From: Jean Privat Date: Sun, 15 Mar 2015 15:02:00 +0000 (+0700) Subject: sepcomp: implement tagging of primitive types X-Git-Tag: v0.7.3~24^2~3 X-Git-Url: http://nitlanguage.org sepcomp: implement tagging of primitive types Signed-off-by: Jean Privat --- diff --git a/src/compiler/separate_compiler.nit b/src/compiler/separate_compiler.nit index e502be9..f62d733 100644 --- a/src/compiler/separate_compiler.nit +++ b/src/compiler/separate_compiler.nit @@ -29,6 +29,8 @@ redef class ToolContext var opt_no_union_attribute = new OptionBool("Put primitive attibutes in a box instead of an union", "--no-union-attribute") # --no-shortcut-equate var opt_no_shortcut_equate = new OptionBool("Always call == in a polymorphic way", "--no-shortcut-equal") + # --no-tag-primitives + var opt_no_tag_primitives = new OptionBool("Use only boxes for primitive types", "--no-tag-primitives") # --colors-are-symbols var opt_colors_are_symbols = new OptionBool("Store colors as symbols (link-boost)", "--colors-are-symbols") @@ -65,6 +67,7 @@ redef class ToolContext self.option_context.add_option(self.opt_no_inline_intern) self.option_context.add_option(self.opt_no_union_attribute) self.option_context.add_option(self.opt_no_shortcut_equate) + self.option_context.add_option(self.opt_no_tag_primitives) self.option_context.add_option(opt_colors_are_symbols, opt_trampoline_call, opt_guard_call, opt_direct_call_monomorph0, opt_substitute_monomorph, opt_link_boost) self.option_context.add_option(self.opt_inline_coloring_numbers, opt_inline_some_methods, opt_direct_call_monomorph, opt_skip_dead_methods, opt_semi_global) self.option_context.add_option(self.opt_colo_dead_methods) @@ -163,6 +166,7 @@ class SeparateCompiler modelbuilder.toolcontext.info("Property coloring", 2) compiler.new_file("{c_name}.classes") compiler.do_property_coloring + compiler.compile_class_infos for m in mainmodule.in_importation.greaters do for mclass in m.intro_mclasses do #if mclass.kind == abstract_kind or mclass.kind == interface_kind then continue @@ -217,6 +221,11 @@ class SeparateCompiler self.header.add_decl("struct instance \{ const struct type *type; const struct class *class; nitattribute_t attrs[]; \}; /* general C type representing a Nit instance. */") self.header.add_decl("struct types \{ int dummy; const struct type *types[]; \}; /* a list types (used for vts, fts and unresolved lists). */") self.header.add_decl("typedef struct instance val; /* general C type representing a Nit instance. */") + + if not modelbuilder.toolcontext.opt_no_tag_primitives.value then + self.header.add_decl("extern const struct class *class_info[];") + self.header.add_decl("extern const struct type *type_info[];") + end end fun compile_header_attribute_structs @@ -800,6 +809,8 @@ class SeparateCompiler if mtype.ctype != "val*" or mtype.mclass.name == "Pointer" then # Is a primitive type or the Pointer class, not any other extern class + if mtype.is_tagged then return + #Build instance struct self.header.add_decl("struct instance_{c_name} \{") self.header.add_decl("const struct type *type;") @@ -917,6 +928,58 @@ class SeparateCompiler v.add("\}") end + # Compile structures used to map tagged primitive values to their classes and types. + # This method also determines which class will be tagged. + fun compile_class_infos + do + if modelbuilder.toolcontext.opt_no_tag_primitives.value then return + + # Note: if you change the tagging scheme, do not forget to update + # `autobox` and `extract_tag` + var class_info = new Array[nullable MClass].filled_with(null, 4) + for t in box_kinds.keys do + # Note: a same class can be associated to multiple slots if one want to + # use some Huffman coding. + if t.name == "Int" then + class_info[1] = t + else if t.name == "Char" then + class_info[2] = t + else if t.name == "Bool" then + class_info[3] = t + else + continue + end + t.mclass_type.is_tagged = true + end + + # Compile the table for classes. The tag is used as an index + var v = self.new_visitor + v.add_decl "const struct class *class_info[4] = \{" + for t in class_info do + if t == null then + v.add_decl("NULL,") + else + var s = "class_{t.c_name}" + v.require_declaration(s) + v.add_decl("&{s},") + end + end + v.add_decl("\};") + + # Compile the table for types. The tag is used as an index + v.add_decl "const struct type *type_info[4] = \{" + for t in class_info do + if t == null then + v.add_decl("NULL,") + else + var s = "type_{t.c_name}" + v.require_declaration(s) + v.add_decl("&{s},") + end + end + v.add_decl("\};") + end + # Add a dynamic test to ensure that the type referenced by `t` is a live type fun hardening_live_type(v: VISITOR, t: String) do @@ -1076,8 +1139,30 @@ class SeparateCompilerVisitor else if value.mtype.ctype == "val*" and mtype.ctype == "val*" then return value else if value.mtype.ctype == "val*" then + if mtype.is_tagged then + if mtype.name == "Int" then + return self.new_expr("(long)({value})>>2", mtype) + else if mtype.name == "Char" then + return self.new_expr("(char)((long)({value})>>2)", mtype) + else if mtype.name == "Bool" then + return self.new_expr("(short int)((long)({value})>>2)", mtype) + else + abort + end + end return self.new_expr("((struct instance_{mtype.c_name}*){value})->value; /* autounbox from {value.mtype} to {mtype} */", mtype) else if mtype.ctype == "val*" then + if value.mtype.is_tagged then + if value.mtype.name == "Int" then + return self.new_expr("(val*)({value}<<2|1)", mtype) + else if value.mtype.name == "Char" then + return self.new_expr("(val*)((long)({value})<<2|2)", mtype) + else if value.mtype.name == "Bool" then + return self.new_expr("(val*)((long)({value})<<2|3)", mtype) + else + abort + end + end var valtype = value.mtype.as(MClassType) if mtype isa MClassType and mtype.mclass.kind == extern_kind and mtype.mclass.name != "NativeString" then valtype = compiler.mainmodule.pointer_type @@ -1140,11 +1225,25 @@ class SeparateCompilerVisitor end end + # Returns a C expression containing the tag of the value as a long. + # + # If the C expression is evaluated to 0, it means there is no tag. + # Thus the expression can be used as a condition. + fun extract_tag(value: RuntimeVariable): String + do + assert value.mtype.ctype == "val*" + return "((long){value}&3)" # Get the two low bits + end + # Returns a C expression of the runtime class structure of the value. # The point of the method is to work also with primitive types. fun class_info(value: RuntimeVariable): String do if value.mtype.ctype == "val*" then + if can_be_primitive(value) and not compiler.modelbuilder.toolcontext.opt_no_tag_primitives.value then + var tag = extract_tag(value) + return "({tag}?class_info[{tag}]:{value}->class)" + end return "{value}->class" else compiler.undead_types.add(value.mtype) @@ -1158,6 +1257,10 @@ class SeparateCompilerVisitor fun type_info(value: RuntimeVariable): String do if value.mtype.ctype == "val*" then + if can_be_primitive(value) and not compiler.modelbuilder.toolcontext.opt_no_tag_primitives.value then + var tag = extract_tag(value) + return "({tag}?type_info[{tag}]:{value}->type)" + end return "{value}->type" else compiler.undead_types.add(value.mtype) @@ -1743,6 +1846,8 @@ class SeparateCompilerVisitor self.add("{res} = {value1} == {value2};") else if value2.mtype.ctype != "val*" then self.add("{res} = 0; /* incompatible types {value1.mtype} vs. {value2.mtype}*/") + else if value1.mtype.is_tagged then + self.add("{res} = ({value2} != NULL) && ({self.autobox(value2, value1.mtype)} == {value1});") else var mtype1 = value1.mtype.as(MClassType) self.require_declaration("class_{mtype1.c_name}") @@ -1779,6 +1884,13 @@ class SeparateCompilerVisitor else if t2.ctype != "val*" then incompatible = true else if can_be_primitive(value2) then + if t1.is_tagged then + self.add("{res} = {value1} == {value2};") + return res + end + if not compiler.modelbuilder.toolcontext.opt_no_tag_primitives.value then + test.add("(!{extract_tag(value2)})") + end test.add("{value1}->class == {value2}->class") else incompatible = true @@ -1786,6 +1898,13 @@ class SeparateCompilerVisitor else if t2.ctype != "val*" then primitive = t2 if can_be_primitive(value1) then + if t2.is_tagged then + self.add("{res} = {value1} == {value2};") + return res + end + if not compiler.modelbuilder.toolcontext.opt_no_tag_primitives.value then + test.add("(!{extract_tag(value1)})") + end test.add("{value1}->class == {value2}->class") else incompatible = true @@ -1804,13 +1923,25 @@ class SeparateCompilerVisitor end end if primitive != null then + if primitive.is_tagged then + self.add("{res} = {value1} == {value2};") + return res + end test.add("((struct instance_{primitive.c_name}*){value1})->value == ((struct instance_{primitive.c_name}*){value2})->value") else if can_be_primitive(value1) and can_be_primitive(value2) then + if not compiler.modelbuilder.toolcontext.opt_no_tag_primitives.value then + test.add("(!{extract_tag(value1)}) && (!{extract_tag(value2)})") + end test.add("{value1}->class == {value2}->class") var s = new Array[String] for t, v in self.compiler.box_kinds do + if t.mclass_type.is_tagged then continue s.add "({value1}->class->box_kind == {v} && ((struct instance_{t.c_name}*){value1})->value == ((struct instance_{t.c_name}*){value2})->value)" end + if s.is_empty then + self.add("{res} = {value1} == {value2};") + return res + end test.add("({s.join(" || ")})") else self.add("{res} = {value1} == {value2};") @@ -2135,6 +2266,12 @@ class SeparateRuntimeFunction end end +redef class MType + # Are values of `self` tagged? + # If false, it means that the type is not primitive, or is boxed. + var is_tagged = false +end + redef class MEntity var const_color: String is lazy do return "COLOR_{c_name}" end