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DimXCompiler.java
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import java.io.File;
import org.stringtemplate.v4.*;
import org.antlr.v4.runtime.tree.TerminalNode;
import org.antlr.v4.runtime.ParserRuleContext;
/**
* This class is responsible for generate the code in the defined output
* language. It extends the GeneralBaseVisitor class, so it uses the software
* pattern visitor. It uses a string template file, in order to convert our
* languange statements in valid statements to the output language.
*/
public class DimXCompiler extends GeneralBaseVisitor<ST> {
protected int varCount = 0;
protected STGroup stg = null;
protected String targetLang = "java";
// SUPPORT FUNCTIONS
/**
* Checks if a string template file exists.
*
* @param outputLang Name of the file.
* @return true or false.
*/
public boolean validTarget(String outputLang) {
File stgFile = new File(outputLang + ".stg");
return (stgFile.exists() && stgFile.isFile() && stgFile.canRead());
}
/**
* Definition the output language.
*
* @param outputLang Name of the output language.
* @return always true
*/
public boolean setTarget(String outputLang) {
assert validTarget(outputLang);
this.targetLang = outputLang;
return true;
}
/**
* Returns a new variable name to use in the output language.
*
* @return A string representing a variable name.
*/
public String newVar() {
return "v" + varCount++;
}
// MAIN RULES
/**
* The first rule to visit in the syntatic tree. It starts the module and add
* all the statements to the main function.
*/
@Override
public ST visitMain(GeneralParser.MainContext ctx) {
assert (validTarget(this.targetLang)); // Check if we have a valid stgFile
this.stg = new STGroupFile("java.stg");
ST resultModule = this.stg.getInstanceOf("module"); // Final result
resultModule.add("stat", visit(ctx.statList()));
return resultModule;
}
/**
* It visits all the present statements in the syntatic tree, and adds all
* statements in a collection of statements.
*/
@Override
public ST visitStatList(GeneralParser.StatListContext ctx) {
ST resultStats = this.stg.getInstanceOf("stats"); // Intermediate results of all stats
for (GeneralParser.StatContext sc : ctx.stat()) {
resultStats.add("stat", visit(sc));
}
return resultStats;
}
// PRINT RULES
/**
* This method generates the output code for printing to the console an
* expression.
*/
@Override
public ST visitPrint(GeneralParser.PrintContext ctx) {
ST printResult = this.stg.getInstanceOf("print");
printResult.add("stat", visit(ctx.expr()));
printResult.add("expr", ctx.expr().varName);
if (!ctx.expr().unit.equals("Void"))
printResult.add("unit", ctx.expr().unit);
return printResult;
}
/**
* This method generates the output code for printing to the console the
* dimension of an expression.
*/
@Override
public ST visitDimensionCheck(GeneralParser.DimensionCheckContext ctx) {
ST printResult = this.stg.getInstanceOf("print");
printResult.add("stat", visit(ctx.expr()));
String res = ctx.expr().getText() + " DIMENSION : " + ctx.expr().dimension;
printResult.add("expr", "\"" + res + "\"");
return printResult;
}
/**
* This method generates the output code for printing to the console the unit of
* an expression.
*/
@Override
public ST visitUnitCheck(GeneralParser.UnitCheckContext ctx) {
ST printResult = this.stg.getInstanceOf("print");
printResult.add("stat", visit(ctx.expr()));
String res = ctx.expr().getText() + " UNIT : " + ctx.expr().unit;
printResult.add("expr", "\"" + res + "\"");
return printResult;
}
// ASSIGNMENT RULES
/**
* This method generates the code for only assign a value to a previously
* declared variable.
*/
@Override
public ST visitJustAssign(GeneralParser.JustAssignContext ctx) {
ST assignResult = stg.getInstanceOf("assign");
String id = ctx.ID().getText();
Symbol symbol = GeneralParser.map.get(id);
assignResult.add("stat", visit(ctx.expr()).render());
assignResult.add("var", symbol.varName());
assignResult.add("value", ctx.expr().varName);
return assignResult;
}
/**
* This method declares a new variable.
*/
@Override
public ST visitDeclaration(GeneralParser.DeclarationContext ctx) {
ST decResult = stg.getInstanceOf("declaration");
String id = ctx.ID().getText();
Symbol symbol = GeneralParser.map.get(id);
symbol.setVarName(newVar()); // Change var name to v
decResult.add("type", symbol.type().getType());
decResult.add("var", symbol.varName());
return decResult;
}
/**
* This method simultaneously declares a new variable and assigns a value to it.
