Difference between revisions of "PLC Laboratory 9"
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* <code>ADD, SUB, MUL, DIV, MOD</code> - it takes two values from the stack, computes the appropriate values, and stores the result on stack. If necessary, integers are automatically casted into floating-point numbers. <code>MOD</code> works only for integers. | * <code>ADD, SUB, MUL, DIV, MOD</code> - it takes two values from the stack, computes the appropriate values, and stores the result on stack. If necessary, integers are automatically casted into floating-point numbers. <code>MOD</code> works only for integers. | ||
* <code>PUSH (I|F) n</code> - it stores the value <code>n</code> on stack. It will be either <code>int</code> or <code>float</code>. | * <code>PUSH (I|F) n</code> - it stores the value <code>n</code> on stack. It will be either <code>int</code> or <code>float</code>. | ||
+ | * <code>PRINT (I|F)</code> - it takes a value from stack and '''based on its type''', prints it on output. Information about the resulting type can be obtained from '''previous | ||
+ | step''' - type checking. | ||
* <code>LOAD a</code> - it loads the value of variable <code>a</code> to the stack. | * <code>LOAD a</code> - it loads the value of variable <code>a</code> to the stack. | ||
− | * <code>SAVE a</code> - it takes the value from the stack and stores in into variable <code>a</code>. | + | * <code>SAVE (I|F) a</code> - it takes the value from the stack, cast it into desired variable type (given as a second parameter I|F) and stores in into variable <code>a</code>. Again, the type of the variable <code>a</code> can be taken from symbol table from type checking. |
− | |||
== Input specification == | == Input specification == |
Latest revision as of 07:48, 17 April 2024
Contents
Compiler of Arithmetic Expressions Using ANTLR
Extend the interpreter of arithmetic expressions from previous Laboratory 8. In this laboratory, generate a stack-based target code defining the computation.
The language description is still valid. Expressions contain +, -, *, /, % operators (with common priorities and left associativity) and parentheses. To simplify the task, consider we have only binary operators. There are no unary operators in our language. We have variables. Their identifiers compose from letters, and they have two types: float
and int
. Before variables are used, they need to be declared (use the same syntax as in C). Initially, they have value 0. The language is extended with =
operator (lowest priority and right associativity).
Our expressions have a type. If it contains only integer numbers and variables its type is int
. In all other cases it is float
. In other words, if there is a floating-point number in our expression, all other integer values will be converted to float and the resulting type is float
. In our language we also have a modulo: %
that works only for integers.
You can start with following C# codes from previous laboratory: PLC_Lab9.zip
The target stack-based code will consist of following instructions:
ADD, SUB, MUL, DIV, MOD
- it takes two values from the stack, computes the appropriate values, and stores the result on stack. If necessary, integers are automatically casted into floating-point numbers.MOD
works only for integers.PUSH (I|F) n
- it stores the valuen
on stack. It will be eitherint
orfloat
.PRINT (I|F)
- it takes a value from stack and based on its type, prints it on output. Information about the resulting type can be obtained from previous
step - type checking.
LOAD a
- it loads the value of variablea
to the stack.SAVE (I|F) a
- it takes the value from the stack, cast it into desired variable type (given as a second parameter I|F) and stores in into variablea
. Again, the type of the variablea
can be taken from symbol table from type checking.
Input specification
In the input, there are expressions, they are written in the free formatting. Each expression ends with semicolon as described before.
Output specification
For each expression write the instructions (one per line) that once performed, computes the resulting value for the expression and prints the results on the screen. If there is any error in the input, you can stop the computation.
Example
- Input
int a,b;
a = b = 15;
a + b;
a % b;
float c;
c = a + b;
c + a;
c = a;
c + 1.1;
10 % a;
- Output
PUSH I 0
SAVE I a
PUSH I 0
SAVE I b
PUSH I 15
SAVE I b
LOAD b
SAVE I a
LOAD a
PRINT I
LOAD a
LOAD b
ADD
PRINT I
LOAD a
LOAD b
MOD
PRINT I
PUSH F 0
SAVE F c
LOAD a
LOAD b
ADD
SAVE F c
LOAD c
PRINT F
LOAD c
LOAD a
ADD
PRINT F
LOAD a
SAVE F c
LOAD c
PRINT F
LOAD c
PUSH F 1.1
ADD
PRINT F
PUSH I 10
LOAD a
MOD
PRINT I
Solution
- You can download the solution: PLC_Lab9_solution.zip