public void clearVertexAttribs() {
for (int i = 0; i < 16; i++) {
VertexBuffer vb = context.boundAttribs[i];
if (vb != null) {
int arrayType = convertArrayType(vb.getBufferType());
glDisableClientState(arrayType);
context.boundAttribs[vb.getBufferType().ordinal()] = null;
}
}
}
public static void printMesh(Mesh mesh) {
for (int bufType = 0; bufType < Type.values().length; bufType++) {
VertexBuffer outBuf = mesh.getBuffer(Type.values()[bufType]);
if (outBuf == null) {
continue;
}
System.out.println(outBuf.getBufferType() + ": ");
for (int vert = 0; vert < outBuf.getNumElements(); vert++) {
String str = "[";
for (int comp = 0; comp < outBuf.getNumComponents(); comp++) {
Object val = outBuf.getElementComponent(vert, comp);
outBuf.setElementComponent(vert, comp, val);
val = outBuf.getElementComponent(vert, comp);
str += val;
if (comp != outBuf.getNumComponents() - 1) {
str += ", ";
}
}
str += "]";
System.out.println(str);
}
System.out.println("------");
}
}
public static VertexBuffer convertToUByte(VertexBuffer vb) {
FloatBuffer fb = (FloatBuffer) vb.getData();
ByteBuffer bb = BufferUtils.createByteBuffer(fb.capacity());
convertToUByte(fb, bb);
VertexBuffer newVb = new VertexBuffer(vb.getBufferType());
newVb.setupData(vb.getUsage(), vb.getNumComponents(), Format.UnsignedByte, bb);
newVb.setNormalized(true);
return newVb;
}
public static VertexBuffer convertToFloat(VertexBuffer vb) {
if (vb.getFormat() == Format.Float) return vb;
IntBuffer ib = (IntBuffer) vb.getData();
FloatBuffer fb = BufferUtils.createFloatBuffer(ib.capacity());
convertToFloat(ib, fb);
VertexBuffer newVb = new VertexBuffer(vb.getBufferType());
newVb.setupData(vb.getUsage(), vb.getNumComponents(), Format.Float, fb);
return newVb;
}
private void renderMeshDefault(Mesh mesh, int lod, int count) {
VertexBuffer indices;
VertexBuffer interleavedData = mesh.getBuffer(Type.InterleavedData);
if (interleavedData != null && interleavedData.isUpdateNeeded()) {
updateBufferData(interleavedData);
}
if (mesh.getNumLodLevels() > 0) {
indices = mesh.getLodLevel(lod);
} else {
indices = mesh.getBuffer(Type.Index);
}
for (VertexBuffer vb : mesh.getBufferList().getArray()) {
if (vb.getBufferType() == Type.InterleavedData
|| vb.getUsage() == Usage.CpuOnly // ignore cpu-only buffers
|| vb.getBufferType() == Type.Index) {
continue;
}
if (vb.getStride() == 0) {
// not interleaved
setVertexAttrib(vb);
} else {
// interleaved
setVertexAttrib(vb, interleavedData);
}
}
if (indices != null) {
drawTriangleList(indices, mesh, count);
} else {
GL gl = GLContext.getCurrentGL();
gl.glDrawArrays(convertElementMode(mesh.getMode()), 0, mesh.getVertexCount());
}
// TODO: Fix these to use IDList??
clearVertexAttribs();
clearTextureUnits();
resetFixedFuncBindings();
}
public void setVertexAttrib(VertexBuffer vb, VertexBuffer idb) {
if (vb.getBufferType() == VertexBuffer.Type.Color && !context.useVertexColor) {
// Ignore vertex color buffer if vertex color is disabled.
return;
}
int arrayType = convertArrayType(vb.getBufferType());
if (arrayType == -1) {
return; // unsupported
}
glEnableClientState(arrayType);
context.boundAttribs[vb.getBufferType().ordinal()] = vb;
if (vb.getBufferType() == Type.Normal) {
// normalize if requested
if (vb.isNormalized() && !context.normalizeEnabled) {
glEnable(GL_NORMALIZE);
context.normalizeEnabled = true;
} else if (!vb.isNormalized() && context.normalizeEnabled) {
glDisable(GL_NORMALIZE);
context.normalizeEnabled = false;
}
}
// NOTE: Use data from interleaved buffer if specified
Buffer data = idb != null ? idb.getData() : vb.getData();
int comps = vb.getNumComponents();
int type = convertVertexFormat(vb.getFormat());
data.rewind();
switch (vb.getBufferType()) {
case Position:
if (!(data instanceof FloatBuffer)) {
throw new UnsupportedOperationException();
}
glVertexPointer(comps, vb.getStride(), (FloatBuffer) data);
break;
case Normal:
if (!(data instanceof FloatBuffer)) {
throw new UnsupportedOperationException();
}
glNormalPointer(vb.getStride(), (FloatBuffer) data);
break;
case Color:
if (data instanceof FloatBuffer) {
glColorPointer(comps, vb.getStride(), (FloatBuffer) data);
} else if (data instanceof ByteBuffer) {
glColorPointer(comps, true, vb.getStride(), (ByteBuffer) data);
} else {
throw new UnsupportedOperationException();
}
break;
case TexCoord:
if (!(data instanceof FloatBuffer)) {
throw new UnsupportedOperationException();
}
glTexCoordPointer(comps, vb.getStride(), (FloatBuffer) data);
break;
default:
// Ignore, this is an unsupported attribute for OpenGL1.
break;
}
}
/**
* Merges all geometries in the collection into the output mesh. Creates a new material using the
* TextureAtlas.
*
* @param geometries
* @param outMesh
*/
public static void mergeGeometries(Collection<Geometry> geometries, Mesh outMesh) {
int[] compsForBuf = new int[VertexBuffer.Type.values().length];
Format[] formatForBuf = new Format[compsForBuf.length];
int totalVerts = 0;
int totalTris = 0;
int totalLodLevels = 0;
int maxWeights = -1;
Mode mode = null;
for (Geometry geom : geometries) {
totalVerts += geom.getVertexCount();
totalTris += geom.getTriangleCount();
totalLodLevels = Math.min(totalLodLevels, geom.getMesh().getNumLodLevels());
Mode listMode;
int components;
switch (geom.getMesh().getMode()) {
case Points:
listMode = Mode.Points;
components = 1;
break;
case LineLoop:
case LineStrip:
case Lines:
listMode = Mode.Lines;
components = 2;
break;
case TriangleFan:
case TriangleStrip:
case Triangles:
listMode = Mode.Triangles;
components = 3;
break;
default:
throw new UnsupportedOperationException();
}
for (VertexBuffer vb : geom.getMesh().getBufferList().getArray()) {
int currentCompsForBuf = compsForBuf[vb.getBufferType().ordinal()];
if (vb.getBufferType() != Type.Index
&& currentCompsForBuf != 0
&& currentCompsForBuf != vb.getNumComponents()) {
throw new UnsupportedOperationException(
"The geometry "
+ geom
+ " buffer "
+ vb.getBufferType()
+ " has different number of components than the rest of the meshes "
+ "(this: "
+ vb.getNumComponents()
+ ", expected: "
+ currentCompsForBuf
+ ")");
}
compsForBuf[vb.getBufferType().ordinal()] = vb.getNumComponents();
formatForBuf[vb.getBufferType().ordinal()] = vb.getFormat();
}
maxWeights = Math.max(maxWeights, geom.getMesh().getMaxNumWeights());
if (mode != null && mode != listMode) {
throw new UnsupportedOperationException(
"Cannot combine different" + " primitive types: " + mode + " != " + listMode);
}
mode = listMode;
compsForBuf[Type.Index.ordinal()] = components;
}
outMesh.setMaxNumWeights(maxWeights);
outMesh.setMode(mode);
if (totalVerts >= 65536) {
// make sure we create an UnsignedInt buffer so
// we can fit all of the meshes
formatForBuf[Type.Index.ordinal()] = Format.UnsignedInt;
} else {
formatForBuf[Type.Index.ordinal()] = Format.UnsignedShort;
}
// generate output buffers based on retrieved info
for (int i = 0; i < compsForBuf.length; i++) {
if (compsForBuf[i] == 0) {
continue;
}
Buffer data;
if (i == Type.Index.ordinal()) {
data = VertexBuffer.createBuffer(formatForBuf[i], compsForBuf[i], totalTris);
} else {
data = VertexBuffer.createBuffer(formatForBuf[i], compsForBuf[i], totalVerts);
}
VertexBuffer vb = new VertexBuffer(Type.values()[i]);
vb.setupData(Usage.Static, compsForBuf[i], formatForBuf[i], data);
outMesh.setBuffer(vb);
}
int globalVertIndex = 0;
int globalTriIndex = 0;
for (Geometry geom : geometries) {
Mesh inMesh = geom.getMesh();
geom.computeWorldMatrix();
Matrix4f worldMatrix = geom.getWorldMatrix();
int geomVertCount = inMesh.getVertexCount();
int geomTriCount = inMesh.getTriangleCount();
for (int bufType = 0; bufType < compsForBuf.length; bufType++) {
VertexBuffer inBuf = inMesh.getBuffer(Type.values()[bufType]);
VertexBuffer outBuf = outMesh.getBuffer(Type.values()[bufType]);
if (inBuf == null || outBuf == null) {
continue;
}
if (Type.Index.ordinal() == bufType) {
int components = compsForBuf[bufType];
IndexBuffer inIdx = inMesh.getIndicesAsList();
IndexBuffer outIdx = outMesh.getIndexBuffer();
for (int tri = 0; tri < geomTriCount; tri++) {
for (int comp = 0; comp < components; comp++) {
int idx = inIdx.get(tri * components + comp) + globalVertIndex;
outIdx.put((globalTriIndex + tri) * components + comp, idx);
}
}
} else if (Type.Position.ordinal() == bufType) {
FloatBuffer inPos = (FloatBuffer) inBuf.getDataReadOnly();
FloatBuffer outPos = (FloatBuffer) outBuf.getData();
doTransformVerts(inPos, globalVertIndex, outPos, worldMatrix);
} else if (Type.Normal.ordinal() == bufType) {
FloatBuffer inPos = (FloatBuffer) inBuf.getDataReadOnly();
FloatBuffer outPos = (FloatBuffer) outBuf.getData();
doTransformNorms(inPos, globalVertIndex, outPos, worldMatrix);
} else if (Type.Tangent.ordinal() == bufType) {
FloatBuffer inPos = (FloatBuffer) inBuf.getDataReadOnly();
FloatBuffer outPos = (FloatBuffer) outBuf.getData();
int components = inBuf.getNumComponents();
doTransformTangents(inPos, globalVertIndex, components, outPos, worldMatrix);
} else {
inBuf.copyElements(0, outBuf, globalVertIndex, geomVertCount);
}
}
globalVertIndex += geomVertCount;
globalTriIndex += geomTriCount;
}
}