#if 0
gcc ${CFLAGS:--s -O2} -c -Wno-multichar picedit.c `sdl-config --cflags`
exit
#endif
/*
This program is part of Free Hero Mesh and is public domain.
*/
#include "SDL.h"
#include <math.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "sqlite3.h"
#include "smallxrm.h"
#include "heromesh.h"
#include "quarks.h"
#include "cursorshapes.h"
typedef struct {
Uint8 size,meth;
Uint8 data[0]; // the first row is all 0, since the compression algorithm requires this
} Picture;
typedef struct {
Uint8 colors[64];
Uint8 ncolors;
} ColorFilter;
typedef struct {
char name[64];
} OverlayFilter;
typedef struct {
Uint8 shift[32];
Uint8 size[32];
Uint8 nshift;
} ShiftFilter;
typedef struct {
Uint8 code;
// 0-7 = flip/rotations
// 8-10 = change colours (8 is *->* *->* *->*; 9 is \->*->*->*->/; 10 is *<->* *<->* *<->*)
// 11 = overlay
// 12-15 = shift (up, down, right, left)
union {
ColorFilter color;
OverlayFilter overlay;
ShiftFilter shift;
};
} Filter;
typedef struct {
char basename[64];
Filter filters[64];
Uint8 nfilters;
} DependentPicture;
static Uint8 cur_type;
static void fn_valid_name(sqlite3_context*cxt,int argc,sqlite3_value**argv) {
const char*s=sqlite3_value_text(*argv);
if(!s || !*s || s[strspn(s,"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz_-0123456789")]) {
sqlite3_result_error(cxt,"Invalid name",-1);
return;
}
sqlite3_result_value(cxt,*argv);
}
static int load_picture_file(void) {
sqlite3_stmt*st=0;
FILE*fp;
char*nam;
char*buf=0;
int r=0;
int i,j;
i=sqlite3_exec(userdb,
"BEGIN;"
"CREATE TEMPORARY TABLE `PICEDIT`(`ID` INTEGER PRIMARY KEY,`NAME` TEXT NOT NULL COLLATE NOCASE,`TYPE` INT,`DATA` BLOB);"
"CREATE INDEX `PICEDIT_I1` ON `PICEDIT`(`NAME`,`TYPE`);"
,0,0,0);
if(i) fatal("SQL error (%d): %s\n",i,sqlite3_errmsg(userdb));
nam=sqlite3_mprintf("%s.xclass",basefilename);
if(!nam) fatal("Allocation failed\n");
fprintf(stderr,"Loading pictures...\n");
fp=fopen(nam,"r");
sqlite3_free(nam);
if(!fp) {
nam=0;
fprintf(stderr,"%m\n");
goto done;
}
nam=malloc(256);
if(!nam) fatal("Allocation failed\n");
i=sqlite3_prepare_v2(userdb,"INSERT INTO `PICEDIT`(`NAME`,`TYPE`,`DATA`) VALUES(?1,?2,?3);",-1,&st,0);
if(i) fatal("SQL error (%d): %s\n",i,sqlite3_errmsg(userdb));
while(!feof(fp)) {
i=0;
while(j=fgetc(fp)) {
if(j==EOF) goto done;
if(i<255) nam[i++]=j;
}
nam[i]=0;
sqlite3_reset(st);
sqlite3_bind_text(st,1,nam,i,SQLITE_TRANSIENT);
sqlite3_bind_int(st,2,j=(i>4 && !memcmp(".IMG",nam+i-4,4)?1:!memcmp(".DEP",nam+i-4,4)?2:0));
r+=j;
i=fgetc(fp)<<16;
i|=fgetc(fp)<<24;
i|=fgetc(fp)<<0;
i|=fgetc(fp)<<8;
if(!i) continue;
buf=realloc(buf,i);
if(!buf) fatal("Allocation failed\n");
fread(buf,1,i,fp);
sqlite3_bind_blob(st,3,buf,i,SQLITE_TRANSIENT);
while((i=sqlite3_step(st))==SQLITE_ROW);
if(i!=SQLITE_DONE) fatal("SQL error (%d): %s\n",i,sqlite3_errmsg(userdb));
}
done:
if(st) sqlite3_finalize(st);
if(fp) fclose(fp);
free(nam);
free(buf);
fprintf(stderr,"Done\n");
sqlite3_exec(userdb,
"CREATE TRIGGER `PICEDIT_T1` BEFORE INSERT ON `PICEDIT` BEGIN"
" SELECT RAISE(FAIL,'Duplicate name') FROM `PICEDIT` WHERE REPLACE(`NAME`||'*','.IMG*','.DEP*')=REPLACE(NEW.`NAME`||'*','.IMG*','.DEP*');"
"END;"
"CREATE TRIGGER `PICEDIT_T2` BEFORE UPDATE OF `NAME` ON `PICEDIT` BEGIN"
" SELECT RAISE(FAIL,'Duplicate name') FROM `PICEDIT` WHERE REPLACE(`NAME`||'*','.IMG*','.DEP*')=REPLACE(NEW.`NAME`||'*','.IMG*','.DEP*');"
"END;"
,0,0,0);
return r;
}
static void save_picture_file(void) {
sqlite3_stmt*st;
FILE*fp;
char*s=sqlite3_mprintf("%s.xclass",basefilename);
int i;
const char*nam;
const char*buf;
if(!s) fatal("Allocation failed\n");
fprintf(stderr,"Saving pictures...\n");
fp=fopen(s,"w");
if(!fp) fatal("Cannot open picture file for writing: %m\n");
sqlite3_free(s);
i=sqlite3_prepare_v2(userdb,"SELECT `NAME`,`DATA` FROM `PICEDIT`;",-1,&st,0);
if(i) fatal("SQL error (%d): %s\n",i,sqlite3_errmsg(userdb));
while((i=sqlite3_step(st))==SQLITE_ROW) {
nam=sqlite3_column_text(st,0);
buf=sqlite3_column_blob(st,1);
i=sqlite3_column_bytes(st,1);
if(!nam) continue;
fwrite(nam,1,strlen(nam)+1,fp);
fputc(i>>16,fp);
fputc(i>>24,fp);
fputc(i>>0,fp);
fputc(i>>8,fp);
if(i) fwrite(buf,1,i,fp);
}
if(i!=SQLITE_DONE) fprintf(stderr,"SQL error (%d): %s\n",i,sqlite3_errmsg(userdb));
done:
if(st) sqlite3_finalize(st);
if(fp) fclose(fp);
fprintf(stderr,"Done\n");
}
static sqlite3_int64 ask_picture_id(const char*t) {
sqlite3_stmt*st;
const char*r=screen_prompt(t);
int i;
sqlite3_int64 id=0;
if(!r || !*r) return 0;
i=sqlite3_prepare_v2(userdb,"SELECT `ID`, `TYPE` FROM `PICEDIT` WHERE `NAME` = (?1 || '.IMG') OR `NAME` = (?1 || '.DEP');",-1,&st,0);
