lua-resty-template is a compiling (1) (HTML) templating engine for Lua and OpenResty.

(1) with compilation we mean that templates are translated to Lua functions that you may call or string.dump as a binary bytecode blobs to disk that can be later utilized with lua-resty-template or basic load and loadfile standard Lua functions (see also Template Precompilation). Although, generally you don't need to do that as lua-resty-template handles this behind the scenes.

local template = require "resty.template"
-- Using template.new
local view = template.new "view.html"
view.message = "Hello, World!"
view:render()
-- Using template.render
template.render("view.html", { message = "Hello, World!" })

<!DOCTYPE html>
<html>
<body>
  <h1>{{message}}</h1>
</body>
</html>

<!DOCTYPE html>
<html>
<body>
  <h1>Hello, World!</h1>
</body>
</html>

The same can be done with inline template string:

-- Using template string
template.render([[
<!DOCTYPE html>
<html>
<body>
  <h1>{{message}}</h1>
</body>
</html>]], { message = "Hello, World!" })

• Template Syntax
  • Reserved Context Keys and Remarks
• Installation
  • Using OpenResty Package Manager (opm)
  • Using LuaRocks or Moonrocks
• Nginx / OpenResty Configuration
• Lua API
  • template.caching
  • template.new
  • template.compile
  • template.render
  • template.parse
  • template.precompile
  • template.load
  • template.print
• Template Precompilation
• Template Helpers
• Usage Examples
  • Template Including
  • Views with Layouts
  • Using Blocks
  • Grandfather-Father-Son Inheritance
  • Macros
  • Calling Methods in Templates
  • Embedding Angular or other tags / templating inside the Templates
  • Embedding Markdown inside the Templates
  • Lua Server Pages (LSP) with OpenResty
• FAQ
• Alternatives
• Benchmarks
• Changes
• See Also
• License

You may use the following tags in templates:

• {{expression}}, writes result of expression - html escaped
• {*expression*}, writes result of expression
• {% lua code %}, executes Lua code
• {(template)}, includes template file, you may also supply context for include file {(file.html, { message = "Hello, World" } )}
• {[expression]}, includes expression file (the result of expression), you may also supply context for include file {["file.html", { message = "Hello, World" } ]}
• {-block-}...{-block-}, wraps inside of a {-block-} to a value stored in a blocks table with a key block (in this case), see using blocks. Don't use predefined block names verbatim and raw.
• {-verbatim-}...{-verbatim-} and {-raw-}...{-raw-} are predefined blocks whose inside is not processed by the lua-resty-template but the content is outputted as is.
• {# comments #} everything between {# and #} is considered to be commented out (i.e. not outputted or executed)

From templates you may access everything in context table, and everything in template table. In templates you can also access context and template by prefixing keys.

<h1>{{message}}</h1> == <h1>{{context.message}}</h1>

If you don't want a particular template tag to be processed you may escape the starting tag with backslash \:

<h1>\{{message}}</h1>

This will output (instead of evaluating the message):

<h1>{{message}}</h1>

If you want to add backslash char just before template tag, you need to escape that as well:

<h1>\\{{message}}</h1>

This will output:

<h1>\[message-variables-content-here]</h1>

Say you have this kind of a context table:

local ctx = {["foo:bar"] = "foobar"}

And you want to render the ctx["foo:bar"]'s value foobar in your template. You have to specify it explicitly by referencing the context in your template:

{# {*["foo:bar"]*} won't work, you need to use: #}
{*context["foo:bar"]*}

Or altogether:

template.render([[
{*context["foo:bar"]*}
]], {["foo:bar"] = "foobar"})

Only strings are escaped, functions are called without arguments (recursively) and results are returned as is, other types are tostringified. nils and ngx.nulls are converted to empty strings "".

Escaped HTML characters:

• & becomes &
• < becomes <
• > becomes >
• " becomes "
• ' becomes '
• / becomes /

local template = require "resty.template"
template.render("view.html", {
  title   = "Testing lua-resty-template",
  message = "Hello, World!",
  names   = { "James", "Jack", "Anne" },
  jquery  = '<script src="js/jquery.min.js"></script>' 
})

{(header.html)}
<h1>{{message}}</h1>
<ul>
{% for _, name in ipairs(names) do %}
    <li>{{name}}</li>
{% end %}
</ul>
{(footer.html)}

<!DOCTYPE html>
<html>
<head>
  <title>{{title}}</title>
  {*jquery*}
</head>
<body>

