#include "master.hpp"
+using namespace std;
+
namespace factor {
-std::ostream& operator<<(std::ostream& out, const string* str) {
+bool factor_print_p = true;
+
+ostream& operator<<(ostream& out, const string* str) {
for (cell i = 0; i < string_capacity(str); i++)
out << (char)str->data()[i];
return out;
}
-void factor_vm::print_word(word* word, cell nesting) {
- if (tagged<object>(word->vocabulary).type_p(STRING_TYPE))
- std::cout << untag<string>(word->vocabulary) << ":";
+void factor_vm::print_word(ostream& out, word* word, cell nesting) {
+ if (TAG(word->vocabulary) == STRING_TYPE)
+ out << untag<string>(word->vocabulary) << ":";
- if (tagged<object>(word->name).type_p(STRING_TYPE))
- std::cout << untag<string>(word->name);
+ if (TAG(word->name) == STRING_TYPE)
+ out << untag<string>(word->name);
else {
- std::cout << "#<not a string: ";
- print_nested_obj(word->name, nesting);
- std::cout << ">";
+ out << "#<not a string: ";
+ print_nested_obj(out, word->name, nesting);
+ out << ">";
}
}
-void factor_vm::print_factor_string(string* str) {
- std::cout << '"' << str << '"';
+void factor_vm::print_factor_string(ostream& out, string* str) {
+ out << '"' << str << '"';
}
-void factor_vm::print_array(array* array, cell nesting) {
+void factor_vm::print_array(ostream& out, array* array, cell nesting) {
cell length = array_capacity(array);
cell i;
bool trimmed;
trimmed = false;
for (i = 0; i < length; i++) {
- std::cout << " ";
- print_nested_obj(array_nth(array, i), nesting);
+ out << " ";
+ print_nested_obj(out, array_nth(array, i), nesting);
}
if (trimmed)
- std::cout << "...";
+ out << "...";
}
-void factor_vm::print_alien(alien* alien, cell nesting) {
+void factor_vm::print_alien(ostream& out, alien* alien, cell nesting) {
if (to_boolean(alien->expired))
- std::cout << "#<expired alien>";
+ out << "#<expired alien>";
else if (to_boolean(alien->base)) {
- std::cout << "#<displaced alien " << alien->displacement << "+";
- print_nested_obj(alien->base, nesting);
- std::cout << ">";
+ out << "#<displaced alien " << alien->displacement << "+";
+ print_nested_obj(out, alien->base, nesting);
+ out << ">";
} else {
- std::cout << "#<alien " << (void*)alien->address << ">";
+ out << "#<alien " << (void*)alien->address << ">";
}
}
-void factor_vm::print_byte_array(byte_array* array, cell nesting) {
+void factor_vm::print_byte_array(ostream& out, byte_array* array, cell nesting) {
+ (void)nesting;
cell length = array->capacity;
cell i;
bool trimmed;
trimmed = false;
for (i = 0; i < length; i++) {
- std::cout << " " << (unsigned) data[i];
+ out << " " << (unsigned) data[i];
}
if (trimmed)
- std::cout << "...";
+ out << "...";
}
-void factor_vm::print_tuple(tuple* tuple, cell nesting) {
+void factor_vm::print_tuple(ostream& out, tuple* tuple, cell nesting) {
tuple_layout* layout = untag<tuple_layout>(tuple->layout);
- cell length = to_fixnum(layout->size);
+ cell length = to_cell(layout->size);
- std::cout << " ";
- print_nested_obj(layout->klass, nesting);
+ out << " ";
+ print_nested_obj(out, layout->klass, nesting);
bool trimmed;
if (length > 10 && !full_output) {
trimmed = false;
for (cell i = 0; i < length; i++) {
- std::cout << " ";
- print_nested_obj(tuple->data()[i], nesting);
+ out << " ";
+ print_nested_obj(out, tuple->data()[i], nesting);
}
if (trimmed)
- std::cout << "...";
+ out << "...";
}
-void factor_vm::print_nested_obj(cell obj, fixnum nesting) {