if(i) {
screen_message(sqlite3_errmsg(userdb));
return 0;
}
sqlite3_bind_text(st,1,r,-1,0);
i=sqlite3_step(st);
if(i==SQLITE_ROW) id=sqlite3_column_int64(st,0),cur_type=sqlite3_column_int(st,1);
if(i==SQLITE_DONE) screen_message("Picture not found"),cur_type=0;
sqlite3_finalize(st);
return id;
}
static void uncompress_picture(FILE*fp,Picture*pic) {
Uint8*p=pic->data+pic->size;
int c,n,t,x,y;
n=t=0;
y=pic->size*pic->size;
while(y--) {
if(!n) {
n=fgetc(fp);
if(n<85) {
// Homogeneous run
n++;
x=fgetc(fp);
if(t==1 && x==c) n*=85; else n++;
c=x;
t=1;
} else if(n<170) {
// Heterogeneous run
n-=84;
t=2;
} else {
// Copy-above run
n-=169;
if(t==3) n*=85;
t=3;
}
}
n--;
if(t==2) c=fgetc(fp);
if(t==3) c=p[-pic->size];
*p++=c;
}
}
static void load_rotate(Picture*pic) {
int x,y;
int m=pic->meth;
int s=pic->size;
Uint8*d=pic->data+s;
static Uint8*buf;
Uint8*p;
if(!buf) {
buf=malloc(255*255);
if(!buf) fatal("Allocation failed\n");
}
p=buf;
for(y=0;y<s;y++) for(x=0;x<s;x++) {
if(m&1) x=s-x-1;
if(m&2) y=s-y-1;
*p++=d[m&4?x*s+y:y*s+x];
if(m&1) x=s-x-1;
if(m&2) y=s-y-1;
}
memcpy(d,buf,s*s);
}
static void out_run(FILE*fp,int ch,int am,const Uint8*d,int le) {
int n=am%85?:85;
fputc(ch+n-1,fp);
if(le) fwrite(d,1,le<n?le:n,fp);
if(ch) d+=n,le-=n;
while(am-=n) {
n=am>7225?7225:am;
fputc(ch+n/85-1,fp);
if(le>0) fwrite(d,1,le<n?le:n,fp);
if(ch) d+=n,le-=n;
}
}
static void compress_picture_1(FILE*fp,Picture*pic) {
int ps=pic->size;
int ms=ps*ps;
const Uint8*d=pic->data+ps;
int i=0;
int ca,homo,hetero;
while(i<ms) {
ca=0;
while(i+ca<ms && d[i+ca]==d[i+ca-ps]) ca++;
homo=1;
while(i+homo<ms && d[i+homo]==d[i]) homo++;
hetero=1;
while(i+hetero<ms) {
if(d[i+hetero]==d[i+hetero-ps] && d[i+hetero+1]==d[i+hetero+1-ps]) break;
if(d[i+hetero]==d[i+hetero+1] && i+hetero==ms-1) break;
if(d[i+hetero]==d[i+hetero+1] && d[i+hetero]==d[i+hetero+2]) break;
hetero++;
}
if(ca>=homo && (ca>=hetero || homo>1)) {
out_run(fp,170,ca,0,0);
i+=ca;
} else if(homo>1) {
out_run(fp,0,homo-1,d+i,1);
i+=homo;
} else {
if(hetero>85) hetero=85;
out_run(fp,85,hetero,d+i,hetero);
i+=hetero;
}
}
}
static void compress_picture(FILE*out,Picture*pic) {
int bm=15;
int bs=pic->size*pic->size;
FILE*fp=fmemopen(0,bs,"w");
int i,j;
if(!fp) fatal("Error with fmemopen\n");
for(i=0;i<8;i++) {
compress_picture_1(fp,pic);
if(!ferror(fp)) {
j=ftell(fp);
if(j>0 && j<bs) bs=j,bm=i;
}
rewind(fp);
pic->meth="\1\3\1\7\1\3\1\7"[i];
load_rotate(pic);
}
pic->meth=bm;
if(bm && bm!=15) load_rotate(pic);
fclose(fp);
if(bm==15) fwrite(pic->data+pic->size,pic->size,pic->size,out); else compress_picture_1(out,pic);
}
static void block_rotate(Uint8*d,Uint8 s,Uint8 w,Uint8 h,Uint8 m) {
Uint8*b=malloc(w*h);
Uint8*p=b;
int x,y;
if(!b) fatal("Allocation failed\n");
if(w!=h && (m&4)) goto end;
for(y=0;y<h;y++) for(x=0;x<w;x++) {
if(m&1) x=w-x-1;
if(m&2) y=h-y-1;
*p++=d[m&4?x*s+y:y*s+x];
if(m&1) x=w-x-1;
if(m&2) y=h-y-1;
}
p=b;
for(y=0;y<h;y++) {
memcpy(d,p,w);
p+=w;
d+=s;
}
end: free(b);
}
static void load_picture_lump(const unsigned char*data,int len,Picture**pict) {
Uint8 buf[32];
FILE*fp;
int i,j,n;
if(!len) return;
fp=fmemopen((unsigned char*)data,len,"r");
if(!fp) fatal("Failed to open in-memory stream of size %d\n",len);
*buf=fgetc(fp);
n=*buf&15;
fread(buf+1,1,n+(n>>1),fp);
for(i=0;i<n;i++) {
j=buf[i+1];
pict[i]=malloc(sizeof(Picture)+(j+1)*j);
if(!pict[i]) fatal("Allocation failed\n");
memset(pict[i]->data,0,pict[i]->size=j);
j=(i?buf[n+1+((i-1)>>1)]>>(i&1?0:4):*buf>>4)&15;
pict[i]->meth=j^((j==5 || j==6)?3:0);
}
for(i=0;i<n;i++) {
j=pict[i]->size;
if(pict[i]->meth==15) fread(pict[i]->data+j,j,j,fp),pict[i]->meth=0; else uncompress_picture(fp,pict[i]);
if(pict[i]->meth) load_rotate(pict[i]);
}
fclose(fp);
}
static inline void show_cursor_xy(int x,int y,int xx,int yy) {
char buf[64];
if(x>=0 && xx>=0) snprintf(buf,64,"[%d,%d]:(%d,%d) %+d%+d%63s",xx,yy,x,y,x-xx,y-yy,"");
else if(x>=0) snprintf(buf,64,"(%d,%d)%63s",x,y,"");
else if(xx>=0) snprintf(buf,64,"[%d,%d]%63s",xx,yy,"");
else snprintf(buf,64,"%63s","");
SDL_LockSurface(screen);
draw_text(0,32,buf,0xF0,0xF9);
SDL_UnlockSurface(screen);
SDL_Flip(screen);
}
static void draw_line(Uint8*p,Uint8 s,Uint8 x0,Uint8 y0,Uint8 x1,Uint8 y1,Uint8 c) {
int dx=abs(x1-x0);
int sx=x0<x1?1:-1;
int dy=-abs(y1-y0);
int sy=y0<y1?1:-1;
int e=dx+dy;
int e2;
for(;;) {
p[y0*s+x0]=c;
if(x0==x1 && y0==y1) break;
e2=e+e;
if(e2>=dy) e+=dy,x0+=sx;
if(e2<=dx) e+=dx,y0+=sy;
}
}
static void draw_circle(Uint8*p,Uint8 s,Uint8 x0,Uint8 y0,Uint32 r,Uint8 c) {
int i,j,x,y;
for(i=0;i<s && r>=0;i++) {
