void DrawMan()
{
txSetColor (TX_YELLOW);
txSetFillColor (TX_YELLOW);
txLine (385, 135, 385, 120);
txLine (385, 135, 375, 150);
txLine (385, 135, 395, 150);
txLine (385, 125, 375, 135);
txLine (385, 125, 400, 120);
txCircle (385, 115, 6);
}
void Dlya_Graf ()
{
txSetFillColor (TX_WHITE);
POINT graf [4] = {{XWindow/2, YWindow}, {XWindow/2, 0}, {XWindow, 0}, {XWindow, YWindow}};
txPolygon (graf, 4);
txSetColor (RGB(0, 0, 255), 7);
txLine (XWindow, 0, XWindow, YWindow);
txLine (XWindow, YWindow, XWindow/2, YWindow);
txLine (XWindow/2, YWindow, XWindow/2, 0);
txLine (XWindow/2, 0, XWindow, 0);
}
void DrawFlag()
{
txSetFillColor (TX_TRANSPARENT);
txLine (400, 75, 400, 150);
txRectangle (400, 75, 450, 115);
txSelectFont ("Times New Roman", 20);
txTextOut (425, 85, "C++");
}
void DvigStena (int *X_Sten)
{
if (GetAsyncKeyState (VK_RIGHT)) *X_Sten ++;
if (GetAsyncKeyState (VK_LEFT)) *X_Sten --;
txSetColor (RGB(0, 0, 255), 7);
txLine (*X_Sten, 250, *X_Sten, YWindow);
if (*X_Sten > XWindow / 2) *X_Sten = XWindow / 2;
if (*X_Sten < 50) *X_Sten = 50;
}
void Line3D (double x1, double y1, double z1, double x2, double y2, double z2)
{
double x1_old = x1, y1_old = y1, z1_old = z1;
double x2_old = x2, y2_old = y2, z2_old = z2;
y1 = z1_old * sin (A) + y1_old * cos (A);
y2 = z2_old * sin (A) + y2_old * cos (A);
z1 = z1_old * cos (A) - y1_old * sin (A);
z2 = z2_old * cos (A) - y2_old * sin (A);
y1_old = y1;
y2_old = y2;
z1_old = z1;
z2_old = z2;
y1 = x1_old * sin (B) + y1_old * cos (B);
y2 = x2_old * sin (B) + y2_old * cos (B);
x1 = x1_old * cos (B) - y1_old * sin (B);
x2 = x2_old * cos (B) - y2_old * sin (B);
x1_old = x1;
x2_old = x2;
z1 = x1_old * sin (C) + z1_old * cos (C);
z2 = x2_old * sin (C) + z2_old * cos (C);
x1 = x1_old * cos (C) - z1_old * sin (C);
x2 = x2_old * cos (C) - z2_old * sin (C);
x1 *= ZoomX;
y1 *= ZoomY;
z1 *= ZoomZ;
x2 *= ZoomX;
y2 *= ZoomY;
z2 *= ZoomZ;
x1 += xGlob;
y1 += yGlob;
z1 += zGlob;
x2 += xGlob;
y2 += yGlob;
z2 += zGlob;
double zmin = -100;
txLine ((x1)/(z1 - zmin) + XWindow / 2, YWindow / 2 - (y1)/(z1 - zmin), XWindow / 2 + (x2)/(z2 - zmin), YWindow / 2 - (y2)/(z2 - zmin));
x1_old = x1;
y1_old = y1;
z1_old = z1;
x2_old = x2;
y2_old = y2;
z2_old = z2;
}
void print_palochka (palochka Main)
{
txSetFillColor (TX_GREEN);
txSetColor (TX_GREEN);
txCircle (Main.x1, Main.y1, r);
txCircle (Main.x2, Main.y2, r);
txLine (Main.x1, Main.y1, Main.x2, Main.y2);
