/*
* Copyright (c) 2009 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of "Eclipse Public License v1.0"
* which accompanies this distribution, and is available
* at the URL "http://www.eclipse.org/legal/epl-v10.html".
*
* Initial Contributors:
* Nokia Corporation - initial contribution.
*
* Contributors:
*
* Description:
*
*/
#include "javax_microedition_m3g_Graphics3D.h"
/*
* Must be executed in UI thread
*/
JNIEXPORT jboolean JNICALL Java_javax_microedition_m3g_Graphics3D__1isProperRenderer
(JNIEnv* /*aEnv*/, jclass)
{
/* EGLContext ctx;
EGLConfig config;
EGLSurface surf;
EGLint attrib[5];
EGLint numConfigs;
bool isProperRenderer;
// initialize EGL and create a temporary surface & context for reading
// the renderer string
eglInitialize(eglGetDisplay(EGL_DEFAULT_DISPLAY), NULL, NULL);
attrib[0] = EGL_SURFACE_TYPE;
attrib[1] = EGL_PBUFFER_BIT;
attrib[2] = EGL_NONE;
eglChooseConfig(eglGetDisplay(0), attrib, &config, 1, &numConfigs);
ctx = eglCreateContext(eglGetDisplay(0), config, NULL, NULL);
attrib[0] = EGL_WIDTH;
attrib[1] = 2;
attrib[2] = EGL_HEIGHT;
attrib[3] = 2;
attrib[4] = EGL_NONE;
surf = eglCreatePbufferSurface(eglGetDisplay(0), config, attrib);
eglMakeCurrent(eglGetDisplay(0), surf, surf, ctx);
// We check if proper renderer is used and return value which is stored
// on java side and passed to fuctions where is decided if m3g renders
// into mutable off-screen image or into framebuffer (see
// Java_javax_microedition_m3g_Graphics3D__1bindGraphics and
// releaseGraphicsTarget).
const GLubyte *info;
info = glGetString(GL_RENDERER); // get the renderer string
// check if "MBX" substring is found
if ( !info || strstr((const char *)info, "MBX"))
{
// HW renderer detected.
// If "MBX" HW is detected we must reset alpha for mutable off-screen
// images by hand (see releaseGraphicsTarget).
isProperRenderer = false;
}
else
{
// Other renderers can use m3g core API m3gSetAlphaWrite without
// performance drop.
isProperRenderer = true;
}
// destroy the temporary surface & context
eglMakeCurrent(eglGetDisplay(0), NULL, NULL, NULL);
eglDestroySurface(eglGetDisplay(0), surf);
eglDestroyContext(eglGetDisplay(0), ctx);
return isProperRenderer;*/
return false;
}
/*
* Must be executed in UI thread
*/
JNIEXPORT jboolean JNICALL Java_javax_microedition_m3g_Graphics3D__1bindGraphics
(JNIEnv* aEnv, jclass, jint aCtx,
jint aSurfaceHandle, jint aClipX, jint aClipY, jint aClipW, jint aClipH,
jboolean aDepth, jint aHintBits, jboolean aIsProperRenderer)
{
M3GRenderContext ctx = (M3GRenderContext)aCtx;
// Fetch the native peer of our target object
Java::GFX::WindowSurface* wsurf = reinterpret_cast<Java::GFX::WindowSurface*>(aSurfaceHandle);
wsurf->bind(Java::GFX::WsTypeQtImage | Java::GFX::WsTypeEglSurface);
jboolean isImageTarget = false; /*cmidGraphics->IsImageTarget();*/
M3G_DO_LOCK
/*
* Get the physical screen size and pass it to m3gcore. This affects (improves) the performance
* as the canvas frambuffer (rendering target) is larger than the physical screen size in
* devices that have more than one screen orientation, causing extra copying operations.
*
* This will improve m3g performance and suppresses extra bitmap copying.
*/
//TRect screenRect = CCoeEnv::Static()->ScreenDevice()->SizeInPixels();
eglWaitNative(EGL_CORE_NATIVE_ENGINE);
if (m3gSetRenderBuffers((M3GRenderContext)aCtx, aDepth ?