j=sqrt(r);
r-=i+i+1;
x=x0+i,y=y0+j; if(x>=0 && x<s && y>=0 && y<s) p[y*s+x]=c;
x=x0-i,y=y0+j; if(x>=0 && x<s && y>=0 && y<s) p[y*s+x]=c;
x=x0+i,y=y0-j; if(x>=0 && x<s && y>=0 && y<s) p[y*s+x]=c;
x=x0-i,y=y0-j; if(x>=0 && x<s && y>=0 && y<s) p[y*s+x]=c;
x=x0+j,y=y0+i; if(x>=0 && x<s && y>=0 && y<s) p[y*s+x]=c;
x=x0-j,y=y0+i; if(x>=0 && x<s && y>=0 && y<s) p[y*s+x]=c;
x=x0+j,y=y0-i; if(x>=0 && x<s && y>=0 && y<s) p[y*s+x]=c;
x=x0-j,y=y0-i; if(x>=0 && x<s && y>=0 && y<s) p[y*s+x]=c;
}
}
static void fill_circle(Uint8*p,Uint8 s,Uint8 x0,Uint8 y0,Uint32 r,Uint8 c) {
int x,y;
for(y=0;y<s;y++) for(x=0;x<s;x++) {
if((x-x0)*(x-x0)+(y-y0)*(y-y0)<=r) p[y*s+x]=c;
}
}
static void draw_ellipse(Uint8*p,Uint8 s,Uint8 x0,Uint8 y0,Uint8 x1,Uint8 y1,Uint8 c) {
double cx,cy,rx,ry,v;
int x,y;
if(x1<x0) x=x1,x1=x0,x0=x;
if(y1<y0) y=y1,y1=y0,y0=y;
cx=0.5*(x1+x0);
cy=0.5*(y1+y0);
rx=0.5*(x1-x0);
ry=0.5*(y1-y0);
for(y=y0;y<=y1;y++) {
v=(y-cy)/ry; v*=v;
if(v>1.0) continue;
v=rx*sqrt(1.0-v);
x=round(cx-v); if(x>=0 && x<s) p[y*s+x]=c;
x=round(cx+v); if(x>=0 && x<s) p[y*s+x]=c;
}
for(x=x0;x<=x1;x++) {
v=(x-cx)/rx; v*=v;
if(v>1.0) continue;
v=ry*sqrt(1.0-v);
y=round(cy-v); if(y>=0 && y<s) p[y*s+x]=c;
y=round(cy+v); if(y>=0 && y<s) p[y*s+x]=c;
}
}
static void fill_ellipse(Uint8*p,Uint8 s,Uint8 x0,Uint8 y0,Uint8 x1,Uint8 y1,Uint8 c) {
double cx,cy,rx,ry;
int x,y;
if(x1<x0) x=x1,x1=x0,x0=x;
if(y1<y0) y=y1,y1=y0,y0=y;
cx=0.5*(x1+x0);
cy=0.5*(y1+y0);
rx=0.5*(x1-x0);
ry=0.5*(y1-y0);
for(y=y0;y<=y1;y++) for(x=x0;x<=x1;x++) {
if(pow((x-cx)/rx,2.0)+pow((y-cy)/ry,2.0)<=1.0) p[y*s+x]=c;
}
}
static Picture*do_import(Picture*pic) {
SDL_Color*pal=screen->format->palette->colors;
int a,b,i,j,x,y;
Uint8 buf[16];
Uint8*q;
const char*cmd=screen_prompt("Import?");
FILE*fp;
if(!cmd || !*cmd) return pic;
fp=popen(cmd,"r");
if(!fp) {
screen_message("Import failed");
return pic;
}
if(fread(buf,1,16,fp)!=16 || memcmp("farbfeld",buf,8)) {
screen_message("Invalid format");
goto end;
}
if(buf[8] || buf[9] || buf[10] || buf[12] || buf[13] || buf[14] || !buf[15] || buf[11]!=buf[15]) {
screen_message("Invalid size");
goto end;
}
if(pic->size!=buf[15]) {
pic=realloc(pic,sizeof(Picture)+(buf[15]+1)*buf[15]);
if(!pic) fatal("Allocation failed\n");
pic->size=buf[15];
memset(pic->data+pic->size,0,pic->size);
}
q=pic->data+pic->size;
for(y=0;y<pic->size;y++) for(x=0;x<pic->size;x++) {
fread(buf,1,8,fp);
if(buf[6]&0x80) {
for(i=1;i<255;i++) if(buf[0]==pal[i].r && buf[1]==pal[i].g && buf[2]==pal[i].b) goto found;
i=1;
a=0x300000;
for(j=1;j<255;j++) {
b=abs(buf[0]-pal[j].r)+abs(buf[2]-pal[j].g)+abs(buf[4]-pal[j].b);
if(b<=a) a=b,i=j;
}
found: *q++=i;
} else {
*q++=0;
}
}
end:
pclose(fp);
return pic;
}
static void do_export(Picture*pic) {
SDL_Color*pal=screen->format->palette->colors;
Uint8*q=pic->data+pic->size;
int c,x,y;
const char*cmd=screen_prompt("Export?");
FILE*fp;
if(!cmd || !*cmd) return;
fp=popen(cmd,"w");
fwrite("farbfeld\0\0\0",1,11,fp); fputc(pic->size,fp);
fwrite("\0\0\0",1,3,fp); fputc(pic->size,fp);
for(y=0;y<pic->size;y++) for(x=0;x<pic->size;x++) {
c=*q++;
fputc(pal[c].r,fp); fputc(pal[c].r,fp);
fputc(pal[c].g,fp); fputc(pal[c].g,fp);
fputc(pal[c].b,fp); fputc(pal[c].b,fp);
fputc(c?255:0,fp); fputc(c?255:0,fp);
}
pclose(fp);
}
static inline void edit_picture_1(Picture**pict,const char*name) {
static const Uint8 shade[64]=
"\x00\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0A\x0B\x0C\x0D\x0E\x0F"
"\x00\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0A\x0B\x0C\x0D\x0E\x0F"
"\x00\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0A\x0B\x0C\x0D\x0E\x0F"
"\x00\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0A\x0B\x0C\x0D\x0E\x0F"
;
static const Uint8 gridlines[32]=
"\xF8\xFF\xF8\xFF\xF8\xFF\xF8\xFF\xF8\xFF\xF8\xFF\xF8\xFF\xF8\xFF"
"\xF8\xFF\xF8\xFF\xF8\xFF\xF8\xFF\xF8\xFF\xF8\xFF\xF8\xFF\xF8\xFF"
;
static const char*const tool[10]={
"Draw",
"Mark",
"Pick",
"Line",
"Rect",
"Fillrect",
"Circle",
"fIllcirc",
"Ellipse",
"fillellipSe",
};
static Picture*pclip=0;
Uint8*p;
Uint8*q;
Uint8 sel=0;
Uint8 cc=0;
Uint8 t=2;
SDL_Rect r,m;
SDL_Event ev;
int i,j,x,y,z;
int xx=-1;
int yy=-1;
unsigned char buf[256];
m.x=m.y=m.w=m.h=0;
set_cursor(XC_arrow);
redraw:
if((sel&~15) || !pict[sel]) sel=0;
z=screen->w-pict[sel]->size-169;
if(z>screen->h-49) z=screen->h-49;
z/=pict[sel]->size;
if(z<3) return;
if(z>32) z=32;
SDL_LockSurface(screen);
p=screen->pixels;
r.x=r.y=0; r.w=screen->w; r.h=screen->h;
SDL_FillRect(screen,&r,0xF0);
draw_text(0,0,name,0xF0,0xF5);
x=strlen(name)+1;
for(i=0;i<16;i++) if(pict[i]) {
