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Java™ Binding for the OpenGL® API
/*
* Copyright (c) 2003 Sun Microsystems, Inc. All Rights Reserved.
* Copyright (c) 2010 JogAmp Community. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
*
* - Redistribution of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* - Redistribution in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* Neither the name of Sun Microsystems, Inc. or the names of
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* This software is provided "AS IS," without a warranty of any kind. ALL
* EXPRESS OR IMPLIED CONDITIONS, REPRESENTATIONS AND WARRANTIES,
* INCLUDING ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS FOR A
* PARTICULAR PURPOSE OR NON-INFRINGEMENT, ARE HEREBY EXCLUDED. SUN
* MICROSYSTEMS, INC. ("SUN") AND ITS LICENSORS SHALL NOT BE LIABLE FOR
* ANY DAMAGES SUFFERED BY LICENSEE AS A RESULT OF USING, MODIFYING OR
* DISTRIBUTING THIS SOFTWARE OR ITS DERIVATIVES. IN NO EVENT WILL SUN OR
* ITS LICENSORS BE LIABLE FOR ANY LOST REVENUE, PROFIT OR DATA, OR FOR
* DIRECT, INDIRECT, SPECIAL, CONSEQUENTIAL, INCIDENTAL OR PUNITIVE
* DAMAGES, HOWEVER CAUSED AND REGARDLESS OF THE THEORY OF LIABILITY,
* ARISING OUT OF THE USE OF OR INABILITY TO USE THIS SOFTWARE, EVEN IF
* SUN HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
*
* You acknowledge that this software is not designed or intended for use
* in the design, construction, operation or maintenance of any nuclear
* facility.
*
* Sun gratefully acknowledges that this software was originally authored
* and developed by Kenneth Bradley Russell and Christopher John Kline.
*/
package com.jogamp.gluegen.opengl;
import com.jogamp.gluegen.CodeGenUtils;
import com.jogamp.gluegen.JavaType;
import java.io.BufferedWriter;
import java.io.File;
import java.io.FileWriter;
import java.io.IOException;
import java.io.PrintWriter;
import java.lang.reflect.Method;
import java.nio.Buffer;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Set;
public class BuildComposablePipeline {
/** Default: true
. */
public static final int GEN_DEBUG = 1 << 0;
/** Default: true
. */
public static final int GEN_TRACE = 1 << 1;
/** Default: false
. */
public static final int GEN_CUSTOM = 1 << 2;
/**
* By extra command-line argument: prolog_xor_downstream.
*
* If true, either prolog (if exist) is called or downstream's method, but not both.
* By default, both methods would be called.
*
* Default: false
*/
public static final int GEN_PROLOG_XOR_DOWNSTREAM = 1 << 3;
/**
* By extra command-line argument: gl_identity_by_assignable_class.
*
* If true, implementation does not utilize downstream's isGL*()
* implementation, but determines whether the GL profile is matched by interface inheritance.
*
* Default: false
*/
public static final int GEN_GL_IDENTITY_BY_ASSIGNABLE_CLASS = 1 << 4;
int mode;
private String outputDir;
private String outputPackage;
private String outputName;
private Class classToComposeAround;
private Class classPrologOpt;
private Class classDownstream;
// Only desktop OpenGL has immediate mode glBegin / glEnd
private boolean hasImmediateMode;
// Desktop OpenGL and GLES1 have GL_STACK_OVERFLOW and GL_STACK_UNDERFLOW errors
private boolean hasGL2ES1StackOverflow;
public static Class getClass(String name) {
Class clazz = null;
try {
clazz = Class.forName(name);
} catch (Exception e) {
throw new RuntimeException(
"Could not find class \"" + name + "\"", e);
}
return clazz;
}
public static Method getMethod(Class clazz, Method m) {
Method res = null;
try {
res = clazz.getMethod(m.getName(), m.getParameterTypes());
} catch (Exception e) {
}
return res;
}
public static void main(String[] args) {
String classToComposeAroundName = args[0];
Class classPrologOpt, classDownstream;
Class classToComposeAround = getClass(classToComposeAroundName);
String outputDir = args[1];
String outputPackage, outputName;
int mode;
if (args.length > 2) {
String outputClazzName = args[2];
outputPackage = getPackageName(outputClazzName);
outputName = getBaseClassName(outputClazzName);
classPrologOpt = getClass(args[3]);
classDownstream = getClass(args[4]);
mode = GEN_CUSTOM;
if (args.length > 5) {
for(int i=5; i classToComposeAround, Class classPrologOpt, Class classDownstream) {
this.mode = mode;
this.outputDir = outputDir;
this.outputPackage = outputPackage;
this.outputName = outputName;
this.classToComposeAround = classToComposeAround;
this.classPrologOpt = classPrologOpt;
this.classDownstream = classDownstream;
if (!classToComposeAround.isInterface()) {
throw new IllegalArgumentException(
classToComposeAround.getName() + " is not an interface class");
}
try {
hasImmediateMode =
(classToComposeAround.getMethod("glBegin", new Class[]{Integer.TYPE}) != null);
} catch (Exception e) {
}
try {
hasGL2ES1StackOverflow = hasImmediateMode &&
(classToComposeAround.getField("GL_STACK_OVERFLOW") != null);
} catch (Exception e) {
}
}
/**
* Emit the java source code for the classes that comprise the composable
* pipeline.