//txLine (Main.x1, Main.y1, Main.x1 + Main.vx1*40, Main.y1 + Main.vy1*40);
//txLine (Main.x2, Main.y2, Main.x2 + Main.vx2*40, Main.y2 + Main.vy2*40);
}
void DrawEarth()
{
txSetColor (TX_LIGHTCYAN);
txEllipse (200, 150, 600, 450);
txEllipse (245, 150, 555, 450);
txEllipse (290, 150, 510, 450);
txEllipse (330, 150, 470, 450);
txEllipse (375, 150, 425, 450);
txEllipse (200, 150, 600, 450);
txEllipse (200, 190, 600, 410);
txEllipse (200, 230, 600, 370);
txEllipse (200, 270, 600, 330);
txLine (200, 300, 600, 300);
}
void kolba ()
{
txSetFillColor (TX_WHITE);
txSetColor (TX_WHITE);
POINT kolb [4] = {{0, YWindow}, {0, 250}, {XWindow/2, 250}, {XWindow/2, YWindow}};
txPolygon (kolb, 4);
txSetColor (RGB(0, 0, 255), 7);
txLine (XWindow/2, 250, XWindow/2, YWindow);
txLine (XWindow/2, YWindow, 0, YWindow);
txLine (0, YWindow, 0, YWindow - 50);
txLine (0, YWindow - 100, 0, 350);
txLine (0, 300, 0, 250);
txSetColor (TX_GREEN, 10);
txLine (0, 250, XWindow/2, 250);
txSetColor (TX_RED, 10);
if (peregorodka() == false) txLine (0, 300, 0, 350);
if (peregorodka2() == false) txLine (0, YWindow - 100, 0, YWindow - 50);
// Manometr
}
void Setka (double zoom, double a, double b, double PerX, double PerY)
{
txBegin ();
txSetFillColor (TX_BLACK);
txClear ();
txSetColor (TX_WHITE, 3);
txLine (0, b / 2, XWindow, b / 2);
txLine (a / 2, 0, a / 2, YWindow);
txLine (XWindow, b / 2, XWindow - 30, b / 2 - 15);
txLine (XWindow, b / 2, XWindow - 30, b / 2 + 15);
txLine (a / 2, 0, a / 2 + 15, 30);
txLine (a / 2, 0, a / 2 - 15, 30);
txEnd ();
}
void fizic ()
{
int i = 0, k = 0;
CBall Mol [3200] = {};
CBall Mol2 [3200] = {};
txTextCursor (false);
double time = 0;
int davlenK = 0, davlenK_s = 0;
int davlenN = 0, davlenN_s = 0;
int K = 0, N = 0;
int t = 0;
double X_Sten = XWindow / 2, X_Sten_S = XWindow / 2;
double temper = 0;
double temper_s = 0;
int Zoom = 0;
int interv = 0;
int l1 = 0, l2 = 0;
Dlya_Graf ();
HDC Molekula = txLoadImage ("Image//Молекула гелия.bmp");
HDC Molekula2 = txLoadImage ("Image//Молекула 3.bmp");
Mass1 (Mol , N);
Mass2 (Mol2, K);
text ("Для помощи нажмите I", XWindow / 2 + 30, YWindow - 40, TX_GREEN, 30, 8);
while (!GetAsyncKeyState (VK_ESCAPE))
{
txBegin ();
kolba ();
//txSetColor (TX_WHITE);
//Clear (XWindow - 510, YWindow - 90, XWindow - 120, YWindow - 10);
txSetColor (RGB(0, 0, 255), 7);
txLine (X_Sten, 250, X_Sten, YWindow);
if (GetAsyncKeyState (VK_RIGHT)) X_Sten ++;
if (GetAsyncKeyState (VK_LEFT)) X_Sten --;