+void factor_vm::print_nested_obj(ostream& out, cell obj, fixnum nesting) {
if (nesting <= 0 && !full_output) {
- std::cout << " ... ";
+ out << " ... ";
return;
}
quotation* quot;
- switch (tagged<object>(obj).type()) {
+ switch (TAG(obj)) {
case FIXNUM_TYPE:
- std::cout << untag_fixnum(obj);
+ out << untag_fixnum(obj);
break;
case FLOAT_TYPE:
- std::cout << untag_float(obj);
+ out << untag_float(obj);
break;
case WORD_TYPE:
- print_word(untag<word>(obj), nesting - 1);
+ print_word(out, untag<word>(obj), nesting - 1);
break;
case STRING_TYPE:
- print_factor_string(untag<string>(obj));
+ print_factor_string(out, untag<string>(obj));
break;
case F_TYPE:
- std::cout << "f";
+ out << "f";
break;
case TUPLE_TYPE:
- std::cout << "T{";
- print_tuple(untag<tuple>(obj), nesting - 1);
- std::cout << " }";
+ out << "T{";
+ print_tuple(out, untag<tuple>(obj), nesting - 1);
+ out << " }";
break;
case WRAPPER_TYPE:
- std::cout << "W{ ";
- print_nested_obj(untag<wrapper>(obj)->object, nesting - 1);
- std::cout << " }";
+ out << "W{ ";
+ print_nested_obj(out, untag<wrapper>(obj)->object, nesting - 1);
+ out << " }";
break;
case BYTE_ARRAY_TYPE:
- std::cout << "B{";
- print_byte_array(untag<byte_array>(obj), nesting - 1);
- std::cout << " }";
+ out << "B{";
+ print_byte_array(out, untag<byte_array>(obj), nesting - 1);
+ out << " }";
break;
case ARRAY_TYPE:
- std::cout << "{";
- print_array(untag<array>(obj), nesting - 1);
- std::cout << " }";
+ out << "{";
+ print_array(out, untag<array>(obj), nesting - 1);
+ out << " }";
break;
case QUOTATION_TYPE:
- std::cout << "[";
+ out << "[";
quot = untag<quotation>(obj);
- print_array(untag<array>(quot->array), nesting - 1);
- std::cout << " ]";
+ print_array(out, untag<array>(quot->array), nesting - 1);
+ out << " ]";
break;
case ALIEN_TYPE:
- print_alien(untag<alien>(obj), nesting - 1);
+ print_alien(out, untag<alien>(obj), nesting - 1);
break;
default:
- std::cout << "#<" << type_name(tagged<object>(obj).type()) << " @ ";
- std::cout << (void*)obj << ">";
+ out << "#<" << type_name(TAG(obj)) << " @ ";
+ out << (void*)obj << ">";
break;
}
- std::cout << std::flush;
+ out << flush;
}
-void factor_vm::print_obj(cell obj) { print_nested_obj(obj, 10); }
+void factor_vm::print_obj(ostream& out, cell obj) {
+ print_nested_obj(out, obj, 10);
+}
-void factor_vm::print_objects(cell* start, cell* end) {
+void factor_vm::print_objects(ostream& out, cell* start, cell* end) {
for (; start <= end; start++) {
- print_obj(*start);
- std::cout << std::endl;
+ print_obj(out, *start);
+ cout << endl;
}
}
-void factor_vm::print_datastack() {
- std::cout << "==== DATA STACK:" << std::endl;
+void factor_vm::print_datastack(ostream& out) {
+ out << "==== DATA STACK:" << endl;
if (ctx)
- print_objects((cell*)ctx->datastack_seg->start, (cell*)ctx->datastack);
+ print_objects(out,
+ (cell*)ctx->datastack_seg->start,
+ (cell*)ctx->datastack);
else
- std::cout << "*** Context not initialized" << std::endl;
+ out << "*** Context not initialized" << endl;
}
-void factor_vm::print_retainstack() {
- std::cout << "==== RETAIN STACK:" << std::endl;
+void factor_vm::print_retainstack(ostream& out) {
+ out << "==== RETAIN STACK:" << endl;
if (ctx)
- print_objects((cell*)ctx->retainstack_seg->start, (cell*)ctx->retainstack);
+ print_objects(out,
+ (cell*)ctx->retainstack_seg->start,
+ (cell*)ctx->retainstack);
else
- std::cout << "*** Context not initialized" << std::endl;
+ out << "*** Context not initialized" << endl;
}
