cbindgen 0.10.1

/* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

use std::cell::RefCell;
use std::collections::HashMap;
use std::fs;
use std::fs::File;
use std::io::{Read, Write};
use std::path;
use std::rc::Rc;

use bindgen::config::{Config, Language};
use bindgen::ir::{
    Constant, Function, ItemContainer, ItemMap, Path as BindgenPath, Static, Struct,
};
use bindgen::writer::{Source, SourceWriter};

/// A bindings header that can be written.
pub struct Bindings {
    pub config: Config,
    /// The map from path to struct, used to lookup whether a given type is a
    /// transparent struct. This is needed to generate code for constants.
    struct_map: ItemMap<Struct>,
    struct_fileds_memo: RefCell<HashMap<BindgenPath, Rc<Vec<String>>>>,
    globals: Vec<Static>,
    constants: Vec<Constant>,
    items: Vec<ItemContainer>,
    functions: Vec<Function>,
}

#[derive(PartialEq)]
enum NamespaceOperation {
    Open,
    Close,
}

impl Bindings {
    pub(crate) fn new(
        config: Config,
        struct_map: ItemMap<Struct>,
        constants: Vec<Constant>,
        globals: Vec<Static>,
        items: Vec<ItemContainer>,
        functions: Vec<Function>,
    ) -> Bindings {
        Bindings {
            config,
            struct_map,
            struct_fileds_memo: Default::default(),
            globals,
            constants,
            items,
            functions,
        }
    }

    // FIXME(emilio): What to do when the configuration doesn't match?
    pub fn struct_is_transparent(&self, path: &BindgenPath) -> bool {
        let mut any = false;
        self.struct_map.for_items(path, |s| any |= s.is_transparent);
        any
    }

    pub fn struct_exists(&self, path: &BindgenPath) -> bool {
        let mut any = false;
        self.struct_map.for_items(path, |_| any = true);
        any
    }

    pub fn struct_field_names(&self, path: &BindgenPath) -> Rc<Vec<String>> {
        let mut memos = self.struct_fileds_memo.borrow_mut();
        if let Some(memo) = memos.get(path) {
            return memo.clone();
        }

        let mut fields = Vec::<String>::new();
        self.struct_map.for_items(path, |st| {
            let mut pos: usize = 0;
            for field in &st.fields {
                if let Some(found_pos) = fields.iter().position(|v| *v == field.0) {
                    pos = found_pos + 1;
                } else {
                    fields.insert(pos, field.0.clone());
                    pos += 1;
                }
            }
        });

        let fields = Rc::new(fields);
        memos.insert(path.clone(), fields.clone());
        fields
    }

    pub fn write_to_file<P: AsRef<path::Path>>(&self, path: P) -> bool {
        // Don't compare files if we've never written this file before
        if !path.as_ref().is_file() {
            if let Some(parent) = path::Path::new(path.as_ref()).parent() {
                fs::create_dir_all(parent).unwrap();
            }
            self.write(File::create(path).unwrap());
            return true;
        }

        let mut new_file_contents = Vec::new();
        self.write(&mut new_file_contents);

        let mut old_file_contents = Vec::new();
        {
            let mut old_file = File::open(&path).unwrap();
            old_file.read_to_end(&mut old_file_contents).unwrap();
        }

        if old_file_contents != new_file_contents {
            let mut new_file = File::create(&path).unwrap();
            new_file.write_all(&new_file_contents).unwrap();
            true
        } else {
            false
        }
    }

    pub fn write_headers<F: Write>(&self, out: &mut SourceWriter<F>) {
        if let Some(ref f) = self.config.header {
            out.new_line_if_not_start();
            write!(out, "{}", f);
            out.new_line();
        }
        if let Some(ref f) = self.config.include_guard {
            out.new_line_if_not_start();
            write!(out, "#ifndef {}", f);
            out.new_line();
            write!(out, "#define {}", f);
            out.new_line();
        }
        if self.config.include_version {
            out.new_line_if_not_start();
            write!(
                out,
                "/* Generated with cbindgen:{} */",
                ::bindgen::config::VERSION
            );
            out.new_line();
        }
        if let Some(ref f) = self.config.autogen_warning {
            out.new_line_if_not_start();
            write!(out, "{}", f);
            out.new_line();
        }

        if self.config.no_includes
            && self.config.sys_includes.is_empty()
            && self.config.includes.is_empty()
        {
            return;
        }

        out.new_line_if_not_start();

        if !self.config.no_includes {
            if self.config.language == Language::C {
                out.write("#include <stdarg.h>");
                out.new_line();
                out.write("#include <stdbool.h>");
                out.new_line();
                out.write("#include <stdint.h>");
                out.new_line();
                out.write("#include <stdlib.h>");
                out.new_line();
                out.write("#include <uchar.h>");
                out.new_line();
            } else {
                out.write("#include <cstdarg>");
                out.new_line();
                out.write("#include <cstdint>");
                out.new_line();
                out.write("#include <cstdlib>");
                out.new_line();
                out.write("#include <new>");
                out.new_line();
                if self.config.enumeration.cast_assert_name.is_none()
                    && (self.config.enumeration.derive_mut_casts
                        || self.config.enumeration.derive_const_casts)
                {
                    out.write("#include <cassert>");
                    out.new_line();
                }
            }
        }

