v.add "\}"
end
+ # Hook to add specif piece of code before the the main C function.
+ #
+ # Is called by `compile_main_function`
+ fun compile_before_main(v: VISITOR)
+ do
+ end
+
+ # Hook to add specif piece of code at the begin on the main C function.
+ #
+ # Is called by `compile_main_function`
+ fun compile_begin_main(v: VISITOR)
+ do
+ end
+
# Generate the main C function.
#
# This function:
v.add_decl("exit(status);")
v.add_decl("\}")
+ compile_before_main(v)
+
if no_main then
v.add_decl("int nit_main(int argc, char** argv) \{")
else
v.add_decl("int main(int argc, char** argv) \{")
end
+ compile_begin_main(v)
+
v.add "#if !defined(__ANDROID__) && !defined(TARGET_OS_IPHONE)"
v.add("signal(SIGABRT, sig_handler);")
v.add("signal(SIGFPE, sig_handler);")
fun native_array_instance(elttype: MType, length: RuntimeVariable): RuntimeVariable is abstract
- fun calloc_array(ret_type: MType, arguments: Array[RuntimeVariable]) is abstract
-
fun native_array_def(pname: String, ret_type: nullable MType, arguments: Array[RuntimeVariable]): Bool do return false
# Return an element of a native array.
# The method is unsafe and is just a direct wrapper for the specific implementation of native arrays
fun native_array_set(native_array: RuntimeVariable, index: Int, value: RuntimeVariable) is abstract
+ # Allocate `size` bytes with the low_level `nit_alloc` C function
+ #
+ # This method can be redefined to inject statistic or tracing code.
+ #
+ # `tag` if any, is used to mark the class of the allocated object.
+ fun nit_alloc(size: String, tag: nullable String): String
+ do
+ return "nit_alloc({size})"
+ end
+
# Evaluate `args` as expressions in the call of `mpropdef` on `recv`.
# This method is used to manage varargs in signatures and returns the real array
# of runtime variables to use in the call.
var native_mtype = mmodule.native_string_type
var nat = self.new_var(native_mtype)
self.add("{nat} = \"{string.escape_to_c}\";")
- var bytelen = self.int_instance(string.bytelen)
+ var byte_length = self.int_instance(string.byte_length)
var unilen = self.int_instance(string.length)
- self.add("{res} = {self.send(self.get_property("to_s_full", native_mtype), [nat, bytelen, unilen]).as(not null)};")
+ self.add("{res} = {self.send(self.get_property("to_s_full", native_mtype), [nat, byte_length, unilen]).as(not null)};")
self.add("{name} = {res};")
self.add("\}")
return res
v.ret(v.new_expr("!{res}", ret.as(not null)))
return true
else if pname == "new" then
- v.ret(v.new_expr("(char*)nit_alloc({arguments[1]})", ret.as(not null)))
+ var alloc = v.nit_alloc(arguments[1].to_s, "NativeString")
+ v.ret(v.new_expr("(char*){alloc}", ret.as(not null)))
return true
else if pname == "fetch_4_chars" then
v.ret(v.new_expr("(long)*((uint32_t*)({arguments[0]} + {arguments[1]}))", ret.as(not null)))
else if pname == "sys" then
v.ret(v.new_expr("glob_sys", ret.as(not null)))
return true
- else if pname == "calloc_string" then
- v.ret(v.new_expr("(char*)nit_alloc({arguments[1]})", ret.as(not null)))
- return true
- else if pname == "calloc_array" then
- v.calloc_array(ret.as(not null), arguments)
- return true
else if pname == "object_id" then
v.ret(v.new_expr("(long){arguments.first}", ret.as(not null)))
return true
fun init_expr(v: AbstractCompilerVisitor, recv: RuntimeVariable)
do
- if has_value and not is_lazy and not n_expr isa ANullExpr then evaluate_expr(v, recv)
+ if has_value and not is_lazy and not is_optional and not n_expr isa ANullExpr then evaluate_expr(v, recv)
end
# Evaluate, store and return the default value of the attribute