struct stack_frame_printer {
factor_vm* parent;
-
- explicit stack_frame_printer(factor_vm* parent) : parent(parent) {}
- void operator()(void* frame_top, cell frame_size, code_block* owner,
- void* addr) {
- std::cout << std::endl;
- std::cout << "frame: " << frame_top << " size " << frame_size << std::endl;
- std::cout << "executing: ";
- parent->print_obj(owner->owner);
- std::cout << std::endl;
- std::cout << "scan: ";
- parent->print_obj(owner->scan(parent, addr));
- std::cout << std::endl;
- std::cout << "word/quot addr: ";
- std::cout << std::hex << (cell)owner->owner << std::dec;
- std::cout << std::endl;
- std::cout << "word/quot xt: ";
- std::cout << std::hex << (cell)owner->entry_point() << std::dec;
- std::cout << std::endl;
- std::cout << "return address: ";
- std::cout << std::hex << (cell)addr << std::dec;
- std::cout << std::endl;
+ ostream& out;
+
+ explicit stack_frame_printer(factor_vm* parent, ostream& out)
+ : parent(parent), out(out) {}
+ void operator()(cell frame_top, cell size, code_block* owner, cell addr) {
+ out << endl;
+ out << "frame: " << (void*)frame_top << " size " << size << endl;
+ out << "executing: ";
+ parent->print_obj(out, owner->owner);
+ out << endl;
+ out << "scan: ";
+ parent->print_obj(out, owner->scan(parent, addr));
+ out << endl;
+ out << "word/quot addr: ";
+ out << hex << owner->owner << dec;
+ out << endl;
+ out << "word/quot xt: ";
+ out << hex << owner->entry_point() << dec;
+ out << endl;
+ out << "return address: ";
+ out << hex << addr << dec;
+ out << endl;
}
};
-void factor_vm::print_callstack() {
- std::cout << "==== CALL STACK:" << std::endl;
+void factor_vm::print_callstack(ostream& out) {
+ out << "==== CALL STACK:" << endl;
if (ctx) {
- stack_frame_printer printer(this);
+ stack_frame_printer printer(this, out);
iterate_callstack(ctx, printer);
} else
- std::cout << "*** Context not initialized" << std::endl;
+ out << "*** Context not initialized" << endl;
}
-void factor_vm::print_callstack_object(callstack* obj) {
- stack_frame_printer printer(this);
+void factor_vm::print_callstack_object(ostream& out, callstack* obj) {
+ stack_frame_printer printer(this, out);
iterate_callstack_object(obj, printer);
}
explicit padded_address(cell value) : value(value) {}
};
-std::ostream& operator<<(std::ostream& out, const padded_address& value) {
+ostream& operator<<(ostream& out, const padded_address& value) {
char prev = out.fill('0');
out.width(sizeof(cell) * 2);
- out << std::hex << value.value << std::dec;
+ out << hex << value.value << dec;
out.fill(prev);
return out;
}
-void factor_vm::dump_cell(cell x) {
- std::cout << padded_address(x) << ": ";
+void factor_vm::dump_cell(ostream& out, cell x) {
+ out << padded_address(x) << ": ";
x = *(cell*)x;
- std::cout << padded_address(x) << " tag " << TAG(x) << std::endl;
+ out << padded_address(x) << " tag " << TAG(x) << endl;
}
-void factor_vm::dump_memory(cell from, cell to) {
+void factor_vm::dump_memory(ostream& out, cell from, cell to) {
from = UNTAG(from);
for (; from <= to; from += sizeof(cell))
- dump_cell(from);
+ dump_cell(out, from);
}
-template <typename Generation>
-void factor_vm::dump_generation(const char* name, Generation* gen) {
- std::cout << name << ": ";
- std::cout << "Start=" << gen->start;
- std::cout << ", size=" << gen->size;
- std::cout << ", end=" << gen->end;
- std::cout << std::endl;
-}
+void dump_memory_range(ostream& out, const char* name, cell name_w,
