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diff --git a/ch4/4-10_getline-calc.c b/ch4/4-10_getline-calc.c
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+++ b/ch4/4-10_getline-calc.c
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+#include <stdio.h>
+#include <stdlib.h>
+#include <ctype.h>
+#include <math.h>
+#include <string.h>
+
+/* The C Programming Language: 2nd Edition
+ *
+ * Exercise 4-10: An alternate organization uses getline() to read an entire
+ * input line; this makes getch() and ungetch() unnecessary. Revise the
+ * calculator to use this approach.
+ *
+ * Answer: This is much trickier than it seems; it teaches you how to refactor
+ * a program. You won't be using the built-in getline() for this, but rather
+ * the function that we wrote back in Chapter 1.
+ *
+ * The majority of the trickiness lies in getop(). The idea is to store the
+ * entire line in a buffer that sits in an external variable. Then you pick and
+ * choose which chars to put into your target string, in much the same way we
+ * picked and chose which characters to getch() previously.
+ *
+ * The rest of the program works about the same, with only a few minor tweaks
+ * needed. The cool part is the whole thing didn't need to be rewritten; just
+ * the "plumbing" part, getop().
+ *
+ * In addition to refactoring, this entire project demonstrates the usefulness
+ * of modularizing your code into small, discrete functions.
+ */
+
+#define MAXOP    100
+#define NUMBER   '0'
+#define MAXVAL   100
+#define BUFSIZE  100
+
+int getop(char []);
+void push(double);
+double pop(void);
+void stack_top(void);
+double dupe_top(void);
+void swap_top_two(void);
+void clear_stack(void);
+double fetch_var(char);
+void store_var(char, double);
+void store_last(double);
+double fetch_last(void);
+int mygetline(char [], int);
+
+int sp = 0; // Next free stack position
+double val[MAXVAL]; // Value stack
+char buf[BUFSIZE]; // buffer
+int bufp = 0; // next free position in buf
+double vars[27];
+
+/* Reverse Polish calculator:
+ *
+ * Binary operations (+-*\%)
+ *     operand operand operator
+ *
+ * Example: 6 minus 2 in Reverse Polish Notation is "6 2 -"
+ */
+int main() {
+	int type;
+	double op2;
+	char s[MAXOP];
+	char ltr;
+
+	while (mygetline(buf, BUFSIZE) != 0) {
+		bufp = 0;
+		while ((type = getop(s)) != '\0') {
+			if (isalpha(type) && islower(type)) {
+				push(fetch_var(type));
+				continue;
+			}
+			switch (type) {
+				case NUMBER:
+					push(atof(s));
+					break;
+				case '+':
+					push(pop() + pop());
+					break;
+				case '*':
+					push(pop() * pop());
+					break;
+				case '-':
+					op2 = pop();
+					push(pop() - op2);
+					break;
+				case '/':
+					op2 = pop();
+					if (op2 != 0.0) {
+						push(pop() / op2);
+					} else {
+						printf("Error: Cannot divide by zero.\n");
+					}
+					break;
+				/* Yay for modulus! */
+				case '%':
+					op2 = pop();
+					if (op2 != 0.0) {
+						push((int)pop() % (int)op2);
+					} else {
+						printf("Error: Cannot modulo by zero.\n");
+					}
+					break;
+				/* Top of stack */
+				case '?':
+					stack_top();
+					break;
+				/* Dupe the top of the stack */
+				case '#':
+					dupe_top();
+					break;
+				/* Swap the top two */
+				case '~':
+					swap_top_two();
+					break;
+				/* Clear the stack */
+				case '!':
+					clear_stack();
+					break;
+				/* sin() support */
+				case '(':
+					op2 = sin(pop());
+					push(op2);
+					break;
+				/* exp() support */
+				case '{':
+					op2 = exp(pop());
+					push(op2);
+					break;
+				/* pow() support */
+				case '^':
+					op2 = pop();
+					push(pow(pop(), op2));
+					break;
+				/* 'lastprint' support */
+				case '@':
+					push(fetch_last());
+					break;
+				/* setting variables */
+				case '=':
+					ltr = buf[bufp];
+					if (isalpha(ltr) && islower(ltr)) {
+						op2 = pop();
+						store_var(ltr, op2);
+						push(op2);
+					} else {
+						push(0.0);
+					}
+					break;
+				/* Final output */
+				case '\n':
+					op2 = pop();
+					printf("\t%.8g\n", op2);
+					/* Extra Credit: Lets output every non-zero variable! */
+					for (ltr = 'a'; ltr <= 'z'; ltr++) {
+						if (fetch_var(ltr) != 0) {
+							printf("\t%c: %.8g\n", ltr, fetch_var(ltr));
+						}
+					}
+					store_last(op2);
+					break;
+				default:
+					printf("Error: Unknown command %s\n", s);
+					break;
+			}
+		}
+	}
+	return 0;
+}
+
+void push(double f) {
+	if (sp < MAXVAL) {
+		val[sp++] = f;
+	} else {
+		printf("Error: Stack full. Cannot push %g\n", f);
+	}
+}
+
+double pop(void) {
+	if (sp > 0) {
+		return val[--sp];
+	} else {
+		printf("Error: Stack empty.\n");
+		return 0.0;
+	}
+}
+
+int getop(char s[]) {
+	int i, c;
+
+	while ((s[0] = c = buf[bufp++]) == ' ' || c == '\t');
+	if (c >= 'a' && c <= 'z') {
+		return c;
+	}
+	s[1] = '\0';
+	/* The final check is for negative numbers. */
+	if (!isdigit(c) && c != '.' && c != '-') {
+		return c;
+	}
+	i = 0;
+	/* The second half of this if-statement accounts for negatives */
+	if (c == '-') {
+		if (!isdigit(buf[bufp]) && buf[bufp] != '.') {
+			return c;
+		} else {
+			s[i] = c;
+			c = buf[bufp];
+		}
+	} else {
+		s[i] = c;
+	}
+
+	if (isdigit(c)) {
+		while (isdigit(s[++i] = c = buf[bufp++]));
+	}
+	if (c == '.') {
+		while (isdigit(s[++i] = c = buf[bufp++]));
+	}
+	s[i] = '\0';
+	bufp--;
+	return NUMBER;
+}
+
+void stack_top(void) {
+	if (sp > 0) {
+		printf("Top of stack is %8g\n", val[sp - 1]);
+	}
+}
+
+double dupe_top(void) {
+	double temp = pop();
+	push(temp);
+	push(temp);
+}
+
+void swap_top_two(void) {
+	double tmp1, tmp2;
+	tmp1 = pop();
+	tmp2 = pop();
+	push(tmp1);
+	push(tmp2);
+}
+
+void clear_stack(void) {
+	sp = 0;
+}
+
+double fetch_var(char c) {
+	return vars[c - 'a'];
+}
+
+void store_var(char c, double f) {
+	vars[c - 'a'] = f;
+}
+
+void store_last(double f) {
+	vars[26] = f;
+}
+
+double fetch_last(void) {
+	return vars[26];
+}
+
+int mygetline(char s[], int lim) {
+	int c, i = 0;
+
+	while (--lim > 0 && (c = getchar()) != EOF && c != '\n') {
+		s[i++] = c;
+	}
+	if (c == '\n') {
+		s[i++] = c;
+	}
+	s[i] = '\0';
+	return i;
+}