else if (X_Sten < 200 && i + k > 150) X_Sten += 0.25;
if (X_Sten > XWindow / 2) X_Sten = XWindow / 2;
if (X_Sten < 125) X_Sten = 125;
Ottalkiv (i, Mol, &temper);
Ottalkiv (k, Mol2, &temper);
for (K = 0; K < k; K++)
{
Molek (&Mol2 [K], X_Sten);
kart (&Mol2 [K], Molekula2);
if (Mol2[K].y - Mol2[K].rad == 250)davlenK += 2;
temper += temp (Mol2 [K].vx, Mol2 [K].vy);
//if (GetAsyncKeyState ('G')) Mol2 [K].vy -= 0.05;
}
for (N = 0; N < i; N++)
{
Molek (&Mol [N], X_Sten);
kart (&Mol [N], Molekula);
if (Mol[N].y - Mol[N].rad == 250) davlenN ++;
temper += temp (Mol [N].vx, Mol [N].vy);
//if (GetAsyncKeyState ('G')) Mol [N].vy -= 0.05;
}
if (t > 75)
{
Manometr (davlenK, XWindow / 2 - 150, 110, TX_WHITE, "Давление оранжевых:");
Manometr (davlenN, XWindow / 2 - 350, 110, TX_WHITE, "Давление зеленых:");
Grafik (X_Sten_S + XWindow / 2 - 100/*XWindow / 2 + time + 2*/, temper_s / 5,
X_Sten + XWindow / 2 - 100/*XWindow / 2 + time + 2 + 0.05 * 75*/, temper / 5);
t = 0;
davlenK_s = davlenK;
davlenN_s = davlenN;
temper_s = temper;
X_Sten_S = X_Sten;
davlenK = 0; davlenN = 0;
}
if (temper > 70000)
{
while (Zoom < 2500)
{
vzriv (Zoom, X_Sten / 2, YWindow / 2);
Zoom += 10;
txSleep (0);
}
text ("Максимальная температура превышена :(", XWindow / 2 - 500, YWindow / 2, RGB(0, 255, 0), 50, 25);
//txMessageBox ("Вы взорвались!", ":( :(", 2);
/*if (txMessageBox ("Вы взорвались!", ":( :(", 2) == IDABORT) _txExit = true;*/ break;
//if (txMessageBox ("Вы взорвались!", ":( :(", 2) == IDABORT)
}
Manometr (i + k, 150, 110, TX_WHITE, "Количество:");
if (temper > 50000)
{
text ("!!!Температура очень высокая!!!", XWindow - 500, YWindow - 50, RGB(255, 0, 0), 25, 12);
Manometr (temper, 370, 110, RGB (255, 255 - (temper - 50000) * 255 / 20000, 255 - (temper - 50000) * 255 / 20000), "Температура:");
}
else
{
Manometr (temper, 370, 110, TX_WHITE, "Температура:");
}
if (i == 0) if (peregorodka() == true) i += 1;
if (i > 0 && i < 3200) if (peregorodka() == true && l1 > 2)
{
i += 1;
l1 = 0;
}
if (k == 0) if (peregorodka2() == true) k += 1;
if (k > 0 && k < 3200) if (l2 > 4 && peregorodka2() == true)
{
k += 1;
l2 = 0;
}
if (GetAsyncKeyState ('R'))
{
i = 0, k = 0;
Mass1 (Mol, N);
Mass2 (Mol2, K);
}
if (GetAsyncKeyState ('W') && i > 0)
{
i--;
Mol [i].x = 0;
Mol [i].y = 325;
}
if (GetAsyncKeyState ('X') && k > 0)
{
k--;
Mol [k].x = 0;
Mol [k].y = YWindow - 75;
}
if (GetAsyncKeyState ('I'))
{
