Esempio n. 1
0
// Parse a single particle def
void ParticlesManager::parseParticleDef(parser::DefTokeniser& tok) {

	// Standard DEF, starts with "particle <name> {"
	tok.assertNextToken("particle");
	std::string name = tok.nextToken();
	tok.assertNextToken("{");
	
	ParticleDef pdef(name);

	// Any global keywords will come first, after which we get a series of 
	// brace-delimited stages.
	std::string token = tok.nextToken();
	while (token != "}") {
		if (token == "depthHack") {
			tok.skipTokens(1); // we don't care about depthHack
		}
		else if (token == "{") {
			
			// Parse stage
			ParticleStage stage(parseParticleStage(tok));
			
			// Append to the ParticleDef
			pdef.appendStage(stage);
		}
		
		// Get next token
		token = tok.nextToken();
	}
	
	// Add the ParticleDef to the map
	_particleDefs.insert(ParticleDefMap::value_type(name, pdef));
}
Esempio n. 2
0
// Parse a single particle def
void ParticlesManager::parseParticleDef(parser::DefTokeniser& tok, const std::string& filename)
{
	// Standard DEF, starts with "particle <name> {"
	std::string declName = tok.nextToken();

	// Check for a valid particle declaration, some .prt files contain materials
	if (declName != "particle")
	{
		// No particle, skip name plus whole block
		tok.skipTokens(1);
		tok.assertNextToken("{");

		for (std::size_t level = 1; level > 0;)
		{
			std::string token = tok.nextToken();

			if (token == "}")
			{
				level--;
			}
			else if (token == "{")
			{
				level++;
			}
		}

		return;
	}

	// Valid particle declaration, go ahead parsing the name
	std::string name = tok.nextToken();
	tok.assertNextToken("{");

	ParticleDefPtr pdef = findOrInsertParticleDef(name);

	pdef->setFilename(filename);

	// Let the particle construct itself from the token stream
	pdef->parseFromTokens(tok);
}
Esempio n. 3
0
/*
// Example Primitive
{
patchDef2
{
"textures/darkmod/stone/brick/rough_big_blocks03"
( 5 3 0 0 0 )
(
( ( 64 -88 108 0 0 ) ( 64 -88 184 0 -1.484375 ) ( 64 -88 184 0 -1.484375 ) )
( ( 64 -88 184 1.484375 0 ) ( 64 -88 184 1.484375 -1.484375 ) ( 64 -88 184 1.484375 -1.484375 ) )
( ( 112 -88 184 2.421875 0 ) ( 112 -88 184 2.421875 -1.484375 ) ( 112 -88 184 2.421875 -1.484375 ) )
( ( 160 -88 184 3.359375 0 ) ( 160 -88 184 3.359375 -1.484375 ) ( 160 -88 184 3.359375 -1.484375 ) )
( ( 160 -88 108 4.84375 0 ) ( 160 -88 184 4.84375 -1.484375 ) ( 160 -88 184 4.84375 -1.484375 ) )
)
}
}
*/
scene::INodePtr PatchDef2Parser::parse(parser::DefTokeniser& tok) const
{
	scene::INodePtr node = GlobalPatchCreator(DEF2).createPatch();

	IPatchNodePtr patchNode = boost::dynamic_pointer_cast<IPatchNode>(node);
	assert(patchNode != NULL);

	IPatch& patch = patchNode->getPatch();

	tok.assertNextToken("{");

	// Parse shader
	patch.setShader(tok.nextToken());

	// Parse parameters
	tok.assertNextToken("(");

	// parse matrix dimensions
	std::size_t cols = string::convert<std::size_t>(tok.nextToken());
	std::size_t rows = string::convert<std::size_t>(tok.nextToken());

	patch.setDims(cols, rows);

	// ignore contents/flags values
	tok.skipTokens(3);

	tok.assertNextToken(")");

	// Parse Patch Matrix
	parseMatrix(tok, patch);

	// Parse Footer
	tok.assertNextToken("}");
	tok.assertNextToken("}");

	patch.controlPointsChanged();

	return node;
}
void ParticleParameter::parseFromTokens(parser::DefTokeniser& tok)
{
	std::string val = tok.nextToken();

	try
	{
		setFrom(boost::lexical_cast<float>(val));
	}
	catch (boost::bad_lexical_cast&)
	{
		rError() << "[particles] Bad lower value, token is '" <<
			val << "'" << std::endl;
	}

	if (tok.peek() == "to")
	{
		// Upper value is there, parse it
		tok.skipTokens(1); // skip the "to"

		val = tok.nextToken();

		try
		{
			// cut off the quotes before converting to double
			setTo(boost::lexical_cast<float>(val));
		}
		catch (boost::bad_lexical_cast&)
		{
			rError() << "[particles] Bad upper value, token is '" <<
				val << "'" << std::endl;
		}
	}
	else
	{
		setTo(getFrom());
	}
}
Esempio n. 5
0
scene::INodePtr BrushDef3Parser::parse(parser::DefTokeniser& tok) const
{
	// Create a new brush
	scene::INodePtr node = GlobalBrushCreator().createBrush();

	// Cast the node, this must succeed
	IBrushNodePtr brushNode = boost::dynamic_pointer_cast<IBrushNode>(node);
	assert(brushNode != NULL);

	IBrush& brush = brushNode->getIBrush();

	tok.assertNextToken("{");

	// Parse face tokens until a closing brace is encountered
	while (1)
	{
		std::string token = tok.nextToken();

