print("USAGE: /path/to/lightning.h /path/to/bindings/output.java /path/to/bindings/output.c")
sys.exit(1)
+class TypeInfo:
+ def __init__(self, rust_obj, java_ty, java_fn_ty_arg, c_ty, passed_as_ptr, is_ptr, var_name, arr_len):
+ self.rust_obj = rust_obj
+ self.java_ty = java_ty
+ self.java_fn_ty_arg = java_fn_ty_arg
+ self.c_ty = c_ty
+ self.passed_as_ptr = passed_as_ptr
+ self.is_ptr = is_ptr
+ self.var_name = var_name
+ self.arr_len = arr_len
+
+class ConvInfo:
+ def __init__(self, ty_info, arg_name, arg_conv, arg_conv_name, ret_conv, ret_conv_name):
+ assert(ty_info.c_ty is not None)
+ assert(ty_info.java_ty is not None)
+ assert(arg_name is not None)
+ self.c_ty = ty_info.c_ty
+ self.java_ty = ty_info.java_ty
+ self.java_fn_ty_arg = ty_info.java_fn_ty_arg
+ self.arg_name = arg_name
+ self.arg_conv = arg_conv
+ self.arg_conv_name = arg_conv_name
+ self.ret_conv = ret_conv
+ self.ret_conv_name = ret_conv_name
+
+ def print_ty(self):
+ out_c.write(self.c_ty)
+ out_java.write(self.java_ty)
+
+ def print_name(self):
+ if self.arg_name != "":
+ out_java.write(" " + self.arg_name)
+ out_c.write(" " + self.arg_name)
+ else:
+ out_java.write(" arg")
+ out_c.write(" arg")
+
with open(sys.argv[1]) as in_h, open(sys.argv[2], "w") as out_java, open(sys.argv[3], "w") as out_c:
opaque_structs = set()
fn_arg = fn_arg.strip()
if fn_arg.startswith("MUST_USE_RES "):
fn_arg = fn_arg[13:]
+ is_const = False
if fn_arg.startswith("const "):
fn_arg = fn_arg[6:]
+ is_const = True
is_ptr = False
take_by_ptr = False
+ rust_obj = None
if fn_arg.startswith("void"):
java_ty = "void"
c_ty = "void"
+ fn_ty_arg = "V"
fn_arg = fn_arg[4:].strip()
elif fn_arg.startswith("bool"):
java_ty = "boolean"
c_ty = "jboolean"
+ fn_ty_arg = "Z"
fn_arg = fn_arg[4:].strip()
elif fn_arg.startswith("uint8_t"):
java_ty = "byte"
c_ty = "jbyte"
+ fn_ty_arg = "B"
fn_arg = fn_arg[7:].strip()
elif fn_arg.startswith("uint16_t"):
java_ty = "short"
c_ty = "jshort"
+ fn_ty_arg = "S"
fn_arg = fn_arg[8:].strip()
elif fn_arg.startswith("uint32_t"):
java_ty = "int"
c_ty = "jint"
+ fn_ty_arg = "I"
fn_arg = fn_arg[8:].strip()
elif fn_arg.startswith("uint64_t"):
java_ty = "long"
c_ty = "jlong"
+ fn_ty_arg = "J"
fn_arg = fn_arg[8:].strip()
+ elif is_const and fn_arg.startswith("char *"):
+ java_ty = "String"
+ c_ty = "const char*"
+ fn_ty_arg = "Ljava/lang/String;"
+ fn_arg = fn_arg[6:].strip()
else:
ma = var_ty_regex.match(fn_arg)
java_ty = "long"
c_ty = "jlong"
+ fn_ty_arg = "J"
fn_arg = ma.group(2).strip()
+ rust_obj = ma.group(1).strip()
take_by_ptr = True
if fn_arg.startswith(" *") or fn_arg.startswith("*"):
var_is_arr = var_is_arr_regex.match(fn_arg)
if var_is_arr is not None or ret_arr_len is not None:
assert(not take_by_ptr)
+ #assert(not passed_as_ptr)
java_ty = java_ty + "[]"
c_ty = c_ty + "Array"
if var_is_arr is not None:
- return (java_ty, c_ty, is_ptr, False, var_is_arr.group(1))
- return (java_ty, c_ty, is_ptr or take_by_ptr, is_ptr, fn_arg)
-
- class TypeInfo:
- def __init__(self, c_ty, java_ty, arg_name, arg_conv, arg_conv_name, ret_conv, ret_conv_name):
- assert(c_ty is not None)
- assert(java_ty is not None)
- assert(arg_name is not None)
- self.c_ty = c_ty
- self.java_ty = java_ty
- self.arg_name = arg_name
- self.arg_conv = arg_conv
- self.arg_conv_name = arg_conv_name