M3G_COLOR_BUFFER_BIT|M3G_DEPTH_BUFFER_BIT :
M3G_COLOR_BUFFER_BIT) && m3gSetRenderHints((M3GRenderContext)aCtx, aHintBits))
{
switch (wsurf->getType())
{
case Java::GFX::WsTypeQtImage:
{
QImage* bitmap = wsurf->getQtImage();
M3GPixelFormat format = mapQtPixelformat(bitmap->format());
m3gBindMemoryTarget((M3GRenderContext)aCtx, bitmap->bits(), (M3Guint)bitmap->width(), (M3Guint)bitmap->height(), format, (M3Guint)(bitmap->width() * 4), NULL);
break;
}
case Java::GFX::WsTypeEglSurface:
{
if( eglQueryAPI() != EGL_OPENGL_ES_API )
{
eglMakeCurrent( EGL_DEFAULT_DISPLAY, EGL_NO_SURFACE, EGL_NO_SURFACE, EGL_NO_CONTEXT );
eglBindAPI( EGL_OPENGL_ES_API );
}
m3gBindEGLSurfaceTarget((M3GRenderContext)aCtx, wsurf->getEglSurface() );
break;
}
default:
M3G_RAISE_EXCEPTION(aEnv, "java/lang/IllegalArgumentException");
break;
}
// Pass the physical screen size to m3gcore
//m3gSetDisplayArea(aCtx, screenRect.Width(), screenRect.Height());
m3gSetClipRect((M3GRenderContext)aCtx, aClipX, aClipY, aClipW, aClipH);
m3gSetViewport((M3GRenderContext)aCtx, aClipX, aClipY, aClipW, aClipH);
}
M3G_DO_UNLOCK(aEnv)
if (isImageTarget && aIsProperRenderer)
{
m3gSetAlphaWrite(ctx, M3G_FALSE);
}
return isImageTarget;
}
JNIEXPORT void JNICALL Java_javax_microedition_m3g_Graphics3D__1setViewport
(JNIEnv* aEnv, jclass, jint aHContext, jint aX, jint aY,
jint aWidth, jint aHeight)
{
M3G_DO_LOCK
m3gSetViewport((M3GRenderContext)aHContext, aX, aY, aWidth, aHeight);
M3G_DO_UNLOCK(aEnv)
}
static void releaseTarget(M3GRenderContext aCtx)
{
eglWaitGL();
m3gReleaseTarget(aCtx);
}
/*
static void releaseGraphicsTarget(M3GRenderContext aCtx, CMIDGraphics *aGraphics,
TBool aIsImageTarget, TBool aIsProperRenderer )
{
releaseTarget(aCtx);
// clear alpha for only mutable off-screen images (not for canvas/GameCanvas
// framebuffer) those images are indetified by aIsImageTarget argument
if (aIsImageTarget)
{
if ( aIsProperRenderer )
{
m3gSetAlphaWrite(aCtx, M3G_TRUE);
}
else
{
CFbsBitmap *bitmap = aGraphics->Bitmap();
const TInt width = bitmap->SizeInPixels().iWidth;
const TInt height = bitmap->SizeInPixels().iHeight;
TInt stride = bitmap->ScanLineLength(width, bitmap->DisplayMode());
bitmap->LockHeap();
for (TInt i = 0; i < height; i++)
{
const void *srcAddr =
((const char *) bitmap->DataAddress()) + i * stride;
unsigned char *src = (unsigned char *) srcAddr;
TInt count = width;
while (count--)
{
src += 3; //jump to last byte - alpha channel
//setting FF to alpha channel for non-canvas image targets
*src |= 0xff;
src++;
}
}
bitmap->UnlockHeap();
}
}
}
*/
JNIEXPORT void JNICALL Java_javax_microedition_m3g_Graphics3D__1releaseGraphics
(JNIEnv* aEnv, jclass, jint aHandle,
jint aSurfaceHandle, jboolean /*aIsImageTarget*/, jboolean /*aIsProperRenderer*/)
{
M3G_DO_LOCK
releaseTarget((M3GRenderContext)aHandle);
// Release used target surface
Java::GFX::WindowSurface* surf = reinterpret_cast<Java::GFX::WindowSurface*>(aSurfaceHandle);
surf->release();
/*
CMIDGraphics *cmidGraphics = MIDUnhandObject<CMIDGraphics>(aGraphicsHandle);