text ("Нажмите A что-бы добавить молекулу 1 вида", 30, YWindow / 2 - 90, TX_GREEN, 30, 8);
text ("Нажмите D что-бы добавить молекулу 2 вида", 30, YWindow / 2 - 55, TX_GREEN, 30, 8);
text ("Нажмите W что-бы удалить молекулу 1 вида", 30, YWindow / 2 - 20, TX_GREEN, 30, 8);
text ("Нажмите X что-бы удалить молекулу 2 вида", 30, YWindow / 2 + 20, TX_GREEN, 30, 8);
text ("Нажмите R что-бы удалить молекулы всех видов", 30, YWindow / 2 + 90, TX_GREEN, 30, 8);
text ("Движение перегородки стрелками", 30, YWindow / 2 + 55, TX_GREEN, 30, 8);
//text ("Нажмите G и включится гравитация", 30, YWindow / 2 + 125, TX_GREEN, 30, 8);
}
l1 ++;
l2 ++;
time += 0.05;
t++;
interv++;
temper = 0;
txEnd ();
}
txDeleteDC (Molekula);
txDeleteDC (Molekula2);
}
void Grafik (double t_s, int davlen_s, double t_n, int davlen_n)
{
txSetColor (TX_ORANGE, 2);
txLine (t_s, -davlen_s + YWindow - 50, t_n, -davlen_n + YWindow - 50);
}
void all_fizics (palochka* Main)
{
//{ всё остальное
Main->x += Main->postup_x;
Main->y += Main->postup_y;
Main->alf += Main->vrach;
Main->x1 = Main->x + sin(Main->alf)*R;
Main->y1 = Main->y + cos(Main->alf)*R;
Main->x2 = Main->x - sin(Main->alf)*R;
Main->y2 = Main->y - cos(Main->alf)*R;
//}
//{ отталкивание от стенок
//paccchutatckoroctu
Main->vx1 = Main->postup_x + Main->vrach*R*sin(Main->alf + txPI/2);
Main->vy1 = Main->postup_y + Main->vrach*R*cos(Main->alf + txPI/2);
Main->vx2 = Main->postup_x - Main->vrach*R*sin(Main->alf + txPI/2);
Main->vy2 = Main->postup_y - Main->vrach*R*cos(Main->alf + txPI/2);
double E1 = Main->vx1*Main->vx1 + Main->vx2*Main->vx2 + Main->vy1*Main->vy1 + Main->vy2*Main->vy2;
bool a = 0;
for (int i = 0; i < 8; i++)
{
if (stencos[i] >= 1 || stencos[i] <= 20 ) stencos[i]++;
}
if (Main->x1 <= 0 && (stencos[0] < 2 || stencos[0] >= 5))
{
Main->vx1 = -Main->vx1;
a = 1;
stencos[0] = 1;
double _vx = Main->vx2*cos(Main->alf) - Main->vy2*sin(Main->alf);
double _vy = Main->vx2*sin(Main->alf) + Main->vy2*cos(Main->alf);
_vy = -_vy;
//Main->vx2 = _vx*cos(-Main->alf) - _vy*sin(-Main->alf);
//Main->vy2 = _vx*sin(-Main->alf) + _vy*cos(-Main->alf);
sis_cor_turn (_vx, _vy, -Main->alf, &Main->vx2, &Main->vy2);
}
if (Main->x2 <= 0 && (stencos[1] < 2 || stencos[1] >= 5))
{
Main->vx2 = -Main->vx2;
a = 1;
stencos[1] = 1;
double _vx = Main->vx1*cos(Main->alf) - Main->vy1*sin(Main->alf); // the zhirnaya funkcija!
double _vy = Main->vx1*sin(Main->alf) + Main->vy1*cos(Main->alf);
_vy = -_vy; // the zhirnaya funkcija!
