// Parse a primitive, apply defaults first, grab any base level
// key pairs, then process any sub groups we may contain.
//------------------------------------------------------
bool CPrimitiveTemplate::ParsePrimitive( CGPGroup *grp )
{
CGPGroup *subGrp;
CGPValue *pairs;
const char *key;
const char *val;
// Lets work with the pairs first
pairs = grp->GetPairs();
while( pairs )
{
// the fields
key = pairs->GetName();
val = pairs->GetTopValue();
// Huge stricmp lists suxor
if ( !stricmp( key, "count" ))
{
ParseCount( val );
}
else if ( !stricmp( key, "shaders" ) || !stricmp( key, "shader" ))
{
ParseShaders( pairs );
}
else if ( !stricmp( key, "models" ) || !stricmp( key, "model" ))
{
ParseModels( pairs );
}
else if ( !stricmp( key, "sounds" ) || !stricmp( key, "sound" ))
{
ParseSounds( pairs );
}
else if ( !stricmp( key, "impactfx" ))
{
ParseImpactFxStrings( pairs );
}
else if ( !stricmp( key, "deathfx" ))
{
ParseDeathFxStrings( pairs );
}
else if ( !stricmp( key, "emitfx" ))
{
ParseEmitterFxStrings( pairs );
}
else if ( !stricmp( key, "playfx" ))
{
ParsePlayFxStrings( pairs );
}
else if ( !stricmp( key, "life" ))
{
ParseLife( val );
}
else if ( !stricmp( key, "cullrange" ))
{
mCullRange = atoi( val );
mCullRange *= mCullRange; // Square
}
else if ( !stricmp( key, "delay" ))
{
ParseDelay( val );
}
else if ( !stricmp( key, "bounce" ) || !stricmp( key, "intensity" )) // me==bad for reusing this...but it shouldn't hurt anything)
{
ParseElasticity( val );
}
else if ( !stricmp( key, "min" ))
{
ParseMin( val );
}
else if ( !stricmp( key, "max" ))
{
ParseMax( val );
}
else if ( !stricmp( key, "angle" ) || !stricmp( key, "angles" ))
{
ParseAngle( val );
}
else if ( !stricmp( key, "angleDelta" ))
{
ParseAngleDelta( val );
}
else if ( !stricmp( key, "velocity" ) || !stricmp( key, "vel" ))
{
ParseVelocity( val );
}
else if ( !stricmp( key, "acceleration" ) || !stricmp( key, "accel" ))
{
ParseAcceleration( val );
}
else if ( !stricmp( key, "gravity" ))
{
ParseGravity( val );
}
else if ( !stricmp( key, "density" ))
{
ParseDensity( val );
}
else if ( !stricmp( key, "variance" ))
{
ParseVariance( val );
}
else if ( !stricmp( key, "origin" ))
{
ParseOrigin1( val );
}
else if ( !stricmp( key, "origin2" ))
{
ParseOrigin2( val );
}
else if ( !stricmp( key, "radius" )) // part of ellipse/cylinder calcs.
{
ParseRadius( val );
}
else if ( !stricmp( key, "height" )) // part of ellipse/cylinder calcs.
{
ParseHeight( val );
}
else if ( !stricmp( key, "rotation" ))
{
ParseRotation( val );
}
else if ( !Q_stricmp( key, "rotationDelta" ))
{
ParseRotationDelta( val );
}
else if ( !stricmp( key, "flags" ) || !stricmp( key, "flag" ))
{ // these need to get passed on to the primitive
ParseFlags( val );
}
else if ( !stricmp( key, "spawnFlags" ) || !stricmp( key, "spawnFlag" ))
{ // these are used to spawn things in cool ways, but don't ever get passed on to prims.
