public String reduce(int production) {
result = null;
if (line == output.length + 1) {
Quad[] temp = new Quad[output.length * 2];
System.arraycopy(output, line, temp, 0, line - 1);
output = temp;
}
switch (production) {
/*
* This reduction signifies an EOF has been reached in the source
* file with no errors being thrown by any of the compilers
* component parts. At this point the code generator will begin
* iterating through the stack and printing the lines of code
* generated to an output assembly file, which will be used in micE.
*/
case 0:
output[line] = new Quad(line, "HLT", "", "", "");
line++;
try {
PrintWriter out = new PrintWriter(outFile);
for (int x = 0; x < line; x++) {
cLine = x + " " + output[x].op + " ";
if (output[x].a1.matches("[-]*[0-9]+")) {
cLine += "#" + output[x].a1 + ",";
} else if (output[x].a1.matches("TRUE")) {
cLine += "#1" + ",";
} else if (output[x].a1.matches("FALSE")) {
cLine += "#0" + ",";
} else {
cLine += output[x].a1 + ",";
}
if (output[x].a2.matches("[-]*[0-9]+")) {
cLine += "#" + output[x].a2 + ",";
} else {
cLine += output[x].a2 + ",";
}
if (output[x].a3.matches("[-]*[0-9]+")) {
cLine += "#" + output[x].a3;
} else {
cLine += output[x].a3;
}
out.println(cLine);
cLine = "";
}
out.close();
} catch (IOException e) {
}
/*
* This case is for when an assignment is made in the
* declaration body of the code, which is the only time in the
* declaration body where code is generated.
*/
case 4:
op1 = gs.getT();
op3 = gs.getT();
if (op1.matches("[a-z]")) {
char c = op1.charAt(0);
int ic = (int) c;
op1 = String.valueOf(ic);
} else if (op1.matches("TRUE")) {
op1 = "1";
} else if (op1.matches("FALSE")) {
op1 = "0";
}
output[line] = new Quad(line, "STO", op1, "", op3);
line++;
break;
/*
* This reduction generated two lines of code: one to print
* the value of the given identifier, and one to move to a new
* line.
*/
case 24:
op1 = gs.getT();
if (sym.getType(op1).matches("CHAR")) {
// char c = sym.getValue(op1).charAt(0);
// int ic = (int) c;
// op1 = String.valueOf(ic);
output[line] = new Quad(line, "SYS", "-2", op1, "");
line++;
} else {
output[line] = new Quad(line, "SYS", "-1", gs.getT(), "");
line++;
}
output[line] = new Quad(line, "SYS", "0", "", "");
line++;
break;
/*
* This case simply prints the value of an identifier without
* moving to a new line
*/
case 25:
op1 = gs.getT();
if (sym.getType(op1).matches("CHAR")) {
// char c = sym.getValue(op1).charAt(0);
// int ic = (int) c;
// op1 = String.valueOf(ic);
output[line] = new Quad(line, "SYS", "-2", op1, "");
line++;
} else if (sym.getType(op1).matches("VARCHAR2")) {
// Deprecated
} else {
output[line] = new Quad(line, "SYS", "-1", op1, "");
line++;
}
break;
/*
* This case simple moves to a new line
*/
case 26:
output[line] = new Quad(line, "SYS", "0", "", "");
line++;
break;
/*
* This case allows the program to read and store user input
*/
case 27:
output[line] = new Quad(line, "SYS", "1", "", gs.getT());
line++;
break;
/*
* This statement back-patches the start code of a conditional
* statement for the line to jump to in order to skip the lines
* that would be executed if the condition is false.
*/
case 28:
loopBack.pop();
output[needPatch.pop()].a3 = String.valueOf(line);
break;
/*
* This statement back-patches the start code of a looping
* statement for the line to jump to in order to skip the lines
* that would be executed if the condition is false.
*/
case 29:
output[line] = new Quad(line, "JMP", "", "", String.valueOf(loopBack.pop()));
line++;
output[needPatch.pop()].a3 = String.valueOf(line);
break;
/*
* This statement handles assignment operations within the body
* of the code.
