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|
#include "types.h"
#include "model.h"
#include "exc.h"
#include "consts.h"
#include "gc.h"
#include <cmath>
#include <cstdlib>
#include <sstream>
#include <iomanip>
const double EPS = 1e-16;
const int PREC = 16;
extern EmptyList *empty_list;
extern UnspecObj *unspec_obj;
Pair::Pair(EvalObj *_car, EvalObj *_cdr) : EvalObj(CLS_PAIR_OBJ),
car(_car), cdr(_cdr), next(NULL) {
gc.attach(car);
gc.attach(cdr);
}
Pair::~Pair() {
gc.expose(car);
gc.expose(cdr);
}
ReprCons *Pair::get_repr_cons() {
return new PairReprCons(this, this);
}
ParseBracket::ParseBracket(unsigned char _btype) :
FrameObj(CLS_SIM_OBJ | CLS_PAR_BRA), btype(_btype) {}
UnspecObj::UnspecObj() : EvalObj(CLS_SIM_OBJ) {}
ReprCons *UnspecObj::get_repr_cons() {
return new ReprStr("#<Unspecified>");
}
SymObj::SymObj(const string &str) :
EvalObj(CLS_SIM_OBJ | CLS_SYM_OBJ), val(str) {}
ReprCons *SymObj::get_repr_cons() {
return new ReprStr(val);
}
OptObj::OptObj() : EvalObj(CLS_SIM_OBJ | CLS_OPT_OBJ) {}
ProcObj::ProcObj(Pair *_body, Environment *_envt, EvalObj *_params) :
OptObj(), body(_body), params(_params), envt(_envt) {
gc.attach(body);
gc.attach(params);
gc.attach(envt);
}
ProcObj::~ProcObj() {
gc.expose(body);
gc.expose(params);
gc.expose(envt);
}
Pair *ProcObj::call(Pair *_args, Environment * &genvt,
Continuation * &cont, FrameObj ** &top_ptr) {
// Create a new continuation
// static_cast see `call` invocation in eval.cpp
Pair *ret_addr = static_cast<RetAddr*>(*top_ptr)->addr;
Continuation *_cont = new Continuation(genvt, ret_addr, cont, body);
// Create local env and recall the closure
Environment *_envt = new Environment(envt);
// static_cast<SymObj*> because the params is already checked
EvalObj *ppar, *nptr;
Pair *args = _args;
for (ppar = params;
ppar->is_pair_obj();
ppar = TO_PAIR(ppar)->cdr)
{
if ((nptr = args->cdr) != empty_list)
args = TO_PAIR(nptr);
else break;
_envt->add_binding(static_cast<SymObj*>(TO_PAIR(ppar)->car), args->car);
}
if (ppar->is_sym_obj())
_envt->add_binding(static_cast<SymObj*>(ppar), args->cdr); // (... . var_n)
else if (args->cdr != empty_list || ppar != empty_list)
throw TokenError("", RUN_ERR_WRONG_NUM_OF_ARGS);
gc.expose(genvt);
genvt = _envt;
gc.attach(genvt);
gc.expose(cont);
cont = _cont;
gc.attach(cont);
delete *top_ptr; // release ret addr
*top_ptr++ = new RetAddr(NULL); // Mark the entrance of a cont
gc.expose(_args);
return body; // Move pc to the proc entry point
}
ReprCons *ProcObj::get_repr_cons() {
return new ReprStr("#<Procedure>");
}
SpecialOptObj::SpecialOptObj(string _name) : OptObj(), name(_name) {}
ReprCons *SpecialOptObj::get_repr_cons() {
return new ReprStr("#<Built-in Opt: " + name + ">");
}
BoolObj::BoolObj(bool _val) : EvalObj(CLS_SIM_OBJ | CLS_BOOL_OBJ), val(_val) {}
bool BoolObj::is_true() { return val; }
ReprCons *BoolObj::get_repr_cons() {
return new ReprStr(val ? "#t" : "#f");
}
BoolObj *BoolObj::from_string(string repr) {
if (repr.length() != 2 || repr[0] != '#')
return NULL;
if (repr[1] == 't')
return new BoolObj(true);
else if (repr[1] == 'f')
return new BoolObj(false);
return NULL;
}
NumObj::NumObj(NumLvl _level, bool _exactness) :
EvalObj(CLS_SIM_OBJ | CLS_NUM_OBJ), exactness(_exactness), level(_level) {}
bool NumObj::is_exact() { return exactness; }
StrObj::StrObj(string _str) : EvalObj(CLS_SIM_OBJ | CLS_STR_OBJ), str(_str) {}
ReprCons *StrObj::get_repr_cons() {
return new ReprStr(str);
}
CharObj::CharObj(char _ch) : EvalObj(CLS_SIM_OBJ | CLS_CHAR_OBJ), ch(_ch) {}
CharObj *CharObj::from_string(string repr) {
size_t len = repr.length();
if (len < 2) return NULL;
if (repr[0] != '#' || repr[1] != '\\') return NULL;
if (len == 3) return new CharObj(repr[2]);
string char_name = repr.substr(2, len - 2);
if (char_name == "newline") return new CharObj('\n');
if (char_name == "space") return new CharObj(' ');
throw TokenError(char_name, RUN_ERR_UNKNOWN_CHAR_NAME);
}
ReprCons *CharObj::get_repr_cons() {
string val = "";
if (ch == ' ') val = "space";
else if (ch == '\n') val = "newline";
else val += ch;
return new ReprStr("#\\" + val);
}
VecObj::VecObj() : EvalObj(CLS_SIM_OBJ | CLS_VECT_OBJ) {}
EvalObj *VecObj::get_obj(size_t idx) {
return vec[idx];
}
void VecObj::set(size_t idx, EvalObj *obj) {
if (idx >= get_size())
throw NormalError(RUN_ERR_VALUE_OUT_OF_RANGE);
vec[idx] = obj;
}
size_t VecObj::get_size() {
return vec.end() - vec.begin();
}
void VecObj::resize(size_t new_size) {
vec.resize(new_size);
}
void VecObj::push_back(EvalObj *new_elem) {
vec.push_back(new_elem);
}
void VecObj::fill(EvalObj *obj) {
for (EvalObjVec::iterator it = vec.begin();
it != vec.end(); it++)
*it = obj;
}
ReprCons *VecObj::get_repr_cons() {
return new VectReprCons(this, this);
}
StrObj *StrObj::from_string(string repr) {
size_t len = repr.length();
if (repr[0] == '\"' && repr[len - 1] == '\"')
return new StrObj(repr.substr(1, len - 2));
return NULL;
}
bool StrObj::lt(StrObj *r) {
return str < r->str;
}
bool StrObj::gt(StrObj *r) {
return str > r->str;
}
bool StrObj::le(StrObj *r) {
return str <= r->str;
}
bool StrObj::ge(StrObj *r) {
return str >= r->str;
}
bool StrObj::eq(StrObj *r) {
return str == r->str;
}
BuiltinProcObj::BuiltinProcObj(BuiltinProc f, string _name) :
OptObj(), handler(f), name(_name) {}
Pair *BuiltinProcObj::call(Pair *args, Environment * &envt,
Continuation * &cont, FrameObj ** &top_ptr) {
Pair *ret_addr = static_cast<RetAddr*>(*top_ptr)->addr;
delete *top_ptr;
*top_ptr++ = gc.attach(handler(TO_PAIR(args->cdr), name));
gc.expose(args);
return ret_addr->next; // Move to the next instruction
}
ReprCons *BuiltinProcObj::get_repr_cons() {
return new ReprStr("#<Builtin Procedure: " + name + ">");
}
Environment::Environment(Environment *_prev_envt) : prev_envt(_prev_envt) {
gc.attach(prev_envt);
}
Environment::~Environment() {
for (Str2EvalObj::iterator it = binding.begin();
it != binding.end(); it++)
gc.expose(it->second);
gc.expose(prev_envt);
}
ReprCons *Environment::get_repr_cons() {
return new ReprStr("#<Environment>");
}
bool Environment::add_binding(SymObj *sym_obj, EvalObj *eval_obj, bool def) {
bool found = false;
string name(sym_obj->val);
if (!def)
{
for (Environment *ptr = this; ptr; ptr = ptr->prev_envt)
{
bool has_key = ptr->binding.count(name);
