-----------------------------------------------------------------------------
//-----------------------------------------------------------------------------
GDinputvariable::GDinputvariable(void)
{
m_szDefault[0] = 0;
m_nDefault = 0;
m_szValue[0] = 0;
m_bReportable = FALSE;
m_bReadOnly = false;
m_pszDescription = NULL;
}
//-----------------------------------------------------------------------------
// Purpose: construct generally used for creating a temp instance parm type
// Input : szType - the textual type of this variable
// szName - the name description of this variable
//-----------------------------------------------------------------------------
GDinputvariable::GDinputvariable( const char *szType, const char *szName )
{
m_szDefault[0] = 0;
m_nDefault = 0;
m_szValue[0] = 0;
m_bReportable = FALSE;
m_bReadOnly = false;
m_pszDescription = NULL;
m_eType = GetTypeFromToken( szType );
strcpy( m_szName, szName );
}
//-----------------------------------------------------------------------------
// Purpose: Destructor.
//-----------------------------------------------------------------------------
GDinputvariable::~GDinputvariable(void)
{
delete m_pszDescription;
m_Items.RemoveAll();
}
//-----------------------------------------------------------------------------
// Purpose: Implements the copy operator.
//-----------------------------------------------------------------------------
GDinputvariable &GDinputvariable::operator =(GDinputvariable &Other)
{
m_eType = Other.GetType();
strcpy(m_szName, Other.m_szName);
strcpy(m_szLongName, Other.m_szLongName);
strcpy(m_szDefault, Other.m_szDefault);
//
// Copy the description.
//
delete m_pszDescription;
if (Other.m_pszDescription != NULL)
{
m_pszDescription = new char[strlen(Other.m_pszDescription) + 1];
strcpy(m_pszDescription, Other.m_pszDescription);
}
else
{
m_pszDescription = NULL;
}
m_nDefault = Other.m_nDefault;
m_bReportable = Other.m_bReportable;
m_bReadOnly = Other.m_bReadOnly;
m_Items.RemoveAll();
int nCount = Other.m_Items.Count();
for (int i = 0; i < nCount; i++)
{
m_Items.AddToTail(Other.m_Items.Element(i));
}
return(*this);
}
//-----------------------------------------------------------------------------
// Purpose: Returns the storage format of a given variable type.
// Input : pszToken - Sting containing the token.
// Output : GDIV_TYPE corresponding to the token in the string, ivBadType if the
// string does not correspond to a valid type.
//-----------------------------------------------------------------------------
trtoken_t GDinputvariable::GetStoreAsFromType(GDIV_TYPE eType)
{
for (int i = 0; i < sizeof(TypeMap) / sizeof(TypeMap[0]); i++)
{
if (TypeMap[i].eType == eType)
{
return(TypeMap[i].eStoreAs);
}
}
Assert(FALSE);
return(STRING);
}
//-----------------------------------------------------------------------------
// Purpose: Returns the enumerated type of a string token.
// Input : pszToken - Sting containing the token.
// Output : GDIV_TYPE corresponding to the token in the string, ivBadType if the
// string does not correspond to a valid type.
//-----------------------------------------------------------------------------
GDIV_TYPE GDinputvariable::GetTypeFromToken(const char *pszToken)
{
for (int i = 0; i < sizeof(TypeMap) / sizeof(TypeMap[0]); i++)
{
if (IsToken(pszToken, TypeMap[i].pszName))
{
return(TypeMap[i].eType);
}
}
return(ivBadType);
}
//-----------------------------------------------------------------------------
// Purpose: Returns a string representing the type of this variable, eg. "integer".
//-----------------------------------------------------------------------------
const char *GDinputvariable::GetTypeText(void)
{
for (int i = 0; i < sizeof(TypeMap) / sizeof(TypeMap[0]); i++)
{
if (TypeMap[i].eType == m_eType)
{
return(TypeMap[i].pszName);
}
}
return("unknown");
}
//-----------------------------------------------------------------------------
// Purpose:
// Input : tr -
// Output : Returns TRUE on success, FALSE on failure.
//-----------------------------------------------------------------------------
BOOL GDinputvariable::InitFromTokens(TokenReader& tr)
{
char szToken[128];
if (!GDGetToken(tr, m_szName, sizeof(m_szName), IDENT))
{
return FALSE;
}
if (!GDSkipToken(tr, OPERATOR, "("))
{
return FALSE;
}
// check for "reportable" marker.
