astoptech
ast optimization techniques
How can you optimize an abstract syntax tree?
Abstract syntax tree is a tree-like structure that represents your program. The program is interpreted at some point, e.g. in your browser. Everything takes time, and the same applies to the interpretation. Some of the operations, e.g. adding numbers can be done at compile time, so that the interpreter has less work to do. Having less work to do means that your program will run faster.
What optimization techniques are available?
binaryExpressionReduction
const number = 2 + 2
In the example above we have added two numbers. We could optimize the code by:
const number = 4
The tree would be translated from:
{
"type": "BinaryExpression",
"left": { "type": "Literal", "value": 2 },
"right": { "type": "Literal", "value": 2 }
}
to
{ "type": "Literal", "value": 4 }
Usage:
const { binaryExpressionReduction } = require('astoptech')
ifStatementRemoval
if (true) {
console.log('foo')
} else {
console.log('bar')
}
It seems that we'll only enter the true path. We can simplify the code to:
console.log('foo')
The tree would be translated from:
{
"type": "IfStatement",
"test": {
"type": "Literal",
"value": true
},
"consequent": {
"type": "BlockStatement",
"body": [
{
"type": "ExpressionStatement",
"expression": {
"type": "CallExpression",
"callee": {
"type": "MemberExpression",
"object": {
"type": "Identifier",
"name": "console"
},
"property": {
"type": "Identifier",
"name": "log"
},
"computed": false
},
"arguments": [
{
"type": "Literal",
"value": "foo"
}
]
}
}
]
},
"alternate": {
"type": "BlockStatement",
"body": [
{
"type": "ExpressionStatement",
"expression": {
"type": "CallExpression",
"callee": {
"type": "MemberExpression",
"object": {
"type": "Identifier",
"name": "console"
},
"property": {
"type": "Identifier",
"name": "log"
},
"computed": false
},
"arguments": [
{
"type": "Literal",
"value": "bar"
}
]
}
}
]
}
}
to:
{
"type": "CallExpression",
"callee": {
"type": "MemberExpression",
"object": {
"type": "Identifier",
"name": "console"
},
"property": {
"type": "Identifier",
"name": "log"
},
"computed": false
},
"arguments": [
{
"type": "Literal",
"value": "foo"
}
]
}
Usage:
const { ifStatementRemoval } = require('astoptech')
negationOperatorRemoval
if (!(foo === bar)) {
console.log('foo')
}
It seems that our negation operator could be a part of the condition inside the brackets.
if (foo !== bar) {
console.log('foo')
}
The tree would be translated from:
{
"type": "UnaryExpression",
"operator": "!",
"prefix": true,
"argument": {
"type": "BinaryExpression",
"left": {
"type": "Identifier",
"name": "foo"
},
"operator": "===",
"right": {
"type": "Identifier",
"name": "bar"
}
}
}
to
{
"type": "BinaryExpression",
"left": {
"type": "Identifier",
"name": "foo"
},
"operator": "!==",
"right": {
"type": "Identifier",
"name": "bar"
}
}
logicalExpressionReduction
const foo = "bar" || "baz"
The first value is truthy so it's safe to simplify the code.
const foo = "bar"
The tree would be translated from:
{
"type": "LogicalExpression",
"left": {
"type": "Literal",
"value": "bar"
},
"operator": "||",
"right": {
"type": "Literal",
"value": "baz"
}
}
To:
{
"type": "Literal",
"value": "bar"
}
ternaryOperatorReduction
const foo = true ? "bar": "baz"
Given a known value of the conditional expression it's possible to get the right value immediately.
const foo = "bar"
The tree would be translated from:
{
"type": "ConditionalExpression",
"test": {
"type": "Literal",
"value": true
},
"consequent": {
"type": "Literal",
"value": "bar"
},
"alternate": {
"type": "Literal",
"value": "baz"
}
}
To:
{
"type": "Literal",
"value": "bar"
}