معرفی شرکت ها
clang10.0-libs-10.0.0-alt0.2.p9.i586.rpm
تبلیغات ما
مشتریان به طور فزاینده ای آنلاین هستند. تبلیغات می تواند به آنها کمک کند تا کسب و کار شما را پیدا کنند.
مشاهده بیشتر
تبلیغات ما
مشتریان به طور فزاینده ای آنلاین هستند. تبلیغات می تواند به آنها کمک کند تا کسب و کار شما را پیدا کنند.
مشاهده بیشتر
تبلیغات ما
مشتریان به طور فزاینده ای آنلاین هستند. تبلیغات می تواند به آنها کمک کند تا کسب و کار شما را پیدا کنند.
مشاهده بیشتر
تبلیغات ما
مشتریان به طور فزاینده ای آنلاین هستند. تبلیغات می تواند به آنها کمک کند تا کسب و کار شما را پیدا کنند.
مشاهده بیشتر
تبلیغات ما
مشتریان به طور فزاینده ای آنلاین هستند. تبلیغات می تواند به آنها کمک کند تا کسب و کار شما را پیدا کنند.
مشاهده بیشترتوضیحات
clang shared libraries
| ویژگی | مقدار |
|---|---|
| سیستم عامل | Linux |
| توزیع | ALT p9 |
| مخزن | ALTLinux classic i586 |
| نام بسته | clang10.0-libs |
| نام فایل بسته | clang10.0-libs-10.0.0-alt0.2.p9.i586.rpm |
| نسخه بسته | 10.0.0 |
| انتشار بسته | alt0.2.p9 |
| معماری بسته | i586 |
| نگهدارنده | - |
| تاریخ ساخت | Wed 20 Jan 2021 05 |
| هاست سازنده | cas-p9.hasher.altlinux.org |
| نوع بسته | .rpm |
| آدرس صفحه اصلی | http://llvm.org |
| مجوز | NCSA |
| حجم دانلود | 31M |
| حجم نصب | 120.343M |
Shared libraries for the clang compiler.
جایگزین ها
| بسته | نسخه | معماری | مخزن |
|---|---|---|---|
| clang10.0-libs-10.0.0-alt0.2.p9.ppc64le.rpm | 10.0.0 | ppc64le | ALT classic |
| clang10.0-libs-10.0.0-alt0.2.p9.x86_64.rpm | 10.0.0 | x86_64 | ALT classic |
| clang10.0-libs-10.0.1-alt1.0.mips1.mipsel.rpm | 10.0.1 | mipsel | ALT classic |
| clang10.0-libs-debuginfo-10.0.1-alt1.0.mips1.mipsel.rpm | 10.0.1 | mipsel | ALT debuginfo |
نیازمندی
| مقدار | نام |
|---|---|
| - | ld-linux.so.2(GLIBC_2.1) |
| - | libc.so.6(GLIBC_2.16) |
| - | libc.so.6(GLIBC_2.17) |
| - | libc.so.6(GLIBC_2.3.2) |
| - | libc.so.6(GLIBC_2.9) |
| - | libpthread.so.0(GLIBC_2.2.3) |
| = 10.0.0-alt0.2.p9:p9+264322.200.7.1 | llvm10.0-libs |
| - | rpmlib(PayloadIsLzma) |
ارائه دهنده
| مقدار | نام |
|---|---|
| = 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5EsI9KCWqDPKZzYTtLpmFgW49kPJda8jySWvIAYwHc0Up6xZqpGxDpvVFGxIZtizqh0xZ9Os8FNyQLqdYY2nYQQsIW59Mds0S8Ysf1ZqI9mkUj3GKm876ukTrCbioQwksK3AP0bDbIV2cgwKaRZep8YbZ86iTzgMVybUq8Kd4xfSNTSTrX63N4m7lQG09if6v3wGTYo1pdd0d38ekRczxLgmPgEZ2O1BOPivbhoyr6gcqzdlZ1TsVwpdFnIAgunjatoYYjEsmNWZGXUANschTQY7xWLZy8iwXcM2dPwFXQw5yPxLUOqwkdLdyi0hbHEREUlgmt64NTn3nDelUhN2Za6qUWZy26cS61QCPbgQhWuzEMaTY0937al4yDQMSktxmT2Mp2rhtEMnE10mtQafDOo4beLKo8HiAxxYKhduTkZnSV9ZGQ2Q2wiJITy6K0L2vJgpPticzd0UPzbZHZiB58Ur5bmgh5VAJYhAI4RXnTHJ8wjGeRZFSy7W0Xdz4ChWpbh4zcccT2BkyAOR90eI28ktwZzVsZyZe1iIzCbbzNnddegDEiidwN10qZoaA79ZsZlutbsLfoIgBmXu12zeiLd1mR7dqfI7SLxybLg4Hpm32CFR7gcbVFV0wiZePJmC669ZyFHR0J37Ax2Ho1UsPTwAz3EzJzWERtlH1Xf0rgd7UJX3pMjjFk3MuAYsmdyBokpEVGfRpZaBvJzMOYM1iSv2AHvcEZIEgpg3Ppgi8xZ44zJNO1qiOMszCKJ1efd8LKgbXQFs3Biu131f60rTYl2AeWOcTYG4XyQdIsaLuSJGkidLUDSZcWxeoa26EuJzi6bhQfRvNbN2L1yozEe5iGveStcLw9yi4W0JwFDMcYQqbk9PmkgmodWte74ukYeYJ2zFGKHy5foBOepThhZ0Eci1lFNw53fORs0spzD4VxZ4oXlLGM0R3uLIBwQQmqloptcRsflXGslVzujUzyMZ1IqciqRwQFZrkzRAMXWMUZrxRF9gsZxaSGWZvoDomafI2uKAGJ9tp0dHvZJQL5ooEF9x1cNnl2HTjLQhQCmY6MWdfdhCkPrTK4XxZs51HaYkZz5xDU2VayPJ6goC3TOHtBFOpXyN5JO65eRvJd8dulhGvgoyHq12lyDVKVFTjHXOpvUFyZiJH6AXwTcUQEZxNzL6IoeZJsuu1RBGXbbZmS0yaZghwhXqIk13drNaPzKA2Z1C1MeN5zVnG256q172VHW2ZvUNfKl58dmA8Zi4RnywhxL8UQoNdD9j20gjiaZrwi3Kn82hNteMZmvJoL4wTnwz13sFdOZtYsHHCOW1hifa4vM3Zc4wHjS6vX39mvHzxhH5N2pJar0AyumYaQZ462ZFQwm6669Du8DUfilUxFwpYujx4OSbTPNxZxwFzz3qLwhLJzYHFIXHVSD49ZlRtZhuwnIPD7dZy8g2QlFeouvvh3VVmJayEGvqKsoPkJFLMyE4rf2Y3ukN3Kmve1K06Zy7x2TFiV4gQRupTrN9X424RyPpFgLyg42Zirc5VG5V0QDsoS7LEdQm5WjSh5wuEJdEvOAMF35yQDiy6fzMs0az2aWQe2BTqOF6SC46Mn1DUU6b30EiYcMi1ddeHoTb0tCWd0Ek7RlaWuIso88Z13dUlo5BC3ZFhQjyMfiZtugGdZ9P5kt8YhvTuAxzqwpSMEqJgwZBLgJqMfdDFBqJs8kcJI2R6N2Nf07GKkbsGqYAVZa2C1K8f0t9u0k9ucPvZ2yggMyj5fGrADwZhJCSVPNmkgvZpnQchZvXyMdlu41YZym4zZcFtxawPrMFGg5wquBzz43xlN3nYqKFngUEcClqvyXfpnLf1ZBB4gi40dxLYCwewFff5GJIFZq5klqnZ2pAoWaZrkZrQNZlnA0nOMv1C5n1NjMVZp49IjHbfhhqyGhIQstoPSvFZiKh8Z4pGRr1IP6yPJf3dLjPGk2zO8GaBirl5u7MPd2LGTbAvIdW4tmSu889wqrgNoZElrlKxu49Qocqv1ikoVlIZlcW9o6xt7IefjpCrjsHOxPgq9X6tXs5Qz1knUu9LMZvCjI2S205Z7qrjcKvsKmFXHJXf7wcZorXFvT4Hmx5bZhZk78R5nW7YUTKWhwZiTGfzZC217Q4zZGuH5fTb7FCWg64kjNnQATgp88anoYBXV9cVtJ8N2SCEIRbzetgNW1qtkV47obLP9pPtoxMDfJpujmrZ11i05lc0Ls7ar6kKCnyiE6wEyz8L2MeFHVxRFZ1z4AED3O5qpnlqTniczzwS2ZpseVVedQ7AkaBsFTcgHb7EsMNbMjr8SBYAGGhE0nbD42o56QGDSifMGOlBqZEHx1iT8E4fuc7ZcjTJt664YgesgM5xcTJ3NNzZqj2C5grc2ei9etZtUHr1kliIc3CqmvTUuj38ifIDm4tz2AmOsLOd8yQLj9xB7E9uP4qGdAO6wgxrcAiVPVwMXv1YBQPKbd4vDZbIfGKyYST8ycZJWk8IaAoMfgUfW2CzhrFAbVVVBNN55VRmlT7pM6hEefCiBY0NzoZeM7Zy0GwhQ62NquwbAsXEk9qqIZe6K7upLjU2pU0gbQFIZwoKV9Z1MEv0leaDirfnmmZuiGCjgdnHWqxrgv9TEdrTBydOKoeEtEz2h3bgEdEsHDcYqhPf376C1zyZG20Wlxk3Hp1aK67SagsgnWOQtEkqVB6gkmHosFZG6FPIAWMzZtMZuVpC7a1K4Qq1eIrcBFFm5wzRZ0ZJZs9pTwkG21p6ZwONSooRDPklwHNXBtyGSRxEb2Gs5zpXHPhdYOF3p2ypssjwweHRxW1F0JPpFFRevdwpdCn8VrodbiRXCACmMxtBCDqH7F5ZFIJwZtWuIaiQWhFP6pONHrOBB15hd9cfI5V6GoCucMCBmFYVJpB9OKzIz4D8x8VLB863mwwnQqd9gAstZi0NcNHdInqqoVI5tmTbRzLC4ZAiDxF0jA8qguWsHOQIdIHNH623x2L7x90ZwQ3H3QFEE2jvIz9Dgi8eeF69MtOWhCFnZnoKcsQyVZh2yskpZgxIoUzQdDipyVFLn1Eb6Z95eUioR0ZGmD72PkQsZIB8gT5CzmcPAMfpROYZ1gNmROrhjKy36ScJ5pSA4GFc3ZekHpZFEhR1zj3W7JBwtBnosvzH1QtHTls7NL2vkBQ9ZLkejqtvfvKlgInpxSsXXKB0u0RhEBS6sUKBYfxVN0Aiq1J4PiBcSCaUleFcBwpLw8D6c4t55wEIr162N9huIgK9knpJjmwUCq1Wrsta5mBFwbahP4jM11evL3u8kRqscjsloXd2iAFEH152w6LOOAxjqfRbnmMT4T848xaTvZzjCUdtaf2WloEy36CsTs1CGPTtq8sIggZpHEINQ4ZsydHkdzwgGwfhmm0TO1sFlewZFHUvXpyFpbWJoczZaLaIxLxQ26rZ0K1gNxEP645HiKnKLSLEhP3U7UdGlxL5uwQZyZrsxUnf6eX86xzAKEKwySF3yXfSqBtqe3ZdwpN3HQdG7ce3hpjz4luBXW4Uf1bwZ9iy0qocntNpi9p8dtlCOfNyQ8Wt0nJ1CSfWrImGXJQcuY02l3I7VSUBB6c1oATbFaRSQkAPqgGd3Nn3ymtR30LHMnbWHZmZLz4ReKfQsDVO7GPLZ5o8abREy0p5aQRfPhleWqwRe3MqeNzmcQcgN8jtoKZC1OznfCHOZGAgIPt86TSNVFTqakM8raZzK8p18Som0YxgEwPXKoA8Vu4XUOw6RznnrF2hyLZ0wrtCNsas6hImkD5tX0L45YbgLOMMdwgjAsRNi4UTWivne5TX6d0cKgawsmq4BzBVD4wlGcKNwjy2bofzJAIMgMrisahggiDZe4pCINoZazyAVai4N2PnxVAaUCy33c8r1DAFYjbNXiHaRysFJFosQljaZ5e5qlpZqGKQePxJCJIq4NpOQ2MR8vD4NF8u6LjmotxIew2KwiwWcHR0ICw82OHzLWX0QmtScpEAVxaLm9AAf6z5BWxs3DynE1OMYzOLrxkGAVATzciCLABtb6aE3x1mXgKxx02huUnTabM4IIowNky7x3PX9Z2LAb4h3uHbFOxpkDgipAxLwC1nxQnIGUikNFlrrABtecbpoNwzmRYenFqZcZcWZvnKgQGDCU7OQbJy286gEipjQ4hTNqh5vZD28aU0a4Z1zc8UayvdDoazPNZ6QE3nM1xf0N3rdUZnZ2d6iajYR0GAoBkaEW8yLKW3koK5eJVsZqmT5JUZe1u9XZH9CKSHZzyzDLdraa4aun1IyoUTXWxtCxQqrIipLLe1qO5ThmF0LnM88hGBqaTpDZeLT5iXCMZw3Vi9dGyBJwtXTcAuX3np6qznYiBY47ltE9zppPgHQthDzx46YZaWZa6tin9W8Uya8sbZi4QaWNHrgTErrXtMx1YXRW0eUaSj0GYA891U8eCxACTuFgbyyhblH8AS13yZmydXCjjlDhu2wcts9aUGgZKJzXu8PE9EfBYaJDt9qSKilTvdYm3frsrZB3yvZCOecZC256EEii8Zpd34fzkx8CVUZ5zc36NGOR9lrfhepVwSVZGvdoSJzXh5qul6lhbelNh3f0xyIPqwmQo2lMCLS318DZ7htmw8B8QPN1IXmpO8olkEZld6fkKVyJ2sIxQindgUfEkZLsvtKoWHYbtKsPkGNZ53cSc6Hp4OuOnJ3wnksVbZ6jqtT958gFq6e2dq2D3VdjGszp5xckMYmc0EZjlPZ8uvy5y8ayOSGtdS8xjLZrYGEX1vPmYBxKd0vmlR5a14nI8vbV4JmoupBawoJMx72SYnFJSDkRTB0EP0e2otJI16tV58FS1dck3k0IT6p6N6BjTuTy4Zc6P9PNQazGaU8ZxQkj6LlL8EG0P8t9x6xFNwUonZdKeYliI0hxkyvD6MVPvRNWnskia9qPili0R4SlAT6t36aEKBFEA84y9xZGxGZjdDabaVfhXZ2uqZm7cGpeAabsJTZqZhLsXioMKAblGMO5onxRaiaSn0qSD5M4HtZc7P2rSAjckYERbvMyjcMoRXYyccNsenQ3IqgyZrI6cSbhCsmYHeuIsj6rE27ifLWE5hgA8QFRUgY5gnEOmIKQkJMZ96Z1MxNCVKOgZ1waEv9XZzyBuqVFsX4qkY7Erm4hYuBESKptEibFRuQbB8Gi43b2t0Wkx0twuVjx3XPwxeuI2xrLyhN6IlV1BoRBmWds0bO8CZGmQGGP0E7mCJ41eDUBkKP3nwcllOq4Kk8dIUsDcry12zM8JQCeNb5tDqk8wmm2JW12OspFuYPRGI2IsNJ8cVXlmLt4Zwp5pdhz2ZcjmbMyX7B04OOf0b0wpyZmV3mBJourzEbazzji6KsZBVqz9z5gdGYkciv1fSZik4Fofp2V4epwK8fBlSL1dGLqNpzKUH3Q4H0Dy6rGfCSIyaQShXZcnapEe9OmOEWauzZ0BxPZCCcJMxysMiwwMItg4JKNOqn5J76f3c7GYwmxwQed5Z8WaoLqXZpp6MuGoIWNGqabcZ1Wjv4YhbgQZctXw2ShL9kPw06mRkfSl8wMeMrvrp4c7IDZIaUMSsVcFqisdDrEggO3YydG4Chr24aZtGussJsELyo1i9Vyw8XCq3CyXCidbhgmXRi2FEZh2E16Yysb5wi3FyuopCshQZC4mMI3rMwM1AZwZD6leQdcOfaeNuVArrCRDZlm2FNyWSPlH63mc1P98BZpmmww5WOxCZxJy9cJ3VzYZnSKHWOtenZarWh94Q9MTai6PqKB7XcADUB4yy2fCuiibyR3MTUzZsyrPcTpQREeibZa8CEYgGzhZzFZ4ugkTBxMyM97lBH4uJy8o7ZA8syz7da4WVZ1PmZnzKRX5zZi7LTUxGnA1ZE8vhrZKdpTc28Z0JzhZ06S3EZo1wwZqvDAGa6POtdZ0HymngSRN4hyZvPZHjVg5FpzqrCpdGgiZpT0F0CNZic0r6Z7d7AWlvcoxcIAd06hi0U1ctYL08fZHqCis6Olyny3GGitWOFrfGTiiUb0gW0i8JkzKZeQpvsVqahI2W94tVlr88RbMeN3p50mgWmC48jtb1vra7Eo3ohu7DhUcgpxXaHiin4fVedOob8fzYaqp94I5NtZ51UhImyOF0J936IxLOEr5g5rZDOi3q4LDe6TpWnBC3C6RfbIgBn9WNegZmpUDn8XhHMRts91JF8q1mE735IWjNVBtoJkDCTrCyjZas9h7ji4saGU4Bw5jRzTtlJr8Xd6QYW8MZ6hNHn0ZDCGorGPrx0DDdAI3Pe2ZEanw5n5S6AgfC88MzggPZwWygKTTGtyYTfUSBeZhJfrmyILBassj0g4ZGZ81XYmm5jElZxBZezOgVWOacowvxlbDo53z2r1xZtorglD31HiuNifuXXgLuN0foctCSdj01eUZwsnAws88UlopssEk5LYZIaa8L6ImqMsZIZd1Zs2ftHNjtXid9DbGAp6bway6QzwX9bcSJ5mnHF9bj08BXZ9C3ZbCUd8VBZ62b4FszCpNDdEzO8UEs6dVAVyrZp3ND7R4Bvu7J5n0OlxpZFdc6BFOnK4VWwbbCuuWMhRZryhAAMsu2KW4JsWZpCSA84X9qx0g6dwqs0Nhc2LQb7K3X40jMc5OAC780U85OUKAyxlQKkHNyOE3620NXHZwF4ABeT1g3nFTSSQCZdFaazO4FrIhGRP7N3Urx8FdUZ38sHAap9v7hMrkZ1EpC8T2ftrt7BwNEElkdtYyqqx4EwCbycFaZsDbFRszZr1DkZFWHF8RkyTyBFhY8yPupwKMvslQDZfndpwcnf7vGeTGidinzrkIHcqRA30CuaLdH58nBmFOnbieqjZbELvZIvjQxdg1oE7rCi8Ew6MeMrFwMPUBlX2v9b2nJQhwslR7W4hEDWGuWKRoTTm4TlngG81ZaMoAlZFZyHukq26zja7D46Z8eiqIZsvZ0C0vcOlSloRIa8Zhuf5zzsArZtfGuNcOok0RV7P6v8Idm17MXxRolykZBdU7oEB7X5XyuMtxJ8Rx30XbCa56GCmcLareseNya90pEYDuFg7b1erkPjxZcyJYbM99B5G07eEu113oQavhwtLjY1uqGbZspo11RYDyaqdWh0V8Lqq8CUyWmptBfJRxJfFdvqNAAEMA2UN42WesPgmtXjHZHxZxR4ZxawVxyawnQ15eAPXXpLFpWjMYYZwQaWTDoz2ErVfVRyLiPOLoA1SmstjYZ3sbVpRA8Rd2jVKnA58m4eDoQoTqoLdFHQgwywG7REEFW3mDEkuHGi8INDBZ7LJ5QNMylBJr564cibIjxnyUZrwQADXdh42O2AGgZIKWn34FcrYBWQy6fMtS1ej4kUjwCLxZ3pdrLPZkXQzGbl41g02jJWNY421fdWhVQVDBQhwO2B8sOmKS2x9urZ96Hxk7GeEhDrm4MsDbls5VRiV3uVO6FgMW2QZtFTnZkMRigpsN9qmPHgcUGKrOSK2SfZx9YIWZH55ZsYbr9WhcpVSJ1PpvaZlMaGnmv73u7W7bbIpGmIx4z4DeFZ2rswCmbDQQGcwm0c5K0QCNOZc6ZskqXsbsviyzZvdhUg1LybyZi95hgOXUytkvhe9ghGeMc9tBGjXnzg1EFFl6UT7Kylx0mkaz2Bll225f2dZJ4p5whNGM3usazKvoDFJ1Dc8N2Etpt0Gnm4vZkV2y1SNTIfPZ43NbrJaZnZkAgAmweSE9NBwBkWy3r4PXz8WPHV04mxRyZ4e5UJUhFI8LH3Zp7nKTpkZjw9NBBkvZcMtFZ0ONYOqb1baH3H6aZ2REel2Wgxr1hKYk1cOSuz4WQQaxIZzIT7k4ZvIKZvZGp9muZj8P7xKlZCTo3x33OBfHM0ZCgbn7UoB5DE19mkr8r8j4dZ8BbVtr90Lqyor5apgBODuVeWZk5T12QZbZiZ99MiZty1kFvpIAgk3PsscbDDo9J8IhXLWhrwYR24BYZ6eZ1mu3N0py7iFxRU9vtRbOX7PMpXtXoEpeNX3YEf1DjuEsX8DY00rxUqSHTaMBLmhUs88zhwubXlHQSj9t0ciDMjUObExblGIhdo6zzkOtF2N1qoAgxKwa1H81fmPM58xg8yEwcypsX5RvybNzCfVA8upRm1zOvGa10Cvy1hUISbCG7Qp89UNCXv362AxfjB3zGb5zHPeSkB2abahdEUmO9yqFQG2B7RZs9itKFzuynMcBuYhV2pk03OIwV1R1Nk05KpgxRvvfajqZxt6HTtMGp6MIXPzOHHwS49OwZH2aBdePVXJY1B0sShrD2MQd6LQyZxNRxf0WedRBrj0M3qBCwsYjuDJfWPwyRPLO8IpKVoWFiMYX8Ct9A72Tm6NIlyBaQ0UD6fBfZq8yoggUJFjnwRruF2WBo9QcomrW4zgXv1kTMJ91Rq0hhZBhnbb6CobBac0Pak3Ed003Y4QNBa573dNKfXv2ewh3vJobqEheOqCIh7E0HE7wqltd52aoegWtlNTkg4CG6zSZdQ5OXrBUvxcBRCpP4OLmVIrK8IJWeJeSml9XGMSIU56w8hHZmlgINRBJ13nCrfgzYfmszo5rmza2WeU8NgnaZ92yJh2Zlh7Oa7bEoynlK6DB2hXjaygjVz332mBI1HfI0ohOr9i14OBFr3jfe832EdBQeX7Bmd19G9vADcv6xIj360fPZ4vZGNdDR8O1l0dwjVtm4isYxAVZsaQonxpYNO2BQWcYZGITiUZdnIBAZAsZLbXcRMfYtazOjxdPMIcje97F9vIWivO3ZiqrzOprW0X7rltZKbuJIZgODBQclxp45zm40UV1cbOzbOOahl5CiChiQ9Y1uQrVMPnWyZA2zcQyrIT6sZcvzB504eXDsVLe9bxKZ1WndJuaCBNE8LBjTCu0t3wjv8EfKUswHlGwCar9NigqHlvkQH0al0yRzwZuZsHCwRvHMbQoEQYQUvETiLjVsA2zcCZG1hLJ3qp6g4DXJ49X0lanPvCs1cB3GyEdps66s7gW0jlZyUVZpoFgi5oIKzUroCMCDaZ1iubr1RUNeX4Zeuw7dyJDfdCIbdofnf4SfX8qFKbD4jdEQ806PAqijZnjkfaY5R9iFxQxpoZ80f0AHkdoL7ph0lIN9tdIs0W45EkZryvhH1WoL351A2Qwe5b3bR5sRbJu7XXZe0nRB9qsCrELONrcSsQcaOvJWxKa875Y2BKClAJz8HSiBeCX253rIuP91ZaVOzzTv9dh1dFn9a72LQ1udEUnO8lAvQTm52iG595Z0qgf6jxwZiiZ0mf7sP9i9xCZ0mWzwTbwkVlMG2PghIgS0VnBegmMsAX5K3D041YNtTjYGJXQQkd57tw9jV2xzZzSRbyXkXRCLeo4AwyrZ3foZKqI9DbvtUCZfZfV4I57IxZ4x912ZnzCHNgZH2U6FC4oMZgFOjE7zjRuZwlELT5a8dqD1FrgJwCNKOah2pNjmvKdFRM3Rgo7a6W0upxvMnqjoMKnuoYdX6i2mo8lxBiqjxW4gmBw70lcY8LIBLHOByRwIVhT4Zyc8GQbC5NgfPeHbIkbYrRHoHfj0XLyKdaCcDKbAtCFc4u8gJUa2ISs9FBjOttcbYQnBMGgbTmlrxPPwsJem5MNafUWXV2BH3IcP0QbN0xJu8GZ9wbKwWhQ7QTaUaQE45hgv5ucKcAotuSyYOI4Wtc4SCOe4tGWcQ2XSEsl1XqXyZ8I2WsmvKw65jkqU9P3hbJi58gdg1VNAmwFnZHwpmOlkv3J8dodd94IWJ6cugt4nXwhxF6tNcKk43pHzioZhgV3Cz0fZ3748XqVoq4ydLDADZih2Z7JJKQj85ZBrtEkNqrns11We42O9YtHRcqthy8VQGsGEckU8V4kwwbrEd5Dk9qxlQHaAHMmnR4rIbp7bSRWy3Mo6gZ0EgVWZ5FNMUYZ1w0h4MdZetQ5uF9oYzhUpr7QQsELX70oykKQfu2Nr785OLV4rEA0ZjeHm3o2NSW0UiFexS1C6BawIkxK2xgZEYWukuGrcY6egktqoQUpNXK4sKxQhChI7LScncBSpAb0ImaMU8Rl2sqvylZ5CR6flQ8hYQcWyn3v9kJCCGHTTJdSFYjt7hyhsXNSBJsXuA1zi4txAU0VUubbIKfPqyBGhTpVyjP0wUZLJEmHHFyz3bYLzOz2jd1C7cNfpkgepVde6z8JxhTSI0QDyfZ7aICGNFn9z3XZv6FdMvv52W3Kd4ZvqN4J5jy14B9Zoj0OEtQbFpmVUGItIuyFJHF6r1tgulr9HzFSUU8KJYZpXQYg6kyZvC583WxIN14F9Tv6Kx7SulVETUZqhahMKPHFvPFPMcZ5D6fclmgO8SSkZJ0uUdE8WvRm1PSV90r5LNma2HxqW0f5Z0FERbuPP8ILV63QrXsl8c82r1Ra1D79VN40txmhMYoiZqdYEF1xaK2jSEMZx0rkshKcluyjWWMizIA8OkBnpMzm6Z4iGQclU5XWelZAO0hFu5w7MPp0hb4URGypZwe53P03UbV4oSjiZt31ib0UbKPDUWCjBMegSn84vfQXBtAmaRNrkTH05FTJ2niTC5lj8Q4R8Ce8nFatxEZyCXiS0K36FbTYuI9JOvZKjdgF8Ds7UBUQF45un11LvwVRN2GBC4vyN5UKSks6ZlErL5oeLZrDqA0MNdbQ41tP2hVKI2dZ6WSi93ZfvtnwKS9TT1C5N4xxqzb7MMgb64XmvenlPUxB75zErwyucjoOD4w14AerZzsmsRf1uWZukSaL1JFgzLyv55ifZjgXMgmtgnqce8aq2RTPek18bFDdZt5wRPXzwAT9IvSVAAmKxwvRcOjuZBbeOt4KuZKF66leZD5zVWhkfxAkZoJsAn9sZzzbKaWggS18WFEHnSZhECJ3myKc4gueq8v35xJd9iDPtKKE9emhQ6L0yxdiJAoU1Vtz5CP5v60V1GzHyhFEj4tJEWTGuun82ENYORmFgO82EFFoUeGo3c6iGpafdipxZsKB9REHBWqF7Zxkgl8qnOE8dZq2Z671Z8e60WgRcG1sCaxlevEH1weyZ3M32EUFRPAqPKl6IrR2DmZ0bkZcz5Ih54j6GeYW0Q3VSxy5xqgL8X8CMk1Xl7Lpt3wpzh0r1fwJEadekcDZ5kI9qf0Mx48Qfnn2VE0YwdreMZBZki6NM1O5z2esvrfxeCsITnlMiKzUTTQOZxm0oh2MPxCOHTHgoI18EQcDm32mMTZdy9o5W7k17mZBqMJpk8LQfw3lvWMk6XWHMQ1x3EYvxn6gHHbimaDKBMC2QXuMmyW28DhYabivGnMGebYogmrxRZrNos3ahBWKixcRSorKex1CwUUHtdoXIw6ccwz6zu3s2xikoth4kiyZm7SWd7aRgl0RzRSK8zItHcrnwO9OoaoG5ZtlzlZ13WoQZFVSMOxIa2SchA0q5O9NdjOkOFzRyVlInZ6vVWGYnqeZovdyqB2X5usAeuXsZhbSBCDuvIc3mMVNC5wXFvecd0YrIsMYv0gcEINlagZAWyjzWb1M1dm3x0A2qULM9UE99GFMpgog18g4Ghni4VUB2NkN346OZuApEoC3wFAU9jlcsJqZc9bDbP09XIfWyyFkNi2G29QL4Zucm9ahFLoNAcxk0xoaXsZD2jKsyj35X72qNb2yE45Jrk32qnnyWOmJ95MvZ8ZnhfshbgFQi7x7aC8tI60ZpJHe18IQnOK2jyAl5cig4lO5Q7qFhvRMkZxkRu3Z1npTI0QgyvLeuc62mHPDJDHHtwdMq59mTNtv9cX2qLZBopUEx2l2qFWbYe0yc3Ha3yH14fZj5308oRZ9hLvtvZuc2nJHufCblGQMAn0Bpjs2clt45YNqieFGqVx1hZt1xxM5Trj6YnhremjXXa0ZksQyWJ0v4S8eQMQqmKANxLNZfmyXBzHf0vLAi4Z1fP3BkCcT6lZBmXaIV70xJIHlAkCA7uVJdYfpPVXXLZxgnJ9p2hJtS5MztZmiaZzsIAQAdEGO8PlBjnJ9ehoZIUDEzQ0LKu4gzBa61yoPagrgxWYNEtzxETN3wYQ9LE83ZFkHIdDNEeQYu9Nz9EGlBJJuaK3LtCChmtw0R8cc78YW8VAjxcYXpZIfZkGAbrHv6C3S5uedLGqiZx70WBVaR5QeiZbHipSvBKFti39r4xzmnZAuzZAKQDo9xPx1tMos4upXYdpncqRBEflSiwWUoi0lH3Mt1mObsZ6xk0fSZ4zae0iuD6OeOn7P2w4EvTlp9i3qV7DDUe7FmYGYqLpJz2nLZb8v4pmIFTg6TklEPN1K914HJS070W60SEmeWcJ0mI5gAheWkvKofI1pOGDHojj1qtqcajUljzoJM9eR0n06Kh6ZuyEiP1Ari5DmRRP9qQxLYBydaGBW82ocKc1UG6uauTMTOog2W1gQZGph8Qclu5tN9uhRsoo8lqaNFRVwgOauMLzmZfttvaNWYGaoT4jkr3v8OcZIvx0TQJIfje77Up2eoxAmSshCDnGIz3MowgahVuQeJi9nH7rAkhfQjCbGefyare5h4YEHDkkV8ojeZh50N4QLjMIeW6B8Dat5GDMyhWZFFNw8LUivQyy80dYWAE4TDDDKA3NJx0ADSnSEIRcUl9JnWKgKOy8IhUHXF3xH1BDJfuIFrlBINIk5etfRtZ9v35giEGnnMLT5QYxuyEkJitzHn4UuCjIJZdEKCA74U2zYJjOlgfDyL8abyiDWGotuxbAZAnZv6zHQ3m7D5GZlpoO9slD85ojnotcxZfjrZjCmgljsfkEJxgGoLOFYkkkctZCIZKbNqUSMC8QTSRHOEkC6xTlUi5Jn4QcCC1nYQ7R4bZJ4MDBzr6VJ60Ecg04RgkFQBXLbG177lc0YLR9UM6f6kwzj6765wtj92ZhnQBqUZE4SFs4Wens5KRZ6bUIchiUZCRWN8ZhT26v9Zbauwvf2v92zHaZK8462Ti46dZ2SDsshSUStG0faNyZ0GiSlQIy8md8ZknqYkn5hMCwpCLoWoqMz0HwZ8ZjGAPv7l0AKcHqgZzetFgvyzcpSZxlSFP37MXlQCMq54ghudY9ZgOMw66TQByZj7go33SuK8IMeL8ApUFe12pozpkKNKM2Do3gKq8SAWnhR7KKoAxT32Ez9jmNoWud1Tqj8T6E29Z2ZhS3giqr0ih8P1tSAxI2Z1Ipy8d5n1S8wviSlTn1167JyCJS02m8jeSnMhuSPtd7ZKbL8UASjPUFkEZit2DhZi0uZzRnuu452Pu0ZmGYNZkG1Y4aCEmy5xyyM1emB5UyJR8Hps9VZsqLgIl78VUIh1ZiHueGPZC1SujSUASX19pSbNyGZoUm64HLhkNJhX0VN0oow9wZ86UZpa9Z4xyGgYAoWEePLWjzp5FMKTlcjXOS5QyIftwKu81EssxtkeKAwujHbvfp6mIoXTyGQQIOcvJs65ldEzHxQVbscuweVhFb7oa1ivcDhX9rxYOBYSgTSmN2CsZL6d17kJEPmrweSDC4ZfGoaXiCuS1Ga4P2bPYLU7Ics6fek9oue5ehLAOjpJEYFQxcUEd5FBVqKXhYd2BWqfrZHAlNKiMxhSQfro7mhrnrJE5UxUTq3fzMqROZGnyoZkFISrreEb2Uos6Y9jf3CyrN07GAdE4vcjObGBZim7nXyPzxoE14ZFNKYjug4nlaqb1icPxvwzFYrXdsNo3koADsyRfghA33exMwJzktfuZfq6Zks5Oo4bKxy2KZbKSaQ3efbQsKEwXcM3GQIqwiryhtxp1Oca80onwl0Ou9GdpRHeldEgAoyijGDmSptwA1yEFA5CbAcZ1BvpNoDsFeXb1GgEHlByDZfxBCqoykI0INlXO6kpal01NmAFNIbLH9oHFNHeuflmFlRwvbgVnn8TOEHysTPfm4JpysMuBXYjmJFr7qRiOtA9Ah0CA51tCzdMZswhiq7awWhvK4o3Zv8K7RsiqkLGuH89wkZ1XJLFZ54AsEgFyoIoThH6n27H0ATa80BRsRwuGDeAlale2YKPnJaj1UgEcJGjA9JX6nwpihMA0UEpVig1Zfr5J3OPGj2c4PJa1AC60yojwa1m9VlKyCmcLEV47pkzRwofdF6dFLSCganQFXZE19UZv5ZjhfbZo78wbIT8JqIrX3P5psbnXpvMDq9RcObnWtBNKYCqKZnZiz5tZAaq6lu4tZenYcCbcEIKTV4ay3ItF9qWczYSli7Qy0EhwAvNIzjr90VcXlCKdHnn74oVlZEhn0OEyFg91vhYAOj4MJnZsnuYCxmvd9uTdiSsAIu4B9q57Jvzk89csNIvLApI1PagH5s4CgZG6vWoEm2jZyZ9VCd0YObnYlwtr0RCN6ySg3goIn3cOMX4QPXPD3mz5hlGuhzIbQ8MhfEyUjAx3Sw2VMklvZ1aYLbULnW2UEiSjHxp8OEOGmluZqRal3nahsYoWqo5FYdvyOOPVKIxY3iapfnQX0Za5aC9qO9mlqz0SGZdkb4cK3apKd0VrMPPO2AaTwjqJvVasYO0arS20QxFDhuPtUoxchjgkZfcGVFc0bRPLk14Rq3g40QaA2b0ANnrQOm6YRZxTawAxr8DHQnNwSJ7qHZkyPofCIPfwq2Qx0r0EKAin4A8qEgrA23Irk4B5763YS0gXI3KMg6rHnst5hZ8KQ5v3awZEwEpiJbU1u9EOEpzmltFkxkSZFBVSPti3gYxHk1QZulgFYSddoW7CFyZG3QPEGtkaPi3sR3nVaOekRaXFnmYXzNfBeZihifZsFkNkZj2rhxF1cQM3szEH761F9Hy9bslno4ogxufI9eeelZE295qowpyrcQLlpy2EHR8UuASZCWZ8kTAhPk8kZFZ6NwghIHcsj7ZdZ95n38BrVV5EgYdoZjZ1WZfi2fGa6b56sDqi6ndKtTKwmHlMuVFHR9T8sVTgt83qGJIBtIsNTqGx5jZ6S4TI8YSN9TzoDvl0y7DScpbcTaZ7La30H6ww3HDPtf0HkruFCG7LWb9kNPfWdFKDSs8GzfkKownGnChp8531972Qhj2bYTgL3I4Z2m90b3Vj1r1JuMyOn0mIFMd2uZnAW0wJSqARHYZCnZlXrixp1KfCcFrxCHqjanZiA1zyZ1inCPQZpjhWI4jLjlEjSavGh0ZCJ2RFAO36MYb2Ipp22QxPgSpZLZF2rgs15Fgjy6l32hYz3mPZDUAjf3KDJd176O6pgVYt5lHZoCih4RylPT0sAngyqMvej02DsZtsBRZ8nYHiDtoUZfHYVCm0T1mp78CJjt9C8vv6VTPhI6remXydREd50W9WhD3EpRajXnIeykvUdG10X0qeptBrfiz9Sa6VC1Uej7MtsOFoKaXymciZqurq2nIlJSAegztsiYZhjfmwEr4ejrnz5df2q6UgFqhBkIpZ4X9Dt4mZmqVMC8LgvDKvYaFX553b98nZxCLl8OmMa3aKKelq4VNQM3vKe33hSicETCoI6zXD9j6GbNzgBW96Cd4w75PwN1G152e6X48Toh0MbacQtasFb8uZ2pSw0wQe0Hf91ZAZKnA21r07LaODwm2QkJSZgKo0p41fDLwCu3sT6cxu3N1zrUDe3Cfe8s4DiDtSlszCWAsLCXqiD778Wcj9ckzBxZavqpdZcEGlcv605ZbsZux9DSgHVvpBn1kHQ8DZqYljSRECh546e3f5zFGS7jhm7kosvQ83uvd0hR36W6Fk6atHQ5IDcK9GHCQX2Il8z7kKLaS3yvHmh3SHOFQaD7hg3c5L2OULAuIFtoSigg9FOrs5VZu0ZBwpUbuy1MkbPlVyT4SkhovIKvek7SZAcaXUlF7Lkhk0MSODKTz11M3kY7LAGD5b0rqh8HxwPgEJVQEFiZhS7R76CMM9PMUyTY4WlskACQ9pqsMcp6ilR2Wb9CCKc0V5lJuz4uChVeqeSu6PNeOHQ7Mq3MFVN3F3XsBZaxuyafhwu4aVSyQr5lapDzKaKlrz5Q8Ia33CYX84mooTncoZlY5JbDZDgqox8EI04229IgAF8H5plg8homyGjdyCBqzw4X4xun2sZiUdOT7BzaZ8nZnEVAqKcPJhAzOXi7ZIQAs1kYOOYFPZcpWHZrlTPZ8T3OXG3k0DdboydsH8IiaLq76KMr6CkPFKPNiIcKjj89rIsOZI82VZkWnELReZcqG4AN8P0ZmEu02W0kt4bDDhnb8uDd0x3aoiUnmGR0cshTXEpb0itruCnJf2SkycQNWYFdjTk26zuZnwZxLN8SOdD2F6oZCVMkwNCXjQbFZhtRNp5faRFzbEwgi08r8F9Z6dQgJnJjyZdleFLp1NwhRvnOtyjcFE4dItig7mIHZs5I7nYB3qlTGyuyKKVxdb4PKUksN4n7es0ZCXLgVA1zZj5cEbdFoYktFZ1wUeElgRnA9ARxteKy4wWzUAbm28XxbbdvHKxPzABTe8Z9Bh4s4C0mSldo6h1RIsUl2FVmO7n0pYaBZy0STp93AOuPYzQ01UnAeFQwRKNihrcWhoBocYgw3wpZiJ93D15YTMnZlc1Z867A8jGfoJt1PAXERMesGpNw4rCw28wpFPaIY0IL6UGUTwyRuzS8cUgTVHg9jbFd0M3PkwOyZixNb6pTtCfxKB9gTgfDdhUKVOar4mk37lysmwFOonc2YjAQI2ybKZ19UCQKzKgfOxo4AXuT6aK7Sg11ek5GExG0Uio9ls9OdANeD8pQzjvZxfCeeogEqAeY5JRFn4lCN3t3ikJJ9H7tEr0G6Qs7ehmJNzsI0HhcuA4l8qdU6oxCZafe4akiqqPIQNXjkjLufRoYDdt1Yb8KLHwi1VuRaDncCStJE3Zx9y5RNrZlsUDaeoZG2YjxDyvD82v2SdZHVCI9IKV9xRsNfApGHe9nt4vBSHEqZjk37dlN5Qo4cL339rdmjd0ObZ7ky6BhxJOkpWqflsA5xGsiFnwGNAkLJw4SI4rety5N3ORXVIrL8JnOj9HzPFQw3ZedZgFzGbwfmpS9BskL1IhL1lpa9xHjdhb8l38oZ7fiUvlflDktksLDOThZekex57L3jd6wDAqDvECDhZoxLQ4G6ivxappEZaHgx3RtNWdFy16tBNpkAjAgtbZk4BU1FoMr4TIuO4F2mxoB3Xx5ivqU12rXp0ZlwowfmlxQNvIQ8IIXMfpFV23Bkeuif2gWJYBHwHKZFXMuJtS5HvRSjayRmdUOXZnNY4PFuZgylTyi87ZHBBsh1njVWU1YGdIQZa3Dh1mM6t7hHgBGqWe9nUYSh1Mw7wbLB6EWVPaZBZeI1IIQZ86Ka0o2au3ibEcTGl7ImMmEJ8WUh5qtt9ZsQiE0lYBGJjEBXcoX8dzzMCFXk7N2xaap56VRX2MT3YTkqcLxZj3iCbFcZ6cCgL8O10B5J7w52G3BrEpulRoOqE1Wm6uHjeYKf5bAeqb6vQeaZewZA9QSGRkOiMs5H6uiTTtUEUKuXwjQZwJaRggKaSy1iHZhACBiAVlbP6qSZGMfR0Fm0z8nJnaJdZloNTFZyaEhnXsHEa5e4cpgkuk3QL0wkONO31oT8Z3lcBWHBM2ARIIC5IXumDJcLheSvEJ8XKK4khVrP044VKicgMgYLiBvaBFbRC9CrnMVx9FSAy0ZzyLssxfFDI84TC2t51IrUcQ04pC53DcCrXyCheclCAjIqCZAg5qQ1QQLaZuWUyMSG4LHBwyrYSe1C4numfaWyAbhK2T6jP5zZ2b0CD3RVcK1l3eeh6S6C2m3KWE6yiVCCLwVb0GMRUfWpZpgAyDl2ZFkwkuVoUP0E3GHeESwCZnDP7zTxBBdcAoR4DPGxHah47c4gzQWYZ4rpr1JAG5J1Wca4GzZyoZb8ZzRR2InflUE1DYCIZ8cK2JOrKRq2Z2lKX9lEUonCQ0BtsrylZqFbAyPcZvasnLrsq8nHQhkoAWZBQjDXN02ktTU5tzRbhosnYsZFHXYEufBdaH80j4Ney66BxgPpTJhKsrUvczZptaY26hjKzbpFZygf3Pwdg1wTKcZGdZsvn7HMkfIAoVG5sklpE8IKytscFeU45mwIq1N1cokEPJUigkkB3r1nFO618c4a9Z84XpywLYSM6yJXMICdWTy02wu1IndRqHNOHlQHgYzayIZd8uVMREkdWk7gIGt920jdEV9ZjCB1AGjYnd95UBs1kmNwOC4gpTOGFlFjfKCUQU56AtF15mIXwv00edWZiKdkFb5hA30bJEYZtB4gqcrxTc9UK6Gh9RIMvUzLb9L9umkNjDWl7EjqHOLXI9ixTP8gkQfy8oIHnMqEDQwBmxPA9agWlzDh2FaPhZjTVaxJkppfCl2Z4aZiO7gYMoTh3l8zfkgo4mhZpEjZdHY6ZKBqIQ9iD3N2e34vJTqGjoZnaBfwdEUlKFV2zuC5VgzwBlbDCCKMZda5SI2v9BY2dR053BiGjZbsZLSZzomc0k7xW0o4BS4OIG5O8Gcbrz66TeZ9tguZedIg2NMoo6zqgEMvJYUOZsKOfB0qXEMO8PJeJD1srhqZ8x6zNBwEdwHlSiu52Mxjrx2yo3l6L0gnMJUNl36IfhzSuA2osVzZfC7I7i6VvogZsQ1YWox7pw4Q5Ma3lcMWzaBGiPZbMKkS8om