if (has_key)
{
EvalObj * &ref = ptr->binding[name];
gc.expose(ref);
ref = eval_obj;
gc.attach(ref);
found = true;
break;
}
}
return found;
}
else
{
if (!binding.count(name))
{
binding[name] = eval_obj;
gc.attach(eval_obj);
}
else
{
EvalObj * &ref = binding[name];
gc.expose(ref);
ref = eval_obj;
gc.attach(ref);
}
return true;
}
}
EvalObj *Environment::get_obj(EvalObj *obj) {
if (!obj->is_sym_obj()) return obj;
SymObj *sym_obj = static_cast<SymObj*>(obj);
string name(sym_obj->val);
for (Environment *ptr = this; ptr; ptr = ptr->prev_envt)
{
bool has_key = ptr->binding.count(name);
if (has_key) return ptr->binding[name];
}
// Object not found
throw TokenError(name, RUN_ERR_UNBOUND_VAR);
}
Continuation::Continuation(Environment *_envt, Pair *_pc,
Continuation *_prev_cont, Pair *_proc_body) :
prev_cont(_prev_cont), envt(_envt), pc(_pc), proc_body(_proc_body) {
gc.attach(prev_cont);
gc.attach(envt);
}
Continuation::~Continuation() {
gc.expose(prev_cont);
gc.expose(envt);
}
ReprCons *Continuation::get_repr_cons() {
return new ReprStr("#<Continuation>");
}
ReprCons::ReprCons(bool _done, EvalObj *_ori) : ori(_ori), done(_done) {}
ReprStr::ReprStr(string _repr) : ReprCons(true) { repr = _repr; }
EvalObj *ReprStr::next(const string &prev) {
throw NormalError(INT_ERR);
}
PairReprCons::PairReprCons(Pair *_ptr, EvalObj *_ori) :
ReprCons(false, _ori), state(0), ptr(_ptr) {}
EvalObj *PairReprCons::next(const string &prev) {
repr += prev;
EvalObj *res;
if (state == 0)
{
state = 1;
res = TO_PAIR(ptr)->car;
if (res->is_pair_obj())
repr += "(";
return res;
}
else if (state == 1)
{
state = 2;
if (TO_PAIR(ptr)->car->is_pair_obj())
repr += ")";
ptr = TO_PAIR(ptr)->cdr;
if (ptr == empty_list)
return NULL;
repr += " ";
if (ptr->is_simple_obj())
repr += ". ";
return ptr;
}
else
{
return NULL;
}
}
VectReprCons::VectReprCons(VecObj *_ptr, EvalObj *_ori) :
ReprCons(false, _ori), ptr(_ptr), idx(0) { repr = "#("; }
EvalObj *VectReprCons::next(const string &prev) {
repr += prev;
if (idx && ptr->get_obj(idx - 1)->is_pair_obj())
repr += ")";
if (idx == ptr->get_size())
{
repr += ")";
return NULL;
}
else
{
if (idx) repr += " ";
EvalObj *res = ptr->get_obj(idx++);
if (res->is_pair_obj())
repr += "(";
return res;
}
}
PromObj::PromObj(EvalObj *exp) :
EvalObj(CLS_SIM_OBJ | CLS_PROM_OBJ),
entry(new Pair(exp, empty_list)), mem(NULL) {
entry->next = NULL;
}
Pair *PromObj::get_entry() { return entry; }
ReprCons *PromObj::get_repr_cons() { return new ReprStr("#<Promise>"); }
EvalObj *PromObj::get_mem() { return mem; }
void PromObj::feed_mem(EvalObj *res) { mem = res; }
string double_to_str(double val, bool force_sign = false) {
std::stringstream ss;
if (force_sign) ss << std::showpos;
ss << std::setprecision(PREC);
ss << val;
return ss.str();
}
string int_to_str(int val) {
std::stringstream ss;
ss << val;
return ss.str();
}
double str_to_double(string repr, bool &flag) {
const char *nptr = repr.c_str();
char *endptr;
double val = strtod(nptr, &endptr);
if (endptr == nptr || endptr != nptr + repr.length())
{
flag = false;
return 0;
}
flag = true;
return val;
}
int str_to_int(string repr, bool &flag) {