*/
public void emit() throws IOException {
final List publicMethodsRaw = Arrays.asList(classToComposeAround.getMethods());
final Set publicMethodsPlain = new HashSet();
for (Iterator iter = publicMethodsRaw.iterator(); iter.hasNext();) {
final Method method = iter.next();
// Don't hook methods which aren't real GL methods,
// such as the synthetic "isGL2ES2" "getGL2ES2"
final String name = method.getName();
boolean runHooks = name.startsWith("gl");
if ( !name.startsWith("getGL") && !name.startsWith("isGL") && !name.equals("getDownstreamGL") && !name.equals("toString") ) {
publicMethodsPlain.add(new PlainMethod(method, runHooks));
}
}
if (0 != (mode & GEN_DEBUG)) {
(new DebugPipeline(outputDir, outputPackage, classToComposeAround, classDownstream)).emit(publicMethodsPlain.iterator());
}
if (0 != (mode & GEN_TRACE)) {
(new TracePipeline(outputDir, outputPackage, classToComposeAround, classDownstream)).emit(publicMethodsPlain.iterator());
}
if (0 != (mode & GEN_CUSTOM)) {
(new CustomPipeline(mode, outputDir, outputPackage, outputName, classToComposeAround, classPrologOpt, classDownstream)).emit(publicMethodsPlain.iterator());
}
}
public static String getPackageName(String clazzName) {
int lastDot = clazzName.lastIndexOf('.');
if (lastDot == -1) {
// no package, class is at root level
return null;
}
return clazzName.substring(0, lastDot);
}
public static String getBaseClassName(String clazzName) {
int lastDot = clazzName.lastIndexOf('.');
if (lastDot == -1) {
// no package, class is at root level
return clazzName;
}
return clazzName.substring(lastDot + 1);
}
//-------------------------------------------------------
protected class PlainMethod {
Method m;
boolean runHooks;
PlainMethod(Method m, boolean runHooks) {
this.m = m;
this.runHooks = runHooks;
}
public Method getWrappedMethod() {
return m;
}
public boolean runHooks() {
return runHooks;
}
@Override
public boolean equals(Object obj) {
if (obj instanceof PlainMethod) {
PlainMethod b = (PlainMethod) obj;
boolean res =
m.getName().equals(b.m.getName())
&& m.getModifiers() == b.m.getModifiers()
&& m.getReturnType().equals(b.m.getReturnType())
&& Arrays.equals(m.getParameterTypes(), b.m.getParameterTypes());
return res;
}
return false;
}
@Override
public int hashCode() {
int hash = m.getName().hashCode() ^ m.getModifiers() ^ m.getReturnType().hashCode();
Class[] args = m.getParameterTypes();
for (int i = 0; i < args.length; i++) {
hash ^= args[i].hashCode();
}
return hash;
}
@Override
public String toString() {
Class[] args = m.getParameterTypes();
StringBuilder argsString = new StringBuilder();
argsString.append("(");
for (int i = 0; i < args.length; i++) {
if (i > 0) {
argsString.append(", ");
}
argsString.append(args[i].getName());
}
argsString.append(")");
return m.toString()
+ "\n\tname: " + m.getName()
+ "\n\tmods: " + m.getModifiers()
+ "\n\tretu: " + m.getReturnType()
+ "\n\targs[" + args.length + "]: " + argsString.toString();
}
}
/**
* Emits a Java source file that represents one element of the composable
* pipeline.
*/
protected abstract class PipelineEmitter {
private File file;
protected String basePackage;
protected String baseName; // does not include package!
protected String downstreamPackage;
protected String downstreamName; // does not include package!
protected String prologPackageOpt = null;
protected String prologNameOpt = null; // does not include package!
protected String outputDir;
protected String outputPackage;
protected Class baseInterfaceClass;
protected Class prologClassOpt = null;
protected Class downstreamClass;
/**
* @param outputDir the directory into which the pipeline classes will be
* generated.
* @param baseInterfaceClassName the full class name (including package,
* e.g. "java.lang.String") of the interface that the pipeline wraps
* @exception IllegalArgumentException if classToComposeAround is not an
* interface.
