diff --git a/.gitignore b/.gitignore
index 6704566..c014e8f 100644
--- a/.gitignore
+++ b/.gitignore
@@ -102,3 +102,7 @@ dist
 
 # TernJS port file
 .tern-port
+
+# Project specific exclusions
+yarn.lock
+/.idea/
\ No newline at end of file
diff --git a/.npmignore b/.npmignore
new file mode 100644
index 0000000..3774d35
--- /dev/null
+++ b/.npmignore
@@ -0,0 +1,7 @@
+node_modules/
+test/
+.gitignore
+.npmignore
+jest.config.js
+yarn.lock
+yarn-error.log
\ No newline at end of file
diff --git a/README.md b/README.md
index 776bc80..4194456 100644
--- a/README.md
+++ b/README.md
@@ -1 +1,55 @@
-# eleventy-plugin-plantuml
\ No newline at end of file
+# eleventy-plugin-plantuml
+
+> Eleventy Plantuml plugin. Uses sync request to connect to a plantuml server to convert markddown code block of type 
+> plantuml to an inline dataurl png ```<img>```
+
+## Dependencies
+* [eleventy](https://www.npmjs.com/package/@11ty/eleventy) A simpler static site generator for which this plugin is make.
+* [sync-request](https://www.npmjs.com/package/sync-request) (for making blocking synchronous http request - not to be used in production)
+* [jest](https://www.npmjs.com/package/jest) (for executing unit tests)
+
+## Installation
+
+Add plugin to .eleventy.js configuration file and optionally provide a private Plantuml server
+```javascript
+    eleventyConfig.addPlugin(plantuml, {
+        hostname: "localhost",
+        port: 8888,
+        prefix: ""
+    });
+```
+
+if options are omited, the plugin defaults to <http://plnntuml.com/plantuml> server for conversion. 
+
+## Using in templates
+Simply create a markdown code block of type plantuml and it will be replaced by an img with inline png src (dataurl).
+
+>In the following example, there is an extra space between the ticks ` for escaping
+
+```
+`` `plantuml
+@startuml
+!include https://raw.githubusercontent.com/bschwarz/puml-themes/master/themes/bluegray/puml-theme-bluegray.puml
+participant "Makrdown Highlighter" as MDH
+participant "eleventy-plugin-plantumt" as plugin
+participant "Plantuml Server" as plantuml
+
+MDH -> plugin : highlight
+plugin -> plugin: compress url
+plugin -> plantuml: GET /png/{url}
+plantuml -> plugin: image/png
+plugin -> plugin: base64
+plugin -> MDH: img src="dataurl"
+@enduml
+`` `
+```
+
+## Contribute
+* create a fork of this repo 
+* make your changes
+* test your code by running ```yarn test``` or ```npm test```
+* create a Pull Request
+
+
+## Testing
+Execute ```yarn test``` or ```npm test``` to execute integration tests against <plantuml.com/plantuml> live server
\ No newline at end of file
diff --git a/index.js b/index.js
new file mode 100644
index 0000000..4f35b5c
--- /dev/null
+++ b/index.js
@@ -0,0 +1 @@
+module.exports = require('./lib/eleventy-plugin-plantuml');
\ No newline at end of file
diff --git a/jest.config.js b/jest.config.js
new file mode 100644
index 0000000..577c4ad
--- /dev/null
+++ b/jest.config.js
@@ -0,0 +1,7 @@
+module.exports = {
+  "moduleFileExtensions": ["js", "json"],
+  "rootDir": "./",
+  "testMatch": ["<rootDir>/test/**/*.{spec,test}.js"],
+  "testPathIgnorePatterns": ["<rootDir>/node_modules"],
+  "testEnvironment": "node"
+}
diff --git a/lib/eleventy-plugin-plantuml.js b/lib/eleventy-plugin-plantuml.js
new file mode 100644
index 0000000..35aec61
--- /dev/null
+++ b/lib/eleventy-plugin-plantuml.js
@@ -0,0 +1,69 @@
+const request = require('sync-request');
+const plantumlEncode = require('./plantumlEncode');
+
+const defaultOptions = {
+    protocol: 'http',
+    hostname: 'www.plantuml.com',
+    port: "80",
+    prefix: "/plantuml",
+    outputType: "png",
+    imgClass: "plantuml"
+};
+
+function generatePlantumlUrl(encoded, options) {
+    return `${options.protocol}://${options.hostname}${options.port === 80 ? "" : options.port === 443 ? "" : (":" + options.port)}${options.prefix}/${options.outputType}/${encoded}`;
+}
+
+const generateImageAsBase64String = (url, options) => {
+    // request url
+    const response = request('GET', url);
+    // convert from Uint8Array to buffer to base64 string
+    return Buffer.from(response.getBody()).toString('base64');
+}
+
+const generateImgTag = (imageBase64, options) => {
+    return `<img class="${options.imgClass}" src="data:image/png;base64,${imageBase64}" alt="Plantuml Diagram" />`;
+};
+
+const highlight = (diagram, options) => {
+    // compute compressed version of str
+    const encoded = plantumlEncode(diagram);
+    // URL to send to plantuml for conversion
+    const url = generatePlantumlUrl(encoded, options);
+    // Call plantuml server to generate image
+    const imageBase64 = generateImageAsBase64String(url, options);
+    // Finally convert image to dataurl
+    return generateImgTag(imageBase64, options);
+};
+
+const plugin = (eleventyConfig, pluginOptions = {}) => {
+    // default options
+    const options = Object.assign({}, defaultOptions, pluginOptions);
+
+    // preserve chain of highlighter
+    const highlighter = eleventyConfig.markdownHighlighter;
+
+    // add highlighter
+    eleventyConfig.addMarkdownHighlighter((diagram, language) => {
+        if (language === "plantuml") {
+            return highlight(diagram, options);
+        }
+        // just in case highlighter is not enabled in which case I am not sure why we are doing
+        if (highlighter) {
+            return highlighter(diagram, language)
+        }
+        // default highlighter just in case
+        return `<pre class="${language}">${diagram}</a>`;
+    });
+    return {}
+};
+
+module.exports = {
+    defaultOptions,
+    plugin,
+    highlight,
+    
+    generatePlantumlUrl,
+    generateImageAsBase64String,
+    generateImgTag
+};
\ No newline at end of file
diff --git a/lib/plantumlEncode.js b/lib/plantumlEncode.js
new file mode 100644
index 0000000..c504cf3
--- /dev/null
+++ b/lib/plantumlEncode.js
@@ -0,0 +1,58 @@
+/*
+ * Original:
+ *   https://github.com/johan/js-deflate
+ */
+const { deflate } = require('./rawdeflate');
+
+const encode64 = data => {
+    let r = "";
+    for (let i=0; i<data.length; i+=3) {
+        if (i+2===data.length) {
+            r +=append3bytes(data.charCodeAt(i), data.charCodeAt(i+1), 0);
+        } else if (i+1===data.length) {
+            r += append3bytes(data.charCodeAt(i), 0, 0);
+        } else {
+            r += append3bytes(data.charCodeAt(i), data.charCodeAt(i+1),
+                data.charCodeAt(i+2));
+        }
+    }
+    return r;
+}
+
+const append3bytes = (b1, b2, b3) => {
+    let c1 = b1 >> 2;
+    let c2 = ((b1 & 0x3) << 4) | (b2 >> 4);
+    let c3 = ((b2 & 0xF) << 2) | (b3 >> 6);
+    let c4 = b3 & 0x3F;
+    let r = "";
+    r += encode6bit(c1 & 0x3F);
+    r += encode6bit(c2 & 0x3F);
+    r += encode6bit(c3 & 0x3F);
+    r += encode6bit(c4 & 0x3F);
+    return r;
+}
+
+const encode6bit = b => {
+    if (b < 10) {
+        return String.fromCharCode(48 + b);
+    }
+    b -= 10;
+    if (b < 26) {
+        return String.fromCharCode(65 + b);
+    }
+    b -= 26;
+    if (b < 26) {
+        return String.fromCharCode(97 + b);
+    }
+    b -= 26;
+    if (b === 0) {
+        return '-';
+    }
+    if (b === 1) {
+        return '_';
+    }
+    return '?';
+}
+const geturl = (s) => encode64(deflate(unescape(encodeURIComponent(s)), 9));
+
+module.exports = geturl;
\ No newline at end of file
diff --git a/lib/rawdeflate.js b/lib/rawdeflate.js
new file mode 100644
index 0000000..c8e8da2
--- /dev/null
+++ b/lib/rawdeflate.js
@@ -0,0 +1,1670 @@
+/*
+ * Original:
+ *   http://www.onicos.com/staff/iz/amuse/javascript/expert/deflate.txt
+ */
+
+// if run as a web worker, respond to messages by deflating them
+var deflate = (function() {
+
+/* Copyright (C) 1999 Masanao Izumo <iz@onicos.co.jp>
+ * Version: 1.0.1
+ * LastModified: Dec 25 1999
+ */
+
+/* Interface:
+ * data = deflate(src);
+ */
+
+/* constant parameters */
+var zip_WSIZE = 32768;		// Sliding Window size
+var zip_STORED_BLOCK = 0;
+var zip_STATIC_TREES = 1;
+var zip_DYN_TREES    = 2;
+
+/* for deflate */
+var zip_DEFAULT_LEVEL = 6;
+var zip_FULL_SEARCH = true;
+var zip_INBUFSIZ = 32768;	// Input buffer size
