:title
C++ Preprocessor

:sig
UCE source preprocessing

:see
load
unit_render
unit_call
0_Request
1_COMPONENT

:content
UCE runs a small custom source-to-source preprocessor before Clang sees a `.uce` or `.ws.uce` file.

The template rewriting implementation lives in `src/lib/compiler-parser.cpp`, with orchestration in `src/lib/compiler.cpp`. It does not try to parse all of C++. Instead, it performs a narrow character-wise rewrite that understands literal output, inline code islands, `#load`, and `EXPORT` harvesting, then writes a generated `.cpp` file and compiles that file into a WebAssembly side module.

## Syntax

- `<> ... </>` enters literal-output mode.
- `?> ... <?` also enters literal-output mode.
- The open and close pairs are interchangeable, so `<> ... <?`, `?> ... </>`, and the traditional matched forms all work.
- Inside literal output, `<? ... ?>` emits raw C++.
- Inside a literal block, `<?= expression ?>` emits `print(html_escape(expression));`.
- Inside a literal block, `<?: expression ?>` emits `print(expression);` without HTML escaping.
- `#load "other.uce"` injects another UCE unit at compile time.
- `RENDER(Request& context)`, `COMPONENT(Request& context)`, `CLI(Request& context)`, `ONCE(Request& context)`, `INIT(Request& context)`, and `WS(Request& context)` are normal C++ macros from `src/lib/compiler.h`.
- `ONCE`, `RENDER`, and `COMPONENT` may be followed by a preprocessor attribute line such as `@fragment head` before the opening `{`. The handler's output is then captured and appended to `context.call["fragments"]["head"]` instead of being emitted at the call site. `ONCE` defaults to `@fragment once` when no fragment is specified.
- `COMPONENT:NAME(Request& context)` is rewritten by the custom pass into an exported named component handler.
- `EXPORT` is also a normal C++ macro, but the custom pass additionally records exported declarations for metadata.

## Pipeline

- The generated file starts by including the logical runtime header `uce_lib.h`; the wasm unit compile script provides the include path.
- It then inlines the configured setup template from `SETUP_TEMPLATE` (by default `scripts/setup.h.template`), which defines the internal hook `__uce_set_current_request(Request*)`.
- It inserts `#line 1` before page code so compiler diagnostics point back to the original `.uce` file.
- Each literal region is rewritten into one or more `print(R"...( ... )...");` calls using a safe raw-string delimiter selected for that literal content.
- `<>` and `?>` both switch from code mode into literal output.
- `</>` and `<?` both switch from literal output back into code mode.
- `<? ... ?>` temporarily breaks out of literal printing, emits the enclosed C++ unchanged, then resumes literal output.
- `<?= ... ?>` becomes `print(html_escape(...));`.
- `<?: ... ?>` becomes `print(...);` and is intended for trusted markup or already-escaped content.
- `#load "file.uce"` is replaced with a generated C++ `#include` that points at the loaded unit's preprocessed `.cpp` file under `BIN_DIRECTORY`.
- Lines beginning with `EXPORT` are scanned so their declarations can be written to a sibling `.exports.txt` file.
- `@fragment slot-name` lines immediately following `ONCE`, `RENDER`, or `COMPONENT` are removed and replaced with an output-capture guard at the start of the handler body.
- Lines beginning with `RENDER:NAME(...)` are rewritten into exported `__uce_render_NAME(...)` functions.
- Lines beginning with `COMPONENT:NAME(...)` are rewritten into exported `__uce_component_NAME(...)` functions for the component helpers.
- The final generated source is written to `BIN_DIRECTORY + src_path + "/" + source_file + ".cpp"`.
- `scripts/compile_wasm_unit` then compiles that generated `.cpp` into `source_file + ".wasm"` as a PIC WebAssembly side module.
- When a worker instantiates the compiled unit, the runtime checks for `INIT(Request& context)` and calls it once for that worker-side instance.
- On each request, the first time a given unit is entered through `RENDER()`, `CLI()`, or any `COMPONENT...` handler, the runtime checks for `ONCE(Request& context)` and calls it before the selected handler.

## Generated Files

For a source file like `/some/path/page.uce`, the preprocessor produces:

- generated C++: `BIN_DIRECTORY/some/path/page.uce.cpp`
- wasm side module: `BIN_DIRECTORY/some/path/page.uce.wasm`
- export list: `BIN_DIRECTORY/some/path/page.uce.exports.txt`

## Examples

Literal output with escaped data:


The same thing can also be written with PHP-style literal delimiters:


Roughly becomes:


Literal output with trusted unescaped markup:


Roughly becomes:


Compile-time composition:


The loaded file is resolved relative to the current source file unless the path is already absolute.

One-time worker initialization plus request-local setup:


One-time page assets captured for a template-controlled slot:


The page template can then render `context.call["fragments"]["head"]` inside `<head>`.

## Rules

- Literal mode can start on either `<>` or `?>`.
- Literal mode can end on either `</>` or `<?`.
- Literal delimiters are interchangeable; the parser treats them as one shared code-vs-literal state machine rather than as separate nested block types.
- `#load` is recognized only when the current line starts with `#load ` at column 1.
- `EXPORT` harvesting only triggers when the current line starts with `EXPORT` at column 1 and is followed by whitespace.
- Relative `#load` paths are expanded against the including unit's source directory.
- `unit_render()` and `unit_call()` are runtime APIs. `#load` is a compile-time composition feature.
- `INIT()` runs when the wasm unit is instantiated by a worker during a request-triggered load, so it still receives a valid `Request& context`.
- `ONCE()` is tracked per request and per resolved unit file. A file entered multiple times in one request only runs `ONCE()` once.

## Limitations

- This pass is character-wise, not a full parser.
- Outside literal blocks it tracks C++ quotes and comments while deciding whether `<>` or `?>` should open literal mode.
- It does not understand comments, raw string literals, templates, or general C++ token structure.
- Inside literal blocks it tracks quotes and comments while scanning `<? ... ?>`, `<?= ... ?>`, and `<?: ... ?>` islands so quoted `?>` text does not close those islands early.
- Literal output is emitted through C++ string literals generated by the preprocessor. The preprocessor chooses a raw-string delimiter that does not occur in the literal content, so literal text may safely contain the ordinary raw-string terminator sequence `)"`.
- `#load` depends on the target unit's generated `.cpp` existing and being compilable. If the target cannot be preprocessed or compiled correctly, the including file will fail to compile as well.

## Debugging

- Inspect the generated file under `BIN_DIRECTORY` first. That file shows the exact C++ produced by the UCE preprocessor.
- Compiler errors usually point back to the `.uce` source because the preprocessor inserts `#line 1`, but the generated `.cpp` is still the best place to inspect expansion problems.
- Compile failures are reported with the source path, generated C++ path, compile-output artifact path, an excerpt when UCE can identify a line, and the raw compiler output from the configured compile script.
- Runtime request failures include the request/script path, generated C++ path, a hint about inspecting template delimiters and recent component/unit calls, and a native trace when available.
- If a `#load` include looks wrong, check the current file's directory, the configured `BIN_DIRECTORY`, and whether the loaded page already produced its own generated `.cpp`.

:example
// The preprocessor lets you mix C++ logic with output. Code generates markup:
StringList items = split("apples,pears,plums", ",");
String html = "";
items.each([&](String item) { html += "<li>" + item + "</li>"; });
print(html, "\n");
