معرفی شرکت ها
clang10.0-libs-10.0.0-alt0.2.p9.x86_64.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 x86_64 |
| نام بسته | clang10.0-libs |
| نام فایل بسته | clang10.0-libs-10.0.0-alt0.2.p9.x86_64.rpm |
| نسخه بسته | 10.0.0 |
| انتشار بسته | alt0.2.p9 |
| معماری بسته | x86_64 |
| 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 | 42M |
| حجم نصب | 225.636M |
Shared libraries for the clang compiler.
جایگزین ها
| بسته | نسخه | معماری | مخزن |
|---|---|---|---|
| clang10.0-libs-10.0.0-alt0.2.p9.i586.rpm | 10.0.0 | i586 | ALT classic |
| clang10.0-libs-10.0.0-alt0.2.p9.ppc64le.rpm | 10.0.0 | ppc64le | 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 |
|---|---|
| - | /usr/bin/env |
| - | ld-linux-x86-64.so.2(GLIBC_2.2.5)(64bit) |
| - | libc.so.6(GLIBC_2.16)(64bit) |
| - | libc.so.6(GLIBC_2.17)(64bit) |
| - | libc.so.6(GLIBC_2.3.2)(64bit) |
| - | libc.so.6(GLIBC_2.9)(64bit) |
| - | python3 |
| = 10.0.0-alt0.2.p9:p9+264322.200.7.1 | llvm10.0-libs |
| - | rpmlib(PayloadIsLzma) |
ارائه دهنده
| مقدار | نام |
|---|---|
| = 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rrkgC4JRZEBA7sB10fP8QnPk3fPZiSOHvbdG514SDOs8FNyQLqdYY2nYQQsIW59Mds0S8Ysf1ZqI9mkUj3GKm876ukTrCbioQwksK3AP0bDbIV2cgwKaRZep8YbZ86iTzgMVybUSr82vIzLJLTSd6y9IeGEl1iAucZm0kZ6uIwIC6wC147GqCNMn8Hp8QuheEkumWr92jsP0yhrIFGfZlVeS1PqiLo9xYKCkWMUVDgVIyRZBTN9zVoyKFVf2RvZBgA0Tpw5qC1jTF1b4D3vNBR0Fqur4B0ymmhHhNHwIWc8yLL6KetGMzy5Wl3dsZf5136rz0qPV58W8tLhkoBruw8nF84fFxJFW2JK5wP4SyWgxLg30v8qcQafDOo4beLKo8HiAxxITZKCOZIefVnF5E50BqpL5ds1u5ZvTsD4Po30ZszbZHZiB58Ur5bmgh5VAJYhAI4RXnTHJ8wjGeRZFS2hwTcio6FDJ4hcOMMsbki9ianD0UMuJnhktwZzVsZyZe1iIz6AvuRQU0tya9R0pL5a0qZoaA79ZsZlutbsLfoIgBmXu12zeiLd19mzAz6J7S3XTgNBn8yRcH1ihfwomOjP1viw3QZsJmC669ZyFHR0J37Ax2Ho1UsPTwAz3EzJzWERtlH1Xf0rgd7UJX3pMjjFk3MuAYsmdyBokpEVGfRpZaBvJzMOYM1iSv2AHvcEZIEgpg3Ppgi8xZ44zJNO1qiOMszCKJ1efd8LKgbXQFs3Biu131f60rTYl2AeWOcTYG4XyQdIsaLuSJGkidLUDSZcWxeoa26EuJzi6bhQfRvNbN2L1yozEe5iGveStcLw9yi4W0JwFDMcYQqbk9PmkgmodWte74ukYeYJ2zFGKHy5foBOepThhZ0Eci1lFNw53fORs0spzD4VxZ4c3jZ5LGM0R3uLIBwQQmqloptcRsflXGslVzujUzyMZ1IqciqRwQFZrkzRAMXWMUZrxRF9gsZxaSGWZvoDomafI2uKAGJ9tp0dHvZJQL5ooEF9x1cNnl2HTjLQhQCmY6MWdfdhCkPrTK4XxZs51HaYkZz5xDU2VayPJ6goC3TOHtBFOpXyN5JO65eRvJd8dulhGveXILUGmwgBUpKruWZ4HXOpvUFyZiJH6AXwTcUQEZxNzL6IoCPRBCPPbEKktvpNTI14lYx8MEtdmGwxCJoBVhnixZgP0oDUyNYblx23Jw3xYlt1ZDYU7TG2A6bi4vxEZihMEMn4sqIUCPA910wWMngF1Tb4xEUe7ovXH5XVZlwz13sFdOZtYsHHCOW1hifa4vM3Zc4wHjS6vX39mvHzxhH5N2pJar0AAjvdbu5WuvGZeUfF1JcccieZ0V4ZxFaYMkMcuLFg2pXBXVUMZwMQNN1JnMETShZljpTnPJf9iYHWeZwfMbSVPzCv11iwKaR1PXXbq8fTGlh4lZ3dneIpGSM1G4rf2Y3ukN3Kmve1K06Zy7x2TFiV4gQRupTrN9X424RyPpFgLyg42Zirc5VG5V0QDsoS7LEdQm5WjSh5wuEJdEvOAMF35yQDiy6fzMs0az2aWQe2BTqOF6SC46Mn1DUU6b30EiYcMi1ddeHoTb0tCWd0Ek7RlaWuIso88Z13dUlo5BC3ZFhQjyMfiZtugGdZ9P5kt8YhvTuAxzqwpSMEqJgwZBLgJqMfdDFBqJs8kcJI2R6N2Nf07GKkbsGqYAVZa2C1K8f0t9u0k9ucPvZ2yggMyj5fGrADwZhJCSVP9ApD8EfZIbqC8ZLthUCafy0Zv5byNueJbk1suHoOeZ8FCnVU8NgolYM5LCrW54eazpBSDUZjpnLf1ZBB4gi40dxLYCwewFff5GJIFZq5klqnZ2pAoWaZrkZrQNZlnA0nOMv1C5n1NjMVZp49IjHbfhhqyGhIQstoPSvFZiKh8Z4pGRr1IP6yPJf3dLjPGk2zO8GaBirl5u7MPd2LGTbAvIdW4tmSu889wqrgNoZElrlKxu49Qocqv1ikoVlIZlcWVLdkyMn0x1HPPkCVS4TGsUcAmOKhTen1Z81knUu9LMZvCjI2S20CkrjcKvsKmFXHJXf7wcZorXFvT4XeYzMy5ZwvWwOzyjsFvMzvXG71WbTGfzZC217Q4zZGuH5fTb7FCWg64kjNnQATgp88anooPCMATRy4boryOmLcWQ15H7ERhBjswJYeDAdTx52vZkrCTARmv481kkN0YOtEIpgVqu9axq0yaeyYa0XAKC7mDS7z4AED3yMhlFtv9Nce2qbUDseVVedQ7QuViLpwmnegVwznwDSgIbV9llzg1Kme94MacElfJBuwlBHaRZhn33AKhg9uYoeWVFXSe332u87e8UygCXSxUUhvtiMI0qzhMhaNFPLNnT2KaZvPKtGpZddKTQ0yQ3XF5hTE0FBcTHs3y8Zbj9xB7E9uP4qGdAO6wgxrcAiVPVw8bXOI0ZiFDtnq8ZuIvpvkt5VJLh4pZrRFgol8NwvwMvQ5c7zSi9nOPPbzzrqCKZGJGKfOwdygtucBaV1y7NWtUzv1g5cySg8mP3sxAr7BahjzJTdsfYOuDM5OM1rioOXkSv0PdfFfwhZwEOhVkqXVOOOTBkdDwqKmRR2TwZiV6JpXKkIhS5P1J3tk8qo1yCnEkVmfpURyCv6ecc365ZB50QH2F6mP2ksdeIlwUwKQBFXgFQObdwEImNUiZBdiDp9Rx7ZbxZdPPcfk2s9ER2soToajjJa07HXxZCve9X6Ail8MR97rzxlvejl1K6LnS9Gqn7yK8EOlcCJLe7RMbDeA98CNNd12WIm7G7A2QeDBCmXYR0CRouxALxRI8lLriqq17SlquGJuAmYDIJwZtWuIaiQWhFP6pONHrOBB15hd9cfI5V6GoCucMCBmFYVJpB9OKzcqz2hOvbhc6I01LERqiw8VWY50xUdInqqoVI5tmTbRzLC4ZAiDxF0jA8WXtactKlpqS6SRUl3xxgxTzM4wvwuotwe55loWztcV4i2NN9R81KjmfOcZ2Zzcn6eqNsZAAmIBzaP72pNM7FreBO4PjvL2gncWP27s9IqwvRWYgcB3TEVZpbhwKbc7JoC9xvOGBVX3EoHqVJE9nN13rdn74hCd9xqaPgLjJCZ7y6l7cedEvQm2SluxNZdUq0tTWt5ThYHM7l9tOZzBPAmTTPDr54XlmEdTZuKB0u0RhEBS6sUKBYfxVN0Aiq15LdOorGwnVAOk2CZ28OF13hnh18aXmwxgsiA7bAripz84HtO24TkbgvzHjFMGc5sh9qCo2e8MVXtM3xGmzzpyH2rLlpaWqgx0ENHIcpUASjZ2nmMT4T848xaTvZzjCUdtaf2WloEy36CsTs1CGPTtq8sIggZpHEINQ4ZsydHkdzwgWcQzz8bbwrV0KQa7MZIlYLZc4jPmQrNo6XRn5SMTgq1zJuMd0ae4tSwEolOZ2TnXnQEV1Y3Y6RGMT2fgWvNvV2NLucsShc279tht15Jj74TvIRaXQs6WrMIUxlW6R36DxEIFhyaLOtt2YDw5MZk9h0dcCHKUcFAcACKajVDohq4Ze0Kq3cJvQToJkTrFpYU14G6ofOJNbbdo2M8LnilGJFF8DRwkr6yL64JWG70unxLmQnZdZv79GtsvEVePBfkDvXbc4BBqkhwI25WWnCNSiBzK6oJP0ICjYE53d3kcOk7CXL58fuZ8VGYLi2NeTxosr7DDuHFg1zIFYfK8p1QOaQC50v84aUYKb69iK7NeKcEhZ8nnrF2hyLZ0wrtCNsas6hImkD5tX0L45YbgLOMMdwgjAsRNi4UTWivne5TX6d0cKgawsmq4BzBVD4wlGcKNwjy2bofzJAIMgMrisahggiDZe4pCINoZazyAVai4N2PnxVAaUCy33c8r1DAFYjbNXiHaRysFJFosQljaZ5e5qlpZqGKQePxdaxh4D9jb0nzYti4DyUpYepxR5OW0aU2a1GPIm3Mq2y88LeZqZu0QmtScpEAVxaLm9AAf6z5BWxs3ZA5vAg3AxV7BvT2Fk9P9L7pAcv9bXmckg723ISxs3314yYMLKlmw9opN0zF4f27CTjWBnO5yE1LRBkVMcGjAU2KzcY5QcUaAZimls9GUQGJdOOe7CBcIoMhHquDHkJuKDRZfLsxElfdNfAFnq55gcwgBOCE9yKzRyaZuZA0h17gxEf6pgMl4ZGV4jpseKTEh7Kw32v0y7SqMZfWB639B9Zq1k9NaFkgRh4vtR7EMsbsqPVYlHXymYufMbpZLdNQRuZfhsYYJpjhxgNXawl43ZKtZ0Xc3FRSoBOuvt2QAbKzIi1uLwhgykbRkKPeXZ7LbASdxZx6OBiqk5br1XSLp8Z6vUaPgrYynGADUEG3dpcbr6qBKbWsvsBcAsSJZaWZa6tin9W8Uya8sbZi4QaWNHrgTErrXtMx1YXRW0eUaSj0GYA891U8eCxBNvOrLkE5hNEBGl4iXw1hvjIpTsqGWcOj0AFzbedQLTeKXxczCwZk9LiXpztnFGXL6uHxDdKJZG1NLvjSxVT4acghBAgYPC1yDhGg4PsYZqhC1zolVWAGJD8DIsgXYvZb6cXSNZ8aQYGcGymsGyz6u025pDR0JEN4GwdvJ72geXLEebgAi4WVU0StHcp4IaakZG6z7aTsNm1eSgqFH68Y7kGZGnsNQnVnWsVCFkLeg3R0zdzNq6xIDYlX0U55nZiZ6jqtT958gFq6e2dq2D3VdjGszp5xckMYmc0EZjlji3y5y8ayOSGtdS8xjLZrYGEX1vPmYBxKd0vSmykU2B0ybmALBsymbcLIi5gImUM31rZrirJfFG3wHcU8wRRO6oz29ReExxqw2wZ6zczozOFrLrh2vCAVoqBhl5sAZwqG9zTGn4klwpAKAgzMQogsIHZmn7ZqAo1y2F4ZKQ0evZrWoZbUEAkiQCBGA0G9IH8LdW6ckgtbjh9h84j2ZB3lZ7qelmkOvySX5fdvXwhdPxkpxHZ6vRfuVSBMwt9nGkxBbMK2HlAkIL0QIfbw9mXWVzpxdrO96auQWBfoN96oIWtuh6CoeDbW1md8hZBm36XB8jebZltYoVCcSwqSVl7J82y4xeJ67yL0W2lmr5GmUZkzZgUMoPsnpEZgg5QLAZf7NifJYkKt2daZjgTI8yUZa4RSdH3lq9JSzuF4hlyoohE3gDa4E3Qbvasov6cQNzl8sXlcaSwJafE4HKQiLx3oPXLqhHGe3wuopSi4UsyniVefs1Okl9HhUixQMyPtOI968c2zQirW4LkQtGhx0qp9QG7cCYZ8bbRzvKmBlwBbK5x9vLOWJzU7OaOqy65WV9H5oNZ3iabZwM20oCELBfolSyVJdyKEcee9pUOZ7BHd5K7I5gdGYkciv1fSZik4Fofp2V4epwK8fBlSL1dGLqNpzKUH3Q4H0Dy6rGfCSIyaQShXZcnapEe9OmOEWauzZ0BxPZCCcJWjo1geo9ggoSe8ymTopJHyS3zD1C3lugHggqDCyukn1XlrTfPc8