+var zip_INBUF_EXTRA = 64;	// Extra buffer
+var zip_OUTBUFSIZ = 1024 * 8;
+var zip_window_size = 2 * zip_WSIZE;
+var zip_MIN_MATCH = 3;
+var zip_MAX_MATCH = 258;
+var zip_BITS = 16;
+// for SMALL_MEM
+var zip_LIT_BUFSIZE = 0x2000;
+var zip_HASH_BITS = 13;
+// for MEDIUM_MEM
+// var zip_LIT_BUFSIZE = 0x4000;
+// var zip_HASH_BITS = 14;
+// for BIG_MEM
+// var zip_LIT_BUFSIZE = 0x8000;
+// var zip_HASH_BITS = 15;
+//if(zip_LIT_BUFSIZE > zip_INBUFSIZ)
+//    alert("error: zip_INBUFSIZ is too small");
+//if((zip_WSIZE<<1) > (1<<zip_BITS))
+//    alert("error: zip_WSIZE is too large");
+//if(zip_HASH_BITS > zip_BITS-1)
+//    alert("error: zip_HASH_BITS is too large");
+//if(zip_HASH_BITS < 8 || zip_MAX_MATCH != 258)
+//    alert("error: Code too clever");
+var zip_DIST_BUFSIZE = zip_LIT_BUFSIZE;
+var zip_HASH_SIZE = 1 << zip_HASH_BITS;
+var zip_HASH_MASK = zip_HASH_SIZE - 1;
+var zip_WMASK = zip_WSIZE - 1;
+var zip_NIL = 0; // Tail of hash chains
+var zip_TOO_FAR = 4096;
+var zip_MIN_LOOKAHEAD = zip_MAX_MATCH + zip_MIN_MATCH + 1;
+var zip_MAX_DIST = zip_WSIZE - zip_MIN_LOOKAHEAD;
+var zip_SMALLEST = 1;
+var zip_MAX_BITS = 15;
+var zip_MAX_BL_BITS = 7;
+var zip_LENGTH_CODES = 29;
+var zip_LITERALS =256;
+var zip_END_BLOCK = 256;
+var zip_L_CODES = zip_LITERALS + 1 + zip_LENGTH_CODES;
+var zip_D_CODES = 30;
+var zip_BL_CODES = 19;
+var zip_REP_3_6 = 16;
+var zip_REPZ_3_10 = 17;
+var zip_REPZ_11_138 = 18;
+var zip_HEAP_SIZE = 2 * zip_L_CODES + 1;
+var zip_H_SHIFT = parseInt((zip_HASH_BITS + zip_MIN_MATCH - 1) /
+			   zip_MIN_MATCH);
+
+/* variables */
+var zip_free_queue;
+var zip_qhead, zip_qtail;
+var zip_initflag;
+var zip_outbuf = null;
+var zip_outcnt, zip_outoff;
+var zip_complete;
+var zip_window;
+var zip_d_buf;
+var zip_l_buf;
+var zip_prev;
+var zip_bi_buf;
+var zip_bi_valid;
+var zip_block_start;
+var zip_ins_h;
+var zip_hash_head;
+var zip_prev_match;
+var zip_match_available;
+var zip_match_length;
+var zip_prev_length;
+var zip_strstart;
+var zip_match_start;
+var zip_eofile;
+var zip_lookahead;
+var zip_max_chain_length;
+var zip_max_lazy_match;
+var zip_compr_level;
+var zip_good_match;
+var zip_nice_match;
+var zip_dyn_ltree;
+var zip_dyn_dtree;
+var zip_static_ltree;
+var zip_static_dtree;
+var zip_bl_tree;
+var zip_l_desc;
+var zip_d_desc;
+var zip_bl_desc;
+var zip_bl_count;
+var zip_heap;
+var zip_heap_len;
+var zip_heap_max;
+var zip_depth;
+var zip_length_code;
+var zip_dist_code;
+var zip_base_length;
+var zip_base_dist;
+var zip_flag_buf;
+var zip_last_lit;
+var zip_last_dist;
+var zip_last_flags;
+var zip_flags;
+var zip_flag_bit;
+var zip_opt_len;
+var zip_static_len;
+var zip_deflate_data;
+var zip_deflate_pos;
+
+/* objects (deflate) */
+
+function zip_DeflateCT() {
+    this.fc = 0; // frequency count or bit string
+    this.dl = 0; // father node in Huffman tree or length of bit string
+}
+
+function zip_DeflateTreeDesc() {
+    this.dyn_tree = null;	// the dynamic tree
+    this.static_tree = null;	// corresponding static tree or NULL
+    this.extra_bits = null;	// extra bits for each code or NULL
+    this.extra_base = 0;	// base index for extra_bits
+    this.elems = 0;		// max number of elements in the tree
+    this.max_length = 0;	// max bit length for the codes
+    this.max_code = 0;		// largest code with non zero frequency
+}
+
+/* Values for max_lazy_match, good_match and max_chain_length, depending on
+ * the desired pack level (0..9). The values given below have been tuned to
+ * exclude worst case performance for pathological files. Better values may be
+ * found for specific files.
+ */
+function zip_DeflateConfiguration(a, b, c, d) {
+    this.good_length = a; // reduce lazy search above this match length
+    this.max_lazy = b;    // do not perform lazy search above this match length
+    this.nice_length = c; // quit search above this match length
+    this.max_chain = d;
+}
+
+function zip_DeflateBuffer() {
+    this.next = null;
+    this.len = 0;
+    this.ptr = new Array(zip_OUTBUFSIZ);
+    this.off = 0;
+}
+
+/* constant tables */
+var zip_extra_lbits = [
+    0,0,0,0,0,0,0,0,1,1,1,1,2,2,2,2,3,3,3,3,4,4,4,4,5,5,5,5,0];
+var zip_extra_dbits = [
+    0,0,0,0,1,1,2,2,3,3,4,4,5,5,6,6,7,7,8,8,9,9,10,10,11,11,12,12,13,13];
+var zip_extra_blbits = [
+    0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,2,3,7];
+var zip_bl_order = [16,17,18,0,8,7,9,6,10,5,11,4,12,3,13,2,14,1,15];
+var zip_configuration_table = [
+	new zip_DeflateConfiguration(0,    0,   0,    0),
+	new zip_DeflateConfiguration(4,    4,   8,    4),
+	new zip_DeflateConfiguration(4,    5,  16,    8),
+	new zip_DeflateConfiguration(4,    6,  32,   32),
+	new zip_DeflateConfiguration(4,    4,  16,   16),
+	new zip_DeflateConfiguration(8,   16,  32,   32),
+	new zip_DeflateConfiguration(8,   16, 128,  128),
+	new zip_DeflateConfiguration(8,   32, 128,  256),
+	new zip_DeflateConfiguration(32, 128, 258, 1024),
+	new zip_DeflateConfiguration(32, 258, 258, 4096)];
+
+
+/* routines (deflate) */
+
+function zip_deflate_start(level) {
+    var i;
+
+    if(!level)
+	level = zip_DEFAULT_LEVEL;
+    else if(level < 1)
+	level = 1;
+    else if(level > 9)
+	level = 9;
+
+    zip_compr_level = level;
+    zip_initflag = false;
+    zip_eofile = false;
+    if(zip_outbuf != null)
+	return;
+
+    zip_free_queue = zip_qhead = zip_qtail = null;
+    zip_outbuf = new Array(zip_OUTBUFSIZ);
+    zip_window = new Array(zip_window_size);
+    zip_d_buf = new Array(zip_DIST_BUFSIZE);
+    zip_l_buf = new Array(zip_INBUFSIZ + zip_INBUF_EXTRA);
+    zip_prev = new Array(1 << zip_BITS);
+    zip_dyn_ltree = new Array(zip_HEAP_SIZE);
+    for(i = 0; i < zip_HEAP_SIZE; i++)
+	zip_dyn_ltree[i] = new zip_DeflateCT();
+    zip_dyn_dtree = new Array(2*zip_D_CODES+1);
+    for(i = 0; i < 2*zip_D_CODES+1; i++)
+	zip_dyn_dtree[i] = new zip_DeflateCT();
+    zip_static_ltree = new Array(zip_L_CODES+2);
+    for(i = 0; i < zip_L_CODES+2; i++)
+	zip_static_ltree[i] = new zip_DeflateCT();
+    zip_static_dtree = new Array(zip_D_CODES);
+    for(i = 0; i < zip_D_CODES; i++)
+	zip_static_dtree[i] = new zip_DeflateCT();
+    zip_bl_tree = new Array(2*zip_BL_CODES+1);
+    for(i = 0; i < 2*zip_BL_CODES+1; i++)
+	zip_bl_tree[i] = new zip_DeflateCT();
+    zip_l_desc = new zip_DeflateTreeDesc();
+    zip_d_desc = new zip_DeflateTreeDesc();
+    zip_bl_desc = new zip_DeflateTreeDesc();
+    zip_bl_count = new Array(zip_MAX_BITS+1);
+    zip_heap = new Array(2*zip_L_CODES+1);
+    zip_depth = new Array(2*zip_L_CODES+1);
+    zip_length_code = new Array(zip_MAX_MATCH-zip_MIN_MATCH+1);
+    zip_dist_code = new Array(512);
+    zip_base_length = new Array(zip_LENGTH_CODES);
+    zip_base_dist = new Array(zip_D_CODES);
+    zip_flag_buf = new Array(parseInt(zip_LIT_BUFSIZE / 8));
+}
+
+function zip_deflate_end() {
+    zip_free_queue = zip_qhead = zip_qtail = null;
+    zip_outbuf = null;
+    zip_window = null;
+    zip_d_buf = null;
+    zip_l_buf = null;
+    zip_prev = null;
+    zip_dyn_ltree = null;
+    zip_dyn_dtree = null;
+    zip_static_ltree = null;
+    zip_static_dtree = null;
+    zip_bl_tree = null;
+    zip_l_desc = null;
+    zip_d_desc = null;
+    zip_bl_desc = null;
+    zip_bl_count = null;
+    zip_heap = null;
+    zip_depth = null;
+    zip_length_code = null;
+    zip_dist_code = null;
+    zip_base_length = null;
+    zip_base_dist = null;
+    zip_flag_buf = null;
+}
+
+function zip_reuse_queue(p) {
+    p.next = zip_free_queue;
+    zip_free_queue = p;
+}
+
+function zip_new_queue() {
+    var p;
+
+    if(zip_free_queue != null)
+    {
+	p = zip_free_queue;
+	zip_free_queue = zip_free_queue.next;
+    }
+    else
+	p = new zip_DeflateBuffer();
+    p.next = null;
+    p.len = p.off = 0;
+
+    return p;
+}
+
+function zip_head1(i) {
+    return zip_prev[zip_WSIZE + i];
+}
+
+function zip_head2(i, val) {
+    return zip_prev[zip_WSIZE + i] = val;
+}
+
+/* put_byte is used for the compressed output, put_ubyte for the
+ * uncompressed output. However unlzw() uses window for its
+ * suffix table instead of its output buffer, so it does not use put_ubyte
+ * (to be cleaned up).
