void Task::parseReplies() { log(_index, "Начат парсинг"); QList<QPair<QString, QNetworkReply*>> data; for(auto i = _data.begin(); i != _data.end(); i++) data.append(qMakePair(i.key(), i.value())); QtConcurrent::blockingMap(data, mapPair); if(!Bad().isEmpty()) emit log(_index, Bad()); emit log(_index, "Парсинг закончен"); emit finished(); }
mozilla::ipc::IPCResult TestActorPunningChild::RecvStart() { SendPTestActorPunningSubConstructor(); SendPTestActorPunningPunnedConstructor(); PTestActorPunningSubChild* a = SendPTestActorPunningSubConstructor(); // We can't assert whether this succeeds or fails, due to race // conditions. SendPun(a, Bad()); return IPC_OK(); }
void Texture::CacheOut() { if (!Bad() && IsCachedIn()) { UnbindTextureFromOpenGL(m_impl); delete [] m_impl->m_texture_surface; delete [] m_impl->m_texture_dirty_array; m_impl->m_texture_surface = NULL; m_impl->m_texture_dirty_array = NULL; } }
void Texture::Activate() { if (!Bad()) { if (IsCachedIn()) { glBindTexture(GL_TEXTURE_2D, m_impl->m_id); } else { // texture not loaded try to cache in CacheIn(); // make sure the cache in worked if (!Bad()) { glBindTexture(GL_TEXTURE_2D, m_impl->m_id); } } } }
void mapPair(QPair<QString, QNetworkReply*> it) { QString err; Month monthArr = parseSingleReply(it.second, err); QFile file(it.first + ".txt"); if(!file.open(QFile::WriteOnly)) { Bad() = "Не могу открыть файл"; return; } int space = it.first.indexOf(" "); int defis = it.first.indexOf("-"); int index = it.first.mid(0, space).toInt(); int month = it.first.mid(space+1, defis - space - 1).toInt(); int year = it.first.mid(defis+1).toInt(); QTextStream out(&file); if(!err.isEmpty()) { out << err; } else { for(int i = 0; i < monthArr.size(); i++) { auto today = monthArr[i]; out << index << ',' << year << ',' << month << ',' << i+1 << ',' << today.first.t << ',' << today.first.p << ',' << today.first.cl << ',' << today.first.ph << ',' << today.first.ws << ',' << today.first.wd << ',' << today.second.t << ',' << today.second.p << ',' << today.second.cl << ',' << today.second.ph << ',' << today.second.ws << ',' << today.second.wd << '\n'; } } out.flush(); }
fdword *Texture::Lock() { if(Bad() || (m_impl->m_dxt_format != TextureImpl::e_dxt_none)) { return NULL; } m_impl->m_texture_locked = true; if(!m_impl->m_texture_surface) { BuildDynamicSurface(); } return m_impl->m_texture_surface; }
void Texture::BuildDynamicSurface() { Activate(); if(Bad()) { return; } fdword pixelsP2 = m_impl->m_heightP2 * m_impl->m_widthP2; fdword pixels = m_impl->m_height * m_impl->m_width; fdword *texture_surfaceP2 = new fdword[pixelsP2]; m_impl->m_texture_surface = new fdword[pixels]; m_impl->m_texture_dirty_array = new bool[m_impl->m_height]; glGetTexImage(GL_TEXTURE_2D, 0, GL_RGBA, GL_UNSIGNED_BYTE, texture_surfaceP2); fdword *dst = m_impl->m_texture_surface; fdword *src = texture_surfaceP2; fdword dstWidthBytes = m_impl->m_width * sizeof(fdword); // copy from the power of 2 texture so we only store the // original texture size in system memory for (unsigned int i = 0 ; i < m_impl->m_height; i++) { memcpy(dst, src, dstWidthBytes); dst += m_impl->m_width; src += m_impl->m_widthP2; } delete texture_surfaceP2; for (fdword i = 0; i < m_impl->m_height; i++) { m_impl->m_texture_dirty_array[i] = false; } m_impl->m_texture_dirty_flag = false; }
/* * Return values: * 0 - Success * 1 - Some error * 2 - Orphaned tic */ int ProcessTic(fa_list **sbl, orphans **opl) { int First, Listed = FALSE, DownLinks = 0, MustRearc = FALSE; int UnPacked = FALSE, IsArchive = FALSE, rc, i, j, k; char *Temp, *unarc = NULL, *cmd = NULL; char temp1[PATH_MAX], temp2[PATH_MAX], sbe[24], TDesc[1024]; unsigned int crc, crc2, Kb; sysconnect Link; FILE *fp; struct utimbuf ut; int BBS_Imp = FALSE, DidBanner = FALSE; faddr *p_from; qualify *qal = NULL, *tmpq; orphans *topl; if (TIC.TicIn.PathError) { WriteError("Our Aka is in the path"); tic_bad++; return 1; } Temp = calloc(PATH_MAX, sizeof(char)); if (!do_quiet) { mbse_colour(LIGHTGREEN, BLACK); printf("Checking \b\b\b\b\b\b\b\b\b\b"); fflush(stdout); } if (TIC.Orphaned) { fill_orphans(opl, TIC.TicName, TIC.TicIn.Area, TIC.TicIn.File, TRUE, FALSE); Syslog('+', "File not in inbound: %s", TIC.TicIn.File); free(Temp); return 2; } snprintf(Temp, PATH_MAX, "%s/%s", TIC.Inbound, TIC.TicIn.File); crc = file_crc(Temp, CFG.slow_util && do_quiet); TIC.FileSize = file_size(Temp); TIC.FileDate = file_time(Temp); if (TIC.TicIn.Size) { if (TIC.TicIn.Size != TIC.FileSize) WriteError("Size is %ld, expected %ld", TIC.FileSize, TIC.TicIn.Size); } else { /* * No filesize in TIC file, add filesize. */ TIC.TicIn.Size = TIC.FileSize; } if (TIC.Crc_Int) { if (crc != TIC.Crc_Int) { Syslog('!', "CRC: expected %08lX, the file is %08lX", TIC.Crc_Int, crc); fill_orphans(opl, TIC.TicName, TIC.TicIn.Area, TIC.TicIn.File, FALSE, TRUE); if (check_crc) { Syslog('+', "Bad CRC, will check this ticfile later"); free(Temp); return 1; } else { Syslog('!', "CRC: error, recalculating crc"); ReCalcCrc(Temp); } } } else { Syslog('+', "CRC: missing, calculating CRC"); ReCalcCrc(Temp); } /* * Load and check the .TIC area. */ if (!SearchTic(TIC.TicIn.Area)) { UpdateNode(); Syslog('f', "Unknown file area %s", TIC.TicIn.Area); p_from = fido2faddr(TIC.Aka); if (!create_ticarea(TIC.TicIn.Area, p_from)) { Bad((char *)"Unknown file area %s", TIC.TicIn.Area); free(Temp); tidy_faddr(p_from); return 1; } tidy_faddr(p_from); /* * Try to load the .TIC area again. */ if (!SearchTic(TIC.TicIn.Area)) { Bad((char *)"Reload of new created file area %s failed", TIC.TicIn.Area); free(Temp); return 1; } } if ((tic.Secure) && (!TIC.TicIn.Hatch)) { First = TRUE; while (GetTicSystem(&Link, First)) { First = FALSE; if (Link.aka.zone) { if ((Link.aka.zone == TIC.Aka.zone) && (Link.aka.net == TIC.Aka.net) && (Link.aka.node == TIC.Aka.node) && (Link.aka.point== TIC.Aka.point) && (Link.receivefrom)) Listed = TRUE; } } if (!Listed) { Bad((char *)"%s NOT connected to %s", aka2str(TIC.Aka), TIC.TicIn.Area); free(Temp); return 1; } } if ((!SearchNode(TIC.Aka)) && (!TIC.TicIn.Hatch)) { Bad((char *)"%s NOT known", aka2str(TIC.Aka)); free(Temp); return 1; } if (!TIC.TicIn.Hatch) { if (strcasecmp(TIC.TicIn.Pw, nodes.Fpasswd)) { Bad((char *)"Pwd error, got %s, expected %s", TIC.TicIn.Pw, nodes.Fpasswd); free(Temp); return 1; } } else { if (strcasecmp(TIC.TicIn.Pw, CFG.hatchpasswd)) { Bad((char *)"Password error in local Hatch"); WriteError("WARNING: it might be a Trojan in your inbound"); free(Temp); return 1; } } if (Magic_DeleteFile()) { snprintf(temp1, PATH_MAX, "%s/%s", TIC.Inbound, TIC.TicName); file_rm(temp1); Syslog('+', "Deleted file %s", temp1); file_rm(Temp); free(Temp); return 0; } if (Magic_MoveFile()) { if (!SearchTic(TIC.TicIn.Area)) { Bad((char *)"Unknown Area: %s", TIC.TicIn.Area); free(Temp); return 1; } } strncpy(T_File.Echo, tic.Name, 20); strncpy(T_File.Group, tic.Group, 12); TIC.KeepNum = tic.KeepLatest; Magic_Keepnum(); if (!tic.FileArea) { Syslog('+', "Passthru TIC area!"); strcpy(TIC.BBSpath, CFG.ticout); strcpy(TIC.BBSdesc, tic.Comment); } else { snprintf(Temp, PATH_MAX, "%s/etc/fareas.data", getenv("MBSE_ROOT")); if ((fp = fopen(Temp, "r")) == NULL) { WriteError("Can't access fareas.data area: %ld", tic.FileArea); free(Temp); return 1; } fread(&areahdr, sizeof(areahdr), 1, fp); if (fseek(fp, ((tic.FileArea -1) * areahdr.recsize) + areahdr.hdrsize, SEEK_SET)) { fclose(fp); WriteError("Can't seek area %ld in fareas.data", tic.FileArea); free(Temp); return 1; } if (fread(&area, areahdr.recsize, 1, fp) != 1) { fclose(fp); WriteError("Can't read area %ld in fareas.data", tic.FileArea); free(Temp); return 1; } fclose(fp); strcpy(TIC.BBSpath, area.Path); strcpy(TIC.BBSdesc, area.Name); /* * If the File area has a special announce group, change * the group to that name. */ if (strlen(area.NewGroup)) strncpy(T_File.Group, area.NewGroup, 12); } strncpy(T_File.Comment, tic.Comment, 55); /* * Check if the destination area really exists, it may be that * the area is not linked to an existing BBS area. */ if (tic.FileArea && access(TIC.BBSpath, W_OK)) { WriteError("No write access to \"%s\"", TIC.BBSpath); Bad((char *)"Dest directory not available"); free(Temp); return 1; } if ((tic.DupCheck) && (check_dupe)) { snprintf(Temp, PATH_MAX, "%s%s", TIC.TicIn.Area, TIC.TicIn.Crc); crc2 = 0xffffffff; crc2 = upd_crc32(Temp, crc2, strlen(Temp)); if (CheckDupe(crc2, D_FILEECHO, CFG.tic_dupes)) { Bad((char *)"Duplicate file"); tic_dup++; free(Temp); return 1; } } /* * Count the actual downlinks for this area and build the list of * systems qualified to receive this file. */ First = TRUE; while (GetTicSystem(&Link, First)) { First = FALSE; if ((Link.aka.zone) && (Link.sendto) && (!Link.pause)) { DownLinks++; p_from = fido2faddr(Link.aka); if (TIC.TicIn.Hatch) { fill_qualify(&qal, Link.aka, FALSE, in_list(p_from, sbl, TRUE)); } else { fill_qualify(&qal, Link.aka, ((TIC.Aka.zone == Link.aka.zone) && (TIC.Aka.net == Link.aka.net) && (TIC.Aka.node == Link.aka.node) && (TIC.Aka.point == Link.aka.point)), in_list(p_from, sbl, TRUE)); } tidy_faddr(p_from); } } T_File.Size = TIC.FileSize; T_File.SizeKb = TIC.FileSize / 1024; /* * Update the uplink's counters. */ Kb = TIC.FileSize / 1024; if (SearchNode(TIC.Aka)) { StatAdd(&nodes.FilesRcvd, 1L); StatAdd(&nodes.F_KbRcvd, Kb); UpdateNode(); SearchNode(TIC.Aka); } /* * Update the fileecho and group counters. */ StatAdd(&fgroup.Files, 1L); StatAdd(&fgroup.KBytes, Kb); fgroup.LastDate = time(NULL); StatAdd(&tic.Files, 1L); StatAdd(&tic.KBytes, Kb); tic.LastAction = time(NULL); UpdateTic(); if (!do_quiet) { printf("Unpacking \b\b\b\b\b\b\b\b\b\b"); fflush(stdout); } /* * Check if this is an archive, and if so, which compression method * is used for this file. */ if (strlen(tic.Convert) || tic.FileId || tic.ConvertAll || strlen(tic.Banner)) { /* * Create tmp workdir */ if (create_tmpwork()) { free(Temp); tidy_qualify(&qal); return 1; } if ((unarc = unpacker(TIC.TicIn.File)) == NULL) Syslog('+', "Unknown archive format %s", TIC.TicIn.File); else { IsArchive = TRUE; if ((strlen(tic.Convert) && (strcmp(unarc, tic.Convert) == 0)) || (tic.ConvertAll)) MustRearc = TRUE; } } /* * Copy the file if there are downlinks and we send the * original file, but want to rearc it for ourself, or if * it's a passthru area. */ if (((tic.SendOrg) && (MustRearc || strlen(tic.Banner))) || (!tic.FileArea)) { snprintf(temp1, PATH_MAX, "%s/%s", TIC.Inbound, TIC.TicIn.File); snprintf(temp2, PATH_MAX, "%s/%s", CFG.ticout, TIC.TicIn.File); if ((rc = file_cp(temp1, temp2) == 0)) { TIC.SendOrg = TRUE; } else { WriteError("Copy %s to %s failed: %s", temp1, temp2, strerror(rc)); } } if (MustRearc && IsArchive) { snprintf(temp2, PATH_MAX, "%s/tmp/arc%d", getenv("MBSE_ROOT"), (int)getpid()); if (!checkspace(temp2, TIC.TicIn.File, UNPACK_FACTOR)) { Bad((char *)"Not enough free diskspace left"); free(Temp); tidy_qualify(&qal); clean_tmpwork(); return 1; } if (chdir(temp2) != 0) { WriteError("$Can't change to %s", temp2); free(Temp); tidy_qualify(&qal); clean_tmpwork(); return 1; } if (!getarchiver(unarc)) { WriteError("Can't get archiver for %s", unarc); chdir(TIC.Inbound); free(Temp); tidy_qualify(&qal); clean_tmpwork(); return 