ZgbyyNG7HGFIMQ7Wjv4YhbgQZctXw2ShL90RoIGFuIHg0xtwTZmbzwVwZcvm17SCbD9ljyHVs352iuwnIhBMcqj6HUDZblZ8zHB3Z5hI0FAshgAtjJ1jNtjFCB88HZaB4ihZ34g3cU5Vma0B6i5Z0bPAbyZnzM2Cto364ewY7ZvcGsEroAvksyZ2DsrPIZkZybxQohtXVGlz1bCwV4AiZAbbgM2tVgPZEmN4CSxYhuZzrTltVeDHutjfaxwe1Zm59zpdTOzt6OjYi2hhx7jf9bT3MTUzZsyrPcTpQREeibZa8S7pgu8RNEZFQuO3yWKc4m4eVEGsBMHl41XUDgU47fqk8QPXzpXrw8dWmLncWb7LTUxGnA1ZE8vhrZKdpTc28Z0JzhZ06S3EZo1wwZqvDAGa6POtdZ0HymngvZeWN4hyZvijVg5FpzqrCpdGgiZpT0F0CNZic0r6Z7d7AWlvcoxcIAd06hi0U1ctYL0owunZldj9e3VaNbN1llFetVQJ7Rr990Mh1i8JkzKZeQpvsErMaEDghJhMHSggGnwty7Oa0IwQJc9gCWm2ZmjV05r0bOXUc2D1absnpliWyU9TFh6r1VpAnhbbxwJ8KHL2MzoJ4Bj1qj6co3f6HfEr5g5rZDOi3q4LDe6TpWnBC3C6RfbIgBn9WNegZmpUDn8XhHMRts91JF8q1mE735IWjNVBtoJkDCTrCyjZasYg8hMFEyjk2mclfuTllRONwCn71KTH1DLHn0ZDCGorGPrx0DDdAI3Pe2ZEanw5n5S6AgfC88MzggPZwWygKTTGtyYTfUSBeZhJfrmyIL55610hYHZ81XYmm5jElZxBZezOgVWOartF8uqyHmJsylccaI54WTorglD31HiuNifuXXgLuN08YfJrC02sMZxUK81VggMHMOUUgFauVZFlkgudoJQwVZpXX0vmZiiYOqYkTKkjOVyapCN2EyE1Z8wX9bcYPsJCCIc1wkKTDC3ZbCUd8VBZ62b4FszCpNDdEzO8UEs6dVAVyrZp3ND7R4Bvu7J5n0OlxpZFdc6BFOnK4VWwbbCuuWMhRZryhAAMsu2KW4JsWZpCSA84X9qx0g6dwqs0Nhc2LQb7K3X40jMc5OAC780U85OUKAyxQMMpnGRohpQ131wUZ5Zxi98btK3w6KiLJJFdXXk5BhpyQdS8RWVzU1YJgAQ6YZh4KliBIALz8UdGZgQcjArxDKJKziMokQaGCeuhdJg2kgP5hCk5vZsBQqKhZJwjGZAPOBhaidBUJopq4fyUcMyXfKaWPZvHCcgCHDzflDrlF6V9YMU65XazmdV0wFDOrPq1OlFlGYRyAzSkZyWXTfZJ4to3k06WNCF42aE1I3Yma8YcupRKMnOyMlbt48nlZ1W4hEDWGuWKRoTTm4TlngGUmpcOGZIvpRzijMosiVUAME7tAQoZ9ZG7c1ZohKOK2HCl1NfYua67V8TYX7lLo6pcawWYzpzf4S6Hw3UZ0HNG4FZrqMfMgbfSbS5Z0KbI5Fes0ovNkFMgRQyVlpPxP9mk9183BZALcr8pNiwP6RYkofbSOL0DAkmE2sUkrEbnKww1cqBL8MKT9ZgYQknWe6e6mggdZFyaqdWh0V8Lqq8CU2Gh8HIKODSWMSDQCfJoiikoi1Yo21t7Kp8HKZ9mZD3ZzG9Zjk0P35l0LE3as8DTTPujPQDwVVZxElQLfN65gTOvOH5vBCBvN83IJUWCUX7KBYIqiAW6xFsTbO24b2DjcqIrdITCQlq8ghgRzqkQkZ1IehFYmlBgozfbXLTS2WooNGOSJ2326F5SFMbhsZBgqOPZ6y84A58lxZptRL68ipSUbRF5duwXI3sC8EMD0dv3XDICJTpvqDuktFy802goGlfCDg8UFhfaDeZIiW8gpxi4epbnrxM4LJZkzRgG3R6rwoQVC51cTVi5nxeQ3uVO6FgMW2QZtFTnZkMRigpsN9qmPHgcUGKrOSK2SfZx9YIWZH55ZsYbr9WhcpVSJ1PpvaZlMaGnmv73u7W7bbIpUta69etiXBdegjHBjqql6gb0C2n0qPoVuSMDFQSVmUZkisQZH927aUlshQniaywATN5XEZiO91aiR1C9FHktqZGhE0QQQa3YX3nNGg0baBhxOGa1xy7xCZCyI2MEolU1feBhTfIPQSwj6Ao1QKIe0RbbyfvangcMeZmSDVuq8ulMs5GUvZkAgAmweSE9NBwB4u3hcLfyEfLC3go5mbSje5UJUhFI8LH3Zp7nKTpkZjw9NBBkvZcMtFZ0ONYOqbZf4dmH3H6aZ2REel2Wgxr1hKYk1cOSuz4WQ0aAfIT7k4ZvIKZvZGp9muZj8P7xKlZCTo3x33OBfHM0ZCwAZhHIU4d8Nyq3p3pyEF7bnOXSi0uR4NSakOwaBfZ2ThTDaK34EXnvFfjwBYrN0GQLcmi8Gxpeh4TKOV9mib2rQZrWhrwYR24BYZ6eZ1mu3N0py7iFxRU9vtRbOX7PMpXtXoEpeNX3YEf1DjuEsX8DY00rxUqSHTaMBLmhUs88zhwubXlHQSj9t0ciDMjUObExblGIhdo6zzkOtF2N1qoAgxKwa1H81fmPM58xg8yEwcypsX5RvybNzCfVA8upRm1zOvGa10Cvy1hUISbCG7Qp89UNCXv362AxfjB3zGb5zHPeSkB2abahdEUmO9yqFQG2B7RZs9itKFzuynMcBuYhV2pk03OIwV1R1Nk01DyPcEMWLL7B9JZEezRXeoRc3oSZ97Bnn1J9iA1ZD5karsCPTrV3a1UIzTWZxa0jToYibZn4T8mTFFKsr20ugHQ4AzvOXIdOWff3amfZGc2rCreCuG4cZK8CVx4KJcypH4blE1MfduavYlS9nv322LdtW2IuPblgL4bxC1PqjDo4qZH0GrX4Q7igJ6gkQv5tJIooyJkGM0cHgdwS00cMjg7nGkscQ4XZsZn2ewh3vJobqEheOqCIh7E0HE7wqltd52aoegWtlNTkg4CG6zSZdQ5OXrBUvxcBRCpP4OLmVIrK8IJWeJeSml9XGMSIU56w8hHZmlgINRBJ13nCrfgzYfmszo5rmza2WeU8NgnaZ92yJh2Zlh7Oa7bEoynlK6DB2hXjaygjVz332mBI1HfI0ohOr9i14OBFr3jfe832EdBQeX7Bmd19G9vADsEPZBxIj360fPZ4vZDcDOCPq4Vwaw6MFYeb29eZg9PZ9lENK2PUzB5aFRpUZBpLBMXXbSiOvyXZDpDF6ZhZuk6BD2rCxppCsieijZolnWjuMnQS6BPSQ1SfSGWZtnYqpZ1AfbFpG2P8a6J80MP3omA7nABlyGacBczAEjU3YETOxDLQ5ZF46pE5ToLdUWVL10IWXDsVLe9bxKZ1WndJuaCBNE8LBjTCu0t3wjv8EfKUswHlGwCar9NigqHlvkQH0al0yRzwZuZsHCwRvHMbQoEQYQUvETiLjVsA2zcCZG1hLJ3qp6g4DXJ49X0lanPvCs1cB3GyEdps66s7gW0jlZyUVZpoFgi5oIKzUroCMCDaZ1iubr1RUNeX4Zeuw7dyJDfdCIbdofnf4SfX8qFKbD4jdp2Qg40zpidF9ZH9G75ZiGjAi3F3PMWhw70OlG6ITzI8waSUAK6me0ty2kaZBNLER0tITxy0i1qgDyBxBW2KWBmLzZdXtwHWO4dePdQnVUd6req65VLmZ0tlgeaU5atdH8r7hmJBatcT5a6SoZ6e9EnPB77LZyF9aE9Za4B3xnW0L68thG8ZEZmH219RyAyug3WNoaoVF7IueUCjAi2dX1bZ11Ln0FOHwl5CxyoxI1OLatwIwV8Tbs7e182UzXKDUlrTFFFqaeW0jCO527ZDIHn4TFSHdvtM8815TWD5X6rOVOn7KpZDZDe1rN1rof5CayZ0VvzCHNgZH2U6FC4oMZgFOjE7zjRuZwlELT5a8dqD19Jg7EmgPonpB8xIU9HfTCQqUxq8I353t0LIMf8vpMKnuoYdX6i2MI5bBQC2R9wIa1f0GoUhupbvnBb5H1pPzK9ZlogkFncbyxuCtmnoFmUTGnNmvC0Sv5trkcpetn8Xcjp8YgwqNl4oJViibDAXWomUFLaxlxmKJGS2DD1VqtIawzluMRTP5an7opC1Eny12rZ0hJf1nrnZ8RzEfELlMlEh9aywZqMzNBx4XRf2J5VBp9QXo8IdBt8WkRpE5Hz5SEsl1XqXyZ8I2WsmvKw65jkqU9P3hbJi58gdg1VNAmwFnZHwpmOlkv3J8dodd94IWJ6cugt4nXwhxF6tNcKk43pHzioZhgV3Cz0fZ3748XqVoq4ydLD5Tfgv9iEZyNB9AyZGJekGoJJbKw0t721V4ZumHpQWy4hOFlVkhpEMhO9E01nSgraeFiQ2HEnl8nxJKG9SonOemIHR57wNcwW1kEsZeHQoosZu3gw82UCuLzKMbd1zvc2frXwCC3ZdZ30M4FsRozrfxUJ3A2VTsydki0ZxDlH1cxort0sFkDgX0jzi5gmGgnxgEvAnTzOjtzxT0rL66dumYKb1Dr8tAp4XNHdauXcO50mb5osAWa1eJfNGZiPqzDaqA8uq6tNHxL4GmjjRRXXS6XkZpWey4zUSzJbrVSZ8cokyEbA4787TrpxRZ9oOwBoFqQtmKUQc08ZvvbGRWqGUUM2ZHzOz2jd1C7cNfpkgepVde6z8JxhTSI0QDyfZ7aICGNFn9z3XZv6FdMvv52W3Kd4ZvqN4J5jy14B9Zoj0OEtQbFpmVUGItIuyFJHF6r1tgulr9HzqUhsrVZ3TFVxcE4Zfdbg6Q3pz38ijKZIMdYMSHa7Z6svdi92StudZbVQpoCZqjz7Cab8p4rrGZC0fY6k4ZfGJ2CJPj0SauzJkxk22xqW0f5Z0FERbuPP8ILV63QrXsl8c82r1Ra1D79VN40txmhMYoiZqdYEF19Ngzlx9rkUZwwdaK8nCafN9ttoFhmi4pGOHcUhbzuiiBCF2LonTFWDA1yiZa0Y0ue38qx0LmlcX7sa6C16MnO9MIDAYXx0F50Y5TVjstPFio78Xb4yL7WZ2X8JkGzTEKn1aiLr5KAKdbGCZFM8fGhctgKilW2hZBcTBI1s7cinKVZ8dFlZrvvG1a5VAX0L4DeBEMXa8UZ3MYWo1RijyfNU2snrae3ZyQJT2cDnZJjdi0UUC5qywKpxEsnmxCujTmapEZLHX2QReVZu0PyoyMgJNB3ooE53vNFZqfDHGpYMOzyNLr25EE7P4CY91o01FPSZwD5nZ31uWZukSaL1JFgzLyv55ifZjgXMgmtgnqce8aq2RTPek18bFDdZt5wRPXzwAT9IvSVAAmKxwvRcOjuZBbeOt4KuZKF66leZD5zVWhkfxAkZoJsAn9sZzzbKaWggS18WFEHnSZhECJ3myKc4gueq8v35xJd9iDPtKKE9emhQ6L0yxdiJAoU1Vtz5CP5v60V1GzHyhFEj4tJEWTGuun82ENYORmFgO82EFFoUeGo3c6iGpafdipxZsKB9REHBWqF7Zxkgl8qnOE8dZq2Z671Z8e60WgRcG1sCaxlevEH1we281Ct0qfqZcAqPKl6IrR2DmZ0bkZcz5Ih54j6GeYW0Q3VSxy5xqgL8X8CMk1tRfwzTIK1MIN8wJw7MmkB67aCPYwzS30s812Z3nn2VE0YwdreMZBZki6NM1O5z2esvrfxeCsITnlMiKzUTTQOZxm0oh2MPxCOHTHgoI18EQcDm32mMTZdy9o5W7k17mZBqMJpk8LQfw3lvWMk6XWHMQ1x3EYvxn6gHHbimaDKBMC2QXuMmyW28DhYabivGnMGebYogmrxRZrNos3ahBWKixcRSorKeJ1NNnXqMSp1doo07dumlj3s2xikoth4kiyZmSzsEk3l1kfmrXycOSJOIt1aD8zFwFmUTlzlZ13WoQZFVSMOxIa2SchA0q5O9NdjOkOFzRyVlInZ6vVWGYnqeZovdyqB2X5usAeuXsZhbSBCDuvIc3mMVNC5wXFvecd0YrIsMYv0gcEINlagZAWyjzWbtQ08U4Hxg0i1dYnU4sQA4RkUc8cE0482REb9ysYixoGU123pvDc35Ps0cB4fdG4HMMRGRP9bDbP09XIfWyyFkNi2G29QL4ZucmJTKSkWbmc9j85g8COeTZFMAbDUQgNZh2qNb2y81QxySdG11JHbhtpHSA2ULuQZyWxbq1aBmW8YgN4FzR0Mfrnt2goFLgegAIGwh2yEiKwZgJQELqoGZwGqLxZoHIrm0q8NLn7f631HRVPSPRReM6oJy4HXUKL4Ct1JTZyIcsQgxa1JkZ5Ut04p6ml64n38uYDy104IWZsETLKfvDhUGtRXNsFiB6CY2EcryjwFGzEwfmjO9llbfc8OL323xbKTCcULySsICSTl0Y9eq5OClbM7xdy3dcJCBbpsUrsZHBUuVUW3MTbF4hvYcfkipOsrkZ7pJHMCv04SOKmhipiuUBTSMZASsZuXLZxgnJ9p2hJtS5MztZmiaZzsIAQAdEGO8PlBjnJ9ehoZIUDEzQ0LKu4gzBa6NElwSw2RVzhX63hLz70VFjKKZniJOLW39zJiJQquLAUN4kRGOSmf5TxTejP8Hegwq46C34utAsOFg6ZtPZpvY9lOBJRf3P1X2fDCnldFZE30Z2PlGbEtAWTlFcXLiTQeFxAdyMhHHvOrYDsFfNi2D33WwNU8YOSVrOKoQGbhUd1Gzz91kJe0T58NdImUB1pl85MztfdGU08Vtq8X8vtcb0iwZt5qF1JYzPjsDzkbuluJTIShxHTZlAfycbSQr8zrGaQVU0TA0yRmrw30t30rkb7tCm0bS28O87tGfnI7SwcpRPlIFF0Jed6B9YGFhImU4Dqwb03T83vn4lqewsjGUQGKuehzeYBLeOZjwyqFey06zbj0KGxDyTdYJc6Awu04Zfqm42djBnhnsynkd766iBCisqte8AIy7YXElZDnTDiIeLG2SdN4RSM7ycPfZB8MdtbXPAPN1uCw3m8FBdnAVVBaXU0c68AikK7JjHkORWN69lQ3Z4CbGefyare5h4YEHDkkV8oXepUZ82wo2WT9om7tziAjBKyJWC7mciZLcd64V5nWzmk41ExnDMhYVFbVgsr80VFZ5SEIRcUl9JnWKgKOy8IhUHXF3xH1BDJfuIFrlBINIk5etfRtZ9v35giEGnnMLT5QYxuyEkJitzHn4UuCjIJZdEKCA74U2zYJjOlgfDyL8abyiDWGotuxbAZAnZv6zHQ3m7D5GZlpoO9slD85ojnotcxZfjrZjCmgljsfkEJxgGoLOFYkkkctZCIZKbNqUSMC8QTSRHOEkC6xTlUi5Jn4QcCC1nYQ7R4bZJ4MDBzr6VJ60Ecg04RgkFQBXLbG177lc0YLR9UM6f6kwzj6765wtj92ZhnQBqUZE4SFs4Wens5KRZ6bUIchiUZCRWN8ZhT26v9Zbauwvf2v92zHaZK8462Ti46dZ2SDsshSUStG0faNyZ0GiSlQIy8md8ZknqYkn5hMCwpCLoWoqMz0HwZ8ZjZuNdBZKE2wQBpl3WvsWixZksA9PZvEOetuUZp14H4J9Im11kAn3vyf833qosjnaWf7go33SuK8IMeL8ApUFe12pozpkKNKM2Do3gKq8SAWnhR7KKoAxT32Ez9jmNoWud1Tqj8T6E29Z2ZhS3giqr0ih6HKNgDdp8HgvMC9yQks5oz0ZpAtRZ51167JyCJS02m8jeSnMhuSPtd7ZKbL8UASjPUFkEZit2DhZi0uZzRnuu452Pu0ZmGYNZkG1Y4aCEmy5xyyMx0Fzsp1KordOq6niKfHZ24rR1ieerkwLIWVFbQUZt2IZ6O6DQuf89Pu9mkR7NJc8mvzEyrzS1Oz1UPmOM4MuQ0TfliWFghl8uictkDVnZ96PaixtLHoCSBJbE5pvW0tZ090BzbIzONB4QrqtVX9PMy5rZChlqqmpCLmezyG6QNRgWY5e6fgDYEQB3cB0FffZ2VEZ4S2VBbVJxKJJy5cVZvdq2eEqhDJS0tIfd9WvlcBt9jfX0l5ypxBpZnNfopUcusEiMYsasyCoBRyODi7OwzSkAmCHVK7NT8kGHZcSZyplIH4soAdZ3ro7mhrnrJE5UxUTq3fzMqROZGnyoZkFISrreEb2Uos6Y9jf3CyrN07GAdE4vcjObGBZim7nXyPzxoE14ZFNKYjug4nlaqb1icPxvwzFYrXdsNo3koADsyRfghA3zL791oMShGK7LZnd3vyHg6zoNdkkMJvtJlE7sumEVsh1Tpw7kFpR0BS4zW2P2Apkg0MK0H0AZ2hJ9HuRFG15y4jkqiZ4bXIegO0hQkO2P5iCZoOLIoIjKkDZ52kxgnHa5fXZwbdRM4Fo1ozHSBdEOkG02yJ8j3Hcd1rdduRNXFOaJG6Yr1aZGbArpQlhKXV7byScheoLOtZpIqjTeQGsiCg61oim4QpeS0XPwhiq7awWhvK4o3Zv8K7RsiqkLGuHETOCelvITZmqvhgOx2BayNyt7Jqs9sI2guHw0kmPl3WFuWgmFkV8MXevRGc5w3xOQGehCQKrs1C951j2wzCBb1BR5CEJyS1VpR916yVmB0ij30hIj1m9VlKyCmcLEV47pkzRwofdF6dFLSCganQFXZE19UZv5ZjhfbZo78wbIT8JqIrX3P5psbnXpvMDq9RcObnWtBNKYCqKZnZiz5tZAaq6lu4tZenYcCbcEIKTV4ay3ItF9qWczYSli7QgD09ZyCtsqb18DpLOQJpZaH32IYGvcW2g6lc5a9UbyDkuy0KZ2vZifuPMItZAd9uTdiSsAIu4B9q57Jvzk89csNIvLApI1PagH5s4CgZG6vWoEm2jZyZ9VCd0YOp82XS0Gdzd4Jx6wMoL6oAxT9EDTDf7I6byGkZ2qAtx61eW1l4UUwdEgeclRnvEMZK2ZrnW2UEiSjHxpEqLOGIGlBDLmHkdsF4NNzFHxlAOTY9abfDXO6Of8FAZc5Ze0Za5aC9qO9mlqz0SGZdkb4cK3apKd0VrMPPO2AaTwjqJvVasYO0arS20QxFDhuPtUoxchjgkZfcGVFc0bRPLk14Rq3g40QaA2b0ANnrQOm6YRZxTawAxr8DHQnNwSJ7qHZkyPofCIPfwq2Qx0r0EKAin4A8qEgrA23Irk4B5763YS0gXI3KMg6rHnst5hZ8KQ5v3awZEwEpiJbU1u9EOEpzmltFkxkSZFBVSPti3gYxHk1QZulgFYSddoW7CFyZG3QPEGtkaPi3sR3nVaOekRaXoKKf6ZAFzL49Z8fDi5jVf2rhxF1cQM3szEH761F9Hy9bslno4ogxufI9eeelZE295qowpyrcQLlpy2EHR8UuASZCWZ8kDLIgEZjXJogE8SFDSZ95n38BrVV5EgYdoZjZ1WZfi2fGa6b56sDqi6ndKW8JmHwZ2ftJeV6xbZCEeA1dRmSOemK71AFCqoNkLpjsPyMr7DsfytZl5wUNFdjS2PJiZJHO0MG1wlTVK7wlGdLkjRznZ5iEyDvQritfJVgk7vEsN0LkLczOga62ie4EzC4mULxu7o9W5H4wBxYFwJwmfohVb0bSkU61fZzit0MmrdOWlZvJbZGZdYzVcL0T7jCQJgPlJ9BbvxcokIfAKcDFZ3DyQp9CuDGgDIlZkd2UTq5Gj9B7cwVn4oPO44E3DxIPZvZz5SwU2aixC4dG64yU77ICZLM9Du6sfrr2ecAdOwOVXaGmZ1dBy8G5HCL1U8Lw4RwZIp2gUAPLVaHXNbZlBeXMMXZBVPdJ0K3IOegcrDWichZuP8ZKV8mzd7HtNCLORoj1wuyuQV0qmJOQZlIeykvUdG10X0qeptBrfiz9Sa6VC1Uej7MtsOFoKaXymciZqurq2nIlJSAegztsiYZhjfmwEr4ejrnz5df2q6UgFqhBkIpZ4X9Dt4mZmqVMC8LgvDKvYaFX553b98nZxZoFcs8OmMa3edvgnDadyYoqUxfnDxx8r96QrjcmzNZ3jCckny7xaRjccr80faC1z3k3a4scS9gKNy0wnkoEXkUingYWBcrg0gq7wRDAwvWTL852S0eulAfxnwZxgjRqX3Ko0p41fDLwCu3sT6cxu3N13lHcoZo327NFQpDt5TEFe9THVKCQVN1yePk23RopoLZpmmjfzGmNYp0kQLsZux9DSgHVvpBn1kHQ8DZqYljSRECh5YBxaZ0f5zFGS7jhm7kosvQ83uvd0hR36W6Fk6atHQ5IDcK9GHCQX2Il8z7kKLaS3yvHmh3SHOFb86lPz8E1Cyn1pYnifSQecr98EAkVdKysv7UL0PMnY4zH5gv8PlVyT4SkhovIKveUdgcaXUlF7Lkhk0MSODKTz11M3kY7LAGD5b0rqh8HxwPgEJVQEF2PHW33joUAposNru2ZaUE8dxTW1PAp8llbELAoqWO0AnkRWdiUp6BXEVoXpc7X8Liv0Hd0DC7fAeIPlSHxuyafhwu4aVSyQr5lapDzKaKlrz5Q8Ia33CYX84mooTncoZlY5JbDZDgqoxEQ7WH0xwg2b4paOqhm54i4CBEWkzEpFS88NehETB0DLwT8vvkeGQznZnEVAqKcPJhAzOXi7ZIQAs1kYOOYFPZcpWHZrlTPZ8T3OXG3k0DdboydsH8IiaLq76KMr6CkPFKPNiIcKjj89rIsOZI82VZkWnELReZcqG4AN8P0ZmEu02W0kt4bDDhnb8uDd0x3aoiUnmGR0cshTXEpb0itruCnJf2SkycQNWYFdjTk26zuZnwZxLN8S1FoCjxk3Ivb7C2cSsvyu9RfWGzPaukGj7ng1xA0gSgijWJ6qESHS9NZuaDQTIwoMEWLbVeN9Ckky6Se9E3bSlvKwZ8bZi7QGKl5Z4QRdfIpxoS5DybCUWMx3UTSvxO936Z7aognqipq7NGKQZggs7QaEWbO4OWMe7nh2gZ1N9nI4gS3nmqZmRdsuAIYS1Ffbz8U8c1IIHqMcy2GpVMH4iPJAfK0OUlaZB0ILPi68BZ6CvA680ZyiDkq0dzySoQzMaNoUx070PYBSAxPw2ZrxLYbCwuQUw4piZ1ISKwpOtQqo7eRIogydjg14MIQp5mu0Sn3slYrgNqLhr46sEXYlEAFBQ60Uxpagphv9cuN8XKPY9QJc1W6WVI92TdnmpzMyqUEiAP2cl6XyhwvyAClgsN8Hi69UCQKzKgfOxo4AXuT6aK7Sg11ek5GExG0Uio9ls9OdANeD8pQzjvZxfCeeogEqAeY5JRFn4lCN3t3ikJJ9H7tEr0G6Qs7ehmJNzsI0HhcuA45zMdM2dXR7725a9dJpmWUZ9ECuZeF6zZICK0Zlgsvn1B2OZamVYyNQKH5tUfi4bGzTYbeYj57IvlwvaYkYX4hUjMKVvPdpjotPj2HpBbjtR9VGzUHQu5lPvE6eqGybEN8ou76iSqICq0AnWfahzOEMmpGctJDaeOygleFQbgRoiGTmg2rmydDeNyU1FQKrL8JnOj9HzPFQw3ZedZgFzGbwfmpS9BskL1IhL1lpa9xH1oF2gu1ohv3ZHXNlflDktksLDOThZekex57LzBnyD1U9FSV7GVpAf6ZidxGxQnEim6qLK25ekTpFFowhnps65V49kTyfhky7Ay1LhsPW9jAao5yleI7m8Z96uwMSu6wv1y1Zoll8tY7bd2bXeYjmqKMg9BzDQz0AubvVaUGXvK3XRSpnIZlJZ4ayRmdUOXZnNY4PFuZgylTyi87ZHBBsh1njVWU1YGdIQZa33oApQt4J2lGGFXAsxPr7503u0KYmqwGDfHYnZeI1IIQZ86Ka0o2au3ibEcTGl7ImMmEJ8WUh5qtt9ZsQiE0lYBGJjEBXcoX8dzzMCFXk7N2xaap56VRX2MTjz2C7ad0Lz19PBkCuzN4W5he0EIEZ8O6sqhtEsHmycMllz9Hx6ErpUJeVMXZkN2FzSyN7JziL3ZjBgrHmj9b1PlIqU9tvTxzyXWJ3ehZzQGk31VGob68JW7ACBiAVlbP6qSZGMfR0Fm0z8nJnaJdZloNTFZyaEhnXsHEa5e4cpgkuk3QL0wkONO31oT8Z3lcBWHBM2ARIICoIlumDJcLheSvEJ8XKK4khVrP044VKicgMgYLiBvaBFbR69XwP3jiJ951Zn4vVU2vifph8Kd5Waysf6gs6q0ycPyxj6PJthP87CajO9mdPv2GgzewCZl5vn7n4SmBUtJ4kszTS9MAUOPWhhnAs9OlUSoqKoInm0cf7GPps3G6ssycIdc5I6sRhd4BOddv1Pn0kxHNvQPYj8iNPaxZAagaLscYp0Q1Rl7krgjZHPVzNXMOO66iIqyPO1ly8eo8w6FRVXFJIJwmiRyS0t652RNv1HvhZnGH5oLuGMh3eVdpXh6nxmVdTqdxuFOtfF257XOA6EIzrjIOnjn85DpYv5KHTdedAHlW8aciZfbWFPZ814EWKNbW6HnyMUKUVZjnTVhZeFIhp51oy8ShQMEc4qeXKdOBr3ZzChZIe5u1zE9TNBIQv1Wpo6I1a0YSBVnrYVLHzloG7miIsR2eGGck4m5ZJAWwjko1OGlD5lbcokEPJUigkkB3r1nFO618c4a9Z84XpywLYSM6yJXMICdWTy02wu1IndRqHNOHlQHgYzayIZd8uVMREkdWk7gIGt920jdEV9ZjCB1AGjYnnNbV2EIy1Bd9wOKBljHiDusdNFNbc8XiPr4n4IXwv00L0V5tvNJxatF8ys0oF5BTLb9wQoS2LpiMtdkziGpxZwvYt9VdNPyauWkLW0tirlZttS4FMXp48aeMgjbSRbodQjqMiHMpO458Za6fz4ilCzYDXsBMmGII7PaxuiNnAfwUxNKz6Gg6vEwM8IyYjQFZuluzvLkzBehWs8mMpwUHZ6dR9cZzBO7M6kYaTQsxhfPysEhMOGBjjjnUZmB2rmxLA25X053BiGjdJIZf3C530RhEe06hFdxcHqxcyaPOSExNJjvS1VRXdIg2NMoo6zqgEMvJYUOZsKOfB0qXEMO8PJeJD1srhqRkOUigQ6MRar9L21UMFJg1hIxazn0EbUmYUG13SDEhrfi1cKYNZnP3S39zYfc8vCewn7bY83AwK0mpEy1mvkFklqKvxtFIhMIio8cagr9VgRy4xfwDJwdiXZGxMPhIkfssXbZaoOa3eWGx6fwelVamt7v3Ma80OytaJeSMKZE7TbCEjSZJICKzZ1O35n55