+ */
+function zip_put_byte(c) {
+    zip_outbuf[zip_outoff + zip_outcnt++] = c;
+    if(zip_outoff + zip_outcnt == zip_OUTBUFSIZ)
+	zip_qoutbuf();
+}
+
+/* Output a 16 bit value, lsb first */
+function zip_put_short(w) {
+    w &= 0xffff;
+    if(zip_outoff + zip_outcnt < zip_OUTBUFSIZ - 2) {
+	zip_outbuf[zip_outoff + zip_outcnt++] = (w & 0xff);
+	zip_outbuf[zip_outoff + zip_outcnt++] = (w >>> 8);
+    } else {
+	zip_put_byte(w & 0xff);
+	zip_put_byte(w >>> 8);
+    }
+}
+
+/* ==========================================================================
+ * Insert string s in the dictionary and set match_head to the previous head
+ * of the hash chain (the most recent string with same hash key). Return
+ * the previous length of the hash chain.
+ * IN  assertion: all calls to to INSERT_STRING are made with consecutive
+ *    input characters and the first MIN_MATCH bytes of s are valid
+ *    (except for the last MIN_MATCH-1 bytes of the input file).
+ */
+function zip_INSERT_STRING() {
+    zip_ins_h = ((zip_ins_h << zip_H_SHIFT)
+		 ^ (zip_window[zip_strstart + zip_MIN_MATCH - 1] & 0xff))
+	& zip_HASH_MASK;
+    zip_hash_head = zip_head1(zip_ins_h);
+    zip_prev[zip_strstart & zip_WMASK] = zip_hash_head;
+    zip_head2(zip_ins_h, zip_strstart);
+}
+
+/* Send a code of the given tree. c and tree must not have side effects */
+function zip_SEND_CODE(c, tree) {
+    zip_send_bits(tree[c].fc, tree[c].dl);
+}
+
+/* Mapping from a distance to a distance code. dist is the distance - 1 and
+ * must not have side effects. dist_code[256] and dist_code[257] are never
+ * used.
+ */
+function zip_D_CODE(dist) {
+    return (dist < 256 ? zip_dist_code[dist]
+	    : zip_dist_code[256 + (dist>>7)]) & 0xff;
+}
+
+/* ==========================================================================
+ * Compares to subtrees, using the tree depth as tie breaker when
+ * the subtrees have equal frequency. This minimizes the worst case length.
+ */
+function zip_SMALLER(tree, n, m) {
+    return tree[n].fc < tree[m].fc ||
+      (tree[n].fc == tree[m].fc && zip_depth[n] <= zip_depth[m]);
+}
+
+/* ==========================================================================
+ * read string data
+ */
+function zip_read_buff(buff, offset, n) {
+    var i;
+    for(i = 0; i < n && zip_deflate_pos < zip_deflate_data.length; i++)
+	buff[offset + i] =
+	    zip_deflate_data.charCodeAt(zip_deflate_pos++) & 0xff;
+    return i;
+}
+
+/* ==========================================================================
+ * Initialize the "longest match" routines for a new file
+ */
+function zip_lm_init() {
+    var j;
+
+    /* Initialize the hash table. */
+    for(j = 0; j < zip_HASH_SIZE; j++)
+//	zip_head2(j, zip_NIL);
+	zip_prev[zip_WSIZE + j] = 0;
+    /* prev will be initialized on the fly */
+
+    /* Set the default configuration parameters:
+     */
+    zip_max_lazy_match = zip_configuration_table[zip_compr_level].max_lazy;
+    zip_good_match     = zip_configuration_table[zip_compr_level].good_length;
+    if(!zip_FULL_SEARCH)
+	zip_nice_match = zip_configuration_table[zip_compr_level].nice_length;
+    zip_max_chain_length = zip_configuration_table[zip_compr_level].max_chain;
+
+    zip_strstart = 0;
+    zip_block_start = 0;
+
+    zip_lookahead = zip_read_buff(zip_window, 0, 2 * zip_WSIZE);
+    if(zip_lookahead <= 0) {
+	zip_eofile = true;
+	zip_lookahead = 0;
+	return;
+    }
+    zip_eofile = false;
+    /* Make sure that we always have enough lookahead. This is important
+     * if input comes from a device such as a tty.
+     */
+    while(zip_lookahead < zip_MIN_LOOKAHEAD && !zip_eofile)
+	zip_fill_window();
+
+    /* If lookahead < MIN_MATCH, ins_h is garbage, but this is
+     * not important since only literal bytes will be emitted.
+     */
+    zip_ins_h = 0;
+    for(j = 0; j < zip_MIN_MATCH - 1; j++) {
+//      UPDATE_HASH(ins_h, window[j]);
+	zip_ins_h = ((zip_ins_h << zip_H_SHIFT) ^ (zip_window[j] & 0xff)) & zip_HASH_MASK;
+    }
+}
+
+/* ==========================================================================
+ * Set match_start to the longest match starting at the given string and
+ * return its length. Matches shorter or equal to prev_length are discarded,
+ * in which case the result is equal to prev_length and match_start is
+ * garbage.
+ * IN assertions: cur_match is the head of the hash chain for the current
+ *   string (strstart) and its distance is <= MAX_DIST, and prev_length >= 1
+ */
+function zip_longest_match(cur_match) {
+    var chain_length = zip_max_chain_length; // max hash chain length
+    var scanp = zip_strstart; // current string
+    var matchp;		// matched string
+    var len;		// length of current match
+    var best_len = zip_prev_length;	// best match length so far
+
+    /* Stop when cur_match becomes <= limit. To simplify the code,
+     * we prevent matches with the string of window index 0.
+     */
+    var limit = (zip_strstart > zip_MAX_DIST ? zip_strstart - zip_MAX_DIST : zip_NIL);
+
+    var strendp = zip_strstart + zip_MAX_MATCH;
+    var scan_end1 = zip_window[scanp + best_len - 1];
+    var scan_end  = zip_window[scanp + best_len];
+
+    /* Do not waste too much time if we already have a good match: */
+    if(zip_prev_length >= zip_good_match)
+	chain_length >>= 2;
+
+//  Assert(encoder->strstart <= window_size-MIN_LOOKAHEAD, "insufficient lookahead");
+
+    do {
+//    Assert(cur_match < encoder->strstart, "no future");
+	matchp = cur_match;
+
+	/* Skip to next match if the match length cannot increase
+	    * or if the match length is less than 2:
+	*/
+	if(zip_window[matchp + best_len]	!= scan_end  ||
+	   zip_window[matchp + best_len - 1]	!= scan_end1 ||
+	   zip_window[matchp]			!= zip_window[scanp] ||
+	   zip_window[++matchp]			!= zip_window[scanp + 1]) {
+	    continue;
+	}
+
+	/* The check at best_len-1 can be removed because it will be made
+         * again later. (This heuristic is not always a win.)
+         * It is not necessary to compare scan[2] and match[2] since they
+         * are always equal when the other bytes match, given that
+         * the hash keys are equal and that HASH_BITS >= 8.
+         */
+	scanp += 2;
+	matchp++;
+
+	/* We check for insufficient lookahead only every 8th comparison;
+         * the 256th check will be made at strstart+258.
+         */
+	do {
+	} while(zip_window[++scanp] == zip_window[++matchp] &&
+		zip_window[++scanp] == zip_window[++matchp] &&
+		zip_window[++scanp] == zip_window[++matchp] &&
+		zip_window[++scanp] == zip_window[++matchp] &&
+		zip_window[++scanp] == zip_window[++matchp] &&
+		zip_window[++scanp] == zip_window[++matchp] &&
+		zip_window[++scanp] == zip_window[++matchp] &&
+		zip_window[++scanp] == zip_window[++matchp] &&
+		scanp < strendp);
+
+      len = zip_MAX_MATCH - (strendp - scanp);
+      scanp = strendp - zip_MAX_MATCH;
+
+      if(len > best_len) {
+	  zip_match_start = cur_match;
+	  best_len = len;
+	  if(zip_FULL_SEARCH) {
+	      if(len >= zip_MAX_MATCH) break;
+	  } else {
+	      if(len >= zip_nice_match) break;
+	  }
+
+	  scan_end1  = zip_window[scanp + best_len-1];
+	  scan_end   = zip_window[scanp + best_len];
+      }
+    } while((cur_match = zip_prev[cur_match & zip_WMASK]) > limit
+	    && --chain_length != 0);
+
+    return best_len;
+}
+
+/* ==========================================================================
+ * Fill the window when the lookahead becomes insufficient.
+ * Updates strstart and lookahead, and sets eofile if end of input file.
+ * IN assertion: lookahead < MIN_LOOKAHEAD && strstart + lookahead > 0
+ * OUT assertions: at least one byte has been read, or eofile is set;
+ *    file reads are performed for at least two bytes (required for the
+ *    translate_eol option).