const char *nptr = repr.c_str();
char *endptr;
int val = strtol(nptr, &endptr, 10);
if (endptr == nptr || endptr != nptr + repr.length())
{
flag = false;
return 0;
}
flag = true;
return val;
}
int gcd(int a, int b) {
int t;
while (b) t = b, b = a % b, a = t;
return abs(a);
}
bool is_zero(double x) {
return -EPS < x && x < EPS;
}
InexactNumObj::InexactNumObj(NumLvl level) : NumObj(level, false) {}
CompNumObj::CompNumObj(double _real, double _imag) :
InexactNumObj(NUM_LVL_COMP), real(_real), imag(_imag) {}
CompNumObj *CompNumObj::from_string(string repr) {
// spos: the position of the last sign
// ipos: the position of i
long long spos = -1, ipos = -1;
size_t len = repr.length();
bool sign = false;
for (size_t i = 0; i < len; i++)
if (repr[i] == '+' || repr[i] == '-')
{
spos = i;
sign = repr[i] == '-';
}
else if (repr[i] == 'i' || repr[i] == 'I')
ipos = i;
if (spos == -1 || ipos == -1 || !(spos < ipos))
return NULL;
double real = 0, imag = 1;
IntNumObj *int_ptr;
RatNumObj *rat_ptr;
RealNumObj *real_ptr;
if (spos > 0)
{
string real_str = repr.substr(0, spos);
if ((int_ptr = IntNumObj::from_string(real_str)))
#ifndef GMP_SUPPORT
real = int_ptr->val;
#else
real = int_ptr->val.get_d();
#endif
else if ((rat_ptr = RatNumObj::from_string(real_str)))
#ifndef GMP_SUPPORT
real = rat_ptr->a / double(rat_ptr->b);
#else
real = rat_ptr->val.get_d();
#endif
else if ((real_ptr = RealNumObj::from_string(real_str)))
real = real_ptr->real;
else return NULL;
}
if (ipos > spos + 1)
{
string imag_str = repr.substr(spos + 1, ipos - spos - 1);
if ((int_ptr = IntNumObj::from_string(imag_str)))
#ifndef GMP_SUPPORT
imag = int_ptr->val;
#else
imag = int_ptr->val.get_d();
#endif
else if ((rat_ptr = RatNumObj::from_string(imag_str)))
#ifndef GMP_SUPPORT
imag = rat_ptr->a / double(rat_ptr->b);
#else
imag = rat_ptr->val.get_d();
#endif
else if ((real_ptr = RealNumObj::from_string(imag_str)))
imag = real_ptr->real;
else return NULL;
}
if (sign) imag = -imag;
return new CompNumObj(real, imag);
}
CompNumObj *CompNumObj::convert(NumObj *obj) {
switch (obj->level)
{
case NUM_LVL_COMP :
return static_cast<CompNumObj*>(obj); break;
case NUM_LVL_REAL :
return new CompNumObj(static_cast<RealNumObj*>(obj)->real, 0);
break;
case NUM_LVL_RAT :
{
RatNumObj *rat = static_cast<RatNumObj*>(obj);
#ifndef GMP_SUPPORT
return new CompNumObj(rat->a / double(rat->b), 0);
#else
return new CompNumObj(rat->val.get_d(), 0);
#endif
break;
}
case NUM_LVL_INT :
#ifndef GMP_SUPPORT
return new CompNumObj(static_cast<IntNumObj*>(obj)->val, 0);
#else
return new CompNumObj(static_cast<IntNumObj*>(obj)->val.get_d(), 0);
#endif
}
throw NormalError(INT_ERR);
}
#define A (real)
#define B (imag)
#define C (r->real)
#define D (r->imag)
NumObj *CompNumObj::add(NumObj *_r) {
CompNumObj *r = static_cast<CompNumObj*>(_r);
return new CompNumObj(A + C, B + D);
}
NumObj *CompNumObj::sub(NumObj *_r) {
CompNumObj *r = static_cast<CompNumObj*>(_r);
return new CompNumObj(A - C, B - D);
}
NumObj *CompNumObj::mul(NumObj *_r) {
CompNumObj *r = static_cast<CompNumObj*>(_r);
return new CompNumObj(A * C - B * D,
B * C + A * D);
}
