lojbo jufsisku
Lojban sentence search

Total: 491 result(s)
remrnunmu
fu'ivla x1 is a non-binary-gendered humanoid person [not necessarily adult] Umbrella term for any non-man non-woman (in some aspect/consideration/standard) humanoid person; possibly includes: transgenders, people of no gender/sex, people of indeterminate gender/sex, hermaphrodites, intersexed people, bisexuals (one sense), possibly people with sex chromosomes other than (specifically and fully) XX or XY, and anyone who does not subscribe to or fit within the strict gender/sex binary (of a given society). As such, it is a specification of rempre/remna/prenu co-equal with ninmu and nanmu; it generalized some of the aforementioned cases. Word dispreferred in metaphor/example as sexist; use instead remna or prenu. See also: ninmu, nanmu, remna, prenu, makcu, bersa, tixnu, nakni, fetsi, dinti, nanla, nixli, verba, vepre
salri
experimental gismu x1 is the differintegral of x2 with respect to x3 of order x4 with starting point x5 Definition of which differintegral operator is being used is context dependent. Output x1 is a function, not a value (that is, it is f rather than f(x)); it must be specified/restricted to a value in order to be a value. x2 is likewise a function. If the function has only one variable, x3 defaults to that variable; when x2 is physical, without context, time will probably usually be assumed as the default of x3 (but may be made explicit by temsalri). Positive values of x4 are integrals, negative values are derivatives, and zero is identity; at the least, any real value may be supplied for x4; x4 has no default value. Useful for making lujvo for physics, for specifying career/total/sum versus peak/instantaneous value, for distinguishing between instantaneous versus average values/quantities, for specifying rates, generalized densities (including pressure), "per" for smooth quantities, etc. See also: salrixo (synonymous zi'evla).
salrixo
fu'ivla x1 is the differintegral of x2 with respect to x3 of order x4 with starting point x5 Definition of which differintegral operator is being used is context dependent. Output x1 is a function, not a value (that is, it is f rather than f(x)); it must be specified/restricted to a value in order to be a value. x2 is likewise a function. If the function has only one variable, x3 defaults to that variable; when x2 is physical, without context, time will probably usually be assumed as the default of x3 (but may be made explicit by {temci zei salrixo}). Positive values of x4 are integrals, negative values are derivatives, and zero is identity; at the least, any real value may be supplied for x4; x4 has no default value. Useful for making lujvo for physics, for specifying career/total/sum versus peak/instantaneous value, for distinguishing between instantaneous versus average values/quantities, for specifying rates, etc. See also: salri (synonymous gismu).
tifri
experimental gismu x1 is the audience/enjoying party of work/performance/program/transmission/experience x2 (concrete or abstract); x1 watches/listens/reads/experiences x2 All connotations about the judgment of the experience by x1 are neutral in this definition (despite the use of the "enjoy"). This word references a generalizing concept of x1 being an audience to some work or experience, such as magic acts (even if x1 participates somewhat),theatrical plays, ovations (radio, storytelling, etc.), télévision programs, books, discussions or media productions on the Internet, etc. The core concept is audiencehood, regardless of the work being enjoyed/experienced and its form. There are no connotations about how x2 is perceived by x1 (that is: which senses are used), nor how x2 is transmitted nor who or what allows x1 to experience it (that is: whether there is an agentive performer or just a piece of hardware that displays x2), nor of the nature of x2; the term is completely generic and general. See also: tigni, jarco, lifri, skina, kinzga, tirna, zgana, cradi, tivni
xulta
experimental gismu x1 is beyond/beside/abstract/meta (older sense) to x2 so as to be an abstraction thereof/external thereto, being so beyond/abstract in property/aspect x3, and having features x4, governed by/considered in system/considerations/epistemology/theory x5; x1 is conceptually beyond/external to/higher up than x2 (in, for example, existential or consideration precedence) x1 need not be an abstraction *of* x2, but must be abstract *to* it. The word "metaphysics" could be translated with/using this word. All meta things (in the sense of cmeta) are necessarily xulta, but the converse is not true; may also include all things that are sucta. This word is different from sucta in that no concept or properties need to be generalized/simplified/idealized/abstracted from x2 in order to produce x1 (by some rules); x1 is just an object/concept/system/etc. that exists beyond/external to x2 (in some "higher plane", so to speak). Do not confuse with: xutla. Proposed short rafsi: -xut-. See also: cmeta, sucta.
