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/*
* Copyright (C) 2008-2012 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package android.renderscript;
import android.annotation.UnsupportedAppUsage;
import android.util.SparseArray;
/**
* The parent class for all executable scripts. This should not be used by
* applications.
**/
public class Script extends BaseObj {
/**
* KernelID is an identifier for a Script + root function pair. It is used
* as an identifier for ScriptGroup creation.
*
* This class should not be directly created. Instead use the method in the
* reflected or intrinsic code "getKernelID_funcname()".
*
*/
public static final class KernelID extends BaseObj {
Script mScript;
int mSlot;
int mSig;
KernelID(long id, RenderScript rs, Script s, int slot, int sig) {
super(id, rs);
mScript = s;
mSlot = slot;
mSig = sig;
}
}
private final SparseArray<KernelID> mKIDs = new SparseArray<KernelID>();
/**
* Only to be used by generated reflected classes.
*/
protected KernelID createKernelID(int slot, int sig, Element ein,
Element eout) {
KernelID k = mKIDs.get(slot);
if (k != null) {
return k;
}
long id = mRS.nScriptKernelIDCreate(getID(mRS), slot, sig);
if (id == 0) {
throw new RSDriverException("Failed to create KernelID");
}
k = new KernelID(id, mRS, this, slot, sig);
mKIDs.put(slot, k);
return k;
}
/**
* InvokeID is an identifier for an invoke function. It is used
* as an identifier for ScriptGroup creation.
*
* This class should not be directly created. Instead use the method in the
* reflected or intrinsic code "getInvokeID_funcname()".
*
*/
public static final class InvokeID extends BaseObj {
Script mScript;
int mSlot;
InvokeID(long id, RenderScript rs, Script s, int slot) {
super(id, rs);
mScript = s;
mSlot = slot;
}
}
private final SparseArray<InvokeID> mIIDs = new SparseArray<InvokeID>();
/**
* Only to be used by generated reflected classes.
*/
protected InvokeID createInvokeID(int slot) {
InvokeID i = mIIDs.get(slot);
if (i != null) {
return i;
}
long id = mRS.nScriptInvokeIDCreate(getID(mRS), slot);
if (id == 0) {
throw new RSDriverException("Failed to create KernelID");
}
i = new InvokeID(id, mRS, this, slot);
mIIDs.put(slot, i);
return i;
}
/**
* FieldID is an identifier for a Script + exported field pair. It is used
* as an identifier for ScriptGroup creation.
*
* This class should not be directly created. Instead use the method in the
* reflected or intrinsic code "getFieldID_funcname()".
*
*/
public static final class FieldID extends BaseObj {
Script mScript;
int mSlot;
FieldID(long id, RenderScript rs, Script s, int slot) {
super(id, rs);
mScript = s;
mSlot = slot;
}
}
private final SparseArray<FieldID> mFIDs = new SparseArray();
/**
* Only to be used by generated reflected classes.
*/
protected FieldID createFieldID(int slot, Element e) {
FieldID f = mFIDs.get(slot);
if (f != null) {
return f;
}
long id = mRS.nScriptFieldIDCreate(getID(mRS), slot);
if (id == 0) {
throw new RSDriverException("Failed to create FieldID");
}
f = new FieldID(id, mRS, this, slot);
mFIDs.put(slot, f);
return f;
}
/**
* Only intended for use by generated reflected code.
*
*/
protected void invoke(int slot) {
mRS.nScriptInvoke(getID(mRS), slot);
}
/**
* Only intended for use by generated reflected code.
*
*/
protected void invoke(int slot, FieldPacker v) {
if (v != null) {
mRS.nScriptInvokeV(getID(mRS), slot, v.getData());
} else {
mRS.nScriptInvoke(getID(mRS), slot);
}
}
/**
* Only intended for use by generated reflected code.
*
*/
protected void forEach(int slot, Allocation ain, Allocation aout,
FieldPacker v) {
forEach(slot, ain, aout, v, null);
}
/**
* Only intended for use by generated reflected code.
