Protocol Buffers - Google's data interchange format (grpc依赖) https://developers.google.com/protocol-buffers/
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--[[
Routines for dumping internal data structures into C initializers
that can be compiled into a .o file.
--]]
Changes to Lua module loading, and file generation. This change has several parts: 1. Resurrected tools/upbc. The code was all there but the build was broken for open-source. Now you can type "make tools/upbc" and it will build all necessary Lua modules and create a robust shell script for running upbc. 2. Changed Lua module loading to no longer rely on OS-level .so dependencies. The net effect of this is that you now only need to set LUA_PATH and LUA_CPATH; setting LD_LIBRARY_PATH or rpaths is no longer required. Downside: this drops compatibility with Lua 5.1, since it depends on a feature that only exists in Lua >=5.2 (and LuaJIT). 3. Since upbc works again, I fixed the re-generation of the descriptor files (descriptor.upb.h, descriptor.upb.c). "make genfiles" will re-generate these as well as the JIT code generator. 4. Added a Travis test target that ensures that the checked-in generated files are not out of date. I would do this for the Ragel generated file also, but we can't count on all versions of Ragel to necessarily generate identical output. 5. Changed Makefile to no longer automatically run Ragel to regenerate the JSON parser. This is unfortuante, because it's convenient when you're developing the JSON parser. However, "git clone" sometimes skews the timestamps a little bit so that "make" thinks it needs to regenerate these files for a fresh "git clone." This would normally be harmless, but if the user doesn't have Ragel installed, it makes the build fail completely. So now you have to explicitly regenerate the Ragel output. If you want to you can uncomment the auto-generation during development.
10 years ago
local upbtable = require "upb.table"
local upb = require "upb"
local export = {}
-- A tiny little abstraction that decouples the dump_* functions from
-- what they're writing to (appending to a string, writing to file I/O, etc).
-- This could possibly matter since naive string building is O(n^2) in the
-- number of appends.
function export.str_appender()
local str = ""
local function append(fmt, ...)
str = str .. string.format(fmt, ...)
end
local function get()
return str
end
return append, get
end
function export.file_appender(file)
local f = file
local function append(fmt, ...)
f:write(string.format(fmt, ...))
end
return append
end
function handler_types(base)
local ret = {}
for k, _ in pairs(base) do
if string.find(k, "^" .. "HANDLER_") then
ret[#ret + 1] = k
end
end
return ret
end
function octchar(num)
assert(num < 8)
local idx = num + 1 -- 1-based index
return string.sub("01234567", idx, idx)
end
function c_escape(num)
assert(num < 256)
return string.format("\\%s%s%s",
octchar(math.floor(num / 64)),
octchar(math.floor(num / 8) % 8),
octchar(num % 8));
end
-- const(f, label) -> UPB_LABEL_REPEATED, where f:label() == upb.LABEL_REPEATED
function const(obj, name, base)
local val = obj[name]
base = base or upb
-- Support both f:label() and f.label.
if type(val) == "function" then
val = val(obj)
end
for k, v in pairs(base) do
if v == val and string.find(k, "^" .. string.upper(name)) then
return "UPB_" .. k
end
end
assert(false, "Couldn't find UPB_" .. string.upper(name) ..
" constant for value: " .. val)
end
function sortedkeys(tab)
arr = {}
for key in pairs(tab) do
arr[#arr + 1] = key
end
table.sort(arr)
return arr
end
function sorted_defs(defs)
local sorted = {}
for def in defs do
if def.type == deftype then
sorted[#sorted + 1] = def
end
end
table.sort(sorted,
function(a, b) return a:full_name() < b:full_name() end)
return sorted
end
function constlist(pattern)
local ret = {}
for k, v in pairs(upb) do
if string.find(k, "^" .. pattern) then
ret[k] = v
end
end
return ret
end
function boolstr(val)
if val == true then
return "true"
elseif val == false then
return "false"
else
assert(false, "Bad bool value: " .. tostring(val))
end
end
--[[
LinkTable: an object that tracks all linkable objects and their offsets to
facilitate linking.