// NOTE: This has been deprecated in favor of the "report" keyword below.
trtoken_t ttype = tr.NextToken(szToken, sizeof(szToken));
if (ttype == OPERATOR)
{
if (!strcmp(szToken, "*"))
{
m_bReportable = true;
}
}
else
{
tr.Stuff(ttype, szToken);
}
// get type
if (!GDGetToken(tr, szToken, sizeof(szToken), IDENT))
{
return FALSE;
}
if (!GDSkipToken(tr, OPERATOR, ")"))
{
return FALSE;
}
//
// Check for known variable types.
//
m_eType = GetTypeFromToken(szToken);
if (m_eType == ivBadType)
{
GDError(tr, "'%s' is not a valid variable type", szToken);
return FALSE;
}
//
// Look ahead at the next token.
//
ttype = tr.PeekTokenType(szToken,sizeof(szToken));
//
// Check for the "readonly" specifier.
//
if ((ttype == IDENT) && IsToken(szToken, "readonly"))
{
tr.NextToken(szToken, sizeof(szToken));
m_bReadOnly = true;
//
// Look ahead at the next token.
//
ttype = tr.PeekTokenType(szToken,sizeof(szToken));
}
//
// Check for the "report" specifier.
//
if ((ttype == IDENT) && IsToken(szToken, "report"))
{
tr.NextToken(szToken, sizeof(szToken));
m_bReportable = true;
//
// Look ahead at the next token.
//
ttype = tr.PeekTokenType(szToken,sizeof(szToken));
}
//
// Check for the ':' indicating a long name.
//
if (ttype == OPERATOR && IsToken(szToken, ":"))
{
//
// Eat the ':'.
//
tr.NextToken(szToken, sizeof(szToken));
if (m_eType == ivFlags)
{
GDError(tr, "flag sets do not have long names");
return FALSE;
}
//
// Get the long name.
//
if (!GDGetToken(tr, m_szLongName, sizeof(m_szLongName), STRING))
{
return(FALSE);
}
//
// Look ahead at the next token.
//
ttype = tr.PeekTokenType(szToken,sizeof(szToken));
//
// Check for the ':' indicating a default value.
//
if (ttype == OPERATOR && IsToken(szToken, ":"))
{
//
// Eat the ':'.
//
tr.NextToken(szToken, sizeof(szToken));
//
// Look ahead at the next token.
//
ttype = tr.PeekTokenType(szToken,sizeof(szToken));
if (ttype == OPERATOR && IsToken(szToken, ":"))
{
//
// No default value provided, skip to the description.
//
}
else
{
//
// Determine how to parse the default value. If this is a choices field, the
// default could either be a string or an integer, so we must look ahead and
// use whichever is there.
//
trtoken_t eStoreAs = GetStoreAsFromType(m_eType);
if (eStoreAs == STRING)
{
if (!GDGetToken(tr, m_szDefault, sizeof(m_szDefault), STRING))
{
return(FALSE);
}
}
else if (eStoreAs == INTEGER)
{
if (!GDGetToken(tr, szToken, sizeof(szToken), INTEGER))
{
return(FALSE);
}
m_nDefault = atoi(szToken);
}
//
// Look ahead at the next token.
//
ttype = tr.PeekTokenType(szToken,sizeof(szToken));
}
}
//
// Check for the ':' indicating a description.
//
if (ttype == OPERATOR && IsToken(szToken, ":"))
{
//
// Eat the ':'.
//
tr.NextToken(szToken, sizeof(szToken));
//
// Read the description.
//
if (!GDGetTokenDynamic(tr, &m_pszDescription, STRING))
{
return(FALSE);
}
//
// Look ahead at the next token.
//
ttype = tr.PeekTokenType(szToken,sizeof(szToken));
}
}
else
{
//
// Default long name is short name.
//
strcpy(m_szLongName, m_szName);
}
//
// Check for the ']' indicating the end of the class definition.
//
if ((ttype == OPERATOR && IsToken(szToken, "]")) || ttype != OPERATOR)
{
if (m_eType == ivFlags || m_eType == ivChoices)
{
//
// Can't define a flags or choices variable without providing any flags or choices.
