Example 1 with CKeyword
use of com.laytonsmith.core.constructs.CKeyword in project CommandHelper by EngineHub.
the class MethodScriptCompiler method compile.
/**
* Compiles the token stream into a valid ParseTree. This also includes optimization and reduction.
*
* @param stream The token stream, as generated by {@link #lex(String, File, boolean) lex}
* @return A fully compiled, optimized, and reduced parse tree. If {@code stream} is null or empty, null is
* returned.
* @throws ConfigCompileException If the script contains syntax errors. Additionally, during optimization, certain
* methods may cause compile errors. Any function that can optimize static occurrences and throws a
* {@link ConfigRuntimeException} will have that exception converted to a ConfigCompileException.
*/
public static ParseTree compile(TokenStream stream) throws ConfigCompileException, ConfigCompileGroupException {
Set<ConfigCompileException> compilerErrors = new HashSet<>();
if (stream == null || stream.isEmpty()) {
return null;
}
Target unknown;
try {
// Instead of using Target.UNKNOWN, we can at least set the file.
unknown = new Target(0, stream.get(0).target.file(), 0);
} catch (Exception e) {
unknown = Target.UNKNOWN;
}
// Remove all newlines and whitespaces.
ListIterator<Token> it = stream.listIterator(0);
while (it.hasNext()) {
if (it.next().type.isWhitespace()) {
it.remove();
}
}
// Get the file options.
final FileOptions fileOptions = stream.getFileOptions();
ParseTree tree = new ParseTree(fileOptions);
tree.setData(CNull.NULL);
Stack<ParseTree> parents = new Stack<>();
/**
* constructCount is used to determine if we need to use autoconcat when reaching a FUNC_END. The previous
* constructs, if the count is greater than 1, will be moved down into an autoconcat.
*/
Stack<AtomicInteger> constructCount = new Stack<>();
constructCount.push(new AtomicInteger(0));
parents.push(tree);
tree.addChild(new ParseTree(new CFunction("__autoconcat__", unknown), fileOptions));
parents.push(tree.getChildAt(0));
tree = tree.getChildAt(0);
constructCount.push(new AtomicInteger(0));
/**
* The array stack is used to keep track of the number of square braces in use.
*/
Stack<AtomicInteger> arrayStack = new Stack<>();
arrayStack.add(new AtomicInteger(-1));
Stack<AtomicInteger> minusArrayStack = new Stack<>();
Stack<AtomicInteger> minusFuncStack = new Stack<>();
int parens = 0;
Token t = null;
int bracketCount = 0;
// Create a Token array to iterate over, rather than using the LinkedList's O(n) get() method.
Token[] tokenArray = stream.toArray(new Token[stream.size()]);
for (int i = 0; i < tokenArray.length; i++) {
t = tokenArray[i];
Token prev1 = i - 1 >= 0 ? tokenArray[i - 1] : new Token(TType.UNKNOWN, "", t.target);
Token next1 = i + 1 < stream.size() ? tokenArray[i + 1] : new Token(TType.UNKNOWN, "", t.target);
Token next2 = i + 2 < stream.size() ? tokenArray[i + 2] : new Token(TType.UNKNOWN, "", t.target);
Token next3 = i + 3 < stream.size() ? tokenArray[i + 3] : new Token(TType.UNKNOWN, "", t.target);
// Brace handling
if (t.type == TType.LCURLY_BRACKET) {
ParseTree b = new ParseTree(new CFunction("__cbrace__", t.getTarget()), fileOptions);
tree.addChild(b);
tree = b;
parents.push(b);
bracketCount++;
constructCount.push(new AtomicInteger(0));
continue;
}
if (t.type == TType.RCURLY_BRACKET) {
bracketCount--;
if (constructCount.peek().get() > 1) {
// We need to autoconcat some stuff
int stacks = constructCount.peek().get();
int replaceAt = tree.getChildren().size() - stacks;
ParseTree c = new ParseTree(new CFunction("__autoconcat__", tree.getTarget()), fileOptions);
List<ParseTree> subChildren = new ArrayList<>();
for (int b = replaceAt; b < tree.numberOfChildren(); b++) {
subChildren.add(tree.getChildAt(b));
}
c.setChildren(subChildren);
if (replaceAt > 0) {
List<ParseTree> firstChildren = new ArrayList<>();
for (int d = 0; d < replaceAt; d++) {
firstChildren.add(tree.getChildAt(d));
}
tree.setChildren(firstChildren);
} else {
tree.removeChildren();
}
tree.addChild(c);
}
parents.pop();
tree = parents.peek();
constructCount.pop();
try {
constructCount.peek().incrementAndGet();
} catch (EmptyStackException e) {
throw new ConfigCompileException("Unexpected end curly brace", t.target);
}
continue;
}
// Associative array/label handling
if (t.type == TType.LABEL && tree.getChildren().size() > 0) {
// If it's not an atomic identifier it's an error.
