예제 #1
0
	xmlNode* AddArray(xmlNode* parent, const char* id, const StringList& values, const char* arrayType)
	{
		size_t valueCount = values.size();
		FUSStringBuilder builder;
		builder.reserve(valueCount * 18); // Pulled out of a hat
		if (valueCount > 0)
		{
			StringList::const_iterator itV = values.begin();
			builder.set(*itV);
			for (++itV; itV != values.end(); ++itV) { builder.append(' '); builder.append(*itV); }
		}
		return AddArray(parent, id, arrayType, builder.ToCharPtr(), valueCount);
	}
예제 #2
0
	// Calculate the target pointer for a targetable node
	void CalculateNodeTargetPointer(xmlNode* target, fm::string& pointer)
	{
		if (target != NULL)
		{
			// The target node should have either a subid or an id
			if (HasNodeProperty(target, DAE_ID_ATTRIBUTE))
			{
				pointer = ReadNodeId(target);
				return;
			}
			else if (!HasNodeProperty(target, DAE_SID_ATTRIBUTE))
			{
				pointer.clear();
				return;
			}
	
			// Generate a list of parent nodes up to the first properly identified parent
			xmlNodeList traversal;
			traversal.reserve(16);
			traversal.push_back(target);
			xmlNode* current = target->parent;
			while (current != NULL)
			{
				traversal.push_back(current);
				if (HasNodeProperty(current, DAE_ID_ATTRIBUTE)) break;
				current = current->parent;
			}
	
			// The top parent should have the ID property
			FUSStringBuilder builder;
			intptr_t nodeCount = (intptr_t) traversal.size();
			builder.append(ReadNodeId(traversal[nodeCount - 1]));
			if (builder.empty()) { pointer.clear(); return; }
	
			// Build up the target string
			for (intptr_t i = nodeCount - 2; i >= 0; --i)
			{
				xmlNode* node = traversal[i];
				fm::string subId = ReadNodeProperty(node, DAE_SID_ATTRIBUTE);
				if (!subId.empty())
				{
					builder.append('/');
					builder.append(subId);
				}
			}
	
			pointer = builder.ToString();
		}
		else pointer.clear();
	}
예제 #3
0
	fm::string FUStringConversion::ToString(const fchar* value)
	{
		FUSStringBuilder builder;
		if (value != NULL)
		{
			uint32 length = (uint32) fstrlen(value);
			builder.reserve(length + 1);
			for (uint32 i = 0; i < length; ++i)
			{
				if (value[i] < 0xFF || (value[i] & (~0xFF)) >= 32) builder.append((char)value[i]);
				else builder.append('_'); // some generic enough character
			}
		}
		return builder.ToString();
	}
예제 #4
0
	// Convert a XML string to a text string: handles the '%' character
	fm::string XmlToString(const char* s)
	{
		// Replace any '%' character string into the wanted characters: %20 is common.
		FUSStringBuilder xmlSBuilder;
		char c;
		while ((c = *s) != 0)
		{
			if (c != '%')
			{
				xmlSBuilder.append(c);
				++s;
			}
			else
			{
				++s; // skip the '%' character
				uint32 value = FUStringConversion::HexToUInt32(&s, 2);
				xmlSBuilder.append((char) value);
			}
		}
		return xmlSBuilder.ToString();
	}
예제 #5
0
	xmlNode* AddArray(xmlNode* parent, const char* id, const FMMatrix44List& values)
	{
		FUSStringBuilder builder;
		size_t valueCount = values.size();
		builder.reserve(valueCount * 16 * FLOAT_STR_ESTIMATE);
		if (valueCount > 0)
		{
			FMMatrix44List::const_iterator itM = values.begin();
			FUStringConversion::ToString(builder, *itM);
			for (++itM; itM != values.end(); ++itM) { builder.append(' '); FUStringConversion::ToString(builder, *itM); }
		}
		return AddArray(parent, id, DAE_FLOAT_ARRAY_ELEMENT, builder.ToCharPtr(), valueCount * 16);
	}
예제 #6
0
	xmlNode* AddSourceInterpolation(xmlNode* parent, const char* id, const FUDaeInterpolationList& interpolations)
	{
		xmlNode* sourceNode = AddChild(parent, DAE_SOURCE_ELEMENT);
		AddAttribute(sourceNode, DAE_ID_ATTRIBUTE, id);
		FUSStringBuilder arrayId(id); arrayId.append("-array");

		FUSStringBuilder builder;
		size_t valueCount = interpolations.size();
		if (valueCount > 0)
		{
			FUDaeInterpolationList::const_iterator itI = interpolations.begin();
			builder.append(FUDaeInterpolation::ToString(*itI));
			for (++itI; itI != interpolations.end(); ++itI)
			{
				builder.append(' '); builder.append(FUDaeInterpolation::ToString(*itI));
			}
		}
		AddArray(sourceNode, arrayId.ToCharPtr(), DAE_NAME_ARRAY_ELEMENT, builder.ToCharPtr(), valueCount);
		xmlNode* techniqueCommonNode = AddChild(sourceNode, DAE_TECHNIQUE_COMMON_ELEMENT);
		const char* parameter = "INTERPOLATION";
		AddAccessor(techniqueCommonNode, arrayId.ToCharPtr(), valueCount, 1, &parameter, DAE_NAME_TYPE);
		return sourceNode;
	}
예제 #7
0
	xmlNode* AddArray(xmlNode* parent, const char* id, const FMVector3List& values)
	{
		// Reserve the necessary space within the string builder
		FUSStringBuilder builder;
		size_t valueCount = values.size();
		builder.reserve(valueCount * 3 * FLOAT_STR_ESTIMATE);
		if (valueCount > 0)
		{
			// Write out the values
			FMVector3List::const_iterator itP = values.begin();
			FUStringConversion::ToString(builder, *itP);
			for (++itP; itP != values.end(); ++itP) { builder.append(' '); FUStringConversion::ToString(builder, *itP); }
		}

		// Create the typed array node.
		return AddArray(parent, id, DAE_FLOAT_ARRAY_ELEMENT, builder.ToCharPtr(), valueCount * 3);
	}