+ */
+function zip_fill_window() {
+    var n, m;
+
+    // Amount of free space at the end of the window.
+    var more = zip_window_size - zip_lookahead - zip_strstart;
+
+    /* If the window is almost full and there is insufficient lookahead,
+     * move the upper half to the lower one to make room in the upper half.
+     */
+    if(more == -1) {
+	/* Very unlikely, but possible on 16 bit machine if strstart == 0
+         * and lookahead == 1 (input done one byte at time)
+         */
+	more--;
+    } else if(zip_strstart >= zip_WSIZE + zip_MAX_DIST) {
+	/* By the IN assertion, the window is not empty so we can't confuse
+         * more == 0 with more == 64K on a 16 bit machine.
+         */
+//	Assert(window_size == (ulg)2*WSIZE, "no sliding with BIG_MEM");
+
+//	System.arraycopy(window, WSIZE, window, 0, WSIZE);
+	for(n = 0; n < zip_WSIZE; n++)
+	    zip_window[n] = zip_window[n + zip_WSIZE];
+      
+	zip_match_start -= zip_WSIZE;
+	zip_strstart    -= zip_WSIZE; /* we now have strstart >= MAX_DIST: */
+	zip_block_start -= zip_WSIZE;
+
+	for(n = 0; n < zip_HASH_SIZE; n++) {
+	    m = zip_head1(n);
+	    zip_head2(n, m >= zip_WSIZE ? m - zip_WSIZE : zip_NIL);
+	}
+	for(n = 0; n < zip_WSIZE; n++) {
+	    /* If n is not on any hash chain, prev[n] is garbage but
+	     * its value will never be used.
+	     */
+	    m = zip_prev[n];
+	    zip_prev[n] = (m >= zip_WSIZE ? m - zip_WSIZE : zip_NIL);
+	}
+	more += zip_WSIZE;
+    }
+    // At this point, more >= 2
+    if(!zip_eofile) {
+	n = zip_read_buff(zip_window, zip_strstart + zip_lookahead, more);
+	if(n <= 0)
+	    zip_eofile = true;
+	else
+	    zip_lookahead += n;
+    }
+}
+
+/* ==========================================================================
+ * Processes a new input file and return its compressed length. This
+ * function does not perform lazy evaluationof matches and inserts
+ * new strings in the dictionary only for unmatched strings or for short
+ * matches. It is used only for the fast compression options.
+ */
+function zip_deflate_fast() {
+    while(zip_lookahead != 0 && zip_qhead == null) {
+	var flush; // set if current block must be flushed
+
+	/* Insert the string window[strstart .. strstart+2] in the
+	 * dictionary, and set hash_head to the head of the hash chain:
+	 */
+	zip_INSERT_STRING();
+
+	/* Find the longest match, discarding those <= prev_length.
+	 * At this point we have always match_length < MIN_MATCH
+	 */
+	if(zip_hash_head != zip_NIL &&
+	   zip_strstart - zip_hash_head <= zip_MAX_DIST) {
+	    /* To simplify the code, we prevent matches with the string
+	     * of window index 0 (in particular we have to avoid a match
+	     * of the string with itself at the start of the input file).
+	     */
+	    zip_match_length = zip_longest_match(zip_hash_head);
+	    /* longest_match() sets match_start */
+	    if(zip_match_length > zip_lookahead)
+		zip_match_length = zip_lookahead;
+	}
+	if(zip_match_length >= zip_MIN_MATCH) {
+//	    check_match(strstart, match_start, match_length);
+
+	    flush = zip_ct_tally(zip_strstart - zip_match_start,
+				 zip_match_length - zip_MIN_MATCH);
+	    zip_lookahead -= zip_match_length;
+
+	    /* Insert new strings in the hash table only if the match length
+	     * is not too large. This saves time but degrades compression.
+	     */
+	    if(zip_match_length <= zip_max_lazy_match) {
+		zip_match_length--; // string at strstart already in hash table
+		do {
+		    zip_strstart++;
+		    zip_INSERT_STRING();
+		    /* strstart never exceeds WSIZE-MAX_MATCH, so there are
+		     * always MIN_MATCH bytes ahead. If lookahead < MIN_MATCH
+		     * these bytes are garbage, but it does not matter since
+		     * the next lookahead bytes will be emitted as literals.
+		     */
+		} while(--zip_match_length != 0);
+		zip_strstart++;
+	    } else {
+		zip_strstart += zip_match_length;
+		zip_match_length = 0;
+		zip_ins_h = zip_window[zip_strstart] & 0xff;
+//		UPDATE_HASH(ins_h, window[strstart + 1]);
+		zip_ins_h = ((zip_ins_h<<zip_H_SHIFT) ^ (zip_window[zip_strstart + 1] & 0xff)) & zip_HASH_MASK;
+
+//#if MIN_MATCH != 3
+//		Call UPDATE_HASH() MIN_MATCH-3 more times
+//#endif
+
+	    }
+	} else {
+	    /* No match, output a literal byte */
+	    flush = zip_ct_tally(0, zip_window[zip_strstart] & 0xff);
+	    zip_lookahead--;
+	    zip_strstart++;
+	}
+	if(flush) {
+	    zip_flush_block(0);
+	    zip_block_start = zip_strstart;
+	}
+
+	/* Make sure that we always have enough lookahead, except
+	 * at the end of the input file. We need MAX_MATCH bytes
+	 * for the next match, plus MIN_MATCH bytes to insert the
+	 * string following the next match.
+	 */
+	while(zip_lookahead < zip_MIN_LOOKAHEAD && !zip_eofile)
+	    zip_fill_window();
+    }
+}
+
+function zip_deflate_better() {
+    /* Process the input block. */
+    while(zip_lookahead != 0 && zip_qhead == null) {
+	/* Insert the string window[strstart .. strstart+2] in the
+	 * dictionary, and set hash_head to the head of the hash chain:
+	 */
+	zip_INSERT_STRING();
+
+	/* Find the longest match, discarding those <= prev_length.
+	 */
+	zip_prev_length = zip_match_length;
+	zip_prev_match = zip_match_start;
+	zip_match_length = zip_MIN_MATCH - 1;
+
+	if(zip_hash_head != zip_NIL &&
+	   zip_prev_length < zip_max_lazy_match &&
+	   zip_strstart - zip_hash_head <= zip_MAX_DIST) {
+	    /* To simplify the code, we prevent matches with the string
+	     * of window index 0 (in particular we have to avoid a match
+	     * of the string with itself at the start of the input file).
+	     */
+	    zip_match_length = zip_longest_match(zip_hash_head);
+	    /* longest_match() sets match_start */
+	    if(zip_match_length > zip_lookahead)
+		zip_match_length = zip_lookahead;
+
+	    /* Ignore a length 3 match if it is too distant: */
+	    if(zip_match_length == zip_MIN_MATCH &&
+	       zip_strstart - zip_match_start > zip_TOO_FAR) {
+		/* If prev_match is also MIN_MATCH, match_start is garbage
+		 * but we will ignore the current match anyway.
+		 */
+		zip_match_length--;
+	    }
+	}
+	/* If there was a match at the previous step and the current
+	 * match is not better, output the previous match:
+	 */
+	if(zip_prev_length >= zip_MIN_MATCH &&
+	   zip_match_length <= zip_prev_length) {
+	    var flush; // set if current block must be flushed
+
+//	    check_match(strstart - 1, prev_match, prev_length);
+	    flush = zip_ct_tally(zip_strstart - 1 - zip_prev_match,
+				 zip_prev_length - zip_MIN_MATCH);
+
+	    /* Insert in hash table all strings up to the end of the match.
+	     * strstart-1 and strstart are already inserted.
+	     */
+	    zip_lookahead -= zip_prev_length - 1;
+	    zip_prev_length -= 2;
+	    do {
+		zip_strstart++;
+		zip_INSERT_STRING();
+		/* strstart never exceeds WSIZE-MAX_MATCH, so there are
+		 * always MIN_MATCH bytes ahead. If lookahead < MIN_MATCH
+		 * these bytes are garbage, but it does not matter since the
+		 * next lookahead bytes will always be emitted as literals.
+		 */
+	    } while(--zip_prev_length != 0);
+	    zip_match_available = 0;
+	    zip_match_length = zip_MIN_MATCH - 1;
+	    zip_strstart++;
+	    if(flush) {
+		zip_flush_block(0);
+		zip_block_start = zip_strstart;
+	    }
+	} else if(zip_match_available != 0) {
+	    /* If there was no match at the previous position, output a
+	     * single literal. If there was a match but the current match
+	     * is longer, truncate the previous match to a single literal.
+	     */
+	    if(zip_ct_tally(0, zip_window[zip_strstart - 1] & 0xff)) {
+		zip_flush_block(0);
+		zip_block_start = zip_strstart;
+	    }
+	    zip_strstart++;
+	    zip_lookahead--;
+	} else {
+	    /* There is no previous match to compare with, wait for
+	     * the next step to decide.
+	     */
+	    zip_match_available = 1;
+	    zip_strstart++;
+	    zip_lookahead--;
+	}
+
+	/* Make sure that we always have enough lookahead, except
+	 * at the end of the input file. We need MAX_MATCH bytes
+	 * for the next match, plus MIN_MATCH bytes to insert the
+	 * string following the next match.
