--- a/src/hotspot/share/asm/assembler.cpp Wed Jul 24 17:08:14 2019 -0700
+++ b/src/hotspot/share/asm/assembler.cpp Thu Jul 25 08:04:33 2019 +0200
@@ -218,85 +218,6 @@
}
}
-struct DelayedConstant {
- typedef void (*value_fn_t)();
- BasicType type;
- intptr_t value;
- value_fn_t value_fn;
- // This limit of 20 is generous for initial uses.
- // The limit needs to be large enough to store the field offsets
- // into classes which do not have statically fixed layouts.
- // (Initial use is for method handle object offsets.)
- // Look for uses of "delayed_value" in the source code
- // and make sure this number is generous enough to handle all of them.
- enum { DC_LIMIT = 20 };
- static DelayedConstant delayed_constants[DC_LIMIT];
- static DelayedConstant* add(BasicType type, value_fn_t value_fn);
- bool match(BasicType t, value_fn_t cfn) {
- return type == t && value_fn == cfn;
- }
- static void update_all();
-};
-
-DelayedConstant DelayedConstant::delayed_constants[DC_LIMIT];
-// Default C structure initialization rules have the following effect here:
-// = { { (BasicType)0, (intptr_t)NULL }, ... };
-
-DelayedConstant* DelayedConstant::add(BasicType type,
- DelayedConstant::value_fn_t cfn) {
- for (int i = 0; i < DC_LIMIT; i++) {
- DelayedConstant* dcon = &delayed_constants[i];
- if (dcon->match(type, cfn))
- return dcon;
- if (dcon->value_fn == NULL) {
- dcon->value_fn = cfn;
- dcon->type = type;
- return dcon;
- }
- }
- // If this assert is hit (in pre-integration testing!) then re-evaluate
- // the comment on the definition of DC_LIMIT.
- guarantee(false, "too many delayed constants");
- return NULL;
-}
-
-void DelayedConstant::update_all() {
- for (int i = 0; i < DC_LIMIT; i++) {
- DelayedConstant* dcon = &delayed_constants[i];
- if (dcon->value_fn != NULL && dcon->value == 0) {
- typedef int (*int_fn_t)();
- typedef address (*address_fn_t)();
- switch (dcon->type) {
- case T_INT: dcon->value = (intptr_t) ((int_fn_t) dcon->value_fn)(); break;
- case T_ADDRESS: dcon->value = (intptr_t) ((address_fn_t)dcon->value_fn)(); break;
- default: break;
- }
- }
- }
-}
-
-RegisterOrConstant AbstractAssembler::delayed_value(int(*value_fn)(), Register tmp, int offset) {
- intptr_t val = (intptr_t) (*value_fn)();
- if (val != 0) return val + offset;
- return delayed_value_impl(delayed_value_addr(value_fn), tmp, offset);
-}
-RegisterOrConstant AbstractAssembler::delayed_value(address(*value_fn)(), Register tmp, int offset) {
- intptr_t val = (intptr_t) (*value_fn)();
- if (val != 0) return val + offset;
- return delayed_value_impl(delayed_value_addr(value_fn), tmp, offset);
-}
-intptr_t* AbstractAssembler::delayed_value_addr(int(*value_fn)()) {
- DelayedConstant* dcon = DelayedConstant::add(T_INT, (DelayedConstant::value_fn_t) value_fn);
- return &dcon->value;
-}
-intptr_t* AbstractAssembler::delayed_value_addr(address(*value_fn)()) {
- DelayedConstant* dcon = DelayedConstant::add(T_ADDRESS, (DelayedConstant::value_fn_t) value_fn);
- return &dcon->value;
-}
-void AbstractAssembler::update_delayed_values() {
- DelayedConstant::update_all();
-}
-
void AbstractAssembler::block_comment(const char* comment) {
if (sect() == CodeBuffer::SECT_INSTS) {
code_section()->outer()->block_comment(offset(), comment);