#include "calc.h" typedef struct { calc_node_t node; void *next; } stack_node_t; typedef void (*operator_call)(calc_number_t *, calc_number_t *, calc_number_t *); typedef struct { unsigned int prec; operator_call op_f; operator_call op_i; operator_call op_p; } calc_operator_t; static stack_node_t *stack; static stack_node_t temp; static BOOL percent_mode; static void rpn_add_f(calc_number_t *r, calc_number_t *a, calc_number_t *b); static void rpn_sub_f(calc_number_t *r, calc_number_t *a, calc_number_t *b); static void rpn_mul_f(calc_number_t *r, calc_number_t *a, calc_number_t *b); static void rpn_div_f(calc_number_t *r, calc_number_t *a, calc_number_t *b); static void rpn_mod_f(calc_number_t *r, calc_number_t *a, calc_number_t *b); static void rpn_pow_f(calc_number_t *r, calc_number_t *a, calc_number_t *b); static void rpn_sqr_f(calc_number_t *r, calc_number_t *a, calc_number_t *b); static void rpn_and_f(calc_number_t *r, calc_number_t *a, calc_number_t *b); static void rpn_or_f (calc_number_t *r, calc_number_t *a, calc_number_t *b); static void rpn_xor_f(calc_number_t *r, calc_number_t *a, calc_number_t *b); static void rpn_shl_f(calc_number_t *r, calc_number_t *a, calc_number_t *b); static void rpn_shr_f(calc_number_t *r, calc_number_t *a, calc_number_t *b); /* Integer mode calculations */ static void rpn_add_i(calc_number_t *r, calc_number_t *a, calc_number_t *b); static void rpn_sub_i(calc_number_t *r, calc_number_t *a, calc_number_t *b); static void rpn_mul_i(calc_number_t *r, calc_number_t *a, calc_number_t *b); static void rpn_div_i(calc_number_t *r, calc_number_t *a, calc_number_t *b); static void rpn_mod_i(calc_number_t *r, calc_number_t *a, calc_number_t *b); static void rpn_and_i(calc_number_t *r, calc_number_t *a, calc_number_t *b); static void rpn_or_i (calc_number_t *r, calc_number_t *a, calc_number_t *b); static void rpn_xor_i(calc_number_t *r, calc_number_t *a, calc_number_t *b); static void rpn_shl_i(calc_number_t *r, calc_number_t *a, calc_number_t *b); static void rpn_shr_i(calc_number_t *r, calc_number_t *a, calc_number_t *b); /* Percentage mode calculations */ static void rpn_add_p(calc_number_t *r, calc_number_t *a, calc_number_t *b); static void rpn_sub_p(calc_number_t *r, calc_number_t *a, calc_number_t *b); static void rpn_mul_p(calc_number_t *r, calc_number_t *a, calc_number_t *b); static void rpn_div_p(calc_number_t *r, calc_number_t *a, calc_number_t *b); static const calc_operator_t operator_list[] = { { 0, NULL, NULL, NULL, }, // RPN_OPERATOR_PARENT { 0, NULL, NULL, NULL, }, // RPN_OPERATOR_PERCENT { 0, NULL, NULL, NULL, }, // RPN_OPERATOR_EQUAL { 1, rpn_or_f, rpn_or_i, NULL, }, // RPN_OPERATOR_OR { 2, rpn_xor_f, rpn_xor_i, NULL, }, // RPN_OPERATOR_XOR { 3, rpn_and_f, rpn_and_i, NULL, }, // RPN_OPERATOR_AND { 4, rpn_shl_f, rpn_shl_i, NULL, }, // RPN_OPERATOR_LSH { 4, rpn_shr_f, rpn_shr_i, NULL, }, // RPN_OPERATOR_RSH { 5, rpn_add_f, rpn_add_i, rpn_add_p, }, // RPN_OPERATOR_ADD { 5, rpn_sub_f, rpn_sub_i, rpn_sub_p, }, // RPN_OPERATOR_SUB { 6, rpn_mul_f, rpn_mul_i, rpn_mul_p, }, // RPN_OPERATOR_MULT { 6, rpn_div_f, rpn_div_i, rpn_div_p, }, // RPN_OPERATOR_DIV { 6, rpn_mod_f, rpn_mod_i, NULL, }, // RPN_OPERATOR_MOD { 7, rpn_pow_f, NULL, NULL, }, // RPN_OPERATOR_POW { 7, rpn_sqr_f, NULL, NULL, }, // RPN_OPERATOR_SQR }; static stack_node_t *pop(void) { if (stack == NULL) return NULL; temp = *stack; free(stack); stack = temp.next; return &temp; } static