#include "master.hpp"
-namespace factor
-{
-
-callstack *factor_vm::allot_callstack(cell size)
-{
- callstack *stack = allot<callstack>(callstack_object_size(size));
- stack->length = tag_fixnum(size);
- return stack;
-}
+namespace factor {
-/* We ignore the two topmost frames, the 'callstack' primitive
-frame itself, and the frame calling the 'callstack' primitive,
-so that set-callstack doesn't get stuck in an infinite loop.
-
-This means that if 'callstack' is called in tail position, we
-will have popped a necessary frame... however this word is only
-called by continuation implementation, and user code shouldn't
-be calling it at all, so we leave it as it is for now. */
-void *factor_vm::second_from_top_stack_frame(context *ctx)
-{
- void *frame_top = ctx->callstack_top;
- for (unsigned i = 0; i < 2; ++i)
- {
- void *pred = frame_predecessor(frame_top);
- if (pred >= ctx->callstack_bottom)
- return frame_top;
- frame_top = pred;
- }
- return frame_top;
+// Allocates memory (allot)
+callstack* factor_vm::allot_callstack(cell size) {
+ callstack* stack = allot<callstack>(callstack_object_size(size));
+ stack->length = tag_fixnum(size);
+ return stack;
}
-cell factor_vm::capture_callstack(context *ctx)
-{
- void *top = second_from_top_stack_frame(ctx);
- void *bottom = ctx->callstack_bottom;
-
- fixnum size = std::max((fixnum)0,(fixnum)bottom - (fixnum)top);
-
- callstack *stack = allot_callstack(size);
- memcpy(stack->top(),top,size);
- return tag<callstack>(stack);
+// We ignore the two topmost frames, the 'callstack' primitive
+// frame itself, and the frame calling the 'callstack' primitive,
+// so that set-callstack doesn't get stuck in an infinite loop.
+
+// This means that if 'callstack' is called in tail position, we
+// will have popped a necessary frame... however this word is only
+// called by continuation implementation, and user code shouldn't
+// be calling it at all, so we leave it as it is for now.
+cell factor_vm::second_from_top_stack_frame(context* ctx) {
+ cell frame_top = ctx->callstack_top;
+ for (cell i = 0; i < 2; ++i) {
+ cell pred = code->frame_predecessor(frame_top);
+ if (pred >= ctx->callstack_bottom)
+ return frame_top;
+ frame_top = pred;
+ }
+ return frame_top;
}
-void factor_vm::primitive_callstack()
-{
- ctx->push(capture_callstack(ctx));
-}
+// Allocates memory (allot_callstack)
+cell factor_vm::capture_callstack(context* ctx) {
+ cell top = second_from_top_stack_frame(ctx);
+ cell bottom = ctx->callstack_bottom;
-void factor_vm::primitive_callstack_for()
-{
- context *other_ctx = (context *)pinned_alien_offset(ctx->pop());
- ctx->push(capture_callstack(other_ctx));
-}
+ fixnum size = std::max((cell)0, bottom - top);
-void *factor_vm::frame_predecessor(void *frame_top)
-{
- void *addr = frame_return_address((void*)frame_top);
- FACTOR_ASSERT(addr != 0);
- code_block *owner = code->code_block_for_address((cell)addr);
- cell frame_size = owner->stack_frame_size_for_address((cell)addr);
- return (void*)((char*)frame_top + frame_size);
+ callstack* stack = allot_callstack(size);
+ memcpy(stack->top(), (void *)top, size);
+ return tag<callstack>(stack);
}
-struct stack_frame_accumulator {
- factor_vm *parent;
- growable_array frames;
-
- explicit stack_frame_accumulator(factor_vm *parent_)
- : parent(parent_), frames(parent_) {}
-
- void operator()(void *frame_top, cell frame_size, code_block *owner, void *addr)
- {
- data_root<object> executing_quot(owner->owner_quot(),parent);
- data_root<object> executing(owner->owner,parent);
- data_root<object> scan(owner->scan(parent, addr),parent);
-
- frames.add(executing.value());
- frames.add(executing_quot.value());
- frames.add(scan.value());
- }
-};
-
-struct stack_frame_in_array { cell cells[3]; };
-
-void factor_vm::primitive_callstack_to_array()
-{
- data_root<callstack> callstack(ctx->pop(),this);
-
- stack_frame_accumulator accum(this);
- iterate_callstack_object(callstack.untagged(),accum);
-
- /* The callstack iterator visits frames in reverse order (top to bottom) */
- std::reverse(
- (stack_frame_in_array*)accum.frames.elements->data(),
- (stack_frame_in_array*)(accum.frames.elements->data() + accum.frames.count));
-
- accum.frames.trim();
-
- ctx->push(accum.frames.elements.value());
+// Allocates memory (capture_callstack)
+void factor_vm::primitive_callstack_for() {
+ context* other_ctx = (context*)pinned_alien_offset(ctx->peek());
+ ctx->replace(capture_callstack(other_ctx));
+}
+// Allocates memory (frames.trim()), iterate_callstack_object()
+void factor_vm::primitive_callstack_to_array() {
+ data_root<callstack> callstack(ctx->peek(), this);
+ // Allocates memory here.