*
*/
protected void forEach(int slot, Allocation ain, Allocation aout,
FieldPacker v, LaunchOptions sc) {
// TODO: Is this necessary if nScriptForEach calls validate as well?
mRS.validate();
mRS.validateObject(ain);
mRS.validateObject(aout);
if (ain == null && aout == null && sc == null) {
throw new RSIllegalArgumentException(
"At least one of input allocation, output allocation, or LaunchOptions is required to be non-null.");
}
long[] in_ids = null;
if (ain != null) {
in_ids = mInIdsBuffer;
in_ids[0] = ain.getID(mRS);
}
long out_id = 0;
if (aout != null) {
out_id = aout.getID(mRS);
}
byte[] params = null;
if (v != null) {
params = v.getData();
}
int[] limits = null;
if (sc != null) {
limits = new int[6];
limits[0] = sc.xstart;
limits[1] = sc.xend;
limits[2] = sc.ystart;
limits[3] = sc.yend;
limits[4] = sc.zstart;
limits[5] = sc.zend;
}
mRS.nScriptForEach(getID(mRS), slot, in_ids, out_id, params, limits);
}
/**
* Only intended for use by generated reflected code.
*/
protected void forEach(int slot, Allocation[] ains, Allocation aout,
FieldPacker v) {
// FieldPacker is kept here to support regular params in the future.
forEach(slot, ains, aout, v, null);
}
/**
* Only intended for use by generated reflected code.
*/
protected void forEach(int slot, Allocation[] ains, Allocation aout,
FieldPacker v, LaunchOptions sc) {
// TODO: Is this necessary if nScriptForEach calls validate as well?
// FieldPacker is kept here to support regular params in the future.
mRS.validate();
if (ains != null) {
for (Allocation ain : ains) {
mRS.validateObject(ain);
}
}
mRS.validateObject(aout);
if (ains == null && aout == null) {
throw new RSIllegalArgumentException(
"At least one of ain or aout is required to be non-null.");
}
long[] in_ids;
if (ains != null) {
in_ids = new long[ains.length];
for (int index = 0; index < ains.length; ++index) {
in_ids[index] = ains[index].getID(mRS);
}
} else {
in_ids = null;
}
long out_id = 0;
if (aout != null) {
out_id = aout.getID(mRS);
}
byte[] params = null;
if (v != null) {
params = v.getData();
}
int[] limits = null;
if (sc != null) {
limits = new int[6];
limits[0] = sc.xstart;
limits[1] = sc.xend;
limits[2] = sc.ystart;
limits[3] = sc.yend;
limits[4] = sc.zstart;
limits[5] = sc.zend;
}
mRS.nScriptForEach(getID(mRS), slot, in_ids, out_id, params, limits);
}
/**
* Only intended for use by generated reflected code. (General reduction)
*
*/
protected void reduce(int slot, Allocation[] ains, Allocation aout, LaunchOptions sc) {
mRS.validate();
if (ains == null || ains.length < 1) {
throw new RSIllegalArgumentException(
"At least one input is required.");
}
if (aout == null) {
throw new RSIllegalArgumentException(
"aout is required to be non-null.");
}
for (Allocation ain : ains) {
mRS.validateObject(ain);
}
long[] in_ids = new long[ains.length];
for (int index = 0; index < ains.length; ++index) {
in_ids[index] = ains[index].getID(mRS);
}
long out_id = aout.getID(mRS);
int[] limits = null;
if (sc != null) {
limits = new int[6];
limits[0] = sc.xstart;
limits[1] = sc.xend;
limits[2] = sc.ystart;
limits[3] = sc.yend;
limits[4] = sc.zstart;
limits[5] = sc.zend;
}
mRS.nScriptReduce(getID(mRS), slot, in_ids, out_id, limits);
}
long[] mInIdsBuffer;
Script(long id, RenderScript rs) {
super(id, rs);
mInIdsBuffer = new long[1];
/* The constructors for the derived classes (including ScriptIntrinsic
* derived classes and ScriptC derived classes generated by Slang
* reflection) seem to be simple enough, so we just put the guard.open()
* call here, rather than in the end of the constructor for the derived
* class. This, of course, assumes the derived constructor would not
* throw any exception after calling this constructor.