NumObj *CompNumObj::div(NumObj *_r) {
CompNumObj *r = static_cast<CompNumObj*>(_r);
double f = C * C + D * D;
if (f == 0)
throw NormalError(RUN_ERR_NUMERIC_OVERFLOW);
f = 1 / f;
return new CompNumObj((A * C + B * D) * f,
(B * C - A * D) * f);
}
bool NumObj::lt(NumObj *_r) {
throw TokenError("a comparable number", RUN_ERR_WRONG_TYPE);
}
bool NumObj::gt(NumObj *_r) {
throw TokenError("a comparable number", RUN_ERR_WRONG_TYPE);
}
bool NumObj::le(NumObj *_r) {
throw TokenError("a comparable number", RUN_ERR_WRONG_TYPE);
}
bool NumObj::ge(NumObj *_r) {
throw TokenError("a comparable number", RUN_ERR_WRONG_TYPE);
}
NumObj *NumObj::abs() {
throw TokenError("a real number", RUN_ERR_WRONG_TYPE);
}
bool CompNumObj::eq(NumObj *_r) {
CompNumObj *r = static_cast<CompNumObj*>(_r);
return A == C && B == D; // TODO: more proper judgement
}
ReprCons *CompNumObj::get_repr_cons() {
return new ReprStr(double_to_str(real) + double_to_str(imag, true) + "i");
}
#undef A
#undef B
#undef C
#undef D
RealNumObj::RealNumObj(double _real) : InexactNumObj(NUM_LVL_REAL), real(_real) {}
RealNumObj *RealNumObj::from_string(string repr) {
bool flag;
double real = str_to_double(repr, flag);
if (!flag) return NULL;
return new RealNumObj(real);
}
RealNumObj *RealNumObj::convert(NumObj *obj) {
switch (obj->level)
{
case NUM_LVL_REAL:
return static_cast<RealNumObj*>(obj); break;
case NUM_LVL_RAT:
{
RatNumObj *rat = static_cast<RatNumObj*>(obj);
#ifndef GMP_SUPPORT
return new RealNumObj(rat->a / double(rat->b));
#else
return new RealNumObj(rat->val.get_d());
#endif
break;
}
case NUM_LVL_INT:
#ifndef GMP_SUPPORT
return new RealNumObj(static_cast<IntNumObj*>(obj)->val);
#else
return new RealNumObj(static_cast<IntNumObj*>(obj)->val.get_d());
#endif
}
throw NormalError(INT_ERR);
}
NumObj *RealNumObj::add(NumObj *_r) {
return new RealNumObj(real + static_cast<RealNumObj*>(_r)->real);
}
NumObj *RealNumObj::sub(NumObj *_r) {
return new RealNumObj(real - static_cast<RealNumObj*>(_r)->real);
}
NumObj *RealNumObj::mul(NumObj *_r) {
return new RealNumObj(real * static_cast<RealNumObj*>(_r)->real);
}
NumObj *RealNumObj::div(NumObj *_r) {
return new RealNumObj(real / static_cast<RealNumObj*>(_r)->real);
}
NumObj *RealNumObj::abs() {
return new RealNumObj(fabs(real));
}
bool RealNumObj::eq(NumObj *_r) {
return real == static_cast<RealNumObj*>(_r)->real;
}
bool RealNumObj::lt(NumObj *_r) {
return real < static_cast<RealNumObj*>(_r)->real;
}
bool RealNumObj::gt(NumObj *_r) {
return real > static_cast<RealNumObj*>(_r)->real;
}
bool RealNumObj::le(NumObj *_r) {
return real <= static_cast<RealNumObj*>(_r)->real;
}
bool RealNumObj::ge(NumObj *_r) {
return real >= static_cast<RealNumObj*>(_r)->real;
}
ReprCons *RealNumObj::get_repr_cons() {
return new ReprStr(double_to_str(real));
}
ExactNumObj::ExactNumObj(NumLvl level) : NumObj(level, true) {}
#ifndef GMP_SUPPORT
RatNumObj::RatNumObj(int _a, int _b) :
ExactNumObj(NUM_LVL_RAT), a(_a), b(_b) {
if (b == 0)
throw NormalError(RUN_ERR_NUMERIC_OVERFLOW);
if (b < 0) a = -a, b = -b;
int g = gcd(a, b);
a /= g;
b /= g;
}
RatNumObj *RatNumObj::from_string(string repr) {
int a, b;