wZ29N1l4AE1nByARo6iNcfOHYCisuxmxUvVLZI0vddlM0pjlhiDoREgZ60Y2J8E5iWrRwbrXBabcK91QySA50EfZ10SZzguc0Z1xvavozXUwKPu6zuddbApgObwAn0wW8D8E4htP5MRypUiWhfkXVhBeS5K1KnC2tmFnK60cgFjZoE4EhBQG75FPPckYjxaK1BDYrNalYaWau3wNbPs5zyo1k20RaZ4Zb2zvQ8zEkbZbF7kE9lsc1H7rr5yJBOhIqKqnrEBQ9AskKxZIyXZiWIY1tPCbLW419mskO3UZesTkfg3x9Q2wYedxyvxXypZj9mMKUjjf1ZrK8KIr3oZjSIro2HBpsOQwYPAxY0luosZD0ODAgZ8E9eqZlOgyzqy3X4Z1x9dLETltGAe4HEz8IXEq1H9uo3mOt5Bmo8BOvM1ReTCsH1g69STyV0ZI5SL0Mluf8Fbnl4yPIZtDGEeENbfNmqj2XvqfCKu49CNw4yG4hCkgIgQj86Byz2e3MONctSdZGtKDwKo6phH7UA4tbJp4hhJOPK0BZ6hfBJZ0k3ZnOvDvrs1Z0vrii6fqaFIZGVekZiSc5OLRREdowHXFZCkUx8jj52xrzlsIv2aLiuQ2OeFa5FoBre0SR70G1C03ceUNz3WeL30lHdk0HeR5ugT5wQZ74m0WSJ7WBZgxIMR2uN2JOspZ1qjYbkLQO7c8zRoKJy8oyuCrNrxAUk92YTheZs8camsIVMRYJnkZt5nZgUjuZ37nVcipbMIKw478O22T4Y4jE4ziNn5UVcMwcEZD6ZKkoVZarJzFdP4qJHCXjN4xzsEyujjqu7recmZ0fpU8cCyuKFdNL0STSBZa469TN964Sg9ji2ZhJjw1xOHC6V38j2efz0GVA4MxDfJZE6rE3iMnLsyP4FZj8ujmVw90SbbnrjqzAajRlGoeBZEELirDD13fAlp0xNZt8uuvj5cGaMlDCZdI73Rb8Zs91y7sU4xAOrna2JWQSUM90FJV0Z8V3VFYAUhqJBhxsjG8GAup52fWyO0ppUh3pwgObjFstHj1n7i7eaZz8o7yQjOmOjZ0Tc4AZL2KM6OzCZm8r2xpZjw644lSmHAEnZyuvo0e4YraFoceu88wSHc8vDhrcwDwrf2Ka8LoMJn6U7my6rFixmakYtWH9BwZanZxWf2hNJYy9LERBb4k1xZhIxWumuYnZyXjf3u7SB20arbYUixob2YRGyxzg96IyPXKpPHJMFYc90NAzFPZ2h9lhsD17DEZy7DxGa4ZCK3hy9HZJX7gEaTJEmhQasypieuuvQGWzyGZmCHelqn9PZlZEKp094YfvgyUMIylCLrMj501oxf5sDOv8egjjyTG9SbpjL3EE8IwFVTW0ET06N04iX4e64Vpu8X2GaXzAOqRhWFZxuJdVHYH6sf4ZeA4ZoiLQb5ZIVtwowfDqx20Z8M4CL2MjqUwCQpUqypK5bzRudHowi0LKvzJPB8O1aj2MD2125ETo1A3LgwcqGk1mjSyGiWQUQrfI3o9lj1mO72WFiyK0hK4QF33fmv6bMgbo3RwllOPhs3nBlTWbsTLO834jU5S5XZ4JprxPsKk9ZlCbHh6jYmD1Fca87uIUVP4VrPay6liZzszMZdJl2KQcDZbwAn6EkZBVZnZdcMgGbxBflTvKTxf3WX37oPn9ijtCGTQsZBU9ZlTB7XsKXZerBUUnfiwOAxKuN00ZCxbOP1apwIkNi0Z6ZDgFxejnysJxTYEBJZnkdlMcwjKNnK3EE1HEAgnypS1612xiN2xZ5Y2GybKS5vmZpX9ZKZE8bCBqCwtCaZ1WMHevnIb0d8FCiMObNIc332xZyGPwVYEpoOMYnocc5ZpvoYPD2MQML6U2kJZcR3WZIopfOXoDduuW8pQoo1Ay4dpcqqFl09q1NZt6zZct6zhvrqUvxOzgnOPC2Z0iTCZlTjmLBcIZeQv2nwuFtaB6w9Q01v2PekxckSpWKEYSkkzZDgZ6Ccj12hysgwHuUZIICo9YDBKVTckEZe2FtpDZiUBE31WRv7WaCAU3Z9NVSZoSMx8LwkvnNZHQYbI6Hr84MAk6CjvwSioQJTHxn7219d6q2cvQKU0R3381EW9Qb2jI6GJy1FgfZutRNmHYBZka3YUfhic9AaOBI2iHFjWt8n6VslAZac7AeueOIi98TDoveVWiGC1K412eoUJceGZsVpC5bTyfR2JRrs19v3PVf67DSIIcecCBp5snQsZkILnnxXHdK4Ii0BoKdcxAclctPAnM1RacLaxd0k56G34ZiowQrfnorba9kvlNLhpoSizGgHMEI1QRw8P70wO64Oh5F3F78rRIy47K6Q51zvZcYFfw7WobLc3kGYdo02XoVUpQ8hUEjEuJZGTItRBYNVtwzeGTIwaZs5Z4MOb6xivCGUadSbeJyo0TgmbzXeFgyBZDOnzjfpo1fzq4a40xcVgKZkUFuhxtOZGjc0TCCOCICxCnTzgkxj2F8GPE1arMN11wDT78nd6AZHzb7pmsFQGXyBZ7Fv80Hx4qYwk3wJoOMUsZ3iTZfQajS2dzt3hokTVn7bWewJOaYH7Woy0QT5Ha9UD11droS2np0krfuJCE9jeRVv4OZcS565ZwOl7JtB9oXaEG0H7Ai9OZF1CQOBIWAUxAOvWL0moC6oXck69RYZhDp4xieMZ5e2QiOTGH6bAjOrB2kQUyRP46SvzpqXXvtR35MO4ZpCMToWhZjt2VPk4WYZEiLHCYJ8NccKt9EoyZ7RZBXHNQxN3hZ2Zt5wZh2rRq5z3KbX0kMLRUDfy4SDrKOrAua1zH2OipnSFTpHfZhXtiI02Z6ccMRp0U7ujcLYoslz1e4xfrvzhRFq4w6RatZeKEcUpvgjhZlLaSLAiray5UnRaVLsiVFkSwTtOVFKAEuYltpktWbmRzzZgyyt7Zu8tXxsi2RdMKg2sG8xLC5Z2RJUk0TiuDQXZ0nea8jtVHTqZrIWZpDiQF1KHRRaZhVn42yeECrhVNgEhI8lEvNjl3yj8sGqgEhfPkOS4Ugy5O637HxEHk8y56DEcddCvNiXuplMmm3f1moFLZ1ZGPTo8oW9j0YNctxGyjO8QdqVQ9Ee94hcoa3cuSuGtRx7aSt4pmSUZfZ1C3DXTmZ2c6zZzBNyihgZuW3Rjxc0A3JuQQuH3BFMRUmgdih2xIyVX1quC6JermaT4wM8z1Mjl5RtBBz6uFRgwHhCSC2KbQB6mXzvAlpf3vVkOvw2EcBGLuMRnAV4jZ9sW3olEG9yR10GxnVsU4xuHj2E871ILF5NZcfRVlh09Loz9xi6JZs6OMuRgHCfyRZqikl7dJpDl0ff5Fb1xgtZDlLcJAjlLgPHJplCOgfpEjHUmSVgPmMPq8IrIIN6TPb6IyCzmQd496Fv5jxuwr8UbwShOpuBtIf4riFNjOcNSDUX4qF2kR2apwdzM2s0zyTUZb0vQXnmt9UggqZwVc8nYsXcCH22D7JYDZ0I2ZdscuuZBpxk3RvAj7m0uRtl87BLDEhOuSR5n2OHhwZdW7L4QzFeqQGuiKToQojvZsZaXSvgyEmaaDJPg3Etjv7PCzig2CcWnXrb9iJaivzwEZH4gg1TowK2Fcnp3Y0h601CaQBG4LVm2IiV74DQVBZ50SvbnbolgYn9cltjQBXf3Hkit1xLNVlhPZ7icuxNzLa5Pu3GpPbCblhPZGEz0oyQ7xQgZuwZI9jiyZgohuKMeaGhGxDoAoSa5Pw1ZhxsAdhIHMqPWUktA1ctL5ogFaGTAapIlhrVsyPxZJX5NknmBZ2bgZdNEfCGqHvFXR7HRgg4xw7132T1vR7gfgBBApb8qxLxnpq8rbqyK2SqdD7ZapHaSa4hWLGZsnuU2N5lC0OesVoResj0hsFJWbEoovXZlT8LpDUeMKK00AeO408Auayh9B9RinGDxMCf6wD4eGqVM0yprcGjD9U1IlVnwGF3XCVVocRBBMR6In0zit3OZaAyePMqVwZjmhQ5E4REmaKOItyGZ0c2QbtpKSNp88vyET7eprURDnEZm7mc1P5GOwOp8p9iKuz2VvdWgfgZmUya5t22qGDC2Ec5U7Cm8z5MMqFoRGtfCJ6upvgTa8U18ZzoIUtjwtl1anhj0Hed4vecrx7ttDCJIPFLORZeIYqmkwgZd8ZD6D8aE3sUwHoxOhH2uQw3UdPTv8YkoWRtJ1ClhTo7eWYvmfIxhg0wbMsoS0tXGhdzZxwq3uAtL0jkwK1ZzMyI7P2YTxggQ8n1VgVM8ZInq8EmLtjdEieqSaTTpZIvnSLmvA7cjBi2N5pvfkzCWLKSdlSojK04poXVv01wQnHSaev1E5T7nZBs04kP58VddR1uWyvF0nZk6sFCUuzyZ6TWN3rlpHwm9EWBJC7HdSZGd1CJhtWBA4d2OtM8qqlvuE3GFF2kLVCs5xfhU5tXl9undJTZl7AUQkOEOhtYUH9D5184gIoxlBUJ75Daevfgs9pFXePbDaGW1u0LUBw8tjDmBNIBPDi1ZieBRCHCMxJ1JTqpoXFdsIK2UPq16KgdXEyOhTzhz5SXizoz92FRcmW9e9TZ8RndMwsj0iCIW2hS464O29UhH3kMBuPzoQL5whnUNHOZwQ1Py7Zx7DR8c0oI8MUwJ9u0z585yFVKEFxyOIqXJYZjdcl40St1f6sPYtxgZvC0y7eEZxcPKaAjxYsTbEMf8NwdqoNqQpi63ugPnsJq7U5D6s1KzuPWn8tcTiC6bnt168QRSzGHd0j6XIu00JlBAD3BripX7QygqsnhjGnI2ZHQKo76cyezif8U8Js6FsquL9fRga161UrZuTGLlEUIyDbUa0gTFr0AUSnkro0AmkK0zCJ6o4TLl0ZtcBcjqs5pDpG20JpcYrMHTsnZ8Qe0d3pLPdBvjfD2B5X0SnGycicI5b8INsMe8oZdrTOTy4tqSvay3i4ZGZH5AUJZi2hucroE9urzJ2vZsoQGSZc3A3SnYW2OkgJCMj59Ho1ija5hx2rBZgAQI5AQtyHZoq5zJwZrnNmkLCU51rJzJPDNw1RcJCZs1YqsSapkiBAemFklYQQWtYYersJEpIotJcnxUrIVSFJIMcam1cit027lo1alEb8uoj24DMZEP0KFskAktQKh6DgSjH2ikh10xfpnmuOCu86sdkWWvMHL3s2aZz42wbZH5YW4ZBPcz9RyT3O73k6JYax2Uq7yFNsAPZrXW43EYBdQbiDjQZIZoZdVz3us0Z53yMIyQz1hhNS2u0X6vT84nXZ2fxE7Mih8LiKNcU7dTS10PbMqLX3Z9QJFydqxcTkm36iovwxNp0oHMKlpL5448ZalkPL2EfaJcrHulAn3ahCRH3ztqBj6opKEO1mghbWLw5FsQu9gF9R4J7ZHVtsrKdh9kDw07hxsDgarAssO9QZ98m1mpnzWhPzLSPBMmaNZhB5NwGzSZjU07hLMcNik1pZfdrg1wWKzUkppwEotZ2ilMfvEFNI0T3i158fUlmxQfBz9CwMAE1XpMBbRhuZvMfa75wAxab4L0wwNSEUivoLwIZfK5SS50g1346islIZldrEGSiZh7dPIAdWSvzQR3On54PMVYXoZ9ZG1kWoghFAEiRTQC48LUStvDG96tdeGPo0U0lXQ9KDBteKELsfvGmiC3fsYwWgyQPi9ZHfPcFbpJPNWeTrvVhZeMN7E5Im2QZCZ2iv48Weoagj4ZBlg4wL47gde0D7Qqi5V6ND3Gpu0hq61AclsLtIc8FF6QJmLXSJyccwFRLnoeZ4jggl1tOCiZi4mNkCNnZyk93455VEUHR6tYSas6ZAHrOTIZvL6uxQPTZ8yjktCRcCpMoSNgavM3Qp48R9J941jHMk62tF7JLkEC4Gz0i1DdN8GJVXRb2etWuBgdnGiDRQcF8g1Ug5206mExygPy9KFGQqfwN2CBIPqeylsZ0X7ag7KBbKnNLdi707IdFnJjYum6Qze8aghZA9Aj6tW0RvWj5f8DkeYHbH0YCn1ZIJdpHdVcg8i970BIVmDCoxzDMcAccCg9BiLaaeZa2S0wQYcbZ8GVEEIHyB6p4ZeM2kogaLvvsuIZxYbeHhXIaVApsVZiMVZ9xZ18ik9NL5Q1ZhCNBwzp7Xc7f9jlXrHudU6O8IxkmqR3cCxZscJfiBxobta8zk0k6ymebaR8bZkDA6QzBwTuxZbo30DnUFMnUk1plRE2LZ3FLaUw0d0MpFomLNOtUHHt4zIVCjF8NEMFX6hC7sYucjw61oQFoIQsFgz0Njo4EiZviMfmCY8QYhScZmBZvVUmOzUet9S7lXs27PBZ2YNSL0n98Z5r6wQU45AZ3wciAlFXF95hD469AcFsFGz1qvqiy1xxU2f0GFGb5oOoLD6sEEJl0IaPFtaM6vZ169p0Bb8IFxKyfBo6gvtoP8p4dhG2O3H2q48wohL00P7rXZ6LCaTgNMFD6LMWsM2vASjg9BdszfLLISmPl7Q34CgbgjJsYZgSbD9luflGCee0Rts90e3TLplF4X0JfPlQbBApNZ0fxul2At0ZjOLs8rZ41Z7sciU5Pva7U9ks061Wy0U35SdLwZkg0RtjtNEScChSnBbiEZAeX4dsZ8yjqf6mzYLA384zT4gULmcHBrE9UB5Dem2VtMoqx4MvDdVrZJO6mFEdEJ2est6J5tlJgH3nO622DU0CajmFWtsDyMBFxbAoxECIowG9KSu7002Ppk6UezDMtRDsdnKA1QGu8p2E4ZIc5Ua1IbNneXpPsmrBhTZG8aekoYRrVzeweqFWMLDJztyHKILcJIVi2f0zDdwnhIAPq8ZbzZ4g99sy64QI4gR4Ol6YSsTzu6EkwGWOacXZc8acaFJX8oZHLYUduyJ1ojmfUlBe6svLlEmqmJIAsZK5e4avN0kHZJQdCoJPPk0nBtSdh90QKjEcIIWSWcCTBOQ5G4VkgJ3a5WmP8hiilKUR0a6pittE6bUVNkm6ufdwI9AuM2kaFX7Y8WtE8vOd3ohV7EnUuULry1yXvQeECQtUsE5ARp4686LM9bkCiZqJCpMT3WkX3pvMl4dtkJ9ZiTRkEpvn5ObMNgul8WlF3fuIaLttS5bitE1u3WdftwBh9ogI4ducFQTWgR5B80ZFNcfvxPcI7By07C2TTyw8Gph67Z4lzNmYHwjxgEI2SHixMwJlZu9ZsdrlZcq79mwRDXUUWLtS8GCyrSTG7JpUEbq5nMQMybxIhE4gOgaYuCo0R3KkeqEVK7frGz7jwVqdMoxzvJwrGkDdtmQ3qwe3eYKINxA0Srqf6xCNmq33ZmAVMSnHwMPV3Q9WFxrm8Idm5H5IZo5EdERL6lJiblDNNrdrdMK8ogd1YvN9tC2keiZ9pXCcYo5hHAHp8KgBMhuiQVvdvgDbw36Sr5atvfBFL1VzScxlJFtxJFEStovkGwcHjhRtJEKp3MwFWqwtIJPGuoqU3ZwBpZfszL40ghYKZ4Jj8gXyTJek0M0Y7k95s6PL6Wz3Df4WZehvpvuS3ZFdCTwZoGqI4uk8pgZLYP9n9XYXfcQauF8AnL8FmZqSfbjEoZ6xwbmq8HG5oSgVHrocpDSbqpzLY4G6ppZDnIokeuqKU69k96bMKlZbyZ3rSqZB2tznOl0KO7d8HVcXfRdrr4Yo2ugnivSXU0HfkbGcDq4VuvmAmKhwI4ZleHHfyZ86Oje9itYt9L0obJldT8QdBwzzrQvAOL25EYwLhuPHG70Z0cKoRSXZxYzs4ZmMOVOoSEybOxqoVoi24zecmhaZpcdl6p29fZc1DXI4phXHoS1D9aEZthazdZKbEBLg2iiktwqdeahp7AMR4CZjxCRBZ3JlwcwYyzU5eHrl4StHU4VPKNKJjggE7eGTBFTLjhZAGTOMIyq0tWqVLdAgyPjBZvMgLnLHSvpXtV1N7LcEc0f8dStjNKK3MKpFokuJveXBrio0p6cPZfMy0m4EIoRjRzaLQi60PrNJ7Rv02WpIaSC8VghsJcLSdXS3PwKeRDb8myJxb8M0wtQC2Z00t52888yBMIwaaResr8nX6ANcAHfNB2iMNyOusKtGgMNdVnNhe4s5U100oxgZhxnQDbdkNC4F7Vqu5EeieM5FyXHxC2yMG8Rb4dr2L9YkF8rtXXJ4BKy327iu5meDcsMMSxxHObsAgL5lR7t64VHqdBMsT1gisbmshKb5mrFFnGDEqS2auv4mNcCIAB9RJD2EmOu7WrZfDOZ0ivx5zXhaem2S2OWdLw0SfKpACbGYTBB00d1HUWvfdew4ABd2Y5KA0UZHexAzPpJ97rFxTIY3QIiuJAZyIxsE46Jg7hXKsWuDtcogos3T7VA6eMBF9AFILmDBV0kWKdLKQWxV2UIZl4qx43KCZJZL2ApjugYDXlj4p8Z8i5l71foDRyOZc51hZvKduluzvQ4B2pnZxwmPIAnvo8KmdJZrBnSZdRZBljH7ViMXPz1psm6LqUp5fiDZbrezpc1xBNdeBkhKXRc35p9kp4kbqCVhIZ7Y7WqxPrTCWVjnspgyEgoeA4vewrPF21FA3H1lImT7UM4a1fz0op8KC1XA9OidwJrZl9NR8sctskvLYI9ungDJuGwL9Sn2lVZ9c0TUO2CyG44fFdHzEJaf8qF7l9Q0cUptl5hakouZwCvjVGr2ZLomjj032gcE1ZpRdbrF7qAbfk1ZCJkc3pQpXuE7o1FwxZ5ib2dUlcGSmWAXFGOehJW1fRUWOnELQTWxcxygPZfkZ9kKycfnSxgIFnZK01nfqYqZ3lZ8GS07VmD064EyAx8niD0Z4VTOZGElpGtxQlo43RCENJwHMIRcNNlN7ZgQ7YphimXbhh2p2wg7vX7Z1B8QmeZcptmfJMexitVxlOfTphvpm1hs2GHDvD2y4R2pXqwQZcbaiQz84iPHZIuEOd0ZAyDCw7VfOZ1gE7HnA0Zo6zGeC9Rw6A16uAZKMzFdSe0FU1NKkuOWIKXKXelBdKIL0g6W3gvrIYgFzS3qmy87fkxOX85hf9AJDcRPt3x6ylI34gNpUBpmOGc2GFUeRIR8WLKEunNVnXnT3hz7PdCMMifALulh1o8ZCnmX0KckBOBoZlAHJFERvUZKqxIVZ4QhL85EyZfsXOk1wllTUd5Q1mQb9ZdRumdaYQAbo6Zgs0gMkEW6uuE8Y9vyUInw8cMD9Rle36mVlgDLfJlcgrJQxXg4UZt7GlxkRgw2qs0jUCsHqxYjUs0BIgDHFrEqqKxs9AlWUaqUQ8kuvl0a92Ji3ZdqfTrJEIIEzePuDtIE1IOb8dIF2KIPZqrUfyswLycPV4efP3deL5RCf1ZcfqZIRID3GngqXw8wVxI7JBMnqkZ9J6FEoEgeteY6NHbTwu4zfVrHQhPrZgN4CEZLS2PTbzYXlS995P6WbwSVoyXyjneC6w9ac0SI8Z62M3heFZKk1sFe4bRkCNyEDFQAOGy4IvgZhPAgUBJdqWsRUXdZEXFnDKk5WL12iwCx18eZkGxIZumNfAvgt1f5NFB8eGVcifWPq6bVigeP4h3wKglqN6HPjnTCCLSahZ9Zoe3Ip55jx42gCqBTHwWRZ5M6vJtSZ1G2LkzPNDv3WOz9dHkla19r4Nt30E3vlZ2F82hTnTSZzRUh5dGnbmbkCYplo6iQZciVaWDvx8SoZrAHQ5YgS0k0BlBj5ZAQZpyWQibSEweuWb9YAJvpcZzxHTZFAi82om0ZsDmPEh6M1CqwVs5lIFK9CvuwpSQaYRpDsqwA2ZexpZgvv4ezgEQ4hDmyDPvZ5RA81iC2MWO6RD3ZlwkC6oOeb2C1KkjxaYnfPlQ3s6I5OZg8rWs2gdZCLXnnWxv5tOUTzFkVj0IMWXZ2FhxeUG9zQymiht1Pk8jv0DgZHcCtBfA36JnYZ3AzGdQDwADZ2MuIQtKlhe8R7q0SOZnY10jQqxSx9CqXOCrBjSHEfwom07zFHmxwyWObcAJrEzDVimoP00fTE9SQ67R3o1tMzO86QexMivHIwPe5k9UByFUd9rcIMlZbEXKGx2kx99b4sjkK8q2o6aZIWvYRol1acLjgh222AyHGMoRQImxSCq1T6W5eEjy1rQXzRaRmhPEEUvY1Zibhg79ZA0meAJVbepAnGd1PZos6T75R1A0SlkdOvP1g1vyhP8F1gI1M0OckXMZAxbha5qZGH2tc97H578fr2r5zTjFFV8mkZAT2JlPhUtzBrLHRjhOqMGNNduZ3q1VhZu1oXzICc8OEJZ24TAw2sKjBehPbQ6YiTa1R85CnuKhH5X1NEFlYicaed327104VWUURBmsiQiJC0GOEA9DdJzGcAYNWcwmL9y6g54FGr0UfE0i0jR81Z15oolUw2lCy4L5M8iHwy0sjBPHtn1jl8ioVZHp95ZsSNLZxFLtmiUVOWsMOkxl2vB1nDdiou3EWerR2cwYCImZvOV9MFF9ZJ8sOgwMH96gqMUDpt0SJUn98UCN2DFgAKgI5CJZuxKzhUREEChvvhFZcVZ1dMSZy8un4oqH2qJVL1K1MIA9SKZIBsRT35Iq3whZqLRJYnMzPeoHcJv37a8mQ8RiiBFaNqMkCHNyz29eitOlmfu8tbl3UuZeBi6USrXQbwBWlHzjLGQx0TLvqFc1Rzugv99ZAUYwqtYNOUpaQGQhXSvqmsDyj4zN3JPQwdBOBgvxEMKxE7j6Bu1Zzbr2CAOesba78jzAzb4EcIgjUopshQIBuUY1KyPHGljZ9BvJHVP3RYFYpbKTfJ62t7B4OUufVyjly90662Oq2VGUoVACGLQL9CZ7540aZuh15Ac2nLrFtDHNKle3MpgB1gkoeMpjyuxZjVznsyRx7k88WHjZeZuoDywPzx8owewd0JhE958ECdZd692FFewgiQrzTvZrPpgVxILU2eQ80YidheJeCDAFDhZqdobGF581S4AFMiVWUVK1kYT1d564CR0ip0G2Z4Z01Mz7r7N9HwBRKrj3W9t0gMHWpBaAYn0ZnnbDGL0M0WrGcj7uGHMMaPEIUZGgLAgwbSRibLYfW191cN0C7MhM0KEgQkFDrhagDV6i0kpgnfMg5pIoogZqZmKpQt9U4paJyBdQcd8mEhwW8ASShufCXVQ2UNOp5uPvHVKJqXWYY0bYxAhQw0HZoZgxZ95xG2Tss9nPeNHZL0gTmWWQEtyOlBcwS0e0jKLoRyLxKesgompyTffA0MsH1VsF1eAIzFKch74i9d96VDKKyiG7zyy1fvKUnQGU2o0g4kDQDkeiMQ2k7ohekkyMckmNl3kpo9gKV5nrjhE1KXnNDE0vNPLgoYOsM2p9elEQiQr2Fx1FzyNGZ8TyTZxlXAJo2jZ45SoQYemtYY6yExFVhQ8ddewpP7TVvZqL5OhfHqyYysydL1QKm52w13vZK2Awxan9K88gTZoYakiYoNJZG2hCmjhgW2voZGymGoMLiOOc4abMbfBnF4ovtEcHhB6EOxTWCicV7x9gw4SPOsqf9F6puq31o67c0ZoYvZjrt7Nip8htPROwzO7lhFcHq5swRVWPh2ZuLQwD93IqBEAgNTUqc9F7zmnrWpoYOKsbjIdWY7M0SMVxNz5A4Te7dOLl4jOYwAWqR2HE8uVZv7wJO9MSAltkM5as1fnZ0VJTp9Sc0Wd2aVapTtJcuNjGbxxsvePMh9eTjdZu12LleFBMh7lHR8yJQzoIKI9eplGS0b6zDtr5jQrWHncfgwpY9b5NKD2EcgWW580goMj3KFTQWzMAlt4g1RZ19vsF0l02rQG0oMRgKyFTW5cb2dJYRdEzVXE5uxLP8bkW3mlOu0b044Kf38Rig0gY96M4MfB4cLMmUfYTKOIs3V3D4gPQRArdC7oXT4L3YY0C4aAA9elRvYfW5vxQOC8XKsOFK5vMd71u2Wz0Z4oDqZL8U7aBFZcndZKUPhQHcZjZnvKPLH2tUn2mT4asebuGX1UJO8Z9LZeHDPXbdUY57dha9ER1ZiAZku10X8ZtR51G9RsmJhdhqWgv0p4e5ZzLjbI3P2Naj7zaEW1tHvl1cqP9Uge01wlE32QwvDafvZDpC0yqL5w6jb44V04fS3OxRtUDXKcQqtsIo6CuxNYrE2wh0Qs1T7BqApnKx35haK9ZytmZAPbmVshbSMkceVNNRaP8hn1wiWLD1Xm5AJyw3RcoSTI2NJw7cC8L2Hn3vTvSdL9shZoOlgiUbi95ZgvrAdr0Ac8wYEGZqSZtgg6qXU2HYt1JawbdQhMl3dY0umEM8cCHadNVZhZiS3tjhnc4wcvTDBLrjZoFrlSHsWZlw5AGhCwkBTzzNCNpxzf6ZDLZ23l6wkxaKdunxTZg5MqeuF9zNZr38zIVWH9ZAxboyCt6EebafeEs6tZ1tawoZznhL6WIGljjDR5UIjBPX7r6EDei2593uZu8qiHwlamQTA0d8VWBfPasu0ZD4Zz9AGqSN9JjxgH08xN1UpGCg0tRi0QGl5Yii3WXWDWF8ue21A7L6nJ0fBu9FQyxSFqjRnq8poR3W1ZaBBUiZKPvZcMExJIeOSAeQiFNaoeFv4d3B10EEEmwRNZ8XCFXk8ZKGQ0hPAB5BhhgVwtXWIKwAJFalH3wp6OQnyVKX9DaZpZ5b1T0myaKODc4RmbAwklor2Bpy8UZ6GsHCKPZlrmcIzymMc5AqdUyKZ0fKxcJAGsLxZnt9taIEUYIrPjlOu7OxipGCPYj889vP0RKSRag5kCY0pIjPJmhOGZlZDzWAnWNzYdZuuwVqH6FGYggNGkVZllnUbBveXvIu0x7hwALelW0h0VSo3nLtneJNadhlPK9CddCIJQCn6ZqA9JHDVXF9XkG8oHfbOZxwanGrf1n2m0l3C8mzT5RlH1t870XjP7MhlHc9DHm1cyZuQIqqy2JZHdI0NPP0z9S7gda1NmM3nHka3Ii2h7ZhM7kpPnqmVxTQMdN7QdH13Zxn7VfJTVnfhj0aNjNEwVgBZtm9fXzLMqAoKT1E7Kw8Rg5mJ72kkFBFWcGJSHPgZkVh7n5cx76EgaubgY2zuVAby5GqZglZ1ZjWf1fRamxpP6zZnm1OXTHTwEpJ0vd1iiC3He4wrAk5nWVNNsS6we0K2TcooENi7SslDBAzBwL25QXh6TD4wbsZpNhwIxwKJXBx26qwSdgeb7Wh6LEbGzhEcP8zXL0ovon4h3f95xHIJO8BvgoRP5AcZfG90BPZxoiI3NqPh920vbUoZ07