*/
PipelineEmitter(String outputDir, String outputPackage, Class baseInterfaceClass, Class prologClassOpt, Class downstreamClass) {
this.outputDir = outputDir;
this.outputPackage = outputPackage;
this.baseInterfaceClass = baseInterfaceClass;
this.prologClassOpt = prologClassOpt;
this.downstreamClass = downstreamClass;
basePackage = getPackageName(baseInterfaceClass.getName());
baseName = getBaseClassName(baseInterfaceClass.getName());
downstreamPackage = getPackageName(downstreamClass.getName());
downstreamName = getBaseClassName(downstreamClass.getName());
if (null != prologClassOpt) {
prologPackageOpt = getPackageName(prologClassOpt.getName());
prologNameOpt = getBaseClassName(prologClassOpt.getName());
}
}
public void emit(Iterator methodsToWrap) throws IOException {
String outputClassName = getOutputName();
this.file = new File(outputDir + File.separatorChar + outputClassName + ".java");
String parentDir = file.getParent();
if (parentDir != null) {
File pDirFile = new File(parentDir);
pDirFile.mkdirs();
}
PrintWriter output = new PrintWriter(new BufferedWriter(new FileWriter(file)));
List> baseInterfaces = Arrays.asList(baseInterfaceClass.getInterfaces());
HashSet> clazzList = new HashSet>();
clazzList.add(baseInterfaceClass);
clazzList.addAll(baseInterfaces);
int ifNamesNumber = clazzList.size();
// keep original order ..
clazzList.clear();
String[] ifNames = new String[ifNamesNumber];
{
int i = 0;
for (Iterator> iter = baseInterfaces.iterator(); iter.hasNext();) {
Class ifClass = iter.next();
if (!clazzList.contains(ifClass)) {
ifNames[i++] = ifClass.getName();
clazzList.add(ifClass);
}
}
if (null != baseInterfaceClass && !clazzList.contains(baseInterfaceClass)) {
ifNames[i++] = baseInterfaceClass.getName();
clazzList.add(baseInterfaceClass);
}
}
clazzList.add(downstreamClass);
if (null != prologClassOpt) {
clazzList.add(prologClassOpt);
}
ArrayList imports = new ArrayList();
imports.add("java.io.*");
imports.add("javax.media.opengl.*");
imports.add("com.jogamp.gluegen.runtime.*");
imports.add(Buffer.class.getPackage().getName()+".*");
for (Class clasS : clazzList) {
imports.add(clasS.getName());
}
CodeGenUtils.emitJavaHeaders(output,
outputPackage,
outputClassName,
true,
imports,
new String[]{"public"},
ifNames,
null,
new CodeGenUtils.EmissionCallback() {
public void emit(PrintWriter w) {
emitClassDocComment(w);
}
});
preMethodEmissionHook(output);
constructorHook(output);
emitGLIsMethods(output);
emitGLGetMethods(output);
while (methodsToWrap.hasNext()) {
PlainMethod pm = methodsToWrap.next();
Method m = pm.getWrappedMethod();
emitMethodDocComment(output, m);
emitSignature(output, m);
emitBody(output, m, pm.runHooks());
}
postMethodEmissionHook(output);
output.println();
output.print(" private " + downstreamName + " " + getDownstreamObjectName() + ";");
// end the class
output.println();
output.print("} // end class ");
output.println(outputClassName);
output.flush();
output.close();
System.out.println("wrote to file: " + file);
}
/** Get the name of the object through which API calls should be routed. */
protected String getDownstreamObjectName() {
return "downstream" + downstreamName;
}
/** Get the name of the object which shall be called as a prolog. */
protected String getPrologObjectNameOpt() {
if (null != prologNameOpt) {
return "prolog" + prologNameOpt;
}
return null;
}
protected void emitMethodDocComment(PrintWriter output, Method m) {
}
protected void emitSignature(PrintWriter output, Method m) {
output.print(" public ");
output.print(' ');
output.print(JavaType.createForClass(m.getReturnType()).getName());
output.print(' ');
output.print(m.getName());
output.print('(');
output.print(getArgListAsString(m, true, true));
output.println(")");
}
protected void emitBody(PrintWriter output, Method m, boolean runHooks) {
output.println(" {");
output.print(" ");
Class retType = m.getReturnType();
boolean callPreDownstreamHook = runHooks && hasPreDownstreamCallHook(m);
boolean callPostDownstreamHook = runHooks && hasPostDownstreamCallHook(m);
boolean callDownstream = (null != getMethod(downstreamClass, m))
&& !(0 != (GEN_PROLOG_XOR_DOWNSTREAM & getMode()) && callPreDownstreamHook);
boolean hasResult = (retType != Void.TYPE);
if (!callDownstream) {
if (!emptyDownstreamAllowed()) {
throw new RuntimeException("Method " + m + " has no downstream (" + downstreamName + ")");
}
}
if (!callPreDownstreamHook && !callPostDownstreamHook && !callDownstream) {
if (!emptyMethodAllowed()) {
throw new RuntimeException("Method " + m + " is empty, no downstream (" + downstreamName + ") nor prolog (" + prologNameOpt + ").");
