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ch01

##Exercise 1.1

Review the documentation for your compiler and determine what file naming convention it uses. Compile and run the main program from page 2.

Windows

windows

Linux

Linux

##Exercise 1.2

Exercise 1.2: Change the program to return -1. A return value of -1 is often treated as an indicator that the program failed. Recompile and rerun your program to see how your system treats a failure indicator from main.

###Windows

windows

###Linux

linux

255? why? please look at this

##Exercise 1.3

Write a program to print Hello, World on the standard output.

#include <iostream>

int main()
{
  std::cout << "Hello, World" << std::endl;
  return 0;
}

##Exercise 1.4

Our program used the addition operator, +, to add two numbers. Write a program that uses the multiplication operator, *, to print the product instead.

#include <iostream>

int main()
{
  std::cout << "Enter two numbers:" << std::endl;
  int v1 = 0, v2 = 0;
  std::cin >> v1 >> v2;
  std::cout << "The product of " << v1 << " and " << v2
  << " is " << v1 * v2 << std::endl;
  return 0;
}

##Exercise 1.5

We wrote the output in one large statement. Rewrite the program to use a separate statement to print each operand.

#include <iostream>

int main()
{
  std::cout << "Enter two numbers:" << std::endl;
  int v1 = 0, v2 = 0;
  std::cin >> v1 >> v2;
  std::cout << "The product of ";
  std::cout << v1;
  std::cout << " and ";
  std::cout << v2;
  std::cout << " is ";
  std::cout << v1 * v2;
  std::cout << std::endl;
  return 0;
}

##Exercise 1.6

Explain whether the following program fragment is legal.

It's illegal.

[Error] expected primary-expression before '<<' token

Fixed it: remove the spare semicolons.

std::cout << "The sum of " << v1
          << " and " << v2
          << " is " << v1 + v2 << std::endl;

##Exercise 1.7

Compile a program that has incorrectly nested comments.

Example:

/*
* comment pairs /* */ cannot nest.
* ''cannot nest'' is considered source code,
* as is the rest of the program
*/
int main()
{
  return 0;
}

Compiled result(g++):

result

##Exercise 1.8

Indicate which, if any, of the following output statements are legal:

std::cout << "/*";
std::cout << "*/";
std::cout << /* "*/" */;
std::cout << /* "*/" /* "/*" */;

After you’ve predicted what will happen, test your answers by compiling a program with each of these statements. Correct any errors you encounter.

Compiled result(g++):

result

Corrected? just added a quote:

std::cout << "/*";
std::cout << "*/";
std::cout << /* "*/" */";
std::cout << /* "*/" /* "/*" */;

Output:

/**/ */ /*

##Exercise 1.9 ##Exercise 1.10 ##Exercise 1.11

##Exercise 1.12

What does the following for loop do? What is the final value of sum?

int sum = 0;
for (int i = -100; i <= 100; ++i)
sum += i;

the loop sums the numbers from -100 to 100. the final value of sum is zero.

##Exercise 1.13

Rewrite the exercises from § 1.4.1 (p. 13) using for loops.

Ex1.9:

#include <iostream>

int main()
{
  int sum = 0;
  for (int i=50; i<=100; ++i)
      sum += i;

  std::cout << "the sum is: " << sum << std::endl;

  return 0;
}

Ex1.10:

#include <iostream>

int main()
{
  for (int i=10; i>=0; --i)
    std::cout << i << std::endl;

  return 0;
}

Ex1.11:

#include <iostream>

int main()
{
  int val_small = 0, val_big = 0;
  std::cout << "please input two integers:";
  std::cin >> val_small >> val_big;

  if (val_small > val_big)
  {
    int tmp = val_small;
    val_small = val_big;
    val_big = tmp;
  }

  for (int i=val_small; i<=val_big; ++i)
    std::cout << i << std::endl;

  return 0;
}

##Exercise 1.14

Compare and contrast the loops that used a for with those using a while. Are there advantages or disadvantages to using either form?

If you need a pattern which is using a variable in a condition and incrementing that variable in the body. You should use for loop. Else the while loop is more simple.

Want to know more? look at this

##Exercise 1.15

Write programs that contain the common errors discussed in the box on page 16. Familiarize yourself with the messages the compiler generates.

JUST READ IT!

##Exercise 1.16

Write your own version of a program that prints the sum of a set of integers read from cin.

Many people confused about this exercise, such as this and this.

In my opinion, the exercise aim to write the program without "END-OF-FILE".

BUT, the code in first link is not correct.

The following are my own version:

#include <iostream>

int main()
{
  int limit = 0, sum = 0, value = 0;
  std::cout << "How many integers would you like to enter?";
  std::cin >> limit;

  // assume we don't know what is EOF(End-Of-File).
  while (std::cin >> value && (--limit != 0))
    sum += value;

  std::cout << sum + value << std::endl;

  return 0;
}

Watch out for "sum + value" in the cout line.

##Exercise 1.17

What happens in the program presented in this section if the input values are all equal? What if there are no duplicated values?

If the input values are all equal, it will print a line which shows the count of the number you input.

If there are no duplicated values, when different values input, a new line will be printed if you click Enter.

##Exercise 1.18

Compile and run the program from this section giving it only equal values as input. Run it again giving it values in which no number is repeated.

run

##Exercise 1.19

Revise the program you wrote for the exercises in § 1.4.1 (p. 13) that printed a range of numbers so that it handles input in which the first number is smaller than the second.

Yes, we should use if to judge which is bigger.

review this code

##Exercise 1.20

http://www.informit.com/title/032174113 contains a copy of Sales_item.h in the Chapter 1 code directory. Copy that file to your working directory. Use it to write a program that reads a set of book sales transactions, writing each transaction to the standard output.

Here is the code.

You need to enable C++11 support in your compiler. With GCC and Clang, this can be done with the -std=c++11 option.

(Never say it again.)

How to test it? use the book.txt in data folder. And do it like this:

run

##Exercise 1.21

Write a program that reads two Sales_item objects that have the same ISBN and produces their sum.

The program should check whether the objects have the same ISBN.(Have a look at 1.5.2, surprise!)

Code

##Exercise 1.22

Write a program that reads several transactions for the same ISBN. Write the sum of all the transactions that were read.

Tips: this program will appear in the section 1.6.

Here is the code.

run

##Exercise 1.23

Write a program that reads several transactions and counts how many transactions occur for each ISBN.

Tip: please review the 1.4.4.

Here is the code.

##Exercise 1.24

Test the previous program by giving multiple transactions representing multiple ISBNs. The records for each ISBN should be grouped together.

You can use data/book.txt as the records.

run

##Exercise 1.25

Using the Sales_item.h header from the Web site, compile and execute the bookstore program presented in this section.

It is the same as Exercise 1.22.

run