213 lines
5.0 KiB
C++
Executable File
213 lines
5.0 KiB
C++
Executable File
#include "master.hpp"
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namespace factor
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{
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void factor_vm::check_frame(stack_frame *frame)
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{
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#ifdef FACTOR_DEBUG
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check_code_pointer((cell)frame->xt);
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assert(frame->size != 0);
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#endif
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}
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callstack *factor_vm::allot_callstack(cell size)
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{
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callstack *stack = allot<callstack>(callstack_size(size));
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stack->length = tag_fixnum(size);
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return stack;
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}
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stack_frame *factor_vm::fix_callstack_top(stack_frame *top, stack_frame *bottom)
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{
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stack_frame *frame = bottom - 1;
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while(frame >= top)
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frame = frame_successor(frame);
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return frame + 1;
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}
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/* We ignore the topmost frame, the one calling 'callstack',
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so that set-callstack doesn't get stuck in an infinite loop.
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This means that if 'callstack' is called in tail position, we
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will have popped a necessary frame... however this word is only
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called by continuation implementation, and user code shouldn't
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be calling it at all, so we leave it as it is for now. */
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stack_frame *factor_vm::capture_start()
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{
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stack_frame *frame = ctx->callstack_bottom - 1;
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while(frame >= ctx->callstack_top && frame_successor(frame) >= ctx->callstack_top)
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frame = frame_successor(frame);
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return frame + 1;
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}
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void factor_vm::primitive_callstack()
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{
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stack_frame *top = capture_start();
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stack_frame *bottom = ctx->callstack_bottom;
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fixnum size = (cell)bottom - (cell)top;
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if(size < 0)
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size = 0;
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callstack *stack = allot_callstack(size);
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memcpy(stack->top(),top,size);
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dpush(tag<callstack>(stack));
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}
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void factor_vm::primitive_set_callstack()
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{
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callstack *stack = untag_check<callstack>(dpop());
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set_callstack(ctx->callstack_bottom,
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stack->top(),
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untag_fixnum(stack->length),
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memcpy);
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/* We cannot return here ... */
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critical_error("Bug in set_callstack()",0);
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}
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code_block *factor_vm::frame_code(stack_frame *frame)
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{
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check_frame(frame);
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return (code_block *)frame->xt - 1;
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}
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code_block_type factor_vm::frame_type(stack_frame *frame)
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{
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return frame_code(frame)->type();
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}
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cell factor_vm::frame_executing(stack_frame *frame)
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{
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return frame_code(frame)->owner;
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}
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stack_frame *factor_vm::frame_successor(stack_frame *frame)
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{
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check_frame(frame);
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return (stack_frame *)((cell)frame - frame->size);
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}
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/* Allocates memory */
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cell factor_vm::frame_scan(stack_frame *frame)
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{
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switch(frame_type(frame))
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{
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case code_block_unoptimized:
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{
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cell quot = frame_executing(frame);
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if(to_boolean(quot))
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{
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char *return_addr = (char *)FRAME_RETURN_ADDRESS(frame,this);
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char *quot_xt = (char *)(frame_code(frame) + 1);
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return tag_fixnum(quot_code_offset_to_scan(
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quot,(cell)(return_addr - quot_xt)));
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}
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else
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return false_object;
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}
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case code_block_optimized:
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return false_object;
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default:
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critical_error("Bad frame type",frame_type(frame));
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return false_object;
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}
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}
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namespace
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{
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struct stack_frame_accumulator {
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factor_vm *parent;
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growable_array frames;
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explicit stack_frame_accumulator(factor_vm *parent_) : parent(parent_), frames(parent_) {}
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void operator()(stack_frame *frame)
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{
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data_root<object> executing(parent->frame_executing(frame),parent);
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data_root<object> scan(parent->frame_scan(frame),parent);
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frames.add(executing.value());
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frames.add(scan.value());
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}
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};
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}
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void factor_vm::primitive_callstack_to_array()
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{
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data_root<callstack> callstack(dpop(),this);
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stack_frame_accumulator accum(this);
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iterate_callstack_object(callstack.untagged(),accum);
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accum.frames.trim();
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dpush(accum.frames.elements.value());
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}
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stack_frame *factor_vm::innermost_stack_frame(callstack *stack)
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{
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stack_frame *top = stack->top();
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stack_frame *bottom = stack->bottom();
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stack_frame *frame = bottom - 1;
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while(frame >= top && frame_successor(frame) >= top)
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frame = frame_successor(frame);
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return frame;
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}
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stack_frame *factor_vm::innermost_stack_frame_quot(callstack *callstack)
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{
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stack_frame *inner = innermost_stack_frame(callstack);
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tagged<quotation>(frame_executing(inner)).untag_check(this);
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return inner;
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}
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/* Some primitives implementing a limited form of callstack mutation.
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Used by the single stepper. */
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void factor_vm::primitive_innermost_stack_frame_executing()
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{
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dpush(frame_executing(innermost_stack_frame(untag_check<callstack>(dpop()))));
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}
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void factor_vm::primitive_innermost_stack_frame_scan()
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{
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dpush(frame_scan(innermost_stack_frame_quot(untag_check<callstack>(dpop()))));
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}
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void factor_vm::primitive_set_innermost_stack_frame_quot()
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{
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data_root<callstack> callstack(dpop(),this);
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data_root<quotation> quot(dpop(),this);
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callstack.untag_check(this);
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quot.untag_check(this);
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jit_compile(quot.value(),true);
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stack_frame *inner = innermost_stack_frame_quot(callstack.untagged());
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cell offset = (char *)FRAME_RETURN_ADDRESS(inner,this) - (char *)inner->xt;
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inner->xt = quot->xt;
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FRAME_RETURN_ADDRESS(inner,this) = (char *)quot->xt + offset;
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}
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/* called before entry into Factor code. */
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void factor_vm::save_callstack_bottom(stack_frame *callstack_bottom)
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{
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ctx->callstack_bottom = callstack_bottom;
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}
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VM_ASM_API void save_callstack_bottom(stack_frame *callstack_bottom, factor_vm *parent)
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{
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return parent->save_callstack_bottom(callstack_bottom);
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}
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}
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