} else {
output.print(" if(DEBUG) { System.out.println(\"WARNING: No prolog, no downstream, empty: \"+");
printFunctionCallString(output, m);
output.println("); } ");
}
}
if (callPreDownstreamHook) {
if (hasResult && !callDownstream) {
if (callPostDownstreamHook) {
output.print(" " + JavaType.createForClass(retType).getName());
output.print(" _res = ");
} else {
output.print(" return ");
}
}
preDownstreamCallHook(output, m);
}
if (callDownstream) {
if (hasResult) {
if (callPostDownstreamHook) {
output.print(" " + JavaType.createForClass(retType).getName());
output.print(" _res = ");
} else {
output.print(" return ");
}
}
output.print(getDownstreamObjectName());
output.print('.');
output.print(m.getName());
output.print('(');
output.print(getArgListAsString(m, false, true));
output.println(");");
}
if (callPostDownstreamHook) {
postDownstreamCallHook(output, m);
}
if (hasResult && callDownstream && callPostDownstreamHook) {
output.println(" return _res;");
}
output.println(" }");
}
protected String getArgListAsString(Method m, boolean includeArgTypes, boolean includeArgNames) {
StringBuilder buf = new StringBuilder(256);
if (!includeArgNames && !includeArgTypes) {
throw new IllegalArgumentException(
"Cannot generate arglist without both arg types and arg names");
}
Class[] argTypes = m.getParameterTypes();
for (int i = 0; i < argTypes.length; ++i) {
if (includeArgTypes) {
buf.append(JavaType.createForClass(argTypes[i]).getName());
buf.append(' ');
}
if (includeArgNames) {
buf.append("arg");
buf.append(i);
}
if (i < argTypes.length - 1) {
buf.append(',');
}
}
return buf.toString();
}
/** The name of the class around which this pipeline is being
* composed. E.g., if this pipeline was constructed with
* "java.util.Set" as the baseInterfaceClassName, then this method will
* return "Set".
*/
protected String getBaseInterfaceName() {
return baseName;
}
/** Get the output name for this pipeline class. */
protected abstract String getOutputName();
/**
* Called after the class headers have been generated, but before any
* method wrappers have been generated.
*/
protected void preMethodEmissionHook(PrintWriter output) {
output.println(" public static final boolean DEBUG = jogamp.opengl.Debug.debug(\"" + getOutputName() + "\");");
}
/**
* Emits the constructor for the pipeline; called after the preMethodEmissionHook.
*/
protected abstract void constructorHook(PrintWriter output);
/**
* Called after the method wrappers have been generated, but before the
* closing parenthesis of the class is emitted.
*/
protected void postMethodEmissionHook(PrintWriter output) {
output.println(" public String toString() {");
output.println(" StringBuilder sb = new StringBuilder();");
output.println(" sb.append(\"" + getOutputName() + " [ implementing " + baseInterfaceClass.getName() + ",\\n\\t\");");
if (null != prologClassOpt) {
output.println(" sb.append(\" prolog: \"+" + getPrologObjectNameOpt() + ".toString()+\",\\n\\t\");");
}
output.println(" sb.append(\" downstream: \"+" + getDownstreamObjectName() + ".toString()+\"\\n\\t]\");");
output.println(" return sb.toString();");
output.println(" }");
}
/**
* Called before the pipeline routes the call to the downstream object.
*/
protected abstract void preDownstreamCallHook(PrintWriter output, Method m);
protected abstract boolean hasPreDownstreamCallHook(Method m);
/**
* Called after the pipeline has routed the call to the downstream object,
* but before the calling function exits or returns a value.
*/
protected abstract void postDownstreamCallHook(PrintWriter output, Method m);
protected abstract boolean hasPostDownstreamCallHook(Method m);
protected abstract int getMode();
protected abstract boolean emptyMethodAllowed();
protected abstract boolean emptyDownstreamAllowed();
/** Emit a Javadoc comment for this pipeline class. */
protected abstract void emitClassDocComment(PrintWriter output);
/**
* Emits one of the isGL* methods.
*/
protected void emitGLIsMethod(PrintWriter output, String type) {
output.println(" @Override");
output.println(" public final boolean is" + type + "() {");
if( 0 != (GEN_GL_IDENTITY_BY_ASSIGNABLE_CLASS & getMode() ) ) {
final Class clazz = BuildComposablePipeline.getClass("javax.media.opengl." + type);
if (clazz.isAssignableFrom(baseInterfaceClass)) {
output.println(" return true;");
} else {
output.println(" return false;");
}
} else {
output.println(" return " + getDownstreamObjectName() + ".is" + type + "();");
}
output.println(" }");
}
/**
* Emits all of the isGL* methods.