j=snprintf(buf,255,"%c%d%c",i==sel?'<':' ',pict[i]->size,i==sel?'>':' ');
draw_text(x<<3,0,buf,0xF0,i==sel?0xFF:0xF8);
x+=j;
}
draw_text(0,8,"<ESC> Exit <1-9> Sel <SP> Unmark <RET> Copy <INS> Paste <DEL> Erase",0xF0,0xFB);
draw_text(0,16,"<F1> CW <F2> CCW <F3> \x12 <F4> \x1D <F5> Size <F6> Add <F7> Del <F8> Mark <F9> In <F10> Out",0xF0,0xFB);
x=0;
for(i=0;i<10;i++) {
j=snprintf(buf,255,"%c%s%c",i==t?'<':' ',tool[i],i==t?'>':' ');
draw_text(x<<3,24,buf,0xF0,i==t?0xFE:0xF8);
x+=j;
}
p=screen->pixels+40*screen->pitch;
q=pict[sel]->data+pict[sel]->size;
for(y=0;y<pict[sel]->size;y++) {
memcpy(p,q,pict[sel]->size);
p+=screen->pitch;
q+=pict[sel]->size;
}
p=screen->pixels+40*screen->pitch-screen->w-161;
for(x=0;x<256;x++) {
for(y=0;y<10;y++) memset(p+y*screen->pitch,x,10);
if(x==cc) {
memset(p+1,0xF0,8);
for(y=1;y<9;y++) {
p[y*screen->pitch]=0xF0;
p[y*screen->pitch+(y&1)+4]=(y&1)+0xF7;
p[y*screen->pitch+9]=0xFF;
}
memset(p+9*screen->pitch+1,0xFF,8);
}
if(15&~x) p+=10; else p+=10*screen->pitch-150;
}
p=screen->pixels+41*screen->pitch+pict[sel]->size+2;
q=pict[sel]->data+pict[sel]->size;
for(y=0;y<pict[sel]->size;y++) {
for(x=0;x<pict[sel]->size;x++) {
memcpy(p,gridlines,z);
for(i=1;i<z;i++) {
p[i*screen->pitch]=i&1?0xF8:0xFF;
if(*q) memset(p+i*screen->pitch+1,*q,z-1);
else memcpy(p+i*screen->pitch+1,shade+(i&15),z-1);
}
if(xx==x && yy==y) {
memset(p+(z/2)*screen->pitch,0xFA,z);
memset(p+(z/2+1)*screen->pitch,0xF2,z);
for(i=1;i<z;i++) memcpy(p+i*screen->pitch+z/2,"\xF2\xFA",2);
}
p+=z;
q++;
}
for(i=1;i<z;i++) p[i*screen->pitch]=i&1?0xF8:0xFF;
p+=z*(screen->pitch-pict[sel]->size);
}
for(x=0;x<pict[sel]->size;x++) {
memcpy(p,gridlines,z);
p+=z;
}
if(m.h) {
r.x=m.x*z+pict[sel]->size+4;
r.y=m.y*z+43;
r.w=m.w*z-4;
r.h=m.h*z-4;
p=screen->pixels+r.y*screen->pitch+r.x;
for(i=0;i<r.w;i++) p[i]=i&1?0xFE:0xF6;
for(i=0;i<r.h;i++) {
*p=p[r.w]=i&1?0xF6:0xFE;
p+=screen->pitch;
}
for(i=0;i<r.w;i++) p[i]=i&1?0xFE:0xF6;
}
SDL_UnlockSurface(screen);
SDL_Flip(screen);
while(SDL_WaitEvent(&ev)) {
switch(ev.type) {
case SDL_QUIT:
exit(0);
return;
case SDL_MOUSEMOTION:
if(ev.motion.x<pict[sel]->size+2 || ev.motion.x>=pict[sel]->size*(z+1)+2 || ev.motion.y<41 || ev.motion.y>=z*pict[sel]->size+41) {
x=-1;
set_cursor(XC_arrow);
} else {
x=(ev.motion.x-pict[sel]->size-2)/z;
y=(ev.motion.y-41)/z;
set_cursor(XC_tcross);
if(ev.motion.state && !t) {
if(ev.motion.state&SDL_BUTTON(2)) break;
pict[sel]->data[(y+1)*pict[sel]->size+x]=(ev.motion.state&SDL_BUTTON(1)?cc:0);
goto redraw;
}
}
show_cursor_xy(x,y,xx,yy);
break;
case SDL_MOUSEBUTTONDOWN:
if(ev.button.x>=screen->w-161 && ev.button.x<screen->w-1 && ev.button.y>=40 && ev.button.y<200) {
x=(ev.button.x+161-screen->w)/10;
y=(ev.button.y-40)/10;
i=y*16+x;
pick:
switch(ev.button.button) {
case 1: cc=i; break;
case 2:
for(x=(m.y+1)*pict[sel]->size+m.x;x<pict[sel]->size*(pict[sel]->size+1);x++) {
if(pict[sel]->data[x]==cc) pict[sel]->data[x]=i;
if(m.w && x%pict[sel]->size==m.x+m.w-1) x+=pict[sel]->size-m.w;
if(m.h && x/pict[sel]->size>m.h+m.y) break;
}
break;
case 3:
for(x=(m.y+1)*pict[sel]->size+m.x;x<pict[sel]->size*(pict[sel]->size+1);x++) {
if(pict[sel]->data[x]==cc) pict[sel]->data[x]=i;
else if(pict[sel]->data[x]==i) pict[sel]->data[x]=cc;
if(m.w && x%pict[sel]->size==m.x+m.w-1) x+=pict[sel]->size-m.w;
if(m.h && x/pict[sel]->size>m.h+m.y) break;
}
break;
}
goto redraw;
} else if(ev.button.x>=pict[sel]->size+2 && ev.button.x<pict[sel]->size*(z+1)+2 && ev.button.y>=41 && ev.button.y<z*pict[sel]->size+41) {
x=(ev.button.x-pict[sel]->size-2)/z;
y=(ev.button.y-41)/z;
i=ev.button.button;
if(i>3) break;
switch(t) {
case 0: // Draw
if(i==2) cc=pict[sel]->data[(y+1)*pict[sel]->size+x];
else pict[sel]->data[(y+1)*pict[sel]->size+x]=(i==1?cc:0);
break;
case 1: // Mark
if(i==1) {
xx=x; yy=y;
} else if(i==3) {
m.x=(x<xx?x:xx); m.y=(y<yy?y:yy);
m.w=abs(x-xx)+1; m.h=abs(y-yy)+1;
}
break;
case 2: // Pick
i=pict[sel]->data[(y+1)*pict[sel]->size+x];
goto pick;
case 3: // Line
if((i&2) && xx!=-1) draw_line(pict[sel]->data+pict[sel]->size,pict[sel]->size,x,y,xx,yy,cc);
if(i&1) xx=x,yy=y;
break;
case 4: // Rectangle
if(i==1) {
xx=x; yy=y;
} else if(xx!=-1) {
p=pict[sel]->data+(j=pict[sel]->size);
if(xx<x) i=x,x=xx,xx=i;
if(yy<y) i=y,y=yy,yy=i;
memset(p+y*j+x,cc,xx+1-x);
memset(p+yy*j+x,cc,xx+1-x);
while(y<yy) p[y*j+x]=p[y*j+xx]=cc,y++;
xx=yy=-1;
}
break;
case 5: // Fill rectangle
if(i==1) {
xx=x; yy=y;
} else if(xx!=-1) {
p=pict[sel]->data+(j=pict[sel]->size);
if(xx<x) i=x,x=xx,xx=i;
if(yy<y) i=y,y=yy,yy=i;
while(y<yy) memset(p+y*j+x,cc,xx+1-x),y++;
xx=yy=-1;