*
* If new derived classes are added with more complicated constructors
* that throw exceptions, this call has to be (duplicated and) moved
* to the end of each derived class constructor.
*/
guard.open("destroy");
}
/**
* Only intended for use by generated reflected code.
*
*/
public void bindAllocation(Allocation va, int slot) {
mRS.validate();
mRS.validateObject(va);
if (va != null) {
android.content.Context context = mRS.getApplicationContext();
if (context.getApplicationInfo().targetSdkVersion >= 20) {
final Type t = va.mType;
if (t.hasMipmaps() || t.hasFaces() || (t.getY() != 0) ||
(t.getZ() != 0)) {
throw new RSIllegalArgumentException(
"API 20+ only allows simple 1D allocations to be " +
"used with bind.");
}
}
mRS.nScriptBindAllocation(getID(mRS), va.getID(mRS), slot);
} else {
mRS.nScriptBindAllocation(getID(mRS), 0, slot);
}
}
/**
* Only intended for use by generated reflected code.
*
*/
public void setVar(int index, float v) {
mRS.nScriptSetVarF(getID(mRS), index, v);
}
public float getVarF(int index) {
return mRS.nScriptGetVarF(getID(mRS), index);
}
/**
* Only intended for use by generated reflected code.
*
*/
public void setVar(int index, double v) {
mRS.nScriptSetVarD(getID(mRS), index, v);
}
public double getVarD(int index) {
return mRS.nScriptGetVarD(getID(mRS), index);
}
/**
* Only intended for use by generated reflected code.
*
*/
public void setVar(int index, int v) {
mRS.nScriptSetVarI(getID(mRS), index, v);
}
public int getVarI(int index) {
return mRS.nScriptGetVarI(getID(mRS), index);
}
/**
* Only intended for use by generated reflected code.
*
*/
public void setVar(int index, long v) {
mRS.nScriptSetVarJ(getID(mRS), index, v);
}
public long getVarJ(int index) {
return mRS.nScriptGetVarJ(getID(mRS), index);
}
/**
* Only intended for use by generated reflected code.
*
*/
public void setVar(int index, boolean v) {
mRS.nScriptSetVarI(getID(mRS), index, v ? 1 : 0);
}
public boolean getVarB(int index) {
return mRS.nScriptGetVarI(getID(mRS), index) > 0 ? true : false;
}
/**
* Only intended for use by generated reflected code.
*
*/
public void setVar(int index, BaseObj o) {
mRS.validate();
mRS.validateObject(o);
mRS.nScriptSetVarObj(getID(mRS), index, (o == null) ? 0 : o.getID(mRS));
}
/**
* Only intended for use by generated reflected code.
*
*/
public void setVar(int index, FieldPacker v) {
mRS.nScriptSetVarV(getID(mRS), index, v.getData());
}
/**
* Only intended for use by generated reflected code.
*
*/
public void setVar(int index, FieldPacker v, Element e, int[] dims) {
mRS.nScriptSetVarVE(getID(mRS), index, v.getData(), e.getID(mRS), dims);
}
/**
* Only intended for use by generated reflected code.
*
*/
public void getVarV(int index, FieldPacker v) {
mRS.nScriptGetVarV(getID(mRS), index, v.getData());
}
public void setTimeZone(String timeZone) {
mRS.validate();
try {
mRS.nScriptSetTimeZone(getID(mRS), timeZone.getBytes("UTF-8"));
} catch (java.io.UnsupportedEncodingException e) {
throw new RuntimeException(e);
}
}
/**
* Only intended for use by generated reflected code.
