317 lines
8.2 KiB
Markdown
317 lines
8.2 KiB
Markdown
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# Handlebars Compiler APIs
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There are a number of formal APIs that tool implementors may interact with.
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## AST
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Other tools may interact with the formal AST as defined below. Any JSON structure matching this pattern may be used and passed into the `compile` and `precompile` methods in the same way as the text for a template.
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AST structures may be generated either with the `Handlebars.parse` method and then manipulated, via the `Handlebars.AST` objects of the same name, or constructed manually as a generic JavaScript object matching the structure defined below.
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```javascript
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var ast = Handlebars.parse(myTemplate);
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// Modify ast
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Handlebars.precompile(ast);
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```
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### Basic
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```java
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interface Node {
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type: string;
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loc: SourceLocation | null;
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}
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interface SourceLocation {
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source: string | null;
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start: Position;
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end: Position;
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}
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interface Position {
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line: uint >= 1;
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column: uint >= 0;
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}
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```
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### Programs
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```java
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interface Program <: Node {
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type: "Program";
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body: [ Statement ];
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blockParams: [ string ];
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}
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```
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### Statements
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```java
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interface Statement <: Node { }
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interface MustacheStatement <: Statement {
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type: "MustacheStatement";
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path: PathExpression | Literal;
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params: [ Expression ];
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hash: Hash;
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escaped: boolean;
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strip: StripFlags | null;
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}
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interface BlockStatement <: Statement {
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type: "BlockStatement";
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path: PathExpression;
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params: [ Expression ];
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hash: Hash;
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program: Program | null;
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inverse: Program | null;
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openStrip: StripFlags | null;
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inverseStrip: StripFlags | null;
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closeStrip: StripFlags | null;
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}
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interface PartialStatement <: Statement {
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type: "PartialStatement";
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name: PathExpression | SubExpression;
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params: [ Expression ];
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hash: Hash;
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indent: string;
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strip: StripFlags | null;
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}
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interface PartialBlockStatement <: Statement {
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type: "PartialBlockStatement";
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name: PathExpression | SubExpression;
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params: [ Expression ];
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hash: Hash;
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program: Program | null;
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indent: string;
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openStrip: StripFlags | null;
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closeStrip: StripFlags | null;
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}
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```
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`name` will be a `SubExpression` when tied to a dynamic partial, i.e. `{{> (foo) }}`, otherwise this is a path or literal whose `original` value is used to lookup the desired partial.
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```java
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interface ContentStatement <: Statement {
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type: "ContentStatement";
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value: string;
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original: string;
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}
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interface CommentStatement <: Statement {
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type: "CommentStatement";
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value: string;
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strip: StripFlags | null;
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}
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```
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```java
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interface Decorator <: Statement {
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type: "Decorator";
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path: PathExpression | Literal;
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params: [ Expression ];
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hash: Hash;
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strip: StripFlags | null;
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}
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interface DecoratorBlock <: Statement {
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type: "DecoratorBlock";
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path: PathExpression | Literal;
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params: [ Expression ];
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hash: Hash;
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program: Program | null;
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openStrip: StripFlags | null;
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closeStrip: StripFlags | null;
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}
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```
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Decorator paths only utilize the `path.original` value and as a consequence do not support depthed evaluation.
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### Expressions
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```java
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interface Expression <: Node { }
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```
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##### SubExpressions
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```java
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interface SubExpression <: Expression {
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type: "SubExpression";
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path: PathExpression;
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params: [ Expression ];
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hash: Hash;
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}
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```
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##### Paths
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```java
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interface PathExpression <: Expression {
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type: "PathExpression";
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data: boolean;
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depth: uint >= 0;
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parts: [ string ];
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original: string;
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}
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```
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- `data` is true when the given expression is a `@data` reference.
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- `depth` is an integer representation of which context the expression references. `0` represents the current context, `1` would be `../`, etc.
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- `parts` is an array of the names in the path. `foo.bar` would be `['foo', 'bar']`. Scope references, `.`, `..`, and `this` should be omitted from this array.
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- `original` is the path as entered by the user. Separator and scope references are left untouched.