if (!prev1.type.isAtomicLit() && prev1.type != TType.IVARIABLE && prev1.type != TType.KEYWORD) {
ConfigCompileException error = new ConfigCompileException("Invalid label specified", t.getTarget());
if (prev1.type == TType.FUNC_END) {
// and stop compilation at this point.
throw error;
}
compilerErrors.add(error);
}
// Wrap previous construct in a CLabel
ParseTree cc = tree.getChildren().get(tree.getChildren().size() - 1);
tree.removeChildAt(tree.getChildren().size() - 1);
tree.addChild(new ParseTree(new CLabel(cc.getData()), fileOptions));
continue;
}
// Array notation handling
if (t.type.equals(TType.LSQUARE_BRACKET)) {
arrayStack.push(new AtomicInteger(tree.getChildren().size() - 1));
continue;
} else if (t.type.equals(TType.RSQUARE_BRACKET)) {
boolean emptyArray = false;
if (prev1.type.equals(TType.LSQUARE_BRACKET)) {
emptyArray = true;
}
if (arrayStack.size() == 1) {
throw new ConfigCompileException("Mismatched square bracket", t.target);
}
// array is the location of the array
int array = arrayStack.pop().get();
// index is the location of the first node with the index
int index = array + 1;
if (!tree.hasChildren() || array == -1) {
throw new ConfigCompileException("Brackets are illegal here", t.target);
}
ParseTree myArray = tree.getChildAt(array);
ParseTree myIndex;
if (!emptyArray) {
myIndex = new ParseTree(new CFunction("__autoconcat__", myArray.getTarget()), fileOptions);
for (int j = index; j < tree.numberOfChildren(); j++) {
myIndex.addChild(tree.getChildAt(j));
}
} else {
myIndex = new ParseTree(new CSlice("0..-1", t.target), fileOptions);
}
tree.setChildren(tree.getChildren().subList(0, array));
ParseTree arrayGet = new ParseTree(new CFunction("array_get", t.target), fileOptions);
arrayGet.addChild(myArray);
arrayGet.addChild(myIndex);
// Check if the @var[...] had a negating "-" in front. If so, add a neg().
if (!minusArrayStack.isEmpty() && arrayStack.size() + 1 == minusArrayStack.peek().get()) {
if (!next1.type.equals(TType.LSQUARE_BRACKET)) {
// Wait if there are more array_get's comming.
ParseTree negTree = new ParseTree(new CFunction("neg", unknown), fileOptions);
negTree.addChild(arrayGet);
tree.addChild(negTree);
minusArrayStack.pop();
} else {
// Negate the next array_get instead, so just add this one to the tree.
tree.addChild(arrayGet);
}
} else {
tree.addChild(arrayGet);
}
constructCount.peek().set(constructCount.peek().get() - myIndex.numberOfChildren());
continue;
}
// Smart strings
if (t.type == TType.SMART_STRING) {
if (t.val().contains("@")) {
ParseTree function = new ParseTree(fileOptions);
function.setData(new CFunction(new Compiler.smart_string().getName(), t.target));
ParseTree string = new ParseTree(fileOptions);
string.setData(new CString(t.value, t.target));
function.addChild(string);
tree.addChild(function);
} else {
tree.addChild(new ParseTree(new CString(t.val(), t.target), fileOptions));
}
constructCount.peek().incrementAndGet();
continue;
}
if (t.type == TType.DEREFERENCE) {
// Currently unimplemented, but going ahead and making it strict
compilerErrors.add(new ConfigCompileException("The '" + t.val() + "' symbol is not currently allowed in raw strings. You must quote all" + " symbols.", t.target));
}
if (t.type.equals(TType.FUNC_NAME)) {
CFunction func = new CFunction(t.val(), t.target);
ParseTree f = new ParseTree(func, fileOptions);
tree.addChild(f);
constructCount.push(new AtomicInteger(0));
tree = f;
parents.push(f);
} else if (t.type.equals(TType.FUNC_START)) {
if (!prev1.type.equals(TType.FUNC_NAME)) {
throw new ConfigCompileException("Unexpected parenthesis", t.target);
}
parens++;
} else if (t.type.equals(TType.FUNC_END)) {
if (parens <= 0) {
throw new ConfigCompileException("Unexpected parenthesis", t.target);
}
parens--;
// Pop function.
