ev 635 core/gui_osd.c short ev = shooting_get_ev_correction1(); ev 637 core/gui_osd.c if (ev/96 || (ev==0)) ev 638 core/gui_osd.c sprintf(osd_buf, "EV: %d %s", abs(ev/96), s[abs(ev/16%6)]); ev 640 core/gui_osd.c sprintf(osd_buf, "EV: %s ", s[abs(ev/16%6)]); ev 642 core/gui_osd.c if (ev>0) ev 644 core/gui_osd.c else if (ev<0) ev 37 core/levent.c levent_def *ev; ev 39 core/levent.c for (ev = levent_table; ev->name; ev++) { ev 1861 core/shooting.c short ev, tv; ev 1865 core/shooting.c ev=48*x; ev 1866 core/shooting.c tv=save_tv_video-ev; ev 7225 tools/finsig_dryos.c void print_kval(firmware *fw, uint32_t tadr, int tsiz, int tlen, uint32_t ev, const char *name, char *sfx) ev 7231 tools/finsig_dryos.c if (fw->buf[tidx+k+1] == ev) ev 7248 tools/finsig_dryos.c bprintf("//#define %-20s0x%08x // Found @0x%08x, levent 0x%x%s\n",fn,b,tadr,ev,i?" (non-inverted logic)":""); ev 7257 tools/finsig_dryos.c uint32_t ev; ev 7263 tools/finsig_dryos.c ev = fw->buf[tidx+k+1]; ev 7273 tools/finsig_dryos.c fprintf(out_fp, "levent 0x%08x, 0x%08x, index %d%s\n", ev, b, r, i?" (non-inverted logic)":""); ev 7284 tools/finsig_dryos.c uint32_t ev; ev 7293 tools/finsig_dryos.c void add_kinfo(int r, uint32_t b, const char *nm, uint32_t adr, uint32_t ev, int inv) ev 7299 tools/finsig_dryos.c key_info[kcount].ev = ev; ev 7303 tools/finsig_dryos.c if ((ev <= 1) && (b < kshutter_min_bits)) kshutter_min_bits = b; ev 7306 tools/finsig_dryos.c uint32_t add_kmval(firmware *fw, uint32_t tadr, int tsiz, int tlen, uint32_t ev, const char *name, uint32_t xtra) ev 7314 tools/finsig_dryos.c if (fw->buf[tidx+k+1] == ev) ev 7327 tools/finsig_dryos.c add_kinfo(r,b|xtra,name,tadr,ev,inv); ev 7343 tools/finsig_dryos.c if ((p1->ev <= 1) && (p2->ev <= 1)) // output shutter entries in reverse order ev 7355 tools/finsig_dryos.c if (p1->ev <= 1) ev 7366 tools/finsig_dryos.c if (p2->ev <= 1) ev 7398 tools/finsig_dryos.c bprintf("// { %d, %-20s,0x%08x }, // Found @0x%08x, levent 0x%02x%s\n",key_info[k].reg,key_info[k].nm,key_info[k].bits,key_info[k].fadr,key_info[k].ev,(key_info[k].inv==0)?"":" (uses inverted logic in physw_status)"); ev 6592 tools/finsig_thumb2.c uint32_t ev; ev 6601 tools/finsig_thumb2.c vals->ev=fw_u32(fw,adr+4); ev 6608 tools/finsig_thumb2.c uint32_t find_physw_table_entry(firmware *fw, uint32_t tadr, int tcount, uint32_t ev) ev 6612 tools/finsig_thumb2.c if(fw_u32(fw,tadr+4) == ev) { ev 6645 tools/finsig_thumb2.c fprintf(f,"0x%08x 0x%08x 0x%08x %-5d 0x%08x %d\n",tadr,v.raw_info,v.ev,v.reg,v.bit,v.no_invert); ev 6649 tools/finsig_thumb2.c void print_kval(firmware *fw, uint32_t tadr, int tcount, uint32_t ev, const char *name, const char *sfx) ev 6651 tools/finsig_thumb2.c