Navmesher/reference/record_codegen.py

import json
import os
from dataclasses import dataclass


INDENT = 8
WIDTH = 80
LAST = "};"
SV = "std::string_view"
NS = "esxr::"
PREAMBLE = '#include "esx_reader.hpp"\n\nusing namespace esxr;'


def transpose(seq):
    return list(zip(*seq))

def clean(seq):
    return [x for x in seq if x is not None]

def indented_block(items):
    lines = []
    line = ""
    for item in items:
        if len(line) + len(item) + 1 > WIDTH:
            lines += [line[:-1]]
            line = ""
        if not line:
            line = " " * INDENT
        line += item + ", "
    if line.strip():
        lines += [line]
    return "\n".join(lines)

def max_length(list):
    return max(map(lambda x: len(x), list))

def wrap_bracket(list):
    return ["{" + string + "}" for string in list]

def padded_join(lists):
    maximums = [max_length(x) for x in lists]
    padded = []
    for max, l in zip(maximums, lists):
        padded += [[x + " " * (max - len(x)) for x in l]]
    padded_transposed = transpose(padded)
    return ["".join(x) for x in padded_transposed]

@dataclass
class Map:
    first_type: str
    second_type: str
    first_name: str
    second_name: str
    reverse: bool
    formats: list[str]
    data: dict

    F_DECL = "static constexpr std::pair<{0}, {1}> {2}_builtin[] {{"
    F_SOA = """static constexpr auto {0}_std = utility::array_builtin_to_std({0}_builtin);
static constexpr auto {0} = utility::map_to_soa({0}_std);"""
    F_FUNC_DECL = "[[nodiscard]] std::optional<{0}> {4}{1}_to_{2}({3} {1}) noexcept"
    F_FUNC_BODY_FORWARD = "        return utility::soa_first_to_second({0}, {1});"
    F_FUNC_BODY_REVERSE = "        return utility::soa_second_to_first({0}, {1});"

    @property
    def name(self):
        return self.first_name + "_" + self.second_name + "_map"

    @property
    def decl(self):
        return Map.F_DECL.format(self.first_type, self.second_type, self.name)

    @property
    def to_soa(self):
        return Map.F_SOA.format(self.name)

    def _forward_decl(self, namespace=""):
        return Map.F_FUNC_DECL.format(self.second_type, self.first_name, self.second_name, self.first_type, namespace)

    def _reverse_decl(self, namespace=""):
        return Map.F_FUNC_DECL.format(self.first_type, self.second_name, self.first_name, self.second_type, namespace)

    @property
    def forward_decl(self):
        return self._forward_decl()

    @property
    def reverse_decl(self):
        return self._reverse_decl()

    @property
    def func_decls(self):
        decls = [self.forward_decl] + ([self.reverse_decl] if self.reverse else [])
        return "\n".join(decls)

    @property
    def forward_func(self):
        return self._forward_decl(NS) + "\n{\n" + Map.F_FUNC_BODY_FORWARD.format(self.name, self.first_name) + "\n}"

    @property
    def reverse_func(self):
        return self._reverse_decl(NS) + "\n{\n" + Map.F_FUNC_BODY_REVERSE.format(self.name, self.second_name) + "\n}"

    @property
    def funcs(self):
        f = [self.forward_func] + ([self.reverse_func] if self.reverse else [])
        return "\n".join(f)

    def data_to_list(self, data):
        parts = []
        for format in self.formats:
            parts += [[format.format(*x) for x in data]]
        return indented_block(wrap_bracket(padded_join(parts)))

    @property
    def lut(self):
        parts = [self.decl, self.data_to_list(self.data), LAST]
        return "\n".join(parts)


def add_extra(data):
    grup = {"fourcc": "GRUP", "name": "Group", "flags": []}
    note = {"fourcc": "NOTE", "name": "Note", "flags": []}
    data += [grup, note]
    data.sort(key=lambda x: x["fourcc"])


# read in our data sets
fdir = os.path.dirname(__file__)

with open(os.path.join(fdir, "records.json"), "r") as f:
    record_data = json.load(f)
    add_extra(record_data)

with open(os.path.join(fdir, "refr_flags.json"), "r") as f:
    refr_data = json.load(f)

with open(os.path.join(fdir, "group_type.json"), "r") as f:
    group_type_data = json.load(f)


# create our maps
group_name_map = Map(
    first_type  = "GroupType",
    second_type = SV,
    first_name  = "group_type",
    second_name = "name",
    reverse = False,
    formats = ["GroupType::{0}", ", \"{1}\""],
    data    = [(x['type'], x['name']) for x in group_type_data]
)
record_name_map = Map(
    first_type  = "RecordType",
    second_type = SV,
    first_name  = "record_type",
    second_name = "name",
    reverse = False,
    formats = ["RecordType::{0}", ", \"{1}\""],
    data    = [(x['fourcc'], x['name']) for x in record_data]
)
record_fourcc_map = Map(
    first_type  = "RecordType",
    second_type = "FourCC",
    first_name  = "record_type",
    second_name = "fourcc",
    reverse = True,
    formats = ["RecordType::{0}", ", fourcc_from_cstr(\"{0}\")"],
    data    = [(x['fourcc'], ) for x in record_data]
)
flag_desc_map = Map(
    first_type  = "Flag",
    second_type = SV,
    first_name  = "flag",
    second_name = "description",
    reverse = False,
    formats = ["{{RecordType::{0}, {1:>2}}}", ", \"{2}\""],
    data    = [(x['fourcc'], y['bit'], y['description']) for x in record_data for y in x['flags']]
)
refr_flag_desc_map = Map(
    first_type  = "RefrFlag",
    second_type = SV,
    first_name  = "refr_flag",
    second_name = "description",
    reverse = False,
    formats = ["{{RecordType::{0}, {1:>2}}}", ", \"{2}\""],
    data    = [(x['fourcc'], y['bit'], y['description']) for x in refr_data for y in x['flags']]
)

maps = [group_name_map, record_fourcc_map, record_name_map, flag_desc_map, refr_flag_desc_map]

def gen_enum(data):
    # generate sorted list of signatures
    sigs = [r["fourcc"] for r in data]
    string = "\n".join(("enum class RecordType {", indented_block(sigs), LAST))
    return string

def main():
    lut = [PREAMBLE]
    lut += map(lambda m: m.lut, maps)
    lut += map(lambda m: m.to_soa, maps)
    lut += map(lambda m: m.funcs, maps)
    lut = "\n\n".join(lut)
    with open(os.path.join(fdir, "esx_reader_lut.cpp"), "w") as f:
        f.write(lut)

    header = []
    header += [gen_enum(record_data)]
    header += map(lambda m: m.func_decls, maps)
    header = "\n".join(header)
    with open(os.path.join(fdir, "esx_reader.fragment.hpp"), "w") as f:
        f.write(header)


if __name__ == "__main__":
    main()