zviki
experimental gismu x1 (agent) creates 'hack' x2 (nu/zu'o/si'o) for system/tool x3 from inspiration x4; x2 is an emergent use/purpose for x3, unexpected by the original creators or users Contains no positive or negative connotations, can refer both to 'cool/elegant hacks' (se mlezvi) and 'kludge/ugly hacks' (se feglyzvi). Hack as in 'gain unauthorized or unexpected access to' = zvijonse, 'White-hat' hacking = vudzvi/vudzvijonse, 'black-hat' hacking = pacyzvi/pacyzvijonse, 'grey-hat' hacking = norvudzvi/norvudzvijonse. Proposed rafsi: -zvi-. See kosmu, finti, jonse
dutso
experimental gismu x1 is clockwise/right-turn-direction of[/to] x2 along/following track x3 [path] in frame of reference x4 (where the axis is within the region defined by the track as the boundary, as viewed from and defined by view(er) x4; see notes); x1 is locally to the right of x2, according to x4, constrained along x3; x1 is along a right turn from x2 along path x3, as viewed in frame x4. Angular/curling direction: clockwise. he orientation of the path determines x4 but does not factor into consideration for x3. Further glosses: clockwise, locally rightward, right-turning (with no bulk translation) in a way that would be characterized as "negative" by the right-hand rule (aligned with and in the direction of a basis vector, at least for a given component). x1 is left-handedly/clockwise(ly) oriented relative to x2 on/along x3 in frame of reference x4. x1 is left-handed (one sense) from x2 [more accurately: moving from x2 to x1 requires a(n imaginary) motion that is left-handed about/along x3 as seen in frame/orientation/perspective x4]. x1 is to the path-following right of x2 (where the path is connected; as such, x1 is also be to the path-following left of x2, although there is an implication that the former is the smaller (or equal-length) path). See also: zucna, du'ei (left-handed vectorial cross product), du'oi (modal). Proposed short rafsi: -tso-.
jo'au
experimental cmavo change version/dialect of parser do'u is the elidable terminator. The morphology and the grammar of cmevla/sumti/selbri following jo'au should conform to the version 134 of the page ``BPFK Section: PEG Morphology Algorithm'' on the website lojban.org and the official grammar so that a jo'au clause forms a free modifier compatible with every version/dialect of lojban parser: for example, ``jo'au jie bu'' and ``jo'au xy xi xei'' are not meaningful clauses. As a standard usage, jo'au clause appears at the very beginning of the whole text, just as the inverse of the usage of fa'o. The scope of the meaning of jo'au clause spans over the following part until the next jo'au clause appears. Optionally, if the first jo'au clause appears in the middle of a text, the meaning of it spans from the beginning of the text until the next jo'au clause appears. Examples of meaning: jo'au cylyly xi papipa (official yacc and jbofi'e http://www.lojban.org/jboski/ ); jo'au camxes (current peg http://camxes.lojban.org/ ); jo'au iocixes (zasni gerna of la xorxes https://skami2.iocikun.jp/lojban/zasniGerna , http://www.lojban.org/tiki/zasni+gerna ); jo'au zantufa xi nopipapa (zantufa version 0.11 http://guskant.github.io/gerna_cipra/zantufa-0.11.html ); jo'au ilmentufa xi renopavopi'epapapi'erevo (ilmentufa version 2014-11-24 http://mw.lojban.org/extensions/ilmentufa/camxes-exp.html , https://github.com/Ilmen-vodhr/ilmentufa ); jo'au fancylojban (fancylojban http://mw.lojban.org/lmw/fancylojban , http://mw.lojban.org/lmw/ce_ki_tau_jau .); jo'au gadganzu (gadri reinterpretation/reassignment proposal, http://mw.lojban.org/papri/zipcpi:_Yet_another_gadri_article ; no grammar changes, only semantic)
bai'i
experimental cmavo mekso string operator (ternary): find-and-replace; in string/text/word/sequence X1 formally replace X2 (ordered tuple of terms to be replaced) with X3 (ordered tuple of terms to be respectively substituted) X2 and X3 are ordered tuples of substrings/letters/characters/letterals/digits/numerals. The ith term in tuple X2 is replaced with the ith term in tuple X3; the replacements are executed simultaneously (thus, no overlap/contradiction can be allowed to arise in the substitution- in particular, in X2) - alternatively, if there is overlap/conflict in/between the terms of X2, the replacements are performed in order of presentation (the ith term in X2 is replaced by the ith term in X3, and then the (i+1)th term in X2 is replaced with the (i+1)th term in X3, starting with the 1st term in each). X2 and X3 must have the same length/number of terms - alternatively, X3 cannot be longer/have more terms than X2; in this situation, the ith term of X2 is replaced with the ith term of X3 until and including when the last term of X3 is reached, after which point the remaining terms in X2 are not replaced at all. Use a permutation acting on X2 as the argument for X3 in order to rearrange the substrings of X1; if the alphabet is ordered, then operators can be applied to the letters in order to rotate through the alphabet. In particular, if X1 is a binary string (a word over an alphabet of two letters) and X2 is the 2-tuple of the letters of that binary alphabet (length-1 substrings), then without specification of X3, this operator defaults to bitwise binary negation (bit conjugation) wherein each letter in X1 is replaced by the unique other letter in the binary alphabet (otherwise, the replacement would be the identity/trivial replacement or just a formal substitution letter-by-letter which does not really change the nature of the word). X1 and each entry in X2 and X3 should be quoted, match a necessary type (such as being a character), or be abstracted a level by symbolics. In general, the replacement is formal and the strings in X3 need not be over the same alphabet as the one over which X1 is written. This operator is useful for combinatorial lines and for expanding digits (such as, in a binary string, replacing each occurrence of "0" with "01" and each occurrence of "1" with "10"; note that the replacement is instantaneous and simultaneous for all terms of X2 and every occurrence of such terms in X1, thus this substitution is perfectly acceptable).