*
*/
public static class Builder {
@UnsupportedAppUsage
RenderScript mRS;
@UnsupportedAppUsage
Builder(RenderScript rs) {
mRS = rs;
}
}
/**
* Only intended for use by generated reflected code.
*
*/
public static class FieldBase {
protected Element mElement;
protected Allocation mAllocation;
protected void init(RenderScript rs, int dimx) {
mAllocation = Allocation.createSized(rs, mElement, dimx,
Allocation.USAGE_SCRIPT);
}
protected void init(RenderScript rs, int dimx, int usages) {
mAllocation =
Allocation.createSized(rs, mElement, dimx,
Allocation.USAGE_SCRIPT | usages);
}
protected FieldBase() {
}
public Element getElement() {
return mElement;
}
public Type getType() {
return mAllocation.getType();
}
public Allocation getAllocation() {
return mAllocation;
}
//@Override
public void updateAllocation() {
}
}
/**
* Class for specifying the specifics about how a kernel will be
* launched.
*
* This class can specify a potential range of cells on which to
* run a kernel. If no set is called for a dimension then this
* class will have no impact on that dimension when the kernel
* is executed.
*
* The forEach kernel launch will operate over the intersection of
* the dimensions.
*
* Example:
* LaunchOptions with setX(5, 15)
* Allocation with dimension X=10, Y=10
* The resulting forEach run would execute over:
* x = 5 to 9 (inclusive) and
* y = 0 to 9 (inclusive).
*
*
*/
public static final class LaunchOptions {
private int xstart = 0;
private int ystart = 0;
private int xend = 0;
private int yend = 0;
private int zstart = 0;
private int zend = 0;
private int strategy;
/**
* Set the X range. xstartArg is the lowest coordinate of the range,
* and xendArg-1 is the highest coordinate of the range.
*
* @param xstartArg Must be >= 0
* @param xendArg Must be > xstartArg
*
* @return LaunchOptions
*/
public LaunchOptions setX(int xstartArg, int xendArg) {
if (xstartArg < 0 || xendArg <= xstartArg) {
throw new RSIllegalArgumentException("Invalid dimensions");
}
xstart = xstartArg;
xend = xendArg;
return this;
}
/**
* Set the Y range. ystartArg is the lowest coordinate of the range,
* and yendArg-1 is the highest coordinate of the range.
*
* @param ystartArg Must be >= 0
* @param yendArg Must be > ystartArg
*
* @return LaunchOptions
*/
public LaunchOptions setY(int ystartArg, int yendArg) {
if (ystartArg < 0 || yendArg <= ystartArg) {
throw new RSIllegalArgumentException("Invalid dimensions");
}
ystart = ystartArg;
yend = yendArg;
return this;
}
/**
* Set the Z range. zstartArg is the lowest coordinate of the range,
* and zendArg-1 is the highest coordinate of the range.
*
* @param zstartArg Must be >= 0
* @param zendArg Must be > zstartArg
*
* @return LaunchOptions
*/
public LaunchOptions setZ(int zstartArg, int zendArg) {
if (zstartArg < 0 || zendArg <= zstartArg) {
throw new RSIllegalArgumentException("Invalid dimensions");
}
zstart = zstartArg;
zend = zendArg;
return this;
}
/**
* Returns the current X start
*
* @return int current value
*/
public int getXStart() {
return xstart;
}
/**
* Returns the current X end
*
* @return int current value
*/
public int getXEnd() {
return xend;
}
/**
* Returns the current Y start
*
* @return int current value
*/
public int getYStart() {
return ystart;
}
/**
* Returns the current Y end
*
* @return int current value
*/
public int getYEnd() {
return yend;
}
/**
* Returns the current Z start
*
* @return int current value
*/
public int getZStart() {
return zstart;
}
/**
* Returns the current Z end
*
* @return int current value
*/
public int getZEnd() {
return zend;
}
}
}