*/
@Override
public ST visitDeclareAndAssign(GeneralParser.DeclareAndAssignContext ctx) {
ST result = stg.getInstanceOf("stats");
// Get the declaration
ST decResult = visit(ctx.declaration());
// Get the assignment
ST assResult = stg.getInstanceOf("assign");
String id = ctx.declaration().ID().getText();
Symbol symbol = GeneralParser.map.get(id);
assResult.add("stat", visit(ctx.expr()).render());
assResult.add("var", symbol.varName());
assResult.add("value", ctx.expr().varName);
// Write both declaration and assignment in seperate lines
result.add("stat", decResult.render());
result.add("stat", assResult.render());
return result;
}
// EXPR RULES
/**
* This method generates the output code for an expression using the triple
* address code technique.
*
* @param ctx Context of the rule.
* @param e1Stats Statements of the first operand.
* @param e2Stat Statements of the second operand.
* @param type Result type of the expression.
* @param var1 Name of the variable of the first operand.
* @param op Operation to be performed.
* @param var2 Name of the variable of the second operand.
* @param varOut Name of the output variable that will old the result value of
* the expression.
*/
private ST getExprResult(ParserRuleContext ctx, String e1Stats, String e2Stats, String type, String var1, String op,
String var2, String varOut) {
ST result = stg.getInstanceOf("stats");
result.add("stat", e1Stats);
result.add("stat", e2Stats);
ST expression = stg.getInstanceOf("expression");
expression.add("type", type);
expression.add("var", varOut);
expression.add("e1", var1);
expression.add("op", op);
expression.add("e2", var2);
result.add("stat", expression.render());
return result;
}
/**
* Method to visit the parentheses expression.
*/
@Override
public ST visitParentheses(GeneralParser.ParenthesesContext ctx) {
ST result = visit(ctx.expr());
ctx.varName = ctx.expr().varName;
return result;
}
/**
* Method to visit and generate the output code of the addition/subtraction
* expression.
*/
@Override
public ST visitAddSub(GeneralParser.AddSubContext ctx) {
ctx.varName = newVar();
return getExprResult(ctx, visit(ctx.e1).render(), visit(ctx.e2).render(), ctx.exprType.getType(),
ctx.e1.varName, ctx.op.getText(), ctx.e2.varName, ctx.varName);
}
/**
* Method to visit and generate the output code of the multiplication/division
* expression.
*/
@Override
public ST visitMultDiv(GeneralParser.MultDivContext ctx) {
ctx.varName = newVar();
return getExprResult(ctx, visit(ctx.e1).render(), visit(ctx.e2).render(), ctx.exprType.getType(),
ctx.e1.varName, ctx.op.getText(), ctx.e2.varName, ctx.varName);
}
/**
* Method to visit and generate the output code of the pow expression.
*/
@Override
public ST visitPow(GeneralParser.PowContext ctx) {
ctx.varName = newVar();
ST result = stg.getInstanceOf("stats");
result.add("stat", visit(ctx.e1).render());
result.add("stat", visit(ctx.e2).render());
ST powResult = stg.getInstanceOf("powerExpr");
powResult.add("type", ctx.exprType.getType());
powResult.add("var", ctx.varName);
powResult.add("e1", ctx.e1.varName);
powResult.add("e2", ctx.e2.varName);
result.add("stat", powResult.render());
return result;
}
/**
* Method to generate the base integer literal expression output code.
*/
@Override
public ST visitIntValue(GeneralParser.IntValueContext ctx) {
ST result = stg.getInstanceOf("declaration");
ctx.varName = newVar();
result.add("type", "Integer");
result.add("var", ctx.varName);
result.add("value", ctx.INT().getText());
return result;
}
/**
* Method to generate the base real literal expression output code.
*/
@Override
public ST visitRealValue(GeneralParser.RealValueContext ctx) {
ST result = stg.getInstanceOf("declaration");
ctx.varName = newVar();
result.add("type", "Real");
result.add("var", ctx.varName);
result.add("value", ctx.REAL().getText());
return result;
}
/**
* Method to generate the base boolean literal expression output code.
*/
@Override
public ST visitBooleanValue(GeneralParser.BooleanValueContext ctx) {
ST result = stg.getInstanceOf("declaration");
ctx.varName = newVar();
result.add("type", "Boolean");
result.add("var", ctx.varName);
result.add("value", ctx.BOOLEAN().getText());
return result;
}
/**
* Method to generate the base string literal expression output code.
*/
@Override
public ST visitStringValue(GeneralParser.StringValueContext ctx) {
ST result = stg.getInstanceOf("declaration");
ctx.varName = newVar();
result.add("type", "String");
result.add("var", ctx.varName);
result.add("value", ctx.STRING().getText());
return result;
}
/**
* Method to generate the ID value expression output code.