</body>
</html>

It is adviced that you do not use these keys in your context tables:

• ___, holds the compiled template, if set you need to use {{context.___}}
• context, holds the current context, if set you need to use {{context.context}}
• include, holds the include helper function, if set you need to use {{context.include}}
• layout, holds the layout by which the view will be decorated, if set you need to use {{context.layout}}
• blocks, holds the blocks, if set you need to use {{context.blocks}} (see: using blocks)
• template, holds the template table, if set you need to use {{context.template}}

In addition to that with template.new you should not overwrite:

• render, the function that renders a view, obviously ;-)

You should also not {(view.html)} recursively:

template.render "view.html"

{(view.html)}

You can load templates from "sub-directories" as well with {(syntax)}:

{(users/list.html)}

Also note that you can provide template either as a file path or as a string. If the file exists, it will be used, otherwise the string is used. See also template.load.

Just place template.lua and template directory somewhere in your package.path, under resty directory. If you are using OpenResty, the default location would be /usr/local/openresty/lualib/resty.

$ opm get bungle/lua-resty-template

$ luarocks install lua-resty-template

LuaRocks repository for lua-resty-template is located at https://luarocks.org/modules/bungle/lua-resty-template.

When lua-resty-template is used in context of Nginx / OpenResty there are a few configuration directives that you need to be aware:

• template_root (set $template_root /var/www/site/templates)
• template_location (set $template_location /templates)

If none of these are set in Nginx configuration, ngx.var.document_root (aka root-directive) value is used. If template_location is set, it will be used first, and if the location returns anything but 200 as a status code, we do fallback to either template_root (if defined) or document_root.

This one tries to load file content with Lua code from html directory (relative to Nginx prefix).

http {
  server {
    location / {
      root html;
      content_by_lua '
        local template = require "resty.template"
        template.render("view.html", { message = "Hello, World!" })
      ';      
    }
  }
}

This one tries to load file content with Lua code from /usr/local/openresty/nginx/html/templates directory.

http {
  server {
    set $template_root /usr/local/openresty/nginx/html/templates;
    location / {
      root html;
      content_by_lua '
        local template = require "resty.template"
        template.render("view.html", { message = "Hello, World!" })
      ';      
    }
  }
}

This one tries to load content with ngx.location.capture from /templates location (in this case this is served with ngx_static module).

http {
  server {
    set $template_location /templates;
    location / {
      root html;
      content_by_lua '
        local template = require "resty.template"
        template.render("view.html", { message = "Hello, World!" })
      ';      
    }
    location /templates {
      internal;
      alias html/templates/;
    }    
  }
}

See also template.load.

This function enables or disables template caching, or if no parameters are passed, returns current state of template caching. By default template caching is enabled, but you may want to disable it on development or low-memory situations.

local template = require "resty.template"   
-- Get current state of template caching
local enabled = template.caching()
-- Disable template caching
template.caching(false)
-- Enable template caching
template.caching(true)

Please note that if the template was already cached when compiling a template, the cached version will be returned. You may want to flush cache with template.cache = {} to ensure that your template really gets recompiled.

Creates a new template instance that is used as a (default) context when rendered. A table that gets created has only one method render, but the table also has metatable with __tostring defined. See the example below. Both view and layout arguments can either be strings or file paths, but layout can also be a table created previously with template.new.

local view = template.new"template.html"              -- or
local view = template.new("view.html", "layout.html") -- or
local view = template.new[[<h1>{{message}}</h1>]]     -- or
local view = template.new([[<h1>{{message}}</h1>]], [[
<html>
<body>
  {*view*}
</body>
</html>
]])

local template = require "resty.template"
local view = template.new"view.html"
view.message  = "Hello, World!"
view:render()
-- You may also replace context on render
view:render{ title = "Testing lua-resty-template" }
-- If you want to include view context in  replacement context
view:render(setmetatable({ title = "Testing lua-resty-template" }, { __index = view }))
-- To get rendered template as a string, you can use tostring
local result = tostring(view)

Parses, compiles and caches (if caching is enabled) a template and returns the compiled template as a function that takes context as a parameter and returns rendered template as a string. Optionally you may pass key that is used as a cache key. If cache key is not provided view wil be used as a cache key. If cache key is no-cache the template cache will not be checked and the resulting function will not be cached. You may also optionally pass plain with a value of true if the view is plain text string (this will skip template.load and binary chunk detection in template.parse phase).

local func = template.compile("template.html")          -- or
local func = template.compile([[<h1>{{message}}</h1>]])

local template = require "resty.template"
local func     = template.compile("view.html")
local world    = func{ message = "Hello, World!" }
local universe = func{ message = "Hello, Universe!" }
print(world, universe)

Also note the second return value which is a boolean. You may discard it, or use it to determine if the returned function was cached.