CJavaM3GEventSource* eventSource =
JavaUnhand<CJavaM3GEventSource>(aEventSourceHandle);
eventSource->ExecuteV(&releaseGraphicsTarget, ((M3GRenderContext) aHandle),
cmidGraphics, ((TBool) aIsImageTarget), ((TBool) aIsProperRenderer) );
*/
M3G_DO_UNLOCK(aEnv)
}
JNIEXPORT void JNICALL Java_javax_microedition_m3g_Graphics3D__1setCamera
(JNIEnv* aEnv, jclass, jint aHContext, jint aHCamera, jbyteArray aTransform)
{
M3GMatrix *transform = NULL;
if (aTransform)
{
transform = (Matrix *)(aEnv->GetByteArrayElements(aTransform, NULL));
if (transform == NULL)
{
M3G_RAISE_EXCEPTION(aEnv, "java/lang/OutOfMemoryError");
return;
}
}
M3G_DO_LOCK
m3gSetCamera((M3GRenderContext) aHContext, (M3GCamera) aHCamera, transform);
M3G_DO_UNLOCK(aEnv)
if (transform)
{
aEnv->ReleaseByteArrayElements(aTransform, (jbyte*)transform, JNI_ABORT);
}
}
/*
static void renderWorld(M3GRenderContext aHContext,
M3GWorld aHWorld)
{
m3gRenderWorld(aHContext, aHWorld);
}
*/
JNIEXPORT void JNICALL Java_javax_microedition_m3g_Graphics3D__1renderWorld
(JNIEnv* aEnv, jclass, jint aHContext, jint aHWorld)
{
M3G_DO_LOCK
m3gRenderWorld((M3GRenderContext) aHContext, (M3GWorld) aHWorld);
/*
CJavaM3GEventSource* eventSource = JavaUnhand<CJavaM3GEventSource>(aEventSourceHandle);
eventSource->ExecuteV(&renderWorld,
(M3GRenderContext) aHContext,
(M3GWorld) aHWorld);
*/
M3G_DO_UNLOCK(aEnv)
}
JNIEXPORT jint JNICALL Java_javax_microedition_m3g_Graphics3D__1ctor
(JNIEnv* aEnv, jclass, jint aM3g)
{
M3G_DO_LOCK
M3GRenderContext ctx = m3gCreateContext((M3GInterface)aM3g);
M3G_DO_UNLOCK(aEnv)
return (jint)ctx;
}
struct RenderStruct
{
M3GVertexBuffer hVertices;
M3GIndexBuffer hIndices;
M3GAppearance hAppearance;
const M3GMatrix *transform;
};
/*
static void renderImmediate(M3GRenderContext aHContext, RenderStruct *aR, jint aScope)
{
m3gRender(aHContext,
aR->hVertices,
aR->hIndices,
aR->hAppearance,
aR->transform, 1.0f, aScope);
}
*/
/*
* Must be executed in UI thread
*/
JNIEXPORT void JNICALL Java_javax_microedition_m3g_Graphics3D__1render
(JNIEnv* aEnv, jclass, jint aHContext,
jint aHVertices, jint aHIndices, jint aHAppearance, jbyteArray aTransform, jint aScope)
{
M3GMatrix *transform = NULL;
if (aTransform)
{
transform = (M3GMatrix *)aEnv->GetByteArrayElements(aTransform, NULL);
if (transform == NULL)
{
M3G_RAISE_EXCEPTION(aEnv, "java/lang/OutOfMemoryError");
return;
}
}
/*
RenderStruct r;
r.hVertices = (M3GVertexBuffer) aHVertices;
r.hIndices = (M3GIndexBuffer) aHIndices;
r.hAppearance = (M3GAppearance) aHAppearance;
r.transform = transform;
*/
M3G_DO_LOCK
m3gRender((M3GRenderContext) aHContext, (M3GVertexBuffer) aHVertices, (M3GIndexBuffer) aHIndices, (M3GAppearance) aHAppearance,
transform, 1.0f, aScope);
/*
CJavaM3GEventSource* eventSource = JavaUnhand<CJavaM3GEventSource>(aEventSourceHandle);
eventSource->ExecuteV(&renderImmediate, ((M3GRenderContext) aHContext), &r, aScope);
*/
M3G_DO_UNLOCK(aEnv)
if (transform)
{
aEnv->ReleaseByteArrayElements(aTransform, (jbyte*)transform, JNI_ABORT);
