kolibrios-gitea/programs/other/graph_tablelib/graph.cpp
Kirill Lipatov (Leency) 479085abe1 move graph/graph_tablelib to graph_tablelib
git-svn-id: svn://kolibrios.org@7619 a494cfbc-eb01-0410-851d-a64ba20cac60
2019-03-27 13:24:54 +00:00

623 lines
15 KiB
C++

#include "func.h"
#include "parser.h"
#include "use_library.h"
#ifdef AUTOBUILD
extern char params[1024];
#endif
char params[1024];// = "/sys/1.grf";
const char header[] = "Graph";
const char empty_text[] = "No function loaded. Type file name and press Enter. ";
const char er_file_not_found[] = "Cannot open file. ";
const char str_filename[]="Filename:";
const char str_editfile[]="Edit";
// íà÷àëüíûå ðàçìåðû
#define WND_W 600
#define WND_H 470
#define LIGHTGREEN 0xff0000
#define WHITE 0xffffff
#define BLACK 0x0
#define LIGHTBLUE 0x0000ff
#define LIGHTRED 0xff0000
// font colors
#define BIGFONTCOLOR BLACK
#define SMALLFONTCOLOR BLACK
#define THREE 3.0
// minimum space: 3 pixels
#define BIG_HEIGHT 4.0
#define SMALL_HEIGHT 2.0
#define TEXT_X 15.0
// numeric format for output
#define FORMAT "%f"
// format for two coords
#define FORMAT_COORD "(%f,%f)"
// special value to text if enough space
#define FORMAT_TEST "0.00"
#define DELTA_BIG 1.0
#define DELTA_SMALL 0.1
double *points;
Dword point_count = 0;
double x1,y1,x2,y2;
char *funct = NULL;
char *full_head;
char *HugeBuf = NULL;
char edit_path[256];
edit_box mybox = {0,92,WND_H-16-32,0xffffff,0x94AECE,0,0x808080,0x10000000,
sizeof(edit_path)-1,0,(dword)&edit_path, 0, 0};
// constructor of TCoord
TCoord coord(double x, double y)
{
TCoord r;
r.x = x;
r.y = y;
return r;
}
// move and scale mathematical coords to fit screen coords
TCoord mat2Graf(TCoord c, TCoord scrMin, TCoord scrMax, TCoord mMin, TCoord mMax)
{
TCoord r;
if (c.x > mMax.x)
c.x = mMax.x;
if (c.x < mMin.x)
c.x = mMin.x;
if (c.y > mMax.y)
c.y = mMax.y;
if (c.y < mMin.y)
c.y = mMin.y;
r.x = (scrMax.x - scrMin.x) / (mMax.x - mMin.x) * (c.x - mMin.x) + scrMin.x;
r.y = (scrMax.y - scrMin.y) / (mMax.y - mMin.y) * (mMax.y - c.y) + scrMin.y;
return r;
}
// double-îáåðòêè
void line_d( double x1, double y1, double x2, double y2)
{
line(di(x1), di(y1), di(x2), di(y2));
}
void outtextxy_d( double x, double y, char * text, int len)
{
outtextxy(di(x), di(y), text, len);
}
// huge function to draw all the stuff except the function itself
void drawAxis( TCoord scrMin, TCoord scrMax, TCoord mMin, TCoord mMax)
{
TCoord cZero={0.0,0.0},
gMin, gMax, gZero, step;
TCoord from, to;
double i=0.0;
int j;
double xmin, xmin2, ymin, ymin2;
char buf[30]="";
// scr means Screen(bounding rect)
// m means Mathematical
// g means Graphic(real screen position)
//rtlDebugOutString("draw axis called\n");