}
break;
case 6: // Circle
if(i==1) {
xx=x; yy=y;
} else if(i==2) {
draw_circle(pict[sel]->data+pict[sel]->size,pict[sel]->size,x,y,(x-xx)*(x-xx)+(y-yy)*(y-yy),cc);
} else if(i==3) {
draw_circle(pict[sel]->data+pict[sel]->size,pict[sel]->size,xx,yy,(x-xx)*(x-xx)+(y-yy)*(y-yy),cc);
}
break;
case 7: // Fill circle
if(i==1) {
xx=x; yy=y;
} else if(i==2) {
fill_circle(pict[sel]->data+pict[sel]->size,pict[sel]->size,x,y,(x-xx)*(x-xx)+(y-yy)*(y-yy),cc);
} else if(i==3) {
fill_circle(pict[sel]->data+pict[sel]->size,pict[sel]->size,xx,yy,(x-xx)*(x-xx)+(y-yy)*(y-yy),cc);
}
break;
case 8: // Ellipse
if(i==1) {
xx=x; yy=y;
} else if(xx!=-1) {
draw_ellipse(pict[sel]->data+pict[sel]->size,pict[sel]->size,x,y,xx,yy,cc);
}
break;
case 9: // Fill ellipse
if(i==1) {
xx=x; yy=y;
} else if(xx!=-1) {
fill_ellipse(pict[sel]->data+pict[sel]->size,pict[sel]->size,x,y,xx,yy,cc);
draw_ellipse(pict[sel]->data+pict[sel]->size,pict[sel]->size,x,y,xx,yy,cc);
}
break;
}
goto redraw;
}
break;
case SDL_KEYDOWN:
switch(ev.key.keysym.sym) {
case SDLK_ESCAPE: return;
case SDLK_LEFTBRACKET: case SDLK_LEFTPAREN: --sel; m.x=m.y=m.w=m.h=0; goto redraw;
case SDLK_RIGHTBRACKET: case SDLK_RIGHTPAREN: ++sel; m.x=m.y=m.w=m.h=0; goto redraw;
case SDLK_1 ... SDLK_9: sel=ev.key.keysym.sym-SDLK_1; m.x=m.y=m.w=m.h=0; goto redraw;
case SDLK_c: t=6; xx=yy=-1; goto redraw;
case SDLK_d: t=0; xx=yy=-1; goto redraw;
case SDLK_e: t=8; xx=yy=-1; goto redraw;
case SDLK_f: t=5; xx=yy=-1; goto redraw;
case SDLK_i: t=7; xx=yy=-1; goto redraw;
case SDLK_l: t=3; xx=yy=-1; goto redraw;
case SDLK_m: t=1; xx=yy=-1; goto redraw;
case SDLK_p: t=2; xx=yy=-1; goto redraw;
case SDLK_r: t=4; xx=yy=-1; goto redraw;
case SDLK_s: t=9; xx=yy=-1; goto redraw;
case SDLK_TAB: if(ev.key.keysym.mod&KMOD_SHIFT) --sel; else ++sel; m.x=m.y=m.w=m.h=0; goto redraw;
case SDLK_SPACE:
m.x=m.y=m.w=m.h=0;
xx=yy=-1;
goto redraw;
case SDLK_RETURN: case SDLK_KP_ENTER:
if(!m.w) m.w=m.h=pict[sel]->size;
free(pclip);
pclip=malloc(sizeof(Picture)+(m.h+1)*m.w);
if(!pclip) fatal("Allocation failed\n");
pclip->meth=m.w;
pclip->size=m.h;
memset(pclip->data,0,m.w);
p=pict[sel]->data+(m.y+1)*pict[sel]->size+m.x;
q=pclip->data+m.w;
for(y=0;y<m.h;y++) {
memcpy(q,p,m.w);
p+=pict[sel]->size;
q+=m.w;
}
goto redraw;
case SDLK_INSERT: case SDLK_KP0: paste:
if(!pclip) break;
if(!m.w) {
if(xx!=-1) {
if(xx+pclip->meth>pict[sel]->size || yy+pclip->size>pict[sel]->size) break;
m.x=xx;
m.y=yy;
}
m.w=pclip->meth;
m.h=pclip->size;
if(m.w>pict[sel]->size) m.w=pict[sel]->size;
if(m.h>pict[sel]->size) m.h=pict[sel]->size;
}
p=pclip->data+pclip->meth;
q=pict[sel]->data+(m.y+1)*pict[sel]->size+m.x;
for(y=0;y<m.h;y++) {
for(x=0;x<m.w;x++) {
i=(x*pclip->meth)/m.w;
j=(y*pclip->size)/m.h;
q[x]=p[j*pclip->meth+i];
}
q+=pict[sel]->size;
}
goto redraw;
case SDLK_DELETE: case SDLK_KP_PERIOD:
if(!m.w) break;
p=pict[sel]->data+(m.y+1)*pict[sel]->size+m.x;
for(y=0;y<m.h;y++) memset(p,0,m.w),p+=pict[sel]->size;
goto redraw;
case SDLK_F1:
if(!m.w) m.w=m.h=pict[sel]->size;
block_rotate(pict[sel]->data+(m.y+1)*pict[sel]->size+m.x,pict[sel]->size,m.w,m.h,5);
goto redraw;
case SDLK_F2:
if(!m.w) m.w=m.h=pict[sel]->size;
block_rotate(pict[sel]->data+(m.y+1)*pict[sel]->size+m.x,pict[sel]->size,m.w,m.h,6);
goto redraw;
case SDLK_F3:
if(!m.w) m.w=m.h=pict[sel]->size;
block_rotate(pict[sel]->data+(m.y+1)*pict[sel]->size+m.x,pict[sel]->size,m.w,m.h,2);
goto redraw;
case SDLK_F4:
if(!m.w) m.w=m.h=pict[sel]->size;
block_rotate(pict[sel]->data+(m.y+1)*pict[sel]->size+m.x,pict[sel]->size,m.w,m.h,1);
goto redraw;
case SDLK_F5: resize:
m.x=m.y=m.w=m.h=0; xx=yy=-1;
p=(Uint8*)screen_prompt("Size? (1 to 255, or P to paste)");
if(!p || !*p) goto redraw;
if(*p=='p' || *p=='P') {
if(!pclip || pclip->meth!=pclip->size) goto redraw;
i=pclip->size;
} else {
i=strtol(p,0,10);
}
if(i<1 || i>255) goto redraw;
free(pict[sel]);
pict[sel]=malloc(sizeof(Picture)+(i+1)*i);
if(!pict[sel]) fatal("Allocation failed\n");
pict[sel]->size=i;
if(*p=='p' || *p=='P') memcpy(pict[sel]->data,pclip->data,(i+1)*i);
else memset(pict[sel]->data,0,(i+1)*i);
goto redraw;
case SDLK_F6:
if(pict[14]) break;
for(sel=0;sel<15;sel++) if(!pict[sel]) break;
goto resize;
case SDLK_F7:
if(!sel && !pict[1]) break;
free(pict[sel]);
for(i=sel;i<15;i++) pict[i]=pict[i+1];
pict[15]=0;
goto redraw;
case SDLK_F8: case SDLK_KP_MULTIPLY:
m.x=m.y=0;
m.w=m.h=pict[sel]->size;
goto redraw;
case SDLK_F9:
xx=yy=-1;
m.x=m.y=m.w=m.h=0;
pict[sel]=do_import(pict[sel]);
goto redraw;
case SDLK_F10:
do_export(pict[sel]);
goto redraw;
case SDLK_LEFT: case SDLK_KP4: --cc; goto redraw;