--]]
local LinkTable = {}
function LinkTable:new(types)
local linktab = {
types = types,
table = {}, -- ptr -> {type, 0-based offset}
obj_arrays = {} -- Establishes the ordering for each object type
}
for type, _ in pairs(types) do
linktab.obj_arrays[type] = {}
end
setmetatable(linktab, {__index = LinkTable}) -- Inheritance
return linktab
end
-- Adds a new object to the sequence of objects of this type.
function LinkTable:add(objtype, ptr, obj)
obj = obj or ptr
assert(self.table[obj] == nil)
assert(self.types[objtype])
local arr = self.obj_arrays[objtype]
self.table[ptr] = {objtype, #arr}
arr[#arr + 1] = obj
end
-- Returns a C symbol name for the given objtype and offset.
function LinkTable:csym(objtype, offset)
local typestr = assert(self.types[objtype])
return string.format("%s[%d]", typestr, offset)
end
-- Returns the address of the given C object.
function LinkTable:addr(obj)
if obj == upbtable.NULL then
return "NULL"
else
local tabent = assert(self.table[obj], "unknown object: " .. tostring(obj))
return "&" .. self:csym(tabent[1], tabent[2])
end
end
-- Returns an array declarator indicating how many objects have been added.
function LinkTable:cdecl(objtype)
return self:csym(objtype, #self.obj_arrays[objtype])
end
function LinkTable:objs(objtype)
-- Return iterator function, allowing use as:
-- for obj in linktable:objs(type) do
-- -- ...
-- done
local array = self.obj_arrays[objtype]
local i = 0
return function()
i = i + 1
if array[i] then return array[i] end
end
end
function LinkTable:empty(objtype)
return #self.obj_arrays[objtype] == 0
end
--[[
Dumper: an object that can dump C initializers for several constructs.
Uses a LinkTable to resolve references when necessary.
--]]
local Dumper = {}
function Dumper:new(linktab)
local obj = {linktab = linktab}
setmetatable(obj, {__index = Dumper}) -- Inheritance
return obj
end
-- Dumps a upb_tabval, eg:
-- UPB_TABVALUE_INIT(5)
function Dumper:_value(val, upbtype)
if type(val) == "nil" then
return "UPB_TABVALUE_EMPTY_INIT"
elseif type(val) == "number" then
-- Use upbtype to disambiguate what kind of number it is.
if upbtype == upbtable.CTYPE_INT32 then
return string.format("UPB_TABVALUE_INT_INIT(%d)", val)
else
-- TODO(haberman): add support for these so we can properly support
-- default values.
error("Unsupported number type " .. upbtype)
end
elseif type(val) == "string" then
return string.format('UPB_TABVALUE_PTR_INIT("%s")', val)
else
-- We take this as an object reference that has an entry in the link table.
return string.format("UPB_TABVALUE_PTR_INIT(%s)", self.linktab:addr(val))
end
end
-- Dumps a table key.
function Dumper:tabkey(key)
if type(key) == "nil" then
return "UPB_TABKEY_NONE"
elseif type(key) == "string" then
local len = #key
local len1 = c_escape(len % 256)
local len2 = c_escape(math.floor(len / 256) % 256)
local len3 = c_escape(math.floor(len / (256 * 256)) % 256)
local len4 = c_escape(math.floor(len / (256 * 256 * 256)) % 256)
return string.format('UPB_TABKEY_STR("%s", "%s", "%s", "%s", "%s")',
len1, len2, len3, len4, key)
else
return string.format("UPB_TABKEY_NUM(%d)", key)
end
end
-- Dumps a table entry.
function Dumper:tabent(ent)
local key = self:tabkey(ent.key)
local val = self:_value(ent.value, ent.valtype)
local next = self.linktab:addr(ent.next)
return string.format(' {%s, %s, %s},\n', key, val, next)
end
-- Dumps an inttable array entry. This is almost the same as value() above,
-- except that nil values have a special value to indicate "empty".
function Dumper:arrayval(val)
if val.val then
return string.format(" %s,\n", self:_value(val.val, val.valtype))
else
return " UPB_TABVALUE_EMPTY_INIT,\n"
end
end
-- Dumps an initializer for the given strtable/inttable (respectively). Its
-- entries must have previously been added to the linktable.