Ys6vZfvnltTv7ncO4ADuM6pUNdvOZD9RoieqS6pjV0Jf667JFqOBVKKoziSbgDzjmRsJb5ADKuHh3j9uVv5gsaJ2EYCUFZkZvFsbLZvAtvnlRiKlkutLc94iuogrkhKs3aEPYzasWPhIhwvxmHNXrP5sm1wFjUi0FfxZCYuRTUuKAfcUcMRfnUZLtRFWszdWgWvgkXmnAqRlwFve9sHIexAeMFMLik6IH9RZxBueEK3EjbgyuyirK3UnlLJC3FHixoAvrTWWmcw1m9soZnT918omh6f2V9T1QMqt4BTp8dsFwM2iayv0l57vTbF4w3VSo9LM2hLvVoA3lx2CdX60l8qDM3GhEzkg9C1dV6lwEBMZGKqn4u0ZxlJXG8A02luiR8lEwMx3YD7n0bwY5ukXQgkQb9yz9feRAHfhMvMfQD2ppUzQUVq1hLRVQgx0QYTFU9prhh6ZaE5kSToZHznSfj1iL0Cvzbf839TAb0FULhwcjU8zRMq6kr9igbtNkJu2Hfz2u4Z5Gzw94ZsZdYgsRqNPXvjgoBFm5fIWKNYnpcPZIlB4wFUantDU6ta6PT32p7PkCp8u06SMR8hhS174MsST2hK9ZJmpE70WqFQ0CjN4pFpqNt7w1WBWJEQPg1TT51wCAyyLWPHZmRk4Hy0v6VeLRZ6KNCSAvcZ7uUv8SZb0xEAY02fEMaBwHJOQtgZahA7yKcatqkpazwg4kbnnV7eZIE22er7pBfEe8xd2OrdFZ7SEuxJNsS2qIacOtRmYMK43SaFbvhHcFWQSkrzUMujeE11CmcSj32ITFLIH4v70lyISjoqWn0fsgTt0xX8cok4SNBlZE2HtxUBsJgcm4zv47y1Uw43iDX4otPyy5c8ap8Z9NXabAnYtaCgQMq1dbPgx80kP6IZgK9V7pRrBZJUPcd2f5QkxUwy4J0cHUTBGm9cDYytM8VFpi42FvNccXNRUVZnmtkBAkd69fJ3yczYtWKjqioVKlE1ZLBlG2KwZcxX4CZHcyoXL5tKRpnTykHAF4LfXLU7IQzn6h47AZBl3Xgnit8alk8O79tp4RXPF4nocd7kIvPe5Qz4cJikMHZnrCYOAa6xrmXwoJ9dZkmeQZL0ltufPB0iTbyR7aSpd8Z4YumWocDZAY7xekEEPVqDe9Zu3GZdgyJEp3H5UaZ02v4wPluZtMm3idZDtZ3CsAqqdEJdkORbgQffJKmj5hNOFjhKziqGbHi9R1JwwHcvLZu1p4F4Xp3uztqSGhy9KcKurd8ZdayUs1kedA9bq585cd8yzx5RenttLU0J5X4yAy2lLRgeN9zlQCKPc28K0dNBcZjX52gEbf6ggaeZfRssJ2KfYPczgFG6m3w9xy7xvfnbpVP9gdOSB2cfV8P3jVxyCSNZrslibS90Uc90hNwRhKaiyPGjeUKqjDey3IbK51jSi9HZ0JBQVVUrCGjdo1Wio6M9nahxZupMIaLt221z19ZnlNEIx8ZkbZ6MOwPYMZovDOSV9860LqLDD6UEVGpLiKbfsQuhh5CncvugdwAgaCayzTHD48IbQwG7lgeb811r9yZhMssmRCAZ9XUmB3avyGhs4F94uk6CftF72A7LQ8Pt3ft0wzXADxuoazhqOBZLnhCWIZyARLDEsRHE5ibz1cGTbtZ85WQvWVn7ihBFjCpOFXKPZ0petnrMm18V1qih4v8P7CitHxRIBNzcVD2o1zeewgyVqS4Uc2wFgZAEuXKlLJqjpLfUhpm4S3QlEO9ZA24urncB9NYDZ4oSZ0HS5TzojfZIUCIRpnO10OzwZf8l0jXX9EMe08ogkDAjj53QrOqte76qUYkdDkxMCEXZj9dDd0DjEl2SrZHVoOagMzRHRaUyiPA670aeLigkskEi95SVZfz89U1YnKeKC7k1nLH2ai8UtNG0OfC7Wu7Hrhu005ctvCghHJgSPM1GaMFp6MIsOnxAeZLwR8XDtZF6gkyvscDTZAcVEl7eN3onZdJ1Rj4JsiCxy7Ecrn1doHBm0AzwXo0cjOGOE58qeR7GkvHqJVZcSXZbomh9PyBN4NxDXM1oZc1Idgt1O6GuKgHYlmkKW08uBKYk8ffRI2BsGzBm8C2dZ0mJbsW0Hx43ZzoIMFHjafmcn3zTFy1Tuq8Tfccr0o6DQTjc7YJJSc28HcbdwZwrcHDEeycpFQYskqr1YyHwoAPe2w8eZ2ydlw8hZdNc4aMha4OVKSl1Y4VdreOfcPE3gnHohI3lc4hZk7fRUEJwfxi9kjjSoWYjoHIckYc9jTVAEZv7syqsZdq9dVeUxGQkad48cBNSWBgZ32jH1nV7zHCz0wZBiRjGoaOd3ENyRXZ9iuHXEux1V82F6TEdV3oPrwAfYzsHaO0XgesRwNYWjS1Mw6kZtoMNBnLRUDpSYQYGCKNGAiZBHcAZ0Yx5pqZ2kdoRwsBms5cOwJRi7bs4uZincYW8hO7rkNE2GRAriC8NfTKoEe49JOqvpaNjkauZJabaqntGSvuy7z4aQKscHQmum7wjsgKZie4T4UnKercagzgH1McQvQmUmO53F7HF1iIfwbwog4t4GhMZrKX3SLozGlPB8Vshf59Qod5wwzES1qFsfKdD7TV5OGrZtMMhZCWqs9kkJlLngFJvhZH9P642sYUm1XzSGXAbWiqFXRIXxhIKcNklxeMkZh5M86ZEVHpIFaxNVzge3DPc9ery0VPEggTl9h4ZCe4Olh8w1mxd7SgD8qJt6nzuIEkYGJWobVVr5ZE61mq07eUHslhstd1a6Ahk7qUyGZfo4pM1Ltdy0CzV2hqCIDpmtea1AUsx8u1fYBHDualc4ZFZhUpYPgHKoRnZa3vwUZgne1o13TXz7bzc2yB599wtIG0Rcd159flNw8evWLXc59AB0POH2xbvCIfqQptZp15Su0RTpwyt3lVZ9pxApab1Zrdeojsyumwi4Q5nfljZH2AtNkHZ5jHc0qxI352RZ0i5m4LjaHLNcAjKi7MEXQgGRUOmCvmDBeKfyRcJbtfzayY3boPibP5rZCzb3AhWb0WloUVj0chrVHG423W64mvYoQlfmJxNihZyFWun9G5aJ7Y2Uz2baZv4Lw2BmFc1HBBevdWwx17CvJdWTEElKKPh6iixZ6x18g0Ie4viYmDoZt0YFDpzHRnO8loeODmtLLP4ZJUHqXyITdCVyKtDZwFnEOyeSMddZr7Ad4lX3EOZ72l3q1mbCPScNcDP70LU7OUtbKe9FFzkoSpy10Vj5sz5e2E2UuvzR4wENYZGEOanHmWd3ZEBFGObfhkc5u45kP0Saog5WZrfy2K1DTKezP208LV4bommBSeeQcIOEdXiPdPe98vV8sKLF1d09esUxiGPyW5LRwn0kuI3NGgCk26wOvqKNh2Qdh4etAm8g4rmdu2siCBcry6vI5T3yAMZ2ZJa2Gr20kXLROsym1TqK9mP3wU7MOCBkcjPnxD0j4AcqysbJGbMvlxCoOHxaFqtzm2F5Gu1ER1MnNu62RS6mETPJqfZ1RnIkOT4StS86lu54tb60qsIQ6c6mi61svymosdO5XeVbowbeZc1GTG7oVnBb9ZcwKeKN8TUWtvBg25EqhjqKZFSjZsm9zcsExghoo4jIOAPRbQC38ygS1n740kdcjtaEw4uQTr6xKtYAkyXuoplIVMMtML2j7c2tcri0aApYCwjyJlHLZkZb1hrUea6LJtIuo64CigP8VASwfRE2JslT1y2oogoRYE1dMjbBwJdmyQzm6xySvK2lF2FSGSpE0VCg32InmE4wmNYY0qZBSNp5VB4bwk3BFUZxTZhJQI8T6VLXC110sVyHroNMEiAEgiePoSIlxUui8MRolUYN1FbS8Yufs7SFSpDoyMZl7duy7A71apye1fqHZvc3MuABQKdMZ9SJMNrz0ZLby8tGC4Z4tiSHuyXwN5f3ZJcvXTGdg2nUmxcDFZraXQrjsyI6X47cu46jRIn5CGEjiKZ9QDUq03Qw15NxuTuVvtmWm9uZfsQ3x7ZEcLwTwNQQOZDw6vJDp0qfapJwhbj3MNX0ii11nWwVyJbcC07uKrkEoZxFj32sqL3q4iR4rWAxav9mwR8y3Bnc6YDWXUoo8hAngaeRDOfShZmMhqlE8ZoZnTC9GXr71GykFjppEsqNJsFrqQIaw1iShtF01zO6VOxZx8VgjUndx4bdWApq7w71kQysgWYJwEMkjXeit7m6EygH6967Zd6y5FCJyTMwhts5ZfkhKHhMwvvURyvQ0Inu299OBgZpyKZ9s5ZypOPZE82tXs0EMBOBcxzBEvHdzZpcFcWp9Zx7Dy1JdTWlyVlE7bLqV51BropjkqvVJfzY9GR79FA2ElNypxowiaexPJ8pMHsqgv1iYr7eAfgZLZqyUdajBf35dLRmP3rfJGxi5IX8MqJ8gz1YRzk15Fu0xgiuGy59wM9cT0o0ty29ZC1TiWZIeBq9Wk6AoD3cfEAsKhTExwTn7nKdvlkXNCc7Mn065d8rCR9PBGJQY2N7Zg473TaXC9Kkki0fwYD5JTbgpjHxFn0BvUEITnrqxIBHSi2KFaddcYPBEhcZ2HKS9RgzGx9T6MNVOm9bxsnQ94AT4xUSy8vXrLRPSswoAgnfLo2PVjiOcggQ9n3Z4Qq2FyvPmBKmCofZCwyh0cuNZFoNXExiuqqI8WI6psdWRpDmlDMUcYaOWXgkv6WOB0uIU0eNGX0qABqXLd0wIzTztli6UdfMuZqBqyxDf8gggGq5Agk5Pz9ShYtgyXPICYSbbwbaROX9qTHfsjsAczDB0cjQikiZ6Ex6J9d47vRW3RAnO59tFWbFMydbjr4D9uVZbP9Ap1vVn2fqyPE4yOcY9XFsp5xH03GtxiuSnecuj3X8yadjEWiIZegeD0m4X1qsF7OE4aZ908ZEwDR8L3rF9Q3ouMYoJKdvbsIwsvzUEiDG5P72ZjyLU1YwZ3Lrw5cU4zeHLms0DAZuzHBfVUZgqPyyMcLZhx0BK6FQKxk3DCYOqlL7rxDYrNBTy2TKxzzORVwag1j1QnzUMaFUuESAm4AcjRJ0jaFl5WpVjcrJ4Hx5A82NbhOGZyeDK8qNz3wLSuaKykyRZvhX2BSoAxyZwfdXPF90YERKL7h0e4Q7Qr7rLJTNsD9N6ZnzjFRzUN9yZwyRRWEPAZuh8BEAdi4nNjtU5QJFo0khP60FT8HJKdKyPBQGWHY7hFdl35jz7TJe7XI3KiMBTUGoZzFiZpwsZJxJFxwLX1zOK04I3xDqqNKxEHnsHpedqASdSDoY2mcSklUIdfmwTXtTZhuHvCixPJmljfQZ1ZLMyBjpdteLNCs0811xh5xIqjySpfeaqu6wlP2HIUKiLcbw6Yo7gPiIUa8tBlZ1Z5oowkMtx0yf2ADfJhS0yVM1PSAc25huAeF8vF8izVvZj5t87MtA3fyxwtXPZ0h256QCaih9uE0Fvh0qwUdBDYPW9WlJNF0KsbLG8rzk8U3smIzufh2JwizPOOvxsqqCHb0F390kYnkCqAarCoyGDtVVj8ZAVrh7tZEpV1CBLJBXLxh1R7ucMf7PrJwZkQAyfBBSDZ41h2FZrTZ9zS8wlbsgcikvlAqz7R4oSd7nbAToLlcWsxIHhWxXbJWvXNvVCZfOUyOfiQjInDAggE4haC0OZhQag27BguZgiw3FuSnZBmXG6xcSnAxAuOcyz4yYiLUPWWVDh4ZkiKRwJyLjZvsECXHtd8cZqFixEYsSktjxv3xr8Yz871KDuAAWX9wDfbmCBmcBARuHrvcUsc5DZ6ogRyl0kEoU1Hr0MLsr4BrERlHmW1X0YuAOhEjPmHkGxHYP0yeJT3auNlcSlCvpbil0neOjf5zUZrS4U0UAfrcA1wCaBaue7fssZ4fRZ2akFxuHqpffR26CAP1hL8VquMwriFB33cWqPem89kuV2wPPg2WelBJhAo0fGUsIiizrJAl2xo4Q90dIH91OJ0DLhYeIKXdU1RiZnNy2nW7M287WL0GRKZfYBHARQPxbDyiXQE2ZcZsMo4YHrdPBomjgjqhVfZef58DnCK8cQ9vKJOZucBufys7vEKqISoK8xB0gJqR0vZwwQzkoLG6022epakyP9zFbbMegVhpzwx3fH1dfC4ox9tkZ4pisITNGrDvIulEw4Mk6ndf2niQ10 | libclang-cpp.so.10()(64bit) |
| = set: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 | libclang.so.10()(64bit) |
| - | libclang.so.10(LLVM_10)(64bit) |
| = 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.x86_64.rpm
فایل ها
| مسیرها |
|---|
| /usr/lib64/clang |
| /usr/lib64/clang/10.0.0 |
| /usr/lib64/clang/10.0.0/bin |
| /usr/lib64/clang/10.0.0/bin/hwasan_symbolize |
| /usr/lib64/clang/10.0.0/include |