zucna
experimental gismu x1 is counterclockwise/left-turn-direction of[/to] x2 along/following track x3 [path] in frame of reference x4 (where the axis is within the region defined by the track as the boundary, as viewed from and defined by view(er) x4; see notes); x1 is locally to the left of x2, according to x4, constrained along x3; x1 is along a left turn from x2 along path x3, as viewed in frame x4. Angular/curling direction: counterclockwise. The orientation of the path determines x4 but does not factor into consideration for x3. Further glosses: counterclockwise, locally leftward, left-turning (with no bulk translation) in a way that would be characterized as "positive" by the right-hand rule (aligned with and in the direction of a basis vector, at least for a given component). x1 is right-handedly/counterclockwise(ly) oriented relative to x2 on/along x3 in frame of reference x4 x1 is right-handed (one sense) from x2 [more accurately: moving from x2 to x1 requires a(n imaginary) motion that is right-handed along x3 as seen in frame/orientation/perspective x4]. x1 is to the path-following left of x2 (where the path is connected; as such, x1 is also be to the path-following right of x2, although there is an implication that the former is the smaller (or equal-length) path). See also: dutso, za'ei (vectorial cross product), zu'au (modal). Proposed short rafsi: -zuc-, -zu'a-. (If “zn” ever becomes a permissible initial consonant pair, krtisfranks proposes that “-zna-” become a rafsi of this word- it makes zucna and dutso more parallel in lujvo formation, and he is of the opinion that this word is useful and basic enough to warrant such a prized rafsi assignment; after this addition, the current two rafsi proposals can be done away with, reassigned, maintained, vel sim. as desired by the community at the time. In particular, he recognizes that “-zu’a-” might be confusing as a rafsi for this word while being a modal cmavo for zunle; but he does believe that this word deserves a vowel-final short rafsi.)
daigno
fu'ivla x1 (ordered list) is a sampling of entries of matrix/tensor x2 in which exactly one entry is sampled from each row and/or column (etc.) between entries x3 (list; default: the largest 'square'/'hypercubic' sampling possible in the entire tensor starting with the first entry, see notes) inclusively following selection procedure/rule/function/order x4 (default: diagonally, see notes), where the tensor/matrix is expressed in basis/under conditions x5 Entries of the list in x3 need not actually be sampled; the entries listed are merely to name the minimal and maximal indices between which the sampling may be drawn. Thus, the indices/labels specified are included in the range of sampling; id est: if the matrix entries listed belong to the ith row and jth column and the (i+n)th row and (j+m)th column respectively (for positive integers i,j,n,m), then the sampling will be conducted in all rows of number between (and including) i and i+n (yielding n+1 sampled rows) and in all columns of number between (and including) j and j+m (yielding m+1 sampled columns). The default diagonal sampling procedure for x4 is as follows: The first sampled entry has the minimum allowed (as specified in x3) indices. All latter sampled entries (by default) have indices of the immediately previous sampled entry each augmented by 1. (Which is to say that if the kth sampled entry has indices (x,y,...), in that order, then the (k+1)th sampled entry has indices (x+1,y+1,...), in that order and where each subsequent index would be the respective index of the kth sampled entry augmented by 1). The process terminates generally whenever exactly one entry is sampled from each of the rows, each of the columns, etc. of the tensor. In the default, the process terminates when at least one of the indices of a sampled entry of the tensor is as large as possible in the range specified by x3. Thus, in order to reconcile the general and the default termination conditions, the range specified by x3 must be compatible with both; id est: it must be a r-dimensional hypercube of entries, so to speak, where r is the rank of tensor x2. The default for sampling range x3 is between and including the entry in the first row and first column (etc.) and the entry in the last row and last column (etc.) for an r-dimensional hypercube tensor (meaning that each row, column, etc. of the tensor has exactly the same number of entries as the others). Generally, the default range begins with the entry of indices each minimal in the tensor (called 'the first entry') and extends to include ("draw") the maximal r-dimensional hypercube of entries in the tensor with one vertex on the first entry; in other words, if the minimum of the set of maximal indices in the tensor is g, then the sampling range is every row between the first and the gth, every column between the first and the gth, etc. Generally, the sampling range must be an r-dimensional orthotope of some positive size (that is to say: including at least one entry) no larger than the tensor itself, but with the freedom to place at most r of its vertices among the entries thereof; if the default sampling procedure x4 is being used, then the r-dimensional orthotope must be an r-dimensional hypercube. Generalizes to any tensor, but is only interesting for tensors of rank at least 1. Any mention of geometric terminology (such as mention of diagonals, orthotopes, etc.) in the definition or notes of this word should be interpreted cautiously and is not necessarily good Lojbanic practice; such terminology should not necessarily be emulated in practicing Lojbanic thought or speech. Not for use for geometric diagonals (such as between vertices); confer: digno.