parents.pop();
if (constructCount.peek().get() > 1) {
// We need to autoconcat some stuff
int stacks = constructCount.peek().get();
int replaceAt = tree.getChildren().size() - stacks;
ParseTree c = new ParseTree(new CFunction("__autoconcat__", tree.getTarget()), fileOptions);
List<ParseTree> subChildren = new ArrayList<>();
for (int b = replaceAt; b < tree.numberOfChildren(); b++) {
subChildren.add(tree.getChildAt(b));
}
c.setChildren(subChildren);
if (replaceAt > 0) {
List<ParseTree> firstChildren = new ArrayList<>();
for (int d = 0; d < replaceAt; d++) {
firstChildren.add(tree.getChildAt(d));
}
tree.setChildren(firstChildren);
} else {
tree.removeChildren();
}
tree.addChild(c);
}
constructCount.pop();
try {
constructCount.peek().incrementAndGet();
} catch (EmptyStackException e) {
throw new ConfigCompileException("Unexpected end parenthesis", t.target);
}
try {
tree = parents.peek();
} catch (EmptyStackException e) {
throw new ConfigCompileException("Unexpected end parenthesis", t.target);
}
// Handle "-func(args)" and "-func(args)[index]".
if (!minusFuncStack.isEmpty() && minusFuncStack.peek().get() == parens + 1) {
if (next1.type.equals(TType.LSQUARE_BRACKET)) {
// Move the negation to the array_get which contains this function.
// +1 because the bracket isn't counted yet.
minusArrayStack.push(new AtomicInteger(arrayStack.size() + 1));
} else {
// Negate this function.
ParseTree negTree = new ParseTree(new CFunction("neg", unknown), fileOptions);
negTree.addChild(tree.getChildAt(tree.numberOfChildren() - 1));
tree.removeChildAt(tree.numberOfChildren() - 1);
tree.addChildAt(tree.numberOfChildren(), negTree);
}
minusFuncStack.pop();
}
} else if (t.type.equals(TType.COMMA)) {
if (constructCount.peek().get() > 1) {
int stacks = constructCount.peek().get();
int replaceAt = tree.getChildren().size() - stacks;
ParseTree c = new ParseTree(new CFunction("__autoconcat__", unknown), fileOptions);
List<ParseTree> subChildren = new ArrayList<>();
for (int b = replaceAt; b < tree.numberOfChildren(); b++) {
subChildren.add(tree.getChildAt(b));
}
c.setChildren(subChildren);
if (replaceAt > 0) {
List<ParseTree> firstChildren = new ArrayList<>();
for (int d = 0; d < replaceAt; d++) {
firstChildren.add(tree.getChildAt(d));
}
tree.setChildren(firstChildren);
} else {
tree.removeChildren();
}
tree.addChild(c);
}
constructCount.peek().set(0);
continue;
}
if (t.type == TType.SLICE) {
// "empty first" slice notation. Compare this to the code below.
try {
CSlice slice;
String value = next1.val();
if (next1.type == TType.MINUS || next1.type == TType.PLUS) {
value = next1.val() + next2.val();
i++;
}
slice = new CSlice(".." + value, t.getTarget());
i++;
tree.addChild(new ParseTree(slice, fileOptions));
constructCount.peek().incrementAndGet();
continue;
} catch (ConfigRuntimeException ex) {
// turn them into a CCE.