ParseSpawnFlags( val );
}
else if ( !stricmp( key, "name" ))
{
if ( val )
{
// just stash the descriptive name of the primitive
strcpy( mName, val );
}
}
else
{
theFxHelper.Print( "Unknown key parsing an effect primitive: %s\n", key );
}
pairs = (CGPValue *)pairs->GetNext();
}
subGrp = grp->GetSubGroups();
// Lets chomp on the groups now
while ( subGrp )
{
key = subGrp->GetName();
if ( !stricmp( key, "rgb" ))
{
ParseRGB( subGrp );
}
else if ( !stricmp( key, "alpha" ))
{
ParseAlpha( subGrp );
}
else if ( !stricmp( key, "size" ) || !stricmp( key, "width" ))
{
ParseSize( subGrp );
}
else if ( !stricmp( key, "size2" ) || !stricmp( key, "width2" ))
{
ParseSize2( subGrp );
}
else if ( !stricmp( key, "length" ) || !stricmp( key, "height" ))
{
ParseLength( subGrp );
}
else
{
theFxHelper.Print( "Unknown group key parsing a particle: %s\n", key );
}
subGrp = (CGPGroup *)subGrp->GetNext();
}
return true;
}
void
GenerateCode
(
istream& input,
ostream& output,
const JString& stringPath,
const JString& formName,
const JString& tagName,
const JString& userTopEnclVarName,
JPtrArray<JString>* objTypes,
JPtrArray<JString>* objNames
)
{
JIndex i;
// width
input >> ws;
JString line = JReadUntilws(input);
assert( line == kFormWidthMarker );
JSize formWidth;
input >> formWidth;
// height
input >> ws;
line = JReadUntilws(input);
assert( line == kFormHeightMarker );
JSize formHeight;
input >> formHeight;
// object count (marker contains whitespace)
input >> ws;
line = JReadUntil(input, ':') + ":";
assert( line == kFormObjCountMarker );
JSize itemCount;
input >> itemCount;
// create window
const JString topEnclFrameName = tagName + "_Frame";
const JString topEnclApName = tagName + "_Aperture";
JString topEnclVarName;
if (tagName == kDefaultDelimTag)
{
topEnclVarName = kDefTopEnclVarName;
output << " JXWindow* window = new JXWindow(this, ";
output << formWidth << ',' << formHeight;
output << ", \"\");" << endl;
output << " assert( window != NULL );" << endl;
output << endl;
}
else
{
assert( !userTopEnclVarName.IsEmpty() );
topEnclVarName = userTopEnclVarName;
output << " const JRect ";
topEnclFrameName.Print(output);
output << " = ";
topEnclVarName.Print(output);
output << "->GetFrame();" << endl;
output << " const JRect ";
topEnclApName.Print(output);
output << " = ";
topEnclVarName.Print(output);
output << "->GetAperture();" << endl;
output << " ";
topEnclVarName.Print(output);
output << "->AdjustSize(" << formWidth << " - ";
topEnclApName.Print(output);
output << ".width(), " << formHeight << " - ";
topEnclApName.Print(output);
output << ".height());" << endl;
output << endl;
}
// We need to calculate the enclosure for each object. Since objects
// are drawn in the order added, an object must come after its enclosure
// in the list in order to be visible.
JArray<JRect> rectList(10);
JArray<JBoolean> isInstanceVar(10);
// This array is used to send the options to ApplyOptions.
// It does not own the pointers that it contains.
JPtrArray<JString> optionValues(JPtrArrayT::kForgetAll, kOptionCount);
for (i=1; i<=kOptionCount; i++)
{
optionValues.Append(NULL);
}
// generate code for each object
JStringManager stringMgr;
JIndex objCount = 1;
for (i=1; i<=itemCount; i++)
{
// check for start-of-object
input >> ws;
line = JReadLine(input);
assert( line == kBeginObjLine );
// object class
JString flClass = JReadLine(input);
RemoveIdentifier(kObjClassMarker, &flClass);
// object type
JString flType = JReadLine(input);
RemoveIdentifier(kObjTypeMarker, &flType);
// object frame
input >> ws;
line = JReadUntilws(input);
assert( line == kObjRectMarker );
JCoordinate x,y,w,h;
input >> x >> y >> w >> h >> ws;
const JRect frame(y, x, y+h, x+w);
rectList.AppendElement(frame);
// box type
JString boxType = JReadLine(input);
RemoveIdentifier(kObjBoxTypeMarker, &boxType);
// colors
input >> ws;
line = JReadUntilws(input);
assert( line == kObjColorsMarker );
JString col1 = JReadUntilws(input);
optionValues.SetElement(kCol1Index, &col1, JPtrArrayT::kForget);
JString col2 = JReadUntilws(input);
optionValues.SetElement(kCol2Index, &col2, JPtrArrayT::kForget);
// label info
JString lAlign = JReadLine(input);
RemoveIdentifier(kObjLAlignMarker, &lAlign);
JString lStyle = JReadLine(input);
RemoveIdentifier(kObjLStyleMarker, &lStyle);
JString lSize = JReadLine(input);
RemoveIdentifier(kObjLSizeMarker, &lSize);
JString lColor = JReadLine(input);
RemoveIdentifier(kObjLColorMarker, &lColor);
JString label = JReadLine(input);
RemoveIdentifier(kObjLabelMarker, &label);
// shortcuts
JString shortcuts = JReadLine(input);
RemoveIdentifier(kObjShortcutMarker, &shortcuts);
optionValues.SetElement(kShortcutsIndex, &shortcuts, JPtrArrayT::kForget);
// resizing (ignored)
JIgnoreLine(input);
// gravity
input >> ws;
line = JReadUntilws(input);
assert( line == kObjGravityMarker );
const JString nwGravity = JReadUntilws(input);
const JString seGravity = JReadUntilws(input);
// variable name
JBoolean isLocal = kJFalse;
JString* varName = new JString(JReadLine(input));
assert( varName != NULL );
RemoveIdentifier(kObjNameMarker, varName);
if (varName->IsEmpty())
{
isInstanceVar.AppendElement(kJFalse);
GetTempVarName(tagName, varName, *objNames);
isLocal = kJTrue;
}
else if (varName->GetFirstCharacter() == '(' &&
varName->GetLastCharacter() == ')')
{
isInstanceVar.AppendElement(kJFalse);
isLocal = kJTrue;
*varName = varName->GetSubstring(2, varName->GetLength()-1);
}
else if (varName->GetFirstCharacter() == '<' &&
varName->GetLastCharacter() == '>')
{
isInstanceVar.AppendElement(kJFalse);
*varName = varName->GetSubstring(2, varName->GetLength()-1);
}
else
{
isInstanceVar.AppendElement(kJTrue);
}
objNames->Append(varName);
// callback (ignored)
JIgnoreLine(input);
// callback argument
JString cbArg = JReadLine(input);
RemoveIdentifier(kObjCBArgMarker, &cbArg);
JString cbArgExtra;
do
{
cbArgExtra = JReadLine(input);
cbArgExtra.TrimWhitespace();
}
while (!cbArgExtra.IsEmpty());
// don't bother to generate code for initial box
// if it is FL_BOX, FLAT_BOX, FL_COL1
if (i==1 && flClass == "FL_BOX" && flType == "FLAT_BOX" && col1 == "FL_COL1")
{
rectList.RemoveElement(objCount);
isInstanceVar.RemoveElement(objCount);
objNames->DeleteElement(objCount);
continue;
}
// check for errors -- safe since we have read in entire object
JString hSizing, vSizing;
if (!ParseGravity(nwGravity, &hSizing, &vSizing))
{
cerr << "Illegal sizing specification ";
cerr << nwGravity << ',' << seGravity;
cerr << " for '" << *varName << '\'' << endl;
rectList.RemoveElement(objCount);
isInstanceVar.RemoveElement(objCount);
objNames->DeleteElement(objCount);