//
GDError(tr, "no %s specified", m_eType == ivFlags ? "flags" : "choices");
return(FALSE);
}
// For boolean values, we construct it as if it were a choices dialog
if ( m_eType == ivBoolean )
{
m_eType = ivChoices;
GDIVITEM ivi;
// Yes
strncpy( ivi.szValue, "1", MAX_STRING );
strncpy( ivi.szCaption, "Yes", MAX_STRING );
m_Items.AddToTail(ivi);
// No
strncpy( ivi.szValue, "0", MAX_STRING );
strncpy( ivi.szCaption, "No", MAX_STRING );
m_Items.AddToTail(ivi);
// Clean up string usages!
if ( stricmp( m_szDefault, "no" ) == 0 )
{
strncpy( m_szDefault, "0", MAX_STRING );
}
else if ( stricmp( m_szDefault, "yes" ) == 0 )
{
strncpy( m_szDefault, "1", MAX_STRING );
}
// Sanity check it!
if ( strcmp( m_szDefault, "0" ) && strcmp( m_szDefault, "1" ) )
{
GDError(tr, "boolean type specified with nonsensical default value: %s", m_szDefault );
return(FALSE);
}
}
return(TRUE);
}
if (!GDSkipToken(tr, OPERATOR, "="))
{
return(FALSE);
}
if (m_eType != ivFlags && m_eType != ivChoices)
{
GDError(tr, "didn't expect '=' here");
return(FALSE);
}
// should be '[' to start flags/choices
if (!GDSkipToken(tr, OPERATOR, "["))
{
return(FALSE);
}
// get flags?
if (m_eType == ivFlags)
{
GDIVITEM ivi;
while (1)
{
ttype = tr.PeekTokenType();
if (ttype != INTEGER)
{
break;
}
// store bitflag value
GDGetToken(tr, szToken, sizeof(szToken), INTEGER);
sscanf( szToken, "%lu", &ivi.iValue );
// colon..
if (!GDSkipToken(tr, OPERATOR, ":"))
{
return FALSE;
}
// get description
if (!GDGetToken(tr, szToken, sizeof(szToken), STRING))
{
return FALSE;
}
strcpy(ivi.szCaption, szToken);
// colon..
if (!GDSkipToken(tr, OPERATOR, ":"))
{
return FALSE;
}
// get default setting
if (!GDGetToken(tr, szToken, sizeof(szToken), INTEGER))
{
return FALSE;
}
ivi.bDefault = atoi(szToken) ? TRUE : FALSE;
// add item to array of items
m_Items.AddToTail(ivi);
}
// Set the default value.
unsigned long nDefault = 0;
for (int i = 0; i < m_Items.Count(); i++)
{
if (m_Items[i].bDefault)
nDefault |= m_Items[i].iValue;
}
m_nDefault = (int)nDefault;
Q_snprintf( m_szDefault, sizeof( m_szDefault ), "%d", m_nDefault );
}
else if (m_eType == ivChoices)
{
GDIVITEM ivi;
while (1)
{
ttype = tr.PeekTokenType();
if ((ttype != INTEGER) && (ttype != STRING))
{
break;
}
// store choice value
GDGetToken(tr, szToken, sizeof(szToken), ttype);
ivi.iValue = 0;
strcpy(ivi.szValue, szToken);
// colon
if (!GDSkipToken(tr, OPERATOR, ":"))
{
return FALSE;
}
// get description
if (!GDGetToken(tr, szToken, sizeof(szToken), STRING))
{
return FALSE;
}
strcpy(ivi.szCaption, szToken);
m_Items.AddToTail(ivi);
}
}
if (!GDSkipToken(tr, OPERATOR, "]"))
{
return FALSE;
}
return TRUE;
}
//-----------------------------------------------------------------------------
// Purpose: Decodes a key value from a string.
// Input : pkv - Pointer to the key value object containing string encoded value.
//-----------------------------------------------------------------------------
void GDinputvariable::FromKeyValue(MDkeyvalue *pkv)
{
trtoken_t eStoreAs = GetStoreAsFromType(m_eType);
if (eStoreAs == STRING)
{
V_strcpy_safe(m_szValue, pkv->szValue);
}
else if (eStoreAs == INTEGER)
{
m_nValue = atoi(pkv->szValue);
}
}
//-----------------------------------------------------------------------------
// Purpose: Determines whether the given flag is set (assuming this is an ivFlags).
// Input : uCheck - Flag to check.
// Output : Returns TRUE if flag is set, FALSE if not.