throw new ConfigCompileException(ex);
}
}
if (next1.type.equals(TType.SLICE)) {
// Slice notation handling
try {
CSlice slice;
if (t.type.isSeparator() || (t.type.isWhitespace() && prev1.type.isSeparator()) || t.type.isKeyword()) {
// empty first
String value = next2.val();
i++;
if (next2.type == TType.MINUS || next2.type == TType.PLUS) {
value = next2.val() + next3.val();
i++;
}
slice = new CSlice(".." + value, next1.getTarget());
if (t.type.isKeyword()) {
tree.addChild(new ParseTree(new CKeyword(t.val(), t.getTarget()), fileOptions));
constructCount.peek().incrementAndGet();
}
} else if (next2.type.isSeparator() || next2.type.isKeyword()) {
// empty last
String modifier = "";
if (prev1.type == TType.MINUS || prev1.type == TType.PLUS) {
// The negative would have already been inserted into the tree
modifier = prev1.val();
tree.removeChildAt(tree.getChildren().size() - 1);
}
slice = new CSlice(modifier + t.value + "..", t.target);
} else {
// both are provided
String modifier1 = "";
if (prev1.type == TType.MINUS || prev1.type == TType.PLUS) {
// It's a negative, incorporate that here, and remove the
// minus from the tree
modifier1 = prev1.val();
tree.removeChildAt(tree.getChildren().size() - 1);
}
Token first = t;
if (first.type.isWhitespace()) {
first = prev1;
}
Token second = next2;
i++;
String modifier2 = "";
if (next2.type == TType.MINUS || next2.type == TType.PLUS) {
modifier2 = next2.val();
second = next3;
i++;
}
slice = new CSlice(modifier1 + first.value + ".." + modifier2 + second.value, t.target);
}
i++;
tree.addChild(new ParseTree(slice, fileOptions));
constructCount.peek().incrementAndGet();
continue;
} catch (ConfigRuntimeException ex) {
// turn them into a CCE.
throw new ConfigCompileException(ex);
}
} else if (t.type == TType.LIT) {
Construct c = Static.resolveConstruct(t.val(), t.target);
if (c instanceof CString && fileOptions.isStrict()) {
compilerErrors.add(new ConfigCompileException("Bare strings are not allowed in strict mode", t.target));
} else if ((c instanceof CInt || c instanceof CDecimal) && next1.type == TType.DOT && next2.type == TType.LIT) {
// minus zero before decimals and leading zeroes after decimals
try {
if (t.value.startsWith("0m")) {
// CDecimal
String neg = "";
if (prev1.value.equals("-")) {
neg = "-";
}
c = new CDecimal(neg + t.value.substring(2) + '.' + next2.value, t.target);
} else {
// CDouble
c = new CDouble(Double.parseDouble(t.val() + '.' + next2.val()), t.target);
}
i += 2;
} catch (NumberFormatException e) {
// Not a double
}
}
tree.addChild(new ParseTree(c, fileOptions));
constructCount.peek().incrementAndGet();
} else if (t.type.equals(TType.STRING) || t.type.equals(TType.COMMAND)) {
tree.addChild(new ParseTree(new CString(t.val(), t.target), fileOptions));
constructCount.peek().incrementAndGet();
} else if (t.type.equals(TType.IDENTIFIER)) {
tree.addChild(new ParseTree(new CPreIdentifier(t.val(), t.target), fileOptions));
constructCount.peek().incrementAndGet();
} else if (t.type.isKeyword()) {
tree.addChild(new ParseTree(new CKeyword(t.val(), t.getTarget()), fileOptions));
constructCount.peek().incrementAndGet();
} else if (t.type.equals(TType.IVARIABLE)) {
tree.addChild(new ParseTree(new IVariable(t.val(), t.target), fileOptions));
constructCount.peek().incrementAndGet();
} else if (t.type.equals(TType.UNKNOWN)) {
tree.addChild(new ParseTree(Static.resolveConstruct(t.val(), t.target), fileOptions));
constructCount.peek().incrementAndGet();
} else if (t.type.isSymbol()) {
// Also handles "-function()" and "-@var[index]".
if (t.type.equals(TType.MINUS) && !prev1.type.isAtomicLit() && !prev1.type.equals(TType.IVARIABLE) && !prev1.type.equals(TType.VARIABLE) && !prev1.type.equals(TType.RCURLY_BRACKET) && !prev1.type.equals(TType.RSQUARE_BRACKET) && !prev1.type.equals(TType.FUNC_END) && (next1.type.equals(TType.IVARIABLE) || next1.type.equals(TType.VARIABLE) || next1.type.equals(TType.FUNC_NAME))) {
// Check if we are negating a value from an array, function or variable.