}
}
/*
static void clear(M3GRenderContext aHContext, M3GBackground aHBackground)
{
m3gClear(aHContext, aHBackground);
}
*/
/*
* Must be executed in UI thread
*/
JNIEXPORT void JNICALL Java_javax_microedition_m3g_Graphics3D__1clear
(JNIEnv* aEnv, jclass, jint aCtx, jint aBg)
{
M3G_DO_LOCK
m3gClear((M3GRenderContext)aCtx, (M3GBackground)aBg);
/*
CJavaM3GEventSource* eventSource = JavaUnhand<CJavaM3GEventSource>(aEventSourceHandle);
eventSource->ExecuteV(&clear, (M3GRenderContext)aCtx, (M3GBackground)aBg);
*/
M3G_DO_UNLOCK(aEnv)
}
JNIEXPORT void JNICALL Java_javax_microedition_m3g_Graphics3D__1releaseImage
(JNIEnv* aEnv, jclass, jint aHCtx)
{
M3G_DO_LOCK
releaseTarget((M3GRenderContext)aHCtx);
/*
CJavaM3GEventSource* eventSource = JavaUnhand<CJavaM3GEventSource>(aEventSourceHandle);
eventSource->ExecuteV(&releaseTarget, (M3GRenderContext)aHCtx);
*/
M3G_DO_UNLOCK(aEnv)
}
JNIEXPORT void JNICALL Java_javax_microedition_m3g_Graphics3D__1addRef
(JNIEnv* aEnv, jclass, jint aObject)
{
M3G_DO_LOCK
m3gAddRef((M3GObject) aObject);
M3G_DO_UNLOCK(aEnv)
}
JNIEXPORT jint JNICALL Java_javax_microedition_m3g_Graphics3D__1addLight
(JNIEnv* aEnv, jclass, jint aHContext, jint aHLight, jbyteArray aTransform)
{
M3GMatrix *transform = NULL;
if (aTransform)
{
transform = (M3GMatrix *)(aEnv->GetByteArrayElements(aTransform, NULL));
if (transform == NULL)
{
M3G_RAISE_EXCEPTION(aEnv, "java/lang/OutOfMemoryError");
return 0;
}
}
M3G_DO_LOCK
int idx = m3gAddLight((M3GRenderContext) aHContext, (M3GLight) aHLight, transform);
M3G_DO_UNLOCK(aEnv)
if (transform)
{
aEnv->ReleaseByteArrayElements(aTransform, (jbyte*)transform, JNI_ABORT);
}
return idx;
}
/*
static void bindImage(M3GRenderContext hCtx, M3GImage hImg, M3Gbool depth, M3Gbitmask hintBits)
{
if (m3gSetRenderBuffers(hCtx, depth ? M3G_COLOR_BUFFER_BIT|M3G_DEPTH_BUFFER_BIT : M3G_COLOR_BUFFER_BIT) && m3gSetRenderHints(hCtx, hintBits)) {
m3gBindImageTarget(hCtx, hImg);
}
}
*/
JNIEXPORT void JNICALL Java_javax_microedition_m3g_Graphics3D__1bindImage
(JNIEnv* aEnv, jclass, jint aHCtx, jint aImageHandle, jboolean aDepth, jint aHintBits)
{
M3G_DO_LOCK
if (m3gSetRenderBuffers((M3GRenderContext)aHCtx, (M3Gbool)aDepth ? M3G_COLOR_BUFFER_BIT|M3G_DEPTH_BUFFER_BIT : M3G_COLOR_BUFFER_BIT) && m3gSetRenderHints((M3GRenderContext)aHCtx, (M3Gbitmask)aHintBits))
{
m3gBindImageTarget((M3GRenderContext)aHCtx, (M3GImage)aImageHandle);
}
//CJavaM3GEventSource* eventSource = JavaUnhand<CJavaM3GEventSource>(aEventSourceHandle);
//eventSource->ExecuteV(&bindImage, (M3GRenderContext)aHCtx, (M3GImage)aImageHandle, (M3Gbool)aDepth, (M3Gbitmask)aHintBits);
M3G_DO_UNLOCK(aEnv)
}
JNIEXPORT void JNICALL Java_javax_microedition_m3g_Graphics3D__1resetLights
(JNIEnv* aEnv, jclass, jint aHContext)
{
M3G_DO_LOCK
m3gClearLights((M3GRenderContext) aHContext);
M3G_DO_UNLOCK(aEnv)
}
JNIEXPORT void JNICALL Java_javax_microedition_m3g_Graphics3D__1setDepthRange
(JNIEnv* aEnv, jclass, jint aHContext, jfloat aDepthNear, jfloat aDepthFar)
{