+ cell start, cell end) {
+ out << setw(static_cast<int>(name_w)) << left << name << ": ";
-void factor_vm::dump_generations() {
- std::cout << std::hex;
-
- dump_generation("Nursery", &nursery);
- dump_generation("Aging", data->aging);
- dump_generation("Tenured", data->tenured);
-
- std::cout << "Cards:";
- std::cout << "base=" << (cell)data->cards << ", ";
- std::cout << "size=" << (cell)(data->cards_end - data->cards) << std::endl;
-
- std::cout << std::dec;
+ out << "[" << (void*)start << " -> " << (void*)end << "] ";
+ out << setw(10) << right << (end - start) << " bytes" << endl;
}
-struct object_dumper {
- factor_vm* parent;
- cell type;
-
- object_dumper(factor_vm* parent, cell type)
- : parent(parent), type(type) {}
+template <typename Generation>
+void dump_generation(ostream& out, const char* name, Generation* gen) {
+ dump_memory_range(out, name, 10, gen->start, gen->end);
+}
- void operator()(object* obj) {
- if (type == TYPE_COUNT || obj->type() == type) {
- std::cout << padded_address((cell)obj) << " ";
- parent->print_nested_obj(tag_dynamic(obj), 2);
- std::cout << std::endl;
+void factor_vm::dump_memory_layout(ostream& out) {
+ dump_generation(out, "Nursery", data->nursery);
+ dump_generation(out, "Aging", data->aging);
+ dump_generation(out, "Tenured", data->tenured);
+ dump_memory_range(out, "Cards", 10, (cell)data->cards, (cell)data->cards_end);
+
+ out << endl << "Contexts:" << endl << endl;
+ FACTOR_FOR_EACH(active_contexts) {
+ context* the_ctx = *iter;
+ segment* ds = the_ctx->datastack_seg;
+ segment* rs = the_ctx->retainstack_seg;
+ segment* cs = the_ctx->callstack_seg;
+ if (the_ctx == ctx) {
+ out << " Active:" << endl;
}
+ dump_memory_range(out, " Datastack", 14, ds->start, ds->end);
+ dump_memory_range(out, " Retainstack", 14, rs->start, rs->end);
+ dump_memory_range(out, " Callstack", 14, cs->start, cs->end);
+ out << endl;
}
-};
+}
-void factor_vm::dump_objects(cell type) {
+void factor_vm::dump_objects(ostream& out, cell type) {
primitive_full_gc();
- object_dumper dumper(this, type);
- each_object(dumper);
+ auto object_dumper = [&](object* obj) {
+ if (type == TYPE_COUNT || obj->type() == type) {
+ out << padded_address((cell)obj) << " ";
+ print_nested_obj(out, tag_dynamic(obj), 2);
+ out << endl;
+ }
+ };
+ each_object(object_dumper);
}
-struct find_data_reference_slot_visitor {
- cell look_for;
- object* obj;
- factor_vm* parent;
-
- find_data_reference_slot_visitor(cell look_for, object* obj,
- factor_vm* parent)
- : look_for(look_for), obj(obj), parent(parent) {}
-
- void operator()(cell* scan) {
- if (look_for == *scan) {
- std::cout << padded_address((cell)obj) << " ";
- parent->print_nested_obj(tag_dynamic(obj), 2);
- std::cout << std::endl;
+void factor_vm::find_data_references(ostream& out, cell look_for) {
+ primitive_full_gc();
+ auto find_data_ref_func = [&](object* obj, cell* slot) {
+ if (look_for == *slot) {
+ out << padded_address((cell)obj) << " ";
+ print_nested_obj(out, tag_dynamic(obj), 2);
+ out << endl;
}
- }
-};
-
-struct dump_edges_slot_visitor {
- object* obj;
- factor_vm* parent;
-
- dump_edges_slot_visitor(cell, object* obj, factor_vm* parent)
- : obj(obj), parent(parent) {}
-
- void operator()(cell* scan) {
- if (TAG(*scan) > F_TYPE)
- std::cout << (void*)tag_dynamic(obj) << " ==> " << (void*)*scan
- << std::endl;
- }
-};
-
-template <typename SlotVisitor> struct data_reference_object_visitor {
- cell look_for;