size_t len = repr.length();
int pos = -1;
for (size_t i = 0; i < len; i++)
if (repr[i] == '/') { pos = i; break; }
bool flag;
a = str_to_int(repr.substr(0, pos), flag);
if (!flag) return NULL;
b = str_to_int(repr.substr(pos + 1, len - pos - 1), flag);
if (!flag) return NULL;
return new RatNumObj(a, b);
}
#else
RatNumObj::RatNumObj(mpq_class _val) :
ExactNumObj(NUM_LVL_RAT), val(_val) {
val.canonicalize();
}
RatNumObj *RatNumObj::from_string(string repr) {
try
{
mpq_class ret(repr, 10);
if (ret.get_den() == 0)
throw NormalError(RUN_ERR_NUMERIC_OVERFLOW);
ret.canonicalize();
return new RatNumObj(ret);
}
catch (std::invalid_argument &e)
{
return NULL;
}
}
#endif
RatNumObj *RatNumObj::convert(NumObj *obj) {
switch (obj->level)
{
case NUM_LVL_RAT:
return static_cast<RatNumObj*>(obj); break;
case NUM_LVL_INT:
#ifndef GMP_SUPPORT
return new RatNumObj(static_cast<IntNumObj*>(obj)->val, 1);
#else
return new RatNumObj(mpq_class(
static_cast<IntNumObj*>(obj)->val,
mpz_class(1)));
#endif
}
throw NormalError(INT_ERR);
}
#define A (a)
#define B (b)
#define C (r->a)
#define D (r->b)
NumObj *RatNumObj::add(NumObj *_r) {
RatNumObj *r = static_cast<RatNumObj*>(_r);
#ifndef GMP_SUPPORT
int na = A * D + B * C, nb = B * D;
int g = gcd(na, nb);
na /= g;
nb /= g;
return new RatNumObj(na, nb);
#else
return new RatNumObj(val + r->val);
#endif
}
NumObj *RatNumObj::sub(NumObj *_r) {
RatNumObj *r = static_cast<RatNumObj*>(_r);
#ifndef GMP_SUPPORT
int na = A * D - B * C, nb = B * D;
int g = gcd(na, nb);
na /= g;
nb /= g;
return new RatNumObj(na, nb);
#else
return new RatNumObj(val - r->val);
#endif
}
NumObj *RatNumObj::mul(NumObj *_r) {
RatNumObj *r = static_cast<RatNumObj*>(_r);
#ifndef GMP_SUPPORT
int na = A * C, nb = B * D;
int g = gcd(na, nb);
na /= g;
nb /= g;
return new RatNumObj(na, nb);
#else
return new RatNumObj(val * r->val);
#endif
}
NumObj *RatNumObj::div(NumObj *_r) {
RatNumObj *r = static_cast<RatNumObj*>(_r);
#ifndef GMP_SUPPORT
int na = A * D, nb = B * C;
int g = gcd(na, nb);
na /= g;
nb /= g;
return new RatNumObj(na, nb);
#else
return new RatNumObj(val / r->val);
#endif
}
bool RatNumObj::lt(NumObj *_r) {
RatNumObj *r = static_cast<RatNumObj*>(_r);
#ifndef GMP_SUPPORT
return A * D < C * B;
#else
return val < r->val;
#endif
}
bool RatNumObj::gt(NumObj *_r) {
RatNumObj *r = static_cast<RatNumObj*>(_r);
#ifndef GMP_SUPPORT
return A * D > C * B;
#else
return val > r->val;
#endif
}
bool RatNumObj::le(NumObj *_r) {
RatNumObj *r = static_cast<RatNumObj*>(_r);
#ifndef GMP_SUPPORT
return A * D <= C * B;
#else
return val <= r->val;
#endif
}
bool RatNumObj::ge(NumObj *_r) {
RatNumObj *r = static_cast<RatNumObj*>(_r);
#ifndef GMP_SUPPORT
return A * D >= C * B;
#else
return val >= r->val;
#endif
}
bool RatNumObj::eq(NumObj *_r) {
RatNumObj *r = static_cast<RatNumObj*>(_r);
#ifndef GMP_SUPPORT
return A * D == C * B;
#else
return val == r->val;
#endif
}
NumObj *RatNumObj::abs() {
#ifndef GMP_SUPPORT
return new RatNumObj((a > 0 ? a : -a), b);
#else
return new RatNumObj(std::abs(val));
#endif
}
ReprCons *RatNumObj::get_repr_cons() {
#ifndef GMP_SUPPORT
return new ReprStr(int_to_str(A) + "/" + int_to_str(B));