- self.ret_conv = ret_conv
- self.ret_conv_name = ret_conv_name
-
- def print_ty(self):
- out_c.write(self.c_ty)
- out_java.write(self.java_ty)
-
- def print_name(self):
- if self.arg_name != "":
- out_java.write(" " + self.arg_name)
- out_c.write(" " + self.arg_name)
- else:
- out_java.write(" arg")
- out_c.write(" arg")
+ return TypeInfo(rust_obj=None, java_ty=java_ty, java_fn_ty_arg="[" + fn_ty_arg, c_ty=c_ty, passed_as_ptr=is_ptr,
+ is_ptr=False, var_name=var_is_arr.group(1), arr_len=var_is_arr.group(2))
+ return TypeInfo(rust_obj=rust_obj, java_ty=java_ty, java_fn_ty_arg=fn_ty_arg, c_ty=c_ty, passed_as_ptr=is_ptr or take_by_ptr,
+ is_ptr=is_ptr, var_name=fn_arg, arr_len=None)
def map_type(fn_arg, print_void, ret_arr_len, is_free):
- fn_arg = fn_arg.strip()
- if fn_arg.startswith("MUST_USE_RES "):
- fn_arg = fn_arg[13:]
- if fn_arg.startswith("const "):
- fn_arg = fn_arg[6:]
+ ty_info = java_c_types(fn_arg, ret_arr_len)
- (java_ty, c_ty, is_ptr, rust_takes_ptr, var_name) = java_c_types(fn_arg, ret_arr_len)
- is_ptr_to_obj = None
- if fn_arg.startswith("void"):
+ if ty_info.c_ty == "void":
if not print_void:
- return TypeInfo(c_ty = c_ty, java_ty = java_ty, arg_name = var_name,
+ return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name,
arg_conv = None, arg_conv_name = None, ret_conv = None, ret_conv_name = None)
- fn_arg = fn_arg.strip("void ")
- elif not is_ptr:
- split = fn_arg.split(" ", 2)
- if len(split) > 1:
- fn_arg = split[1]
- else:
- fn_arg = ""
- else:
- ma = var_ty_regex.match(fn_arg)
- is_ptr_to_obj = ma.group(1)
- fn_arg = ma.group(2)
- var_is_arr = var_is_arr_regex.match(fn_arg)
- if c_ty.endswith("Array"):
- if var_is_arr is not None:
- arr_name = var_name
- arr_len = var_is_arr.group(2)
+ if ty_info.c_ty.endswith("Array"):
+ arr_len = ty_info.arr_len
+ if arr_len is not None:
+ arr_name = ty_info.var_name
else:
arr_name = "ret"
arr_len = ret_arr_len
- assert(c_ty == "jbyteArray")
- return TypeInfo(c_ty = c_ty, java_ty = java_ty, arg_name = var_name,
+ assert(ty_info.c_ty == "jbyteArray")
+ return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name,
arg_conv = "unsigned char " + arr_name + "_arr[" + arr_len + "];\n" +
"(*_env)->GetByteArrayRegion (_env, """ + arr_name + ", 0, " + arr_len + ", " + arr_name + "_arr);\n" +
"unsigned char (*""" + arr_name + "_ref)[" + arr_len + "] = &" + arr_name + "_arr;",
arg_conv_name = arr_name + "_ref",
- ret_conv = (c_ty + " " + arr_name + "_arr = (*_env)->NewByteArray(_env, " + arr_len + ");\n" +
+ ret_conv = ("jbyteArray " + arr_name + "_arr = (*_env)->NewByteArray(_env, " + arr_len + ");\n" +
"(*_env)->SetByteArrayRegion(_env, " + arr_name + "_arr, 0, " + arr_len + ", *",
");"),
ret_conv_name = arr_name + "_arr")
- elif var_name != "":
+ elif ty_info.var_name != "":
# If we have a parameter name, print it (noting that it may indicate its a pointer)
- if is_ptr_to_obj is not None:
- assert(is_ptr)
- if not rust_takes_ptr:
- base_conv = is_ptr_to_obj + " " + var_name + "_conv = *(" + is_ptr_to_obj + "*)" + var_name + ";\nfree((void*)" + var_name + ");";
- if is_ptr_to_obj in opaque_structs:
- return TypeInfo(c_ty = c_ty, java_ty = java_ty, arg_name = var_name,
- arg_conv = base_conv + "\n" + var_name + "_conv._underlying_ref = false;",