- factor_vm* parent;
-
- data_reference_object_visitor(cell look_for, factor_vm* parent)
- : look_for(look_for), parent(parent) {}
-
- void operator()(object* obj) {
- SlotVisitor visitor(look_for, obj, parent);
- obj->each_slot(visitor);
- }
-};
-
-void factor_vm::find_data_references(cell look_for) {
- data_reference_object_visitor<find_data_reference_slot_visitor> visitor(
- look_for, this);
- each_object(visitor);
+ };
+ each_object_each_slot(find_data_ref_func);
}
-void factor_vm::dump_edges() {
- data_reference_object_visitor<dump_edges_slot_visitor> visitor(0, this);
- each_object(visitor);
+void factor_vm::dump_edges(ostream& out) {
+ primitive_full_gc();
+ auto dump_edges_func = [&](object* obj, cell* scan) {
+ if (TAG(*scan) > F_TYPE) {
+ out << (void*)tag_dynamic(obj);
+ out << " ==> ";
+ out << (void*)*scan << endl;
+ }
+ };
+ each_object_each_slot(dump_edges_func);
}
struct code_block_printer {
factor_vm* parent;
+ ostream& out;
cell reloc_size, parameter_size;
- explicit code_block_printer(factor_vm* parent)
- : parent(parent), reloc_size(0), parameter_size(0) {}
+ explicit code_block_printer(factor_vm* parent, ostream& out)
+ : parent(parent), out(out), reloc_size(0), parameter_size(0) {}
void operator()(code_block* scan, cell size) {
const char* status;
if (scan->free_p())
status = "free";
else {
- reloc_size += parent->object_size(scan->relocation);
- parameter_size += parent->object_size(scan->parameters);
+ reloc_size += object_size(scan->relocation);
+ parameter_size += object_size(scan->parameters);
- if (parent->code->marked_p(scan))
+ if (parent->code->allocator->state.marked_p((cell)scan))
status = "marked";
else
status = "allocated";
- std::cout << std::hex << (cell)scan << std::dec << " ";
- std::cout << std::hex << size << std::dec << " ";
- std::cout << status << " ";
- std::cout << "stack frame " << scan->stack_frame_size();
- std::cout << std::endl;
+ out << hex << (cell)scan << dec << " ";
+ out << hex << size << dec << " ";
+ out << status << " ";
+ out << "stack frame " << scan->stack_frame_size();
+ out << endl;
}
}
};
-/* Dump all code blocks for debugging */
-void factor_vm::dump_code_heap() {
- code_block_printer printer(this);
- code->allocator->iterate(printer);
- std::cout << printer.reloc_size << " bytes used by relocation tables"
- << std::endl;
- std::cout << printer.parameter_size << " bytes used by parameter tables"
- << std::endl;
+// Dump all code blocks for debugging
+void factor_vm::dump_code_heap(ostream& out) {
+ code_block_printer printer(this, out);
+ code->allocator->iterate(printer, no_fixup());
+ out << printer.reloc_size << " bytes used by relocation tables" << endl;
+ out << printer.parameter_size << " bytes used by parameter tables" << endl;
}
void factor_vm::factorbug_usage(bool advanced_p) {
- std::cout << "Basic commands:" << std::endl;
+ cout << "Basic commands:" << endl;
#ifdef WINDOWS
- std::cout << " q ^Z -- quit Factor" << std::endl;
+ cout << " q ^Z -- quit Factor" << endl;
#else
- std::cout << " q ^D -- quit Factor" << std::endl;
+ cout << " q ^D -- quit Factor" << endl;
#endif
- std::cout << " c -- continue executing Factor - NOT SAFE"
- << std::endl;
- std::cout << " t -- throw exception in Factor - NOT SAFE"
- << std::endl;
- std::cout << " .s .r .c -- print data, retain, call stacks"
- << std::endl;
+ cout << " c -- continue executing Factor - NOT SAFE"
+ << endl;
+ cout << " t -- throw exception in Factor - NOT SAFE"