function Dumper:strtable(t)
-- UPB_STRTABLE_INIT(count, mask, type, size_lg2, entries)
return string.format(
"UPB_STRTABLE_INIT(%d, %d, %s, %d, %s)",
t.count, t.mask, const(t, "ctype", upbtable) , t.size_lg2,
self.linktab:addr(t.entries[1].ptr))
end
function Dumper:inttable(t)
local lt = assert(self.linktab)
-- UPB_INTTABLE_INIT(count, mask, type, size_lg2, ent, a, asize, acount)
local entries = "NULL"
if #t.entries > 0 then
entries = lt:addr(t.entries[1].ptr)
end
return string.format(
"UPB_INTTABLE_INIT(%d, %d, %s, %d, %s, %s, %d, %d)",
t.count, t.mask, const(t, "ctype", upbtable), t.size_lg2, entries,
lt:addr(t.array[1].ptr), t.array_size, t.array_count)
end
-- A visitor for visiting all tables of a def. Used first to count entries
-- and later to dump them.
local function gettables(def)
if def:def_type() == upb.DEF_MSG then
return {int = upbtable.msgdef_itof(def), str = upbtable.msgdef_ntof(def)}
elseif def:def_type() == upb.DEF_ENUM then
return {int = upbtable.enumdef_iton(def), str = upbtable.enumdef_ntoi(def)}
end
end
local function emit_file_warning(filedef, append)
append('/* This file was generated by upbc (the upb compiler) from the input\n')
append(' * file:\n')
append(' *\n')
append(' * %s\n', filedef:name())
append(' *\n')
append(' * Do not edit -- your changes will be discarded when the file is\n')
append(' * regenerated. */\n\n')
end
local function join(...)
return table.concat({...}, ".")
end
local function split(str)
local ret = {}
for word in string.gmatch(str, "%w+") do
table.insert(ret, word)
end
return ret
end
local function to_cident(...)
return string.gsub(join(...), "[%./]", "_")
end
local function to_preproc(...)
return string.upper(to_cident(...))
end
-- Strips away last path element, ie:
-- foo.Bar.Baz -> foo.Bar
local function remove_name(name)
local package_end = 0
for i=1,string.len(name) do
if string.byte(name, i) == string.byte(".", 1) then
package_end = i - 1
end
end
return string.sub(name, 1, package_end)
end
local function start_namespace(package, append)
local package_components = split(package)
for _, component in ipairs(package_components) do
append("namespace %s {\n", component)
end
end
local function end_namespace(package, append)
local package_components = split(package)
for i=#package_components,1,-1 do
append("} /* namespace %s */\n", package_components[i])
end
end
--[[
Top-level, exported dumper functions
--]]
local function dump_defs_c(filedef, append)
local defs = {}
for def in filedef:defs(upb.DEF_ANY) do
defs[#defs + 1] = def
if (def:def_type() == upb.DEF_MSG) then
for field in def:fields() do
defs[#defs + 1] = field
end
end
end
-- Sort all defs by (type, name).
-- This gives us a linear ordering that we can use to create offsets into
-- shared arrays like REFTABLES, hash table entries, and arrays.
table.sort(defs, function(a, b)
if a:def_type() ~= b:def_type() then
return a:def_type() < b:def_type()
else
return a:full_name() < b:full_name() end
end
)
-- Perform pre-pass to build the link table.
local linktab = LinkTable:new{
[upb.DEF_MSG] = "msgs",
[upb.DEF_FIELD] = "fields",
[upb.DEF_ENUM] = "enums",
intentries = "intentries",
strentries = "strentries",
arrays = "arrays",
}
local reftable_count = 0
for _, def in ipairs(defs) do
assert(def:is_frozen(), "can only dump frozen defs.")
linktab:add(def:def_type(), def)
reftable_count = reftable_count + 2
local tables = gettables(def)
if tables then
for _, e in ipairs(tables.str.entries) do
linktab:add("strentries", e.ptr, e)
end
for _, e in ipairs(tables.int.entries) do
linktab:add("intentries", e.ptr, e)
end
for _, e in ipairs(tables.int.array) do
linktab:add("arrays", e.ptr, e)
end
end
end
-- Emit forward declarations.
emit_file_warning(filedef, append)
append('#include <assert.h>\n\n')
append('#include "upb/def.h"\n')
append('#include "upb/structdefs.int.h"\n\n')
append("static const upb_msgdef %s;\n", linktab:cdecl(upb.DEF_MSG))
append("static const upb_fielddef %s;\n", linktab:cdecl(upb.DEF_FIELD))
if not linktab:empty(upb.DEF_ENUM) then
append("static const upb_enumdef %s;\n", linktab:cdecl(upb.DEF_ENUM))
end
append("static const upb_tabent %s;\n", linktab:cdecl("strentries"))
if not linktab:empty("intentries") then
append("static const upb_tabent %s;\n", linktab:cdecl("intentries"))
end
append("static const upb_tabval %s;\n", linktab:cdecl("arrays"))
append("\n")
append("#ifdef UPB_DEBUG_REFS\n")
append("static upb_inttable reftables[%d];\n", reftable_count)
append("#endif\n")
append("\n")
-- Emit defs.
