-- Copyright (c) 1991-2002, The Numerical Algorithms Group Ltd. -- All rights reserved. -- Copyright (C) 2007-2012, Gabriel Dos Reis. -- All rights reserved. -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions are -- met: -- -- - Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- -- - Redistributions in binary form must reproduce the above copyright -- notice, this list of conditions and the following disclaimer in -- the documentation and/or other materials provided with the -- distribution. -- -- - Neither the name of The Numerical ALgorithms Group Ltd. nor the -- names of its contributors may be used to endorse or promote products -- derived from this software without specific prior written permission. -- -- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS -- IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED -- TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER -- OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, -- EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, -- PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR -- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF -- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING -- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS -- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. import sys_-macros import sys_-utility namespace BOOT $topicsDefaults := '( (basic elt setelt qelt qsetelt eval xRange yRange zRange map map! qsetelt!) (conversion coerce convert retract) (hidden retractIfCan Zero One) (predicate _< _=) (algebraic _+ _- _* _*_* _/ quo rem exquo) (trignometric acos acot acsc asec asin atan cos cot csc sec sin tan) (hyperbolic acosh acoth acsch asech asinh atanh cosh coth csch sech sinh tanh) (destructive setelt qsetelt) (extraction xRange yRange zRange elt qelt) (transformation map map!)) $topicSynonyms := '( (b . basic) (h . hidden) (e . extended) (a . algebraic) (g . algebraic) (c . construct) (d . destructive) (v . conversion) (m . miscellaneous) (x . extraction) (p . predicate) (tg . trignometric) (hy . hyperbolic) (t . transformation)) $groupAssoc := '((extended . 1) (basic . 2) (hidden . 4)) $topicHash := hashTable 'EQ GETHASH("basic",$topicHash) := 2 GETHASH("algebraic",$topicHash) := 4 GETHASH("miscellaneous",$topicHash) := 13 GETHASH("extraction",$topicHash) := 6 GETHASH("conversion",$topicHash) := 7 GETHASH("hidden",$topicHash) := 3 GETHASH("extended",$topicHash) := 1 GETHASH("destructive",$topicHash) := 5 GETHASH("transformation",$topicHash) := 10 GETHASH("hyperbolic",$topicHash) := 12 GETHASH("construct",$topicHash) := 9 GETHASH("predicate",$topicHash) := 8 GETHASH("trignometric",$topicHash) := 11 --======================================================================= -- Create Hashtable of Operation Properties --======================================================================= --called at build-time before making DOCUMENTATION property mkTopicHashTable() == --given $groupAssoc = ((extended . 1)(basic . 2)(xx . 4)..) $defaultsHash := hashTable 'EQ --keys are ops, value is list of topic names for [kind,:items] in $topicsDefaults repeat --$topicsDefaults is (( op ...) ..) for item in items repeat tableValue($defaultsHash,item) := [kind,:tableValue($defaultsHash,item)] $conTopicHash := hashTable 'EQL --key is constructor name; value is instream := inputTextFile '"topics.data" while not EOFP instream repeat line := readLine instream while blankLine? line repeat line := readLine instream m := maxIndex line --file "topics.data" has form: m = -1 => 'skip --1 ConstructorName: stringChar(line,0) = char "-" => 'skip --2 constructorName or operation name line := trimString line --3-n ... m := maxIndex line -- (blank line) ... stringChar(line,m) ~= char ":" => systemError('"wrong heading") con := makeSymbol subString(line,0,m) alist := [lst while (line := readLine instream) ~= %nothing and not blankLine? line and stringChar(line,0) ~= char "-" for i in 1.. | lst := string2OpAlist line] alist => tableValue($conTopicHash,con) := alist --initialize table of topic classes $topicHash := hashTable 'EQ --$topicHash has keys: topic and value: index for [x,:c] in $groupAssoc repeat tableValue($topicHash,x) := c $topicIndex := rest last $groupAssoc --replace each property list by a topic code --store under each construct an OR of all codes for [con,:item] in entries $conTopicHash repeat conCode := 0 for pair in item repeat pair.rest := code := topicCode rest pair conCode := LOGIOR(conCode,code) tableValue($conTopicHash,con) := [['constructor,:conCode],:tableValue($conTopicHash,con)] SHUT