*/
protected void emitGLIsMethods(PrintWriter output) {
emitGLIsMethod(output, "GL");
emitGLIsMethod(output, "GL4bc");
emitGLIsMethod(output, "GL4");
emitGLIsMethod(output, "GL3bc");
emitGLIsMethod(output, "GL3");
emitGLIsMethod(output, "GL2");
emitGLIsMethod(output, "GLES1");
emitGLIsMethod(output, "GLES2");
emitGLIsMethod(output, "GLES3");
emitGLIsMethod(output, "GL2ES1");
emitGLIsMethod(output, "GL2ES2");
emitGLIsMethod(output, "GL3ES3");
emitGLIsMethod(output, "GL4ES3");
emitGLIsMethod(output, "GL2GL3");
if( 0 != (GEN_GL_IDENTITY_BY_ASSIGNABLE_CLASS & getMode() ) ) {
output.println(" @Override");
output.println(" public final boolean isGLES() {");
output.println(" return isGLES2() || isGLES1();");
output.println(" }");
} else {
emitGLIsMethod(output, "GLES");
}
output.println(" @Override");
output.println(" public final boolean isGL4core() {");
output.println(" return " + getDownstreamObjectName() + ".isGL4core();");
output.println(" }");
output.println(" @Override");
output.println(" public final boolean isGL3core() {");
output.println(" return " + getDownstreamObjectName() + ".isGL3core();");
output.println(" }");
output.println(" @Override");
output.println(" public final boolean isGLcore() {");
output.println(" return " + getDownstreamObjectName() + ".isGLcore();");
output.println(" }");
output.println(" @Override");
output.println(" public final boolean isGLES2Compatible() {");
output.println(" return " + getDownstreamObjectName() + ".isGLES2Compatible();");
output.println(" }");
output.println(" @Override");
output.println(" public final boolean isGLES3Compatible() {");
output.println(" return " + getDownstreamObjectName() + ".isGLES3Compatible();");
output.println(" }");
}
/**
* Emits one of the getGL* methods.
*/
protected void emitGLGetMethod(PrintWriter output, String type) {
output.println(" @Override");
output.println(" public final javax.media.opengl." + type + " get" + type + "() {");
if( 0 != (GEN_GL_IDENTITY_BY_ASSIGNABLE_CLASS & getMode() ) ) {
final Class clazz = BuildComposablePipeline.getClass("javax.media.opengl." + type);
if (clazz.isAssignableFrom(baseInterfaceClass)) {
output.println(" return this;");
} else {
output.println(" throw new GLException(\"Not a " + type + " implementation\");");
}
} else {
output.println(" return " + getDownstreamObjectName() + ".get" + type + "();");
}
output.println(" }");
}
/**
* Emits all of the getGL* methods.
*/
protected void emitGLGetMethods(PrintWriter output) {
emitGLGetMethod(output, "GL");
emitGLGetMethod(output, "GL4bc");
emitGLGetMethod(output, "GL4");
emitGLGetMethod(output, "GL3bc");
emitGLGetMethod(output, "GL3");
emitGLGetMethod(output, "GL2");
emitGLGetMethod(output, "GLES1");
emitGLGetMethod(output, "GLES2");
emitGLGetMethod(output, "GLES3");
emitGLGetMethod(output, "GL2ES1");
emitGLGetMethod(output, "GL2ES2");
emitGLGetMethod(output, "GL3ES3");
emitGLGetMethod(output, "GL4ES3");
emitGLGetMethod(output, "GL2GL3");
output.println(" @Override");
output.println(" public final GL getDownstreamGL() throws GLException {");
output.println(" return " + getDownstreamObjectName() + ";");
output.println(" }");
output.println(" @Override");
output.println(" public final GLProfile getGLProfile() {");
output.println(" return " + getDownstreamObjectName() + ".getGLProfile();");
output.println(" }");
}
} // end class PipelineEmitter
//-------------------------------------------------------
protected class CustomPipeline extends PipelineEmitter {
String className;
int mode;
CustomPipeline(int mode, String outputDir, String outputPackage, String outputName, Class baseInterfaceClass, Class prologClassOpt, Class downstreamClass) {
super(outputDir, outputPackage, baseInterfaceClass, prologClassOpt, downstreamClass);
className = outputName;
this.mode = mode;
}
protected String getOutputName() {
return className;
}
protected int getMode() {
return mode;
}
protected boolean emptyMethodAllowed() {
return true;
}
protected boolean emptyDownstreamAllowed() {
return true;
}
@Override
protected void preMethodEmissionHook(PrintWriter output) {
super.preMethodEmissionHook(output);
}
protected void constructorHook(PrintWriter output) {
output.print(" public " + getOutputName() + "(");
output.print(downstreamName + " " + getDownstreamObjectName());
if (null != prologNameOpt) {
output.println(", " + prologNameOpt + " " + getPrologObjectNameOpt() + ")");
} else {
output.println(")");
}
output.println(" {");
output.println(" if (" + getDownstreamObjectName() + " == null) {");
output.println(" throw new IllegalArgumentException(\"null " + getDownstreamObjectName() + "\");");
output.println(" }");
output.print(" this." + getDownstreamObjectName());