+	 */
+	while(zip_lookahead < zip_MIN_LOOKAHEAD && !zip_eofile)
+	    zip_fill_window();
+    }
+}
+
+function zip_init_deflate() {
+    if(zip_eofile)
+	return;
+    zip_bi_buf = 0;
+    zip_bi_valid = 0;
+    zip_ct_init();
+    zip_lm_init();
+
+    zip_qhead = null;
+    zip_outcnt = 0;
+    zip_outoff = 0;
+
+    if(zip_compr_level <= 3)
+    {
+	zip_prev_length = zip_MIN_MATCH - 1;
+	zip_match_length = 0;
+    }
+    else
+    {
+	zip_match_length = zip_MIN_MATCH - 1;
+	zip_match_available = 0;
+    }
+
+    zip_complete = false;
+}
+
+/* ==========================================================================
+ * Same as above, but achieves better compression. We use a lazy
+ * evaluation for matches: a match is finally adopted only if there is
+ * no better match at the next window position.
+ */
+function zip_deflate_internal(buff, off, buff_size) {
+    var n;
+
+    if(!zip_initflag)
+    {
+	zip_init_deflate();
+	zip_initflag = true;
+	if(zip_lookahead == 0) { // empty
+	    zip_complete = true;
+	    return 0;
+	}
+    }
+
+    if((n = zip_qcopy(buff, off, buff_size)) == buff_size)
+	return buff_size;
+
+    if(zip_complete)
+	return n;
+
+    if(zip_compr_level <= 3) // optimized for speed
+	zip_deflate_fast();
+    else
+	zip_deflate_better();
+    if(zip_lookahead == 0) {
+	if(zip_match_available != 0)
+	    zip_ct_tally(0, zip_window[zip_strstart - 1] & 0xff);
+	zip_flush_block(1);
+	zip_complete = true;
+    }
+    return n + zip_qcopy(buff, n + off, buff_size - n);
+}
+
+function zip_qcopy(buff, off, buff_size) {
+    var n, i, j;
+
+    n = 0;
+    while(zip_qhead != null && n < buff_size)
+    {
+	i = buff_size - n;
+	if(i > zip_qhead.len)
+	    i = zip_qhead.len;
+//      System.arraycopy(qhead.ptr, qhead.off, buff, off + n, i);
+	for(j = 0; j < i; j++)
+	    buff[off + n + j] = zip_qhead.ptr[zip_qhead.off + j];
+	
+	zip_qhead.off += i;
+	zip_qhead.len -= i;
+	n += i;
+	if(zip_qhead.len == 0) {
+	    var p;
+	    p = zip_qhead;
+	    zip_qhead = zip_qhead.next;
+	    zip_reuse_queue(p);
+	}
+    }
+
+    if(n == buff_size)
+	return n;
+
+    if(zip_outoff < zip_outcnt) {
+	i = buff_size - n;
+	if(i > zip_outcnt - zip_outoff)
+	    i = zip_outcnt - zip_outoff;
+	// System.arraycopy(outbuf, outoff, buff, off + n, i);
+	for(j = 0; j < i; j++)
+	    buff[off + n + j] = zip_outbuf[zip_outoff + j];
+	zip_outoff += i;
+	n += i;
+	if(zip_outcnt == zip_outoff)
+	    zip_outcnt = zip_outoff = 0;
+    }
+    return n;
+}
+
+/* ==========================================================================
+ * Allocate the match buffer, initialize the various tables and save the
+ * location of the internal file attribute (ascii/binary) and method
+ * (DEFLATE/STORE).
+ */
+function zip_ct_init() {
+    var n;	// iterates over tree elements
+    var bits;	// bit counter
+    var length;	// length value
+    var code;	// code value
+    var dist;	// distance index
+
+    if(zip_static_dtree[0].dl != 0) return; // ct_init already called
+
+    zip_l_desc.dyn_tree		= zip_dyn_ltree;
+    zip_l_desc.static_tree	= zip_static_ltree;
+    zip_l_desc.extra_bits	= zip_extra_lbits;
+    zip_l_desc.extra_base	= zip_LITERALS + 1;
+    zip_l_desc.elems		= zip_L_CODES;
+    zip_l_desc.max_length	= zip_MAX_BITS;
+    zip_l_desc.max_code		= 0;
+
+    zip_d_desc.dyn_tree		= zip_dyn_dtree;
+    zip_d_desc.static_tree	= zip_static_dtree;
+    zip_d_desc.extra_bits	= zip_extra_dbits;
+    zip_d_desc.extra_base	= 0;
+    zip_d_desc.elems		= zip_D_CODES;
+    zip_d_desc.max_length	= zip_MAX_BITS;
+    zip_d_desc.max_code		= 0;
+
+    zip_bl_desc.dyn_tree	= zip_bl_tree;
+    zip_bl_desc.static_tree	= null;
+    zip_bl_desc.extra_bits	= zip_extra_blbits;
+    zip_bl_desc.extra_base	= 0;
+    zip_bl_desc.elems		= zip_BL_CODES;
+    zip_bl_desc.max_length	= zip_MAX_BL_BITS;
+    zip_bl_desc.max_code	= 0;
+
+    // Initialize the mapping length (0..255) -> length code (0..28)
+    length = 0;
+    for(code = 0; code < zip_LENGTH_CODES-1; code++) {
+	zip_base_length[code] = length;
+	for(n = 0; n < (1<<zip_extra_lbits[code]); n++)
+	    zip_length_code[length++] = code;
+    }
+    // Assert (length == 256, "ct_init: length != 256");
+
+    /* Note that the length 255 (match length 258) can be represented
+     * in two different ways: code 284 + 5 bits or code 285, so we
+     * overwrite length_code[255] to use the best encoding:
+     */
+    zip_length_code[length-1] = code;
+
+    /* Initialize the mapping dist (0..32K) -> dist code (0..29) */
+    dist = 0;
+    for(code = 0 ; code < 16; code++) {
+	zip_base_dist[code] = dist;
+	for(n = 0; n < (1<<zip_extra_dbits[code]); n++) {
+	    zip_dist_code[dist++] = code;
+	}
+    }
+    // Assert (dist == 256, "ct_init: dist != 256");
+    dist >>= 7; // from now on, all distances are divided by 128
+    for( ; code < zip_D_CODES; code++) {
+	zip_base_dist[code] = dist << 7;
+	for(n = 0; n < (1<<(zip_extra_dbits[code]-7)); n++)
+	    zip_dist_code[256 + dist++] = code;
+    }
+    // Assert (dist == 256, "ct_init: 256+dist != 512");
+
+    // Construct the codes of the static literal tree
+    for(bits = 0; bits <= zip_MAX_BITS; bits++)
+	zip_bl_count[bits] = 0;
+    n = 0;
+    while(n <= 143) { zip_static_ltree[n++].dl = 8; zip_bl_count[8]++; }
+    while(n <= 255) { zip_static_ltree[n++].dl = 9; zip_bl_count[9]++; }
+    while(n <= 279) { zip_static_ltree[n++].dl = 7; zip_bl_count[7]++; }
+    while(n <= 287) { zip_static_ltree[n++].dl = 8; zip_bl_count[8]++; }
+    /* Codes 286 and 287 do not exist, but we must include them in the
+     * tree construction to get a canonical Huffman tree (longest code
+     * all ones)
+     */
+    zip_gen_codes(zip_static_ltree, zip_L_CODES + 1);
+
+    /* The static distance tree is trivial: */
+    for(n = 0; n < zip_D_CODES; n++) {
+	zip_static_dtree[n].dl = 5;
+	zip_static_dtree[n].fc = zip_bi_reverse(n, 5);
+    }
+
+    // Initialize the first block of the first file:
+    zip_init_block();
+}
+
+/* ==========================================================================
+ * Initialize a new block.
+ */
+function zip_init_block() {
+    var n; // iterates over tree elements
+
+    // Initialize the trees.
+    for(n = 0; n < zip_L_CODES;  n++) zip_dyn_ltree[n].fc = 0;
+    for(n = 0; n < zip_D_CODES;  n++) zip_dyn_dtree[n].fc = 0;
+    for(n = 0; n < zip_BL_CODES; n++) zip_bl_tree[n].fc = 0;
+
+    zip_dyn_ltree[zip_END_BLOCK].fc = 1;
+    zip_opt_len = zip_static_len = 0;
+    zip_last_lit = zip_last_dist = zip_last_flags = 0;
+    zip_flags = 0;
+    zip_flag_bit = 1;
+}
+
+/* ==========================================================================
+ * Restore the heap property by moving down the tree starting at node k,
+ * exchanging a node with the smallest of its two sons if necessary, stopping
+ * when the heap property is re-established (each father smaller than its
+ * two sons).
+ */
+function zip_pqdownheap(
+    tree,	// the tree to restore
+    k) {	// node to move down
+    var v = zip_heap[k];
+    var j = k << 1;	// left son of k
+
+    while(j <= zip_heap_len) {
+	// Set j to the smallest of the two sons:
+	if(j < zip_heap_len &&
+	   zip_SMALLER(tree, zip_heap[j + 1], zip_heap[j]))
+	    j++;
+
+	// Exit if v is smaller than both sons
+	if(zip_SMALLER(tree, v, zip_heap[j]))
+	    break;
+
+	// Exchange v with the smallest son
+	zip_heap[k] = zip_heap[j];
+	k = j;
+
+	// And continue down the tree, setting j to the left son of k
+	j <<= 1;
+    }
+    zip_heap[k] = v;
+}
+
+/* ==========================================================================
+ * Compute the optimal bit lengths for a tree and update the total bit length
+ * for the current block.
+ * IN assertion: the fields freq and dad are set, heap[heap_max] and
+ *    above are the tree nodes sorted by increasing frequency.
+ * OUT assertions: the field len is set to the optimal bit length, the
+ *     array bl_count contains the frequencies for each bit length.
+ *     The length opt_len is updated; static_len is also updated if stree is
+ *     not null.