if (next2.type.equals(TType.LSQUARE_BRACKET)) {
// +1 because the bracket isn't counted yet.
minusArrayStack.push(new AtomicInteger(arrayStack.size() + 1));
} else if (next1.type.equals(TType.FUNC_NAME)) {
// +1 because the function isn't counted yet.
minusFuncStack.push(new AtomicInteger(parens + 1));
} else {
ParseTree negTree = new ParseTree(new CFunction("neg", unknown), fileOptions);
negTree.addChild(new ParseTree(new IVariable(next1.value, next1.target), fileOptions));
tree.addChild(negTree);
constructCount.peek().incrementAndGet();
// Skip the next variable as we've just handled it.
i++;
}
} else {
tree.addChild(new ParseTree(new CSymbol(t.val(), t.type, t.target), fileOptions));
constructCount.peek().incrementAndGet();
}
} else if (t.type == TType.DOT) {
// Check for doubles that start with a decimal, otherwise concat
Construct c = null;
if (next1.type == TType.LIT && prev1.type != TType.STRING && prev1.type != TType.SMART_STRING) {
try {
c = new CDouble(Double.parseDouble('.' + next1.val()), t.target);
i++;
} catch (NumberFormatException e) {
// Not a double
}
}
if (c == null) {
c = new CSymbol(".", TType.CONCAT, t.target);
}
tree.addChild(new ParseTree(c, fileOptions));
constructCount.peek().incrementAndGet();
} else if (t.type.equals(TType.VARIABLE) || t.type.equals(TType.FINAL_VAR)) {
tree.addChild(new ParseTree(new Variable(t.val(), null, false, t.type.equals(TType.FINAL_VAR), t.target), fileOptions));
constructCount.peek().incrementAndGet();
// right_vars.add(new Variable(t.val(), null, t.line_num));
}
}
assert t != null;
if (arrayStack.size() != 1) {
throw new ConfigCompileException("Mismatched square brackets", t.target);
}
if (parens != 0) {
throw new ConfigCompileException("Mismatched parenthesis", t.target);
}
if (bracketCount != 0) {
throw new ConfigCompileException("Mismatched curly braces", t.target);
}
Stack<List<Procedure>> procs = new Stack<>();
procs.add(new ArrayList<Procedure>());
processKeywords(tree);
optimizeAutoconcats(tree, compilerErrors);
optimize(tree, procs, compilerErrors);
link(tree, compilerErrors);
checkLabels(tree, compilerErrors);
checkBreaks(tree, compilerErrors);
if (!compilerErrors.isEmpty()) {
if (compilerErrors.size() == 1) {
// Just throw the one CCE
for (ConfigCompileException e : compilerErrors) {
throw e;
}
} else {
throw new ConfigCompileGroupException(compilerErrors);
}
}
parents.pop();
tree = parents.pop();
return tree;
}
Also used :
CLabel(com.laytonsmith.core.constructs.CLabel)
IVariable(com.laytonsmith.core.constructs.IVariable)
Variable(com.laytonsmith.core.constructs.Variable)
CSymbol(com.laytonsmith.core.constructs.CSymbol)
CPreIdentifier(com.laytonsmith.core.constructs.CPreIdentifier)
IVariable(com.laytonsmith.core.constructs.IVariable)
ArrayList(java.util.ArrayList)
Token(com.laytonsmith.core.constructs.Token)
CString(com.laytonsmith.core.constructs.CString)
ConfigRuntimeException(com.laytonsmith.core.exceptions.ConfigRuntimeException)
ConfigCompileException(com.laytonsmith.core.exceptions.ConfigCompileException)
CString(com.laytonsmith.core.constructs.CString)
EmptyStackException(java.util.EmptyStackException)
Target(com.laytonsmith.core.constructs.Target)
CSlice(com.laytonsmith.core.constructs.CSlice)
KeywordList(com.laytonsmith.core.compiler.KeywordList)
FunctionList(com.laytonsmith.core.functions.FunctionList)
List(java.util.List)
ArrayList(java.util.ArrayList)
LinkedList(java.util.LinkedList)
CDecimal(com.laytonsmith.core.constructs.CDecimal)
HashSet(java.util.HashSet)
Compiler(com.laytonsmith.core.functions.Compiler)
CFunction(com.laytonsmith.core.constructs.CFunction)
CDouble(com.laytonsmith.core.constructs.CDouble)
URISyntaxException(java.net.URISyntaxException)
ProgramFlowManipulationException(com.laytonsmith.core.exceptions.ProgramFlowManipulationException)