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##### Literals
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```java
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interface Literal <: Expression { }
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interface StringLiteral <: Literal {
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type: "StringLiteral";
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value: string;
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original: string;
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}
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interface BooleanLiteral <: Literal {
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type: "BooleanLiteral";
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value: boolean;
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original: boolean;
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}
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interface NumberLiteral <: Literal {
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type: "NumberLiteral";
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value: number;
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original: number;
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}
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interface UndefinedLiteral <: Literal {
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type: "UndefinedLiteral";
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}
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interface NullLiteral <: Literal {
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type: "NullLiteral";
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}
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```
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### Miscellaneous
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```java
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interface Hash <: Node {
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type: "Hash";
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pairs: [ HashPair ];
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}
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interface HashPair <: Node {
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type: "HashPair";
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key: string;
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value: Expression;
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}
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interface StripFlags {
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open: boolean;
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close: boolean;
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}
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```
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`StripFlags` are used to signify whitespace control character that may have been entered on a given statement.
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## AST Visitor
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`Handlebars.Visitor` is available as a base class for general interaction with AST structures. This will by default traverse the entire tree and individual methods may be overridden to provide specific responses to particular nodes.
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Recording all referenced partial names:
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```javascript
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var Visitor = Handlebars.Visitor;
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function ImportScanner() {
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this.partials = [];
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}
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ImportScanner.prototype = new Visitor();
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ImportScanner.prototype.PartialStatement = function(partial) {
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this.partials.push({request: partial.name.original});
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Visitor.prototype.PartialStatement.call(this, partial);
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};
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var scanner = new ImportScanner();
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scanner.accept(ast);
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```
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The current node's ancestors will be maintained in the `parents` array, with the most recent parent listed first.
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The visitor may also be configured to operate in mutation mode by setting the `mutation` field to true. When in this mode, handler methods may return any valid AST node and it will replace the one they are currently operating on. Returning `false` will remove the given value (if valid) and returning `undefined` will leave the node in tact. This return structure only apply to mutation mode and non-mutation mode visitors are free to return whatever values they wish.
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Implementors that may need to support mutation mode are encouraged to utilize the `acceptKey`, `acceptRequired` and `acceptArray` helpers which provide the conditional overwrite behavior as well as implement sanity checks where pertinent.
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## JavaScript Compiler
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The `Handlebars.JavaScriptCompiler` object has a number of methods that may be customized to alter the output of the compiler:
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- `nameLookup(parent, name, type)`
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Used to generate the code to resolve a give path component.
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- `parent` is the existing code in the path resolution
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- `name` is the current path component
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- `type` is the type of name being evaluated. May be one of `context`, `data`, `helper`, `decorator`, or `partial`.
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Note that this does not impact dynamic partials, which implementors need to be aware of. Overriding `VM.resolvePartial` may be required to support dynamic cases.
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- `depthedLookup(name)`
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Used to generate code that resolves parameters within any context in the stack. Is only used in `compat` mode.
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- `compilerInfo()`
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Allows for custom compiler flags used in the runtime version checking logic.
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- `appendToBuffer(source, location, explicit)`
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Allows for code buffer emitting code. Defaults behavior is string concatenation.
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- `source` is the source code whose result is to be appending
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- `location` is the location of the source in the source map.
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- `explicit` is a flag signaling that the emit operation must occur, vs. the lazy evaled options otherwise.
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- `initializeBuffer()`
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Allows for buffers other than the default string buffer to be used. Generally needs to be paired with a custom `appendToBuffer` implementation.
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```javascript
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function MyCompiler() {
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Handlebars.JavaScriptCompiler.apply(this, arguments);
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}
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MyCompiler.prototype = Object.create(Handlebars.JavaScriptCompiler);
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MyCompiler.nameLookup = function(parent, name, type) {
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if (type === 'partial') {
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return 'MyPartialList[' + JSON.stringify(name) ']';
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} else {
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return Handlebars.JavaScriptCompiler.prototype.nameLookup.call(this, parent, name, type);
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}
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};
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var env = Handlebars.create();
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env.JavaScriptCompiler = MyCompiler;
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env.compile('my template');
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```
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