1; } if (strlen(archiver.funarc) == 0) { Syslog('!', "No unarc command available"); } else { cmd = xstrcpy(archiver.funarc); snprintf(temp1, PATH_MAX, "%s/%s", TIC.Inbound, TIC.TicIn.File); if (execute_str(cmd, temp1, (char *)NULL, (char *)"/dev/null", (char *)"/dev/null", (char *)"/dev/null") == 0) { UnPacked = TRUE; } else { chdir(TIC.Inbound); Bad((char *)"Archive maybe corrupt"); free(Temp); clean_tmpwork(); return 1; } free(cmd); } } /* * Scan file for viri. */ if (tic.VirScan) { snprintf(temp1, PATH_MAX, "%s/%s", TIC.Inbound, TIC.TicIn.File); if (!do_quiet) { printf("Virscan \b\b\b\b\b\b\b\b\b\b"); fflush(stdout); } if (VirScanFile(temp1)) { chdir(TIC.Inbound); Bad((char *)"Possible virus found!"); free(Temp); tidy_qualify(&qal); clean_tmpwork(); return 1; } if (!do_quiet) { printf("Checking \b\b\b\b\b\b\b\b\b\b"); fflush(stdout); } } if (tic.FileId && tic.FileArea && IsArchive) { if (UnPacked) { snprintf(temp1, PATH_MAX, "%s/tmp/arc%d", getenv("MBSE_ROOT"), (int)getpid()); snprintf(Temp, PATH_MAX, "FILE_ID.DIZ"); if (getfilecase(temp1, Temp)) { Syslog('f', "Found %s", Temp); snprintf(temp1, PATH_MAX, "%s/tmp/arc%d/%s", getenv("MBSE_ROOT"), (int)getpid(), Temp); snprintf(temp2, PATH_MAX, "%s/tmp/FILE_ID.DIZ", getenv("MBSE_ROOT")); } else { Syslog('f', "Didn't find a FILE_ID.DIZ"); } } else { if (!getarchiver(unarc)) { chdir(TIC.Inbound); } else { cmd = xstrcpy(archiver.iunarc); if (cmd == NULL) { WriteError("No unarc command available"); } else { snprintf(temp1, PATH_MAX, "%s/tmp", getenv("MBSE_ROOT")); chdir(temp1); snprintf(temp1, PATH_MAX, "%s/%s FILE_ID.DIZ", TIC.Inbound, TIC.TicIn.File); if (execute_str(cmd, temp1, (char *)NULL, (char *)"/dev/null", (char *)"/dev/null", (char *)"/dev/null")) { snprintf(temp1, PATH_MAX, "%s/%s file_id.diz", TIC.Inbound, TIC.TicIn.File); execute_str(cmd, temp1, (char *)NULL, (char *)"/dev/null", (char *)"/dev/null", (char *)"/dev/null"); } free(cmd); } } /* if getarchiver */ } /* if not unpacked */ } /* if need FILE_ID.DIZ and not passthru */ /* * Create internal file description, priority is FILE_ID.DIZ, * 2nd LDesc, and finally the standard description. */ if (!Get_File_Id()) { if (TIC.TicIn.TotLDesc > 2) { for (i = 0; i < TIC.TicIn.TotLDesc; i++) { strncpy(TIC.File_Id[i], TIC.TicIn.LDesc[i], 48); } TIC.File_Id_Ct = TIC.TicIn.TotLDesc; } else { /* * Format the description line (max 255 chars) in parts of 48 characters. */ if (strlen(TIC.TicIn.Desc) <= 48) { strcpy(TIC.File_Id[0], TIC.TicIn.Desc); TIC.File_Id_Ct++; } else { memset(&TDesc, 0, sizeof(TDesc)); strcpy(TDesc, TIC.TicIn.Desc); while (strlen(TDesc) > 48) { j = 48; while ((TDesc[j] != ' ') && (j > 0)) j--; if (j == 0) { Syslog('f', "Panic, no spaces"); j = 47; } strncpy(TIC.File_Id[TIC.File_Id_Ct], TDesc, j); Syslog('f', "%2d/%2d: \"%s\"", TIC.File_Id_Ct, j, TIC.File_Id[TIC.File_Id_Ct]); TIC.File_Id_Ct++; k = strlen(TDesc); j++; /* Correct space */ for (i = 0; i <= k; i++, j++) TDesc[i] = TDesc[j]; if (TIC.File_Id_Ct == 23) break; } strncpy(TIC.File_Id[TIC.File_Id_Ct], TDesc, 48); Syslog('f', "%2d/%2d: \"%s\"", TIC.File_Id_Ct, strlen(TIC.File_Id[TIC.File_Id_Ct]), TIC.File_Id[TIC.File_Id_Ct]); TIC.File_Id_Ct++; } } } /* not get FILE_ID.DIZ */ /* * Now check if other (older) ticfiles point to this file, * if found mark it to purge later. */ for (topl = *opl; topl; topl = topl->next) { if ((strcmp(topl->Area, TIC.TicIn.Area) == 0) && (strcmp(topl->FileName, TIC.TicIn.File) == 0)) { topl->Purged = TRUE; } } /* * Rearc file if it is an unpacked archive. */ if ((MustRearc) && (UnPacked) && (tic.FileArea)) { if (Rearc(tic.Convert)) { /* * Get new filesize for import and announce */ snprintf(temp1, PATH_MAX, "%s/%s", TIC.Inbound, TIC.NewFile); TIC.FileSize = file_size(temp1); T_File.Size = TIC.FileSize; T_File.SizeKb = TIC.FileSize / 1024; /* * Calculate the CRC if we must send the new archived file. */ if (!TIC.SendOrg) { ReCalcCrc(temp1); } } else { WriteError("Rearc failed"); } /* if Rearc() */ } /* * Change banner if needed. */ if ((strlen(tic.Banner)) && IsArchive) { cmd = xstrcpy(archiver.barc); if ((cmd == NULL) || (!strlen(cmd))) { Syslog('+', "No banner command for %s", archiver.name); } else { snprintf(temp1, PATH_MAX, "%s/%s", TIC.Inbound, TIC.NewFile); snprintf(Temp, PATH_MAX, "%s/etc/%s", getenv("MBSE_ROOT"), tic.Banner); if (execute_str(cmd, temp1, (char *)NULL, Temp, (char *)"/dev/null", (char *)"/dev/null")) { WriteError("Changing the banner failed"); } else { Syslog('+', "New banner %s", tic.Banner); TIC.FileSize = file_size(temp1); T_File.Size = TIC.FileSize; T_File.SizeKb = TIC.FileSize / 1024; ReCalcCrc(temp1); DidBanner = TRUE; } } } clean_tmpwork(); chdir(TIC.Inbound); /* * If the file is converted, we set the date of the original * received file as the file creation date. */ snprintf(Temp, PATH_MAX, "%s/%s", TIC.Inbound, TIC.NewFile); if ((MustRearc || DidBanner) && CFG.ct_KeepDate) { if ((tic.Touch) && (tic.FileArea)) { ut.actime = mktime(localtime(&TIC.FileDate)); ut.modtime = mktime(localtime(&TIC.FileDate)); utime(Temp, &ut); Syslog('-', "Restamp filedate %s to %s", Temp, rfcdate(ut.modtime)); } } /* * Now make sure the file timestamp is updated. The file may be restamped, * altered by banners etc. */ TIC.FileDate = file_time(Temp); /* * If not passthru, import in the BBS. */ if (tic.FileArea) { Syslog('+', "Import: %s (%s) Area: %s", TIC.NewFile, TIC.NewFullName, TIC.TicIn.Area); BBS_Imp = Add_BBS(&qal); if (!BBS_Imp) { Bad((char *)"File Import Error"); free(Temp); tidy_qualify(&qal); clean_tmpwork(); return 1; } } chdir(TIC.Inbound); /* * Create file