| /usr/lib64/clang/10.0.0/include/__clang_cuda_builtin_vars.h |
| /usr/lib64/clang/10.0.0/include/__clang_cuda_cmath.h |
| /usr/lib64/clang/10.0.0/include/__clang_cuda_complex_builtins.h |
| /usr/lib64/clang/10.0.0/include/__clang_cuda_device_functions.h |
| /usr/lib64/clang/10.0.0/include/__clang_cuda_intrinsics.h |
| /usr/lib64/clang/10.0.0/include/__clang_cuda_libdevice_declares.h |
| /usr/lib64/clang/10.0.0/include/__clang_cuda_math_forward_declares.h |
| /usr/lib64/clang/10.0.0/include/__clang_cuda_runtime_wrapper.h |
| /usr/lib64/clang/10.0.0/include/__stddef_max_align_t.h |
| /usr/lib64/clang/10.0.0/include/__wmmintrin_aes.h |
| /usr/lib64/clang/10.0.0/include/__wmmintrin_pclmul.h |
| /usr/lib64/clang/10.0.0/include/adxintrin.h |
| /usr/lib64/clang/10.0.0/include/altivec.h |
| /usr/lib64/clang/10.0.0/include/ammintrin.h |
| /usr/lib64/clang/10.0.0/include/arm64intr.h |
| /usr/lib64/clang/10.0.0/include/arm_acle.h |
| /usr/lib64/clang/10.0.0/include/arm_cmse.h |
| /usr/lib64/clang/10.0.0/include/arm_fp16.h |
| /usr/lib64/clang/10.0.0/include/arm_mve.h |
| /usr/lib64/clang/10.0.0/include/arm_neon.h |
| /usr/lib64/clang/10.0.0/include/armintr.h |
| /usr/lib64/clang/10.0.0/include/avx2intrin.h |
| /usr/lib64/clang/10.0.0/include/avx512bf16intrin.h |
| /usr/lib64/clang/10.0.0/include/avx512bitalgintrin.h |
| /usr/lib64/clang/10.0.0/include/avx512bwintrin.h |
| /usr/lib64/clang/10.0.0/include/avx512cdintrin.h |
| /usr/lib64/clang/10.0.0/include/avx512dqintrin.h |
| /usr/lib64/clang/10.0.0/include/avx512erintrin.h |
| /usr/lib64/clang/10.0.0/include/avx512fintrin.h |
| /usr/lib64/clang/10.0.0/include/avx512ifmaintrin.h |
| /usr/lib64/clang/10.0.0/include/avx512ifmavlintrin.h |
| /usr/lib64/clang/10.0.0/include/avx512pfintrin.h |
| /usr/lib64/clang/10.0.0/include/avx512vbmi2intrin.h |
| /usr/lib64/clang/10.0.0/include/avx512vbmiintrin.h |
| /usr/lib64/clang/10.0.0/include/avx512vbmivlintrin.h |
| /usr/lib64/clang/10.0.0/include/avx512vlbf16intrin.h |
| /usr/lib64/clang/10.0.0/include/avx512vlbitalgintrin.h |
| /usr/lib64/clang/10.0.0/include/avx512vlbwintrin.h |
| /usr/lib64/clang/10.0.0/include/avx512vlcdintrin.h |
| /usr/lib64/clang/10.0.0/include/avx512vldqintrin.h |
| /usr/lib64/clang/10.0.0/include/avx512vlintrin.h |
| /usr/lib64/clang/10.0.0/include/avx512vlvbmi2intrin.h |
| /usr/lib64/clang/10.0.0/include/avx512vlvnniintrin.h |
| /usr/lib64/clang/10.0.0/include/avx512vlvp2intersectintrin.h |
| /usr/lib64/clang/10.0.0/include/avx512vnniintrin.h |
| /usr/lib64/clang/10.0.0/include/avx512vp2intersectintrin.h |
| /usr/lib64/clang/10.0.0/include/avx512vpopcntdqintrin.h |
| /usr/lib64/clang/10.0.0/include/avx512vpopcntdqvlintrin.h |
| /usr/lib64/clang/10.0.0/include/avxintrin.h |
| /usr/lib64/clang/10.0.0/include/bmi2intrin.h |
| /usr/lib64/clang/10.0.0/include/bmiintrin.h |
| /usr/lib64/clang/10.0.0/include/cetintrin.h |
| /usr/lib64/clang/10.0.0/include/cldemoteintrin.h |
| /usr/lib64/clang/10.0.0/include/clflushoptintrin.h |
| /usr/lib64/clang/10.0.0/include/clwbintrin.h |
| /usr/lib64/clang/10.0.0/include/clzerointrin.h |
| /usr/lib64/clang/10.0.0/include/cpuid.h |
| /usr/lib64/clang/10.0.0/include/cuda_wrappers |
| /usr/lib64/clang/10.0.0/include/cuda_wrappers/algorithm |
| /usr/lib64/clang/10.0.0/include/cuda_wrappers/complex |
| /usr/lib64/clang/10.0.0/include/cuda_wrappers/new |
| /usr/lib64/clang/10.0.0/include/emmintrin.h |
| /usr/lib64/clang/10.0.0/include/enqcmdintrin.h |
| /usr/lib64/clang/10.0.0/include/f16cintrin.h |
| /usr/lib64/clang/10.0.0/include/float.h |
| /usr/lib64/clang/10.0.0/include/fma4intrin.h |
| /usr/lib64/clang/10.0.0/include/fmaintrin.h |
| /usr/lib64/clang/10.0.0/include/fuzzer |
| /usr/lib64/clang/10.0.0/include/fuzzer/FuzzedDataProvider.h |
| /usr/lib64/clang/10.0.0/include/fxsrintrin.h |
| /usr/lib64/clang/10.0.0/include/gfniintrin.h |
| /usr/lib64/clang/10.0.0/include/htmintrin.h |
| /usr/lib64/clang/10.0.0/include/htmxlintrin.h |
| /usr/lib64/clang/10.0.0/include/ia32intrin.h |
| /usr/lib64/clang/10.0.0/include/immintrin.h |
| /usr/lib64/clang/10.0.0/include/intrin.h |
| /usr/lib64/clang/10.0.0/include/inttypes.h |
| /usr/lib64/clang/10.0.0/include/invpcidintrin.h |
| /usr/lib64/clang/10.0.0/include/iso646.h |
| /usr/lib64/clang/10.0.0/include/limits.h |
| /usr/lib64/clang/10.0.0/include/lwpintrin.h |
| /usr/lib64/clang/10.0.0/include/lzcntintrin.h |
| /usr/lib64/clang/10.0.0/include/mm3dnow.h |
| /usr/lib64/clang/10.0.0/include/mm_malloc.h |
| /usr/lib64/clang/10.0.0/include/mmintrin.h |
| /usr/lib64/clang/10.0.0/include/module.modulemap |
| /usr/lib64/clang/10.0.0/include/movdirintrin.h |
| /usr/lib64/clang/10.0.0/include/msa.h |
| /usr/lib64/clang/10.0.0/include/mwaitxintrin.h |
| /usr/lib64/clang/10.0.0/include/nmmintrin.h |
| /usr/lib64/clang/10.0.0/include/opencl-c-base.h |
| /usr/lib64/clang/10.0.0/include/opencl-c.h |
| /usr/lib64/clang/10.0.0/include/openmp_wrappers |
| /usr/lib64/clang/10.0.0/include/openmp_wrappers/__clang_openmp_math.h |
| /usr/lib64/clang/10.0.0/include/openmp_wrappers/__clang_openmp_math_declares.h |
| /usr/lib64/clang/10.0.0/include/openmp_wrappers/cmath |
| /usr/lib64/clang/10.0.0/include/openmp_wrappers/math.h |
| /usr/lib64/clang/10.0.0/include/pconfigintrin.h |
| /usr/lib64/clang/10.0.0/include/pkuintrin.h |
| /usr/lib64/clang/10.0.0/include/pmmintrin.h |
| /usr/lib64/clang/10.0.0/include/popcntintrin.h |
| /usr/lib64/clang/10.0.0/include/ppc_wrappers |
| /usr/lib64/clang/10.0.0/include/ppc_wrappers/emmintrin.h |
| /usr/lib64/clang/10.0.0/include/ppc_wrappers/mm_malloc.h |
| /usr/lib64/clang/10.0.0/include/ppc_wrappers/mmintrin.h |
| /usr/lib64/clang/10.0.0/include/ppc_wrappers/pmmintrin.h |
| /usr/lib64/clang/10.0.0/include/ppc_wrappers/smmintrin.h |
| /usr/lib64/clang/10.0.0/include/ppc_wrappers/tmmintrin.h |
| /usr/lib64/clang/10.0.0/include/ppc_wrappers/xmmintrin.h |
| /usr/lib64/clang/10.0.0/include/prfchwintrin.h |
| /usr/lib64/clang/10.0.0/include/profile |
| /usr/lib64/clang/10.0.0/include/profile/InstrProfData.inc |
| /usr/lib64/clang/10.0.0/include/ptwriteintrin.h |
| /usr/lib64/clang/10.0.0/include/rdseedintrin.h |
| /usr/lib64/clang/10.0.0/include/rtmintrin.h |
| /usr/lib64/clang/10.0.0/include/s390intrin.h |
| /usr/lib64/clang/10.0.0/include/sanitizer |
| /usr/lib64/clang/10.0.0/include/sanitizer/allocator_interface.h |
| /usr/lib64/clang/10.0.0/include/sanitizer/asan_interface.h |
| /usr/lib64/clang/10.0.0/include/sanitizer/common_interface_defs.h |
| /usr/lib64/clang/10.0.0/include/sanitizer/coverage_interface.h |
| /usr/lib64/clang/10.0.0/include/sanitizer/dfsan_interface.h |