ConfigCompileException(com.laytonsmith.core.exceptions.ConfigCompileException)
DataSourceException(com.laytonsmith.persistence.DataSourceException)
NoSuchElementException(java.util.NoSuchElementException)
EmptyStackException(java.util.EmptyStackException)
IOException(java.io.IOException)
ConfigRuntimeException(com.laytonsmith.core.exceptions.ConfigRuntimeException)
ConfigCompileGroupException(com.laytonsmith.core.exceptions.ConfigCompileGroupException)
Stack(java.util.Stack)
CInt(com.laytonsmith.core.constructs.CInt)
AtomicInteger(java.util.concurrent.atomic.AtomicInteger)
Construct(com.laytonsmith.core.constructs.Construct)
CKeyword(com.laytonsmith.core.constructs.CKeyword)
ConfigCompileGroupException(com.laytonsmith.core.exceptions.ConfigCompileGroupException)
FileOptions(com.laytonsmith.core.compiler.FileOptions)
Example 2 with CKeyword
use of com.laytonsmith.core.constructs.CKeyword in project CommandHelper by EngineHub.
the class ForKeyword method process.
@Override
public int process(List<ParseTree> list, int keywordPosition) throws ConfigCompileException {
ParseTree _for = list.get(keywordPosition);
Target t = _for.getTarget();
if (list.size() > keywordPosition + 1) {
// This portion handles the initial code block, i.e. foreach(...){ }
ParseTree codeBlock = list.get(keywordPosition + 1);
if (isCodeBlock(codeBlock)) {
validateCodeBlock(codeBlock, "");
_for.addChild(getArgumentOrNull(codeBlock));
list.remove(keywordPosition + 1);
}
}
if (list.size() > keywordPosition + 1) {
// This part handles the else keyword, i.e. foreach(...){ } else { }
ParseTree elseKeyword = list.get(keywordPosition + 1);
// If it's not an else keyword, then we'll leave it alone, and be done.
if (elseKeyword.getData() instanceof CKeyword && elseKeyword.getData().val().equals("else")) {
list.remove(keywordPosition + 1);
ParseTree codeBlock = list.get(keywordPosition + 1);
if (isCodeBlock(codeBlock)) {
validateCodeBlock(codeBlock, "");
_for.addChild(getArgumentOrNull(codeBlock));
}
// We also have to refactor this into a foreachelse, instead of a foreach.
list.get(keywordPosition).setData(new CFunction(FORELSE, t));
list.remove(keywordPosition + 1);
}
}
return keywordPosition;
}Example 3 with CKeyword
use of com.laytonsmith.core.constructs.CKeyword in project CommandHelper by EngineHub.
the class ForeachKeyword method process.
@Override
public int process(List<ParseTree> list, int keywordPosition) throws ConfigCompileException {
ParseTree foreach = list.get(keywordPosition);
Target t = foreach.getTarget();
if (list.size() > keywordPosition + 1) {
// This portion handles the initial code block, i.e. foreach(...){ }
ParseTree codeBlock = list.get(keywordPosition + 1);
if (isCodeBlock(codeBlock)) {
validateCodeBlock(codeBlock, "");
foreach.addChild(getArgumentOrNull(codeBlock));
list.remove(keywordPosition + 1);
}
}
if (list.size() > keywordPosition + 1) {
// This part handles the else keyword, i.e. foreach(...){ } else { }
ParseTree elseKeyword = list.get(keywordPosition + 1);
// If it's not an else keyword, then we'll leave it alone, and be done.
if (elseKeyword.getData() instanceof CKeyword && elseKeyword.getData().val().equals("else")) {
list.remove(keywordPosition + 1);
ParseTree codeBlock = list.get(keywordPosition + 1);
if (isCodeBlock(codeBlock)) {
validateCodeBlock(codeBlock, "");
foreach.addChild(getArgumentOrNull(codeBlock));
}
// We also have to refactor this into a foreachelse, instead of a foreach.
list.get(keywordPosition).setData(new CFunction(FOREACHELSE, t));
list.remove(keywordPosition + 1);
}
}
return keywordPosition;
}Example 4 with CKeyword
use of com.laytonsmith.core.constructs.CKeyword in project CommandHelper by EngineHub.
the class ProcKeyword method process.