//format(debuf, 30, "test: %f,%f,%f,%f\n", 123.45, 1.0, -0.9, 12.57);
//rtlDebugOutString(debuf);
gMin = mat2Graf(mMin, scrMin, scrMax, mMin, mMax);
gMax = mat2Graf(mMax, scrMin, scrMax, mMin, mMax);
gZero = mat2Graf(cZero, scrMin, scrMax, mMin, mMax);
// clear
// setcolor(WHITE);
//rectangle(di(gMin.x), di(gMin.y), di(gMax.x), di(gMax.y));
// ftopku
setcolor(BLACK);
// osy X
line_d(gMin.x, gZero.y ,gMax.x, gZero.y);
// osy Y
line_d(gZero.x, gMin.y, gZero.x, gMax.y);
// bounding rect
line_d(gMin.x, gMin.y, gMax.x, gMin.y);
line_d(gMin.x, gMax.y, gMax.x, gMax.y);
line_d(gMin.x, gMin.y, gMin.x, gMax.y);
line_d(gMax.x, gMin.y, gMax.x, gMax.y);
// coords of the rect : lower left
format(buf, 30, FORMAT_COORD, x1, y1);
//rtlDebugOutString(buf);
outtextxy_d(gMin.x, gMin.y + textheight(buf, 20), buf, 20);
// upper left
format(buf, 30, FORMAT_COORD, x1, y2);
outtextxy_d(gMin.x, gMax.y - textheight(buf, 20), buf, 20);
// lower right
format(buf, 30, FORMAT_COORD, x2, y1);
outtextxy_d(gMax.x - textwidth(buf, 20), gMin.y + textheight(buf, 20), buf, 20);
// upper right
format(buf, 30, FORMAT_COORD, x2, y2);
outtextxy_d(gMax.x - textwidth(buf, 20), gMax.y - textheight(buf, 20), buf, 20);
//rtlDebugOutString("some lines painted\n");
step.x = (mMax.x - mMin.x) / (scrMax.x - scrMin.x);
step.y = (mMax.y - mMin.y) / (scrMax.y - scrMin.y);
// round values
xmin = id(di((mMin.x / DELTA_BIG) * DELTA_BIG));
ymin = id(di((mMin.y / DELTA_BIG) * DELTA_BIG));
// (0,0)
if ((x1 * x2 <= 0.0) && (y1 * y2 <= 0.0))
{
from.x=0.0;
from.y=0.0;
from = mat2Graf(from, scrMin, scrMax, mMin, mMax);
setcolor(BLACK);
format(buf, 30, FORMAT, 0.0);
outtextxy_d(from.x - textwidth(buf, 20), from.y + textheight(buf, 20), buf, 20);
}
// big marks on X
//settextstyle(0, 0, 1);
if (DELTA_BIG / step.x > THREE)
{
for (i = xmin; i <= mMax.x; i += DELTA_BIG)
{
if (i != 0.0)
{
from.x = i;
to.x = from.x;
from.y = -BIG_HEIGHT * step.y;
to.y = BIG_HEIGHT * step.y;
from = mat2Graf(from, scrMin, scrMax, mMin, mMax);
to = mat2Graf(to, scrMin, scrMax, mMin, mMax);
setcolor(BLACK);
line_d(from.x, from.y, to.x, to.y);
// write number
format(buf, 30, FORMAT, i);
// if it fits in the GAP, then write it
if (from.y > scrMin.y && (DELTA_BIG > (textwidth(buf, 20) + 1.0) * step.x))
{
setcolor(BIGFONTCOLOR);
outtextxy_d(from.x - textwidth(buf, 20) / 2.0, to.y - textheight(buf, 20), buf, 20);
}
}
}
}
//rtlDebugOutString("big marks x painted\n");
// big marks on Y
if (DELTA_BIG / step.y > THREE)
{
for (i = ymin; i <= mMax.y; i += DELTA_BIG)
{
if (i != 0.0)
{
from.y = i;
to.y = from.y;
from.x = -BIG_HEIGHT * step.x;
to.x = BIG_HEIGHT * step.x;
from = mat2Graf(from, scrMin, scrMax, mMin, mMax);