+ */
+function zip_gen_bitlen(desc) { // the tree descriptor
+    var tree		= desc.dyn_tree;
+    var extra		= desc.extra_bits;
+    var base		= desc.extra_base;
+    var max_code	= desc.max_code;
+    var max_length	= desc.max_length;
+    var stree		= desc.static_tree;
+    var h;		// heap index
+    var n, m;		// iterate over the tree elements
+    var bits;		// bit length
+    var xbits;		// extra bits
+    var f;		// frequency
+    var overflow = 0;	// number of elements with bit length too large
+
+    for(bits = 0; bits <= zip_MAX_BITS; bits++)
+	zip_bl_count[bits] = 0;
+
+    /* In a first pass, compute the optimal bit lengths (which may
+     * overflow in the case of the bit length tree).
+     */
+    tree[zip_heap[zip_heap_max]].dl = 0; // root of the heap
+
+    for(h = zip_heap_max + 1; h < zip_HEAP_SIZE; h++) {
+	n = zip_heap[h];
+	bits = tree[tree[n].dl].dl + 1;
+	if(bits > max_length) {
+	    bits = max_length;
+	    overflow++;
+	}
+	tree[n].dl = bits;
+	// We overwrite tree[n].dl which is no longer needed
+
+	if(n > max_code)
+	    continue; // not a leaf node
+
+	zip_bl_count[bits]++;
+	xbits = 0;
+	if(n >= base)
+	    xbits = extra[n - base];
+	f = tree[n].fc;
+	zip_opt_len += f * (bits + xbits);
+	if(stree != null)
+	    zip_static_len += f * (stree[n].dl + xbits);
+    }
+    if(overflow == 0)
+	return;
+
+    // This happens for example on obj2 and pic of the Calgary corpus
+
+    // Find the first bit length which could increase:
+    do {
+	bits = max_length - 1;
+	while(zip_bl_count[bits] == 0)
+	    bits--;
+	zip_bl_count[bits]--;		// move one leaf down the tree
+	zip_bl_count[bits + 1] += 2;	// move one overflow item as its brother
+	zip_bl_count[max_length]--;
+	/* The brother of the overflow item also moves one step up,
+	 * but this does not affect bl_count[max_length]
+	 */
+	overflow -= 2;
+    } while(overflow > 0);
+
+    /* Now recompute all bit lengths, scanning in increasing frequency.
+     * h is still equal to HEAP_SIZE. (It is simpler to reconstruct all
+     * lengths instead of fixing only the wrong ones. This idea is taken
+     * from 'ar' written by Haruhiko Okumura.)
+     */
+    for(bits = max_length; bits != 0; bits--) {
+	n = zip_bl_count[bits];
+	while(n != 0) {
+	    m = zip_heap[--h];
+	    if(m > max_code)
+		continue;
+	    if(tree[m].dl != bits) {
+		zip_opt_len += (bits - tree[m].dl) * tree[m].fc;
+		tree[m].fc = bits;
+	    }
+	    n--;
+	}
+    }
+}
+
+  /* ==========================================================================
+   * Generate the codes for a given tree and bit counts (which need not be
+   * optimal).
+   * IN assertion: the array bl_count contains the bit length statistics for
+   * the given tree and the field len is set for all tree elements.
+   * OUT assertion: the field code is set for all tree elements of non
+   *     zero code length.
+   */
+function zip_gen_codes(tree,	// the tree to decorate
+		   max_code) {	// largest code with non zero frequency
+    var next_code = new Array(zip_MAX_BITS+1); // next code value for each bit length
+    var code = 0;		// running code value
+    var bits;			// bit index
+    var n;			// code index
+
+    /* The distribution counts are first used to generate the code values
+     * without bit reversal.
+     */
+    for(bits = 1; bits <= zip_MAX_BITS; bits++) {
+	code = ((code + zip_bl_count[bits-1]) << 1);
+	next_code[bits] = code;
+    }
+
+    /* Check that the bit counts in bl_count are consistent. The last code
+     * must be all ones.
+     */
+//    Assert (code + encoder->bl_count[MAX_BITS]-1 == (1<<MAX_BITS)-1,
+//	    "inconsistent bit counts");
+//    Tracev((stderr,"\ngen_codes: max_code %d ", max_code));
+
+    for(n = 0; n <= max_code; n++) {
+	var len = tree[n].dl;
+	if(len == 0)
+	    continue;
+	// Now reverse the bits
+	tree[n].fc = zip_bi_reverse(next_code[len]++, len);
+
+//      Tracec(tree != static_ltree, (stderr,"\nn %3d %c l %2d c %4x (%x) ",
+//	  n, (isgraph(n) ? n : ' '), len, tree[n].fc, next_code[len]-1));
+    }
+}
+
+/* ==========================================================================
+ * Construct one Huffman tree and assigns the code bit strings and lengths.
+ * Update the total bit length for the current block.
+ * IN assertion: the field freq is set for all tree elements.
+ * OUT assertions: the fields len and code are set to the optimal bit length
+ *     and corresponding code. The length opt_len is updated; static_len is
+ *     also updated if stree is not null. The field max_code is set.
+ */
+function zip_build_tree(desc) { // the tree descriptor
+    var tree	= desc.dyn_tree;
+    var stree	= desc.static_tree;
+    var elems	= desc.elems;
+    var n, m;		// iterate over heap elements
+    var max_code = -1;	// largest code with non zero frequency
+    var node = elems;	// next internal node of the tree
+
+    /* Construct the initial heap, with least frequent element in
+     * heap[SMALLEST]. The sons of heap[n] are heap[2*n] and heap[2*n+1].
+     * heap[0] is not used.
+     */
+    zip_heap_len = 0;
+    zip_heap_max = zip_HEAP_SIZE;
+
+    for(n = 0; n < elems; n++) {
+	if(tree[n].fc != 0) {
+	    zip_heap[++zip_heap_len] = max_code = n;
+	    zip_depth[n] = 0;
+	} else
+	    tree[n].dl = 0;
+    }
+
+    /* The pkzip format requires that at least one distance code exists,
+     * and that at least one bit should be sent even if there is only one
+     * possible code. So to avoid special checks later on we force at least
+     * two codes of non zero frequency.
+     */
+    while(zip_heap_len < 2) {
+	var xnew = zip_heap[++zip_heap_len] = (max_code < 2 ? ++max_code : 0);
+	tree[xnew].fc = 1;
+	zip_depth[xnew] = 0;
+	zip_opt_len--;
+	if(stree != null)
+	    zip_static_len -= stree[xnew].dl;
+	// new is 0 or 1 so it does not have extra bits
+    }
+    desc.max_code = max_code;
+
+    /* The elements heap[heap_len/2+1 .. heap_len] are leaves of the tree,
+     * establish sub-heaps of increasing lengths:
+     */
+    for(n = zip_heap_len >> 1; n >= 1; n--)
+	zip_pqdownheap(tree, n);
+
+    /* Construct the Huffman tree by repeatedly combining the least two
+     * frequent nodes.
+     */
+    do {
+	n = zip_heap[zip_SMALLEST];
+	zip_heap[zip_SMALLEST] = zip_heap[zip_heap_len--];
+	zip_pqdownheap(tree, zip_SMALLEST);
+
+	m = zip_heap[zip_SMALLEST];  // m = node of next least frequency
+
+	// keep the nodes sorted by frequency
+	zip_heap[--zip_heap_max] = n;
+	zip_heap[--zip_heap_max] = m;
+
+	// Create a new node father of n and m
+	tree[node].fc = tree[n].fc + tree[m].fc;
+//	depth[node] = (char)(MAX(depth[n], depth[m]) + 1);
+	if(zip_depth[n] > zip_depth[m] + 1)
+	    zip_depth[node] = zip_depth[n];
+	else
+	    zip_depth[node] = zip_depth[m] + 1;
+	tree[n].dl = tree[m].dl = node;
+
+	// and insert the new node in the heap
+	zip_heap[zip_SMALLEST] = node++;
+	zip_pqdownheap(tree, zip_SMALLEST);
+
+    } while(zip_heap_len >= 2);
+
+    zip_heap[--zip_heap_max] = zip_heap[zip_SMALLEST];
+
+    /* At this point, the fields freq and dad are set. We can now
+     * generate the bit lengths.
+     */
+    zip_gen_bitlen(desc);
+
+    // The field len is now set, we can generate the bit codes
+    zip_gen_codes(tree, max_code);
+}
+
+/* ==========================================================================
+ * Scan a literal or distance tree to determine the frequencies of the codes
+ * in the bit length tree. Updates opt_len to take into account the repeat
+ * counts. (The contribution of the bit length codes will be added later
+ * during the construction of bl_tree.)
+ */
+function zip_scan_tree(tree,// the tree to be scanned
+		       max_code) {  // and its largest code of non zero frequency
+    var n;			// iterates over all tree elements
+    var prevlen = -1;		// last emitted length
+    var curlen;			// length of current code
+    var nextlen = tree[0].dl;	// length of next code
+    var count = 0;		// repeat count of the current code
+    var max_count = 7;		// max repeat count
+    var min_count = 4;		// min repeat count
+
+    if(nextlen == 0) {
+	max_count = 138;
+	min_count = 3;
+    }
+    tree[max_code + 1].dl = 0xffff; // guard
+
+    for(n = 0; n <= max_code; n++) {
+	curlen = nextlen;
+	nextlen = tree[n + 1].dl;
+	if(++count < max_count && curlen == nextlen)
+	    continue;
+	else if(count < min_count)
+	    zip_bl_tree[curlen].fc += count;
+	else if(curlen != 0) {
+	    if(curlen != prevlen)
+		zip_bl_tree[curlen].fc++;
+	    zip_bl_tree[zip_REP_3_6].fc++;
+	} else if(count <= 10)
+	    zip_bl_tree[zip_REPZ_3_10].fc++;
+	else
+	    zip_bl_tree[zip_REPZ_11_138].fc++;
+	count = 0; prevlen = curlen;
+	if(nextlen == 0) {
+	    max_count = 138;
+	    min_count = 3;
+	} else if(curlen == nextlen) {
+	    max_count = 6;
+	    min_count = 3;
+	} else {
+	    max_count = 7;
+	    min_count = 4;
+	}
+    }
+}
+
+  /* ==========================================================================
+   * Send a literal or distance tree in compressed form, using the codes in
+   * bl_tree.