output.println(" = " + getDownstreamObjectName() + ";");
if (null != prologNameOpt) {
output.print(" this." + getPrologObjectNameOpt());
output.println(" = " + getPrologObjectNameOpt() + ";");
}
output.println(" }");
output.println();
}
@Override
protected void postMethodEmissionHook(PrintWriter output) {
super.postMethodEmissionHook(output);
if (null != prologNameOpt) {
output.print(" private " + prologNameOpt + " " + getPrologObjectNameOpt() + ";");
}
}
protected void emitClassDocComment(PrintWriter output) {
output.println("/**");
output.println(" * Composable pipeline {@link " + outputPackage + "." + outputName + "}, implementing the interface");
output.println(" * {@link " + baseInterfaceClass.getName() + "}");
output.println(" * ");
output.println(" * Each method follows the call graph
");
if (null != prologClassOpt) {
output.println(" * - call prolog {@link " + prologClassOpt.getName() + "} if available");
}
output.println(" *
- call downstream {@link " + downstreamClass.getName() + "} if available");
if (null != prologClassOpt && 0 != (GEN_PROLOG_XOR_DOWNSTREAM & getMode())) {
output.println(" * and if no call to {@link " + prologClassOpt.getName() + "} is made");
}
output.println(" *
");
output.println(" * ");
output.println(" *
");
output.println(" * - Interface {@link " + baseInterfaceClass.getName() + "}");
if (null != prologClassOpt) {
output.println(" *
- Prolog {@link " + prologClassOpt.getName() + "}");
}
output.println(" *
- Downstream {@link " + downstreamClass.getName() + "}");
output.println(" *
");
output.println(" * Sample code which installs this pipeline:
");
output.println(" * ");
output.println("");
if (null != prologNameOpt) {
output.println(" GL gl = drawable.setGL( new " + className + "( drawable.getGL().getGL2ES2(), new " + prologNameOpt + "( drawable.getGL().getGL2ES2() ) ) );");
} else {
output.println(" GL gl = drawable.setGL( new " + className + "( drawable.getGL().getGL2ES2() ) );");
}
output.println("");
output.println("*/");
}
protected boolean hasPreDownstreamCallHook(Method m) {
return null != getMethod(prologClassOpt, m);
}
protected void preDownstreamCallHook(PrintWriter output, Method m) {
if (null != prologNameOpt) {
output.print(getPrologObjectNameOpt());
output.print('.');
output.print(m.getName());
output.print('(');
output.print(getArgListAsString(m, false, true));
output.println(");");
}
}
protected boolean hasPostDownstreamCallHook(Method m) {
return false;
}
protected void postDownstreamCallHook(PrintWriter output, Method m) {
}
} // end class CustomPipeline
protected class DebugPipeline extends PipelineEmitter {
String className;
DebugPipeline(String outputDir, String outputPackage, Class baseInterfaceClass, Class downstreamClass) {
super(outputDir, outputPackage, baseInterfaceClass, null, downstreamClass);
className = "Debug" + getBaseInterfaceName();
}
protected String getOutputName() {
return className;
}
protected int getMode() {
return 0;
}
protected boolean emptyMethodAllowed() {
return false;
}
protected boolean emptyDownstreamAllowed() {
return false;
}
@Override
protected void preMethodEmissionHook(PrintWriter output) {
super.preMethodEmissionHook(output);
}
protected void constructorHook(PrintWriter output) {
output.print(" public " + getOutputName() + "(");
output.println(downstreamName + " " + getDownstreamObjectName() + ")");
output.println(" {");
output.println(" if (" + getDownstreamObjectName() + " == null) {");
output.println(" throw new IllegalArgumentException(\"null " + getDownstreamObjectName() + "\");");
output.println(" }");
output.print(" this." + getDownstreamObjectName());
output.println(" = " + getDownstreamObjectName() + ";");
if (null != prologNameOpt) {
output.print(" this." + getPrologObjectNameOpt());
output.println(" = " + getPrologObjectNameOpt() + ";");
}
output.println(" // Fetch GLContext object for better error checking (if possible)");
output.println(" _context = " + getDownstreamObjectName() + ".getContext();");
output.println(" }");
output.println();
}
@Override
protected void postMethodEmissionHook(PrintWriter output) {
super.postMethodEmissionHook(output);
output.println(" private void checkGLGetError(String caller)");
output.println(" {");
if (hasImmediateMode) {
output.println(" if (insideBeginEndPair) {");
output.println(" return;");
output.println(" }");
output.println();
}
output.println(" // Debug code to make sure the pipeline is working; leave commented out unless testing this class");
output.println(" //System.err.println(\"Checking for GL errors "
+ "after call to \" + caller);");
output.println();
output.println(" int err = "
+ getDownstreamObjectName()
+ ".glGetError();");