*/
case 30:
// Assignment
String vOp1 = "";
op3 = gs.getT();
op1 = gs.getT();
vOp1 = gs.getT();
if (temps > 0) {
op1 = "temp" + temps;
s = sym.getSymbol(op3);
code = s.changeValue(String.valueOf(sum));
if (code != 0) {
err.DisplayError(Math.abs(code));
}
} else if (op1.matches("[0-9]+")) {
s = sym.getSymbol(op3);
code = s.changeValue(String.valueOf(op1));
if (code != 0) {
err.DisplayError(Math.abs(code));
}
} else if (op1.matches("TRUE")) {
s = sym.getSymbol(op3);
code = s.changeValue(op1);
if (code != 0) {
err.DisplayError(Math.abs(code));
}
op1 = "1";
} else if (op1.matches("FALSE")) {
s = sym.getSymbol(op3);
code = s.changeValue(op1);
if (code != 0) {
err.DisplayError(Math.abs(code));
}
op1 = "0";
} else {
s = sym.getSymbol(op3);
code = s.changeValue(sym.getValue(op3));
if (code != 0) {
err.DisplayError(Math.abs(code));
}
}
output[line] = new Quad(line, "STO", op1, "", op3);
temps = 0;
sum = 0;
line++;
break;
/*
* This case manages type casting
*/
case 34:
String tar = gs.getT();
String type = gs.getT();
if (tar.matches("CHAR")) {
String temp = tar;
tar = type;
type = temp;
}
if (tar.matches("BOOLEAN")) {
err.DisplayError(5);
}
if (type.matches("VARCHAR2") || type.matches("POSITIVE") || type.matches("NUMBER")) {
String size = gs.getT();
sym.getSymbol(tar).changeSize(size);
}
code = sym.getSymbol(tar).changeType(type);
if (code != 0) {
err.DisplayError(Math.abs(code));
}
gs.addT(tar);
break;
/*
* This case generates relational operations, leaving a line of
* code to back-patch after the number of lines within the
* conditional section have been determined.
*/
case 37:
op1 = gs.getT();
op2 = gs.getT();
if (op2.matches("[>]")) {
relop = "JGT";
} else if (op2.matches("[>][=]")) {
relop = "JGE";
} else if (op2.matches("[=][=]")) {
relop = "JEQ";
} else if (op2.matches("[<][=]")) {
relop = "JLE";
} else if (op2.matches("[<]")) {
relop = "JLT";
} else if (op2.matches("[<][>]")) {
relop = "JNE";
}
op3 = gs.getT();
if (op3.matches("TRUE")) {
op3 = "1";
} else if (op3.matches("FALSE")) {
op3 = "0";
}
output[line] = new Quad(line, relop, op1, op3, String.valueOf(line + 3));
loopBack.push(line);
line++;
output[line] = new Quad(line, "STO", "0", "", "t1");
line++;
output[line] = new Quad(line, "JMP", "", "", String.valueOf(line + 2));
line++;
output[line] = new Quad(line, "STO", "1", "", "t1");
line++;
output[line] = new Quad(line, "JNE", "1", "t1", "");
needPatch.push(line);
line++;
break;
/*
* This case handles addition and subtraction operations
*/
case 39:
// First read operators and operand from stack
op1 = gs.getT();
op2 = gs.getT();
op3 = gs.getT();
// Check if op1 and op 3 are values or identifiers
if (op1.matches("temp[0-9]+")) {
i1 = sum;
} else if (op1.matches("[a-z][a-z0-9$_#]*")) {
i1 = Integer.parseInt(sym.getValue(op1));
} else {
i1 = Integer.parseInt(op1);
}
if (op3.matches("temp[0-9]+")) {
i2 = sum;
} else if (op3.matches("[a-z][a-z0-9$_#]*")) {
i2 = Integer.parseInt(sym.getValue(op3));
} else {
i2 = Integer.parseInt(op3);
}
if (op2.matches("[+]")) {
temps++;
sum = i1 + i2;
result = "temp" + temps;
output[line] = new Quad(line, "ADD", op1, op3, result);
} else if (op2.matches("[-]")) {
temps++;
sum = i1 + i2;
result = "temp" + temps;
output[line] = new Quad(line, "SUB", op1, op3, result);
}
gs.addT(result);
line++;
break;
/*
* This case handles multiplication, division, and modulus
* operations
*/
case 41:
op1 = gs.getT();
op2 = gs.getT();
op3 = gs.getT();
// Check if op1 and op 3 are values or identifiers
if (op1.matches("temp[0-9]+")) {
i1 = sum;
} else if (op1.matches("[a-z][a-z0-9$_#]*")) {
i1 = Integer.parseInt(sym.getValue(op1));
} else {
i1 = Integer.parseInt(op1);
}
if (op3.matches("temp[0-9]+")) {
i2 = sum;
} else if (op3.matches("[a-z][a-z0-9$_#]*")) {
i2 = Integer.parseInt(sym.getValue(op3));
} else {
i2 = Integer.parseInt(op3);
}
if (op2.matches("[*]")) {
temps++;
sum = i1 * i2;
result = "temp" + temps;
output[line] = new Quad(line, "MUL", op1, op3, result);
} else if (op2.matches("[/]")) {
temps++;
sum = i1 / i2;
result = "temp" + temps;
output[line] = new Quad(line, "DIV", op1, op3, result);
} else if (op2.matches("[%]")) {
temps++;
sum = i1 % i2;
result = "temp" + temps;
output[line] = new Quad(line, "MOD", op1, op3, result);
}
gs.addT(result);
line++;
break;
default:
// Do nothing
break;
}
return result;
}
public void add(String s) {
gs.addT(s);
}
