Computer programs usually operate on tables of information. In most cases these tables are not simply amorphous masses of numerical values;they involve important structural relationships between the data elements.
In its simplest form, a table might be a linear list of elements, when its relevant structural properties might include the answers to such questions as: Which element is first in the list? Which is last? Which elements precede and follow a given one? How many elements are in the list? A lot can be said about structure even in this apparently simple case.
In more complicated situations, the table might be a two-dimensional array (a matrix or grid, having both a row and a column structure), or it might be an n-dimensional array for higher values of n; it might be a tree structure, representing hierarchical or branching relationships; or it might be a complex multilinked structure with a great many interconnections, such as we may find in a human brain.
In order to use a computer properly, we need to understand the structural relationships present within data, as well as the basic techniques for representing and manipulating such structure within a computer.
怎样去设计程序?
-->业务需求:从问题实际出发,写一个概括性的抽象的文字描述。
-->解决方案:定义变量,选定函数<确定要包含哪些头文件>,确定程序实现的逻辑过程(算法)。<思路> (伪代码)
-->技术实现:按照以上两点,依据解决问题的顺序把语句和函数写出代码。
注意:不要边想边写代码: 先把主干代码写出来,再慢慢加枝节代码(输出的格式更漂亮, 容错措施, 更细的一些功能实现) ß甚至把主干代码部分删了重写更具体的实现也是可以的. ß代码不是一次写成的! ß专业体现在细节!