9c465EJAsEqhyM7MPmM6FZfRgUV8mG7eKZ5WlcpB17tRgz7gDGs5HKzL1o540pNeBm7roTvYUuN4tOZvCRQtIfA7aKaa0XBAUwa2iQwHihOqc3FoC7Vluj9eLgHgYLYTv6UHFF268rGaiW4H65GT0U5qhgbAQTG1nSSblmosj2E5J9b0gvW30XZx8f6wZoMfBfINtsgTpfzhLCC5Oc8V5gOb0gtAj4kyEKV2UqNcs9Z8uESPzatIbs3sLc5WIiLsd0owiDYhk2QEiqRzyQVp6aZp2ls3afVTylGUlQlY60znCVa65N2E40GlWFZlxNfqAhkGBZtQ3aQAaeCwRzJJ2NSiV8mdnZfFnqEBQ9AskKxZIyXZiWIY1tPCbLW419mskO3UZesTkfg3x9Q2wYedxyvxXypZj9mMKUjjf1ZrK8KIr3oZjSIrUNGZLBpsOQwYPAxY0luosZD0ODAgZ8E9eqZlOgyzqy3X4Z1x9JyWWYtlDaF3NaW82XeGmMqy7SwBsnhF56iFY7sgJPJ9Tq0AhyZdyV0ZI5SL0Mluf8Fbnl4yPIZtDGEeENbfNmqj2XvqfCKu49CNw4yG4hCkgIgQj86Byz2e3L6E3oCeXCvJPZ4gnczIER3siyKBScyEEmVpnwOubWFIJ7E6YfVLPLdKwuUrjiOUhj9BZ7dTxOnIpaAvHHhrM0nTjZJEM3hCCa42T6HUoZAgVlOzmgS9lF85HsP1MKZg0R0jw167YUN1tDT1wGR6awlDW2fEX2gWZj2b0tXS3Z2Z12pxH5Yy5qBVOW3J9ZlEuFBfog6HNsr5hM4ZcsbubA4DahwZK87v6xhNyzd7KCLZ2aZKybv0vOHveKOpAOmwpt19egA54K9U9Cg96ByLaMPpw1pgZLcZtFMOXRJSNQCp2JSlPZ9y927Vg5Z6qiPXoPxNG7uOMhoc5ZcdJ9Zl0XrXOuBM8VeeNwM6apiiMfqD032BnddO7gC4su61kP99w3fQNcSg7AwLuV4D9iZ7gYCIO1j0InmKSCQ69lCGHkNsaZxhvBSef36u8HO02zZbhYYZmGwhl1KWQILpf6GngYVA0N3esygiVJb5xmtqrsU4wQSswucv8fBD4fiHJcaAri5hBQbHgUhnk68b3fq83Y4lanTWkMRxQxzOZw2Sx8Z4OmOjZ0Tc4AZL2KM6OzCZm8r2xpZjw644lSmHAE7Hrc072ZtkiNosYgg0JnpgZucqz1Y4sXhMl1V53KZ23Y3bhzJkFgb5aZuQnja1XRHZwZ74yyrV5juhHbn8E22Z3UZqB7ZBZyXjf3u7SB20arbYUixob2yzLXGoU8k2CvXKpPHJMFYc90NAzFPZ2h9lhsD17DEZy7DxGa4ZCK3hy9HZJX7gEaTJEmhQasypieuuvQGWzyGX5BJsRFiXapSLZhtP0i8UvZgi47ClIOYt3uG080bYFwXkZj47EF9NrR4XBIFT1Xrb9x5cdZCt0Qr0zo02Ft273yYcfAt1lBZ19BRGzQjZzYqrOnVndUu8Wti2vkWBuFUDPX0N0veR250Who2Pn1U9dsgjWcsdNcTyBNqLClcg9wnTLNSVi4V0B91oD45ETo1A3LgwcqGk1mjSyGiWQUQrfI3o9lj1mO72WFiyK0hK4QF33fmv6bMgbo3RwllOPhs3nBlTWbsTLO834jU5S5XZ4JprxPsKk9ZlCbHh6jYmD1Fca87uIUVP4VrPay6liZzszMZdJlHveXngOb3kGZGsZHZm6o8RBMODGXfTXMD1Zd7eMCLiACWclLFVZrMjYHXOzteTZeZdaNNLuA097Qb60UT2nAD3kO0pFyB0WJZzEQgDFbhKSMruQOmZzGCao6M9TUbT1kQwlkiEbNcX0ZKA9DgFoxMZiu1R6yOwHtNDBvKDXtA5PidjMejBZgtUlDLbS5w6Akj9oVBomCx1xMvht6cD7d3j6CZyc6C2ZIfcZpf5wFxvdM5EqXVW1ZfpII7VtIP6fftAcqcI0ihyCc6dJqwxi8hb8SLd6XVezNELddYLgVhEbVpjxugWSQLKDIubpoXtWfxbgLQeBi3M4qwwfxp7Gg6aXctnkuraGNZzEurZlEtag8iA32sR3ZDCR4bxZIiTYr6aQun8JbXQnMbh72QHZKgnNA4vEfjcQJOZoSMx8LwkvnNZHQIN4Z3oia3PFfgr9cWSXRMH3xwA63d1CfqnswWx1A0kZ4En4Codkr53ixuYZeGzJmVbZ9k6UNvyAoi8lAbp5AmjDQXgKcOVG8XlC3i7f7pmF4AXjIfDst9lP0ny017cYm67lvefPIoVmYFmEJuzb8VXrdWZfNUUQCBBNxNIcHwXyCPDovLK2Tnrs9oB0aNsro29pGoWC9Lw3Gloul2r0Eack78Y5cgWJDbIJ5B4GLGUTEccrh4hxhp3EH1hCf00Bd8Azai7ifgSGp59esdEb26ZGDVjv0fQNmup6EkVrM04SNONPEhyMhDgZaZ7Z6SKWiZoPX07tkLp1lYFDKYyhEQDFaKizZ2eJyo0TgmbzXeFgyBZDOnzjfpo1fzq4a40xcVgKZkUFuhxtOZGjc0TCCOCICxCnTzgkxj2F8GPE1arMN11wDT78nd6AZHzb7pmsFQGXyBZ7Fv80Hx4qYwk3wJoOMUsZ3iTZfQajS2dzt3hokTVn7bWewJOaYH7Woy0QT5Ha9UD11droS2np0krfuJCE9jeRVv4OZcS565ZwOl7JtB9oXaEG0H7Ai9OZF1CQOBIWAUxAOvWL0moC6oXck69RYZhDp4xieMZdmLd1JAYJWGN2VAYmF05dKoZc46SvzpqXXvtR35MO4ZpCMToWhZjt2VPk4WYZEiLHCYJ8NccKt9EoyZ7RZBXHNQxN3hZ2Zt5wZh2rRq5z3KbX0kMLRUDfy4SDrdZBQrAua1zH2OipnSFTpHfZhXtiI02Z6ccMRp0U7ujcLYosltb2vSZmcGelz0QEmFHTthpMPZgqaOLulIv9BSk4bMLGlOvVAOjFI1LXAPjt9hZ8LGbzGjvNGusQ745XeYtAKZ0VA4Grwtx4Ukh2vdbWBWmsawr9LjWZexb75AFKYRrdZBmtZIj9WQ0TRWq5ZEYb21h7kPJEYogkalEvNjl32EpTwgzuCFAJ9Mx4bAd6em3hnFg4bcehpqqcZymqTbH2SOqU9M2bZdZovtZmc4cZ4C0UzpW2l5DAhErQOFjgti8yoMk6oYIZ4JHeYgNKz8PO6LZHfc7eTLJW56zNZFOohF88vnvEuaA1wsERzCSrtEc5K6T2Ghai8AlcvfgPPQERpPiVC046pc0uGGEKHIs8mq8MR8jrj1T5Wi3HZ1ZEIaXpUbDiZjg1kCiRnfUWbOsyFZkeZ1MGglj4H30k3LOVM92PC5Ej2E871ILF5NZcfRVlh09Loz9xi6JZs6OMuRgHCfyRZqikl7dJpDl0ff5Fb1xgtZDlLcJAjlLEj6PrrmBFcQj6WQaKBteQI5YIYdmSozXV53mhPhbW6y4zQLyFgfMd4Y5gX8VcLOeS7OSNjOcNSDUX4qF2kR2apwdzM2s0zyTo0pIXnmt9UggqZwVc8nYsXcCH22D7JYDZ0I2ZdscuuZBpxk3RvAj7m0uRtl87BLDEhOuSR5nye9tz8MZmZ3u9E7jtQElZ4OZ6cqIFfvKnTJZwi4Rih3xXRe3dwSdZdNIVE4Aw9zZlXrb9iJaivzwEZH4gg1TowK2Fcnp3Yc12clEbl9uPJ4oBZqgAfeFPbXb0XLBH5Ia8ZrioGWCEbTv6mFAW22vzPHyCXf96LMUNnBypL1RIV57nPZGEz0oyQ7xQgZuwZI9jiyZgohuKMeaGhGxDoAoSa5Pw1ZhxsAdhIHMqPWUktA1ctL5ogFaGTAapIlhrVsyPxZJX5NknmBZ2bgZdNEfCGqHvFXR7HRgg4xw7132T1vR7gfgBBApb8qxLxnpq8rbqyK2SqdD7ZapHaSa4hWLGZsnuU2N5lC0OesVoResj0hsFJWbmiSPSTKvtzYCtyX0XW20gW8j0wgWF86BkCkbtFu62rZo1U9xzGmecwoS6zWQp2u0rlZlwGF3XCVVocRBBMR6In0zit3OZaAyePMqVwZjmhQ5E4REmaKOItyGZ0c2QbtpKSNp88vyET7eprURDnEZm7mc1P5GOwOp8p9iKuz2kE3Z0ALxbGkQ98EFuqawOkwvoqxcm03HBylHSZ8pHxnS7QJ22u0OZw6buT4onlwOlQ4MGj3ND3PmUhnTFpbXsWHstLPOHph12RT8ZD6DrtK7W07eUamEsQGw7dU0uPYZ78YkoWRtJ1ClhTo7eWYvmfIxhg0wbMsoS0tXGhdzZxwq3uAtL0jkwK1ZzIH8WQzp1Zr3xwEhK2OxOxhZpLQggJuXCqgBsQIlKLPZpZKOZlHfO3CFi9xUyIL7GhjZ7C4O6rO5w83rfZzw0gWHlr5DL0QyXzHZye02GV2AYCCW0ftNLkwbvOwbR4TrkITKRz7SGOm1JigRbrdfmrIZBry03CxhtWBA4d2OtM8qqlvuE3GFF2kLVCs5xfhU5tXl9undJTZl7AUQkOEOhtYUH9D5184gIoxlBUJ75Daevfgs9pFXePbDaGW1u0LUBw8tjDmBNIQE2Y5DOqPljUMSwSrJcIZ4rUot5MDR2csxqSh5BzK7z6bITB6N6j4iHpIQjsiKXNWH6ogK98twM7HKgAdx1xIg2uQW05sFTY86Zb5whnUNHOZwQ1Py7Zx7Kr0wNy0z3SCU1cmwk8CCXyC6aaPGJTOXfdcl40St1fHYIUcvn8AZH9wUx3WvMcXGge5OPtLw2ZwicozqVWc9z120UqReMbedU2s7Z6mZGsdNEVmOQoVGbM0xKSuktJ1oOoDR30EJGAYsEsjarZwqh8dKHE9RbmxZBqnI336hDhF74sAmezkedLTADq8B0z0YdvZCRTaksmNP5s54O0WRt3w4TZiGdc0ibanwhPm3cyXTa0ZCCiC9dKyIPcl1wSc6ZtwnLVKWhq7wCxITVCOLFDjxOyt0Xblh696Sy54Soeo74IZuJrVrhyedXf5N19yvZfJw4LRn4yYoSMgjYS6r5ZsDNElJXV1O1X742LKwc5kH9YkhOamwQAihkEMmFfgiPmgiT9KWzq5zJwZrnNmkLCU51rJzJPDNw1RcJCZs1YqsSapkiBAemFklYQk9YUcuuDdKmQcmIKmCHgYdSsXQmmoq6cit027lo1alEb8uoj24DMZEP0KFskAktQKh6DgSjH2ikh10xfpnmuOCu86sdkWWvMHL3s2aZz42wbZH5YW4ZBPcz9RyT3O73k6JYax2Uq7yFNsUmVW43EYBdQbiDjQZIZoZdVz3us0Z53yMIyQz1hhNS2u0X6vT84nXZ2fxE7Mih8LiKNcU7dTS10PbMqLX3Z9QJFydqxcTkm36iovwxNp0oHMKlpL5448ZalkPL2EfaJcrHulAnzcD6JpZa3ztqBj6opKEO1mghbWLw5FsQu9gF9R4J7ZHVtsrKdh9kDw07hxsDgarAssO9QZ98m1mpnzWhPr8g7XViobBoZEOyogRhrZxswzEnoCo9GwIZvCdE0gtThsGIcMZqHitZ2ilMfvEFNI0T3i158fUlmxQflYYWz98c9qMu6sVitADZzYzOh18pEO2Nb08oIdaKQ7Sb8rDITK00aowQn5HvRIxGqbV77dPIAdWSvzQR3On54PMVYXoZ9ZG1kWoghFAEiRTQC48LUStvDG96tdeGPo0U0lXQ9KDBteKELsfvGmiC3fsYwWgyQPi9ZHfPcFbpJPNWeTrvVhZeMN7E5Im2QJM9znAZo0hT1j1qyULGw80v9ewqs0efERAaOdyf7kPY0yQc28pGUuXopgijdErJuTJr5po0jHvLMsWF98EGwepj9vxMaCOcZqvxapwEE875vJSgy4ezvqtjZmmZLn3LgWVXuksc8q6PcocXo8BfU1Wc2AWAS4ywFloa3xKQzSnakj2Rh0FwPCo4RSYZan4sWQZa4GVilWICC951a07Gg0MM2dk4qmcNdlBmX1cmMIAtmPhIyH7SfkwesbnsLyvrAe0eoripIbDjYum6Qze8aghZA9Aj6tW0RvWj5f8DkeYHbH0YCn1ZIJdpHdVcg8i970BIVmDCoxzDMcAccC02tF4lksWl1r0gquCBukd75BtlIQ8zETx5EMwkuZKzPzZfwvNpdqLIukAjCNBXbMVZ9xZ18ik9NL5Q1ZhCNBwzp7Xc7f9jlXrLKZnqMdAho3FIQG7oc3Z9pqvAa3NmWkg6F0Ec4JsmkGhmYFji3WNiMrLMZlI1wPbYkUbsGwIGqkxTZpQn5sgw60UIkcHToVeYRReyhSsPFkAokUQtz8P3eufC9gzoA21q5zBCb5q48u2z0lOZB2Zhbju4qZoIpYJiZLssbVhsDK4XzGtehHP6ppLM7rZyMl2ivJp0izjkgSfwciAlFXF95hD469AcFsFGz1qvqiy1xxU2f0GFGb5oOoLD6sEEJl0IaPFtaM67dQcwO54SQgnNDic3ELeIpAcyC8l1Vxl1d24gIEn0wVzJZeJnjBrEoUQjznoteoxfiX9EAO6KNDTnmrHVGPVyHGM4q1qGBzT7InejGYuGkdtsKYwLfK40DxXTIGkytwSDVaWBiOIUuU9QHiwI3MvAvVgSWFwZje69YyVfB3Y4ae0z0th0Yx2XCngv22EKrGb6RCNcOZqO59QvOpDExH75DQucI6Vv97g86L9wMvJombTgjMbbetI4OXwNQ29wZKI9vXLBdIihrgr5sUWcqbWGqxm7KAd4mXTls0jB9HkZeUe5xbj3n8N2hdpN0ljsJZe00goezO0TpY4KHO87KRsVi6gHWxA9kuggYpC2sB0SBUbDZcCVISazKZBhksEMUHTO7t