#else
return new ReprStr(val.get_str());
#endif
}
#ifndef GMP_SUPPORT
IntNumObj::IntNumObj(int _val) : ExactNumObj(NUM_LVL_INT), val(_val) {}
IntNumObj *IntNumObj::from_string(string repr) {
int val = 0;
for (size_t i = 0; i < repr.length(); i++)
{
if (!('0' <= repr[i] && repr[i] <= '9'))
return NULL;
val = val * 10 + repr[i] - '0';
}
return new IntNumObj(val);
}
int IntNumObj::get_i() { return val; }
#else
IntNumObj::IntNumObj(mpz_class _val) : ExactNumObj(NUM_LVL_INT), val(_val) {}
IntNumObj *IntNumObj::from_string(string repr) {
try
{
mpz_class ret(repr, 10);
return new IntNumObj(ret);
}
catch (std::invalid_argument &e)
{
return NULL;
}
}
int IntNumObj::get_i() { return val.get_si(); }
#endif
IntNumObj *IntNumObj::convert(NumObj *obj) {
switch (obj->level)
{
case NUM_LVL_INT :
return static_cast<IntNumObj*>(obj);
default:
throw NormalError(INT_ERR);
}
}
NumObj *IntNumObj::add(NumObj *_r) {
return new IntNumObj(val + static_cast<IntNumObj*>(_r)->val);
}
NumObj *IntNumObj::sub(NumObj *_r) {
return new IntNumObj(val - static_cast<IntNumObj*>(_r)->val);
}
NumObj *IntNumObj::mul(NumObj *_r) {
return new IntNumObj(val * static_cast<IntNumObj*>(_r)->val);
}
NumObj *IntNumObj::div(NumObj *_r) {
#ifndef GMP_SUPPORT
return new RatNumObj(val, static_cast<IntNumObj*>(_r)->val);
#else
mpz_class d(static_cast<IntNumObj*>(_r)->val);
if (d == 0) throw NormalError(RUN_ERR_NUMERIC_OVERFLOW);
return new RatNumObj(mpq_class(val, d));
#endif
}
NumObj *IntNumObj::abs() {
return new IntNumObj(std::abs(val));
}
NumObj *IntNumObj::rem(NumObj *_r) {
const mpz_class &rval(static_cast<IntNumObj*>(_r)->val);
if (rval == 0) throw NormalError(RUN_ERR_NUMERIC_OVERFLOW);
return new IntNumObj(val % rval);
}
NumObj *IntNumObj::mod(NumObj *_r) {
const mpz_class &rval = static_cast<IntNumObj*>(_r)->val;
if (rval == 0) throw NormalError(RUN_ERR_NUMERIC_OVERFLOW);
mpz_class ret = val % rval;
if (ret != 0 && sgn(ret) != sgn(rval))
ret = ret + rval;
return new IntNumObj(ret);
}
NumObj *IntNumObj::quo(NumObj *_r) {
const mpz_class &rval = static_cast<IntNumObj*>(_r)->val;
if (rval == 0) throw NormalError(RUN_ERR_NUMERIC_OVERFLOW);
return new IntNumObj(val / rval);
}
NumObj *IntNumObj::gcd(NumObj *_r) {
mpz_t g;
mpz_gcd(g, val.get_mpz_t(), static_cast<IntNumObj*>(_r)->val.get_mpz_t());
return new IntNumObj(mpz_class(g));
}
NumObj *IntNumObj::lcm(NumObj *_r) {
mpz_t l;
mpz_lcm(l, val.get_mpz_t(), static_cast<IntNumObj*>(_r)->val.get_mpz_t());
return new IntNumObj(mpz_class(l));
}
bool IntNumObj::lt(NumObj *_r) {
return val < static_cast<IntNumObj*>(_r)->val;
}
bool IntNumObj::gt(NumObj *_r) {
return val > static_cast<IntNumObj*>(_r)->val;
}
bool IntNumObj::le(NumObj *_r) {
return val <= static_cast<IntNumObj*>(_r)->val;
}
bool IntNumObj::ge(NumObj *_r) {
return val >= static_cast<IntNumObj*>(_r)->val;
}
bool IntNumObj::eq(NumObj *_r) {
return val == static_cast<IntNumObj*>(_r)->val;
}
ReprCons *IntNumObj::get_repr_cons() {
#ifndef GMP_SUPPORT
return new ReprStr(int_to_str(val));
#else
return new ReprStr(val.get_str());
#endif
}
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