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Example 11 with DataSourceException

use of com.laytonsmith.persistence.DataSourceException in project CommandHelper by EngineHub.

the class MethodScriptCompiler method optimize.

/**
 * Recurses down into the tree, attempting to optimize where possible. A few things have strong coupling, for
 * information on these items, see the documentation included in the source.
 *
 * @param tree
 * @return
 */
private static void optimize(ParseTree tree, Stack<List<Procedure>> procs, Set<ConfigCompileException> compilerErrors) {
    if (tree.isOptimized()) {
        // Don't need to re-run this
        return;
    }
    // }
    if (!(tree.getData() instanceof CFunction)) {
        // There's no way to optimize something that's not a function
        return;
    }
    // If it is a proc definition, we need to go ahead and see if we can add it to the const proc stack
    if (tree.getData().val().equals("proc")) {
        procs.push(new ArrayList<Procedure>());
    }
    CFunction cFunction = (CFunction) tree.getData();
    Function func;
    try {
        func = (Function) FunctionList.getFunction(cFunction);
    } catch (ConfigCompileException e) {
        func = null;
    }
    if (func != null) {
        if (func.getClass().getAnnotation(nolinking.class) != null) {
            // It's an unlinking function, so we need to stop at this point
            return;
        }
    }
    if (cFunction instanceof CIdentifier) {
        // Add the child to the identifier
        ParseTree c = ((CIdentifier) cFunction).contained();
        tree.addChild(c);
        c.getData().setWasIdentifier(true);
    }
    List<ParseTree> children = tree.getChildren();
    if (func instanceof Optimizable && ((Optimizable) func).optimizationOptions().contains(OptimizationOption.PRIORITY_OPTIMIZATION)) {
        // would cause an error, even though the user did in fact provide code in that section.
        try {
            ((Optimizable) func).optimizeDynamic(tree.getTarget(), children, tree.getFileOptions());
        } catch (ConfigCompileException ex) {
            // If an error occurs, we will skip the rest of this element
            compilerErrors.add(ex);
            return;
        } catch (ConfigRuntimeException ex) {
            compilerErrors.add(new ConfigCompileException(ex));
            return;
        }
    }
    for (int i = 0; i < children.size(); i++) {
        ParseTree t = children.get(i);
        if (t.getData() instanceof CFunction) {
            if (t.getData().val().startsWith("_") || (func != null && func.useSpecialExec())) {
                continue;
            }
            Function f;
            try {
                f = (Function) FunctionList.getFunction(t.getData());
            } catch (ConfigCompileException ex) {
                compilerErrors.add(ex);
                return;
            }
            Set<OptimizationOption> options = NO_OPTIMIZATIONS;
            if (f instanceof Optimizable) {
                options = ((Optimizable) f).optimizationOptions();
            }
            if (options.contains(OptimizationOption.TERMINAL)) {
                if (children.size() > i + 1) {
                    // First, a compiler warning
                    CHLog.GetLogger().Log(CHLog.Tags.COMPILER, LogLevel.WARNING, "Unreachable code. Consider removing this code.", children.get(i + 1).getTarget());
                    // Now, truncate the children
                    for (int j = children.size() - 1; j > i; j--) {
                        children.remove(j);
                    }
                    break;
                }
            }
        }
    }
    boolean fullyStatic = true;
    boolean hasIVars = false;
    for (ParseTree node : children) {
        if (node.getData() instanceof CFunction) {
            optimize(node, procs, compilerErrors);
        }
        if (node.getData().isDynamic() && !(node.getData() instanceof IVariable)) {
            fullyStatic = false;
        }
        if (node.getData() instanceof IVariable) {
            hasIVars = true;
        }
    }
    // In all cases, at this point, we are either unable to optimize, or we will
    // optimize, so set our optimized variable at this point.
    tree.setOptimized(true);
    if (func == null) {
        // It's a proc call. Let's see if we can optimize it
        Procedure p = null;
        loop: for (List<Procedure> proc : procs) {
            for (Procedure pp : proc) {
                if (pp.getName().equals(cFunction.val())) {
                    p = pp;
                    break loop;
                }
            }
        }
        if (p != null) {
            try {
                Construct c = DataHandling.proc.optimizeProcedure(p.getTarget(), p, children);
                if (c != null) {
                    tree.setData(c);
                    tree.removeChildren();
                    return;
                }
            // else Nope, couldn't optimize.
            } catch (ConfigRuntimeException ex) {
                // Cool. Caught a runtime error at compile time :D
                compilerErrors.add(new ConfigCompileException(ex));
            }
        }
        // so we can't for sure say, but we do know we can't optimize this
        return;
    }
    if (tree.getData().val().equals("proc")) {
        // Check for too few arguments
        if (children.size() < 2) {
            compilerErrors.add(new ConfigCompileException("Incorrect number of arguments passed to proc", tree.getData().getTarget()));
            return;
        }
        // We just went out of scope, so we need to pop the layer of Procedures that
        // are internal to us
        procs.pop();
        // Let's see.
        try {
            ParseTree root = new ParseTree(new CFunction(__autoconcat__, Target.UNKNOWN), tree.getFileOptions());
            Script fakeScript = Script.GenerateScript(root, "*");
            Environment env = null;
            try {
                if (Implementation.GetServerType().equals(Implementation.Type.BUKKIT)) {
                    CommandHelperPlugin plugin = CommandHelperPlugin.self;
                    GlobalEnv gEnv = new GlobalEnv(plugin.executionQueue, plugin.profiler, plugin.persistenceNetwork, MethodScriptFileLocations.getDefault().getConfigDirectory(), plugin.profiles, new TaskManager());
                    env = Environment.createEnvironment(gEnv, new CommandHelperEnvironment());