| /usr/lib64/clang/10.0.0/include/sanitizer/hwasan_interface.h |
| /usr/lib64/clang/10.0.0/include/sanitizer/linux_syscall_hooks.h |
| /usr/lib64/clang/10.0.0/include/sanitizer/lsan_interface.h |
| /usr/lib64/clang/10.0.0/include/sanitizer/msan_interface.h |
| /usr/lib64/clang/10.0.0/include/sanitizer/netbsd_syscall_hooks.h |
| /usr/lib64/clang/10.0.0/include/sanitizer/scudo_interface.h |
| /usr/lib64/clang/10.0.0/include/sanitizer/tsan_interface.h |
| /usr/lib64/clang/10.0.0/include/sanitizer/tsan_interface_atomic.h |
| /usr/lib64/clang/10.0.0/include/sanitizer/ubsan_interface.h |
| /usr/lib64/clang/10.0.0/include/sgxintrin.h |
| /usr/lib64/clang/10.0.0/include/shaintrin.h |
| /usr/lib64/clang/10.0.0/include/smmintrin.h |
| /usr/lib64/clang/10.0.0/include/stdalign.h |
| /usr/lib64/clang/10.0.0/include/stdarg.h |
| /usr/lib64/clang/10.0.0/include/stdatomic.h |
| /usr/lib64/clang/10.0.0/include/stdbool.h |
| /usr/lib64/clang/10.0.0/include/stddef.h |
| /usr/lib64/clang/10.0.0/include/stdint.h |
| /usr/lib64/clang/10.0.0/include/stdnoreturn.h |
| /usr/lib64/clang/10.0.0/include/tbmintrin.h |
| /usr/lib64/clang/10.0.0/include/tgmath.h |
| /usr/lib64/clang/10.0.0/include/tmmintrin.h |
| /usr/lib64/clang/10.0.0/include/unwind.h |
| /usr/lib64/clang/10.0.0/include/vadefs.h |
| /usr/lib64/clang/10.0.0/include/vaesintrin.h |
| /usr/lib64/clang/10.0.0/include/varargs.h |
| /usr/lib64/clang/10.0.0/include/vecintrin.h |
| /usr/lib64/clang/10.0.0/include/vpclmulqdqintrin.h |
| /usr/lib64/clang/10.0.0/include/waitpkgintrin.h |
| /usr/lib64/clang/10.0.0/include/wbnoinvdintrin.h |
| /usr/lib64/clang/10.0.0/include/wmmintrin.h |
| /usr/lib64/clang/10.0.0/include/x86intrin.h |
| /usr/lib64/clang/10.0.0/include/xmmintrin.h |
| /usr/lib64/clang/10.0.0/include/xopintrin.h |
| /usr/lib64/clang/10.0.0/include/xray |
| /usr/lib64/clang/10.0.0/include/xray/xray_interface.h |
| /usr/lib64/clang/10.0.0/include/xray/xray_log_interface.h |
| /usr/lib64/clang/10.0.0/include/xray/xray_records.h |
| /usr/lib64/clang/10.0.0/include/xsavecintrin.h |
| /usr/lib64/clang/10.0.0/include/xsaveintrin.h |
| /usr/lib64/clang/10.0.0/include/xsaveoptintrin.h |
| /usr/lib64/clang/10.0.0/include/xsavesintrin.h |
| /usr/lib64/clang/10.0.0/include/xtestintrin.h |
| /usr/lib64/clang/10.0.0/lib |
| /usr/lib64/clang/10.0.0/lib/linux |
| /usr/lib64/clang/10.0.0/lib/linux/clang_rt.crtbegin-x86_64.o |
| /usr/lib64/clang/10.0.0/lib/linux/clang_rt.crtend-x86_64.o |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.asan-preinit-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.asan-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.asan-x86_64.a.syms |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.asan-x86_64.so |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.asan_cxx-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.asan_cxx-x86_64.a.syms |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.builtins-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.cfi-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.cfi_diag-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.dd-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.dfsan-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.dfsan-x86_64.a.syms |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.dyndd-x86_64.so |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.fuzzer-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.fuzzer_no_main-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.gwp_asan-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.hwasan-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.hwasan-x86_64.a.syms |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.hwasan-x86_64.so |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.hwasan_cxx-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.hwasan_cxx-x86_64.a.syms |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.lsan-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.msan-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.msan-x86_64.a.syms |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.msan_cxx-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.msan_cxx-x86_64.a.syms |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.profile-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.safestack-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.scudo-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.scudo-x86_64.so |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.scudo_cxx-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.scudo_cxx_minimal-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.scudo_minimal-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.scudo_minimal-x86_64.so |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.scudo_standalone-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.scudo_standalone_cxx-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.stats-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.stats_client-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.tsan-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.tsan-x86_64.a.syms |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.tsan_cxx-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.tsan_cxx-x86_64.a.syms |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.ubsan_minimal-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.ubsan_minimal-x86_64.a.syms |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.ubsan_minimal-x86_64.so |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.ubsan_standalone-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.ubsan_standalone-x86_64.a.syms |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.ubsan_standalone-x86_64.so |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.ubsan_standalone_cxx-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.ubsan_standalone_cxx-x86_64.a.syms |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.xray-basic-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.xray-fdr-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.xray-profiling-x86_64.a |
| /usr/lib64/clang/10.0.0/lib/linux/libclang_rt.xray-x86_64.a |
| /usr/lib64/clang/10.0.0/share |
| /usr/lib64/clang/10.0.0/share/asan_blacklist.txt |
| /usr/lib64/clang/10.0.0/share/cfi_blacklist.txt |
| /usr/lib64/clang/10.0.0/share/dfsan_abilist.txt |
| /usr/lib64/clang/10.0.0/share/hwasan_blacklist.txt |
| /usr/lib64/clang/10.0.0/share/msan_blacklist.txt |
| /usr/lib64/libclang-cpp.so.10 |
| /usr/lib64/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.
|