0tQiRxvfr7X4ntpvpqpPB4u06fr0Lyo9DRgWTNu2a9xjQwwCB0GCgKOwTCXuQP0B2klnmxVyZaIhkokirThMZnvVpZpZgDor0SAR3ulFz1TTr5GBClbb9TLnUgEY53gJZnjToyRefj1slSpT4B0gXCBLlTmDNYKkCKgB8D2GtgFgTq69iiGO5L6gN8jGH3Ro1ffCOOMXF1AdxQ3mwi9tZwud2aq7aODsP0mkZhEnUuULry1yXS9qiTxPxmgmDhowoY2DIgpaVHJCpMT3WkX3pvMl4dtkJ9ZiTRkEpvn5ObMNgul8WlF3fuIaLttS5bitE1u3WdftwBh9ogI4ducFQTWgR5B80ZFNcfvxPcI7By07C2TT2kTzceWFGNobZl1D2xgp5InB2x1rHYZ4YVCJGumX8N2IZstssZ7XIhkd5TILlfqPMhnQaKwFx5n2pzg9wAxkUZc43EuMBOh3dTZ8DdRNz9MsJ6oIMNLmMdlGPCebW1dgD17unSUgi0XdJ7zgPobJx1vzc7SZqlgUVY1W4Z43TIgorIamboZ1bgrgHvdGqBmGezzTqSqwthMwq2UZyeFPkwOhGfPSdpUNaym9nPgsxaxzYADVY1tK0eooLlEQZdjpWrgZoScxlDcrjhJXMZoi5AptaGKH5Rdr06cln3IzJtmR3j3vU7aPWvKNn20E8uTuGt21qnYKRx206wZwGA2ezVn3Z17ev8QXF4ZsPuUfrcL1Z1lRo9YEgOwZvVDjKiSVTvoElYih8LuhiJYlXDB9kIubWT5rIQgmlbMIxOnTMoOkbZ4LEBdZifxGhmSZJ5HI0bNNjP5T8xaNo1SJGv5XDdrJZyxKNbVa0nVz6ARsCZ7GrSS8UN4YwKAZsu77oZ1G5lCjdysA7Isz0p9YbDRR7NuQguO9hGzLbV50rFJGV6xKF4ssszZjiVnx2kuMT8LVlR3wuwN5HSuZLwvAzMTwBPBNIh5nA3RMONAAz0csi176H85ZACCazcxADueUsDB8bqv5PeUch1RLzk6rZtngbvx4AAEW0RqskyOe8xH9cZ72dHbXDSag6guNhY2DRJa2XKlsyYpToTS988Q37RXOQXTFEviZ6pomhdwetMEbeflWZw3ZeRXGZ7pXtV1N7LcEc0f8dStjNKK3MKpFokuJveXBrio0p6cPZfMy0m4EIoRjRPZmr2FBc0CTyrfGZwggfzlNS497ayHBVRKpTuo6QRFZs54bNSM54o0Meqjxu0EHg01xoip3Jp1lkGtUSgKSd8zp8nvyb5Awz5BSZFa4skZEzs8UaM300M2xYzMbWPB6GojyQzsdL2k797UykNZ53d54xlhGn8qS4ujUFihSWSTr9at574eAYaIsepUwxJ33nBnU8xubGGfWc8OnRqaxVK3wAUmIUysnaISijLkfhRI5kYZoMaCNABIcFKZ41wn8QTWZzBX1FLMyNZ8ksI4I5ARru11IvsP8dnkVLbb10q2mNRZKFN1AwIIhwLMB40ZLR9AsseHdVobdYCBvwClOHBYno3Vg9cqxeyStVQZeIzb8MvTU6YOqU0nCCgCOZqRppe0BKrPHbJuoK0eHvhE5icUqZnZLbgCdV1NvKndhAxQzi5l71foDRyOZc51hZvKduluzvQ4B2pnZxwmPIAnvo8KmdJZrBPgRZBljHDyDW1UZ1UkMOUl3fHUhWIvTs6Po22bzrsaFysTHp6aOiEO8EmQcPzoXfZjQR2DTKdRPDKUOw4hxMs89Zs1srel88BsodEyRWZgso2BwDh0Ic4nPwtO4pF6MSdZGA88CUUEZuBDdNX2WIRj5YdNZixGYZk6wrsp1jhl2yDQCRhQmB74JQzG4q06YIKGy85acLvMYrantjUZxPqq2ogMVwBu3YPWCBJQ3dOB7GwvHByp8zerT3Z0IwkMMZiF5x6Ya6lrbtOZ4lBtyqR3uGNRBLgvFLR3p25xCXvGZkanhCDbXg8SQHv78UWhzsTZ1ZAlfGq3sArt2ogwai6ys9t2QjVTOZGElpGtxQlo43RCENJwHMIRcNNlN7ZgQ7YphimXbhh2p2wg7vX7Z1B8QmeZcptmfJMexitVxlOfTphvpm1hs2GHDvD2y4R2pXqwQZcLG7h8ACnZFZ0lK1UD4fd1fOvAX38QzRbi0vQokRNcF6QwcMMzYTx7jrIt0qCtB1NKkuOWIKXKXelBdKIL0g6W3gvrIYgFzS3qmy87fkxOX85hf9AJDcRPt3x6ylI34gNpHKAlp4kjNtGpHhQvthZeaeZGZbK7y6fCrcxxBu8vZaaa03VTKIS1sps6vLVicUrraqZ7UZKqxIVZ4QhL8583oXOk1wllTUd5Q1mQb9ZdRumdaYQA3o503vw302C2lTMP35xfVj4DZ2g46UPAWaD13HYaEPTDKLWl0QmbtUe41KvvEm5il31aEN1cxrOJGA4D3EA5WswymKxGFV6OBgmFzHExjzgVZ55wiygHQgvHZcZ6JEIIEzePuDtIE1IOb8dIF2KIPucZxV0v5pCP9suC7qsubGdv2WV7JvKCZc1Rb8Jtg4MYgSzSiUbdGZsmzkkck8De7uzURBrgfyNDYJlWEVdv8CM4ZfTmoZuBhZtHIjiaCdQn0JPN4T5DKUiOA6w9ac0SI8Z62M3heFZKk1sFe4bRkCNyEDFQAOGy4IvgZhPAgUBJdqWsRUXdZEXFnDKk5WL12iwCx18eZkGxIZumNfAvYBsNNjhsq9yzqezQzZsq6bVigeP4h3wKglqN6HPjnTCCLSahZ9Zoe3Ip55jx42gCqBTHwWRZ5M6vJtSZ1G2LkzPNDv3WOz9dHkla19r4Nt30E3vlZ2F82hTnTSZzRUh5l1oJgpODlxp8hTPiVaWDvx8SoZrAHQ5YgS0k0BlBj5ZAQZpyWQibSEweuWb9YAJvpcZzxHTZFAi82om0ZsDmPEh6M1CqwVs5lIFK9CvuwpSQaYRpDsqwA2ZexpZgvv4ezgEQ4hDmyDPvZ5RA81iC2MWO6RD3ZlwkC6oOeb2C1KkjxaYnfPlQ3s6I5OZg8rWs2gdZCLXnnWxv5tOUTzFkVj0IMWXZ2FhxeUG9zQymiht1Pk8jv0DgZHcCtBfA36JnYZ3AzGdQDwADZ2MuQyi5VwkvE1obXvY10jQqxSx9CqXOCrBjSHEfwom07zFHmxwyWObcAJrEzDVimoP00fnoJpskfw5Q1fazogX42bZdabUIj1l2uFoaujO63bslZyWKHqE0loiO21T4BbyC7vWig4iZpRZEL6HagxVt2aiggwksl56HCCRaQSkbUSgLM1ticozuvImFSaq655ZzZgYBB8EzAv87NSY57AGd1PZos6T75R1A0SlkdOvP1g1vyhP8F1gI1M0OckXMZAxbha5qZGH2tc97H578fr2r5zTjFFV8mkZAT2JlPhUtzBrLHRjhOqMGNNduZ3q1VhZu1oXzICc8OEJZ24TAw2sKjBehPbQ6YiTa1R85CnuKhH5X1NEpXoksq64e208ORNNHbJUAEBqd1kBh9jerq7lp8VzRp0Juj4dwa8ilT0Mvg1A0CGh2Wz2cIasgxajhyT2o4Flgh0KFOVRKHwFa49IYZJIA2vSeZtZEQTeb9YspteopGMaxLOwHP69cL1ktDJq16gujmbZDVY4UQQAZC4ep8gUR438doYPIe0XmYH44sPoxPk8in8S2PmvfQtc2L65RcWXbaJDPXz6oXv1NXy0jrlgHdZJ0T0omO4rTvKAHZux2mJ1M8nRiZrw7DtMm9m6FekgIEhGBAajlyRwFcnz575isAWAHIuYgWmG6MZaTbBcMJTSFn0bRHm7DulF31KvZAbB9EuQ3Wb9VDMV1RWUzBNPkElFzSJZAPyXksyocuEtC6IFkK4Wb45Sd4Z89PaNumMZIOCw9FI3TyO1OQ8VU21a3bQ4em6n4drF7evwHUYGqRkvmZlXqZs3RYFYpbKTfJ62t7B4OUufVyjly90662Oq2VGUoVACGLQL9CZ7540aZuh15Ac2nLrFtDHNKle3MpgB1gkoeMpjyuxZjVznsyRx7k88WHjZeZuoDywPzx8owewd0JhE958ECdZd692FFewgiQrzTvZrPpgVxILU2eQ80YidheJeCDAFDhZqdobGF581S4AFMiVWUVK1kYT1d564CR0ip0G2Z4Z01Mz7r7N9HwBRKrj3OaUTq0nZcal8VL0YLHBjRn0o0ZdkpmZKgZkt56L5Z6cabZvaQb94UytJQObZzWFgiN3jcwV1s4cwba4dlWVmA2QpKx40l6QR3ckh6b66ALWrKpQt9U4paJyBdQcd8mEhwW8ASShufCXVQ2UNOp5uPyiSGJHPP3IMfQ64oR7Z12XPyglxjLGCtynZL1wKJQB9danlO0q3U0cVZimJUrEH374ClCUZ3fA0MsH1VsF1eAIzFKch74i9d96VDKKyiG7zyy1fvKUnQGU2o0g4kDQDkeiMQ2k7ohekkyMckmNl3kpo9gKV5nrjhE1KXnNDE0vNPLgoYOsM2p9elEQiQr2Fx1FzyNGZ8TyTZxlXAJo2jZ45SoQYemtYY6yExFVhQ8ddewpP7TVvZqL5OhfHqyYysydL1QKm52w13vZK2Awxan9K88gTZoYakiYoNJZG2hCmjhgW2voZGymGoMLiOOc4abMbfBnF4ovtEcHuhB3LRdBoOf2jw09IDBVQuiidOYQ62Mceo0YhZvYDJKzoFcAEKVqpMhVzGEkClJ2eMWsZ9z4YZ7F1fj6oRah9xyLNRoiif6JKSQP0WkrpyJhDZwo0rUYMUN2iyrDz6VTay9pugitJqxlk4LsZL3MmV4orOGeaU25KwDHu8LZeI4r60Z64kOlOKXqpYyDkn23VZsp6eaNVuGNT3EK8J4eWEqJ6hIBu4zRBdN9HiR6oNoYIrHoyujvZ2C78McZkmaytf5gpwQRbg0wMwD6sjLFR7x9HW8w2GXzAfKkwa0xdql0cUq8nNQrZ2om4qqVHrwZ9qxnUXcO2BZgmlOu0b044Kf38Rig0gY96M4MfB4cLMmUfYTKOIs3V3D4gPQRArdC7oXT4L3YY0sh9jsGGZEZxZ2ZiAmS4pTBjeRJU3KV8Mjgv4EDMeRZvhMfkajXVHCv7veyuBNvYLfTVTlxeYb1Hr25eD5fRZ0MrBhWPTuvZcVZ5qMVbeqykigHzyerAQDY20ShYXWy0RA5NGClrk3q5v0RwO1DyWZiI3P2Naj7zaEW1tHvl1cqP9Uge01wlE32QwvDafvZDpC0yqL5w6jb44V04fS3OxRtUDXKcQqtsIo6CuxNYr0T0EV2KfaR8PKGl4FUCYbtpljaquNaDbqN6CyN9feKmp69Wa0kiZJPwtH2OmhMxqSb8AZdI2NJw7cC8L2Hn3vTvSdL9shZoOlgiUbi95ZgvrAdr0Ac8wYEGZqSZtgg6qXU2HYt1L0G4MB6W8UGx6u0fbko46PlBCUsZwvNuEraWyx0AVXZsOTJ9vctHOuBjTL0b8lzc1FaL77zdzP27vcZvuXBxa3wuLdunxTZg5MqeuF9zNZr38zIVWH9ZAxboyCt6EebafeEs6tZ1tawoZznhL6WIGljjDR5UIjBPX7r6EDei2593uZu8qiHwlamQTA0d8VWBfPasu0ZD4Zz9AGqSN9JjxgH08xN1UpGCg0tRi0QGl5Yii3WXWDWF8ue21A7L6nJ0fBu9FQyxSFqjRnq8poR3W1ZaBBUiZKPvZcMExJIeOSAeQiFNaoeFv4d3B10EEEmwRNZ8XCFXk8ZKGQ0hPAB5BhhgVwtXWIKwAJFalH3wp6OQnyVKX9DaZpZ5b1T0myaKODc4RmbAwklor2Bpy8UZ6GsHCKPZlrmcIzymMc5AqdUyKZ0fKxcJAGsLxZntFZnxqIEUYIrPjlOu7OxipGCPYj8893mTJHlwaEcV1OoDCrJyAlZbZv6R9LQz7VrYtjShdilVxwylFOZbGKMnaZIpZzmfwMz8gOnDatw8wsrIxHTKbDSoBCEGpT4PC6jSmqPb3vBcFtZcYZ4jSFkhMmvmAZz0lKkTu2K4I0G6chI6LbGHm3Wge0SDCfwzGmpienJ2o4ZdFpRQ45qZDro1yDD16jIfwq4z9fsJiFcMa94tU7M7kpPnqmVxTQMdN7QdH13Zxn7VfJTVnfhj0aNjNEwVgBZtm9fXzLMqAoKT1E7Kw8Rg5mJ75QZqkFBFWcGJSHPgZkVh7n5cx76EgaubgY2zuVAby5GqZglZ1Zj2qZlNacrSoQZIaguZKRrgQImwLC099Pxl72MdiGybZczzVId0t0s5KpMMgzBeIVGeb9DbkdSnx2WZ8cKf90nUYPU8gSggTSZ235cQ0JrwsmeQzcuhnk7zgpCh6Tv1MZgXy8qU9F8sBJl6FY32HuKwAFZBd1EsZv0jyt8mreah0Ur17H7eUVcZqZLXGGXZrzb6p2OjfozcYUCfVZHAqc97drzIFswS73zzSkdVOsnnIh9X5EPN9HqKSB2OjnLRExF4LYL26eYaiH0aL9uGfVZFOJYWZASZdllJAr5BnTbj2xA76Q6lAbTw2WcZEasWPhIhwvxmHNXrP5sm1wFjUi0FfxZCYuRTUuKAfcUcMRfnUZLtRFWszdWgWvgkXmnAqRlwFve9sHIexAeMFMLik6IH9RZxlCjF3kT1QF58hfhFdT1YHGTmPxQlFgcOLJrttb6UBmtbx3PZKe901PaOUh8fVew6mHzEYe3Fxb54mgihY3EGUUXu9B0s8T6bV5m8WZbscOxGg1PCt3wa4MZu6xei1Bo6QArk1ym2ZHWGthU1Y7lJXG8A02luiR8lEwMx3YD7n0bwY5ukXQgkQb9yz9feRAHLAxASfU7WjxIcYhqYsJwETWsqEg0qZrjNjOSyycWlQ2aXrIZJNbXDF0Fn0PLNB7AxArO5wkYT8gC9sANqod3GJ49EBKoGmfxRDh1fyZiRhM42vKLVxUGRyDTZC22HcRGUxlTdCZGcCVvKGA0c5nVGX4TEjNoZu1xIzpaPc4f03rUqAE8Xw32oeXrx8TAZCHcQ30tJkq0PFoyIQcJUK3M0Z2RrhFDx2KLb20d955vRDnZdGFi8YpAXYmTrKNCSAvcZ7uUv8SZb0xEAY02fEMaBwHJOQtgZahA7yKcatqkpazwgAPdfTRlZheZIE22er7pBfEe8xdHknAJCQZjrkLMSoer1dm56VKqbuony1rBQBLElCktqrGJhsoL97Qw0jb6XF11SXQnSlyL3wahmX9cdZb0uUwKX02ThoME8IzbHZh5mX2NbVqxoI86ZEUgc07AogWsD0HrmkIw1CAv6LHIguNTFo2h3H5QIc35y0gdrMW3K9V7pRrBZJUPcd2f5QkxUwy4J0cHUTBGm9cDYytM8VFpi42FvNccXNRUVZnmtkBAkd69fJ3yczYtWKjqioVKlE1ZLBlG2KwZcxX4CZHcyoXL5tKRpnTykHAF4LfXLU7IQzn6h47AZBl3Xgnit8alk8O79tp4RXPF4nocd7kIvPe5Qz4cJikMHZnrCYOAa6xrmXwoJ9dZkmeQZL0ltufPB0iTbyR7aSpdIIZE5LDBe6PVfNv4WgxyeDHtWAUX3GZdgyJEp3H5UaZ02v4wPluZtMm3idZDtZ3CsAqqdEJdkORbgQffJKmj5hNOFjhKziqGbHi9R1JwwHcvLZu1p4F4Xp3uztqSGhy9KcKurd8ZdayUs1kedA9bq585cd8yzx5RenttLU0J5X4yAy2lLRgeN9zlQCKPc28K0dNBcZjX52gEbf6ggaeZfRssJ2KfYPczgFG6m3w9xy7xvfnbpVP9gdOSB2cfV8P3jVxyCSNZrslibS90Uc90hNwRhKaiyPGjeUKqjDey3Vt3BrhMAJkOqfQmiDDzLpGeRw5Ebxp0DsF45WXpMIaLt221z19ZnlNEIx8ZkbZ6MOwPYMZovDOSV9860LqLDD6UEVGpLiKbfsQuhh5CncvugdwAgaCayzTHD48IbQwG7lgeb811r9yZhMssmRCAZ9XUmB3avyGhs4F94uk6CftF72A7LQ8Pt3ft0wzXADxuoazhqOBZLnhmWgzRvxIZtjkKWlQ2FBN06RXBKuIgDZjZcLeAyajDcPAjTtDXxcDKHdoH0AY0dF8yfAV3jFKRMqSOUhCYj1IwZczD6wgyVqS4Uc2wFgZAEuXKlLJqjpLfUhpm4S3QlEO9ZA24urncB9NYDZ4oSZ0HS5TzojfZIUCIRpnO10OzwZf8l0jXX9EMe08ogkDAjj53QrOqte76qUYkdDkxMCEXZj9dDd0DjEl256TDZJscp58UNWRq5shFpiz305Dn98aeakFA2pPhA4Y0ZrstsdfE2Kun5kAgMXyl1AvcfQZeotbO30EwFXP4aqJ5Ou6egl1edP0CBjZqgeTodOZptZF6gkyvs5L3MXvy97JWM9u0XGLr3GD8qVAc35fgpSK2qMKcAA5ZwKz1Mc9HazmwEVkvEiZdGmrufrLTLomh9PyBN4NxDXM1oZc1Idgt1O6GuKgHYlmkKW08uBKYk8ffRI2BsGzBm8COqzNnMGtx7gC3RqTC43ZzoIMFHjafmcn3zTFy1Tuq8Tfccr0o6DQTjc7YJJSc28HcbdwZwrcHDEeycpFQYskqr1YyHwoAPe2w8eZ2ydlw8hZdNc4aMha4OVKSl1Y4VdreOfcPE3gnHohI3lc4hZk7fRUEJwfxi9kjjSoWYjoHIckYc9jTVAEZv7syqsZdq9dVeUxGQkad48cBNSWBgZ32jH1nV7zHCz0wZBiRjGoaOd3ENyRXZ9iuHXEux1V82F6TEdV3oPrwAfYzsHaO0XgesRwNIxbw1dEYrcUUOHTqYPcruquljToliFZGl6OuwfI8jHnEqMG1VaJUaoA1rHBemU8YYBb6utA8VzdGok1RqOd9jAUDrnck7yAmpJLcBU9a5HAytHIEEtRFqZFDUN8x2Jb7PaJBDR1U47AHLUgsj0FC6z2Q8Qq0c3Z7QmUmO53F7HF1iIfwPw9W8kzwZ7tT7IvN6lHCbhOVyuaiENqa017hJ3QiVusrefKPbAlTYroUEvjnzbxyGJWZ2EQSLEZJAp321eusHwZ1JlT9xtO7Xuo4HbjcllE3cBvk0zoYzVHpIFaxNVzge3DPc9ery0VPEggTl9h4ZCe4Olh8w1mxd7SgD8qJt6nzuIEkYGJWobVVr5ZE61mq07eUHslhstd1a6Ahk7qUyGZfo4pM1Ltdy0CzV2hqCIDpmtea1AUsx8u1fYBHDualc4ZFZhUpYPgHKoRnZa3vwUZgne1o13TXz7bzc2yB599wtIG0Rcd159flNw8evWLXc59AB0POH2xbvCIfqQptZp15Su0RTpwyt3lVZ9pxApab1Zrdeojsyumwi4Q5nfljZH2AtNkHZ5jHc0qxI3FZDD5dcbyT9BRTo6O9nF3oQtq8RqspbPfHPi7T7NqCSBKDh5hZhmMCBmCbSZt6n68zQn0QHMMPD0oySOnl946Qd8keeoYoQlfmJxNihZyFWun9G5aJ7Y2Uz2baZv4LKQUZ9mFc1HBBevdWwx17CvJdWTEElKKPh6iixZ6x18g0Ie4viYmDoZt0YFDpzHRnO8loeODmtLLP4ZJUHqXyITdCVyKtDZwFnEOyeSMddZr7Ad4lX3EOZ72l3q1mbCPScNcDP70LU7OUtbKe9FFzkoSpy10Vj5sz5e2E2UuvzR4wEhYt0t5lmVqRiLpU7bjlBnuyEoaY8aEC1IlMwaQZ7v45s3eLtt6D5kg1kDty5cbHir77q6mpQCtFVCpD4ALs4eTTQw6w47eYg9RphZ2uH1L0EYo7ylxcF4c0BZAPdeiwK9yMFzQ21yoPGNjwjOIApjQUzJUugA4KnZrl4kT40ESvHhaICryRY08ZhMOCBkc3ht2chgOE9OJQGK0ZBlE9CYqEiGmTEBgqxGn0qt0YlIDxgJJx5WZcJqfZ1RnIkOT4StS86lu54tb60qsIQ6c6mi61svymosdO5XeVbowbeZc1GTG7oVnBb9ZcwKeKN8TUWtvBg25EqhjqKZFSjZsm9zcsExghoo4jIOAPRbQC38ygS1n740kdcjtaEw4uQTr6xKtYAkyjMHofNlDUeUnxF36xeCd905OcujM9NSGRnvGv3ySMtkcurXoZ0PwMk2q69DQ6YF6lEBHWegk0332HC7dE1uqF4IJNiAuQO8kQZjnxGkxkrlXckwsjE11Sbbk2gHouu0JZyXUIyYiy5gGxOkYZErZEmqmcHXb9ZJtPw08ZyZs6nTMyxhB8hxAsCNIpH2NZ421K6H2Dfe8tN6xTXxXMeReX4j4SLeqY4f8f2kO4t2uQmZfp6wZ8IASJ1KfJrxzT61Zvn4hWkd9WFe9XlfNtMUyDxZCCLZblrw4KMJ2pejZ7lSFTCU4pdeWUhoclPuloGye9VSDQDUq03Qw15NxuTuVvtmWm9uZfsQ3x7ZEcLwTwNQQOZDw6vJDp0qfapJwhbj3MNX0ii11nWwVyJbcC07uKrkEoZxFj32sqL3q4iR4rWAxav9mwkGaLocUfRTNNMgy8LwksGfBvIzYdU8Jak4vQ5OGhkTTe2k5FiDOOgVQyrViTQEpl03AIzWi126BdOB3ZzgOxCMLq29mqQ9PQe0f2EE5VwQVrh4iguGFt7FK3b3khElz4jzRKpr8mAqSau336RNlQZA5pWwYX3LmYz6wZ2fxA4Vi8ZAhTZkKyv9juZn4huBYyO1w2nanO4emyZtqPEvOAOEDBY77Dy1JdTWlyVlE7bLqV51BropjkqvVJfzY9GR79FA2ElNypxowiaexPJ8pgwBZigyvXMxY1WZJn5NrkCav6aquHJC7Suql3BaoThwRqhw63UH7F2aiZ084iOjlI814exV603Ejk8VT2KBQZFtaRiQFc8Ne7oug9VszKh31LLeKsrZqyqfSAV0Zi0zy6AdPWAViRmquxU3vwUoUmpTcNByi2U1AZC1bgUZ2gpjHxFn0BvUEITnrqxIBHSi2KFaddcYPBEhcZ2HKS9RgzGx9T6MNVOm9bxsnQ94AT4xUSy8vXrLRPSswoAgnfLo2PVjiOcggQ9n3Z4Qq2FyvPmBKmCofZCwyh0cuNZFoNXExiuqqI8WI6psdWRpDmlDMUcYaOWXgkv6WOB0uIU0eNGX0qABqXLd0wIzTztli6UdfMuZqBqyxDf8gggGq5Agk5Pz9ShYtgyXPICYSbbwbaROX9qTHfsjsAczDB0cjQikiZ6Ex6J9d47vRW3RAnO59tFWbFMydbjr4D9uVZbP9Ap1vVn2fqyPE4yOcY9XFsp5xH03GtxiuSnecuj3X8yadjEWiIZe0OhhI7ENBu8ziEQD08ZEwDR8L3rF9Q3ouMYoJKdvbuOVh8TT8eGQFqNYxwZEUbu0foZIX68ldS0DoQpZ5bewjivvsJY97T7mZjG55xpuZ321atdiFt3F6edVBRGufS2fVTybL55Kt377BHP1lw2C2EL6NxliNZ0RCQywApGK5oi9JGgfbvypHBodIw4h8u9imZ7NVQ5hbus0YRmZEkyRZvhX2BSoAxyZwfdXPF9We0CBqTTz8072W3WJzJTSXoKPAo3ZHNFQWhYU4NvgIKm7tCQTzgah9rA8KyDWMbErjN0EyCd0iLhmrtrYVTQZ2FlRnVfyirG6aC6fKrteSp7sBwbLNlNZniBYjgKZKMSQgMTZ06Bt18o72fRQyt3hnLUmPsqQ8JrIfNU5IoIFGMpruI0LTXKZ3P4WxvCixPJmljfQZ1ZLMyBjpdteLNCs0811xh5xIqjySpfeaqu6wlP2HIUKiLcbw6Yo7gPiIUa8tBlZ1Z5oowkMtx0yf2ADfJhS0yVM1PSAc25huAeF8vF8izVvZj5t87g2e862SJfT3h256QCaih9uE0Fvh0qwUdBDYPW9WlJNF0KsbLG8rzk8U3smIzufh2JwizPOOvxsqqCHb0F390kYnkCqAarCoyGDtVVj8ZAVrh7tZEpV1CBLJBXLxh1R7gnjs5PrJwZkQAyfBBSDtdxkZJXZshr4MG5e86987Q6fG9MIreKm8LNuHoQV2pnzQ3TnOylFvXNvVCZfOUyOfiQjInDAggE4haC0OZhQag27BguZgiw3FuSnZBmXG6xcSnAxAuOcyz48LyfHHDv6hUjiKRwJyLjZvsECXHtd8cZqFixEYsSktjxv3xr08uZAfiiZdj0fvmIqgelmcBARuHrvcUsc5DZ6ogRyl0kEoU1Hr0MLsr4BrERlHmW1X0YuAOhEjPmHkGxHYP0yeJT3auNlcSlCvpbil0neOjf5zUZrS4U0UAfrcA1wCaBaue7fssZ4fRZ2akFxuHO9RDDDq13jOVwEnAsdfoMdFQOx16tJp7bA4aLs1MVp81tDGOS8icw7lsem9FNJmOaxgc2W4w6SRA0VmwPT8u7mTZ6M3GBYLohxbZ3w5geQv1kHtXvZin9HFD3ne5BSFh5Wpv66zwvtHpK4Pq2qibaZFuZF2SHZtkCK8cQ9vKJOZucBufys7vEKqISoK8xB0gJqR0vZwwQzkoLG6022epakyP9zFbbMegVhpzwx3fH1dfC4ox9tkZ4pisITNGrDvIulEw4Mk6ndf2niQ10 | libclang-cpp.so.10 |
| = set: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 | libclang.so.10 |
| - | libclang.so.10(LLVM_10) |
| = 10.0.0-alt0.2.p9:p9+264322.200.7.1 | clang10.0-libs |
نحوه نصب
نصب پکیج rpm clang10.0-libs:
sudo apt-get install clang10.0-libs-10.0.0-alt0.2.p9.i586.rpm
فایل ها
| مسیرها |
|---|
| /usr/lib/clang |
| /usr/lib/clang/10.0.0 |
| /usr/lib/clang/10.0.0/include |
| /usr/lib/clang/10.0.0/include/__clang_cuda_builtin_vars.h |
| /usr/lib/clang/10.0.0/include/__clang_cuda_cmath.h |
| /usr/lib/clang/10.0.0/include/__clang_cuda_complex_builtins.h |
| /usr/lib/clang/10.0.0/include/__clang_cuda_device_functions.h |
| /usr/lib/clang/10.0.0/include/__clang_cuda_intrinsics.h |
| /usr/lib/clang/10.0.0/include/__clang_cuda_libdevice_declares.h |
| /usr/lib/clang/10.0.0/include/__clang_cuda_math_forward_declares.h |
| /usr/lib/clang/10.0.0/include/__clang_cuda_runtime_wrapper.h |
| /usr/lib/clang/10.0.0/include/__stddef_max_align_t.h |
| /usr/lib/clang/10.0.0/include/__wmmintrin_aes.h |
| /usr/lib/clang/10.0.0/include/__wmmintrin_pclmul.h |
| /usr/lib/clang/10.0.0/include/adxintrin.h |
| /usr/lib/clang/10.0.0/include/altivec.h |