Parses, compiles, caches (if caching is enabled) and outputs template either with ngx.print if available, or print. You may optionally also pass key that is used as a cache key. If plain evaluates to true, the view is considered to be plain string template (template.load and binary chunk detection is skipped on template.parse).

template.render("template.html", { message = "Hello, World!" })          -- or
template.render([[<h1>{{message}}</h1>]], { message = "Hello, World!" })

local template = require "resty.template"
template.render("view.html", { message = "Hello, World!" })
template.render("view.html", { message = "Hello, Universe!" })

Parses template file or string, and generates a parsed template string. This may come useful when debugging templates. You should note that if you are trying to parse a binary chunk (e.g. one returned with template.compile), template.parse will return that binary chunk as is. If optional parameter plain evaluates to true, the view is considered to be plain string, and the template.load and binary chunk detection is skipped.

local t1 = template.parse("template.html")
local t2 = template.parse([[<h1>{{message}}</h1>]])

Precompiles template as a binary chunk. This binary chunk can be written out as a file (and you may use it directly with Lua's load and loadfile). For convenience you may optionally specify path argument to output binary chunk to file. You may also supply strip parameter with value of false to make precompiled templates to have debug information as well (defaults to true).

local view = [[
<h1>{{title}}</h1>
<ul>
{% for _, v in ipairs(context) do %}
    <li>{{v}}</li>
{% end %}
</ul>]]

local compiled = template.precompile(view)

local file = io.open("precompiled-bin.html", "wb")
file:write(compiled)
file:close()

-- Alternatively you could just write (which does the same thing as above)
template.precompile(view, "precompiled-bin.html")

template.render("precompiled-bin.html", {
    title = "Names",
    "Emma", "James", "Nicholas", "Mary"
})

This field is used to load templates. template.parse calls this function before it starts parsing the template (assuming that optional plain argument in template.parse evaluates false (the default). By default there are two loaders in lua-resty-template: one for Lua and the other for Nginx / OpenResty. Users can overwrite this field with their own function. For example you may want to write a template loader function that loads templates from a database.

Default template.load for Lua (attached as template.load when used directly with Lua):

local function load_lua(path)
    -- read_file tries to open file from path, and return its content.
    return read_file(path) or path
end

Default template.load for Nginx / OpenResty (attached as template.load when used in context of Nginx / OpenResty):

local function load_ngx(path)
    local file, location = path, ngx.var.template_location
    if file:sub(1)  == "/" then file = file:sub(2) end
    if location and location ~= "" then
        if location:sub(-1) == "/" then location = location:sub(1, -2) end
        local res = ngx.location.capture(location .. '/' .. file)
        if res.status == 200 then return res.body end
    end
    local root = ngx.var.template_root or ngx.var.document_root
    if root:sub(-1) == "/" then root = root:sub(1, -2) end
    -- read_file tries to open file from path, and return its content.
    return read_file(root .. "/" .. file) or path
end

As you can see, lua-resty-template always tries (by default) to load a template from a file (or with ngx.location.capture) even if you provided template as a string. lua-resty-template. But if you know that your templates are always strings, and not file paths, you may use plain argument in template.compile, template.render, and template.parse OR replace template.load with the simplest possible template loader there is (but be aware that if your templates use {(file.html)} includes, those are considered as strings too, in this case file.html will be the template string that is parsed) - you could also setup a loader that finds templates in some database system, e.g. Redis:

local template = require "resty.template"
template.load = function(s) return s end

This field contains a function that is used on template.render() or template.new("example.html"):render() to output the results. By default this holds either ngx.print (if available) or print. You may want to (and are allowed to) overwrite this field, if you want to use your own output function instead. This is also useful if you are using some other framework, e.g. Turbo.lua (http://turbolua.org/).

local template = require "resty.template"

template.print = function(s)
  print(s)
  print("<!-- Output by My Function -->")
end

lua-resty-template supports template precompilation. This can be useful when you want to skip template parsing (and Lua interpretation) in production or if you do not want your templates distributed as plain text files on production servers. Also by precompiling, you can ensure that your templates do not contain something, that cannot be compiled (they are syntactically valid Lua). Although templates are cached (even without precompilation), there are some perfomance (and memory) gains. You could integrate template precompilation in your build (or deployment) scripts (maybe as Gulp, Grunt or Ant tasks).

local template = require "resty.template"
local compiled = template.precompile("example.html", "example-bin.html")

local template = require "resty.template"
template.render("example-bin.html", { "Jack", "Mary" })

While lua-resty-template does not have much infrastucture or ways to extend it, you still have a few possibilities that you may try.