*/
@Override
public ST visitIDvalue(GeneralParser.IDvalueContext ctx) {
ST result = stg.getInstanceOf("stats");
ST idVarDecl = stg.getInstanceOf("declaration");
String id = ctx.ID().getText();
ctx.varName = newVar();
idVarDecl.add("type", ctx.exprType.getType());
idVarDecl.add("var", ctx.varName);
idVarDecl.add("value", GeneralParser.map.get(id).varName());
result.add("stat", idVarDecl.render());
return result;
}
// INPUT RULE
/**
* Method to generate the output code for input expression.
*/
@Override
public ST visitInputValue(GeneralParser.InputValueContext ctx) {
ST result = stg.getInstanceOf("input");
ctx.varName = newVar();
result.add("prompt", ctx.input().STRING().getText());
result.add("var", ctx.varName);
return result;
}
// CONDITIONAL EXPRESSIONS
/**
* This method, similiar to the getExprResult, is used to generate the output
* code of an equality comparison between two expressions.
*/
private ST getExprEquals(ParserRuleContext ctx, String e1Stats, String e2Stats, String var1, String var2,
String varOut) {
ST result = stg.getInstanceOf("stats");
result.add("stat", e1Stats);
result.add("stat", e2Stats);
ST expression = stg.getInstanceOf("expressionEquals");
expression.add("type", "Boolean");
expression.add("var", varOut);
expression.add("e1", var1);
expression.add("e2", var2);
result.add("stat", expression.render());
return result;
}
/**
* This method, similiar to the getExprResult, is used to generate the output
* code of a not equality comparison between two expressions.
*/
private ST getExprNotEquals(ParserRuleContext ctx, String e1Stats, String e2Stats, String var1, String var2,
String varOut) {
ST result = stg.getInstanceOf("stats");
result.add("stat", e1Stats);
result.add("stat", e2Stats);
ST expression = stg.getInstanceOf("expressionNotEquals");
expression.add("type", "Boolean");
expression.add("var", varOut);
expression.add("e1", var1);
expression.add("e2", var2);
result.add("stat", expression.render());
return result;
}
/**
* This method, similiar to the getExprResult, is used to generate the output
* code of a negation of one expression.
*/
private ST getExprNot(ParserRuleContext ctx, String e1Stats, String var1, String varOut) {
ST result = stg.getInstanceOf("stats");
result.add("stat", e1Stats);
ST expression = stg.getInstanceOf("expressionNot");
expression.add("type", "Boolean");
expression.add("var", varOut);
expression.add("e1", var1);
result.add("stat", expression.render());
return result;
}
/**
* This method is responsible for generating the output code of an 'if'
* statement.
*/
@Override
public ST visitConditional(GeneralParser.ConditionalContext ctx) {
ST result = stg.getInstanceOf("conditional");
result.add("stat", visit(ctx.expr()).render());
result.add("var", ctx.expr().varName);
result.add("trueStats", visit(ctx.trueStats).render());
if (ctx.falseStats != null) {
if (ctx.falseStats.conditional() != null)
result.add("falseStats", visit(ctx.falseStats).render());
else {
result.add("falseStats", visit(ctx.falseStats.statList()).render());
}
}
return result;
}
/**
* This method is responsible for generating the output code of a 'while'
* statement.
*/
@Override
public ST visitWhileConditional(GeneralParser.WhileConditionalContext ctx) {
ST result = stg.getInstanceOf("conditionalWhile");
String exprFirst = visit(ctx.expr()).render();
String exprNext = "";
for (int i = 0; i < exprFirst.split("\n").length; i++) {
exprNext += exprFirst.split("\n")[i].substring(exprFirst.split("\n")[i].indexOf(' ') + 1);
}
result.add("stat", exprFirst);
result.add("var", ctx.expr().varName);
result.add("checkCondition", "\n" + exprNext);
result.add("trueStats", visit(ctx.trueStats).render());
return result;
}
/**
* This method is responsible for generating the output code of a 'for'
* statement.
