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/// \file AMFImporter_Material.cpp
/// \brief Parsing data from material nodes.
/// \date 2016
/// \author smal.root@gmail.com
#ifndef ASSIMP_BUILD_NO_AMF_IMPORTER
#include "AMFImporter.hpp"
namespace Assimp {
// , and .
// >
//
// A color definition.
// Multi elements - No.
// Parent element - , , , , .
//
// "profile" can be one of "sRGB", "AdobeRGB", "Wide-Gamut-RGB", "CIERGB", "CIELAB", or "CIEXYZ".
// Children elements:
// , , ,
// Multi elements - No.
// Red, Greed, Blue and Alpha (transparency) component of a color in sRGB space, values ranging from 0 to 1. The
// values can be specified as constants, or as a formula depending on the coordinates.
void AMFImporter::ParseNode_Color(XmlNode &node) {
std::string profile = node.attribute("profile").as_string();
// create new color object.
AMFNodeElementBase *ne = new AMFColor(mNodeElement_Cur);
AMFColor& als = *((AMFColor*)ne);// alias for convenience
als.Profile = profile;
if (!node.empty()) {
ParseHelper_Node_Enter(ne);
bool read_flag[4] = { false, false, false, false };
for (pugi::xml_node &child : node.children()) {
std::string name = child.name();
if ( name == "r") {
read_flag[0] = true;
XmlParser::getValueAsFloat(child, als.Color.r);
} else if (name == "g") {
read_flag[1] = true;
XmlParser::getValueAsFloat(child, als.Color.g);
} else if (name == "b") {
read_flag[2] = true;
XmlParser::getValueAsFloat(child, als.Color.b);
} else if (name == "a") {
read_flag[3] = true;
XmlParser::getValueAsFloat(child, als.Color.a);
}
ParseHelper_Node_Exit();
}
// check that all components was defined
if (!(read_flag[0] && read_flag[1] && read_flag[2])) {
throw DeadlyImportError("Not all color components are defined.");
}
// check if is absent. Then manually add "a == 1".
if (!read_flag[3]) {
als.Color.a = 1;
}
} else {
mNodeElement_Cur->Child.push_back(ne);// Add element to child list of current element
}
als.Composed = false;
mNodeElement_List.push_back(ne);// and to node element list because its a new object in graph.
}
//
//
// An available material.
// Multi elements - Yes.
// Parent element - .
void AMFImporter::ParseNode_Material(XmlNode &node) {
// create new object and assign read data
std::string id = node.attribute("id").as_string();
AMFNodeElementBase *ne = new AMFMaterial(mNodeElement_Cur);
((AMFMaterial*)ne)->ID = id;
// Check for child nodes
if (!node.empty()) {
ParseHelper_Node_Enter(ne);
for (pugi::xml_node &child : node.children()) {
const std::string name = child.name();
if (name == "color") {
ParseNode_Color(child);
} else if (name == "metadata") {
ParseNode_Metadata(child);
}
}
ParseHelper_Node_Exit();
} else {
mNodeElement_Cur->Child.push_back(ne);// Add element to child list of current element
}
mNodeElement_List.push_back(ne);// and to node element list because its a new object in graph.
}
//
//
// Specifies an texture data to be used as a map. Lists a sequence of Base64 values specifying values for pixels from left to right then top to bottom,
// then layer by layer.
// Multi elements - Yes.
// Parent element - .
void AMFImporter::ParseNode_Texture(XmlNode &node) {
std::string id = node.attribute("id").as_string();
uint32_t width = node.attribute("width").as_uint();
uint32_t height = node.attribute("height").as_uint();
uint32_t depth = node.attribute("depth").as_uint();
std::string type = node.attribute("type").as_string();
bool tiled = node.attribute("tiled").as_bool();
if (node.empty()) {
return;
}
// create new texture object.
AMFNodeElementBase *ne = new AMFTexture(mNodeElement_Cur);
AMFTexture& als = *((AMFTexture*)ne);// alias for convenience
std::string enc64_data = node.value();
// Check for child nodes
// check that all components was defined
if (id.empty()) {
throw DeadlyImportError("ID for texture must be defined.");
}
if (width < 1) {
throw DeadlyImportError("INvalid width for texture.");
}
if (height < 1) {
throw DeadlyImportError("Invalid height for texture.");
}
if (depth < 1) {
throw DeadlyImportError("Invalid depth for texture.");
}
if (type != "grayscale") {
throw DeadlyImportError("Invalid type for texture.");
}
if (enc64_data.empty()) {
throw DeadlyImportError("Texture data not defined.");
}
// copy data
als.ID = id;
als.Width = width;
als.Height = height;
als.Depth = depth;
als.Tiled = tiled;
ParseHelper_Decode_Base64(enc64_data, als.Data);
// check data size
if ((width * height * depth) != als.Data.size()) {
throw DeadlyImportError("Texture has incorrect data size.");
}
mNodeElement_Cur->Child.push_back(ne);// Add element to child list of current element
mNodeElement_List.push_back(ne);// and to node element list because its a new object in graph.