+ << endl;
+ cout << " .s .r .c -- print data, retain, call stacks"
+ << endl;
if (advanced_p) {
- std::cout << " help -- reprint this message" << std::endl;
- std::cout << "Advanced commands:" << std::endl;
- std::cout << " e -- dump environment" << std::endl;
- std::cout << " d <addr> <count> -- dump memory" << std::endl;
- std::cout << " u <addr> -- dump object at tagged <addr>"
- << std::endl;
- std::cout << " . <addr> -- print object at tagged <addr>"
- << std::endl;
- std::cout << " g -- dump generations" << std::endl;
- std::cout << " ds dr -- dump data, retain stacks" << std::endl;
- std::cout << " trim -- toggle output trimming" << std::endl;
- std::cout << " data -- data heap dump" << std::endl;
- std::cout << " words -- words dump" << std::endl;
- std::cout << " tuples -- tuples dump" << std::endl;
- std::cout << " edges -- print all object-to-object references"
- << std::endl;
- std::cout << " refs <addr> -- find data heap references to object"
- << std::endl;
- std::cout << " push <addr> -- push object on data stack - NOT SAFE"
- << std::endl;
- std::cout << " gc -- trigger full GC - NOT SAFE"
- << std::endl;
- std::cout << " compact-gc -- trigger compacting GC - NOT SAFE"
- << std::endl;
- std::cout << " code -- code heap dump" << std::endl;
- std::cout << " abort -- call abort()" << std::endl;
- std::cout << " breakpoint -- trigger system breakpoint" << std::endl;
+ cout << " help -- reprint this message" << endl;
+ cout << "Advanced commands:" << endl;
+ cout << " e -- dump environment" << endl;
+ cout << " d <addr> <count> -- dump memory" << endl;
+ cout << " u <addr> -- dump object at tagged <addr>"
+ << endl;
+ cout << " . <addr> -- print object at tagged <addr>"
+ << endl;
+ cout << " g -- dump memory layout" << endl;
+ cout << " ds dr -- dump data, retain stacks" << endl;
+ cout << " trim -- toggle output trimming" << endl;
+ cout << " data -- data heap dump" << endl;
+ cout << " words -- words dump" << endl;
+ cout << " tuples -- tuples dump" << endl;
+ cout << " edges -- print all object-to-object references"
+ << endl;
+ cout << " refs <addr> -- find data heap references to object"
+ << endl;
+ cout << " push <addr> -- push object on data stack - NOT SAFE"
+ << endl;
+ cout << " gc -- trigger full GC - NOT SAFE"
+ << endl;
+ cout << " compact-gc -- trigger compacting GC - NOT SAFE"
+ << endl;
+ cout << " code -- code heap dump" << endl;
+ cout << " abort -- call abort()" << endl;
+ cout << " breakpoint -- trigger system breakpoint" << endl;
} else {
- std::cout << " help -- full help, including advanced commands"
- << std::endl;
+ cout << " help -- full help, including advanced commands"
+ << endl;
}
-
- std::cout << std::endl;
-
+ cout << endl;
}
static void exit_fep(factor_vm* vm) {
- vm->unlock_console();
- vm->handle_ctrl_c();
+ unlock_console();
+ handle_ctrl_c();
vm->fep_p = false;
}
void factor_vm::factorbug() {
if (fep_disabled) {
- std::cout << "Low level debugger disabled" << std::endl;
+ cout << "Low level debugger disabled" << endl;
exit(1);
}
fep_p = true;
- std::cout << "Starting low level debugger..." << std::endl;
+ cout << "Starting low level debugger..." << endl;
// Even though we've stopped the VM, the stdin_loop thread (see os-*.cpp)
// that pumps the console is still running concurrently. We lock a mutex so
for (;;) {
std::string cmd;
- std::cout << "> " << std::flush;
+ cout << "> " << flush;
- std::cin >> std::setw(1024) >> cmd >> std::setw(0);