output.println(" if (err == GL_NO_ERROR) { return; }");
output.println();
output.println(" StringBuilder buf = new StringBuilder(Thread.currentThread()+");
output.println(" \" glGetError() returned the following error codes after a call to \" + caller + \": \");");
output.println();
output.println(" // Loop repeatedly to allow for distributed GL implementations,");
output.println(" // as detailed in the glGetError() specification");
output.println(" int recursionDepth = 10;");
output.println(" do {");
output.println(" switch (err) {");
output.println(" case GL_INVALID_ENUM: buf.append(\"GL_INVALID_ENUM \"); break;");
output.println(" case GL_INVALID_VALUE: buf.append(\"GL_INVALID_VALUE \"); break;");
output.println(" case GL_INVALID_OPERATION: buf.append(\"GL_INVALID_OPERATION \"); break;");
if (hasGL2ES1StackOverflow) {
output.println(" case GL2ES1.GL_STACK_OVERFLOW: buf.append(\"GL_STACK_OVERFLOW \"); break;");
output.println(" case GL2ES1.GL_STACK_UNDERFLOW: buf.append(\"GL_STACK_UNDERFLOW \"); break;");
}
output.println(" case GL_OUT_OF_MEMORY: buf.append(\"GL_OUT_OF_MEMORY \"); break;");
output.println(" case GL_NO_ERROR: throw new InternalError(\"Should not be treating GL_NO_ERROR as error\");");
output.println(" default: buf.append(\"Unknown glGetError() return value: \");");
output.println(" }");
output.println(" buf.append(\"( \" + err + \" 0x\"+Integer.toHexString(err).toUpperCase() + \"), \");");
output.println(" } while ((--recursionDepth >= 0) && (err = "
+ getDownstreamObjectName()
+ ".glGetError()) != GL_NO_ERROR);");
output.println(" throw new GLException(buf.toString());");
output.println(" }");
if (hasImmediateMode) {
output.println(" /** True if the pipeline is inside a glBegin/glEnd pair.*/");
output.println(" private boolean insideBeginEndPair = false;");
output.println();
}
output.println(" private void checkContext() {");
output.println(" GLContext currentContext = GLContext.getCurrent();");
output.println(" if (currentContext == null) {");
output.println(" throw new GLException(\"No OpenGL context is current on this thread\");");
output.println(" }");
output.println(" if ((_context != null) && (_context != currentContext)) {");
output.println(" throw new GLException(\"This GL object is being incorrectly used with a different GLContext than that which created it\");");
output.println(" }");
output.println(" }");
output.println(" private GLContext _context;");
}
protected void emitClassDocComment(PrintWriter output) {
output.println("/**");
output.println(" * ");
output.println(" * Composable pipeline which wraps an underlying {@link GL} implementation,");
output.println(" * providing error checking after each OpenGL method call. If an error occurs,");
output.println(" * causes a {@link GLException} to be thrown at exactly the point of failure.");
output.println(" *
");
output.println(" * ");
output.println(" * Sample code which installs this pipeline:");
output.println(" *
");
output.println(" * gl = drawable.setGL(new DebugGL(drawable.getGL()));");
output.println(" * ");
output.println(" * For automatic instantiation see {@link GLPipelineFactory#create(String, Class, GL, Object[])}");
output.println(" * ");
output.println(" */");
}
protected boolean hasPreDownstreamCallHook(Method m) {
return true;
}
protected void preDownstreamCallHook(PrintWriter output, Method m) {
output.println(" checkContext();");
}
protected boolean hasPostDownstreamCallHook(Method m) {
return true;
}
protected void postDownstreamCallHook(PrintWriter output, Method m) {
if (m.getName().equals("glBegin")) {
output.println(" insideBeginEndPair = true;");
output.println(" // NOTE: can't check glGetError(); it's not allowed inside glBegin/glEnd pair");
} else {
if (m.getName().equals("glEnd")) {
output.println(" insideBeginEndPair = false;");
}
output.println(" String txt = new String(\"" + m.getName() + "(\" +");
Class[] params = m.getParameterTypes();
for (int i = 0; params != null && i < params.length; i++) {
output.print(" \"<" + params[i].getName() + ">");
if (params[i].isArray()) {
output.print("\" +");
} else if (params[i].equals(int.class)) {
output.print(" 0x\"+Integer.toHexString(arg" + i + ").toUpperCase() +");
} else {
output.print(" \"+arg" + i + " +");
}
if (i < params.length - 1) {
output.println(" \", \" +");
}
}
output.println(" \")\");");
// calls to glGetError() are only allowed outside of glBegin/glEnd pairs
output.println(" checkGLGetError( txt );");
}
}
} // end class DebugPipeline
//-------------------------------------------------------
protected class TracePipeline extends PipelineEmitter {
String className;
TracePipeline(String outputDir, String outputPackage, Class baseInterfaceClass, Class downstreamClass) {