• Adding methods to global string, and table types (not encouraged, though)
• Wrap your values with something before adding them in context (e.g. proxy-table)
• Create global functions
• Add local functions either to template table or context table
• Use metamethods in your tables

While modifying global types seems convenient, it can have nasty side effects. That's why I suggest you to look at these libraries, and articles first:

• Method Chaining Wrapper (http://lua-users.org/wiki/MethodChainingWrapper)
• Moses (https://github.com/Yonaba/Moses)
• underscore-lua (https://github.com/jtarchie/underscore-lua)

You could for example add Moses' or Underscore's _ to template table or context table.

local _ = require "moses"
local template = require "resty.template"
template._ = _

Then you can use _ inside your templates. I created one example template helper that can be found from here: https://github.com/bungle/lua-resty-template/blob/master/lib/resty/template/html.lua

local template = require "resty.template"
local html = require "resty.template.html"

template.render([[
<ul>
{% for _, person in ipairs(context) do %}
    {*html.li(person.name)*}
{% end %}
</ul>
<table>
{% for _, person in ipairs(context) do %}
    <tr data-sort="{{(person.name or ""):lower()}}">
        {*html.td{ id = person.id }(person.name)*}
    </tr>
{% end %}
</table>]], {
    { id = 1, name = "Emma"},
    { id = 2, name = "James" },
    { id = 3, name = "Nicholas" },
    { id = 4 }
})

<ul>
    <li>Emma</li>
    <li>James</li>
    <li>Nicholas</li>
    <li />
</ul>
<table>
    <tr data-sort="emma">
        <td id="1">Emma</td>
    </tr>
    <tr data-sort="james">
        <td id="2">James</td>
    </tr>
    <tr data-sort="nicholas">
        <td id="3">Nicholas</td>
    </tr>
    <tr data-sort="">
        <td id="4" />
    </tr>
</table>

You may include templates inside templates with {(template)} and {(template, context)} syntax. The first one uses the current context as a context for included template, and the second one replaces it with a new context. Here is example of using includes and passing a different context to include file:

local template = require "resty.template"
template.render("include.html", { users = {
    { name = "Jane", age = 29 },
    { name = "John", age = 25 }
}})

<html>
<body>
<ul>
{% for _, user in ipairs(users) do %}
    {(user.html, user)}
{% end %}
</ul>
</body>
</html>

<li>User {{name}} is of age {{age}}</li>

<html>
<body>
<ul>
    <li>User Jane is of age 29</li>
    <li>User John is of age 25</li>
</ul>
</body>
</html>

Layouts (or Master Pages) can be used to wrap a view inside another view (aka layout).

local template = require "resty.template"
local layout   = template.new "layout.html"
layout.title   = "Testing lua-resty-template"
layout.view    = template.compile "view.html" { message = "Hello, World!" }
layout:render()
-- Or like this
template.render("layout.html", {
  title = "Testing lua-resty-template",
  view  = template.compile "view.html" { message = "Hello, World!" }
})
-- Or maybe you like this style more
-- (but please remember that context.view is overwritten on rendering the layout.html)
local view     = template.new("view.html", "layout.html")
view.title     = "Testing lua-resty-template"
view.message   = "Hello, World!"
view:render()
-- Well, maybe like this then?
local layout   = template.new "layout.html"
layout.title   = "Testing lua-resty-template"
local view     = template.new("view.html", layout)
view.message   = "Hello, World!"
view:render()

<h1>{{message}}</h1>

<!DOCTYPE html>
<html>
<head>
    <title>{{title}}</title>
</head>
<body>
    {*view*}
</body>
</html>

local view     = template.new("view.html", "layout.html")
view.title     = "Testing lua-resty-template"
view.message   = "Hello, World!"
view:render()

{% layout="section.html" %}
<h1>{{message}}</h1>

<div id="section">
    {*view*}
</div>

<!DOCTYPE html>
<html>
<head>
    <title>{{title}}</title>
</head>
<body>
    {*view*}
</body>
</html>