M3G_DO_LOCK
m3gSetDepthRange((M3GRenderContext) aHContext, aDepthNear, aDepthFar);
M3G_DO_UNLOCK(aEnv)
}
JNIEXPORT void JNICALL Java_javax_microedition_m3g_Graphics3D__1setLight
(JNIEnv* aEnv, jclass, jint aHContext, jint aLightIndex, jint aHLight, jbyteArray aTransform)
{
M3GMatrix *transform = NULL;
if (aTransform)
{
transform = (M3GMatrix *)(aEnv->GetByteArrayElements(aTransform, NULL));
if (transform == NULL)
{
M3G_RAISE_EXCEPTION(aEnv, "java/lang/OutOfMemoryError");
return;
}
}
M3G_DO_LOCK
m3gSetLight((M3GRenderContext) aHContext, aLightIndex, (M3GLight) aHLight, transform);
M3G_DO_UNLOCK(aEnv)
if (transform)
{
aEnv->ReleaseByteArrayElements(aTransform, (jbyte*)transform, JNI_ABORT);
}
}
/*
static void renderNode(M3GRenderContext aHCtx,
M3GNode aHNode,
const M3GMatrix *aMtx)
{
m3gRenderNode(aHCtx, aHNode, aMtx);
}
*/
JNIEXPORT void JNICALL Java_javax_microedition_m3g_Graphics3D__1renderNode
(JNIEnv* aEnv, jclass, jint aHCtx, jint aHNode, jbyteArray aTransform)
{
M3GMatrix *transform = NULL;
if (aTransform)
{
transform = (M3GMatrix *)(aEnv->GetByteArrayElements(aTransform, NULL));
if (transform == NULL)
{
M3G_RAISE_EXCEPTION(aEnv, "java/lang/OutOfMemoryError");
return;
}
}
M3G_DO_LOCK
m3gRenderNode((M3GRenderContext)aHCtx, (M3GNode)aHNode, (const M3GMatrix *)transform);
//CJavaM3GEventSource* eventSource = JavaUnhand<CJavaM3GEventSource>(aEventSourceHandle);
//eventSource->ExecuteV(&renderNode, (M3GRenderContext)aHCtx, (M3GNode)aHNode, (const M3GMatrix *)transform);
M3G_DO_UNLOCK(aEnv)
if (aTransform)
{
aEnv->ReleaseByteArrayElements(aTransform, (jbyte*)transform, JNI_ABORT);
}
}
#if defined(M3G_ENABLE_PROFILING)
JNIEXPORT jint JNICALL Java_javax_microedition_m3g_Graphics3D__1getStatistics
(JNIEnv* aEnv, jclass, jintArray aStatArray)
{
const M3Gint *statArray = (M3Gint *)(aStatArray != NULL ? aEnv->GetIntArrayElements(aStatArray, NULL) : NULL);
jint statArrayLength = aStatArray ? aEnv->GetArrayLength(aStatArray) : 0;
if (statArray != NULL && statArrayLength >= sizeof(m3gs_statistic))
{
m3gCopy((void*)statArray, m3gs_statistic, sizeof(m3gs_statistic));
}
M3G_DO_LOCK
m3gZero(m3gs_statistic, sizeof(m3gs_statistic));
M3G_DO_UNLOCK(aEnv)
if (statArray)
{
aEnv->ReleaseIntArrayElements(aStatArray, (jint*)statArray, 0);
}
return sizeof(m3gs_statistic);
}
#endif /* M3G_ENABLE_PROFILING */
/* M3G 1.1 JNI Calls */
JNIEXPORT void JNICALL Java_javax_microedition_m3g_Graphics3D__1getViewTransform
(JNIEnv* aEnv, jclass, jint aHCtx, jbyteArray aTransform)
{
M3GMatrix *transform = NULL;
if (aTransform)
{
transform = (M3GMatrix *)(aEnv->GetByteArrayElements(aTransform, NULL));
if (transform == NULL)
{
M3G_RAISE_EXCEPTION(aEnv, "java/lang/OutOfMemoryError");
return;
}
}
M3G_DO_LOCK
m3gGetViewTransform((M3GRenderContext) aHCtx, transform);
M3G_DO_UNLOCK(aEnv)
if (transform)
{
/* copy array to Java side and release arrays */
aEnv->ReleaseByteArrayElements(aTransform, (jbyte*)transform, 0);
}
}
JNIEXPORT jint JNICALL Java_javax_microedition_m3g_Graphics3D__1getCamera