super(outputDir, outputPackage, baseInterfaceClass, null, downstreamClass);
className = "Trace" + getBaseInterfaceName();
}
protected String getOutputName() {
return className;
}
protected int getMode() {
return 0;
}
protected boolean emptyMethodAllowed() {
return false;
}
protected boolean emptyDownstreamAllowed() {
return false;
}
@Override
protected void preMethodEmissionHook(PrintWriter output) {
super.preMethodEmissionHook(output);
}
protected void constructorHook(PrintWriter output) {
output.print(" public " + getOutputName() + "(");
output.println(downstreamName + " " + getDownstreamObjectName() + ", PrintStream " + getOutputStreamName() + ")");
output.println(" {");
output.println(" if (" + getDownstreamObjectName() + " == null) {");
output.println(" throw new IllegalArgumentException(\"null " + getDownstreamObjectName() + "\");");
output.println(" }");
output.print(" this." + getDownstreamObjectName());
output.println(" = " + getDownstreamObjectName() + ";");
output.print(" this." + getOutputStreamName());
output.println(" = " + getOutputStreamName() + ";");
output.println(" }");
output.println();
}
@Override
protected void postMethodEmissionHook(PrintWriter output) {
super.postMethodEmissionHook(output);
output.println("private PrintStream " + getOutputStreamName() + ";");
output.println("private int indent = 0;");
output.println("protected String dumpArray(Object obj)");
output.println("{");
output.println(" if (obj == null) return \"[null]\";");
output.println(" StringBuilder sb = new StringBuilder(\"[\");");
output.println(" int len = java.lang.reflect.Array.getLength(obj);");
output.println(" int count = Math.min(len,16);");
output.println(" for ( int i =0; i < count; i++ ) {");
output.println(" sb.append(java.lang.reflect.Array.get(obj,i));");
output.println(" if (i < count-1)");
output.println(" sb.append(',');");
output.println(" }");
output.println(" if ( len > 16 )");
output.println(" sb.append(\"...\").append(len);");
output.println(" sb.append(']');");
output.println(" return sb.toString();");
output.println("}");
output.println("protected void print(String str)");
output.println("{");
output.println(" " + getOutputStreamName() + ".print(str);");
output.println("}");
output.println("protected void println(String str)");
output.println("{");
output.println(" " + getOutputStreamName() + ".println(str);");
output.println("}");
output.println("protected void printIndent()");
output.println("{");
output.println(" for( int i =0; i < indent; i++) {" + getOutputStreamName() + ".print(' ');}");
output.println("}");
}
protected void emitClassDocComment(PrintWriter output) {
output.println("/**");
output.println(" * ");
output.println(" * Composable pipeline which wraps an underlying {@link GL} implementation,");
output.println(" * providing tracing information to a user-specified {@link java.io.PrintStream}");
output.println(" * before and after each OpenGL method call.");
output.println(" *
");
output.println(" * ");
output.println(" * Sample code which installs this pipeline:");
output.println(" *
");
output.println(" * gl = drawable.setGL(new TraceGL(drawable.getGL(), System.err));");
output.println(" * ");
output.println(" * For automatic instantiation see {@link GLPipelineFactory#create(String, Class, GL, Object[])}");
output.println(" * ");
output.println(" */");
}
protected boolean hasPreDownstreamCallHook(Method m) {
return true;
}
protected void preDownstreamCallHook(PrintWriter output, Method m) {
if (m.getName().equals("glEnd") || m.getName().equals("glEndList")) {
output.println("indent-=2;");
output.println(" printIndent();");
} else {
output.println("printIndent();");
}
output.print(" print(");
printFunctionCallString(output, m);
output.println(");");
}
protected boolean hasPostDownstreamCallHook(Method m) {
return true;
}
protected void postDownstreamCallHook(PrintWriter output, Method m) {
Class ret = m.getReturnType();
if (ret != Void.TYPE) {
output.println(" println(\" = \"+_res);");
} else {
output.println(" println(\"\");");
}
}
private String getOutputStreamName() {
return "stream";
}
} // end class TracePipeline
public static final void printFunctionCallString(PrintWriter output, Method m) {
Class[] params = m.getParameterTypes();
output.print(" \"" + m.getName() + "(\"");
for (int i = 0; i < params.length; i++) {
output.print("+\"<" + params[i].getName() + ">");
if (params[i].isArray()) {
output.print("\"");
} else if (params[i].equals(int.class)) {
output.print(" 0x\"+Integer.toHexString(arg" + i + ").toUpperCase()");
} else {
output.print(" \"+arg" + i);
}
if (i < params.length - 1) {
output.print("+\", \"");
}
}
output.print("+\")\"");
}
}