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rpn/src/rpn-branch.hpp

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C++
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//
int rpn_if(branch& myobj)
{
// myobj.arg1 = 'if' condition evaluation value
MIN_ARGUMENTS_RET(1, -(int)ret_runtime_error);
ARG_MUST_BE_OF_TYPE_RET(0, cmd_number, -(int)ret_runtime_error);
if (mpfr_cmp_si(((number*)_stack->get_obj(0))->_value.mpfr, 0UL) != 0)
myobj.arg1 = 1;
else
myobj.arg1 = 0;
(void)_stack->pop_back();
return -1;
}
int rpn_then(branch& myobj)
{
// myobj.arg1 = index of then + 1
// myobj.arg2 = index of else + 1 or end + 1
// myobj.arg3 = index of if
// if condition is true -> arg1 (= jump to then + 1)
// else -> arg2 (= jump to else + 1 or end + 1)
branch* if_cmd = (branch*)seq_obj(myobj.arg3);
if (if_cmd->arg1 == 1)
return myobj.arg1;
else
return myobj.arg2;
}
int rpn_else(branch& myobj)
{
// myobj.arg1 = index of else + 1
// myobj.arg2 = index of end + 1
// myobj.arg3 = index of if
// if condition was false -> arg1 (= jump to else + 1)
// if condition was true -> arg2 (= jump to end + 1)
branch* if_cmd = (branch*)seq_obj(myobj.arg3);
if (if_cmd->arg1 == 1)
return myobj.arg2;
else
return myobj.arg1;
}
void rpn_end(void)
{
// nothing
}
int rpn_start(branch& myobj)
{
int ret = -1;
MIN_ARGUMENTS_RET(2, -(int)ret_runtime_error);
ARG_MUST_BE_OF_TYPE_RET(0, cmd_number, -(int)ret_runtime_error);
ARG_MUST_BE_OF_TYPE_RET(1, cmd_number, -(int)ret_runtime_error);
// farg2 = last value of start command
stack::copy_and_push_back(*_stack, _stack->size()-1, _branch_stack);
myobj.farg2 = (number*)_branch_stack.back();
_stack->pop_back();
// farg1 = first value of start command
stack::copy_and_push_back(*_stack, _stack->size()-1, _branch_stack);
myobj.farg1 = (number*)_branch_stack.back();
_stack->pop_back();
// test value
if (myobj.farg1->_value > myobj.farg2->_value)
// last boundary lower than first boundary
// -> next command shall be after 'next'
// arg2 holds index of 'next'
ret = myobj.arg2 + 1;
return ret;
}
int rpn_for(branch& myobj)
{
int ret;
MIN_ARGUMENTS_RET(2, -(int)ret_runtime_error);
ARG_MUST_BE_OF_TYPE_RET(0, cmd_number, -(int)ret_runtime_error);
ARG_MUST_BE_OF_TYPE_RET(1, cmd_number, -(int)ret_runtime_error);
symbol* sym = ((symbol*)seq_obj(myobj.arg1));
// farg2 = last value of for command
// arg1 = index of symbol to increase
stack::copy_and_push_back(*_stack, _stack->size()-1, _branch_stack);
myobj.farg2 = (number*)_branch_stack.back();
_stack->pop_back();
// farg1 = first value of for command
stack::copy_and_push_back(*_stack, _stack->size()-1, _branch_stack);
myobj.farg1 = (number*)_branch_stack.back();
_stack->pop_back();
// test value
if (myobj.farg1->_value > myobj.farg2->_value)
// last boundary lower than first boundary
// -> next command shall be after 'next'
// arg2 holds index of 'next'
ret = myobj.arg2 + 1;
else
{
// store symbol with first value
_local_heap.add(sym->_value, (object*)myobj.farg1, myobj.farg1->size());
ret = myobj.arg1 + 1;
}
return ret;
}
int rpn_next(branch& myobj)
{
// arg1 = index of start or for command in program
// farg1 = current count
branch* start_or_for = (branch*)seq_obj(myobj.arg1);
if (! myobj.arg_bool)
{
myobj.arg_bool = true;
myobj.farg1 = start_or_for->farg1;
}
// increment then test
mpfr_add_si(myobj.farg1->_value.mpfr, myobj.farg1->_value.mpfr, 1UL, MPFR_DEFAULT_RND);
// for command: increment symbol too
if (start_or_for->arg1 != -1)
{
object* obj;
unsigned int size;
symbol* var = (symbol*)seq_obj(start_or_for->arg1);
// increase symbol variable
_local_heap.replace_value(string(var->_value), myobj.farg1, myobj.farg1->size());
}
//test value
if (myobj.farg1->_value > start_or_for->farg2->_value)
{
// end of loop
myobj.arg_bool = false;// init again next time
_branch_stack.pop_back();
_branch_stack.pop_back();
return -1;
}
else
{
// for command: next instruction will be after symbol variable
if (start_or_for->arg1 != -1)
return start_or_for->arg1 + 1;
// start command: next instruction will be after start command
else
return myobj.arg1 + 1;
}
}
int rpn_step(branch& myobj)
{
int ret;
MIN_ARGUMENTS_RET(1, -(int)ret_runtime_error);
ARG_MUST_BE_OF_TYPE_RET(0, cmd_number, -(int)ret_runtime_error);
number* step = (number*)_stack->pop_back();
// end of loop if step is negative or zero
if (mpfr_cmp_d(step->_value.mpfr, 0.0)<=0)
ret = -1;
else
{
// arg1 = index of start or for command in program
// farg1 = current count
branch* start_or_for = (branch*)seq_obj(myobj.arg1);
if (! myobj.arg_bool)
{
myobj.arg_bool = true;
myobj.farg1 = start_or_for->farg1;
}
// increment then test
mpfr_add(myobj.farg1->_value.mpfr, myobj.farg1->_value.mpfr, step->_value.mpfr, MPFR_DEFAULT_RND);
// for command: increment symbol too
if (start_or_for->arg1 != -1)
{
object* obj;
unsigned int size;
symbol* var = (symbol*)seq_obj(start_or_for->arg1);
// increase symbol variable
_local_heap.replace_value(string(var->_value), myobj.farg1, myobj.farg1->size());
}
// test loop value is out of range
if (myobj.farg1->_value > start_or_for->farg2->_value)
{
// end of loop
myobj.arg_bool = false;// init again next time
_branch_stack.pop_back();
_branch_stack.pop_back();
ret = -1;
}
else
{
// for command: next instruction will be after symbol variable
if (start_or_for->arg1 != -1)
ret = start_or_for->arg1 + 1;
// start command: next instruction will be after start command
else
ret = myobj.arg1 + 1;
}
}
return ret;
}
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