Result for 8B9515445476B81096477B055F38E2F6A206C55D

Query result

Key	Value
FileName	./usr/share/doc/pl-odbc-6.0.2/odbc.html
FileSize	57453
MD5	E67A657DA8B6F1DFB86DD2524BE342D9
SHA-1	8B9515445476B81096477B055F38E2F6A206C55D
SHA-256	AEBA2F993010498B7528D7FEEF27741044DD76443E0AB08F5E08D0613C53D15C
SSDEEP	1536:vMyrLuTCfk+nL1AwS/gRQ1eJ/ZyJfw6AsOaNM9SevW/WVNfZyy:vMyrLu28+nL1b+gJ/Zy9Or+Oz
TLSH	T13A43A49A320426BFC50707E8658556E5BABD0D749771C8E0B8B8C0292778CF5B276ECF
hashlookup:parent-total	12
hashlookup:trust	100

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Parents (Total: 12)

The searched file hash is included in 12 parent files which include package known and seen by metalookup. A sample is included below:

Key	Value
MD5	F3FC8C41E8F42FEFBB96520EE27C5751
PackageArch	armv5tel
PackageDescription	The value of RDMS for Prolog is often over-estimated, as Prolog itself can manage substantial amounts of data. Nevertheless a Prolog/RDMS interface provides advantages if data is already provided in an RDMS, data must be shared with other applications, there are strong persistency requirements or there is too much data to fit in memory. The popularity of ODBC makes it possible to design a single foreign-language module that provides RDMS access for a wide variety of databases on a wide variety of platforms. The SWI-Prolog RDMS interface is closely modeled after the ODBC API. This API is rather low-level, but defaults and dynamic typing provided by Prolog give the user quite simple access to RDMS, while the interface provides the best possible performance given the RDMS independency constraint.
PackageMaintainer	Fedora Project
PackageName	pl-odbc
PackageRelease	4.fc18
PackageVersion	6.0.2
SHA-1	D7A88A90D295D36DE2B83D5CC2BF093672718448
SHA-256	461FD4FBE2B254481DE2663AF4ECEF23A75E4A85FDD8AC19B56F6B0E65FF14B8

Key	Value
MD5	48EAAC02BA667C029D0CDEC20102284A
PackageArch	s390x
PackageDescription	The value of RDMS for Prolog is often over-estimated, as Prolog itself can manage substantial amounts of data. Nevertheless a Prolog/RDMS interface provides advantages if data is already provided in an RDMS, data must be shared with other applications, there are strong persistency requirements or there is too much data to fit in memory. The popularity of ODBC makes it possible to design a single foreign-language module that provides RDMS access for a wide variety of databases on a wide variety of platforms. The SWI-Prolog RDMS interface is closely modeled after the ODBC API. This API is rather low-level, but defaults and dynamic typing provided by Prolog give the user quite simple access to RDMS, while the interface provides the best possible performance given the RDMS independency constraint.
PackageMaintainer	Fedora Project
PackageName	pl-odbc
PackageRelease	3.fc17
PackageVersion	6.0.2
SHA-1	4A34D4DE6F9FBD0FF460FC825EF6C229D06D28E7
SHA-256	9BB6C99E96A872BA6B5EA5DFD44A0A2E9AED44B9061E501C3D20B4A52A7819B2

Key	Value
MD5	5D762AEB38456EAD4D40C79220025483
PackageArch	ppc64
PackageDescription	The value of RDMS for Prolog is often over-estimated, as Prolog itself can manage substantial amounts of data. Nevertheless a Prolog/RDMS interface provides advantages if data is already provided in an RDMS, data must be shared with other applications, there are strong persistency requirements or there is too much data to fit in memory. The popularity of ODBC makes it possible to design a single foreign-language module that provides RDMS access for a wide variety of databases on a wide variety of platforms. The SWI-Prolog RDMS interface is closely modeled after the ODBC API. This API is rather low-level, but defaults and dynamic typing provided by Prolog give the user quite simple access to RDMS, while the interface provides the best possible performance given the RDMS independency constraint.
PackageMaintainer	Koji
PackageName	pl-odbc
PackageRelease	3.fc17
PackageVersion	6.0.2
SHA-1	3E56F9FCEED9C2CFEDEC3DADC36554748321F66A
SHA-256	5AA58C290F6416EB4FF9DD2A7DEFD2E0E15D1453618D1319211DD670E786702F