| /usr/lib/clang/10.0.0/include/ammintrin.h |
| /usr/lib/clang/10.0.0/include/arm64intr.h |
| /usr/lib/clang/10.0.0/include/arm_acle.h |
| /usr/lib/clang/10.0.0/include/arm_cmse.h |
| /usr/lib/clang/10.0.0/include/arm_fp16.h |
| /usr/lib/clang/10.0.0/include/arm_mve.h |
| /usr/lib/clang/10.0.0/include/arm_neon.h |
| /usr/lib/clang/10.0.0/include/armintr.h |
| /usr/lib/clang/10.0.0/include/avx2intrin.h |
| /usr/lib/clang/10.0.0/include/avx512bf16intrin.h |
| /usr/lib/clang/10.0.0/include/avx512bitalgintrin.h |
| /usr/lib/clang/10.0.0/include/avx512bwintrin.h |
| /usr/lib/clang/10.0.0/include/avx512cdintrin.h |
| /usr/lib/clang/10.0.0/include/avx512dqintrin.h |
| /usr/lib/clang/10.0.0/include/avx512erintrin.h |
| /usr/lib/clang/10.0.0/include/avx512fintrin.h |
| /usr/lib/clang/10.0.0/include/avx512ifmaintrin.h |
| /usr/lib/clang/10.0.0/include/avx512ifmavlintrin.h |
| /usr/lib/clang/10.0.0/include/avx512pfintrin.h |
| /usr/lib/clang/10.0.0/include/avx512vbmi2intrin.h |
| /usr/lib/clang/10.0.0/include/avx512vbmiintrin.h |
| /usr/lib/clang/10.0.0/include/avx512vbmivlintrin.h |
| /usr/lib/clang/10.0.0/include/avx512vlbf16intrin.h |
| /usr/lib/clang/10.0.0/include/avx512vlbitalgintrin.h |
| /usr/lib/clang/10.0.0/include/avx512vlbwintrin.h |
| /usr/lib/clang/10.0.0/include/avx512vlcdintrin.h |
| /usr/lib/clang/10.0.0/include/avx512vldqintrin.h |
| /usr/lib/clang/10.0.0/include/avx512vlintrin.h |
| /usr/lib/clang/10.0.0/include/avx512vlvbmi2intrin.h |
| /usr/lib/clang/10.0.0/include/avx512vlvnniintrin.h |
| /usr/lib/clang/10.0.0/include/avx512vlvp2intersectintrin.h |
| /usr/lib/clang/10.0.0/include/avx512vnniintrin.h |
| /usr/lib/clang/10.0.0/include/avx512vp2intersectintrin.h |
| /usr/lib/clang/10.0.0/include/avx512vpopcntdqintrin.h |
| /usr/lib/clang/10.0.0/include/avx512vpopcntdqvlintrin.h |
| /usr/lib/clang/10.0.0/include/avxintrin.h |
| /usr/lib/clang/10.0.0/include/bmi2intrin.h |
| /usr/lib/clang/10.0.0/include/bmiintrin.h |
| /usr/lib/clang/10.0.0/include/cetintrin.h |
| /usr/lib/clang/10.0.0/include/cldemoteintrin.h |
| /usr/lib/clang/10.0.0/include/clflushoptintrin.h |
| /usr/lib/clang/10.0.0/include/clwbintrin.h |
| /usr/lib/clang/10.0.0/include/clzerointrin.h |
| /usr/lib/clang/10.0.0/include/cpuid.h |
| /usr/lib/clang/10.0.0/include/cuda_wrappers |
| /usr/lib/clang/10.0.0/include/cuda_wrappers/algorithm |
| /usr/lib/clang/10.0.0/include/cuda_wrappers/complex |
| /usr/lib/clang/10.0.0/include/cuda_wrappers/new |
| /usr/lib/clang/10.0.0/include/emmintrin.h |
| /usr/lib/clang/10.0.0/include/enqcmdintrin.h |
| /usr/lib/clang/10.0.0/include/f16cintrin.h |
| /usr/lib/clang/10.0.0/include/float.h |
| /usr/lib/clang/10.0.0/include/fma4intrin.h |
| /usr/lib/clang/10.0.0/include/fmaintrin.h |
| /usr/lib/clang/10.0.0/include/fuzzer |
| /usr/lib/clang/10.0.0/include/fuzzer/FuzzedDataProvider.h |
| /usr/lib/clang/10.0.0/include/fxsrintrin.h |
| /usr/lib/clang/10.0.0/include/gfniintrin.h |
| /usr/lib/clang/10.0.0/include/htmintrin.h |
| /usr/lib/clang/10.0.0/include/htmxlintrin.h |
| /usr/lib/clang/10.0.0/include/ia32intrin.h |
| /usr/lib/clang/10.0.0/include/immintrin.h |
| /usr/lib/clang/10.0.0/include/intrin.h |
| /usr/lib/clang/10.0.0/include/inttypes.h |
| /usr/lib/clang/10.0.0/include/invpcidintrin.h |
| /usr/lib/clang/10.0.0/include/iso646.h |
| /usr/lib/clang/10.0.0/include/limits.h |
| /usr/lib/clang/10.0.0/include/lwpintrin.h |
| /usr/lib/clang/10.0.0/include/lzcntintrin.h |
| /usr/lib/clang/10.0.0/include/mm3dnow.h |
| /usr/lib/clang/10.0.0/include/mm_malloc.h |
| /usr/lib/clang/10.0.0/include/mmintrin.h |
| /usr/lib/clang/10.0.0/include/module.modulemap |
| /usr/lib/clang/10.0.0/include/movdirintrin.h |
| /usr/lib/clang/10.0.0/include/msa.h |
| /usr/lib/clang/10.0.0/include/mwaitxintrin.h |
| /usr/lib/clang/10.0.0/include/nmmintrin.h |
| /usr/lib/clang/10.0.0/include/opencl-c-base.h |
| /usr/lib/clang/10.0.0/include/opencl-c.h |
| /usr/lib/clang/10.0.0/include/openmp_wrappers |
| /usr/lib/clang/10.0.0/include/openmp_wrappers/__clang_openmp_math.h |
| /usr/lib/clang/10.0.0/include/openmp_wrappers/__clang_openmp_math_declares.h |
| /usr/lib/clang/10.0.0/include/openmp_wrappers/cmath |
| /usr/lib/clang/10.0.0/include/openmp_wrappers/math.h |
| /usr/lib/clang/10.0.0/include/pconfigintrin.h |
| /usr/lib/clang/10.0.0/include/pkuintrin.h |
| /usr/lib/clang/10.0.0/include/pmmintrin.h |
| /usr/lib/clang/10.0.0/include/popcntintrin.h |
| /usr/lib/clang/10.0.0/include/ppc_wrappers |
| /usr/lib/clang/10.0.0/include/ppc_wrappers/emmintrin.h |
| /usr/lib/clang/10.0.0/include/ppc_wrappers/mm_malloc.h |
| /usr/lib/clang/10.0.0/include/ppc_wrappers/mmintrin.h |
| /usr/lib/clang/10.0.0/include/ppc_wrappers/pmmintrin.h |
| /usr/lib/clang/10.0.0/include/ppc_wrappers/smmintrin.h |
| /usr/lib/clang/10.0.0/include/ppc_wrappers/tmmintrin.h |
| /usr/lib/clang/10.0.0/include/ppc_wrappers/xmmintrin.h |
| /usr/lib/clang/10.0.0/include/prfchwintrin.h |
| /usr/lib/clang/10.0.0/include/profile |
| /usr/lib/clang/10.0.0/include/profile/InstrProfData.inc |
| /usr/lib/clang/10.0.0/include/ptwriteintrin.h |
| /usr/lib/clang/10.0.0/include/rdseedintrin.h |
| /usr/lib/clang/10.0.0/include/rtmintrin.h |
| /usr/lib/clang/10.0.0/include/s390intrin.h |
| /usr/lib/clang/10.0.0/include/sanitizer |
| /usr/lib/clang/10.0.0/include/sanitizer/allocator_interface.h |
| /usr/lib/clang/10.0.0/include/sanitizer/asan_interface.h |
| /usr/lib/clang/10.0.0/include/sanitizer/common_interface_defs.h |
| /usr/lib/clang/10.0.0/include/sanitizer/coverage_interface.h |
| /usr/lib/clang/10.0.0/include/sanitizer/dfsan_interface.h |
| /usr/lib/clang/10.0.0/include/sanitizer/hwasan_interface.h |
| /usr/lib/clang/10.0.0/include/sanitizer/linux_syscall_hooks.h |
| /usr/lib/clang/10.0.0/include/sanitizer/lsan_interface.h |
| /usr/lib/clang/10.0.0/include/sanitizer/msan_interface.h |
| /usr/lib/clang/10.0.0/include/sanitizer/netbsd_syscall_hooks.h |
| /usr/lib/clang/10.0.0/include/sanitizer/scudo_interface.h |
| /usr/lib/clang/10.0.0/include/sanitizer/tsan_interface.h |
| /usr/lib/clang/10.0.0/include/sanitizer/tsan_interface_atomic.h |
| /usr/lib/clang/10.0.0/include/sanitizer/ubsan_interface.h |
| /usr/lib/clang/10.0.0/include/sgxintrin.h |
| /usr/lib/clang/10.0.0/include/shaintrin.h |
| /usr/lib/clang/10.0.0/include/smmintrin.h |
| /usr/lib/clang/10.0.0/include/stdalign.h |
| /usr/lib/clang/10.0.0/include/stdarg.h |
| /usr/lib/clang/10.0.0/include/stdatomic.h |
| /usr/lib/clang/10.0.0/include/stdbool.h |
| /usr/lib/clang/10.0.0/include/stddef.h |
| /usr/lib/clang/10.0.0/include/stdint.h |
| /usr/lib/clang/10.0.0/include/stdnoreturn.h |
| /usr/lib/clang/10.0.0/include/tbmintrin.h |
| /usr/lib/clang/10.0.0/include/tgmath.h |
| /usr/lib/clang/10.0.0/include/tmmintrin.h |
| /usr/lib/clang/10.0.0/include/unwind.h |
| /usr/lib/clang/10.0.0/include/vadefs.h |
| /usr/lib/clang/10.0.0/include/vaesintrin.h |