                } else {
                    env = Static.GenerateStandaloneEnvironment(false);
                }
            } catch (IOException | DataSourceException | URISyntaxException | Profiles.InvalidProfileException e) {
            // 
            }
            Procedure myProc = DataHandling.proc.getProcedure(tree.getTarget(), env, fakeScript, children.toArray(new ParseTree[children.size()]));
            // Yep. So, we can move on with our lives now, and if it's used later, it could possibly be static.
            procs.peek().add(myProc);
        } catch (ConfigRuntimeException e) {
            // Well, they have an error in there somewhere
            compilerErrors.add(new ConfigCompileException(e));
        } catch (NullPointerException e) {
            // Nope, can't optimize.
            return;
        }
    }
    // the compiler trick functions know how to deal with it specially, even if everything isn't
    // static, so do this first.
    String oldFunctionName = func.getName();
    Set<OptimizationOption> options = NO_OPTIMIZATIONS;
    if (func instanceof Optimizable) {
        options = ((Optimizable) func).optimizationOptions();
    }
    if (options.contains(OptimizationOption.OPTIMIZE_DYNAMIC)) {
        try {
            ParseTree tempNode;
            try {
                tempNode = ((Optimizable) func).optimizeDynamic(tree.getData().getTarget(), tree.getChildren(), tree.getFileOptions());
            } catch (ConfigRuntimeException e) {
                // Turn it into a compile exception, then rethrow
                throw new ConfigCompileException(e);
            }
            if (tempNode == Optimizable.PULL_ME_UP) {
                if (tree.hasChildren()) {
                    tempNode = tree.getChildAt(0);
                } else {
                    tempNode = null;
                }
            }
            if (tempNode == Optimizable.REMOVE_ME) {
                tree.setData(new CFunction("p", Target.UNKNOWN));
                tree.removeChildren();
            } else if (tempNode != null) {
                tree.setData(tempNode.getData());
                tree.setOptimized(tempNode.isOptimized());
                tree.setChildren(tempNode.getChildren());
                tree.getData().setWasIdentifier(tempNode.getData().wasIdentifier());
                optimize(tree, procs, compilerErrors);
                tree.setOptimized(true);
                // array, so if they have reversed this, make note of that now
                if (tempNode.hasBeenMadeStatic()) {
                    fullyStatic = true;
                }
            }
        // else it wasn't an optimization, but a compile check
        } catch (ConfigCompileException ex) {
            compilerErrors.add(ex);
        }
    }
    if (!fullyStatic) {
        return;
    }
    // specially from here forward
    if (func.preResolveVariables() && hasIVars) {
        // Well, this function isn't equipped to deal with IVariables.
        return;
    }
    // don't want to run this now
    if (tree.getData().getValue().equals(oldFunctionName) && (options.contains(OptimizationOption.OPTIMIZE_CONSTANT) || options.contains(OptimizationOption.CONSTANT_OFFLINE))) {
        Construct[] constructs = new Construct[tree.getChildren().size()];
        for (int i = 0; i < tree.getChildren().size(); i++) {
            constructs[i] = tree.getChildAt(i).getData();
        }
        try {
            try {
                Construct result;
                if (options.contains(OptimizationOption.CONSTANT_OFFLINE)) {
                    List<Integer> numArgsList = Arrays.asList(func.numArgs());
                    if (!numArgsList.contains(Integer.MAX_VALUE) && !numArgsList.contains(tree.getChildren().size())) {
                        compilerErrors.add(new ConfigCompileException("Incorrect number of arguments passed to " + tree.getData().val(), tree.getData().getTarget()));
                        result = null;
                    } else {
                        result = func.exec(tree.getData().getTarget(), null, constructs);
                    }
                } else {
                    result = ((Optimizable) func).optimize(tree.getData().getTarget(), constructs);
                }
                // If the result is null, it was just a check, it can't optimize further.
                if (result != null) {
                    result.setWasIdentifier(tree.getData().wasIdentifier());
                    tree.setData(result);
                    tree.removeChildren();
                }
            } catch (ConfigRuntimeException e) {
                // Turn this into a ConfigCompileException, then rethrow
                throw new ConfigCompileException(e);
            }
        } catch (ConfigCompileException ex) {
            compilerErrors.add(ex);
        }
    }
// It doesn't know how to optimize. Oh well.
}
Also used : CommandHelperPlugin(com.laytonsmith.commandhelper.CommandHelperPlugin) IVariable(com.laytonsmith.core.constructs.IVariable) ConfigRuntimeException(com.laytonsmith.core.exceptions.ConfigRuntimeException) URISyntaxException(java.net.URISyntaxException) CString(com.laytonsmith.core.constructs.CString) ConfigCompileException(com.laytonsmith.core.exceptions.ConfigCompileException) Function(com.laytonsmith.core.functions.Function) CFunction(com.laytonsmith.core.constructs.CFunction) CommandHelperEnvironment(com.laytonsmith.core.environments.CommandHelperEnvironment) KeywordList(com.laytonsmith.core.compiler.KeywordList) FunctionList(com.laytonsmith.core.functions.FunctionList) List(java.util.List) ArrayList(java.util.ArrayList) LinkedList(java.util.LinkedList) com.laytonsmith.annotations.nolinking(com.laytonsmith.annotations.nolinking) OptimizationOption(com.laytonsmith.core.Optimizable.OptimizationOption) CFunction(com.laytonsmith.core.constructs.CFunction) IOException(java.io.IOException) AtomicInteger(java.util.concurrent.atomic.AtomicInteger) TaskManager(com.laytonsmith.core.taskmanager.TaskManager) DataSourceException(com.laytonsmith.persistence.DataSourceException) CIdentifier(com.laytonsmith.core.constructs.CIdentifier) Construct(com.laytonsmith.core.constructs.Construct) CommandHelperEnvironment(com.laytonsmith.core.environments.CommandHelperEnvironment) Environment(com.laytonsmith.core.environments.Environment) GlobalEnv(com.laytonsmith.core.environments.GlobalEnv)