+   */
+function zip_send_tree(tree, // the tree to be scanned
+		   max_code) { // and its largest code of non zero frequency
+    var n;			// iterates over all tree elements
+    var prevlen = -1;		// last emitted length
+    var curlen;			// length of current code
+    var nextlen = tree[0].dl;	// length of next code
+    var count = 0;		// repeat count of the current code
+    var max_count = 7;		// max repeat count
+    var min_count = 4;		// min repeat count
+
+    /* tree[max_code+1].dl = -1; */  /* guard already set */
+    if(nextlen == 0) {
+      max_count = 138;
+      min_count = 3;
+    }
+
+    for(n = 0; n <= max_code; n++) {
+	curlen = nextlen;
+	nextlen = tree[n+1].dl;
+	if(++count < max_count && curlen == nextlen) {
+	    continue;
+	} else if(count < min_count) {
+	    do { zip_SEND_CODE(curlen, zip_bl_tree); } while(--count != 0);
+	} else if(curlen != 0) {
+	    if(curlen != prevlen) {
+		zip_SEND_CODE(curlen, zip_bl_tree);
+		count--;
+	    }
+	    // Assert(count >= 3 && count <= 6, " 3_6?");
+	    zip_SEND_CODE(zip_REP_3_6, zip_bl_tree);
+	    zip_send_bits(count - 3, 2);
+	} else if(count <= 10) {
+	    zip_SEND_CODE(zip_REPZ_3_10, zip_bl_tree);
+	    zip_send_bits(count-3, 3);
+	} else {
+	    zip_SEND_CODE(zip_REPZ_11_138, zip_bl_tree);
+	    zip_send_bits(count-11, 7);
+	}
+	count = 0;
+	prevlen = curlen;
+	if(nextlen == 0) {
+	    max_count = 138;
+	    min_count = 3;
+	} else if(curlen == nextlen) {
+	    max_count = 6;
+	    min_count = 3;
+	} else {
+	    max_count = 7;
+	    min_count = 4;
+	}
+    }
+}
+
+/* ==========================================================================
+ * Construct the Huffman tree for the bit lengths and return the index in
+ * bl_order of the last bit length code to send.
+ */
+function zip_build_bl_tree() {
+    var max_blindex;  // index of last bit length code of non zero freq
+
+    // Determine the bit length frequencies for literal and distance trees
+    zip_scan_tree(zip_dyn_ltree, zip_l_desc.max_code);
+    zip_scan_tree(zip_dyn_dtree, zip_d_desc.max_code);
+
+    // Build the bit length tree:
+    zip_build_tree(zip_bl_desc);
+    /* opt_len now includes the length of the tree representations, except
+     * the lengths of the bit lengths codes and the 5+5+4 bits for the counts.
+     */
+
+    /* Determine the number of bit length codes to send. The pkzip format
+     * requires that at least 4 bit length codes be sent. (appnote.txt says
+     * 3 but the actual value used is 4.)
+     */
+    for(max_blindex = zip_BL_CODES-1; max_blindex >= 3; max_blindex--) {
+	if(zip_bl_tree[zip_bl_order[max_blindex]].dl != 0) break;
+    }
+    /* Update opt_len to include the bit length tree and counts */
+    zip_opt_len += 3*(max_blindex+1) + 5+5+4;
+//    Tracev((stderr, "\ndyn trees: dyn %ld, stat %ld",
+//	    encoder->opt_len, encoder->static_len));
+
+    return max_blindex;
+}
+
+/* ==========================================================================
+ * Send the header for a block using dynamic Huffman trees: the counts, the
+ * lengths of the bit length codes, the literal tree and the distance tree.
+ * IN assertion: lcodes >= 257, dcodes >= 1, blcodes >= 4.
+ */
+function zip_send_all_trees(lcodes, dcodes, blcodes) { // number of codes for each tree
+    var rank; // index in bl_order
+
+//    Assert (lcodes >= 257 && dcodes >= 1 && blcodes >= 4, "not enough codes");
+//    Assert (lcodes <= L_CODES && dcodes <= D_CODES && blcodes <= BL_CODES,
+//	    "too many codes");
+//    Tracev((stderr, "\nbl counts: "));
+    zip_send_bits(lcodes-257, 5); // not +255 as stated in appnote.txt
+    zip_send_bits(dcodes-1,   5);
+    zip_send_bits(blcodes-4,  4); // not -3 as stated in appnote.txt
+    for(rank = 0; rank < blcodes; rank++) {
+//      Tracev((stderr, "\nbl code %2d ", bl_order[rank]));
+	zip_send_bits(zip_bl_tree[zip_bl_order[rank]].dl, 3);
+    }
+
+    // send the literal tree
+    zip_send_tree(zip_dyn_ltree,lcodes-1);
+
+    // send the distance tree
+    zip_send_tree(zip_dyn_dtree,dcodes-1);
+}
+
+/* ==========================================================================
+ * Determine the best encoding for the current block: dynamic trees, static
+ * trees or store, and output the encoded block to the zip file.
+ */
+function zip_flush_block(eof) { // true if this is the last block for a file
+    var opt_lenb, static_lenb; // opt_len and static_len in bytes
+    var max_blindex;	// index of last bit length code of non zero freq
+    var stored_len;	// length of input block
+
+    stored_len = zip_strstart - zip_block_start;
+    zip_flag_buf[zip_last_flags] = zip_flags; // Save the flags for the last 8 items
+
+    // Construct the literal and distance trees
+    zip_build_tree(zip_l_desc);
+//    Tracev((stderr, "\nlit data: dyn %ld, stat %ld",
+//	    encoder->opt_len, encoder->static_len));
+
+    zip_build_tree(zip_d_desc);
+//    Tracev((stderr, "\ndist data: dyn %ld, stat %ld",
+//	    encoder->opt_len, encoder->static_len));
+    /* At this point, opt_len and static_len are the total bit lengths of
+     * the compressed block data, excluding the tree representations.
+     */
+
+    /* Build the bit length tree for the above two trees, and get the index
+     * in bl_order of the last bit length code to send.
+     */
+    max_blindex = zip_build_bl_tree();
+
+    // Determine the best encoding. Compute first the block length in bytes
+    opt_lenb	= (zip_opt_len   +3+7)>>3;
+    static_lenb = (zip_static_len+3+7)>>3;
+
+//    Trace((stderr, "\nopt %lu(%lu) stat %lu(%lu) stored %lu lit %u dist %u ",
+//	   opt_lenb, encoder->opt_len,
+//	   static_lenb, encoder->static_len, stored_len,
+//	   encoder->last_lit, encoder->last_dist));
+
+    if(static_lenb <= opt_lenb)
+	opt_lenb = static_lenb;
+    if(stored_len + 4 <= opt_lenb // 4: two words for the lengths
+       && zip_block_start >= 0) {
+	var i;
+
+	/* The test buf != NULL is only necessary if LIT_BUFSIZE > WSIZE.
+	 * Otherwise we can't have processed more than WSIZE input bytes since
+	 * the last block flush, because compression would have been
+	 * successful. If LIT_BUFSIZE <= WSIZE, it is never too late to
+	 * transform a block into a stored block.
+	 */
+	zip_send_bits((zip_STORED_BLOCK<<1)+eof, 3);  /* send block type */
+	zip_bi_windup();		 /* align on byte boundary */
+	zip_put_short(stored_len);
+	zip_put_short(~stored_len);
+
+      // copy block
+/*
+      p = &window[block_start];
+      for(i = 0; i < stored_len; i++)
+	put_byte(p[i]);
+*/
+	for(i = 0; i < stored_len; i++)
+	    zip_put_byte(zip_window[zip_block_start + i]);
+
+    } else if(static_lenb == opt_lenb) {
+	zip_send_bits((zip_STATIC_TREES<<1)+eof, 3);
+	zip_compress_block(zip_static_ltree, zip_static_dtree);
+    } else {
+	zip_send_bits((zip_DYN_TREES<<1)+eof, 3);
+	zip_send_all_trees(zip_l_desc.max_code+1,
+			   zip_d_desc.max_code+1,
+			   max_blindex+1);
+	zip_compress_block(zip_dyn_ltree, zip_dyn_dtree);
+    }
+
+    zip_init_block();
+
+    if(eof != 0)
+	zip_bi_windup();
+}
+
+/* ==========================================================================
+ * Save the match info and tally the frequency counts. Return true if
+ * the current block must be flushed.