local dumper = Dumper:new(linktab)
local reftable = 0
append("static const upb_msgdef %s = {\n", linktab:cdecl(upb.DEF_MSG))
for m in linktab:objs(upb.DEF_MSG) do
local tables = gettables(m)
-- UPB_MSGDEF_INIT(name, selector_count, submsg_field_count, itof, ntof,
-- refs, ref2s)
append(' UPB_MSGDEF_INIT("%s", %d, %d, %s, %s, %s, %s,' ..
' &reftables[%d], &reftables[%d]),\n',
m:full_name(),
upbtable.msgdef_selector_count(m),
upbtable.msgdef_submsg_field_count(m),
dumper:inttable(tables.int),
dumper:strtable(tables.str),
boolstr(m:_map_entry()),
const(m, "syntax"),
reftable, reftable + 1)
reftable = reftable + 2
end
append("};\n\n")
append("static const upb_fielddef %s = {\n", linktab:cdecl(upb.DEF_FIELD))
for f in linktab:objs(upb.DEF_FIELD) do
local subdef = "NULL"
if f:has_subdef() then
subdef = string.format("(const upb_def*)(%s)", linktab:addr(f:subdef()))
end
local intfmt
if f:type() == upb.TYPE_UINT32 or
f:type() == upb.TYPE_INT32 or
f:type() == upb.TYPE_UINT64 or
f:type() == upb.TYPE_INT64 then
intfmt = const(f, "intfmt")
else
intfmt = "0"
end
-- UPB_FIELDDEF_INIT(label, type, intfmt, tagdelim, is_extension, lazy,
-- packed, name, num, msgdef, subdef, selector_base,
-- index, -- default_value)
append(' UPB_FIELDDEF_INIT(%s, %s, %s, %s, %s, %s, %s, "%s", %d, %s, ' ..
'%s, %d, %d, {0},' .. -- TODO: support default value
'&reftables[%d], &reftables[%d]),\n',
const(f, "label"), const(f, "type"), intfmt,
boolstr(f:istagdelim()), boolstr(f:is_extension()),
boolstr(f:lazy()), boolstr(f:packed()), f:name(), f:number(),
linktab:addr(f:containing_type()), subdef,
upbtable.fielddef_selector_base(f), f:index(),
reftable, reftable + 1
)
reftable = reftable + 2
end
append("};\n\n")
if not linktab:empty(upb.DEF_ENUM) then
append("static const upb_enumdef %s = {\n", linktab:cdecl(upb.DEF_ENUM))
for e in linktab:objs(upb.DEF_ENUM) do
local tables = gettables(e)
-- UPB_ENUMDEF_INIT(name, ntoi, iton, defaultval)
append(' UPB_ENUMDEF_INIT("%s", %s, %s, %d, ' ..
'&reftables[%d], &reftables[%d]),\n',
e:full_name(),
dumper:strtable(tables.str),
dumper:inttable(tables.int),
--e:default())
0,
reftable, reftable + 1)
reftable = reftable + 2
end
append("};\n\n")
end
append("static const upb_tabent %s = {\n", linktab:cdecl("strentries"))
for ent in linktab:objs("strentries") do
append(dumper:tabent(ent))
end
append("};\n\n");
if not linktab:empty("intentries") then
append("static const upb_tabent %s = {\n", linktab:cdecl("intentries"))
for ent in linktab:objs("intentries") do
append(dumper:tabent(ent))
end
append("};\n\n");
end
append("static const upb_tabval %s = {\n", linktab:cdecl("arrays"))
for ent in linktab:objs("arrays") do
append(dumper:arrayval(ent))
end
append("};\n\n");
append("#ifdef UPB_DEBUG_REFS\n")
append("static upb_inttable reftables[%d] = {\n", reftable_count)
for i = 1,reftable_count do
append(" UPB_EMPTY_INTTABLE_INIT(UPB_CTYPE_PTR),\n")
end
append("};\n")
append("#endif\n\n")
append("static const upb_msgdef *refm(const upb_msgdef *m, const void *owner) {\n")
append(" upb_msgdef_ref(m, owner);\n")
append(" return m;\n")
append("}\n\n")
append("static const upb_enumdef *refe(const upb_enumdef *e, const void *owner) {\n")
append(" upb_enumdef_ref(e, owner);\n")
append(" return e;\n")
append("}\n\n")
append("/* Public API. */\n")
for m in linktab:objs(upb.DEF_MSG) do
append("const upb_msgdef *upbdefs_%s_get(const void *owner)" ..