        for include in &self.config.sys_includes {
            write!(out, "#include <{}>", include);
            out.new_line();
        }

        for include in &self.config.includes {
            write!(out, "#include \"{}\"", include);
            out.new_line();
        }
    }

    pub fn write<F: Write>(&self, file: F) {
        let mut out = SourceWriter::new(file, self);

        self.write_headers(&mut out);

        self.open_namespaces(&mut out);

        for constant in &self.constants {
            if constant.ty.is_primitive_or_ptr_primitive() {
                out.new_line_if_not_start();
                constant.write(&self.config, &mut out, None);
                out.new_line();
            }
        }

        for item in &self.items {
            if item
                .deref()
                .annotations()
                .bool("no-export")
                .unwrap_or(false)
            {
                continue;
            }

            out.new_line_if_not_start();
            match *item {
                ItemContainer::Constant(..) => unreachable!(),
                ItemContainer::Static(..) => unreachable!(),
                ItemContainer::Enum(ref x) => x.write(&self.config, &mut out),
                ItemContainer::Struct(ref x) => x.write(&self.config, &mut out),
                ItemContainer::Union(ref x) => x.write(&self.config, &mut out),
                ItemContainer::OpaqueItem(ref x) => x.write(&self.config, &mut out),
                ItemContainer::Typedef(ref x) => x.write(&self.config, &mut out),
            }
            out.new_line();
        }

        for constant in &self.constants {
            if !constant.ty.is_primitive_or_ptr_primitive() {
                out.new_line_if_not_start();
                constant.write(&self.config, &mut out, None);
                out.new_line();
            }
        }

        if !self.functions.is_empty() || !self.globals.is_empty() {
            if self.config.language == Language::C && self.config.cpp_compat {
                out.new_line_if_not_start();
                out.write("#ifdef __cplusplus");
            }

            if self.config.language == Language::Cxx {
                if let Some(ref using_namespaces) = self.config.using_namespaces {
                    for namespace in using_namespaces {
                        out.new_line();
                        write!(out, "using namespace {};", namespace);
                    }
                    out.new_line();
                }
            }

            if self.config.language == Language::Cxx || self.config.cpp_compat {
                out.new_line();
                out.write("extern \"C\" {");
                out.new_line();
            }

            if self.config.language == Language::C && self.config.cpp_compat {
                out.write("#endif // __cplusplus");
                out.new_line();
            }

            for global in &self.globals {
                out.new_line_if_not_start();
                global.write(&self.config, &mut out);
                out.new_line();
            }

            for function in &self.functions {
                out.new_line_if_not_start();
                function.write(&self.config, &mut out);
                out.new_line();
            }

            if self.config.language == Language::C && self.config.cpp_compat {
                out.new_line();
                out.write("#ifdef __cplusplus");
            }

            if self.config.language == Language::Cxx || self.config.cpp_compat {
                out.new_line();
                out.write("} // extern \"C\"");
                out.new_line();
            }

            if self.config.language == Language::C && self.config.cpp_compat {
                out.write("#endif // __cplusplus");
                out.new_line();
            }
        }

        self.close_namespaces(&mut out);

        if let Some(ref f) = self.config.include_guard {
            out.new_line_if_not_start();
            if self.config.language == Language::C {
                write!(out, "#endif /* {} */", f);
            } else {
                write!(out, "#endif // {}", f);
            }
            out.new_line();
        }
        if let Some(ref f) = self.config.trailer {
            out.new_line_if_not_start();
            write!(out, "{}", f);
            out.new_line();
        }
    }

    fn all_namespaces(&self) -> Vec<&str> {
        if self.config.language != Language::Cxx && !self.config.cpp_compat {
            return vec![];
        }
        let mut ret = vec![];
        if let Some(ref namespace) = self.config.namespace {
            ret.push(&**namespace);
        }
        if let Some(ref namespaces) = self.config.namespaces {
            for namespace in namespaces {
                ret.push(&**namespace);
            }
        }
        ret
    }

    fn open_close_namespaces<F: Write>(&self, op: NamespaceOperation, out: &mut SourceWriter<F>) {
        let mut namespaces = self.all_namespaces();
        if namespaces.is_empty() {
            return;
        }

        if op == NamespaceOperation::Close {
            namespaces.reverse();
        }

        let write_ifdefs = self.config.cpp_compat && self.config.language == Language::C;
        if write_ifdefs {
            out.new_line_if_not_start();
            out.write("#ifdef __cplusplus");
        }

        for namespace in namespaces {
            out.new_line();
            match op {
                NamespaceOperation::Open => write!(out, "namespace {} {{", namespace),
                NamespaceOperation::Close => write!(out, "}} // namespace {}", namespace),
            }
        }

        out.new_line();
        if write_ifdefs {
            out.write("#endif // __cplusplus");
            out.new_line();
        }
    }

    pub(crate) fn open_namespaces<F: Write>(&self, out: &mut SourceWriter<F>) {
        self.open_close_namespaces(NamespaceOperation::Open, out);
    }

    pub(crate) fn close_namespaces<F: Write>(&self, out: &mut SourceWriter<F>) {
        self.open_close_namespaces(NamespaceOperation::Close, out);
    }
}