Aggregations

DataSourceException (com.laytonsmith.persistence.DataSourceException)11 IOException (java.io.IOException)11 URISyntaxException (java.net.URISyntaxException)8 DaemonManager (com.laytonsmith.PureUtilities.DaemonManager)4 ReadOnlyException (com.laytonsmith.persistence.ReadOnlyException)4 URI (java.net.URI)4 PersistenceNetwork (com.laytonsmith.persistence.PersistenceNetwork)3 ConnectionMixinFactory (com.laytonsmith.persistence.io.ConnectionMixinFactory)3 File (java.io.File)3 ServerSocket (java.net.ServerSocket)3 Socket (java.net.Socket)3 ArrayList (java.util.ArrayList)3 AutoFlushObjectOutputStream (com.laytonsmith.PureUtilities.Common.AutoFlushObjectOutputStream)2 ConfigCompileException (com.laytonsmith.core.exceptions.ConfigCompileException)2 Function (com.laytonsmith.core.functions.Function)2 TaskManager (com.laytonsmith.core.taskmanager.TaskManager)2 DataSource (com.laytonsmith.persistence.DataSource)2 ByteArrayOutputStream (java.io.ByteArrayOutputStream)2 ObjectInputStream (java.io.ObjectInputStream)2 ObjectOutputStream (java.io.ObjectOutputStream)2