(JNIEnv* aEnv, jclass, jint aHCtx)
{
M3G_DO_LOCK
jint camera = (jint)m3gGetCamera((M3GRenderContext)aHCtx);
M3G_DO_UNLOCK(aEnv)
return camera;
}
JNIEXPORT jint JNICALL Java_javax_microedition_m3g_Graphics3D__1getLightTransform
(JNIEnv* aEnv, jclass, jint aHCtx, jint aLightIndex, jbyteArray aTransform)
{
M3GMatrix *transform = NULL;
if (aTransform)
{
transform = (M3GMatrix *)(aEnv->GetByteArrayElements(aTransform, NULL));
if (transform == NULL)
{
M3G_RAISE_EXCEPTION(aEnv, "java/lang/OutOfMemoryError");
return 0;
}
}
M3G_DO_LOCK
int lightTransform = (M3Guint)m3gGetLightTransform((M3GRenderContext)aHCtx, aLightIndex, transform);
M3G_DO_UNLOCK(aEnv)
if (transform)
{
aEnv->ReleaseByteArrayElements(aTransform, (jbyte*)transform, 0);
}
return (jint)lightTransform;
}
JNIEXPORT jint JNICALL Java_javax_microedition_m3g_Graphics3D__1getLightCount
(JNIEnv* aEnv, jclass, jint aHCtx)
{
M3G_DO_LOCK
jint lightCount = (jint)m3gGetLightCount((M3GRenderContext)aHCtx);
M3G_DO_UNLOCK(aEnv)
return lightCount;
}
JNIEXPORT jfloat JNICALL Java_javax_microedition_m3g_Graphics3D__1getDepthRangeNear
(JNIEnv* aEnv, jclass, jint aHCtx)
{
float depthNear = 0;
float depthFar = 0;
M3G_DO_LOCK
m3gGetDepthRange((M3GRenderContext) aHCtx, &depthNear, &depthFar);
M3G_DO_UNLOCK(aEnv)
return (jfloat)depthNear;
}
JNIEXPORT jfloat JNICALL Java_javax_microedition_m3g_Graphics3D__1getDepthRangeFar
(JNIEnv* aEnv, jclass, jint aHCtx)
{
float depthNear = 0;
float depthFar = 0;
M3G_DO_LOCK
m3gGetDepthRange((M3GRenderContext) aHCtx, &depthNear, &depthFar);
M3G_DO_UNLOCK(aEnv)
return (jfloat)depthFar;
}
JNIEXPORT jint JNICALL Java_javax_microedition_m3g_Graphics3D__1getViewportX
(JNIEnv* aEnv, jclass, jint aHCtx)
{
int viewport[4];
M3G_DO_LOCK
m3gGetViewport((M3GRenderContext)aHCtx, &viewport[0],
&viewport[1],
&viewport[2],
&viewport[3]);
M3G_DO_UNLOCK(aEnv)
return (jint)viewport[0];
}
JNIEXPORT jint JNICALL Java_javax_microedition_m3g_Graphics3D__1getViewportY
(JNIEnv* aEnv, jclass, jint aHCtx)
{
int viewport[4];
M3G_DO_LOCK
m3gGetViewport((M3GRenderContext)aHCtx, &viewport[0],
&viewport[1],
&viewport[2],
&viewport[3]);
M3G_DO_UNLOCK(aEnv)
return (jint)viewport[1];
}
JNIEXPORT jint JNICALL Java_javax_microedition_m3g_Graphics3D__1getViewportWidth
(JNIEnv* aEnv, jclass, jint aHCtx)
{
int viewport[4];
M3G_DO_LOCK
m3gGetViewport((M3GRenderContext)aHCtx, &viewport[0],
&viewport[1],
&viewport[2],
&viewport[3]);
M3G_DO_UNLOCK(aEnv)
return (jint)viewport[2];
}
JNIEXPORT jint JNICALL Java_javax_microedition_m3g_Graphics3D__1getViewportHeight
(JNIEnv* aEnv, jclass, jint aHCtx)
{
int viewport[4];
M3G_DO_LOCK
m3gGetViewport((M3GRenderContext)aHCtx, &viewport[0],
&viewport[1],
&viewport[2],
&viewport[3]);
M3G_DO_UNLOCK(aEnv)
return (jint)viewport[3];
}
JNIEXPORT jboolean JNICALL Java_javax_microedition_m3g_Graphics3D__1isAASupported
(JNIEnv* /*aEnv*/, jclass, jint aM3g)
{
M3Gbool aaSupport = M3G_FALSE;
aaSupport = m3gIsAntialiasingSupported((M3GInterface)aM3g);
return (jboolean)aaSupport;
}