		// Token should be either a "(" (start of face) or "}" (end of brush)
		if (token == "}")
		{
			break; // end of brush
		}
		else if (token == "(") // FACE
		{
			// Construct a plane and parse its values
			Plane3 plane;

			plane.normal().x() = string::to_float(tok.nextToken());
			plane.normal().y() = string::to_float(tok.nextToken());
			plane.normal().z() = string::to_float(tok.nextToken());
			plane.dist() = -string::to_float(tok.nextToken()); // negate d

			tok.assertNextToken(")");

			// Parse TexDef
			Matrix4 texdef;
			tok.assertNextToken("(");

			tok.assertNextToken("(");
			texdef.xx() = string::to_float(tok.nextToken());
			texdef.yx() = string::to_float(tok.nextToken());
			texdef.tx() = string::to_float(tok.nextToken());
			tok.assertNextToken(")");

			tok.assertNextToken("(");
			texdef.xy() = string::to_float(tok.nextToken());
			texdef.yy() = string::to_float(tok.nextToken());
			texdef.ty() = string::to_float(tok.nextToken());
			tok.assertNextToken(")");

			tok.assertNextToken(")");

			// Parse Shader
			std::string shader = tok.nextToken();

			// Parse Flags (usually each brush has all faces detail or all faces structural)
			IBrush::DetailFlag flag = static_cast<IBrush::DetailFlag>(
				string::convert<std::size_t>(tok.nextToken(), IBrush::Structural));
			brush.setDetailFlag(flag);

			// Ignore the other two flags
			tok.skipTokens(2);

			// Finally, add the new face to the brush
			/*IFace& face = */brush.addFace(plane, texdef, shader);
		}
		else {
			std::string text = (boost::format(_("BrushDef3Parser: invalid token '%s'")) % token).str();
			throw parser::ParseException(text);
		}
	}

	// Final outer "}"
	tok.assertNextToken("}");

	return node;
}
Esempio n. 6
0
/*
// Example Primitive
{
brushDef
{
( -1216 -464 232 ) ( -1088 -464 232 ) ( -1088 -80 120 ) ( ( 0.031250 0 14 ) ( -0.000009 0.031250 4.471550 ) ) common/caulk 134217728 4 0
( -1088 -464 248 ) ( -1216 -464 248 ) ( -1216 -80 136 ) ( ( 0 -0.031373 -0.147059 ) ( 0.007812 0 0.049020 ) ) common/caulk 134217728 0 0
( -1088 -560 120 ) ( -1088 -560 136 ) ( -1088 -80 136 ) ( ( 0.031250 0 16.500000 ) ( 0 0.031250 0.250000 ) ) common/caulk 134217728 4 0
( -1088 -80 136 ) ( -1216 -80 136 ) ( -1216 -80 8 ) ( ( 0.031250 0 2 ) ( 0 0.031250 0.250000 ) ) common/caulk 134217728 4 0
( -1216 -400 136 ) ( -1216 -400 120 ) ( -1216 -80 120 ) ( ( 0.031250 0 -16.500000 ) ( 0 0.031250 0.250000 ) ) common/caulk 134217728 4 0
( -1088 -464 232 ) ( -1216 -464 232 ) ( -1216 -464 248 ) ( ( 0.031250 0 -2 ) ( 0 0.031250 0.250000 ) ) common/caulk 134217728 4 0
}
}
*/
scene::INodePtr BrushDefParser::parse(parser::DefTokeniser& tok) const
{
	// Create a new brush
	scene::INodePtr node = GlobalBrushCreator().createBrush();

	// Cast the node, this must succeed
	IBrushNodePtr brushNode = boost::dynamic_pointer_cast<IBrushNode>(node);
	assert(brushNode != NULL);

	IBrush& brush = brushNode->getIBrush();

	tok.assertNextToken("{");

	// Parse face tokens until a closing brace is encountered
	while (1)
	{
		std::string token = tok.nextToken();

		// Token should be either a "(" (start of face) or "}" (end of brush)
		if (token == "}")
		{
			break; // end of brush
		}
		else if (token == "(") // FACE
		{
			// Parse three 3D points to construct a plane
			Vector3 p1(string::to_float(tok.nextToken()), string::to_float(tok.nextToken()), string::to_float(tok.nextToken()));
			tok.assertNextToken(")");
			tok.assertNextToken("(");

			Vector3 p2(string::to_float(tok.nextToken()), string::to_float(tok.nextToken()), string::to_float(tok.nextToken()));
			tok.assertNextToken(")");
			tok.assertNextToken("(");

			Vector3 p3(string::to_float(tok.nextToken()), string::to_float(tok.nextToken()), string::to_float(tok.nextToken()));
			tok.assertNextToken(")");

			// Construct the plane from the three points
			Plane3 plane(p1, p2, p3);

			// Parse TexDef
			Matrix4 texdef;
			tok.assertNextToken("(");

			tok.assertNextToken("(");
			texdef.xx() = string::to_float(tok.nextToken());
			texdef.yx() = string::to_float(tok.nextToken());
			texdef.tx() = string::to_float(tok.nextToken());
			tok.assertNextToken(")");

			tok.assertNextToken("(");
			texdef.xy() = string::to_float(tok.nextToken());
			texdef.yy() = string::to_float(tok.nextToken());
			texdef.ty() = string::to_float(tok.nextToken());
			tok.assertNextToken(")");

			tok.assertNextToken(")");

			// Parse Shader, brushDef has an implicit "textures/" not written to the map
			std::string shader = "textures/" + tok.nextToken();

			// Parse Contents Flags (and ignore them)
			tok.skipTokens(3);

			// Finally, add the new face to the brush
			/*IFace& face = */brush.addFace(plane, texdef, shader);
		}
		else
		{
			std::string text = (boost::format(_("BrushDefParser: invalid token '%s'")) % token).str();
			throw parser::ParseException(text);
		}
	}

	// Final outer "}"
	tok.assertNextToken("}");

	return node;
}