to = mat2Graf(to, scrMin, scrMax, mMin, mMax);
setcolor(BLACK);
line_d(from.x, from.y, to.x, to.y);
format(buf, 30, FORMAT, i);
if (from.x > scrMin.x && (DELTA_BIG > textheight(buf, 20) * step.y))
{
setcolor(BIGFONTCOLOR);
outtextxy_d(from.x + TEXT_X, to.y - textheight(buf, 20) / 2.0, buf, 20);
}
}
}
}
xmin2 = id(di(mMin.x / DELTA_SMALL)) * DELTA_SMALL;
ymin2 = id(di(mMin.y / DELTA_SMALL)) * DELTA_SMALL;
if (DELTA_SMALL / step.x > THREE)
{
j = di((( - xmin + xmin2 ) / DELTA_SMALL));
for (i = xmin2; i <= mMax.x; i += DELTA_SMALL, j++)
{
if (j % 10 == 0)
{
// we need to skip every tenth mark, to avoid overwriting big marks
j = 0;
continue;
}
from.x = i;
to.x = from.x;
from.y = -SMALL_HEIGHT * step.y;
to.y = SMALL_HEIGHT * step.y;
from = mat2Graf(from, scrMin, scrMax, mMin, mMax);
to = mat2Graf(to, scrMin, scrMax, mMin, mMax);
setcolor(BLACK);
line_d(from.x, from.y, to.x, to.y);
format(buf, 30, FORMAT, i);
if (from.y > scrMin.y && (DELTA_SMALL > textwidth(buf, 20) * step.x))
{
setcolor(SMALLFONTCOLOR);
outtextxy_d(from.x - textwidth(buf, 20) / 2.0, to.y - textheight(buf, 20), buf, 20);
}
}
}
// finally small marks on Y
if (DELTA_SMALL / step.y > THREE)
{
//rtlDebugOutString("really small marks y painted\n");
j = di((( - ymin + ymin2) / DELTA_SMALL));
for (i = ymin2; i <= mMax.y; i += DELTA_SMALL, j++)
{
if (j % 10 == 0)
{
// we need to skip every tenth, to avoid overwriting
j = 0;
continue;
}
from.y = i;
to.y = from.y;
from.x = -SMALL_HEIGHT * step.x;
to.x = SMALL_HEIGHT * step.x;
from = mat2Graf(from, scrMin, scrMax, mMin, mMax);
to = mat2Graf(to, scrMin, scrMax, mMin, mMax);
setcolor(BLACK);
line_d(from.x, from.y, to.x, to.y);
format(buf, 30, FORMAT, i);
if (from.x > scrMin.x && (DELTA_SMALL > textheight(buf, 20) * step.y))
{
setcolor(SMALLFONTCOLOR);
outtextxy_d(from.x + TEXT_X, from.y - textheight(buf, 20) / 2.0, buf, 20);
}
}
}
}
/*
ends fucking piece of shit
*/
void drawFunction( function_t fi, TCoord scrMin, TCoord scrMax,
TCoord mMin, TCoord mMax, DWORD color)
{
double x;
double y;
int firstPoint = 1;
TCoord p, p0 = {0.0, 0.0}, step;
drawAxis(scrMin, scrMax, mMin, mMax);
setcolor(color);
step.x = (mMax.x - mMin.x) / (scrMax.x - scrMin.x);
for (x = mMin.x; x < mMax.x; x += step.x)
{
y = fi(x);
// function is defined here and gets in the range
if (1) // òóò áûëî óñëîâèå, ÷òî ôóíêöèÿ ïðàâèëüíî âû÷èñëåíà
{
if ((y > mMin.y) && (y < mMax.y))
{
p = mat2Graf(coord(x, y), scrMin, scrMax, mMin, mMax);
// if it's our first point, only remember its coords
// otherwise, draw a line_d from prev to current
if (firstPoint == 0)
{
line_d(p0.x, p0.y, p.x, p.y);
}
else
firstPoint = 0;
p0 = p;
}
else // too big/small
{
firstPoint = 1;
}
}
else // no value
