主定理

假设有递归关系式

${\displaystyle T(n)=a\;T\!\left({\frac {n}{b}}\right)+f(n)}$ ，其中 ${\displaystyle a\geq 1{\mbox{, }}b>1}$ 

其中，${\displaystyle n}$ 为问题规模，${\displaystyle a}$ 为递归的子问题数量，${\displaystyle {\frac {n}{b}}}$ 为每个子问题的规模（假设每个子问题的规模基本一样），${\displaystyle f(n)}$ 为递归以外进行的计算工作。

如果存在常数${\displaystyle \epsilon >0}$ ，有

${\displaystyle f(n)=O\left(n^{\log _{b}(a)-\epsilon }\right)}$ （可不嚴謹的視作多项式地小于）

则

${\displaystyle T(n)=\Theta \left(n^{\log _{b}a}\right)}$ 

如果存在常数${\displaystyle \epsilon \geq 0}$ ，有

${\displaystyle f(n)=\Theta \left(n^{\log _{b}a}\log ^{\epsilon }n\right)}$ 

则

${\displaystyle T(n)=\Theta \left(n^{\log _{b}a}\log ^{\epsilon +1}n\right)}$ 

如果存在常数${\displaystyle \epsilon >0}$ ，有

${\displaystyle f(n)=\Omega \left(n^{\log _{b}(a)+\epsilon }\right)}$ （多项式地大于）

同时存在常数${\displaystyle c<1}$ 以及充分大的${\displaystyle n}$ ，满足

${\displaystyle af\left({\frac {n}{b}}\right)\leq cf(n)}$ 

则

${\displaystyle T\left(n\right)=\Theta \left(f\left(n\right)\right)}$ 

• Thomas H. Cormen, Charles E. Leiserson, Ronald L. Rivest, and Clifford Stein. Introduction to Algorithms, Second Edition. MIT Press and McGraw-Hill, 2001. ISBN 0-262-03293-7. Sections 4.3 (The master method) and 4.4 (Proof of the master theorem), pp. 73–90.
• Michael T. Goodrich and Roberto Tamassia. Algorithm Design: Foundation, Analysis, and Internet Examples. Wiley, 2002. ISBN 0-471-38365-1. The master theorem (including the version of Case 2 included here, which is stronger than the one from CLRS) is on pp. 268–270.