}
//
// , old name:
// Specifies texture coordinates for triangle.
// Multi elements - No.
// Parent element - .
// Children elements:
// , , , , , . Old name: , , , , , .
// Multi elements - No.
// Texture coordinates for every vertex of triangle.
void AMFImporter::ParseNode_TexMap(XmlNode &node, const bool pUseOldName) {
// Read attributes for node .
AMFNodeElementBase *ne = new AMFTexMap(mNodeElement_Cur);
AMFTexMap &als = *((AMFTexMap *)ne); //
std::string rtexid, gtexid, btexid, atexid;
if (!node.empty()) {
ParseHelper_Node_Enter(ne);
for (XmlNode ¤tNode : node.children()) {
const std::string ¤tName = currentNode.name();
if (currentName == "rtexid") {
XmlParser::getValueAsString(node, rtexid);
} else if (currentName == "gtexid") {
XmlParser::getValueAsString(node, gtexid);
} else if (currentName == "btexid") {
XmlParser::getValueAsString(node, btexid);
} else if (currentName == "atexid") {
XmlParser::getValueAsString(node, atexid);
}
}
ParseHelper_Node_Exit();
}
// create new texture coordinates object, alias for convenience
// check data
if (rtexid.empty() && gtexid.empty() && btexid.empty()) {
throw DeadlyImportError("ParseNode_TexMap. At least one texture ID must be defined.");
}
// Check for children nodes
//XML_CheckNode_MustHaveChildren();
if (node.children().begin() == node.children().end()) {
throw DeadlyImportError("Invalid children definition.");
}
// read children nodes
bool read_flag[6] = { false, false, false, false, false, false };
if (!pUseOldName) {
for (pugi::xml_attribute &attr : node.attributes()) {
const std::string name = attr.name();
if (name == "utex1") {
read_flag[0] = true;
als.TextureCoordinate[0].x = attr.as_float();
} else if (name == "utex2") {
read_flag[1] = true;
als.TextureCoordinate[1].x = attr.as_float();
} else if (name == "utex3") {
read_flag[2] = true;
als.TextureCoordinate[2].x = attr.as_float();
} else if (name == "vtex1") {
read_flag[3] = true;
als.TextureCoordinate[0].y = attr.as_float();
} else if (name == "vtex2") {
read_flag[4] = true;
als.TextureCoordinate[1].y = attr.as_float();
} else if (name == "vtex3") {
read_flag[5] = true;
als.TextureCoordinate[0].y = attr.as_float();
}
}
} else {
for (pugi::xml_attribute &attr : node.attributes()) {
const std::string name = attr.name();
if (name == "u") {
read_flag[0] = true;
als.TextureCoordinate[0].x = attr.as_float();
} else if (name == "u2") {
read_flag[1] = true;
als.TextureCoordinate[1].x = attr.as_float();
} else if (name == "u3") {
read_flag[2] = true;
als.TextureCoordinate[2].x = attr.as_float();
} else if (name == "v1") {
read_flag[3] = true;
als.TextureCoordinate[0].y = attr.as_float();
} else if (name == "v2") {
read_flag[4] = true;
als.TextureCoordinate[1].y = attr.as_float();
} else if (name == "v3") {
read_flag[5] = true;
als.TextureCoordinate[0].y = attr.as_float();
}
}
}
// check that all components was defined
if (!(read_flag[0] && read_flag[1] && read_flag[2] && read_flag[3] && read_flag[4] && read_flag[5])) {
throw DeadlyImportError("Not all texture coordinates are defined.");
}
// copy attributes data
als.TextureID_R = rtexid;
als.TextureID_G = gtexid;
als.TextureID_B = btexid;
als.TextureID_A = atexid;
mNodeElement_List.push_back(ne);
}
}// namespace Assimp
#endif // !ASSIMP_BUILD_NO_AMF_IMPORTER