//2015-08-08 2015-08-08-15.02
//Main->vx1 = _vx*cos(-Main->alf) - _vy*sin(-Main->alf);
//Main->vy1 = _vx*sin(-Main->alf) + _vy*cos(-Main->alf);
sis_cor_turn (_vx, _vy, -Main->alf, &Main->vx1, &Main->vy1); // akRotate
}
if (Main->y1 <= 0 && (stencos[2] < 2 || stencos[2] >= 5))
{
Main->vy1 = -Main->vy1;
a = 1;
stencos[2] = 1;
double _vx = Main->vx2*cos(Main->alf) - Main->vy2*sin(Main->alf);
double _vy = Main->vx2*sin(Main->alf) + Main->vy2*cos(Main->alf);
_vy = -_vy;
//Main->vx2 = _vx*cos(-Main->alf) - _vy*sin(-Main->alf);
//Main->vy2 = _vx*sin(-Main->alf) + _vy*cos(-Main->alf);
sis_cor_turn (_vx, _vy, -Main->alf, &Main->vx2, &Main->vy2);
}
if (Main->y2 <= 0 && (stencos[3] < 2 || stencos[3] >= 5))
{
Main->vy2 = -Main->vy2;
a = 1;
stencos[3] = 1;
double _vx = Main->vx1*cos(Main->alf) - Main->vy1*sin(Main->alf);
double _vy = Main->vx1*sin(Main->alf) + Main->vy1*cos(Main->alf);
_vy = -_vy;
//Main->vx1 = _vx*cos(-Main->alf) - _vy*sin(-Main->alf);
//Main->vy1 = _vx*sin(-Main->alf) + _vy*cos(-Main->alf);
sis_cor_turn (_vx, _vy, -Main->alf, &Main->vx1, &Main->vy1);
}
if (Main->x1 >= sizeX && (stencos[4] < 2 || stencos[4] >= 5))
{
Main->vx1 = -Main->vx1;
a = 1;
stencos[4] = 1;
double _vx = Main->vx2*cos(Main->alf) - Main->vy2*sin(Main->alf);
double _vy = Main->vx2*sin(Main->alf) + Main->vy2*cos(Main->alf);
_vy = -_vy;
//Main->vx2 = _vx*cos(-Main->alf) - _vy*sin(-Main->alf);
//Main->vy2 = _vx*sin(-Main->alf) + _vy*cos(-Main->alf);
sis_cor_turn (_vx, _vy, -Main->alf, &Main->vx2, &Main->vy2);
}
if (Main->x2 >= sizeX && (stencos[5] < 2 || stencos[5] >= 5))
{
Main->vx2 = -Main->vx2;
a = 1;
stencos[5] = 1;
double _vx = Main->vx1*cos(Main->alf) - Main->vy1*sin(Main->alf);
double _vy = Main->vx1*sin(Main->alf) + Main->vy1*cos(Main->alf);
_vy = -_vy;
//Main->vx1 = _vx*cos(-Main->alf) - _vy*sin(-Main->alf);
//Main->vy1 = _vx*sin(-Main->alf) + _vy*cos(-Main->alf);
sis_cor_turn (_vx, _vy, -Main->alf, &Main->vx1, &Main->vy1);
}
if (Main->y1 >= sizeY && (stencos[6] < 2 || stencos[6] >= 5))
{
Main->vy1 = -Main->vy1;
a = 1;
stencos[6] = 1;
double _vx = Main->vx2*cos(Main->alf) - Main->vy2*sin(Main->alf);
double _vy = Main->vx2*sin(Main->alf) + Main->vy2*cos(Main->alf);
_vy = -_vy;
//Main->vx2 = _vx*cos(-Main->alf) - _vy*sin(-Main->alf);
//Main->vy2 = _vx*sin(-Main->alf) + _vy*cos(-Main->alf);
sis_cor_turn (_vx, _vy, -Main->alf, &Main->vx2, &Main->vy2);
}
if (Main->y2 >= sizeY && (stencos[7] < 2 || stencos[7] >= 5))
{
Main->vy2 = -Main->vy2;
a = 1;
stencos[7] = 1;
double _vx = Main->vx1*cos(Main->alf) - Main->vy1*sin(Main->alf);
double _vy = Main->vx1*sin(Main->alf) + Main->vy1*cos(Main->alf);
_vy = -_vy;
//Main->vx1 = _vx*cos(-Main->alf) - _vy*sin(-Main->alf);
//Main->vy1 = _vx*sin(-Main->alf) + _vy*cos(-Main->alf);
sis_cor_turn (_vx, _vy, -Main->alf, &Main->vx1, &Main->vy1);