@Override
public int process(List<ParseTree> list, int keywordPosition) throws ConfigCompileException {
if (list.get(keywordPosition).getData() instanceof CKeyword) {
// It's a lone keyword, so we expect some function to follow, which is the proc name + variables
if (list.get(keywordPosition + 1).getData() instanceof CFunction) {
ParseTree proc = new ParseTree(new CFunction(PROC, list.get(keywordPosition).getTarget()), list.get(keywordPosition).getFileOptions());
proc.addChild(new ParseTree(new CString(list.get(keywordPosition + 1).getData().val(), list.get(keywordPosition + 1).getTarget()), list.get(keywordPosition + 1).getFileOptions()));
// Grab the functions children, and put them on the stack
for (ParseTree child : list.get(keywordPosition + 1).getChildren()) {
proc.addChild(child);
}
if (list.size() > keywordPosition + 2) {
validateCodeBlock(list.get(keywordPosition + 2), "Expected braces to follow proc definition");
proc.addChild(getArgumentOrNull(list.get(keywordPosition + 2)));
} else {
throw new ConfigCompileException("Expected braces to follow proc definition", list.get(keywordPosition + 1).getTarget());
}
// Remove the keyword
list.remove(keywordPosition);
// Remove the function definition
list.remove(keywordPosition);
// Remove the cbrace
list.remove(keywordPosition);
// Add in the new proc definition
list.add(keywordPosition, proc);
} else {
throw new ConfigCompileException("Unexpected use of \"proc\" keyword", list.get(keywordPosition).getTarget());
}
} else if (nodeIsProcFunction(list.get(keywordPosition))) {
// It's the functional usage, possibly followed by a cbrace. If so, pull the cbrace in, and that's it
if (list.size() > keywordPosition + 1) {
if (isValidCodeBlock(list.get(keywordPosition + 1))) {
list.get(keywordPosition).addChild(getArgumentOrNull(list.get(keywordPosition + 1)));
list.remove(keywordPosition + 1);
}
}
} else {
// Random keyword in the middle of nowhere
throw new ConfigCompileException("Unexpected use of \"proc\" keyword", list.get(keywordPosition).getTarget());
}
return keywordPosition;
}
Also used :
CFunction(com.laytonsmith.core.constructs.CFunction)
CKeyword(com.laytonsmith.core.constructs.CKeyword)
ConfigCompileException(com.laytonsmith.core.exceptions.ConfigCompileException)
ParseTree(com.laytonsmith.core.ParseTree)
CString(com.laytonsmith.core.constructs.CString)
Aggregations
CFunction (com.laytonsmith.core.constructs.CFunction)4
CKeyword (com.laytonsmith.core.constructs.CKeyword)4
ParseTree (com.laytonsmith.core.ParseTree)3
Target (com.laytonsmith.core.constructs.Target)3
CString (com.laytonsmith.core.constructs.CString)2
ConfigCompileException (com.laytonsmith.core.exceptions.ConfigCompileException)2
FileOptions (com.laytonsmith.core.compiler.FileOptions)1
KeywordList (com.laytonsmith.core.compiler.KeywordList)1
CDecimal (com.laytonsmith.core.constructs.CDecimal)1
CDouble (com.laytonsmith.core.constructs.CDouble)1
CInt (com.laytonsmith.core.constructs.CInt)1
CLabel (com.laytonsmith.core.constructs.CLabel)1
CPreIdentifier (com.laytonsmith.core.constructs.CPreIdentifier)1
CSlice (com.laytonsmith.core.constructs.CSlice)1
CSymbol (com.laytonsmith.core.constructs.CSymbol)1
Construct (com.laytonsmith.core.constructs.Construct)1
IVariable (com.laytonsmith.core.constructs.IVariable)1
Token (com.laytonsmith.core.constructs.Token)1
Variable (com.laytonsmith.core.constructs.Variable)1
ConfigCompileGroupException (com.laytonsmith.core.exceptions.ConfigCompileGroupException)1