continue;
}
if (*varName == topEnclVarName)
{
cerr << "Cannot use reserved name '" << topEnclVarName << '\'' << endl;
rectList.RemoveElement(objCount);
isInstanceVar.RemoveElement(objCount);
objNames->DeleteElement(objCount);
continue;
}
// get the object's enclosure
JIndex enclIndex;
JString enclName;
JRect localFrame = frame;
if (GetEnclosure(rectList, objCount, &enclIndex))
{
enclName = *(objNames->NthElement(enclIndex));
const JRect enclFrame = rectList.GetElement(enclIndex);
localFrame.Shift(-enclFrame.topLeft());
}
else
{
enclName = topEnclVarName;
}
// get the class name and additional arguments
JString* className = new JString;
assert( className != NULL );
objTypes->Append(className);
JString argList;
if (!GetConstructor(flClass, flType, &label, className, &argList))
{
cerr << "Unsupported class: " << flClass << ", " << flType << endl;
rectList.RemoveElement(objCount);
isInstanceVar.RemoveElement(objCount);
objNames->DeleteElement(objCount);
objTypes->DeleteElement(objCount);
continue;
}
// generate the actual code
const JBoolean needCreate = NeedsCreateFunction(*className);
output << " ";
if (isLocal)
{
className->Print(output);
output << "* ";
}
varName->Print(output);
output << " =" << endl;
output << " ";
if (!needCreate)
{
output << "new ";
}
className->Print(output);
if (needCreate)
{
output << "::Create";
}
output << '(';
if (!argList.IsEmpty())
{
argList.Print(output);
if (argList.GetLastCharacter() != ',')
{
output << ',';
}
output << ' ';
}
if (!cbArg.IsEmpty())
{
cbArg.Print(output);
if (cbArg.GetLastCharacter() != ',')
{
output << ',';
}
output << ' ';
}
if ((*className == "JXStaticText" && cbArg.IsEmpty()) ||
NeedsStringArg(*className))
{
JString id = *varName;
id += "::";
id += formName;
id += "::";
id += tagName; // last since it is almost always the same
output << "JGetString(\"";
id.Print(output);
output << "\"), ";
stringMgr.SetElement(id, label, JPtrArrayT::kDelete);
}
enclName.Print(output);
output << ',' << endl;
output << " JXWidget::";
hSizing.Print(output);
output << ", JXWidget::";
vSizing.Print(output);
output << ", " << localFrame.left << ',' << localFrame.top << ", ";
output << localFrame.width() << ',' << localFrame.height() << ");" << endl;
output << " assert( ";
varName->Print(output);
output << " != NULL );" << endl;
ApplyOptions(output, *className, formName, tagName, *varName, optionValues,
lSize, lStyle, lColor, &stringMgr);
if (*className == "JXStaticText" && cbArg.IsEmpty() &&
!lAlign.Contains("FL_ALIGN_TOP") && localFrame.height() <= 20)
{
output << " ";
varName->Print(output);
output << "->SetToLabel();" << endl;
}
output << endl;
// now we know the object is valid
objCount++;
}
// write string database
JString dbFileName = stringPath + formName;
if (tagName != kDefaultDelimTag)
{
dbFileName += kCustomTagMarker + tagName;
}
dbFileName += "_layout";
if (stringMgr.GetElementCount() > 0)
{
JEditVCS(dbFileName);
ofstream dbOutput(dbFileName);
stringMgr.WriteFile(dbOutput);
}
else
{
JRemoveVCS(dbFileName);
JRemoveFile(dbFileName);
}
// reset enclosure size
if (tagName != kDefaultDelimTag)
{
output << " ";
topEnclVarName.Print(output);
output << "->SetSize(";
topEnclFrameName.Print(output);
output << ".width(), ";
topEnclFrameName.Print(output);
output << ".height());" << endl;
output << endl;
}
// throw away temporary variables
objCount--;
assert( objCount == isInstanceVar.GetElementCount() );
assert( objCount == objTypes->GetElementCount() );
assert( objCount == objNames->GetElementCount() );
for (i=objCount; i>=1; i--)
{
if (!isInstanceVar.GetElement(i))
{
objTypes->DeleteElement(i);
objNames->DeleteElement(i);
}
}
}
