continue refactoring to explicitly manipulate a stack

fermi.go

@@ -345,77 +345,73 @@ type Stack struct {
 	vars     map[string]Dist
 }
 
-// Could eventually be a more complex struct with:
-// { Dist, VariableMaps, ConfigParams } or smth
-
-/*
 func combineStackAndNewLine(stack Stack, new_line string) Stack {
 
+	if strings.TrimSpace(new_line) == "" {
+		return stack
+	}
+
+	{
+		words := strings.Split(strings.TrimSpace(new_line), " ")
+		switch {
+		case words[0] == "exit" || words[0] == "e":
+			os.Exit(0)
+		case words[0] == "help" || words[0] == "h":
+			fmt.Println(GENERAL_ERR_MSG)
+			return stack
+		case words[0] == "debug" || words[0] == "d":
+			fmt.Printf("Old dist: %v\n", stack.old_dist)
+			fmt.Printf("Vars: %v\n", stack.vars)
+			return stack
+		case words[0] == "=:" && len(words) == 2:
+			stack.vars[words[1]] = stack.old_dist
+			fmt.Printf("%s ", words[1])
+			prettyPrintDist(stack.old_dist)
+			return stack
+		case words[0] == "." || words[0] == "clean" || words[0] == "c":
+			stack.old_dist = init_dist
+			fmt.Println()
+			return stack
+		case words[0] == "=." && len(words) == 2:
+			stack.vars[words[1]] = stack.old_dist
+			fmt.Printf("%s ", words[1])
+			prettyPrintDist(stack.old_dist)
+			stack.old_dist = init_dist
+			fmt.Println()
+			return stack
+			// Other possible cases:
+			// Save to file
+			// Sample n samples
+			// Save stack to a variable?
+			// clean stack
+			// Define a function? No, too much of a nerdsnipea
+		}
+	}
+
+	op, new_dist, err := parseLine(new_line, stack.vars)
+	if err != nil {
+		return stack
+	}
+
+	joint_dist, err := joinDists(stack.old_dist, new_dist, op)
+	if err != nil {
+		fmt.Printf("%v\n", err)
+		fmt.Printf("Dist on stack: ")
+		prettyPrintDist(stack.old_dist)
+		return stack
+	}
+	stack.old_dist = joint_dist
+	prettyPrintDist(stack.old_dist)
+	return stack
 }
-*/
 
 /* Main event loop */
 func main() {
 
 	reader := bufio.NewReader(os.Stdin)
 	stack := Stack{old_dist: init_dist, vars: make(map[string]Dist)}
-EventForLoop:
 	for {
-		input, _ := reader.ReadString('\n')
-		if strings.TrimSpace(input) == "" {
-			continue EventForLoop
-		}
-
-		{
-			words := strings.Split(strings.TrimSpace(input), " ")
-			switch {
-			case words[0] == "exit" || words[0] == "e":
-				break EventForLoop
-			case words[0] == "help" || words[0] == "h":
-				fmt.Println(GENERAL_ERR_MSG)
-				continue EventForLoop
-			case words[0] == "debug" || words[0] == "d":
-				fmt.Printf("Old dist: %v\n", stack.old_dist)
-				fmt.Printf("Vars: %v\n", stack.vars)
-				continue EventForLoop
-			case words[0] == "=:" && len(words) == 2:
-				stack.vars[words[1]] = stack.old_dist
-				fmt.Printf("%s ", words[1])
-				prettyPrintDist(stack.old_dist)
-				continue EventForLoop
-			case words[0] == "." || words[0] == "clean" || words[0] == "c":
-				stack.old_dist = init_dist
-				fmt.Println()
-				continue EventForLoop
-			case words[0] == "=." && len(words) == 2:
-				stack.vars[words[1]] = stack.old_dist
-				fmt.Printf("%s ", words[1])
-				prettyPrintDist(stack.old_dist)
-				stack.old_dist = init_dist
-				fmt.Println()
-				continue EventForLoop
-				// Other possible cases:
-				// Save to file
-				// Sample n samples
-				// Save stack to a variable?
-				// clean stack
-				// Define a function? No, too much of a nerdsnipea
-			}
-		}
-
-		op, new_dist, err := parseLine(input, stack.vars)
-		if err != nil {
-			continue EventForLoop
-		}
-
-		joint_dist, err := joinDists(stack.old_dist, new_dist, op)
-		if err != nil {
-			fmt.Printf("%v\n", err)
-			fmt.Printf("Dist on stack: ")
-			prettyPrintDist(stack.old_dist)
-			continue EventForLoop
-		}
-		stack.old_dist = joint_dist
-		prettyPrintDist(stack.old_dist)
+		new_line, _ := reader.ReadString('\n')
+		stack = combineStackAndNewLine(stack, new_line)
 	}
 }