announce record */ if (tic.FileArea) { if (strlen(TIC.TicIn.Magic)) magic_update(TIC.TicIn.Magic, TIC.NewFile); else Magic_UpDateAlias(); for (i = 0; i < TIC.File_Id_Ct; i++) strncpy(T_File.LDesc[i], TIC.File_Id[i], 48); T_File.TotLdesc = TIC.File_Id_Ct; T_File.Announce = tic.Announce; strncpy(T_File.Name, TIC.NewFile, 12); strncpy(T_File.LName, TIC.NewFullName, 80); T_File.Fdate = TIC.FileDate; Add_ToBeRep(T_File); } if (TIC.SendOrg && !tic.FileArea) { /* * If it's a passthru area we don't need the * file in the inbound anymore so it can be * deleted. */ snprintf(temp1, PATH_MAX, "%s/%s", TIC.Inbound, TIC.TicIn.File); if (file_rm(temp1) == 0) Syslog('f', "Deleted %s", temp1); } if (DownLinks) { First = TRUE; /* * Add all our system aka's to the seenby lines in the same zone, * omit aka's already in the seenby list. */ for (i = 0; i < 39; i++) { if (CFG.akavalid[i] && (tic.Aka.zone == CFG.aka[i].zone)) { p_from = fido2faddr(CFG.aka[i]); if (! in_list(p_from, sbl, TRUE)) { if (CFG.aka[i].point) snprintf(sbe, 24, "%u:%u/%u.%u", CFG.aka[i].zone, CFG.aka[i].net, CFG.aka[i].node, CFG.aka[i].point); else snprintf(sbe, 24, "%u:%u/%u", CFG.aka[i].zone, CFG.aka[i].net, CFG.aka[i].node); fill_list(sbl, sbe, NULL); } tidy_faddr(p_from); } } /* * Add seen-by lines for all systems that will receive this file. */ for (tmpq = qal; tmpq; tmpq = tmpq->next) { if (tmpq->send) { if (CFG.aka[i].point) snprintf(sbe, 24, "%u:%u/%u.%u", tmpq->aka.zone, tmpq->aka.net, tmpq->aka.node, tmpq->aka.point); else snprintf(sbe, 24, "%u:%u/%u", tmpq->aka.zone, tmpq->aka.net, tmpq->aka.node); fill_list(sbl, sbe, NULL); } } uniq_list(sbl); sort_list(sbl); /* * Now forward this file to the qualified downlinks. */ for (tmpq = qal; tmpq; tmpq = tmpq->next) { if (tmpq->send) { ForwardFile(tmpq->aka, *sbl); tic_out++; } } } Magic_ExecCommand(); Magic_CopyFile(); Magic_UnpackFile(); Magic_AdoptFile(); snprintf(Temp, PATH_MAX, "%s/%s", TIC.Inbound, TIC.TicName); if (unlink(Temp)) { WriteError("$Can't delete %s", Temp); } free(Temp); tidy_qualify(&qal); return 0; }
bool Texture::CacheIn() { fbyte *im; if (Bad()) { return false; } if (!IsCachedIn()) { ILuint image_id; ILint format; ilGenImages(1, &image_id); ilBindImage(image_id); if(!ilLoadImage((ILstring)m_impl->m_filename.c_str())) { ilDeleteImages(1, &image_id); m_impl->m_bad = true; cerr << "Failed to load texture file " << m_impl->m_filename << endl; return false; } format=ilGetInteger(IL_DXTC_DATA_FORMAT); switch(format) { case IL_DXT_NO_COMP: break; case IL_DXT1: m_impl->m_dxt_format = TextureImpl::e_dxt1; break; case IL_DXT2: m_impl->m_dxt_format = TextureImpl::e_dxt2; break; case IL_DXT3: m_impl->m_dxt_format = TextureImpl::e_dxt3; break; case IL_DXT4: m_impl->m_dxt_format = TextureImpl::e_dxt4; break; case IL_DXT5: m_impl->m_dxt_format = TextureImpl::e_dxt5; break; } if(m_impl->m_dxt_format!