- if (!std::cin.good()) {
+ cin >> setw(1024) >> cmd >> setw(0);
+ if (!cin.good()) {
if (!seen_command) {
- /* If we exit with an EOF immediately, then
- dump stacks. This is useful for builder and
- other cases where Factor is run with stdin
- redirected to /dev/null */
+ // If we exit with an EOF immediately, then
+ // dump stacks. This is useful for builder and
+ // other cases where Factor is run with stdin
+ // redirected to /dev/null
fep_disabled = true;
- print_datastack();
- print_retainstack();
- print_callstack();
+ print_datastack(cout);
+ print_retainstack(cout);
+ print_callstack(cout);
}
exit(1);
exit(1);
if (cmd == "d") {
cell addr = read_cell_hex();
- if (std::cin.peek() == ' ')
- std::cin.ignore();
+ if (cin.peek() == ' ')
+ cin.ignore();
- if (!std::cin.good())
+ if (!cin.good())
break;
cell count = read_cell_hex();
- dump_memory(addr, addr + count);
+ dump_memory(cout, addr, addr + count);
} else if (cmd == "u") {
cell addr = read_cell_hex();
cell count = object_size(addr);
- dump_memory(addr, addr + count);
+ dump_memory(cout, addr, addr + count);
} else if (cmd == ".") {
cell addr = read_cell_hex();
- print_obj(addr);
- std::cout << std::endl;
+ print_obj(cout, addr);
+ cout << endl;
} else if (cmd == "trim")
full_output = !full_output;
else if (cmd == "ds")
- dump_memory(ctx->datastack_seg->start, ctx->datastack);
+ dump_memory(cout, ctx->datastack_seg->start, ctx->datastack);
else if (cmd == "dr")
- dump_memory(ctx->retainstack_seg->start, ctx->retainstack);
+ dump_memory(cout, ctx->retainstack_seg->start, ctx->retainstack);
else if (cmd == ".s")
- print_datastack();
+ print_datastack(cout);
else if (cmd == ".r")
- print_retainstack();
+ print_retainstack(cout);
else if (cmd == ".c")
- print_callstack();
+ print_callstack(cout);
else if (cmd == "e") {
for (cell i = 0; i < special_object_count; i++)
- dump_cell((cell)&special_objects[i]);
+ dump_cell(cout, (cell)&special_objects[i]);
} else if (cmd == "g")
- dump_generations();
+ dump_memory_layout(cout);
else if (cmd == "c") {
exit_fep(this);
return;
general_error(ERROR_INTERRUPT, false_object, false_object);
FACTOR_ASSERT(false);
} else if (cmd == "data")
- dump_objects(TYPE_COUNT);
+ dump_objects(cout, TYPE_COUNT);
else if (cmd == "edges")
- dump_edges();
+ dump_edges(cout);
else if (cmd == "refs") {
cell addr = read_cell_hex();
- std::cout << "Data heap references:" << std::endl;
- find_data_references(addr);
- std::cout << std::endl;
+ cout << "Data heap references:" << endl;
+ find_data_references(cout, addr);
+ cout << endl;
} else if (cmd == "words")
- dump_objects(WORD_TYPE);
+ dump_objects(cout, WORD_TYPE);
else if (cmd == "tuples")
- dump_objects(TUPLE_TYPE);
+ dump_objects(cout, TUPLE_TYPE);
else if (cmd == "push") {
cell addr = read_cell_hex();
ctx->push(addr);
} else if (cmd == "code")
- dump_code_heap();
- else if (cmd == "compact-gc")
- primitive_compact_gc();
+ dump_code_heap(cout);
else if (cmd == "gc")
primitive_full_gc();
else if (cmd == "compact-gc")
else if (cmd == "breakpoint")
breakpoint();
else
- std::cout << "unknown command" << std::endl;
+ cout << "unknown command" << endl;
}
}
void factor_vm::primitive_die() {
- std::cout << "The die word was called by the library. Unless you called it "
- "yourself," << std::endl;
- std::cout << "you have triggered a bug in Factor. Please report."
- << std::endl;
- factorbug();
+ critical_error("The die word was called by the library.", 0);
}
}