" { return refm(%s, owner); }\n",
to_cident(m:full_name()), linktab:addr(m))
end
append("\n")
for e in linktab:objs(upb.DEF_ENUM) do
append("const upb_enumdef *upbdefs_%s_get(const void *owner)" ..
" { return refe(%s, owner); }\n",
to_cident(e:full_name()), linktab:addr(e))
end
return linktab
end
local function dump_defs_for_type(format, defs, append)
local sorted = sorted_defs(defs)
for _, def in ipairs(sorted) do
append(format, to_cident(def:full_name()), def:full_name())
end
append("\n")
end
local function make_children_map(file)
-- Maps file:package() or msg:full_name() -> children.
local map = {}
for def in file:defs(upb.DEF_ANY) do
local container = remove_name(def:full_name())
if not map[container] then
map[container] = {}
end
table.insert(map[container], def)
end
-- Sort all the lists for a consistent ordering.
for name, children in pairs(map) do
table.sort(children, function(a, b) return a:name() < b:name() end)
end
return map
end
local function dump_enum_vals(enumdef, append)
local enum_vals = {}
for k, v in enumdef:values() do
enum_vals[#enum_vals + 1] = {k, v}
end
table.sort(enum_vals, function(a, b) return a[2] < b[2] end)
-- protobuf convention is that enum values are scoped at the level of the
-- enum itself, to follow C++. Ie, if you have the enum:
-- message Foo {
-- enum E {
-- VAL1 = 1;
-- VAL2 = 2;
-- }
-- }
--
-- The name of VAL1 is Foo.VAL1, not Foo.E.VAL1.
--
-- This seems a bit sketchy, but people often name their enum values
-- accordingly, ie:
--
-- enum Foo {
-- FOO_VAL1 = 1;
-- FOO_VAL2 = 2;
-- }
--
-- So if we don't respect this also, we end up with constants that look like:
--
-- GOOGLE_PROTOBUF_FIELDDESCRIPTORPROTO_TYPE_TYPE_DOUBLE = 1
--
-- (notice the duplicated "TYPE").
local cident = to_cident(remove_name(enumdef:full_name()))
for i, pair in ipairs(enum_vals) do
k, v = pair[1], pair[2]
append(' %s = %d', cident .. "_" .. k, v)
if i == #enum_vals then
append('\n')
else
append(',\n')
end
end
end
local print_classes
local function print_message(def, map, indent, append)
append("\n")
append("%sclass %s : public ::upb::reffed_ptr<const ::upb::MessageDef> {\n",
indent, def:name())
append("%s public:\n", indent)
append("%s %s(const ::upb::MessageDef* m, const void *ref_donor = NULL)\n",
indent, def:name())
append("%s : reffed_ptr(m, ref_donor) {\n", indent)
append("%s assert(upbdefs_%s_is(m));\n", indent, to_cident(def:full_name()))
append("%s }\n", indent)
append("\n")
append("%s static %s get() {\n", indent, def:name())
append("%s const ::upb::MessageDef* m = upbdefs_%s_get(&m);\n", indent, to_cident(def:full_name()))
append("%s return %s(m, &m);\n", indent, def:name())
append("%s }\n", indent)
-- TODO(haberman): add fields
print_classes(def:full_name(), map, indent .. " ", append)
append("%s};\n", indent)
end
local function print_enum(def, indent, append)
append("\n")
append("%sclass %s : public ::upb::reffed_ptr<const ::upb::EnumDef> {\n",
indent, def:name())
append("%s public:\n", indent)
append("%s %s(const ::upb::EnumDef* e, const void *ref_donor = NULL)\n",
indent, def:name())
append("%s : reffed_ptr(e, ref_donor) {\n", indent)
append("%s assert(upbdefs_%s_is(e));\n", indent, to_cident(def:full_name()))
append("%s }\n", indent)
append("%s static %s get() {\n", indent, def:name())
append("%s const ::upb::EnumDef* e = upbdefs_%s_get(&e);\n", indent, to_cident(def:full_name()))
append("%s return %s(e, &e);\n", indent, def:name())
append("%s }\n", indent)
