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;;======================================================================
(declare (unit dbmod))
(declare (uses commonmod))
(declare (uses keysmod))
(declare (uses tasksmod))
(declare (uses odsmod))
(declare (uses testsmod))
(declare (uses mtargs))
(declare (uses mtconfigf))
;; (declare (uses servermod))
(module dbmod
*
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;;======================================================================
(declare (unit dbmod))
(declare (uses commonmod))
(declare (uses keysmod))
(declare (uses tasksmod))
(declare (uses odsmod))
;; (declare (uses testsmod))
(declare (uses mtargs))
(declare (uses mtconfigf))
;; (declare (uses servermod))
(module dbmod
*
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call-with-environment-variables)
(import commonmod)
(import keysmod)
(import files)
(import tasksmod)
(import odsmod)
(import testsmod)
(import (prefix mtargs args:))
(import (prefix mtconfigf configf:))
;; (import servermod)
;; (use (prefix ulex ulex:))
(include "common_records.scm")
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call-with-environment-variables)
(import commonmod)
(import keysmod)
(import files)
(import tasksmod)
(import odsmod)
;; (import testsmod)
(import (prefix mtargs args:))
(import (prefix mtconfigf configf:))
;; (import servermod)
;; (use (prefix ulex ulex:))
(include "common_records.scm")
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;; record for keeping state,status and count for doing roll-ups in
;; iterated tests
;;
(defstruct dbr:counts
(state #f)
(status #f)
(count 0))
;;======================================================================
;; SQLITE3 HELPERS
;;======================================================================
(define (db:general-sqlite-error-dump exn stmt . params)
(let ((err-status ((condition-property-accessor 'sqlite3 'status #f) exn))) ;; RADT ... how does this work?
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;; record for keeping state,status and count for doing roll-ups in
;; iterated tests
;;
(defstruct dbr:counts
(state #f)
(status #f)
(count 0))
;; more crap.
(define (tests:get-tests-search-path cfgdat)
(let ((paths (let ((section (if cfgdat
(configf:get-section cfgdat "tests-paths")
#f)))
(if section
(map cadr section)
'()))))
(filter (lambda (d)
(if (directory-exists? d)
d
(begin
(if (common:low-noise-print 60 "tests:get-tests-search-path" d)
(debug:print 0 *default-log-port* "WARNING: problem with directory " d ", dropping it from tests path"))
#f)))
(append paths (list (conc *toppath* "/tests"))))))
(define (mt:lazy-read-test-config test-name)
(let ((tconf (hash-table-ref/default *testconfigs* test-name #f)))
(if tconf
tconf
(let ((test-dirs (tests:get-tests-search-path *configdat*)))
(let loop ((hed (car test-dirs))
(tal (cdr test-dirs)))
;; Setting MT_LINKTREE here is almost certainly unnecessary.
(let ((tconfig-file (conc hed "/" test-name "/testconfig")))
(if (and (common:file-exists? tconfig-file)
(file-read-access? tconfig-file))
(let ((link-tree-path (common:get-linktree)) ;; (configf:lookup *configdat* "setup" "linktree"))
(old-link-tree (get-environment-variable "MT_LINKTREE")))
(if link-tree-path (setenv "MT_LINKTREE" link-tree-path))
(let ((newtcfg (configf:read-config tconfig-file #f #f))) ;; NOTE: Does NOT run [system ...]
(hash-table-set! *testconfigs* test-name newtcfg)
(if old-link-tree
(setenv "MT_LINKTREE" old-link-tree)
(unsetenv "MT_LINKTREE"))
newtcfg))
(if (null? tal)
(begin
(debug:print-error 0 *default-log-port* "No readable testconfig found for " test-name)
#f)
(loop (car tal)(cdr tal))))))))))
;; if itempath is #f then look only at the testname part
;;
(define (tests:match->sqlqry patterns)
(if (string? patterns)
(let ((patts (string-split patterns ",")))
(if (null? patts) ;;; no pattern(s) means no match, we will do no query
#f
(let loop ((patt (car patts))
(tal (cdr patts))
(res '()))
;; (print "loop: patt: " patt ", tal " tal)
(let* ((patt-parts (string-match (regexp "^([^\\/]*)(\\/(.*)|)$") patt))
(test-patt (cadr patt-parts))
(item-patt (cadddr patt-parts))
(test-qry (db:patt->like "testname" test-patt))
(item-qry (db:patt->like "item_path" item-patt))
(qry (conc "(" test-qry " AND " item-qry ")")))
;; (print "tests:match => patt-parts: " patt-parts ", test-patt: " test-patt ", item-patt: " item-patt)
(if (null? tal)
(string-intersperse (append (reverse res)(list qry)) " OR ")
(loop (car tal)(cdr tal)(cons qry res)))))))
#f))
;; keys list to key1,key2,key3 ...
(define (runs:get-std-run-fields keys remfields)
(let* ((header (append keys remfields))
(keystr (conc (keys->keystr keys) ","
(string-intersperse remfields ","))))
(list keystr header)))
;; A routine to map itempaths using a itemmap
;; patha and pathb must be strings or this will fail
;;
;; path-b is waiting on path-a
;;
(define (db:compare-itempaths test-b-name path-a path-b itemmaps )
(debug:print-info 6 *default-log-port* "ITEMMAPS: " itemmaps)
(let* ((itemmap (tests:lookup-itemmap itemmaps test-b-name)))
(if itemmap
(let ((path-b-mapped (db:multi-pattern-apply path-b itemmap)))
(debug:print-info 6 *default-log-port* "ITEMMAP is " itemmap ", path: " path-b ", mapped path: " path-b-mapped)
(equal? path-a path-b-mapped))
(equal? path-b path-a))))
;;======================================================================
;; Run keys, these are used to hierarchially organise tests and run areas
;;======================================================================
(define (keys->keystr keys) ;; => key1,key2,key3,additiona1, ...