<!DOCTYPE html>
<html>
<head>
    <title>Testing lua-resty-template</title>
</head>
<body>
<div id="section">
    <h1>Hello, World!</h1>
</div>
</body>
</html>

Blocks can be used to move different parts of the views to specific places in layouts. Layouts have placeholders for blocks.

local view     = template.new("view.html", "layout.html")
view.title     = "Testing lua-resty-template blocks"
view.message   = "Hello, World!"
view.keywords  = { "test", "lua", "template", "blocks" }
view:render()

<h1>{{message}}</h1>
{-aside-}
<ul>
    {% for _, keyword in ipairs(keywords) do %}
    <li>{{keyword}}</li>
    {% end %}
</ul>
{-aside-}

<!DOCTYPE html>
<html>
<head>
<title>{*title*}</title>
</head>
<body>
<article>
    {*view*}
</article>
{% if blocks.aside then %}
<aside>
    {*blocks.aside*}
</aside>
{% end %}
</body>
</html>

<!DOCTYPE html>
<html>
<head>
<title>Testing lua-resty-template blocks</title>
</head>
<body>
<article>
    <h1>Hello, World!</h1>
</article>
<aside>
    <ul>
        <li>test</li>
        <li>lua</li>
        <li>template</li>
        <li>blocks</li>
    </ul>
</aside>
</body>
</html>

Say you have base.html, layout1.html, layout2.html and page.html. You want an inheritance like this: base.html ➡ layout1.html ➡ page.html or base.html ➡ layout2.html ➡ page.html (actually this nesting is not limited to three levels).

local res = require"resty.template".compile("page.html"){} 

<html lang='zh'>
   <head>
   <link href="css/bootstrap.min.css" rel="stylesheet">
   {* blocks.page_css *}
   </head>
   <body>
   {* blocks.main *}
   <script src="js/jquery.js"></script>
   <script src="js/bootstrap.min.js"></script>
   {* blocks.page_js *}
   </body>
</html>

{% layout = "base.html" %}
{-main-}
    <div class="sidebar-1">
      {* blocks.sidebar *}
    </div>
    <div class="content-1">
      {* blocks.content *}
    </div>
{-main-}

{% layout = "base.html" %}
{-main-}
    <div class="sidebar-2">
      {* blocks.sidebar *}
    </div>
    <div class="content-2">
      {* blocks.content *}
    </div>
    <div>I am different from layout1 </div>
{-main-}

{% layout = "layout1.html" %}
{-sidebar-}
  this is sidebar
{-sidebar-}

{-content-}
  this is content
{-content-}

{-page_css-}
  <link href="css/page.css" rel="stylesheet">
{-page_css-}

{-page_js-}
  <script src="js/page.js"></script>
{-page_js-}

Or:

{% layout = "layout2.html" %}
{-sidebar-}
  this is sidebar
{-sidebar-}

{-content-}
  this is content
{-content-}

{-page_css-}
  <link href="css/page.css" rel="stylesheet">
{-page_css-}

{-page_js-}
  <script src="js/page.js"></script>
{-page_js-}

@DDarko mentioned in an issue #5 that he has a use case where he needs to have macros or parameterized views. That is a nice feature that you can use with lua-resty-template.

To use macros, let's first define some Lua code:

template.render("macro.html", {
    item = "original",
    items = { a = "original-a", b = "original-b" } 
})

And the macro-example.html:

{% local string_macro = [[
<div>{{item}}</div>
]] %}
{* template.compile(string_macro)(context) *}
{* template.compile(string_macro){ item = "string-macro-context" } *}

This will output:

<div>original</div>
<div>string-macro-context</div>

Now let's add function macro, in macro-example.html (you can omit local if you want):

{% local function_macro = function(var, el)
    el = el or "div"
    return "<" .. el .. ">{{" .. var .. "}}</" .. el .. ">\n"
end %}

{* template.compile(function_macro("item"))(context) *}
{* template.compile(function_macro("a", "span"))(items) *}

This will output:

<div>original</div>
<span>original-a</span>

But this is even more flexible, let's try another function macro:

{% local function function_macro2(var)
    return template.compile("<div>{{" .. var .. "}}</div>\n")
end %}
{* function_macro2 "item" (context) *}
{* function_macro2 "b" (items) *}

This will output:

<div>original</div>
<div>original-b</div>

And here is another one:

{% function function_macro3(var, ctx)
    return template.compile("<div>{{" .. var .. "}}</div>\n")(ctx or context)
end %}
{* function_macro3("item") *}
{* function_macro3("a", items) *}
{* function_macro3("b", items) *}
{* function_macro3("b", { b = "b-from-new-context" }) *}

This will output:

<div>original</div>
<div>original-a</div>
<div>original-b</div>
<div>b-from-new-context</div>

Macros are really flexible. You may have form-renderers and other helper-macros to have a reusable and parameterized template output. One thing you should know is that inside code blocks (between {% and %}) you cannot have %}, but you can work around this using string concatenation "%" .. "}".

You can call string methods (or other table functions) in templates too.

local template = require "resty.template"
template.render([[
<h1>{{header:upper()}}</h1>
]], { header = "hello, world!" })

<h1>HELLO, WORLD!</h1>

Sometimes you need to mix and match other templates (say client side Javascript templates like Angular) with server side lua-resty-templates. Say you have this kind of Angular template:

<html ng-app>
 <body ng-controller="MyController">
   <input ng-model="foo" value="bar">
   <button ng-click="changeFoo()">{{buttonText}}</button>
   <script src="angular.js">
 </body>
</html>

Now you can see that there is {{buttonText}} that is really for Angular templating, and not for lua-resty-template. You can fix this by wrapping either the whole code with {-verbatim-} or {-raw-} or only the parts that you want:

{-raw-}
<html ng-app>
 <body ng-controller="MyController">
   <input ng-model="foo" value="bar">
   <button ng-click="changeFoo()">{{buttonText}}</button>
   <script src="angular.js">
 </body>
</html>
{-raw-}

or (see the {(head.html)} is processed by lua-resty-template):

<html ng-app>
 {(head.html)}
 <body ng-controller="MyController">
   <input ng-model="foo" value="bar">
   <button ng-click="changeFoo()">{-raw-}{{buttonText}}{-raw-}</button>
   <script src="angular.js">
 </body>
</html>

You may also use short escaping syntax:

...
<button ng-click="changeFoo()">\{{buttonText}}</button>
...

If you want to embed Markdown (and SmartyPants) syntax inside your templates you can do it by using for example lua-resty-hoedown (it depends on LuaJIT). Here is an example of using that:

local template = require "resty.template"
template.markdown = require "resty.hoedown"

template.render[=[
<html>
<body>
{*markdown[[
#Hello, World

Testing Markdown.
]]*}
</body>
</html>
]=]

<html>
<body>
<h1>Hello, World</h1>

<p>Testing Markdown.</p>
</body>
</html>

You may also add config parameters that are documented in lua-resty-hoedown project. Say you want also to use SmartyPants:

local template = require "resty.template"
template.markdown = require "resty.hoedown"

template.render[=[
<html>
<body>
{*markdown([[
#Hello, World

Testing Markdown with "SmartyPants"...
]], { smartypants = true })*}
</body>
</html>
]=]

<html>
<body>
<h1>Hello, World</h1>

<p>Testing Markdown with &ldquo;SmartyPants&rdquo;&hellip;</p>
</body>
</html>

You may also want to add caching layer for your Markdowns, or a helper functions instead of placing Hoedown library directly as a template helper function in template.

Lua Server Pages or LSPs is similar to traditional PHP or Microsoft Active Server Pages (ASP) where you can just place source code files in your document root (of your web server) and have them processed by compilers of the respective languages (PHP, VBScript, JScript, etc.). You can emulate quite closely this, sometimes called spaghetti-style of develoment, easily with lua-resty-template. Those that have been doing ASP.NET Web Forms development, know a concept of Code Behind files. There is something similar, but this time we call it Layout in Front here (you may include Lua modules with normal require calls if you wish in LSPs). To help you understand the concepts, let's have a small example:

http {
  init_by_lua '
    require "resty.core"
    template = require "resty.template"
    template.caching(false); -- you may remove this on production
  ';
  server {
    location ~ \.lsp$ {
      default_type text/html;
      content_by_lua 'template.render(ngx.var.uri)';
    }
  }
}

The above configuration creates a global template variable in Lua environment (you may not want that). We also created location to match all .lsp files (or locations), and then we just render the template.

Let's imagine that the request is for index.lsp.