+ growable_array frames(this);
+
+ auto stack_frame_accumulator = [&](cell frame_top,
+ cell size,
+ code_block* owner,
+ cell addr) {
+ (void)frame_top;
+ (void)size;
+ data_root<object> executing_quot(owner->owner_quot(), this);
+ data_root<object> executing(owner->owner, this);
+ data_root<object> scan(owner->scan(this, addr), this);
+
+ frames.add(executing.value());
+ frames.add(executing_quot.value());
+ frames.add(scan.value());
+ };
+ iterate_callstack_object(callstack.untagged(), stack_frame_accumulator);
+
+ frames.trim();
+
+ ctx->replace(frames.elements.value());
}
-/* Some primitives implementing a limited form of callstack mutation.
-Used by the single stepper. */
-void factor_vm::primitive_innermost_stack_frame_executing()
-{
- callstack *stack = untag_check<callstack>(ctx->pop());
- void *frame = stack->top();
- void *addr = frame_return_address(frame);
- ctx->push(code->code_block_for_address((cell)addr)->owner_quot());
+// Some primitives implementing a limited form of callstack mutation.
+// Used by the single stepper.
+void factor_vm::primitive_innermost_stack_frame_executing() {
+ callstack* stack = untag_check<callstack>(ctx->peek());
+ void* frame = stack->top();
+ cell addr = *(cell*)frame;
+ ctx->replace(code->code_block_for_address(addr)->owner_quot());
}
-void factor_vm::primitive_innermost_stack_frame_scan()
-{
- callstack *stack = untag_check<callstack>(ctx->pop());
- void *frame = stack->top();
- void *addr = frame_return_address(frame);
- ctx->push(code->code_block_for_address((cell)addr)->scan(this,addr));
+void factor_vm::primitive_innermost_stack_frame_scan() {
+ callstack* stack = untag_check<callstack>(ctx->peek());
+ void* frame = stack->top();
+ cell addr = *(cell*)frame;
+ ctx->replace(code->code_block_for_address(addr)->scan(this, addr));
}
-void factor_vm::primitive_set_innermost_stack_frame_quot()
-{
- data_root<callstack> stack(ctx->pop(),this);
- data_root<quotation> quot(ctx->pop(),this);
+// Allocates memory (jit_compile_quotation)
+void factor_vm::primitive_set_innermost_stack_frame_quotation() {
+ data_root<callstack> stack(ctx->pop(), this);
+ data_root<quotation> quot(ctx->pop(), this);
- stack.untag_check(this);
- quot.untag_check(this);
+ check_tagged(stack);
+ check_tagged(quot);
- jit_compile_quot(quot.value(),true);
+ jit_compile_quotation(quot.value(), true);
- void *inner = stack->top();
- void *addr = frame_return_address(inner);
- code_block *block = code->code_block_for_address((cell)addr);
- cell offset = block->offset(addr);
- set_frame_return_address(inner, (char*)quot->entry_point + offset);
+ void* inner = stack->top();
+ cell addr = *(cell*)inner;
+ code_block* block = code->code_block_for_address(addr);
+ cell offset = block->offset(addr);
+ *(cell*)inner = quot->entry_point + offset;
}
-void factor_vm::primitive_callstack_bounds()
-{
- ctx->push(allot_alien((void*)ctx->callstack_seg->start));
- ctx->push(allot_alien((void*)ctx->callstack_seg->end));
+// Allocates memory (allot_alien)
+void factor_vm::primitive_callstack_bounds() {
+ ctx->push(allot_alien(ctx->callstack_seg->start));
+ ctx->push(allot_alien(ctx->callstack_seg->end));
}
}