case SDLK_RIGHT: case SDLK_KP6: ++cc; goto redraw;
case SDLK_UP: case SDLK_KP8: cc-=16; goto redraw;
case SDLK_DOWN: case SDLK_KP2: cc+=16; goto redraw;
case SDLK_HOME: case SDLK_KP7: cc=0; goto redraw;
}
break;
case SDL_VIDEOEXPOSE:
goto redraw;
}
}
}
static void load_dependent_picture(const Uint8*data,int size,DependentPicture*dp) {
FILE*fp;
int i,j,k;
memset(dp,0,sizeof(DependentPicture));
if(!size) {
const char*s=screen_prompt("Name of base picture:");
if(s) strncpy(dp->basename,s,63);
return;
}
fp=fmemopen((Uint8*)data,size,"r");
if(!fp) fatal("Error with fmemopen\n");
i=0;
for(;;) {
j=fgetc(fp);
if(j<32) {
if(j>0) ungetc(j,fp);
break;
}
if(i<63) dp->basename[i++]=j;
}
while(dp->nfilters<64) {
if((j=fgetc(fp))<0) break;
switch(dp->filters[i=dp->nfilters++].code=j) {
case 8 ... 10:
j=dp->filters[i].color.ncolors=fgetc(fp);
if(j<0 || j>64) j=64;
fread(dp->filters[i].color.colors,1,j,fp);
break;
case 11:
k=0;
for(;;) {
j=fgetc(fp);
if(j<32) {
if(j>0) ungetc(j,fp);
break;
}
if(k<63) dp->filters[i].overlay.name[k++]=j;
}
break;
case 12 ... 15:
for(k=0;k<64;k++) {
dp->filters[i].shift.shift[k]=(j=fgetc(fp))&127;
dp->filters[i].shift.size[k]=fgetc(fp);
if(j&128) break;
}
dp->filters[i].shift.nshift=k;
break;
}
}
fclose(fp);
}
static void save_dependent_picture(FILE*fp,DependentPicture*dp) {
int i,j;
fwrite(dp->basename,1,strlen(dp->basename)+(dp->filters[0].code<32?0:1),fp);
for(i=0;i<dp->nfilters;i++) {
fputc(dp->filters[i].code,fp);
switch(dp->filters[i].code) {
case 8 ... 10:
fputc(dp->filters[i].color.ncolors,fp);
fwrite(dp->filters[i].color.colors,1,dp->filters[i].color.ncolors,fp);
break;
case 11:
fwrite(dp->filters[i].overlay.name,1,strlen(dp->filters[i].overlay.name)+(i<dp->nfilters-1&&dp->filters[i+1].code<32?0:1),fp);
break;
case 12 ... 15:
if(!dp->filters[i].shift.nshift) fwrite("\x80",1,2,fp);
for(j=0;j<dp->filters[i].shift.nshift;j++) {
fputc(dp->filters[i].shift.shift[j]|(j==dp->filters[i].shift.nshift-1?128:0),fp);
fputc(dp->filters[i].shift.size[j],fp);
}
break;
}
}
}
static int add_filter(DependentPicture*dp,const char*const*const txt,Sint8 c) {
SDL_Rect r;
SDL_Event ev;
Uint8 f;
char buf[4]="<?>";
if(c<0 || dp->nfilters>63) return;
r.x=r.y=12; r.w=200; r.h=136;
set_cursor(XC_iron_cross);
redraw:
SDL_LockSurface(screen);
SDL_FillRect(screen,&r,0xF8);
for(f=0;f<16;f++) {
buf[1]=f+'a';
draw_text(16,(f+2)<<3,buf,0xF8,0xFB);
draw_text(48,(f+2)<<3,txt[f],0xF8,0xFF);
}
SDL_UnlockSurface(screen);
SDL_Flip(screen);
while(SDL_WaitEvent(&ev)) switch(ev.type) {
case SDL_QUIT: exit(0); return 0;
case SDL_KEYDOWN:
if(ev.key.keysym.sym==SDLK_ESCAPE || ev.key.keysym.sym==SDLK_z) return 0;
if(ev.key.keysym.sym<SDLK_a || ev.key.keysym.sym>SDLK_p) break;
f=ev.key.keysym.sym-SDLK_a;
goto found;
case SDL_VIDEOEXPOSE: goto redraw;
}
found:
++dp->nfilters;
if(c!=63) memmove(dp->filters+c+1,dp->filters+c,(63-c)*sizeof(Filter));
memset(dp->filters+c,0,sizeof(Filter));
dp->filters[c].code=f;
return 1;
}
static void edit_color_filter(ColorFilter*f) {
SDL_Rect r;
SDL_Event ev;
redraw:
r.x=r.y=0; r.w=screen->w; r.h=screen->h;
SDL_LockSurface(screen);
SDL_FillRect(screen,&r,0xF0);
//TODO
SDL_UnlockSurface(screen);
SDL_Flip(screen);
while(SDL_WaitEvent(&ev)) switch(ev.type) {
case SDL_QUIT: exit(0); return;
case SDL_KEYDOWN:
switch(ev.key.keysym.sym) {
case SDLK_ESCAPE: return;
//TODO
}
goto redraw;
case SDL_VIDEOEXPOSE: goto redraw;
}
}
static void edit_shift_filter(ShiftFilter*f) {
SDL_Rect r;
SDL_Event ev;
redraw:
r.x=r.y=0; r.w=screen->w; r.h=screen->h;
SDL_LockSurface(screen);
SDL_FillRect(screen,&r,0xF0);
//TODO
SDL_UnlockSurface(screen);
SDL_Flip(screen);
while(SDL_WaitEvent(&ev)) switch(ev.type) {
case SDL_QUIT: exit(0); return;
case SDL_KEYDOWN:
switch(ev.key.keysym.sym) {
case SDLK_ESCAPE: return;
//TODO
}
goto redraw;
case SDL_VIDEOEXPOSE: goto redraw;
}
}
static void edit_dependent_picture(DependentPicture*dp,const char*name) {
static const char*const txt[16]={
"Identity",
"Flip \x1D",
"Flip \x12",
"Rotate 180\xF8",
"Transpose",
"Transposed flip \x1D",
"Transposed flip \x12",
"Reverse Transpose",
"Replace colors",
"Advance colors",
"Exchange colors",
"Overlay",
"Shift \x18",
"Shift \x19",
"Shift \x1A",
"Shift \x1B",
};
const char*s;
char buf[64];
Sint8 c=-1;
int i,j,y;
SDL_Rect r;
SDL_Event ev;
set_cursor(XC_arrow);
redraw:
r.x=r.y=0; r.w=screen->w; r.h=screen->h;
SDL_LockSurface(screen);
SDL_FillRect(screen,&r,0xF0);
draw_text(0,0,"Dependent Image:",0xF0,0xF7);
draw_text(136,0,name,0xF0,0xF5);
draw_text(0,8,"<ESC> Exit <\x18/\x19> Cursor <SP> Edit <INS> Append <DEL> Delete",0xF0,0xFB);
