#include "master.hpp"
-namespace factor
-{
+namespace factor {
-/* push a new tuple on the stack, filling its slots with f */
-/* Allocates memory */
-void factor_vm::primitive_tuple()
-{
- data_root<tuple_layout> layout(ctx->pop(),this);
- tagged<tuple> t(allot<tuple>(tuple_size(layout.untagged())));
- t->layout = layout.value();
+// push a new tuple on the stack, filling its slots with f
+// Allocates memory
+void factor_vm::primitive_tuple() {
+ data_root<tuple_layout> layout(ctx->pop(), this);
+ tagged<tuple> t(allot<tuple>(tuple_size(layout.untagged())));
+ t->layout = layout.value();
- memset_cell(t->data(),false_object,tuple_size(layout.untagged()) - sizeof(cell));
+ memset_cell(t->data(), false_object,
+ tuple_size(layout.untagged()) - sizeof(cell));
- ctx->push(t.value());
+ ctx->push(t.value());
}
-/* push a new tuple on the stack, filling its slots from the stack */
-/* Allocates memory */
-void factor_vm::primitive_tuple_boa()
-{
- data_root<tuple_layout> layout(ctx->pop(),this);
- tagged<tuple> t(allot<tuple>(tuple_size(layout.untagged())));
- t->layout = layout.value();
+// push a new tuple on the stack, filling its slots from the stack
+// Allocates memory
+void factor_vm::primitive_tuple_boa() {
+ data_root<tuple_layout> layout(ctx->pop(), this);
+ tagged<tuple> t(allot<tuple>(tuple_size(layout.untagged())));
+ t->layout = layout.value();
- cell size = untag_fixnum(layout.untagged()->size) * sizeof(cell);
- memcpy(t->data(),(cell *)(ctx->datastack - size + sizeof(cell)),size);
- ctx->datastack -= size;
+ cell size = untag_fixnum(layout.untagged()->size) * sizeof(cell);
+ memcpy(t->data(), (cell*)(ctx->datastack - size + sizeof(cell)), size);
+ ctx->datastack -= size;
- ctx->push(t.value());
+ ctx->push(t.value());
}
}