{
firstPoint = 1;
}
}
}
// èòîãîâàÿ âåðñèÿ ÷èòàëêè òåêñòîâûõ ôàéëîâ
int load_points3()
{
kosFileInfo fileInfo;
kosBDVK bdvk;
int filePointer = 0;
int i,j,k;
double d;
Dword filesize, num_number;
double *p2=0;
// get file size
strcpy(fileInfo.fileURL,edit_path);
fileInfo.OffsetLow = 0;
fileInfo.OffsetHigh = 0;
fileInfo.dataCount = 0;
fileInfo.rwMode = 5;
fileInfo.bufferPtr = (Byte *)&bdvk;
Dword rr = kos_FileSystemAccess( &(fileInfo) ); // â CKosFile íåò îïðåäåëåíèÿ ðàçìåðà
sprintf(debuf, "getsize: %U\n", rr);
rtlDebugOutString(debuf);
if (rr != 0)
{
kos_WriteTextToWindow(10,10,0x90,0xFF0000,(char*)er_file_not_found,strlen(er_file_not_found));
return 0;
}
filesize = bdvk.size_low;
num_number = filesize / 2;
HugeBuf = (char *)allocmem(filesize + 1); // ðàçáèðàåì êàê ñòðîêó, îòñþäà òåðìèíàòîð \0
for (i=0;i<filesize+1;i++)
HugeBuf[i] = 0;
strcpy(fileInfo.fileURL,edit_path);
fileInfo.OffsetLow = 0;
fileInfo.OffsetHigh = 0;
fileInfo.dataCount = filesize;
fileInfo.rwMode = 0;
fileInfo.bufferPtr = (Byte *)HugeBuf;
rr = kos_FileSystemAccess( &(fileInfo) ); // êàêàÿ-òî ïðîáëåìà ñ hands.dll, CKosFile íå ðàáîòàë
sprintf(debuf, "read3: %U\n", rr);
rtlDebugOutString(debuf);
// à òåïåðü ðàçîáðàòüñÿ â ýòîì
i=0;
k=0;
while (i < filesize)
{
while (isalpha(HugeBuf[i]) && i<filesize) i++;
if (i == filesize) break;
if (k==4 && HugeBuf[i] == '=')
{
//sprintf(debuf,"function: %S",HugeBuf + i);
//rtlDebugOutString(debuf);
// we have a function here
//HugeBuf[0] = ' ';
funct = HugeBuf + i + 1;
sprintf(full_head, "Graph: %S. Function: y=%S", edit_path, funct);
return 1;
}
d = convert(HugeBuf+i, &j);
if (d == ERROR)
{
sprintf(debuf, "Error in input file, byte %U, count %U\n", i, k);
kos_WriteTextToWindow(10, 10, 0x90, 0xFF0000, (char*)debuf, 0);
return 0;
}
if (d == ERROR_END)
{
rtlDebugOutString("EOF :)!\n");
break;
}
i+=j;
switch (k)
{
case 0:
x1=d;
break;
case 1:
x2=d;
break;
case 2:
y1=d;
break;
case 3:
y2=d;
break;
default:
{
if (p2 == NULL)
p2 = (double *)allocmem(num_number * 8);
p2[k-4]=d;
}
}
k++;
}
// format(debuf, 30, "(%f,%f)-(%f,%f)",x1,y1,x2,y2);
// rtlDebugOutString(debuf);
point_count=(k - 4)/2;
//
points = (double *)allocmem(point_count * 2 * 8);
for (i = 0; i < point_count * 2; i++)
points[i] = p2[i];
freemem(p2);
// sprintf(debuf, "count: %U\n", point_count);
// rtlDebugOutString(debuf);
sprintf(full_head, "Graph: %S. Number of points: %U", edit_path, point_count);
freemem(HugeBuf);
HugeBuf = NULL;
return 1;
}
// calculate given function or piecewise linear between points
double fu(double x)
{
int i;
double res;
if (funct)
{
//set_exp(funct,x); //!!!!!
set_exp(funct); //!!!!
get_exp(&res); // parse for each value of x? Yes, I'm crazy.