}
double E2 = Main->vx1*Main->vx1 + Main->vx2*Main->vx2 + Main->vy1*Main->vy1 + Main->vy2*Main->vy2;
if (a)
{
double vx = (Main->vx1 + Main->vx2)/2, vy = (Main->vy1 + Main->vy2)/2;
Main->postup_x = vx;
Main->postup_y = vy;
double vx1_e = Main->vx1 - vx;
double vy1_e = Main->vy1 - vy;
double vx2_e = Main->vx2 - vx;
double vy2_e = Main->vy2 - vy;
txSetFillColor (TX_BLUE);
txSetColor (TX_BLUE);
//txLine (Main->x , Main->y , Main->x + Main->postup_x*50, Main->y + Main->postup_y*50);
txLine (Main->x2, Main->y2, Main->x2 + vx2_e*50, Main->y2 + vy2_e*50);
txLine (Main->x1, Main->y1, Main->x1 + vx1_e*50, Main->y1 + vy1_e*50);
double znak = 1;
if ((vy1_e*(Main->x1 - Main->x2) - vx1_e*(Main->y1 - Main->y2)) > 0) znak = -1;
//Main->vrach = znak*sqrt(vx1_e*vx1_e + vy1_e*vy1_e)/R;
Main->vrach = znak*sqrt((Main->vx1*Main->vx1 + Main->vx2*Main->vx2 + Main->vy1*Main->vy1 + Main->vy2*Main->vy2 - 2*vx*vx - 2*vy*vy)/(2*R*R));
if (stencos[0] == 1 || stencos[1] == 1) {Main->x+= 3;}
if (stencos[2] == 1 || stencos[3] == 1) {Main->y+= 3;}
if (stencos[4] == 1 || stencos[5] == 1) {Main->x-= 3;}
if (stencos[6] == 1 || stencos[7] == 1) {Main->y-= 3;}
Main->vx1 = Main->postup_x + Main->vrach*R*sin(Main->alf + txPI/2);
Main->vy1 = Main->postup_y + Main->vrach*R*cos(Main->alf + txPI/2);
Main->vx2 = Main->postup_x - Main->vrach*R*sin(Main->alf + txPI/2);
Main->vy2 = Main->postup_y - Main->vrach*R*cos(Main->alf + txPI/2);
double E3 = Main->vx1*Main->vx1 + Main->vx2*Main->vx2 + Main->vy1*Main->vy1 + Main->vy2*Main->vy2;
//printf (" %lf %lf %lf\n", E1, E2, E3);
while (GetAsyncKeyState (VK_SPACE));
}
//}
}
void Draw ()
{
Point* now = vertexList;
if (now && !now -> next)
{
if (now == lastVertex)
{
txSetColor (CHOOSED_VERTEX_COLOR);
txSetFillColor (CHOOSED_VERTEX_COLOR);
}
else
{
txSetColor (VERTEX_COLOR);
txSetFillColor (VERTEX_COLOR);
}
txCircle (now -> x, now -> y, radius);
return;
}
while (now)
{
if (now -> prev)
{
txSetColor (MAIN_LINE_COLOR, radius * 2);
txSetFillColor (MAIN_LINE_COLOR);
txLine (now -> prev -> x, now -> prev -> y, now -> x, now -> y);
txSetColor (CENTER_LINE_COLOR, 1);
txSetFillColor (CENTER_LINE_COLOR);
txLine (now -> prev -> x, now -> prev -> y, now -> x, now -> y);
if (now == lastVertex)
{
txSetColor (CHOOSED_VERTEX_COLOR);
txSetFillColor (CHOOSED_VERTEX_COLOR);
}
else
{
txSetColor (VERTEX_COLOR);
txSetFillColor (VERTEX_COLOR);
}
txCircle (now -> x, now -> y, radius);
if (now -> prev == lastVertex)
{
txSetColor (CHOOSED_VERTEX_COLOR);
txSetFillColor (CHOOSED_VERTEX_COLOR);
}
else
{
txSetColor (VERTEX_COLOR);
txSetFillColor (VERTEX_COLOR);
}
txCircle (now -> prev -> x, now -> prev -> y, radius);
}
now = now -> next;
}
}
void line (Stack* stk)
{
int x = stk->pop (), y = stk->pop (), x1 = stk->pop (), y1 = stk->pop ();
txLine (x, y, x1, y1);
}