{%
layout = "layouts/default.lsp"
local title = "Hello, World!"
%}
<h1>{{title}}</h1>

Here you can see that this file includes a little bit of a view (<h1>{{title}}</h1>) in addition to some Lua code that we want to run. If you want to have a pure code file with Layout in Front, then just don't write any view code in this file. The layout variable is already defined in views as documented else where in this documentation. Now let's see the other files too.

<html>
{(include/header.lsp)}
<body>
{*view*}
</body>
</html>

Here we have a layout to decorate the index.lsp, but we also have include here, so let's look at it.

<head>
  <title>Testing Lua Server Pages</title>
</head>

Static stuff here only.

The final output will look like this:

<html>
<head>
  <title>Testing Lua Server Pages</title>
</head>
<body>
  <h1>Hello, World!</h1>
</body>
</html>

As you can see, lua-resty-template can be quite flexibile and easy to start with. Just place files under your document root and use the normal save-and-refresh style of development. The server will automatically pick the new files and reload the templates (if the caching is turned of) on save.

If you want to pass variables to layouts or includes you can add stuff to context table (in the example below see context.title):

{%
layout = "layouts/default.lsp"
local title = "Hello, World!"
context.title = 'My Application - ' .. title
%}
<h1>{{title}}</h1>

lua-resty-template automatically caches (if caching is enabled) the resulting template functions in template.cache table. You can clear the cache by issuing template.cache = {}.

• jd.com – Jingdong Mall (Chinese: 京东商城; pinyin: Jīngdōng Shāngchéng), formerly 360Buy, is a Chinese electronic commerce company

Please let me know if there are errors or old information in this list.

You may also look at these (as alternatives, or to mix them with lua-resty-template):

• lemplate (https://github.com/openresty/lemplate)
• lua-resty-tags (https://github.com/bungle/lua-resty-tags)
• lua-resty-hoedown (https://github.com/bungle/lua-resty-hoedown)
• etlua (https://github.com/leafo/etlua)
• lua-template (https://github.com/dannote/lua-template)
• lua-resty-tmpl (https://github.com/lloydzhou/lua-resty-tmpl) (a fork of the lua-template)
• htmlua (https://github.com/benglard/htmlua)
• cgilua (http://keplerproject.github.io/cgilua/manual.html#templates)
• orbit (http://keplerproject.github.io/orbit/pages.html)
• turbolua mustache (http://turbolua.org/doc/web.html#mustache-templating)
• pl.template (http://stevedonovan.github.io/Penlight/api/modules/pl.template.html)
• lustache (https://github.com/Olivine-Labs/lustache)
• luvstache (https://github.com/james2doyle/luvstache)
• luaghetti (https://github.com/AterCattus/luaghetti)
• lub.Template (http://doc.lubyk.org/lub.Template.html)
• lust (https://github.com/weshoke/Lust)
• templet (http://colberg.org/lua-templet/)
• luahtml (https://github.com/TheLinx/LuaHTML)
• mixlua (https://github.com/LuaDist/mixlua)
• lutem (https://github.com/daly88/lutem)
• tirtemplate (https://github.com/torhve/LuaWeb/blob/master/tirtemplate.lua)
• cosmo (http://cosmo.luaforge.net/)
• lua-codegen (http://fperrad.github.io/lua-CodeGen/)
• groucho (https://github.com/hanjos/groucho)
• simple lua preprocessor (http://lua-users.org/wiki/SimpleLuaPreprocessor)
• slightly less simple lua preprocessor (http://lua-users.org/wiki/SlightlyLessSimpleLuaPreprocessor)
• ltp (http://www.savarese.com/software/ltp/)
• slt (https://code.google.com/p/slt/)
• slt2 (https://github.com/henix/slt2)
• luasp (http://luasp.org/)
• view0 (https://bitbucket.org/jimstudt/view0)
• leslie (https://code.google.com/p/leslie/)
• fraudster (https://bitbucket.org/sphen_lee/fraudster)
• lua-haml (https://github.com/norman/lua-haml)
• lua-template (https://github.com/tgn14/Lua-template)
• hige (https://github.com/nrk/hige)
• mod_pLua (https://sourceforge.net/p/modplua/wiki/Home/)
• lapis html generation (http://leafo.net/lapis/reference.html#html-generation)

lua-resty-template was originally forked from Tor Hveem's tirtemplate.lua that he had extracted from Zed Shaw's Tir web framework (http://tir.mongrel2.org/). Thank you Tor, and Zed for your earlier contributions.