instream --reduce integers stored under names to 1 + its power of 2 for [key,:item] in entries $topicHash repeat tableValue($topicHash,key) := INTEGER_-LENGTH item $conTopicHash --keys are ops or 'constructor', values are codes blankLine? line == #line = 0 or and/[stringChar(line,j) = char " " for j in 0..maxIndex line] string2OpAlist s == m := #s k := skipBlanks(s,0,m) or return nil upperCase? stringChar(s,k) => nil --skip constructor names k := 0 while (k := skipBlanks(s,k,m)) repeat acc := [makeSymbol subString(s,k,-k + (k := charPosition(char " ",s,k + 1))),:acc] acc := reverse! acc --now add defaults if u := getDefaultProps first acc then acc := [first acc,:u,:rest acc] acc getDefaultProps name == u := tableValue($defaultsHash,name) if stringChar(s := symbolName name,m := maxIndex s) = char "?" then u := ['p,:u] if stringChar(s,m) = char "!" then u := ['destructive,:u] u skipBlanks(u,i,m) == while i < m and u.i = $charBlank repeat i := i + 1 i >= m => nil i --======================================================================= -- Compute Topic Code for Operation --======================================================================= topicCode lst == u := [y for x in lst] where y() == rename := LASSOC(x,$topicSynonyms) => rename x if setIntersection('(basic extended hidden),u) = nil then u := ['extended,:u] bitIndexList := nil for x in removeDuplicates u repeat bitIndexList := [fn x,:bitIndexList] where fn x == k := tableValue($topicHash,x) => k tableValue($topicHash,x) := $topicIndex := $topicIndex * 2 $topicIndex code := +/[i for i in bitIndexList] --======================================================================= -- Add Codes to Documentation Property --======================================================================= --called to modify DOCUMENTATION property for each "con" addTopic2Documentation(con,docAlist) == alist := tableValue($conTopicHash,con) or return docAlist [y for x in docAlist] where y() == [op,:pairlist] := x code := LASSOC(op,alist) or 0 for sigDoc in pairlist repeat sigDoc is [.,.] => sigDoc.rest.rest := code systemError sigDoc docAlist --======================================================================= -- Test: Display Topics for a given constructor --======================================================================= td con == $topicClasses := ASSOCRIGHT mySort [[val,:key] for [key,:val] in entries $topicHash] hash := hashTable 'EQ tdAdd(con,hash) tdPrint hash tdAdd(con,hash) == v := tableValue($conTopicHash,con) u := addTopic2Documentation(con,v) --u := getConstructorDocumentationFromDB con for pair in u | integer? (code := myLastAtom pair) and (op := first pair) ~= 'construct repeat for x in (names := code2Classes code) repeat tableValue(hash,x) := insert(op,tableValue(hash,x)) tdPrint hash == for key in mySort HKEYS hash repeat sayBrightly [key,'":"] sayBrightlyNT '" " for x in tableValue(hash,key) repeat sayBrightlyNT ['" ",x] finishLine $OutputStream topics con == --assumes that DOCUMENTATION property already has #s added $topicClasses := ASSOCRIGHT mySort [[val,:key] for [key,:val] in entries $topicHash] hash := hashTable 'EQ tdAdd(con,hash) for x in removeDuplicates [CAAR y for y in ancestorsOf(getConstructorForm con,nil)] repeat tdAdd(x,hash) for [x,:y] in entries hash repeat tableValue(hash,x) := mySort y tdPrint hash code2Classes cc == cc := 2*cc [x while cc ~= 0 for x in $topicClasses | odd? (cc := cc quo 2)] myLastAtom x == while x is [.,:x] repeat nil x --======================================================================= -- Transfer Codes to opAlist --======================================================================= transferClassCodes(conform,opAlist) == transferCodeCon(opOf conform,opAlist) for x in ancestorsOf(conform,nil) repeat transferCodeCon(CAAR x,opAlist) transferCodeCon(con,opAlist) == for pair in getConstructorDocumentationFromDB con | integer? (code := myLastAtom pair) repeat u := ASSOC(pair.op,opAlist) => lastNode(u).rest := code --======================================================================= -- Filter Operation by Topic --======================================================================= filterByTopic(opAlist,topic) == bitNumber := tableValue($topicHash,topic) [x for x in opAlist | integer? (code := myLastAtom x) and LOGBITP(bitNumber,code)] listOfTopics(conname) == doc := getConstructorDocumentationFromDB conname u := symbolTarget('constructor,doc) or return nil code := myLastAtom u --not integer? code => nil mySort [key for [key,:val] in entries $topicHash | LOGBITP(val,code)]