Key	Value
MD5	D8EFA943F2C9D7F978092C21941B6AAA
PackageArch	armv7hl
PackageDescription	The value of RDMS for Prolog is often over-estimated, as Prolog itself can manage substantial amounts of data. Nevertheless a Prolog/RDMS interface provides advantages if data is already provided in an RDMS, data must be shared with other applications, there are strong persistency requirements or there is too much data to fit in memory. The popularity of ODBC makes it possible to design a single foreign-language module that provides RDMS access for a wide variety of databases on a wide variety of platforms. The SWI-Prolog RDMS interface is closely modeled after the ODBC API. This API is rather low-level, but defaults and dynamic typing provided by Prolog give the user quite simple access to RDMS, while the interface provides the best possible performance given the RDMS independency constraint.
PackageMaintainer	Fedora Project
PackageName	pl-odbc
PackageRelease	3.fc17
PackageVersion	6.0.2
SHA-1	0F2A9A5A9A4309DF60FE34F07F297117CF037454
SHA-256	58B89D2ACF4F5C0C4B790B91B6767F04A2DEAD096D4FAE7985D0455978DEA44D

Key	Value
MD5	5741C3C0F46A094FBAAE4E7574D7447A
PackageArch	s390x
PackageDescription	The value of RDMS for Prolog is often over-estimated, as Prolog itself can manage substantial amounts of data. Nevertheless a Prolog/RDMS interface provides advantages if data is already provided in an RDMS, data must be shared with other applications, there are strong persistency requirements or there is too much data to fit in memory. The popularity of ODBC makes it possible to design a single foreign-language module that provides RDMS access for a wide variety of databases on a wide variety of platforms. The SWI-Prolog RDMS interface is closely modeled after the ODBC API. This API is rather low-level, but defaults and dynamic typing provided by Prolog give the user quite simple access to RDMS, while the interface provides the best possible performance given the RDMS independency constraint.
PackageMaintainer	Fedora Project
PackageName	pl-odbc
PackageRelease	4.fc18
PackageVersion	6.0.2
SHA-1	F5915FA134F46179859C9F34E99EFEB6CAF50DE8
SHA-256	41E18590E003368347949AB831EF11AC4451CD24E16A5A9DD9AE1D6F2AEA72C3

Key	Value
MD5	D39CC136F6A0EA74210B3CF9525D899F
PackageArch	ppc
PackageDescription	The value of RDMS for Prolog is often over-estimated, as Prolog itself can manage substantial amounts of data. Nevertheless a Prolog/RDMS interface provides advantages if data is already provided in an RDMS, data must be shared with other applications, there are strong persistency requirements or there is too much data to fit in memory. The popularity of ODBC makes it possible to design a single foreign-language module that provides RDMS access for a wide variety of databases on a wide variety of platforms. The SWI-Prolog RDMS interface is closely modeled after the ODBC API. This API is rather low-level, but defaults and dynamic typing provided by Prolog give the user quite simple access to RDMS, while the interface provides the best possible performance given the RDMS independency constraint.
PackageMaintainer	Koji
PackageName	pl-odbc
PackageRelease	3.fc17
PackageVersion	6.0.2
SHA-1	D0170BAC19ECB5DB84D475832B35636F489C01E6
SHA-256	837A92B9976AD68F0E4FF82D36AE97AAC2397FF7B5EA6AC7D8C3DB9BBD1E6667

Key	Value
MD5	8B309A506AE2FDB1FBE847938E1C16EC
PackageArch	armv7hl
PackageDescription	The value of RDMS for Prolog is often over-estimated, as Prolog itself can manage substantial amounts of data. Nevertheless a Prolog/RDMS interface provides advantages if data is already provided in an RDMS, data must be shared with other applications, there are strong persistency requirements or there is too much data to fit in memory. The popularity of ODBC makes it possible to design a single foreign-language module that provides RDMS access for a wide variety of databases on a wide variety of platforms. The SWI-Prolog RDMS interface is closely modeled after the ODBC API. This API is rather low-level, but defaults and dynamic typing provided by Prolog give the user quite simple access to RDMS, while the interface provides the best possible performance given the RDMS independency constraint.
PackageMaintainer	Fedora Project
PackageName	pl-odbc
PackageRelease	4.fc18
PackageVersion	6.0.2
SHA-1	C7A9FFD1FA73E23E4C569D80A1A00952E494D5E1
SHA-256	918D462DB40793983CA5CC78EF7921D415E9259BF097F3F037838BC2B27BD523

Key	Value
MD5	E13D3548ACA9E23D08F6C051C7F113D9
PackageArch	armv5tel
PackageDescription	The value of RDMS for Prolog is often over-estimated, as Prolog itself can manage substantial amounts of data. Nevertheless a Prolog/RDMS interface provides advantages if data is already provided in an RDMS, data must be shared with other applications, there are strong persistency requirements or there is too much data to fit in memory. The popularity of ODBC makes it possible to design a single foreign-language module that provides RDMS access for a wide variety of databases on a wide variety of platforms. The SWI-Prolog RDMS interface is closely modeled after the ODBC API. This API is rather low-level, but defaults and dynamic typing provided by Prolog give the user quite simple access to RDMS, while the interface provides the best possible performance given the RDMS independency constraint.
PackageMaintainer	Fedora Project
PackageName	pl-odbc
PackageRelease	3.fc17
PackageVersion	6.0.2
SHA-1	FE3F1625D06685553B2248DBE73C832090E4F065
SHA-256	37C5C7462538ED8AF5B077FC997FC0A63D26C4BA9141077CC43910DB8B535415