return res;
}
if (point_count == 0)
{
return 0.0;
}
if (x <= points[0])
return points[1];
if (x >= points[(point_count-1) * 2])
return points[(point_count-1) * 2 + 1];
for (i = 0; i < point_count; i++)
{
if ((x >= points[2 * i]) && (x < points[2 * (i + 1)]))
break;
}
return (x - points[2 * i]) / (points[2 * (i + 1)] - points[2 * i])
* (points[2 * (i + 1) + 1] - points[2 * i + 1]) + points[2 * i + 1];
}
void draw_window(void)
{
double xx0=0.0, yy0=0.0;
kos_WindowRedrawStatus(1);
kos_DefineAndDrawWindow(100,80,WND_W,WND_H, 0x33,0xFFFFFF,0,0,(Dword)full_head);
kos_WindowRedrawStatus(2);
sProcessInfo info;
kos_ProcessInfo(&info, 0xFFFFFFFF);
int cWidth = info.processInfo.width - 9;
int cHeight = info.processInfo.height - kos_GetSkinHeight() - 4;
mybox.top = cHeight - 50;
mybox.width = cWidth - mybox.left - 80;
if (info.processInfo.status_window&0x04) return; //draw nothing if window is rolled-up
if (point_count == 0 && funct == NULL)
{
kos_WriteTextToWindow((cWidth - 8 * strlen(empty_text))/2,cHeight/2-25,0x90,
0x000000,(char *)empty_text,strlen(empty_text));
}
else
{
drawFunction(&fu, coord(10, 20), coord(id(cWidth - 20), id(cHeight - 70)),
coord(x1,y1), coord(x2,y2), 0x00ff0000);
}
kos_WriteTextToWindow(15, mybox.top + 4, 0x90, 0x000000, (char*)str_filename, strlen(str_filename));
edit_box_draw((DWORD)&mybox);
kos_DefineButton(cWidth - 70, mybox.top, 50, 21, 5, 0xc0c0c0);
kos_WriteTextToWindow(cWidth - 60, mybox.top + 4, 0x90, 0x000000, (char*)str_editfile,0);
}
void kos_Main()
{
kos_InitHeap();
load_edit_box();
full_head = (char*)allocmem(300);
strcpy(full_head, header);
if (params[0])
{
rtlDebugOutString("launched with params");
rtlDebugOutString((char*)params);
strcpy(edit_path, params);
mybox.size=mybox.pos=strlen(edit_path);
load_points3();
rtlDebugOutString("data loaded.\n");
}
mybox.flags += ed_focus;
kos_SetMaskForEvents(EVM_REDRAW + EVM_KEY + EVM_BUTTON + EVM_MOUSE + EVM_MOUSE_FILTER);
for (;;)
{
switch (kos_WaitForEvent())
{
case EM_MOUSE_EVENT:
edit_box_mouse((dword)&mybox);
break;
case EM_KEY_PRESS:
// key pressed, read it
Dword ckeys, shift, ctrl;
dword key_editbox;
Byte key_ascii, key_scancode;
kos_GetKeys(key_editbox, key_ascii, key_scancode);
if (SCAN_CODE_ENTER == key_scancode)
{
if (HugeBuf!=NULL)
{
//sprintf(debuf, "freemem: HugeBuf = %X", HugeBuf);
//rtlDebugOutString(debuf);
freemem((void*)HugeBuf); // ÷òî çà áàã - ïîíÿòü íå ìîãó.
HugeBuf = NULL;
funct = NULL;
}
if (points!=NULL)
{
//sprintf(debuf, "freemem: points = %X", points);
//rtlDebugOutString(debuf);
freemem((void*)points); // è òóò. íó íå îáðàùàþñü ÿ ê ýòîìó óêàçàòåëþ, òîëüêî ïàìÿòü â íåãî
// ïîòîì ñíîâà âûäåëÿþ
points = NULL;
}
point_count = 0;
kos_DrawBar(10,10,200,20,0xFFFFFF); // background for error messages
if (load_points3())
draw_window();
rtlDebugOutString("Enter");
}
else
{
__asm
{
mov eax, key_editbox
}
edit_box_key((dword)&mybox);
}
break;
case EM_BUTTON_CLICK:
Dword button;
kos_GetButtonID(button);
if (button == 1) kos_ExitApp();
if (button == 5) {
kos_AppRun("/sys/tinypad", edit_path);
}
break;
case EM_WINDOW_REDRAW:
draw_window();
break;
}
}
}