From f62b48d9283fd04738a1fd664c4b92b6891b4e04 Mon Sep 17 00:00:00 2001
From: Dean Shaff <dshaff@swin.edu.au>
Date: Tue, 16 Jul 2019 11:51:18 +1000
Subject: added my WebAssembly tutorial

---
 wasm.html.markdown | 227 +++++++++++++++++++++++++++++++++++++++++++++++++++++
 1 file changed, 227 insertions(+)
 create mode 100644 wasm.html.markdown

diff --git a/wasm.html.markdown b/wasm.html.markdown
new file mode 100644
index 00000000..a5c00d7b
--- /dev/null
+++ b/wasm.html.markdown
@@ -0,0 +1,227 @@
+---
+language: WebAssembly
+filename: learn-wasm.wast
+contributors:
+    - ["Dean Shaff", "http://dean-shaff.github.io"]
+---
+
+```webassembly
+;; learn-wasm.wast
+
+(module
+  ;; In WebAssembly, everything is included in a module. Moreover, everything
+  ;; can be expressed as an s-expression. Alternatively, there is the
+  ;; "stack machine" syntax, but that is not compatible with Binaryen
+  ;; intermediate representation (IR) syntax.
+
+  ;; The Binaryen IR format is *mostly* compatible with WebAssembly text format.
+  ;; There are some small differences:
+  ;; local_set -> local.set
+  ;; local_get -> local.get
+
+  ;; We have to enclose code in functions
+
+  ;; Data Types
+  (func $data_types
+    ;; WebAssembly has only four types:
+    ;; i32 - 32 bit integer
+    ;; i64 - 64 bit integer (not supported in JavaScript)
+    ;; f32 - 32 bit floating point
+    ;; f64 - 64 bit floating point
+
+    ;; We can declare local variables with the "local" keyword
+    ;; We have to declare all variables before we start doing anything
+    ;; inside the function
+
+    (local $int_32 i32)
+    (local $int_64 i64)
+    (local $float_32 f32)
+    (local $float_64 f64)
+
+    ;; These values remain uninitialized.
+    ;; To set them to a value, we can use <type>.const:
+
+    (local.set $int_32 (i32.const 16))
+    (local.set $int_32 (i64.const 128))
+    (local.set $float_32 (f32.const 3.14))
+    (local.set $float_64 (f64.const 1.28))
+  )
+
+  ;; Basic operations
+  (func $basic_operations
+
+    ;; In WebAssembly, everything is an s-expression, including
+    ;; doing math, or getting the value of some variable
+
+    (local $add_result i32)
+    (local $mult_result f64)
+
+    (local.set $add_result (i32.add (i32.const 2) (i32.const 4)))
+    ;; the value of add_result is now 6!
+
+    ;; We have to use the right data type for each operation:
+    ;; (local.set $mult_result (f32.mul (f32.const 2.0) (f32.const 4.0))) ;; WRONG! mult_result is f64!
+    (local.set $mult_result (f64.mul (f64.const 2.0) (f64.const 4.0))) ;; WRONG! mult_result is f64!
+
+    ;; WebAssembly has some builtin operations, like basic math and bitshifting.
+    ;; Notably, it does not have built in trigonometric functions.
+    ;; In order to get access to these functions, we have to either
+    ;; - implement them ourselves (not recommended)
+    ;; - import them from elsewhere (later on)
+  )
+
+  ;; Functions
+  ;; We specify arguments with the `param` keyword, and specify return values
+  ;; with the `result` keyword
+  ;; The current value on the stack is the return value of a function
+
+  ;; We can call other functions we've defined with the `call` keyword
+
+  (func $get_16 (result i32)
+    (i32.const 16)
+  )
+
+  (func $add (param $param0 i32) (param $param1 i32) (result i32)
+    (i32.add
+      (local.get $param0)
+      (local.get $param1)
+    )
+  )
+
+  (func $double_16 (result i32)
+    (i32.mul
+      (i32.const 2)
+      (call $get_16))
+  )
+
+  ;; Up until now, we haven't be able to print anything out, nor do we have
+  ;; access to higher level math functions (pow, exp, or trig functions).
+  ;; Moreover, we haven't been able to use any of the WASM functions in Javascript!
+  ;; The way we get those functions into WebAssembly
+  ;; looks different whether we're in a Node.js or browser environment.
+
+  ;; If we're in Node.js we have to do two steps. First we have to convert the
+  ;; WASM text representation into actual webassembly. If we're using Binyaren,
+  ;; we can do that with a command like the following:
+
+  ;; wasm-as learn-wasm.wast -o learn-wasm.wasm
+
+  ;; We can apply Binaryen optimizations to that file with a command like the
+  ;; following:
+
+  ;; wasm-opt learn-wasm.wasm -o learn-wasm.opt.wasm -O3 --rse
+
+  ;; With our compiled WebAssembly, we can now load it into Node.js:
+  ;; const fs = require('fs')
+  ;; const instantiate = async function (inFilePath, _importObject) {