=TextureImpl::e_dxt_none) { m_impl->m_width=ilGetInteger(IL_IMAGE_WIDTH); m_impl->m_height=ilGetInteger(IL_IMAGE_HEIGHT); m_impl->m_widthP2 = m_impl->m_width; m_impl->m_heightP2 = m_impl->m_height; m_impl->m_type = Texture::TYPE_RGBA; ILint s; char *data; s = ilGetDXTCData(NULL,0,format); m_impl->m_dxt_size = s; im = new fbyte[s]; ilGetDXTCData(im,s,format); BindTextureToOpenGL(m_impl, im); delete [] im; } else { format=ilGetInteger(IL_IMAGE_FORMAT); if(format == IL_RGBA || format == IL_BGRA || format == IL_LUMINANCE_ALPHA || m_impl->m_autoGenAlphaMask) { ilConvertImage(IL_RGBA,IL_UNSIGNED_BYTE); m_impl->m_type = Texture::TYPE_RGBA; } else { ilConvertImage(IL_RGB,IL_UNSIGNED_BYTE); m_impl->m_type = Texture::TYPE_RGB; } m_impl->m_width=ilGetInteger(IL_IMAGE_WIDTH); m_impl->m_height=ilGetInteger(IL_IMAGE_HEIGHT); m_impl->m_widthP2 = m_impl->m_width; m_impl->m_heightP2 = m_impl->m_height; if((m_impl->m_width & (m_impl->m_width - 1)) != 0 || (m_impl->m_height & (m_impl->m_height - 1)) != 0) { for(fdword i=2;i<=c_max_texture_size_power;i++) { if((m_impl->m_width<<1) > (1UL<<i)) { m_impl->m_widthP2 = (1UL<<i); } if((m_impl->m_height<<1) > (1UL<<i)) { m_impl->m_heightP2 = (1UL<<i); } } cerr << m_impl->m_filename << " has invalid texture size: " << m_impl->m_width << "x" << m_impl->m_height << " resizing to " << m_impl->m_widthP2 << "x" << m_impl->m_heightP2 << endl; cerr << " Wasted space due to texture resize: " << (((m_impl->m_widthP2 * m_impl->m_heightP2) - (m_impl->m_width * m_impl->m_height)) / float(m_impl->m_widthP2 * m_impl->m_heightP2)) * 100.0f << "%" << endl; iluImageParameter(ILU_PLACEMENT, ILU_UPPER_LEFT); ilClearColour(1.0f,0.2f,0.8f,1.0f); if(!iluEnlargeCanvas(m_impl->m_widthP2, m_impl->m_heightP2, ilGetInteger(IL_IMAGE_DEPTH))) { ilDeleteImages(1, &image_id); m_impl->m_bad = true; cerr << "Resize of texture canvas failed" << endl; return false; } } im = ilGetData(); if(m_impl->m_autoGenAlphaMask) { Colour c; fdword i,j; for(j=0;j<m_impl->m_height;j++) { for(i=0;i<m_impl->m_width;i++) { c.FromInteger(((fdword *)im)[j*m_impl->m_widthP2+i], c_rgba_red_mask, c_rgba_red_shift, c_rgba_green_mask, c_rgba_green_shift, c_rgba_blue_mask, c_rgba_blue_shift, c_rgba_alpha_mask, c_rgba_alpha_shift); GF1::Colour cd(c - m_impl->m_autoGenAlphaMaskColour); if(m_impl->m_autoGenAlphaMaskFade && m_impl->m_autoGenAlphaMaskTolerance > 0) { c.a = cd.Length() / m_impl->m_autoGenAlphaMaskTolerance; } else { if(cd.LengthSquared() <= m_impl->m_autoGenAlphaMaskTolerance * m_impl->m_autoGenAlphaMaskTolerance) { c.a=0.0f; } else { c.a=1.0f; } } ((fdword *)im)[j*m_impl->m_widthP2+i] = c.ToInteger(255,0,255,8,255,16,255,24); } } } BindTextureToOpenGL(m_impl, im); } ilDeleteImages(1, &image_id); } return true; }