(string-intersperse keys ","))
;;======================================================================
;; config file related routines
;;======================================================================
(define keys:config-get-fields common:get-fields)
(define (keys:make-key/field-string confdat)
(let ((fields (configf:get-section confdat "fields")))
(string-join
(map (lambda (field)(conc (car field) " " (cadr field)))
fields)
",")))
;; given the keys (a list of vectors <key field> or a list of keys) and a target return a keyval list
;; keyval list ( (key1 val1) (key2 val2) ...)
(define (keys:target->keyval keys target)
(let* ((targlist (string-split target "/"))
(numkeys (length keys))
(numtarg (length targlist))
(targtweaked (if (> numkeys numtarg)
(append targlist (make-list (- numkeys numtarg) ""))
targlist)))
(map (lambda (key targ)
(list key targ))
keys targtweaked)))
;; patterns are:
;; "rx1" "replacement1"\n
;; "rx2" "replacement2"
;; etc.
;;
(define (db:multi-pattern-apply item-path itemmap)
(let ((all-patts (string-split itemmap "\n")))
(if (null? all-patts)
item-path
(let loop ((hed (car all-patts))
(tal (cdr all-patts))
(res item-path))
(let* ((parts (string-split hed))
(patt (car parts))
(repl (if (> (length parts) 1)(cadr parts) ""))
(newr (if (and patt repl)
(begin
(handle-exceptions
exn
(begin
(debug:print 0 *default-log-port*
"WARNING: itemmap has problem \"" itemmap "\", patt: " patt ", repl: " repl)
res)
(string-substitute patt repl res))
)
(begin
(debug:print 0 *default-log-port*
"WARNING: itemmap has problem \"" itemmap "\", patt: " patt ", repl: " repl)
res))))
(if (null? tal)
newr
(loop (car tal)(cdr tal) newr)))))))
;; given a list of itemmaps (testname . map), return the first match
;;
(define (tests:lookup-itemmap itemmaps testname)
(let ((best-matches (filter (lambda (itemmap)
(tests:match (car itemmap) testname #f))
itemmaps)))
(if (null? best-matches)
#f
(let ((res (car best-matches)))
;; (debug:print 0 *default-log-port* "res=" res)
(cond
((string? res) res) ;;; FIX THE ROOT CAUSE HERE ....
((null? res) #f)
((string? (cdr res)) (cdr res)) ;; it is a pair
((string? (cadr res))(cadr res)) ;; it is a list
(else cadr res))))))
;; make a query (fieldname like 'patt1' OR fieldname
(define (db:patt->like fieldname pattstr #!key (comparator " OR "))
(let ((patts (if (string? pattstr)
(string-split pattstr ",")
'("%"))))
(string-intersperse (map (lambda (patt)
(let ((wildtype (if (substring-index "%" patt) "LIKE" "GLOB")))
(conc fieldname " " wildtype " '" patt "'")))
(if (null? patts)
'("")
patts))
comparator)))
;; if itempath is #f then look only at the testname part
;;
(define (tests:match patterns testname itempath #!key (required '()))
(if (string? patterns)
(let ((patts (append (string-split patterns ",") required)))
(if (null? patts) ;;; no pattern(s) means no match
#f
(let loop ((patt (car patts))
(tal (cdr patts)))
;; (print "loop: patt: " patt ", tal " tal)
(if (string=? patt "")
#f ;; nothing ever matches empty string - policy
(let* ((patt-parts (string-match (regexp "^([^\\/]*)(\\/(.*)|)$") patt))
(test-patt (cadr patt-parts))
(item-patt (cadddr patt-parts)))
;; special case: test vs. test/
;; test => "test" "%"
;; test/ => "test" ""
(if (and (not (substring-index "/" patt)) ;; no slash in the original
(or (not item-patt)
(equal? item-patt ""))) ;; should always be true that item-patt is ""
(set! item-patt "%"))
;; (print "tests:match => patt-parts: " patt-parts ", test-patt: " test-patt ", item-patt: " item-patt)
(if (and (tests:glob-like-match test-patt testname)
(or (not itempath)
(tests:glob-like-match (if item-patt item-patt "") itempath)))
#t
(if (null? tal)
#f
(loop (car tal)(cdr tal)))))))))))
;; tests:glob-like-match
(define (tests:glob-like-match patt str)
(let ((like (substring-index "%" patt)))
(let* ((notpatt (equal? (substring-index "~" patt) 0))
(newpatt (if notpatt (substring patt 1) patt))
(finpatt (if like
(string-substitute (regexp "%") ".*" newpatt #f)
(string-substitute (regexp "\\*") ".*" newpatt #f)))
(res #f))
;; (print "tests:glob-like-match => notpatt: " notpatt ", newpatt: " newpatt ", finpatt: " finpatt)
(set! res (string-match (regexp finpatt (if like #t #f)) str))
(if notpatt (not res) res))))
;;======================================================================
;; SQLITE3 HELPERS
;;======================================================================
(define (db:general-sqlite-error-dump exn stmt . params)
(let ((err-status ((condition-property-accessor 'sqlite3 'status #f) exn))) ;; RADT ... how does this work?
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