+  ;;  var importObject = {
+  ;;     console: {
+  ;;       log: (x) => console.log(x),
+  ;;     },
+  ;;     math: {
+  ;;       cos: (x) => Math.cos(x),
+  ;;     }
+  ;;   }
+  ;;  importObject = Object.assign(importObject, _importObject)
+  ;;
+  ;;  var buffer = fs.readFileSync(inFilePath)
+  ;;  var module = await WebAssembly.compile(buffer)
+  ;;  var instance = await WebAssembly.instantiate(module, importObject)
+  ;;  return instance.exports
+  ;; }
+  ;;
+  ;; const main = function () {
+  ;;   var wasmExports = await instantiate('learn-wasm.wasm')
+  ;;   wasmExports.print_args(1, 0)
+  ;; }
+
+  ;; The following snippet gets the functions from the importObject we defined
+  ;; in the JavaScript instantiate async function, and then exports a function
+  ;; "print_args" that we can call from Node.js
+
+  (import "console" "log" (func $print_i32 (param i32)))
+  (import "math" "cos" (func $cos (param f64) (result f64)))
+
+  (func $print_args (param $arg0 i32) (param $arg1 i32)
+    (call $print_i32 (local.get $arg0))
+    (call $print_i32 (local.get $arg1))
+  )
+  (export "print_args" (func $print_args))
+
+  ;; Loading in data from WebAssembly memory.
+  ;; Say that we want to apply the cosine function to a Javascript array.
+  ;; We need to be able to access the allocated array, and iterate through it.
+  ;; This example will modify the input array inplace.
+  ;; f64.load and f64.store expect the location of a number in memory *in bytes*.
+  ;; If we want to access the 3rd element of an array, we have to pass something
+  ;; like (i32.mul (i32.const 8) (i32.const 2)) to the f64.store function.
+
+  ;; In JavaScript, we would call `apply_cos64` as follows
+  ;; (using the instantiate function from earlier):
+  ;;
+  ;; const main = function () {
+  ;;   var wasm = await instantiate('learn-wasm.wasm')
+  ;;   var n = 100
+  ;;   const memory = new Float64Array(wasm.memory.buffer, 0, n)
+  ;;   for (var i=0; i<n; i++) {
+  ;;     memory[i] = i;
+  ;;   }
+  ;;   wasm.apply_cos64(n)
+  ;; }
+  ;;
+  ;; This function will not work if we allocate a Float32Array on the JavaScript
+  ;; side.
+
+  (memory (export "memory") 100)
+
+  (func $apply_cos64 (param $array_length i32)
+    ;; declare the loop counter
+    (local $idx i32)
+    ;; declare the counter that will allow us to access memory
+    (local $idx_bytes i32)
+    ;; constant expressing the number of bytes in a f64 number.
+    (local $bytes_per_double i32)
+
+    ;; declare a variable for storing the value loaded from memory
+    (local $temp_f64 f64)
+
+    (local.set $idx (i32.const 0))
+    (local.set $idx_bytes (i32.const 0)) ;; not entirely necessary
+    (local.set $bytes_per_double (i32.const 8))
+
+    (block
+      (loop
+        ;; this sets idx_bytes to bytes offset of the value we're interested in.
+        (local.set $idx_bytes (i32.mul (local.get $idx) (local.get $bytes_per_double)))
+
+        ;; get the value of the array from memory:
+        (local.set $temp_f64 (f64.load (local.get $idx_bytes)))
+
+        ;; now apply the cosine function:
+        (local.set $temp_64 (call $cos (local.get $temp_64)))
+
+        ;; now store the result at the same location in memory:
+        (f64.store
+          (local.get $idx_bytes)
+          (local.get $temp_64))
+
+        ;; do it all in one step instead
+        (f64.store
+          (local.get $idx_bytes)
+          (call $cos
+            (f64.load
+              (local.get $idx_bytes))))
+
+        ;; increment the loop counter
+        (local.set $idx (i32.add (local.get $idx) (i32.const 1)))
+
+        ;; stop the loop if the loop counter is equal the array length
+        (br_if 1 (i32.eq (local.get $idx) (local.get $array_length)))
+        (br 0)
+      )
+    )
+  )
+  (export "apply_cos64" (func $apply_cos64))
+)
+
+```
-- 
cgit v1.2.3


From 49ec8f54103416b91ce6a4bf8ddc9841bb38dd03 Mon Sep 17 00:00:00 2001
From: Divay Prakash <divayprakash@users.noreply.github.com>
Date: Sun, 4 Aug 2019 14:18:55 +0530
Subject: Update wasm.html.markdown

Fix lexer issue
---
 wasm.html.markdown | 2 +-
 1 file changed, 1 insertion(+), 1 deletion(-)

diff --git a/wasm.html.markdown b/wasm.html.markdown
index a5c00d7b..98bfc000 100644
--- a/wasm.html.markdown
+++ b/wasm.html.markdown
@@ -5,7 +5,7 @@ contributors:
     - ["Dean Shaff", "http://dean-shaff.github.io"]
 ---
 
-```webassembly
+```
 ;; learn-wasm.wast
 
 (module
-- 
cgit v1.2.3