draw_text(0,16,c<0?"\x1A":"\xFA",0xF0,c<0?0xFA:0xF2);
draw_text(16,16,"Base:",0xF0,0xF7);
draw_text(64,16,dp->basename,0xF0,0xFE);
for(i=0,y=24;i<dp->nfilters;i++) {
draw_text(0,y,c==i?"\x1A":"\xFA",0xF0,c==i?0xFA:0xF2);
switch(j=dp->filters[i].code) {
case 0 ... 7:
draw_text(16,y,txt[j],0xF0,0xF7);
y+=8;
break;
case 8 ... 10:
draw_text(16,y,txt[j],0xF0,0xF7);
y+=8;
for(j=0;j<dp->filters[i].color.ncolors;j+=2) {
if(j==dp->filters[i].color.ncolors-1) snprintf(buf,64,"%3d",dp->filters[i].color.colors[j]);
else snprintf(buf,64,"%3d %3d",dp->filters[i].color.colors[j],dp->filters[i].color.colors[j+1]);
draw_text(32,y,buf,0xF0,0xFE);
y+=8;
}
break;
case 11:
draw_text(16,y,"Overlay: ",0xF0,0xF7);
draw_text(88,y,dp->filters[i].overlay.name,0xF0,0xFE);
y+=8;
break;
case 12 ... 15:
draw_text(16,y,txt[j],0xF0,0xF7);
y+=8;
for(j=0;j<dp->filters[i].shift.nshift;j++) {
snprintf(buf,64,"%d: %d",dp->filters[i].shift.size[j],dp->filters[i].shift.shift[j]);
draw_text(32,y,buf,0xF0,0xFE);
y+=8;
}
break;
default:
draw_text(16,y,"???",0xF0,0xFC);
y+=8;
break;
}
}
if(c>dp->nfilters) c=dp->nfilters;
draw_text(0,y,c==dp->nfilters?"\x1A":"\xFA",0xF0,c==dp->nfilters?0xFA:0xF2);
draw_text(16,y,"<End>",0xF0,0xF8);
SDL_UnlockSurface(screen);
SDL_Flip(screen);
while(SDL_WaitEvent(&ev)) {
switch(ev.type) {
case SDL_QUIT:
exit(0);
break;
case SDL_KEYDOWN:
switch(ev.key.keysym.sym) {
case SDLK_ESCAPE: return;
case SDLK_UP: case SDLK_KP8: case SDLK_a: case SDLK_k: if(c>=0) --c; break;
case SDLK_DOWN: case SDLK_KP2: case SDLK_z: case SDLK_j: ++c; break;
case SDLK_INSERT: case SDLK_KP0:
if(add_filter(dp,txt,c)) // maybe fallthrough
case SDLK_SPACE:
if(c==-1) {
s=screen_prompt("Name of base picture:");
if(s && *s) strncpy(dp->basename,s,63);
} else if(c<dp->nfilters) {
switch(dp->filters[c].code) {
case 8 ... 10:
edit_color_filter(&dp->filters[c].color);
break;
case 11:
s=screen_prompt("Name of overlay picture:");
if(s && *s) strncpy(dp->filters[c].overlay.name,s,63);
break;
case 12 ... 15:
edit_shift_filter(&dp->filters[c].shift);
break;
}
}
break;
case SDLK_DELETE: case SDLK_KP_PERIOD:
if(c<0 || c>=dp->nfilters) break;
--dp->nfilters;
if(c<dp->nfilters) memmove(dp->filters+c,dp->filters+c+1,(dp->nfilters-c)*sizeof(Filter));
break;
case SDLK_HOME: case SDLK_KP7: c=-1; break;
case SDLK_END: case SDLK_KP1: c=dp->nfilters; break;
}
goto redraw;
case SDL_VIDEOEXPOSE:
goto redraw;
}
}
}
static void edit_picture(sqlite3_int64 id) {
sqlite3_stmt*st;
Picture*pict[16]={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0};
DependentPicture*dpict;
char*name;
const unsigned char*data;
Uint8*buf=0;
size_t size=0;
FILE*fp;
int i,n;
if(i=sqlite3_prepare_v2(userdb,"SELECT SUBSTR(`NAME`,1,LENGTH(`NAME`)-4),`DATA`,`TYPE` FROM `PICEDIT` WHERE `ID`=?1;",-1,&st,0)) {
screen_message(sqlite3_errmsg(userdb));
return;
}
sqlite3_bind_int64(st,1,id);
i=sqlite3_step(st);
if(i!=SQLITE_ROW) {
screen_message(i==SQLITE_DONE?"No such ID":sqlite3_errmsg(userdb));
sqlite3_finalize(st);
return;
}
data=sqlite3_column_blob(st,1);
n=sqlite3_column_bytes(st,1);
i=sqlite3_column_int(st,2);
name=strdup(sqlite3_column_text(st,0)?:(const unsigned char*)"???");
if(!name) fatal("Allocation failed\n");
if(i==1) {
load_picture_lump(data,n,pict);
sqlite3_finalize(st);
if(!*pict) {
i=picture_size;
*pict=malloc(sizeof(Picture)+(i+1)*i);
if(!*pict) fatal("Allocation failed\n");
pict[0]->size=i;
memset(pict[0]->data,0,(i+1)*i);
}
edit_picture_1(pict,name);
fp=open_memstream((char**)&buf,&size);
if(!fp) fatal("Cannot open memory stream\n");
for(i=n=0;i<16;i++) if(pict[i]) n++;
fputc(n,fp);
for(i=0;i<n;i++) fputc(pict[i]->size,fp);
for(i=0;i<n>>1;i++) fputc(0,fp);
for(i=0;i<n;i++) compress_picture(fp,pict[i]);
fclose(fp);
if(!buf || !size) fatal("Allocation failed\n");
*buf|=pict[0]->meth<<4;
for(i=1;i<n;i++) buf[n+1+((i-1)>>1)]|=pict[i]->meth<<(i&1?0:4);
for(i=0;i<16;i++) free(pict[i]);
} else if(i==2) {
dpict=malloc(sizeof(DependentPicture));
if(!dpict) fatal("Allocation failed\n");
load_dependent_picture(data,n,dpict);
fp=open_memstream((char**)&buf,&size);
if(!fp) fatal("Cannot open memory stream\n");
edit_dependent_picture(dpict,name);
save_dependent_picture(fp,dpict);
free(dpict);
fclose(fp);
if(!buf || !size) fatal("Allocation failed\n");
}
free(name);
if(i=sqlite3_prepare_v2(userdb,"UPDATE `PICEDIT` SET `DATA`=?2 WHERE ID=?1;",-1,&st,0)) {
screen_message(sqlite3_errmsg(userdb));
free(buf);
return;
}
sqlite3_bind_int64(st,1,id);
sqlite3_bind_blob(st,2,buf,size,free);
i=sqlite3_step(st);
