我怎样才能分解一个长等式？

这三种方法似乎都不起作用

这句话不太好。你发现错误了吗？

以下是 amsmath 文档的示例split

\documentclass{article}
\usepackage{amsmath}
\begin{document}

\begin{equation}\label{e:barwq}
\begin{split}
 H_c&=\frac{1}{2n} \sum^n_{l=0}(-1)^{l}(n-{l})^{p-2}
     \sum_{l _1+\dots+ l _p=l}\prod^p_{i=1} \binom{n_i}{l _i}\\
    &\quad\cdot[(n-l )-(n_i-l _i)]^{n_i-l _i}\cdot
      \Bigl[(n-l )^2-\sum^p_{j=1}(n_i-l _i)^2\Bigr].
\end{split}
\end{equation}

\end{document}

这至少可以编译并生成输出。删除了 中的额外右括号和中的\usepackage{breqn}}额外，并注释掉了,块。另外，我认为你有一些我删除的额外空白行，我认为 应该是。希望这能让你开始……\\end{\equation}\begin{comment}\end{comment}quad\quad

\documentclass{article}%
\usepackage{amsmath}%
\usepackage{amsfonts}%
\usepackage{amssymb}%
\usepackage{graphicx}
\usepackage{verbatim}
\usepackage{breqn}
%-------------------------------------------

\begin{document}
%this equation 1 is ok
    \begin{equation}
        g\left[Pr(happy_{im}=1)\right]=\alpha_{0i}+\alpha_{1}.\left|living\_shock_{im}\right|+\epsilon_{im}
        \label{Original}
    \end{equation}
%this equation 2 is ok
\begin{equation}
        g\left[Pr(happy_{im}=1)\right]=\alpha_{0i}+\alpha_{1}.\left|living\_shock_{im}\right|+\beta.{year}+\epsilon_{im}
        \label{yearlytrend}
    \end{equation}


%to split3
%have commented it out as no pdf output is produced otherwise
%\begin{comment}
\begin{equation}
\begin{split}
        g\left[Pr(happy_{im}=1)\right]=\alpha_{0i}+\alpha_{1}.
            \left|living\_shock_{im}\right|+\\
        \quad+\beta.{year}+\gamma.region.
            \left|living\_shock_{im}\right|+\delta{region}+\epsilon_{im}
        \label{region}
\end{split}
\end{equation} 
%\end{comment}

%again no output produced when {dmath} environment of breqn used; commented out
%\begin{comment}
%to split4
\begin{dmath}
g\left[Pr(happy_{im}=1)\right]=\alpha_{0i}+\alpha_{1}.\left|
    living\_shock_{im}\right|+\beta.{year}+//+\gamma.demo_{iy}.\left|
    living\_shock_{im}\right|+\delta_{iy}.demo_{iy}+\epsilon_{im}
    \label{demo}
\end{dmath}
%\end{comment}

%to split5
\begin{equation}
\begin{split}
        g\left[Pr(happy_{im}=1)\right]=\alpha_{0i}+\alpha_{1}.\left|living\_shock_{im}\right|+\beta.{year}+\gamma_{1}.demo_{iy}.\\
\left|living\_shock_{im}\right|+\gamma_{2}.urbanpop\%_{iy}.\left|living\_shock_{im}    \right|+\delta_{1}.demo_{iy}+\delta_{2}.urbanpop\%_{iy}+\delta_{3}.population+\epsilon_{im}
        \label{size}
\end{split}
\end{equation}

\end{document}