//-----------------------------------------------------------------------------
BOOL GDinputvariable::IsFlagSet(unsigned int uCheck)
{
Assert(m_eType == ivFlags);
return (((unsigned int)m_nValue & uCheck) == uCheck) ? TRUE : FALSE;
}
//-----------------------------------------------------------------------------
// Purpose: Combines the flags or choices items from another variable into our
// list of flags or choices. Ours take priority if collisions occur.
// Input : Other - The variable whose items are being merged with ours.
//-----------------------------------------------------------------------------
void GDinputvariable::Merge(GDinputvariable &Other)
{
//
// Only valid if we are of the same type.
//
if (Other.GetType() != GetType())
{
return;
}
//
// Add Other's items to this ONLY if there is no same-value entry
// for a specific item.
//
bool bFound = false;
int nOurItems = m_Items.Count();
for (int i = 0; i < Other.m_Items.Count(); i++)
{
GDIVITEM &TheirItem = Other.m_Items[i];
for (int j = 0; j < nOurItems; j++)
{
GDIVITEM &OurItem = m_Items[j];
if (TheirItem.iValue == OurItem.iValue)
{
bFound = true;
break;
}
}
if (!bFound)
{
//
// Not found in our list - add their item to our list.
//
m_Items.AddToTail(TheirItem);
}
}
}
//-----------------------------------------------------------------------------
// Purpose: Determines whether the given flag is set (assuming this is an ivFlags).
// Input : uFlags - Flags to set.
// bSet - TRUE to set the flags, FALSE to clear them.
//-----------------------------------------------------------------------------
void GDinputvariable::SetFlag(unsigned int uFlags, BOOL bSet)
{
Assert(m_eType == ivFlags);
if (bSet)
{
m_nValue |= uFlags;
}
else
{
m_nValue &= ~uFlags;
}
}
//-----------------------------------------------------------------------------
// Purpose: Sets this keyvalue to its default value.
//-----------------------------------------------------------------------------
void GDinputvariable::ResetDefaults(void)
{
if (m_eType == ivFlags)
{
m_nValue = 0;
//
// Run thru flags and set any default flags.
//
int nCount = m_Items.Count();
for (int i = 0; i < nCount; i++)
{
if (m_Items[i].bDefault)
{
m_nValue |= GetFlagMask(i);
}
}
}
else
{
m_nValue = m_nDefault;
strcpy(m_szValue, m_szDefault);
}
}
//-----------------------------------------------------------------------------
// Purpose: Encodes a key value as a string.
// Input : pkv - Pointer to the key value object to receive the encoded string.
//-----------------------------------------------------------------------------
void GDinputvariable::ToKeyValue(MDkeyvalue *pkv)
{
strcpy(pkv->szKey, m_szName);
trtoken_t eStoreAs = GetStoreAsFromType(m_eType);
if (eStoreAs == STRING)
{
strcpy(pkv->szValue, m_szValue);
}
else if (eStoreAs == INTEGER)
{
Q_snprintf(pkv->szValue, sizeof(pkv->szValue), "%d", m_nValue);
}
}
//-----------------------------------------------------------------------------
// Purpose: Returns the description string that corresponds to a value string
// for a choices list.
// Input : pszString - The choices value string.
// Output : Returns the description string.
//-----------------------------------------------------------------------------
const char *GDinputvariable::ItemStringForValue(const char *szValue)
{
int nCount = m_Items.Count();
for (int i = 0; i < nCount; i++)
{
if (!stricmp(m_Items[i].szValue, szValue))
{
return(m_Items[i].szCaption);
}
}
return(NULL);
}
//-----------------------------------------------------------------------------
// Purpose: Returns the value string that corresponds to a description string
// for a choices list.
// Input : pszString - The choices description string.
// Output : Returns the value string.
//-----------------------------------------------------------------------------
const char *GDinputvariable::ItemValueForString(const char *szString)
{
int nCount = m_Items.Count();
for (int i = 0; i < nCount; i++)
{
if (!strcmpi(m_Items[i].szCaption, szString))
{
return(m_Items[i].szValue);
}
}
return(NULL);
}
//-----------------------------------------------------------------------------
// Purpose: this function will let you iterate through the text names of the variable types
// Input : eType - the type to get the text of
// Output : returns the textual name
//-----------------------------------------------------------------------------
const char *GDinputvariable::GetVarTypeName( GDIV_TYPE eType )
{
return TypeMap[ eType ].pszName;
}