Key | Value |
---|---|
FileName | ./usr/share/locale/an/LC_MESSAGES/org.sugarlabs.AbacusActivity.mo |
FileSize | 1447 |
MD5 | B1C145086AA622CC2768E19BB9F8F242 |
SHA-1 | 05D5165E0D2AEC0902DE5CCF05968846F8B91FC5 |
SHA-256 | 24B3A797696CF168BAA1FEB3C9A382B06B8369D3B90BB2D456B9B7D5FDC105FB |
SSDEEP | 24:+xJnPn/MbKODlZfKYrYkplyx5Lvdt0d0nvT3XmGJKBUQ8mHJbyY:+/n+jUkpsx5LvUdDgbWbb |
TLSH | T1F031D843DD358453E138BE75CA6A5B4003289BCE9795E786325C36743582B9812DBA78 |
hashlookup:parent-total | 3 |
hashlookup:trust | 65 |
The searched file hash is included in 3 parent files which include package known and seen by metalookup. A sample is included below:
Key | Value |
---|---|
MD5 | B16CAACAAB3F7329C055199A5CD74FC3 |
PackageArch | noarch |
PackageDescription | Abacus lets the learner explore different representations of numbers using different mechanical counting systems developed by the ancient Romans and Chinese. There are several different variants available for exploration: a suanpan, the traditional Chinese abacus with 2 beads on top and 5 beads below; a soroban, the traditional Japanese abacus with 1 bead on top and 4 beads below; the schety, the traditional Russian abacus, with 10 beads per column, with the exception of one column with just 4 beads used for counting in fourths; and the nepohualtzintzin, the traditional Mayan abacus, with 3 beads on top and 4 beads below (it uses base 20). |
PackageMaintainer | Fedora Project |
PackageName | sugar-abacus |
PackageRelease | 2.fc32 |
PackageVersion | 61 |
SHA-1 | 47CAADA0C2B608AEE050C89B98872B16E971E52D |
SHA-256 | 39071A2A5C2C4219C94010B8334D5F4FA4CDD32B244DA301DF3B2477F52C93F9 |
Key | Value |
---|---|
MD5 | 03CAE63AC7B7D70B7ADCD6937CDF9933 |
PackageArch | noarch |
PackageDescription | Abacus lets the learner explore different representations of numbers using different mechanical counting systems developed by the ancient Romans and Chinese. There are several different variants available for exploration: a suanpan, the traditional Chinese abacus with 2 beads on top and 5 beads below; a soroban, the traditional Japanese abacus with 1 bead on top and 4 beads below; the schety, the traditional Russian abacus, with 10 beads per column, with the exception of one column with just 4 beads used for counting in fourths; and the nepohualtzintzin, the traditional Mayan abacus, with 3 beads on top and 4 beads below (it uses base 20). |
PackageMaintainer | Fedora Project |
PackageName | sugar-abacus |
PackageRelease | 4.fc34 |
PackageVersion | 61 |
SHA-1 | 2D16FD6D1BFCB6848FA4C921BD15C4F3166ED9FF |
SHA-256 | DE8AD05DC6331C13EB74892AD1A5B5A3FC681A3D542A24E1465CD56A083C2DEC |
Key | Value |
---|---|
MD5 | 660922B5BCB2B5CCA2A22B445D80EB8C |
PackageArch | noarch |
PackageDescription | Abacus lets the learner explore different representations of numbers using different mechanical counting systems developed by the ancient Romans and Chinese. There are several different variants available for exploration: a suanpan, the traditional Chinese abacus with 2 beads on top and 5 beads below; a soroban, the traditional Japanese abacus with 1 bead on top and 4 beads below; the schety, the traditional Russian abacus, with 10 beads per column, with the exception of one column with just 4 beads used for counting in fourths; and the nepohualtzintzin, the traditional Mayan abacus, with 3 beads on top and 4 beads below (it uses base 20). |
PackageMaintainer | Fedora Project |
PackageName | sugar-abacus |
PackageRelease | 3.fc33 |
PackageVersion | 61 |
SHA-1 | 26454B9E03D7C9243B97B4EEB6EACE6E3F0AEB15 |
SHA-256 | AED076B94D50489ECFD0C4B05D73101E3A4AFA4A940CCC10FAE78DBF54D56968 |