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# Actual compilation of the vector of tokens, ported from the "dirty tnsl"
# that was originally written for the interpreter

# CompData represents three vectors:
# hsec - the heading of the output assembly
# dsec - the data tied to the assembly
# csec - the .text section that is the code of the assembly
struct CompData {
    Vector
        hsec,
        dsec,
        csec
}

/; method CompData
    /; start
        self.hsec.start(1)
        self.dsec.start(1)
        self.csec.start(1)
    ;/

    /; add (CompData c)
        self.hsec.add(c.hsec)
        self.dsec.add(c.dsec)
        self.csec.add(c.csec)
    ;/

    /; _del
        self.hsec._del()
        self.dsec._del()
        self.csec._del()
    ;/

    /; write_file(~void fd)
        /; loop (int i = 0; i < self.hsec.num_el) [i++]
            _write_byte(fd, self.hsec.get(i))
        ;/
        
        /; loop (int i = 0; i < self.dsec.num_el) [i++]
            _write_byte(fd, self.dsec.get(i))
        ;/

        /; loop (int i = 0; i < self.csec.num_el) [i++]
            _write_byte(fd, self.csec.get(i))
        ;/
    ;/
;/

# Path represents the actual path of a file
# that we are trying to tokenize
# Assumes that the last item in the path array is a file name
struct Path {
    int 
        path_count,
    ~~uint8
        split_path
}

/; method Path
    /; start (~uint8 path)
        self.split_path = _alloc(8)
        self.path_count = 0
        self.relative_file(path)
    ;/

    /; copy [Path]
        Path out
        ~uint8 f_pth = self.full_path()
        out.start(f_pth)
        _delete(f_pth)
        return out
    ;/
    
    /; relative_file(~uint8 rel_path)
        # Assume the last string is the file name
        /; if (self.path_count > 0)
            int idx = self.path_count - 1
            _delete(self.split_path{idx})
            self.path_count--
        ;/

        ~uint8 n_ptr = _alloc(1)
        n_ptr{0} = 0
        int idx = self.path_count

        /; loop (int i = 0; i < cstr_len(rel_path)) [i++]
            /; if (rel_path{i} == '\\' || rel_path{i} == '/')
                /; if (cstr_len(n_ptr) > 0)
                    self.path_count++
                    idx = self.path_count
                    self.split_path = _realloc(self.split_path, idx * 8)
                    self.split_path{idx - 1} = n_ptr

                    n_ptr = _alloc(1)
                    n_ptr{0} = 0
                ;/
            ;; else
                idx = cstr_len(n_ptr)
                n_ptr = _realloc(n_ptr, idx + 2)
                n_ptr{idx} = rel_path{i}
                n_ptr{idx + 1} = 0
            ;/
        ;/

        /; if (cstr_len(n_ptr) > 0)
            self.path_count++
            idx = self.path_count
            self.split_path = _realloc(self.split_path, idx * 8)
            self.split_path{idx - 1} = n_ptr
        ;/
    ;/

    /; full_path [~uint8]
        ~uint8 pth = _alloc(1)
        pth{0} = 0

        ~uint8 w_ptr = self.split_path{0}

        /; loop (int i = 0; i < self.path_count) [i++]
            w_ptr = self.split_path{i}
            int old_len = cstr_len(pth)
            int new_len = old_len + cstr_len(w_ptr)
            
            pth = _realloc(pth, new_len + 1)
            pth{new_len} = 0
            

            /; loop (int j = 0; j < cstr_len(w_ptr)) [j++]
                pth{old_len + j} = w_ptr{j}
            ;/

            /; if (i < self.path_count - 1)
                pth = _realloc(pth, new_len + 2)
                pth{new_len} = '/'
                pth{new_len + 1} = 0
            ;/
        ;/

        return pth
    ;/

    /; open_read [~void]
        ~uint8 path = self.full_path()
        ~void out = _open_file(path)
        _delete(path)
        return out
    ;/

    /; open_write [~void]
        ~uint8 path = self.full_path()
        ~void out = _create_file(path)
        _delete(path)
        return out
    ;/

    /; print_all
        /; loop (int i = 0; i < self.path_count) [i++]
            _printf(self.split_path{i})
        ;/
    ;/

    /; _del
        /; loop (int i = 0; i < self.path_count) [i++]
            _delete(self.split_path{i})
        ;/

        _delete(self.split_path)
    ;/
;/

########################################
# Compiler functions - here be dragons #
########################################

enum POINTER_TYPE [uint8] {
    POINTER = 0,
    REFERENCE = 1,
    ARRAY = 2
}

# 88 bytes long
struct Type {
    int s,
    ~uint8 name,
    Vector ptr_chain,
    Vector members,
    ~Module mod
}

/; method Type
    /; start
        self.ptr_chain.start(1)
        # 136 is the size of one Variable struct
        self.members.start(136)
    ;/

    /; _del
        self.ptr_chain._del()
        self.members._del()

    ;/
;/



#############
# Variables #
#############

# 136 bytes long
struct Variable {
    Vector name,
    
    Type data_type,

    int location,
        loc_type
}

/; method Variable

;/



###########
# Modules #
###########

struct Module {
    int i
}

/; method Module
    /; start

    ;/

    /; _del

    ;/
;/

/; base_loop_1 (Path in, Vector tokens, ~Module mod)

;/

/; base_loop_2 (Path in, Vector tokens, ~Module mod, ~CompData out)

;/

{}uint8 w_cstart = "Reading file: \0"
{}uint8 w_nl = "\n\0"

/; compile_file (Path in, ~Module mod) [CompData]
    
    ~uint8 pth = in.full_path()
    _printf(~w_cstart{0})
    _printf(pth)
    _printf(~w_nl{0})
    _delete(pth)

    ~void fd = in.open_read()
    Vector tokens = tokenize_file(fd)
    _close_file(fd)

    base_loop_1(in, tokens, mod)

    CompData out
    out.start()

    base_loop_2(in, tokens, mod, ~out)

    return out
;/


{}uint8 w_dsec = "\nsection .data\n\n\0"
{}uint8 w_csec = "\nsection .text\n\n\0"

{}uint8 w_compiled = "Compilation complete!  Writing file.\n\0"

/; compile (Path in, out)
    Module root
    root.start()
    CompData cd
    cd = compile_file(in, ~root)
    
    _printf(~w_compiled{0})
    
    # Section headers for the asm
    ~uint8 shed = ~w_dsec{0}
    cd.hsec.add_str(shed)
    shed = ~w_csec{0}
    cd.dsec.add_str(shed)

    ~void fout = out.open_write()
    cd.write_file(fout)
    _close_file(fout)

    root._del()
    cd._del()
;/