if(i!=SQLITE_DONE) screen_message(sqlite3_errmsg(userdb));
sqlite3_finalize(st);
}
static int add_picture(int t) {
sqlite3_stmt*st;
const char*s=screen_prompt("Enter name of new picture:");
int i;
if(!s || !*s) return 0;
if(sqlite3_prepare_v2(userdb,"INSERT INTO `PICEDIT`(`NAME`,`TYPE`,`DATA`) SELECT VALID_NAME(?1)||CASE ?2 WHEN 1 THEN '.IMG' ELSE '.DEP' END,?2,X'';",-1,&st,0)) {
screen_message(sqlite3_errmsg(userdb));
return 0;
}
sqlite3_bind_text(st,1,s,-1,0);
sqlite3_bind_int(st,2,t);
i=sqlite3_step(st);
sqlite3_finalize(st);
if(i!=SQLITE_DONE) {
screen_message(sqlite3_errmsg(userdb));
return 0;
}
edit_picture(sqlite3_last_insert_rowid(userdb));
return 1;
}
static int delete_picture(void) {
sqlite3_stmt*st;
const char*s=screen_prompt("Enter name of picture to delete:");
int i;
if(!s || !*s) return 0;
if(sqlite3_prepare_v2(userdb,"DELETE FROM `PICEDIT` WHERE `NAME`=?1||'.IMG' OR `NAME`=?1||'.DEP';",-1,&st,0)) {
screen_message(sqlite3_errmsg(userdb));
return 0;
}
sqlite3_bind_text(st,1,s,-1,0);
i=sqlite3_step(st);
sqlite3_finalize(st);
if(i!=SQLITE_DONE) {
screen_message(sqlite3_errmsg(userdb));
return 0;
}
return 1;
}
static void rename_picture(void) {
sqlite3_stmt*st;
const char*s=screen_prompt("Old name:");
int i;
if(!s || !*s) return;
if(sqlite3_prepare_v2(userdb,"UPDATE `PICEDIT` SET `NAME`=VALID_NAME(?2)||SUBSTR(`NAME`,-4) WHERE `NAME`=?1||'.IMG' OR `NAME`=?1||'.DEP';",-1,&st,0)) {
screen_message(sqlite3_errmsg(userdb));
return;
}
sqlite3_bind_text(st,1,s,-1,SQLITE_TRANSIENT);
s=screen_prompt("New name:");
if(!s || !*s) {
sqlite3_finalize(st);
return;
}
sqlite3_bind_text(st,2,s,-1,SQLITE_TRANSIENT);
i=sqlite3_step(st);
sqlite3_finalize(st);
if(i!=SQLITE_DONE) screen_message(sqlite3_errmsg(userdb));
}
static void set_caption(void) {
char buf[256];
snprintf(buf,255,"Free Hero Mesh - %s - Picture",basefilename);
SDL_WM_SetCaption(buf,buf);
}
void run_picture_editor(void) {
sqlite3_int64*ids;
SDL_Event ev;
SDL_Rect r;
sqlite3_stmt*st;
int sc=0;
int max=load_picture_file();
int i,n;
sqlite3_create_function(userdb,"VALID_NAME",1,SQLITE_UTF8|SQLITE_DETERMINISTIC,0,fn_valid_name,0,0);
init_palette();
optionquery[1]=Q_imageSize;
picture_size=strtol(xrm_get_resource(resourcedb,optionquery,optionquery,2)?:"16",0,10);
set_cursor(XC_arrow);
set_caption();
i=sqlite3_prepare_v3(userdb,"SELECT `ID`,SUBSTR(`NAME`,1,LENGTH(`NAME`)-4),`TYPE` FROM `PICEDIT` WHERE `TYPE` ORDER BY `NAME` LIMIT ?1 OFFSET ?2;",-1,SQLITE_PREPARE_PERSISTENT,&st,0);
if(i) fatal("SQL error (%d): %s\n",i,sqlite3_errmsg(userdb));
ids=calloc(screen->h/8,sizeof(sqlite3_int64));
if(!ids) fatal("Allocation failed\n");
redraw:
sqlite3_reset(st);
if(sc>max-screen->h/8+1) sc=max-screen->h/8+1;
if(sc<0) sc=0;
sqlite3_bind_int(st,1,screen->h/8-1);
sqlite3_bind_int(st,2,sc);
SDL_LockSurface(screen);
r.x=r.y=0; r.w=screen->w; r.h=screen->h;
SDL_FillRect(screen,&r,0xF0);
draw_text(0,0,"<ESC> Save/Quit <F1> Add <F2> Delete <F3> Edit <F4> Rename <F5> AddDependent",0xF0,0xFB);
n=0;
while((i=sqlite3_step(st))==SQLITE_ROW) {
ids[n++]=sqlite3_column_int64(st,0);
draw_text(16,8*n,sqlite3_column_text(st,1),0xF0,sqlite3_column_int(st,2)==1?0xF7:0xF2);
if(8*n+8>screen->h-8) break;
}
SDL_UnlockSurface(screen);
sqlite3_reset(st);
r.y=8; r.h-=8;
scrollbar(&sc,r.h/8,max,0,&r);
SDL_Flip(screen);
while(SDL_WaitEvent(&ev)) {
if(ev.type!=SDL_VIDEOEXPOSE && scrollbar(&sc,screen->h/8,max,&ev,&r)) goto redraw;
switch(ev.type) {
case SDL_QUIT:
return;
case SDL_KEYDOWN:
switch(ev.key.keysym.sym) {
case SDLK_ESCAPE:
if(!(ev.key.keysym.mod&(KMOD_SHIFT|KMOD_CTRL))) save_picture_file();
return;
case SDLK_q:
if(!(ev.key.keysym.mod&KMOD_CTRL)) break;
if(!(ev.key.keysym.mod&KMOD_SHIFT)) save_picture_file();
return;
case SDLK_HOME: case SDLK_KP7: sc=0; goto redraw;
case SDLK_UP: case SDLK_KP8: if(sc) --sc; goto redraw;
case SDLK_DOWN: case SDLK_KP2: ++sc; goto redraw;
case SDLK_END: case SDLK_KP1: sc=max-screen->h/8+1; goto redraw;
case SDLK_PAGEUP: case SDLK_KP9: sc-=screen->h/8-1; goto redraw;
case SDLK_PAGEDOWN: case SDLK_KP3: sc+=screen->h/8-1; goto redraw;
case SDLK_F1:
if(max<65535) max+=add_picture(1);
else screen_message("Too many pictures");
goto redraw;
case SDLK_F2:
max-=delete_picture();
goto redraw;
case SDLK_F3:
*ids=ask_picture_id("Edit:");
if(*ids) edit_picture(*ids);
goto redraw;
case SDLK_F4:
rename_picture();
goto redraw;
case SDLK_F5:
if(max<65535) max+=add_picture(2);
else screen_message("Too many pictures");
goto redraw;
}
break;
case SDL_MOUSEMOTION:
set_cursor(XC_arrow);
break;
case SDL_VIDEOEXPOSE:
goto redraw;
}
}
}