*/
@Override
public ST visitForConditional(GeneralParser.ForConditionalContext ctx) {
ST result = stg.getInstanceOf("conditionalFor");
String incrementVarDec = visit(ctx.incVarDec).render();
String breakCond = visit(ctx.breakCond).render();
String incrementCondTemp = visit(ctx.incCond).render();
String incVar = incrementVarDec.split("\n")[incrementVarDec.split("\n").length - 1].split(" ")[0].replace(";",
"");
// Increment Condition
String incrementCond = "";
for (int i = 0; i < incrementCondTemp.split("\n").length - 1; i++) {
incrementCond += incrementCondTemp.split("\n")[i] + "\n";
}
String incCondition;
String lastIncCondStatement = incrementCondTemp.split("\n")[incrementCondTemp.split("\n").length - 1];
incCondition = incVar + " = " + lastIncCondStatement.split(" = ")[1];
incrementCond += incCondition;
// Increment Variable Declaration
String incDeclaration;
String lastIncDec = incrementVarDec.split("\n")[incrementVarDec.split("\n").length - 1];
incDeclaration = incVar + " = " + lastIncDec.split(" = ")[1];
// Update Break Condition
String breakCondUpdate = "";
for (int i = 0; i < breakCond.split("\n").length; i++) {
breakCondUpdate += breakCond.split("\n")[i].substring(breakCond.split("\n")[i].indexOf(' ') + 1);
}
// Update Increment Condition
String updateIncrement = "";
for (int i = 0; i < incrementCond.split("\n").length - 1; i++) {
updateIncrement += incrementCond.split("\n")[i].substring(incrementCond.split("\n")[i].indexOf(' ') + 1);
}
result.add("stat", incrementVarDec + "\n\n" + breakCond + "\n\n" + incrementCond);
result.add("var", incDeclaration);
result.add("cond", ctx.breakCond.varName);
result.add("inc", incCondition.replace(";", ""));
result.add("updateIncr", updateIncrement);
result.add("updateCond", breakCondUpdate);
result.add("trueStats", visit(ctx.trueStats).render());
return result;
}
// CONDITIONAL CHECKS
/**
* This method is responsible to choose the correct function in order to
* generate the code for an equality expression.
*/
@Override
public ST visitConditionalEquality(GeneralParser.ConditionalEqualityContext ctx) {
ctx.varName = newVar();
if (ctx.op.getText().equals("===")) {
return getExprEquals(ctx, visit(ctx.e1).render(), visit(ctx.e2).render(), ctx.e1.varName, ctx.e2.varName,
ctx.varName);
} else if (ctx.op.getText().equals("!==")) {
return getExprNotEquals(ctx, visit(ctx.e1).render(), visit(ctx.e2).render(), ctx.e1.varName, ctx.e2.varName,
ctx.varName);
} else {
return getExprResult(ctx, visit(ctx.e1).render(), visit(ctx.e2).render(), "Boolean", ctx.e1.varName,
ctx.op.getText(), ctx.e2.varName, ctx.varName);
}
}
/**
* This method visits a conditional relational expression.
*/
@Override
public ST visitConditionalRelational(GeneralParser.ConditionalRelationalContext ctx) {
ctx.varName = newVar();
return getExprResult(ctx, visit(ctx.e1).render(), visit(ctx.e2).render(), "Boolean", ctx.e1.varName,
ctx.op.getText(), ctx.e2.varName, ctx.varName);
}
/**
* This method visits a binary 'and/or' conditional expression.
*/
@Override
public ST visitConditionalAndOr(GeneralParser.ConditionalAndOrContext ctx) {
ctx.varName = newVar();
return getExprResult(ctx, visit(ctx.e1).render(), visit(ctx.e2).render(), "Boolean", ctx.e1.varName,
ctx.op.getText(), ctx.e2.varName, ctx.varName);
}
/**
* This method visits a unary conditional negation expression.
*/
@Override
public ST visitConditionalNegation(GeneralParser.ConditionalNegationContext ctx) {
ctx.varName = newVar();
return getExprNot(ctx, visit(ctx.expr()).render(), ctx.expr().varName, ctx.varName);
}
/**
* This method visits a binary operator expression, to set its sign.
*/
@Override
public ST visitBinaryOperator(GeneralParser.BinaryOperatorContext ctx) {
ctx.varName = newVar();
return getBinaryOperator(ctx.exprType, visit(ctx.expr()).render(), ctx.expr().varName, ctx.varName,
ctx.sign.getText());
}
/**
* This method is responsible for generate the output code of a binary operator
* expression.
*/
private ST getBinaryOperator(Type type, String e1Stats, String var1, String varOut, String operator) {
ST result = stg.getInstanceOf("stats");
result.add("stat", e1Stats);
ST expression = stg.getInstanceOf("binaryOperator");
expression.add("type", type.getType());
expression.add("var", varOut);
expression.add("e1", var1);
expression.add("operator", operator);
result.add("stat", expression.render());
return result;
}
/**
* This method visits an absolute value expression, to set its absolute value.
*/
@Override
public ST visitAbsoluteValue(GeneralParser.AbsoluteValueContext ctx) {
ctx.varName = newVar();
return getAbsoluteValue(ctx.exprType, visit(ctx.expr()).render(), ctx.expr().varName, ctx.varName);
}
/**
* This method is responsible for generate the output code of an absolute value
* expression.
*/
private ST getAbsoluteValue(Type type, String e1Stats, String var1, String varOut) {
ST result = stg.getInstanceOf("stats");
result.add("stat", e1Stats);
ST expression = stg.getInstanceOf("absoluteValue");
expression.add("type", type.getType());
expression.add("var", varOut);
expression.add("e1", var1);
result.add("stat", expression.render());
return result;
}
}