There is a small microbenchmark located here: https://github.com/bungle/lua-resty-template/blob/master/lib/resty/template/microbenchmark.lua

There is also a regression in LuaJIT that affects the results. If you want your LuaJIT patched against this, you need to merge this pull request: LuaJIT/LuaJIT#174.

Others have reported that in simple benchmarks running this template engine actually beats Nginx serving static files by a factor of three. So I guess this engine is quite fast.

local benchmark = require "resty.template.microbenchmark"
benchmark.run()
-- You may also pass iteration count (by default it is 1,000)
benchmark.run(100)

Here are some results from my laptop.

Running 1000 iterations in each test
    Parsing Time: 0.015122
Compilation Time: 0.056889 (template)
Compilation Time: 0.000283 (template cached)
  Execution Time: 0.065662 (same template)
  Execution Time: 0.007642 (same template cached)
  Execution Time: 0.089193 (different template)
  Execution Time: 0.012040 (different template cached)
  Execution Time: 0.089345 (different template, different context)
  Execution Time: 0.009352 (different template, different context cached)
      Total Time: 0.345528

Running 1000 iterations in each test
    Parsing Time: 0.018174
Compilation Time: 0.057711 (template)
Compilation Time: 0.000641 (template cached)
  Execution Time: 0.073134 (same template)
  Execution Time: 0.008268 (same template cached)
  Execution Time: 0.073124 (different template)
  Execution Time: 0.009122 (different template cached)
  Execution Time: 0.076488 (different template, different context)
  Execution Time: 0.010532 (different template, different context cached)
      Total Time: 0.327194

Running 1000 iterations in each test
    Parsing Time: 0.018946
Compilation Time: 0.056762 (template)
Compilation Time: 0.000529 (template cached)
  Execution Time: 0.073199 (same template)
  Execution Time: 0.007849 (same template cached)
  Execution Time: 0.065949 (different template)
  Execution Time: 0.008555 (different template cached)
  Execution Time: 0.076584 (different template, different context)
  Execution Time: 0.009687 (different template, different context cached)
      Total Time: 0.318060

Running 1000 iterations in each test
    Parsing Time: 0.009124
Compilation Time: 0.029342 (template)
Compilation Time: 0.000149 (template cached)
  Execution Time: 0.035011 (same template)
  Execution Time: 0.003697 (same template cached)
  Execution Time: 0.066440 (different template)
  Execution Time: 0.009159 (different template cached)
  Execution Time: 0.062997 (different template, different context)
  Execution Time: 0.005843 (different template, different context cached)
      Total Time: 0.221762

Running 1000 iterations in each test
    Parsing Time: 0.003742
Compilation Time: 0.028227 (template)
Compilation Time: 0.000182 (template cached)
  Execution Time: 0.034940 (same template)
  Execution Time: 0.002974 (same template cached)
  Execution Time: 0.067101 (different template)
  Execution Time: 0.011551 (different template cached)
  Execution Time: 0.071506 (different template, different context)
  Execution Time: 0.007749 (different template, different context cached)
      Total Time: 0.227972

Running 1000 iterations in each test
    Parsing Time: 0.003726
Compilation Time: 0.035392 (template)
Compilation Time: 0.000112 (template cached)
  Execution Time: 0.037252 (same template)
  Execution Time: 0.003590 (same template cached)
  Execution Time: 0.058258 (different template)
  Execution Time: 0.009501 (different template cached)
  Execution Time: 0.059082 (different template, different context)
  Execution Time: 0.006612 (different template, different context cached)
      Total Time: 0.213525

I have not yet compared the results against the alternatives.

The changes of every release of this module is recorded in Changes.md file.

• lua-resty-route — Routing library
• lua-resty-reqargs — Request arguments parser
• lua-resty-session — Session library
• lua-resty-validation — Validation and filtering library

lua-resty-template uses three clause BSD license (because it was originally forked from one that uses it).

Copyright (c) 2014 - 2017, Aapo Talvensaari
All rights reserved.

Redistribution and use in source and binary forms, with or without modification,
are permitted provided that the following conditions are met:

* Redistributions of source code must retain the above copyright notice, this
  list of conditions and the following disclaimer.

* Redistributions in binary form must reproduce the above copyright notice, this
  list of conditions and the following disclaimer in the documentation and/or
  other materials provided with the distribution.

* Neither the name of the {organization} nor the names of its
  contributors may be used to endorse or promote products derived from
  this software without specific prior written permission.

THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR
ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.