- arg_conv_name = var_name + "_conv",
+ if ty_info.rust_obj is not None:
+ assert(ty_info.passed_as_ptr)
+ if not ty_info.is_ptr:
+ base_conv = ty_info.rust_obj + " " + ty_info.var_name + "_conv = *(" + ty_info.rust_obj + "*)" + ty_info.var_name + ";\nfree((void*)" + ty_info.var_name + ");";
+ if ty_info.rust_obj in opaque_structs:
+ return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name,
+ arg_conv = base_conv + "\n" + ty_info.var_name + "_conv._underlying_ref = false;",
+ arg_conv_name = ty_info.var_name + "_conv",
ret_conv = None, ret_conv_name = None)
- return TypeInfo(c_ty = c_ty, java_ty = java_ty, arg_name = var_name,
- arg_conv = base_conv, arg_conv_name = var_name + "_conv",
+ return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name,
+ arg_conv = base_conv, arg_conv_name = ty_info.var_name + "_conv",
ret_conv = None, ret_conv_name = None)
else:
assert(not is_free)
- return TypeInfo(c_ty = c_ty, java_ty = java_ty, arg_name = var_name,
- arg_conv = is_ptr_to_obj + "* " + var_name + "_conv = (" + is_ptr_to_obj + "*)" + var_name + ";",
- arg_conv_name = var_name + "_conv",
+ return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name,
+ arg_conv = ty_info.rust_obj + "* " + ty_info.var_name + "_conv = (" + ty_info.rust_obj + "*)" + ty_info.var_name + ";",
+ arg_conv_name = ty_info.var_name + "_conv",
ret_conv = None, ret_conv_name = None)
- elif rust_takes_ptr:
- return TypeInfo(c_ty = c_ty, java_ty = java_ty, arg_name = var_name,
- arg_conv = None, arg_conv_name = var_name, ret_conv = None, ret_conv_name = None)
+ elif ty_info.is_ptr:
+ return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name,
+ arg_conv = None, arg_conv_name = ty_info.var_name, ret_conv = None, ret_conv_name = None)
else:
- return TypeInfo(c_ty = c_ty, java_ty = java_ty, arg_name = var_name,
- arg_conv = None, arg_conv_name = var_name, ret_conv = None, ret_conv_name = None)
+ return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name,
+ arg_conv = None, arg_conv_name = ty_info.var_name, ret_conv = None, ret_conv_name = None)
elif not print_void:
# We don't have a parameter name, and want one, just call it arg
- if is_ptr_to_obj is not None:
- assert(not is_free or is_ptr_to_obj not in opaque_structs);
- return TypeInfo(c_ty = c_ty, java_ty = java_ty, arg_name = var_name,
- arg_conv = is_ptr_to_obj + " arg_conv = *(" + is_ptr_to_obj + "*)arg;\nfree((void*)arg);",
+ if ty_info.rust_obj is not None:
+ assert(not is_free or ty_info.rust_obj not in opaque_structs);
+ return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name,
+ arg_conv = ty_info.rust_obj + " arg_conv = *(" + ty_info.rust_obj + "*)arg;\nfree((void*)arg);",
arg_conv_name = "arg_conv",
ret_conv = None, ret_conv_name = None)
else:
assert(not is_free)
- return TypeInfo(c_ty = c_ty, java_ty = java_ty, arg_name = var_name,
+ return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name,
arg_conv = None, arg_conv_name = "arg", ret_conv = None, ret_conv_name = None)
else:
# We don't have a parameter name, and don't want one (cause we're returning)
- if is_ptr_to_obj is not None:
- if not rust_takes_ptr:
- if is_ptr_to_obj in opaque_structs:
+ if ty_info.rust_obj is not None:
+ if not ty_info.is_ptr:
+ if ty_info.rust_obj in opaque_structs:
# If we're returning a newly-allocated struct, we don't want Rust to ever
# free, instead relying on the Java GC to lose the ref. We undo this in
# any _free function.
# To avoid any issues, we first assert that the incoming object is non-ref.
- return TypeInfo(c_ty = c_ty, java_ty = java_ty, arg_name = var_name,
- ret_conv = (is_ptr_to_obj + "* ret = malloc(sizeof(" + is_ptr_to_obj + "));\n*ret = ", ";\nassert(!ret->_underlying_ref);\nret->_underlying_ref = true;"),
+ return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name,
+ ret_conv = (ty_info.rust_obj + "* ret = malloc(sizeof(" + ty_info.rust_obj + "));\n*ret = ", ";\nassert(!ret->_underlying_ref);\nret->_underlying_ref = true;"),
ret_conv_name = "(long)ret",
arg_conv = None, arg_conv_name = None)
else:
- return TypeInfo(c_ty = c_ty, java_ty = java_ty, arg_name = var_name,
- ret_conv = (is_ptr_to_obj + "* ret = malloc(sizeof(" + is_ptr_to_obj + "));\n*ret = ", ";"),
+ return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name,
+ ret_conv = (ty_info.rust_obj + "* ret = malloc(sizeof(" + ty_info.rust_obj + "));\n*ret = ", ";"),
ret_conv_name = "(long)ret",
arg_conv = None, arg_conv_name = None)
else:
- return TypeInfo(c_ty = c_ty, java_ty = java_ty, arg_name = var_name,
+ return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name,
ret_conv = ("long ret = (long)", ";"), ret_conv_name = "ret",
arg_conv = None, arg_conv_name = None)
else:
- return TypeInfo(c_ty = c_ty, java_ty = java_ty, arg_name = var_name,
+ return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name,
arg_conv = None, arg_conv_name = None, ret_conv = None, ret_conv_name = None)
def map_fn(re_match, ret_arr_len):
out_c.write("} " + struct_name + "_JCalls;\n")
out_java.write("\tpublic interface " + struct_name + " {\n")
+ java_meths = []
for fn_line in trait_fn_lines:
+ java_meth_descr = "("
if fn_line.group(2) != "free" and fn_line.group(2) != "clone":
- (java_ty, c_ty, is_ptr, _, _) = java_c_types(fn_line.group(1), None)
+ ret_ty_info = java_c_types(fn_line.group(1), None)
- out_java.write("\t\t " + java_ty + " " + fn_line.group(2) + "(")
+ out_java.write("\t\t " + ret_ty_info.java_ty + " " + fn_line.group(2) + "(")
is_const = fn_line.group(3) is not None
out_c.write(fn_line.group(1) + fn_line.group(2) + "_jcall(")
if is_const:
out_c.write(arg.strip())
out_java.write(arg_conv_info.java_ty + " " + arg_conv_info.arg_name)
arg_names.append(arg_conv_info)
+ java_meth_descr = java_meth_descr + arg_conv_info.java_fn_ty_arg
+ java_meth_descr = java_meth_descr + ")" + ret_ty_info.java_fn_ty_arg
+ java_meths.append(java_meth_descr)
out_java.write(");\n")
out_c.write(") {\n")
out_c.write(arg_info.arg_name)
out_c.write(arg_info.ret_conv[1].replace('\n', '\n\t').replace("_env", "j_calls->env") + "\n")
- if not is_ptr:
- out_c.write("\treturn (*j_calls->env)->Call" + java_ty.title() + "Method(j_calls->env, j_calls->o, j_calls->" + fn_line.group(2) + "_meth")
+ if not ret_ty_info.passed_as_ptr:
+ out_c.write("\treturn (*j_calls->env)->Call" + ret_ty_info.java_ty.title() + "Method(j_calls->env, j_calls->o, j_calls->" + fn_line.group(2) + "_meth")
else:
out_c.write("\t" + fn_line.group(1).strip() + "* ret = (" + fn_line.group(1).strip() + "*)(*j_calls->env)->CallLongMethod(j_calls->env, j_calls->o, j_calls->" + fn_line.group(2) + "_meth");
out_c.write(", " + arg_info.arg_name)
out_c.write(");\n");
- if is_ptr:
+ if ret_ty_info.passed_as_ptr:
out_c.write("\t" + fn_line.group(1).strip() + " res = *ret;\n")
out_c.write("\tfree(ret);\n")
out_c.write("\treturn res;\n")
out_c.write("\t" + struct_name + "_JCalls *calls = malloc(sizeof(" + struct_name + "_JCalls));\n")
out_c.write("\tcalls->env = env;\n")
out_c.write("\tcalls->o = (*env)->NewGlobalRef(env, o);\n")
- for fn_line in trait_fn_lines:
+ for (fn_line, java_meth_descr) in zip(trait_fn_lines, java_meths):
if fn_line.group(2) != "free" and fn_line.group(2) != "clone":
- out_c.write("\tcalls->" + fn_line.group(2) + "_meth = (*env)->GetMethodID(env, c, \"" + fn_line.group(2) + "\", \"" + "TODO" + "\");\n")
+ out_c.write("\tcalls->" + fn_line.group(2) + "_meth = (*env)->GetMethodID(env, c, \"" + fn_line.group(2) + "\", \"" + java_meth_descr + "\");\n")
out_c.write("\tassert(calls->" + fn_line.group(2) + "_meth != NULL);\n")
out_c.write("\n\t" + struct_name + " *ret = malloc(sizeof(" + struct_name + "));\n")
out_c.write("\tret->this_arg = (void*) calls;\n")