+ */
+function zip_ct_tally(
+	dist, // distance of matched string
+	lc) { // match length-MIN_MATCH or unmatched char (if dist==0)
+    zip_l_buf[zip_last_lit++] = lc;
+    if(dist == 0) {
+	// lc is the unmatched char
+	zip_dyn_ltree[lc].fc++;
+    } else {
+	// Here, lc is the match length - MIN_MATCH
+	dist--;		    // dist = match distance - 1
+//      Assert((ush)dist < (ush)MAX_DIST &&
+//	     (ush)lc <= (ush)(MAX_MATCH-MIN_MATCH) &&
+//	     (ush)D_CODE(dist) < (ush)D_CODES,  "ct_tally: bad match");
+
+	zip_dyn_ltree[zip_length_code[lc]+zip_LITERALS+1].fc++;
+	zip_dyn_dtree[zip_D_CODE(dist)].fc++;
+
+	zip_d_buf[zip_last_dist++] = dist;
+	zip_flags |= zip_flag_bit;
+    }
+    zip_flag_bit <<= 1;
+
+    // Output the flags if they fill a byte
+    if((zip_last_lit & 7) == 0) {
+	zip_flag_buf[zip_last_flags++] = zip_flags;
+	zip_flags = 0;
+	zip_flag_bit = 1;
+    }
+    // Try to guess if it is profitable to stop the current block here
+    if(zip_compr_level > 2 && (zip_last_lit & 0xfff) == 0) {
+	// Compute an upper bound for the compressed length
+	var out_length = zip_last_lit * 8;
+	var in_length = zip_strstart - zip_block_start;
+	var dcode;
+
+	for(dcode = 0; dcode < zip_D_CODES; dcode++) {
+	    out_length += zip_dyn_dtree[dcode].fc * (5 + zip_extra_dbits[dcode]);
+	}
+	out_length >>= 3;
+//      Trace((stderr,"\nlast_lit %u, last_dist %u, in %ld, out ~%ld(%ld%%) ",
+//	     encoder->last_lit, encoder->last_dist, in_length, out_length,
+//	     100L - out_length*100L/in_length));
+	if(zip_last_dist < parseInt(zip_last_lit/2) &&
+	   out_length < parseInt(in_length/2))
+	    return true;
+    }
+    return (zip_last_lit == zip_LIT_BUFSIZE-1 ||
+	    zip_last_dist == zip_DIST_BUFSIZE);
+    /* We avoid equality with LIT_BUFSIZE because of wraparound at 64K
+     * on 16 bit machines and because stored blocks are restricted to
+     * 64K-1 bytes.
+     */
+}
+
+  /* ==========================================================================
+   * Send the block data compressed using the given Huffman trees
+   */
+function zip_compress_block(
+	ltree,	// literal tree
+	dtree) {	// distance tree
+    var dist;		// distance of matched string
+    var lc;		// match length or unmatched char (if dist == 0)
+    var lx = 0;		// running index in l_buf
+    var dx = 0;		// running index in d_buf
+    var fx = 0;		// running index in flag_buf
+    var flag = 0;	// current flags
+    var code;		// the code to send
+    var extra;		// number of extra bits to send
+
+    if(zip_last_lit != 0) do {
+	if((lx & 7) == 0)
+	    flag = zip_flag_buf[fx++];
+	lc = zip_l_buf[lx++] & 0xff;
+	if((flag & 1) == 0) {
+	    zip_SEND_CODE(lc, ltree); /* send a literal byte */
+//	Tracecv(isgraph(lc), (stderr," '%c' ", lc));
+	} else {
+	    // Here, lc is the match length - MIN_MATCH
+	    code = zip_length_code[lc];
+	    zip_SEND_CODE(code+zip_LITERALS+1, ltree); // send the length code
+	    extra = zip_extra_lbits[code];
+	    if(extra != 0) {
+		lc -= zip_base_length[code];
+		zip_send_bits(lc, extra); // send the extra length bits
+	    }
+	    dist = zip_d_buf[dx++];
+	    // Here, dist is the match distance - 1
+	    code = zip_D_CODE(dist);
+//	Assert (code < D_CODES, "bad d_code");
+
+	    zip_SEND_CODE(code, dtree);	  // send the distance code
+	    extra = zip_extra_dbits[code];
+	    if(extra != 0) {
+		dist -= zip_base_dist[code];
+		zip_send_bits(dist, extra);   // send the extra distance bits
+	    }
+	} // literal or match pair ?
+	flag >>= 1;
+    } while(lx < zip_last_lit);
+
+    zip_SEND_CODE(zip_END_BLOCK, ltree);
+}
+
+/* ==========================================================================
+ * Send a value on a given number of bits.
+ * IN assertion: length <= 16 and value fits in length bits.
+ */
+var zip_Buf_size = 16; // bit size of bi_buf
+function zip_send_bits(
+	value,	// value to send
+	length) {	// number of bits
+    /* If not enough room in bi_buf, use (valid) bits from bi_buf and
+     * (16 - bi_valid) bits from value, leaving (width - (16-bi_valid))
+     * unused bits in value.
+     */
+    if(zip_bi_valid > zip_Buf_size - length) {
+	zip_bi_buf |= (value << zip_bi_valid);
+	zip_put_short(zip_bi_buf);
+	zip_bi_buf = (value >> (zip_Buf_size - zip_bi_valid));
+	zip_bi_valid += length - zip_Buf_size;
+    } else {
+	zip_bi_buf |= value << zip_bi_valid;
+	zip_bi_valid += length;
+    }
+}
+
+/* ==========================================================================
+ * Reverse the first len bits of a code, using straightforward code (a faster
+ * method would use a table)
+ * IN assertion: 1 <= len <= 15
+ */
+function zip_bi_reverse(
+	code,	// the value to invert
+	len) {	// its bit length
+    var res = 0;
+    do {
+	res |= code & 1;
+	code >>= 1;
+	res <<= 1;
+    } while(--len > 0);
+    return res >> 1;
+}
+
+/* ==========================================================================
+ * Write out any remaining bits in an incomplete byte.
+ */
+function zip_bi_windup() {
+    if(zip_bi_valid > 8) {
+	zip_put_short(zip_bi_buf);
+    } else if(zip_bi_valid > 0) {
+	zip_put_byte(zip_bi_buf);
+    }
+    zip_bi_buf = 0;
+    zip_bi_valid = 0;
+}
+
+function zip_qoutbuf() {
+    if(zip_outcnt != 0) {
+	var q, i;
+	q = zip_new_queue();
+	if(zip_qhead == null)
+	    zip_qhead = zip_qtail = q;
+	else
+	    zip_qtail = zip_qtail.next = q;
+	q.len = zip_outcnt - zip_outoff;
+//      System.arraycopy(zip_outbuf, zip_outoff, q.ptr, 0, q.len);
+	for(i = 0; i < q.len; i++)
+	    q.ptr[i] = zip_outbuf[zip_outoff + i];
+	zip_outcnt = zip_outoff = 0;
+    }
+}
+
+return function deflate(str, level) {
+    var i, j;
+
+    zip_deflate_data = str;
+    zip_deflate_pos = 0;
+    if(typeof level == "undefined")
+	level = zip_DEFAULT_LEVEL;
+    zip_deflate_start(level);
+
+    var buff = new Array(1024);
+    var aout = [];
+    while((i = zip_deflate_internal(buff, 0, buff.length)) > 0) {
+	var cbuf = new Array(i);
+	for(j = 0; j < i; j++){
+	    cbuf[j] = String.fromCharCode(buff[j]);
+	}
+	aout[aout.length] = cbuf.join("");
+    }
+    zip_deflate_data = null; // G.C.
+    return aout.join("");
+};
+
+})();
+
+module.exports = {
+	deflate
+};
\ No newline at end of file
diff --git a/package.json b/package.json
new file mode 100644
index 0000000..a6e5413
--- /dev/null
+++ b/package.json
@@ -0,0 +1,18 @@
+{
+  "name": "eleventy-plugin-plantuml",
+  "version": "0.9.0",
+  "description": "Eleventy (11ty) Plantuml markdown plugin",
+  "main": "index.js",
+  "repository": "git@github.com:awaragi/eleventy-plugin-plantuml.git",
+  "author": "Pierre Awaragi <pierre@awaragi.com>",
+  "license": "MIT",
+  "scripts": {
+    "test": "jest test"
+  },
+  "devDependencies": {
+    "jest": "^27.0.5"
+  },
+  "dependencies": {
+    "sync-request": "^6.1.0"
+  }
+}
diff --git a/test/eleventy-plugin-plantuml.test.js b/test/eleventy-plugin-plantuml.test.js
new file mode 100644
index 0000000..059e8fd
--- /dev/null
+++ b/test/eleventy-plugin-plantuml.test.js
@@ -0,0 +1,44 @@
+const eleventyPluginPlantuml = require('../index');
+describe('Eleventy PlantUML Test Suite', () => {
+    it('Testing a e2e basic conversion', () => {
+        const img = eleventyPluginPlantuml.highlight(`@startuml
+Bob -> Alice : hello
+@enduml`, eleventyPluginPlantuml.defaultOptions);
+        expect(img).toBe('<img class="plantuml" src="data:image/png;base64,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" alt="Plantuml Diagram" />');
+    });
+
+    it('Testing a e2e large conversion', () => {
+        const img = eleventyPluginPlantuml.highlight(`@startuml
+!include https://raw.githubusercontent.com/bschwarz/puml-themes/master/themes/bluegray/puml-theme-bluegray.puml
+participant "Makrdown Highlighter" as MDH
+participant "eleventy-plugin-plantumt" as plugin
+participant "Plantuml Server" as plantuml
+
+MDH -> plugin : highlight
+plugin -> plugin: compress url
+plugin -> plantuml: GET /png/{url}
+plantuml -> plugin: image/png
+plugin -> plugin: base64
+plugin -> MDH: img src="dataurl"
+@enduml`, eleventyPluginPlantuml.defaultOptions);
+        expect(img).toBe('<img class="plantuml" src="data:image/png;base64,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" alt="Plantuml Diagram" />')
+    });
+
+    it('Testing url generation', () => {
+        const url = eleventyPluginPlantuml.generatePlantumlUrl('ABC', {
+            protocol: 'https',
+            hostname: 'localhost',
+            port: "8080",
+            prefix: "/path",
+            outputType: "png",
+        });
+        expect(url).toBe('https://localhost:8080/path/png/ABC')
+    });
+
+    it('Testing img tag generation', () => {
+        const tag = eleventyPluginPlantuml.generateImgTag('ABC', {
+            imgClass: "plantuml"
+        });
+        expect(tag).toBe('<img class="plantuml" src="data:image/png;base64,ABC" alt="Plantuml Diagram" />');
+    });
+});
\ No newline at end of file