int is_stack_empty(void) { return (stack == NULL); } static void push(stack_node_t *op) { stack_node_t *z = (stack_node_t *)malloc(sizeof(stack_node_t)); *z = *op; z->next = stack; stack = z; } /* static unsigned int get_prec(unsigned int opc) { unsigned int x; for (x=0; xf = a->f + b->f; } static void rpn_sub_f(calc_number_t *r, calc_number_t *a, calc_number_t *b) { r->f = a->f - b->f; } static void rpn_mul_f(calc_number_t *r, calc_number_t *a, calc_number_t *b) { r->f = a->f * b->f; } static void rpn_div_f(calc_number_t *r, calc_number_t *a, calc_number_t *b) { if (b->f == 0) calc.is_nan = TRUE; else r->f = a->f / b->f; } static void rpn_mod_f(calc_number_t *r, calc_number_t *a, calc_number_t *b) { double t; if (b->f == 0) calc.is_nan = TRUE; else { modf(a->f/b->f, &t); r->f = a->f - (t * b->f); } } static void rpn_and_f(calc_number_t *r, calc_number_t *a, calc_number_t *b) { calc_number_t ai, bi; ai.i = logic_dbl2int(a); bi.i = logic_dbl2int(b); r->f = (long double)(ai.i & bi.i); } static void rpn_or_f(calc_number_t *r, calc_number_t *a, calc_number_t *b) { calc_number_t ai, bi; ai.i = logic_dbl2int(a); bi.i = logic_dbl2int(b); r->f = (long double)(ai.i | bi.i); } static void rpn_xor_f(calc_number_t *r, calc_number_t *a, calc_number_t *b) { calc_number_t ai, bi; ai.i = logic_dbl2int(a); bi.i = logic_dbl2int(b); r->f = (long double)(ai.i ^ bi.i); } static void rpn_shl_f(calc_number_t *r, calc_number_t *a, calc_number_t *b) { calc_number_t n; modf(b->f, &n.f); r->f = a->f * pow(2., n.f); } static void rpn_shr_f(calc_number_t *r, calc_number_t *a, calc_number_t *b) { calc_number_t n; modf(b->f, &n.f); r->f = a->f / pow(2., n.f); } static void rpn_pow_f(calc_number_t *r, calc_number_t *a, calc_number_t *b) { r->f = pow(a->f, b->f); if (_finite(r->f) == 0 || _isnan(r->f)) calc.is_nan = TRUE; } static void rpn_sqr_f(calc_number_t *r, calc_number_t *a, calc_number_t *b) { if (b->f == 0) calc.is_nan = TRUE; else { r->f = pow(a->f, 1./b->f); if (_finite(r->f) == 0 || _isnan(r->f)) calc.is_nan = TRUE; } } /* Integer mode calculations */ static void rpn_add_i(calc_number_t *r, calc_number_t *a, calc_number_t *b) { r->i = a->i + b->i; } static void rpn_sub_i(calc_number_t *r, calc_number_t *a, calc_number_t *b) { r->i = a->i - b->i; } static void rpn_mul_i(calc_number_t *r, calc_number_t *a, calc_number_t *b) { r->i = a->i * b->i; } static void rpn_div_i(calc_number_t *r, calc_number_t *a, calc_number_t *b) { if (b->i == 0) calc.is_nan = TRUE; else r->i = a->i / b->i; } static void rpn_mod_i(calc_number_t *r, calc_number_t *a, calc_number_t *b) { if (b->i == 0) calc.is_nan = TRUE; else r->i = a->i % b->i; } static void rpn_and_i(calc_number_t *r, calc_number_t *a, calc_number_t *b) { r->i = a->i & b->i; } static void rpn_or_i(calc_number_t *r, calc_number_t *a, calc_number_t *b) { r->i = a->i | b->i; } static void rpn_xor_i(calc_number_t *r, calc_number_t *a, calc_number_t *b) { r->i = a->i ^ b->i; } static void rpn_shl_i(calc_number_t *r, calc_number_t *a, calc_number_t *b) { r->i = a->i << b->i; } static void rpn_shr_i(calc_number_t *r, calc_number_t *a, calc_number_t *b) { r->i = a->i >> b->i; } /* Percent mode calculations */ static void rpn_add_p(calc_number_t *r, calc_number_t *a, calc_number_t *b) { r->f = a->f * (1. + b->f/100.); } static void rpn_sub_p(calc_number_t *r, calc_number_t *a, calc_number_t *b) { r->f = a->f * (1. - b->f/100.); } static void rpn_mul_p(calc_number_t *r, calc_number_t *a, calc_number_t *b) { r->f = a->f * b->f / 100.; } static void rpn_div_p(calc_number_t *r, calc_number_t *a, calc_number_t *b) { if (b->f == 0) calc.is_nan = TRUE; else r->f = a->f * 100. / b->f; } void run_operator(calc_node_t *result, calc_node_t *a, calc_node_t *b, unsigned int operation) { calc_number_t da, db, dc; DWORD base = calc.base; da = a->number; db = b->number; if (a->base == IDC_RADIO_DEC && b->base != IDC_RADIO_DEC) { db.f = logic_int2dbl(&b->number); base = IDC_RADIO_DEC; } else if (a->base != IDC_RADIO_DEC && b->base == IDC_RADIO_DEC) { da.f = logic_int2dbl(&a->number); base = IDC_RADIO_DEC; } if (base == IDC_RADIO_DEC) { if (percent_mode) { percent_mode = FALSE; operator_list[operation].op_p(&dc, &da, &db); } else operator_list[operation].op_f(&dc, &da, &db); if (_finite(dc.f) == 0) calc.is_nan = TRUE; } else { operator_list[operation].op_i(&dc, &da, &db); /* apply final limitator to result */ apply_int_mask(&dc); } if (a->base == IDC_RADIO_DEC && b->base != IDC_RADIO_DEC) { result->number.i = logic_dbl2int(&dc); apply_int_mask(&result->number); } else if (a->base != IDC_RADIO_DEC && b->base == IDC_RADIO_DEC) result->number.f = dc.f; else result->number = dc; } static void evalStack(calc_number_t *number) { stack_node_t *op, ip; unsigned int prec; op = pop(); ip = *op; prec = operator_list[ip.node.operation].prec; while (!is_stack_empty()) { op = pop(); if (prec <= operator_list[op->node.operation].prec) { if (op->node.operation == RPN_OPERATOR_PARENT) continue; calc.prev = ip.node.number; run_operator(&ip.node, &op->node, &ip.node, op->node.operation); if (calc.is_nan) { flush_postfix(); return; } } else { push(op); break; } } if(ip.node.operation != RPN_OPERATOR_EQUAL && ip.node.operation != RPN_OPERATOR_PERCENT) push(&ip); calc.prev_operator = op->node.operation; *number = ip.node.number; } int exec_infix2postfix(calc_number_t *number, unsigned int func) { stack_node_t tmp; if (is_stack_empty() && func == RPN_OPERATOR_EQUAL) { /* if a number has been entered with exponential */ /* notation, I may update it with normal mode */ if (calc.sci_in) return 1; return 0; } if (func == RPN_OPERATOR_PERCENT) percent_mode = TRUE; tmp.node.number = *number; tmp.node.base = calc.base; tmp.node.operation = func; push(&tmp); if (func != RPN_OPERATOR_PARENT) { calc.last_operator = func; evalStack(number); } return 1; } void exec_change_infix(void) { stack_node_t *op = stack; if (op == NULL) return; if (op->node.operation == RPN_OPERATOR_PARENT || op->node.operation == RPN_OPERATOR_PERCENT || op->node.operation == RPN_OPERATOR_EQUAL) return; /* remove the head, it will be re-inserted with new operator */ pop(); } void exec_closeparent(calc_number_t *number) { stack_node_t *op, ip; ip.node.number = *number; ip.node.base = calc.base; while (!is_stack_empty()) { op = pop(); if (op->node.operation == RPN_OPERATOR_PARENT) break; run_operator(&ip.node, &op->node, &ip.node, op->node.operation); if (calc.is_nan) { flush_postfix(); return; } } *number = ip.node.number; } int eval_parent_count(void) { stack_node_t *s = stack; int n = 0; while (s != NULL) { if (s->node.operation == RPN_OPERATOR_PARENT) n++; s = (stack_node_t *)(s->next); } return n; } void flush_postfix() { while (!is_stack_empty()) pop(); /* clear prev and last typed operators */ calc.prev_operator = calc.last_operator = 0; } void start_rpn_engine(void) { stack = NULL; } void stop_rpn_engine(void) { }