append("%s};\n", indent)
end
function print_classes(name, map, indent, append)
if not map[name] then
return
end
for _, def in ipairs(map[name]) do
if def:def_type() == upb.DEF_MSG then
print_message(def, map, indent, append)
elseif def:def_type() == upb.DEF_ENUM then
print_enum(def, indent, append)
else
error("Unknown def type for " .. def:full_name())
end
end
end
local function dump_defs_h(file, append, linktab)
local basename_preproc = to_preproc(file:name())
append("/* This file contains accessors for a set of compiled-in defs.\n")
append(" * Note that unlike Google's protobuf, it does *not* define\n")
append(" * generated classes or any other kind of data structure for\n")
append(" * actually storing protobufs. It only contains *defs* which\n")
append(" * let you reflect over a protobuf *schema*.\n")
append(" */\n")
emit_file_warning(file, append)
append('#ifndef %s_UPB_H_\n', basename_preproc)
append('#define %s_UPB_H_\n\n', basename_preproc)
append('#include "upb/def.h"\n\n')
append('UPB_BEGIN_EXTERN_C\n\n')
-- Dump C enums for proto enums.
append("/* Enums */\n\n")
for _, def in ipairs(sorted_defs(file:defs(upb.DEF_ENUM))) do
local cident = to_cident(def:full_name())
append('typedef enum {\n')
dump_enum_vals(def, append)
append('} %s;\n\n', cident)
end
append("/* MessageDefs: call these functions to get a ref to a msgdef. */\n")
dump_defs_for_type(
"const upb_msgdef *upbdefs_%s_get(const void *owner);\n",
file:defs(upb.DEF_MSG), append)
append("/* EnumDefs: call these functions to get a ref to an enumdef. */\n")
dump_defs_for_type(
"const upb_enumdef *upbdefs_%s_get(const void *owner);\n",
file:defs(upb.DEF_ENUM), append)
append("/* Functions to test whether this message is of a certain type. */\n")
dump_defs_for_type(
"UPB_INLINE bool upbdefs_%s_is(const upb_msgdef *m) {\n" ..
" return strcmp(upb_msgdef_fullname(m), \"%s\") == 0;\n}\n",
file:defs(upb.DEF_MSG), append)
append("/* Functions to test whether this enum is of a certain type. */\n")
dump_defs_for_type(
"UPB_INLINE bool upbdefs_%s_is(const upb_enumdef *e) {\n" ..
" return strcmp(upb_enumdef_fullname(e), \"%s\") == 0;\n}\n",
file:defs(upb.DEF_ENUM), append)
append("\n")
-- fields
local fields = {}
for f in linktab:objs(upb.DEF_FIELD) do
local symname = f:containing_type():full_name() .. "." .. f:name()
fields[#fields + 1] = {to_cident(symname), f}
end
table.sort(fields, function(a, b) return a[1] < b[1] end)
append("/* Functions to get a fielddef from a msgdef reference. */\n")
for _, field in ipairs(fields) do
local f = field[2]
local msg_cident = to_cident(f:containing_type():full_name())
local field_cident = to_cident(f:name())
append("UPB_INLINE const upb_fielddef *upbdefs_%s_f_%s(const upb_msgdef *m) {" ..
" assert(upbdefs_%s_is(m));" ..
" return upb_msgdef_itof(m, %d); }\n",
msg_cident, field_cident, msg_cident, f:number())
end
append('\nUPB_END_EXTERN_C\n\n')
-- C++ wrappers.
local children_map = make_children_map(file)
append("#ifdef __cplusplus\n\n")
append("namespace upbdefs {\n")
start_namespace(file:package(), append)
print_classes(file:package(), children_map, "", append)
append("\n")
end_namespace(file:package(), append)
append("} /* namespace upbdefs */\n\n")
append("#endif /* __cplusplus */\n")
append("\n")
append('#endif /* %s_UPB_H_ */\n', basename_preproc)
end
function export.dump_defs(filedef, append_h, append_c)
local linktab = dump_defs_c(filedef, append_c)
dump_defs_h(filedef, append_h, linktab)
end
return export