| /usr/lib/clang/10.0.0/include/varargs.h |
| /usr/lib/clang/10.0.0/include/vecintrin.h |
| /usr/lib/clang/10.0.0/include/vpclmulqdqintrin.h |
| /usr/lib/clang/10.0.0/include/waitpkgintrin.h |
| /usr/lib/clang/10.0.0/include/wbnoinvdintrin.h |
| /usr/lib/clang/10.0.0/include/wmmintrin.h |
| /usr/lib/clang/10.0.0/include/x86intrin.h |
| /usr/lib/clang/10.0.0/include/xmmintrin.h |
| /usr/lib/clang/10.0.0/include/xopintrin.h |
| /usr/lib/clang/10.0.0/include/xray |
| /usr/lib/clang/10.0.0/include/xray/xray_interface.h |
| /usr/lib/clang/10.0.0/include/xray/xray_log_interface.h |
| /usr/lib/clang/10.0.0/include/xray/xray_records.h |
| /usr/lib/clang/10.0.0/include/xsavecintrin.h |
| /usr/lib/clang/10.0.0/include/xsaveintrin.h |
| /usr/lib/clang/10.0.0/include/xsaveoptintrin.h |
| /usr/lib/clang/10.0.0/include/xsavesintrin.h |
| /usr/lib/clang/10.0.0/include/xtestintrin.h |
| /usr/lib/clang/10.0.0/lib |
| /usr/lib/clang/10.0.0/lib/linux |
| /usr/lib/clang/10.0.0/lib/linux/clang_rt.crtbegin-i386.o |
| /usr/lib/clang/10.0.0/lib/linux/clang_rt.crtbegin-i586.o |
| /usr/lib/clang/10.0.0/lib/linux/clang_rt.crtend-i386.o |
| /usr/lib/clang/10.0.0/lib/linux/clang_rt.crtend-i586.o |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.asan-i386.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.asan-i386.a.syms |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.asan-i386.so |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.asan-i586.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.asan-i586.a.syms |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.asan-i586.so |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.asan-preinit-i386.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.asan-preinit-i586.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.asan_cxx-i386.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.asan_cxx-i386.a.syms |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.asan_cxx-i586.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.asan_cxx-i586.a.syms |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.cfi-i386.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.cfi-i586.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.cfi_diag-i386.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.cfi_diag-i586.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.fuzzer-i386.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.fuzzer-i586.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.fuzzer_no_main-i386.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.fuzzer_no_main-i586.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.gwp_asan-i386.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.gwp_asan-i586.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.lsan-i386.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.lsan-i586.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.profile-i386.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.profile-i586.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.safestack-i386.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.safestack-i586.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.scudo-i386.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.scudo-i386.so |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.scudo-i586.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.scudo-i586.so |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.scudo_cxx-i386.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.scudo_cxx-i586.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.scudo_cxx_minimal-i386.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.scudo_cxx_minimal-i586.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.scudo_minimal-i386.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.scudo_minimal-i386.so |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.scudo_minimal-i586.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.scudo_minimal-i586.so |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.scudo_standalone-i386.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.scudo_standalone-i586.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.scudo_standalone_cxx-i386.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.scudo_standalone_cxx-i586.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.stats-i386.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.stats-i586.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.stats_client-i386.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.stats_client-i586.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.ubsan_minimal-i386.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.ubsan_minimal-i386.a.syms |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.ubsan_minimal-i386.so |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.ubsan_minimal-i586.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.ubsan_minimal-i586.a.syms |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.ubsan_minimal-i586.so |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.ubsan_standalone-i386.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.ubsan_standalone-i386.a.syms |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.ubsan_standalone-i386.so |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.ubsan_standalone-i586.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.ubsan_standalone-i586.a.syms |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.ubsan_standalone-i586.so |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.ubsan_standalone_cxx-i386.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.ubsan_standalone_cxx-i386.a.syms |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.ubsan_standalone_cxx-i586.a |
| /usr/lib/clang/10.0.0/lib/linux/libclang_rt.ubsan_standalone_cxx-i586.a.syms |
| /usr/lib/clang/10.0.0/share |
| /usr/lib/clang/10.0.0/share/asan_blacklist.txt |
| /usr/lib/clang/10.0.0/share/cfi_blacklist.txt |
| /usr/lib/libclang-cpp.so.10 |
| /usr/lib/libclang.so.10 |
گزارش تغییرات
| تاریخ آخرین تغییر | جزئیات |
|---|---|
| 2021-01-03 |
Fixes https://bugs.llvm.org/show_bug.cgi?id=46923 which causes ICE on ppc64le.
|
| 2020-05-18 |
Backport to p9 branch.
|
| 2020-03-25 |
10.0.0
|
| 2020-03-20 |
use 'Release' build
|
| 2020-02-13 |
build with clang
|
| 2020-02-10 |
9.0.1
|
| 2019-05-22 |
Added mipsel-alt-linux and ppc64le-alt-linux triples support.
|
| 2019-01-21 |
Added patches from stable:
|
| 2019-01-04 |
Rebuild by clang7.0.
|
| 2018-12-21 |
Bootstrap w/ gcc.
|
| 2018-12-17 |
Updated to 7.0.1.
|
| 2018-09-22 |
First try of 7.0.0.
|
| 2018-09-05 |
NMU: updated build with clang for aarch64.
|
| 2018-06-19 |
llvm-ar: backported support of dashed options (chromium build
|
| 2018-06-12 |
aarch64: rebuilt with clang.
|
| 2018-06-12 |
lld: backported upstream commit implementing --{push,pop}-state support.
|