uint32_t adr=find_physw_table_entry(fw,tadr,tcount,ev); ev 6662 tools/finsig_thumb2.c bprintf("//#define %-20s0x%08x // Found @0x%08x, levent 0x%x%s\n",fn,v.bit,adr,v.ev,v.no_invert?" (non-inverted logic)":""); ev 6673 tools/finsig_thumb2.c uint32_t ev; ev 6682 tools/finsig_thumb2.c void add_kinfo(int r, uint32_t b, const char *nm, uint32_t adr, uint32_t ev, int inv) ev 6688 tools/finsig_thumb2.c key_info[kcount].ev = ev; ev 6692 tools/finsig_thumb2.c if ((ev <= 1) && (b < kshutter_min_bits)) kshutter_min_bits = b; ev 6695 tools/finsig_thumb2.c uint32_t add_kmval(firmware *fw, uint32_t tadr, __attribute__ ((unused))int tsiz, int tlen, uint32_t ev, const char *name, uint32_t xtra) ev 6697 tools/finsig_thumb2.c uint32_t adr=find_physw_table_entry(fw,tadr,tlen,ev); ev 6704 tools/finsig_thumb2.c add_kinfo(v.reg,v.bit|xtra,name,adr,v.ev,(v.no_invert)?0:1); ev 6718 tools/finsig_thumb2.c if ((p1->ev <= 1) && (p2->ev <= 1)) // output shutter entries in reverse order ev 6730 tools/finsig_thumb2.c if (p1->ev <= 1) ev 6741 tools/finsig_thumb2.c if (p2->ev <= 1) ev 6773 tools/finsig_thumb2.c bprintf("// { %d, %-20s,0x%08x }, // Found @0x%08x, levent 0x%02x%s\n",key_info[k].reg,key_info[k].nm,key_info[k].bits,key_info[k].fadr,key_info[k].ev,(key_info[k].inv==0)?"":" (uses inverted logic in physw_status)"); ev 5452 tools/finsig_vxworks.c void print_kval(firmware *fw, uint32_t tadr, int tsiz, int tlen, uint32_t ev, const char *name, char *sfx) ev 5458 tools/finsig_vxworks.c if (fw->buf[tidx+k+1] == ev) ev 5474 tools/finsig_vxworks.c bprintf("//#define %-20s0x%08x // Found @0x%08x, levent 0x%x\n",fn,b,tadr,ev); ev 5484 tools/finsig_vxworks.c uint32_t ev; ev 5493 tools/finsig_vxworks.c void add_kinfo(int r, uint32_t b, const char *nm, uint32_t adr, uint32_t ev, int inv) ev 5499 tools/finsig_vxworks.c key_info[kcount].ev = ev; ev 5503 tools/finsig_vxworks.c if ((ev <= 1) && (b < kshutter_min_bits)) kshutter_min_bits = b; ev 5506 tools/finsig_vxworks.c uint32_t add_kmval(firmware *fw, uint32_t tadr, int tsiz, int tlen, uint32_t ev, const char *name, uint32_t xtra) ev 5514 tools/finsig_vxworks.c if (fw->buf[tidx+k+1] == ev) ev 5527 tools/finsig_vxworks.c add_kinfo(r,b|xtra,name,tadr,ev,inv); ev 5543 tools/finsig_vxworks.c if ((p1->ev <= 1) && (p2->ev <= 1)) // output shutter entries in reverse order ev 5555 tools/finsig_vxworks.c if (p1->ev <= 1) ev 5566 tools/finsig_vxworks.c if (p2->ev <= 1) ev 5598 tools/finsig_vxworks.c bprintf("// { %d, %-20s,0x%08x }, // Found @0x%08x, levent 0x%02x%s\n",key_info[k].reg,key_info[k].nm,key_info[k].bits,key_info[k].fadr,key_info[k].ev,(key_info[k].inv==0)?"":" (uses inverted logic in physw_status)");