Key	Value
MD5	0A36E3B18FCFE7CB386E6892C2E929F9
PackageArch	ppc
PackageDescription	The value of RDMS for Prolog is often over-estimated, as Prolog itself can manage substantial amounts of data. Nevertheless a Prolog/RDMS interface provides advantages if data is already provided in an RDMS, data must be shared with other applications, there are strong persistency requirements or there is too much data to fit in memory. The popularity of ODBC makes it possible to design a single foreign-language module that provides RDMS access for a wide variety of databases on a wide variety of platforms. The SWI-Prolog RDMS interface is closely modeled after the ODBC API. This API is rather low-level, but defaults and dynamic typing provided by Prolog give the user quite simple access to RDMS, while the interface provides the best possible performance given the RDMS independency constraint.
PackageMaintainer	Koji
PackageName	pl-odbc
PackageRelease	4.fc18
PackageVersion	6.0.2
SHA-1	D627DC6F058CCDF444F61DE069FB4C80AF03DD36
SHA-256	CE58AA3DC0A4E4AF6BC63728B4B860D86B4904DDAC299F3CC49252056F5A4267

Key	Value
MD5	5C6F729EC3B66EE1816ED6885E2DF5F8
PackageArch	s390
PackageDescription	The value of RDMS for Prolog is often over-estimated, as Prolog itself can manage substantial amounts of data. Nevertheless a Prolog/RDMS interface provides advantages if data is already provided in an RDMS, data must be shared with other applications, there are strong persistency requirements or there is too much data to fit in memory. The popularity of ODBC makes it possible to design a single foreign-language module that provides RDMS access for a wide variety of databases on a wide variety of platforms. The SWI-Prolog RDMS interface is closely modeled after the ODBC API. This API is rather low-level, but defaults and dynamic typing provided by Prolog give the user quite simple access to RDMS, while the interface provides the best possible performance given the RDMS independency constraint.
PackageMaintainer	Fedora Project
PackageName	pl-odbc
PackageRelease	4.fc18
PackageVersion	6.0.2
SHA-1	E21F94EB81CB137A40F4F14B3363050F7536E8E6
SHA-256	DBA0659CC133DBBD955533DB00E5F103BF8C92D1E5F438327D6F82B6C0CA6CFE

Key	Value
MD5	DEE1ED748C79A8D0C61A29DFF50259C2
PackageArch	ppc64
PackageDescription	The value of RDMS for Prolog is often over-estimated, as Prolog itself can manage substantial amounts of data. Nevertheless a Prolog/RDMS interface provides advantages if data is already provided in an RDMS, data must be shared with other applications, there are strong persistency requirements or there is too much data to fit in memory. The popularity of ODBC makes it possible to design a single foreign-language module that provides RDMS access for a wide variety of databases on a wide variety of platforms. The SWI-Prolog RDMS interface is closely modeled after the ODBC API. This API is rather low-level, but defaults and dynamic typing provided by Prolog give the user quite simple access to RDMS, while the interface provides the best possible performance given the RDMS independency constraint.
PackageMaintainer	Koji
PackageName	pl-odbc
PackageRelease	4.fc18
PackageVersion	6.0.2
SHA-1	0067835DB911D17CD393E31EE0F47ECCD206FD23
SHA-256	77BE5548DC7A7269BEE1CECC481E26A97D92444ACCED57C5DCD071028929945A

Key	Value
MD5	3820C0118343F34CA7DF222AD5A56CF3
PackageArch	s390
PackageDescription	The value of RDMS for Prolog is often over-estimated, as Prolog itself can manage substantial amounts of data. Nevertheless a Prolog/RDMS interface provides advantages if data is already provided in an RDMS, data must be shared with other applications, there are strong persistency requirements or there is too much data to fit in memory. The popularity of ODBC makes it possible to design a single foreign-language module that provides RDMS access for a wide variety of databases on a wide variety of platforms. The SWI-Prolog RDMS interface is closely modeled after the ODBC API. This API is rather low-level, but defaults and dynamic typing provided by Prolog give the user quite simple access to RDMS, while the interface provides the best possible performance given the RDMS independency constraint.
PackageMaintainer	Fedora Project
PackageName	pl-odbc
PackageRelease	3.fc17
PackageVersion	6.0.2
SHA-1	7836CA5DAF35B3DC8B826696C940872B94DDFDEB
SHA-256	E883ABE89547019FDFDF07156CD3D5F800923AD29D56B50B7C9773E280D236C5