uint32_t = ['int'],
uint64_t = ['long'],
)
+ self.java_type_map = dict(
+ String = "String"
+ )
+ self.java_hu_type_map = dict(
+ String = "String"
+ )
self.to_hu_conv_templates = dict(
ptr = '{human_type} {var_name}_hu_conv = null; if ({var_name} < 0 || {var_name} > 4096) { {var_name}_hu_conv = new {human_type}(null, {var_name}); }',
return arr_name + " != null ? Arrays.stream(" + arr_name + ").mapToLong(" + conv_name + " -> " + elem_ty.from_hu_conv[0] + ").toArray() : null"
elif elem_ty.java_ty == "long":
return arr_name + " != null ? Arrays.stream(" + arr_name + ").map(" + conv_name + " -> " + elem_ty.from_hu_conv[0] + ").toArray() : null"
+ elif elem_ty.java_hu_ty == "UInt5":
+ return arr_name + " != null ? InternalUtils.convUInt5Array(" + arr_name + ") : null"
else:
return arr_name + " != null ? Arrays.stream(" + arr_name + ").map(" + conv_name + " -> " + elem_ty.from_hu_conv[0] + ").toArray(" + arr_ty.java_ty + "::new) : null"
return "str_ref_to_java(env, " + var_name + ", " + str_len + ")"
def str_ref_to_c_call(self, var_name):
return "java_to_owned_str(env, " + var_name + ")"
+ def str_to_hu_conv(self, var_name):
+ return None
+ def str_from_hu_conv(self, var_name):
+ return None
def c_fn_name_define_pfx(self, fn_name, has_args):
if has_args:
def var_decl_statement(self, ty_string, var_name, statement):
return ty_string + " " + var_name + " = " + statement
+ def get_java_arr_len(self, arr_name):
+ return arr_name + ".length"
+ def get_java_arr_elem(self, elem_ty, arr_name, idx):
+ return arr_name + "[" + idx + "]"
def constr_hu_array(self, ty_info, arr_len):
base_ty = ty_info.subty.java_hu_ty.split("[")[0].split("<")[0]
conv = "new " + base_ty + "[" + arr_len + "]"
# Do a bit of a dance to move any excess [] to the end
conv += "[" + ty_info.subty.java_hu_ty.split("<")[0].split("[")[1]
return conv
+ def cleanup_converted_native_array(self, ty_info, arr_name):
+ return None
+
+ def primitive_arr_from_hu(self, mapped_ty, fixed_len, arr_name):
+ if fixed_len is not None:
+ return ("InternalUtils.check_arr_len(" + arr_name + ", " + fixed_len + ")", "")
+ return None
+ def primitive_arr_to_hu(self, primitive_ty, fixed_len, arr_name, conv_name):
+ return None
+
+ def java_arr_ty_str(self, elem_ty_str):
+ return elem_ty_str + "[]"
def for_n_in_range(self, n, minimum, maximum):
return "for (int " + n + " = " + minimum + "; " + n + " < " + maximum + "; " + n + "++) {"
else:
java_trait_constr = java_trait_constr + arg_info.arg_name
- java_trait_constr = java_trait_constr + ");\n"
+ java_trait_constr += ");\n"
+ java_trait_constr += "\t\t\t\tReference.reachabilityFence(arg);\n"
if fn_line.ret_ty_info.java_ty != "void":
if fn_line.ret_ty_info.from_hu_conv is not None:
java_trait_constr = java_trait_constr + "\t\t\t\t" + fn_line.ret_ty_info.java_ty + " result = " + fn_line.ret_ty_info.from_hu_conv[0] + ";\n"
out_c = out_c + "\t" + fn_line.ret_ty_info.c_ty + " ret = (*env)->CallObjectMethod(env, obj, j_calls->" + fn_line.fn_name + "_meth"
elif fn_line.ret_ty_info.c_ty == "void":
out_c += "\t(*env)->Call" + fn_line.ret_ty_info.java_ty.title() + "Method(env, obj, j_calls->" + fn_line.fn_name + "_meth"
- elif fn_line.ret_ty_info.java_ty == "String":
+ elif fn_line.ret_ty_info.java_hu_ty == "String":
# Manually write out String methods as they're just an Object
out_c += "\t" + fn_line.ret_ty_info.c_ty + " ret = (*env)->CallObjectMethod(env, obj, j_calls->" + fn_line.fn_name + "_meth"
elif not fn_line.ret_ty_info.passed_as_ptr: