#ifndef INCLUDE_STRING_H #define INCLUDE_STRING_H #print "[include ]\n" #ifndef INCLUDE_MEM_H #include "../lib/mem.h" #endif //------------------------------------------------------------------------------ // strspn(dword text1,text2) --- example: strspn("12 year","1234567890") -> return 2 // strpbrk(dword text1,text2) --- example: strpbrk("this test", " ckfi") -> return "is test" // strcmp( ESI, EDI) // strlen( EDI) // utf8_strlen( ESI) // strcpy( EDI, ESI) --- 0 if == // strlcpy(dword text1,text2,signed length) // strcat( EDI, ESI) // strncat(dword text1,text2,signed length) --- pasting the text of a certain length // strchr( ESI,BL) --- find first BL // strrchr( ESI,BL) --- find last BL // strstr( EBX, EDX) // itoa(signed long number) --- convert the number as a string // atoi(dword text) --- convert a string as a number // strupr( ESI) // strlwr( ESI) --- Cyrillic symbols may not work // strttl( EDX) // strtok( ESI) // strltrim(dword text) --- removes "blank" characters on the left (\r, \n and space) // strrtrim(dword text) --- removes "blank" characters on the right (\r, \n and space) // strtrim(dword text) --- delete "empty" characters (\ r \ n and space) on both sides // chrnum(dword searchin, char symbol) // strcpyb(dword searchin, copyin, startstr, endstr) --- copy string between strings // strnumb(dword searchin, startstr, endstr) --- get number between strings // strdup(dword text) --- allocation under the text //------------------------------------------------------------------------------ /* inline fastcall signed int strcmp( ESI, EDI) { loop() { IF (DSBYTE[ESI]DSBYTE[EDI]) RETURN 1; IF (DSBYTE[ESI]=='\0') RETURN 0; ESI++; EDI++; } } */ inline int strspn(dword text1,text2) { dword beg; char s1,s2; int ret; ret = 0; beg = text2; do { s1 = ESBYTE[text1]; text2 = beg; do { s2 = ESBYTE[text2]; if(s1==s2) { if(!s2)break; $inc ret break; } else $inc text2 } while(s2); $inc text1 } while(s1); return ret; } inline dword strpbrk(dword text1,text2) { char s,ss; dword beg; beg = text2; do { s = ESBYTE[text1]; text2 = beg; do { ss = ESBYTE[text2]; if(ss==s) return text1; $inc text2 } while(ss); $inc text1 } while(s); return text1; } inline fastcall signed int strncmp( ESI, EDI, ECX) { asm { MOV EBX, EDI XOR EAX, EAX MOV EDX, ECX OR ECX, ECX JE L1 REPNE SCASB SUB EDX, ECX MOV ECX, EDX MOV EDI, EBX XOR EBX, EBX REPE CMPSB MOV AL, DSBYTE[ ESI-1] MOV BL, DSBYTE[ EDI-1] SUB EAX, EBX L1: } } /* inline signed int strncmp(dword text1,text2,len) { loop() { if(DSBYTE[text1]!=DSBYTE[text2])return text1-text2; $dec len if(!len)return 0; } } */ inline fastcall unsigned int strlen( EDI) { $xor eax, eax $mov ecx, -1 $REPNE $SCASB EAX-=2+ECX; } inline strnlen(dword str, dword maxlen) { dword cp; for (cp = str; (maxlen != 0) && (DSBYTE[cp] != '\0'); cp++, maxlen--); return cp - str; } inline fastcall unsigned int utf8_strlen( ESI) { $xor ecx, ecx _loop: $lodsb $test al, al $jz _done $and al, 0xc0 $cmp al, 0x80 $jz _loop $inc ecx $jmp _loop _done: return ECX; } inline signed int strcmp(dword text1, text2) { char s1,s2; dword p1,p2; p1 = text1; p2 = text2; loop() { s1 = DSBYTE[text1]; s2 = DSBYTE[text2]; if(s1==s2) { if(s1==0) return 0; } else { return s1-s2; } $inc text1 $inc text2 } return 0; } :bool strequ(dword text1, text2) { if (!strcmp(text1,text2)) return true; else return false; } /* signed int strncmp(dword s1, s2, signed n) unsigned char _s1,_s2; { if (n == 0) return 0; do { _s1 = DSBYTE[s1]; _s2 = DSBYTE[s2]; if (_s1 != _s2) { $dec s2 return _s1 - _s2; } $inc s2 if (_s1 == 0) break; $inc s1 $dec n } while (n); return 0; } */ inline fastcall void strcpy( EDI, ESI) { $cld L2: $lodsb $stosb $test al,al $jnz L2 } inline fastcall int strlcpy(dword ESI, EDI, EBX) { if (EBX<0) return -1; EDX=0; do { DSBYTE[ESI]=DSBYTE[EDI]; ESI++; EDI++; EDX++; if (EDX==EBX) { DSBYTE[ESI]='\0'; return -1;} } while(DSBYTE[EDI-1]!='\0'); return 0; } /* inline fastcall void strtrim( ESI) { EDI = ESI; do{ AL=DSBYTE[EDI]; if (AL != '\32') && (AL != '\13') && (AL != '\10') { DSBYTE[ESI]=AL; $inc ESI } $inc EDI }while(AL!=0); DSBYTE[ESI] = '\0'; } */ inline byte __isWhite(int s){ if (s==13)||(s==32)||(s==10)||(s==9) return true; return false; } inline void strltrim(dword text){ int s; dword back_text; back_text = text; s = ESBYTE[text]; while(__isWhite(s)) { $inc text s = ESBYTE[text]; } loop() { ESBYTE[back_text] = s; $inc back_text if(!s) break; $inc text s = ESBYTE[text]; }; } inline void strrtrim(dword text) { int s; dword p; do { s = ESBYTE[text]; if(__isWhite(s)) { p = text; while(__isWhite(s)) { $inc text; s = ESBYTE[text]; } } else $inc text } while(s); $dec text s = ESBYTE[text]; if(__isWhite(s)) ESBYTE[p] = 0; } inline void strtrim(dword text){ int s; dword p,back_text; back_text = text; s = ESBYTE[text]; while(__isWhite(s)) { $inc text s = ESBYTE[text]; } do { s = ESBYTE[text]; if(__isWhite(s)) { p = back_text; while(__isWhite(s)) { ESBYTE[back_text] = s; $inc back_text $inc text; s = ESBYTE[text]; } } else { ESBYTE[back_text] = s; $inc back_text $inc text } } while(s); $dec text s = ESBYTE[text]; if(__isWhite(s)) ESBYTE[p] = 0; } inline fastcall void strcat( EDI, ESI) { asm { mov ebx, edi xor ecx, ecx xor eax, eax dec ecx repne scasb dec edi mov edx, edi mov edi, esi xor ecx, ecx xor eax, eax dec ecx repne scasb xor ecx, 0ffffffffh mov edi, edx mov edx, ecx mov eax, edi shr ecx, 2 rep movsd mov ecx, edx and ecx, 3 rep movsb mov eax, ebx } } :void strncat(dword text1, text2, signed len) signed o1,o2; char s; { s = DSBYTE[text1]; while(s){ $inc text1 s = DSBYTE[text1]; } o1 = len/4; o2 = len-4*o1; while(o1){ DSDWORD[text1] = DSDWORD[text2]; text1 += 4; text2 += 4; $dec o1 } while(o2){ DSBYTE[text1] = DSBYTE[text2]; $inc text1 $inc text2 $dec o2 } DSBYTE[text1] = 0; } inline fastcall void chrcat(ESI, BL) { EDI = strlen(ESI); ESBYTE[ESI+EDI] = BL; ESBYTE[ESI+EDI+1] = 0; } inline dword strchr(dword shb;char s) { char ss; loop() { ss = DSBYTE[shb]; if(!ss)return 0; if(ss==s)return shb; shb++; } } inline fastcall signed int strrchr( ESI,BL) { int jj=0, last=0; do{ jj++; $lodsb IF(AL==BL) last=jj; } while(AL!=0); return last; } inline fastcall unsigned int chrnum( ESI, BL) { int num = 0; while(DSBYTE[ESI]) { if (DSBYTE[ESI] == BL) num++; ESI++; } return num; } inline fastcall signed int strstr( EBX, EDX) { asm { MOV EDI, EDX XOR ECX, ECX XOR EAX, EAX DEC ECX REPNE SCASB NOT ECX DEC ECX JE LS2 MOV ESI, ECX XOR ECX, ECX MOV EDI, EBX DEC ECX REPNE SCASB NOT ECX SUB ECX, ESI JBE LS2 MOV EDI, EBX LEA EBX, DSDWORD[ ESI-1] LS1: MOV ESI, EDX LODSB REPNE SCASB JNE LS2 MOV EAX, ECX PUSH EDI MOV ECX, EBX REPE CMPSB POP EDI MOV ECX, EAX JNE LS1 LEA EAX, DSDWORD[ EDI-1] JMP SHORT LS3 LS2: XOR EAX, EAX LS3: } } inline dword strcmpi(dword cmp1, cmp2) { char si, ue; loop() { si = DSBYTE[cmp1]; ue = DSBYTE[cmp2]; if (si>='A') && (si<='Z') si +=32; if (ue>='A') && (ue<='Z') ue +=32; if (si != ue) return -1; cmp1++; cmp2++; if ((DSBYTE[cmp1]=='\0') && (DSBYTE[cmp2]=='\0')) return 0; if (DSBYTE[cmp1]=='\0') return -1; if (DSBYTE[cmp2]=='\0') return 1; } } inline dword strstri(dword searchin, usestr_s) { dword usestr_e = usestr_s; char si, ue; while(DSBYTE[searchin]) { si = DSBYTE[searchin]; ue = DSBYTE[usestr_e]; if (si>='A') && (si<='Z') si +=32; if (ue>='A') && (ue<='Z') ue +=32; if (si == ue) usestr_e++; else usestr_e = usestr_s; searchin++; if (DSBYTE[usestr_e]=='\0') return searchin; } return -1; } inline unsigned int strcpyb(dword search_in, copyin, startstr, endstr) { dword startp, endp; dword copyin_start_off = copyin; if (startstr==0) startp = search_in; else startp = strstr(search_in, startstr) + strlen(startstr); endp = strstri(startp, endstr); if (endp==0) endp = startp+strlen(search_in); //if (startp==endp) return 0; do { DSBYTE[copyin] = DSBYTE[startp]; copyin++; startp++; } while (startp='0') && (DSBYTE[ESI]<='9') { $xor ebx, ebx EBX = DSBYTE[ESI]-'0'; EAX *= 10; EAX += EBX; ESI++; } IF (DSBYTE[EDI]=='-') -EAX; $pop esi $pop ebx } inline fastcall strupr( ESI) { do{ AL=DSBYTE[ESI]; IF(AL>='a')IF(AL<='z')DSBYTE[ESI]=AL&0x5f; IF (AL>=160) && (AL<=175) DSBYTE[ESI] = AL - 32; //à-ï IF (AL>=224) && (AL<=239) DSBYTE[ESI] = AL - 80; //à-ï ESI++; }while(AL!=0); } inline fastcall strlwr( ESI) { do{ $LODSB IF(AL>='A')&&(AL<='Z'){ AL+=0x20; DSBYTE[ESI-1]=AL; CONTINUE; } }while(AL!=0); } inline fastcall strttl( EDX) { AL=DSBYTE[EDX]; IF(AL>='a')&&(AL<='z')DSBYTE[EDX]=AL&0x5f; IF (AL>=160) && (AL<=175) DSBYTE[EDX] = AL - 32; //à-ï IF (AL>=224) && (AL<=239) DSBYTE[EDX] = AL - 80; //à-ï do{ EDX++; AL=DSBYTE[EDX]; IF(AL>='A')&&(AL<='Z'){DSBYTE[EDX]=AL|0x20; CONTINUE;} IF(AL>='€')&&(AL<='')DSBYTE[EDX]=AL|0x20; // -¯ IF (AL>=144) && (AL<=159) DSBYTE[EDX] = AL + 80; //à-ï }while(AL!=0); } /* dword itoa( ESI) { unsigned char buffer[11]; $pusha EDI = #buffer; ECX = 10; if (ESI < 0) { $mov al, '-' $stosb $neg esi } $mov eax, esi $push -'0' F2: $xor edx, edx $div ecx $push edx $test eax, eax $jnz F2 F3: $pop eax $add al, '0' $stosb $jnz F3 $mov al, '\0' $stosb $popa return #buffer; } */ :unsigned char BUF_ITOA[11]; inline dword itoa(signed long number) { dword ret,p; byte cmd; long mask,tmp; mask = 1000000000; cmd = true; p = #BUF_ITOA; if(!number){ ESBYTE[p] = '0'; ESBYTE[p+1] = 0; return p; } ret = p; if(number<0) { $neg number ESBYTE[p] = '-'; $inc p } while(mask) { tmp = number / mask; tmp = tmp%10; if(cmd){ if(tmp){ ESBYTE[p] = tmp + '0'; $inc p cmd = false; } } else { ESBYTE[p] = tmp + '0'; $inc p } mask /= 10; } ESBYTE[p] = 0; return ret; } inline fastcall itoa_(signed int EDI, ESI) { $pusha EBX = EDI; ECX = 10; if (ESI > 90073741824) { $mov al, '-' $stosb $neg esi } $mov eax, esi $push -'0' F2: $xor edx, edx $div ecx $push edx $test eax, eax $jnz F2 F3: $pop eax $add al, '0' $stosb $jnz F3 $mov al, '\0' $stosb $popa return EBX; } inline dword memchr(dword s,int c,signed len) { if(!len) return NULL; do { if(DSBYTE[s] == c) return s; $inc s $dec len } while(len); return NULL; } inline dword strdup(dword text) { dword l = strlen(text); dword ret = malloc(l+1); if(!ret) return NULL; strlcpy(ret,text,l); return ret; } inline dword strndup(dword str, signed maxlen) { dword copy,len; len = strnlen(str, maxlen); copy = malloc(len + 1); if (copy != NULL) { strlcpy(copy, str, len); DSBYTE[len+copy] = '\0'; } return copy; } inline dword hexdec(dword text) { char s; dword ret,l; ret = 0; s = DSBYTE[text]; while(s) { ret <<= 4; if(s>='A')&&(s<='F')ret |= s-'A'+10; else if(s>='a')&&(s<='f')ret |= s-'a'+10; else if(s>='0')&&(s<='9')ret |= s-'0'; text++; s = DSBYTE[text]; } return ret; } inline signed csshexdec(dword text) { char s; dword ret,l; byte tmp; l = strlen(text); ret = 0; s = DSBYTE[text]; tmp = 0; if(l==6) while(s) { ret <<= 4; if(s>='A')&&(s<='F')ret |= s-'A'+10; else if(s>='a')&&(s<='f')ret |= s-'a'+10; else if(s>='0')&&(s<='9')ret |= s-'0'; text++; s = DSBYTE[text]; } else if(l==3) while(s) { ret |= tmp; ret <<= 4; ret |= tmp; ret <<= 4; if(s>='A')&&(s<='F')tmp = s-'A'+10; else if(s>='a')&&(s<='f')tmp = s-'a'+10; else if(s>='0')&&(s<='9')tmp = s-'0'; text++; s = DSBYTE[text]; } return ret; } inline cdecl int sprintf(dword buf, format,...) { byte s; char X[10]; dword ret, tmp, l; dword arg = #format; ret = buf; s = DSBYTE[format]; while(s){ if(s=='%'){ arg+=4; tmp = DSDWORD[arg]; if(tmp==END_ARGS)goto END_FUNC_SPRINTF; $inc format s = DSBYTE[format]; if(!s)goto END_FUNC_SPRINTF; switch(s) { case 's': l = tmp; s = DSBYTE[tmp]; while(s) { DSBYTE[buf] = s; $inc tmp $inc buf s = DSBYTE[tmp]; } break; case 'c': DSBYTE[buf] = tmp; $inc buf break; case 'u': //if(tmp<0)return ret; case 'd': case 'i': tmp = itoa(tmp); if(!DSBYTE[tmp])goto END_FUNC_SPRINTF; l = strlen(tmp); strlcpy(buf,tmp,l); buf += l; break; case 'a': case 'A': strlcpy(buf,"0x00000000",10); buf+=10; l=buf; while(tmp) { $dec buf s=tmp&0xF; if(s>9)DSBYTE[buf]='A'+s-10; else DSBYTE[buf]='0'+s; tmp>>=4; } buf=l; break; case 'p': tmp = itoa(#tmp); if(!DSBYTE[tmp])goto END_FUNC_SPRINTF; l = strlen(tmp); strlcpy(buf,tmp,l); buf += l; break; case '%': DSBYTE[buf] = '%'; $inc buf break; default: goto END_FUNC_SPRINTF; } } else { DSBYTE[buf] = s; $inc buf } $inc format s = DSBYTE[format]; } END_FUNC_SPRINTF: DSBYTE[buf] = 0; return ret; } inline signed strcoll(dword text1,text2) { char s,ss; loop() { s = DSBYTE[text2]; ss=strchr(text1,s); if(ss)return ss; text2++; } return 0; } #define strnmov strmovn #define stricmp strcmpi #define strcmpn strncmp #endif