MonetDB: Oct2014 - Approved tests.

[Sjoerd Mullender]

Changeset: 36d5885e4ced for MonetDB
URL: http://dev.monetdb.org/hg/MonetDB?cmd=changeset;node=36d5885e4ced
Modified Files:
        clients/Tests/MAL-signatures_all.stable.out
        clients/Tests/MAL-signatures_fits_geom.stable.out
        clients/Tests/MAL-signatures_geom.stable.out
        clients/Tests/MAL-signatures_none.stable.out
        clients/Tests/exports.stable.out
Branch: Oct2014
Log Message:

Approved tests.


diffs (151 lines):

diff --git a/clients/Tests/MAL-signatures_all.stable.out 
b/clients/Tests/MAL-signatures_all.stable.out
--- a/clients/Tests/MAL-signatures_all.stable.out
+++ b/clients/Tests/MAL-signatures_all.stable.out
@@ -2394,10 +2394,6 @@ command algebra.bandjoin(outer:bat[:oid,
 address ALGbandjoin2;
 comment This is a join() for which the predicate is that two BUNs match        
        if the left-tail value is within the range [right-head - minus,         
right-head + plus], depending on (l_in/h_in), the bounds                are 
included. Works only for the builtin numerical types,               and their 
derivates.
 
-command 
algebra.crossproduct(left:bat[:any_1,:any_2],right:bat[:any_3,:any_4]):bat[:any_1,:any_4]
 
-address ALGcross;
-comment Returns the cross product
-
 command algebra.crossproduct(left:bat[:oid,:any_1],right:bat[:oid,:any_2]) 
(l:bat[:oid,:oid],r:bat[:oid,:oid]) 
 address ALGcrossproduct2;
 comment Returns 2 columns with all BUNs, consisting of the head-oids     from 
'left' and 'right' for which there are BUNs in 'left'      and 'right' with 
equal tails
@@ -2541,18 +2537,6 @@ command algebra.mark_grp(b:bat[:any_1,:o
 address ALGmark_grp_1;
 comment "grouped mark": Produces a new BAT with per group a locally unique 
dense ascending sequence of OIDs in the tail. The tail of the first BAT (b) 
identifies the group that each BUN of b belongs to. The second BAT (g) 
represents the group extent, i.e., the head is the unique list of group IDs 
from b's tail. The tail of g gives for each group the base value for the new 
OID sequence.
 
-command 
algebra.markH(b:bat[:any_1,:any_2],nr_parts:int,part_nr:int):bat[:oid,:any_2] 
-address ALGhmarkp;
-comment Produces a BAT with fresh unique dense sequense of OIDs in     the 
head that starts at base (i.e. [base,..base+b.count()-1] ). The base is 
uniquely defined by the part_nr (ie we set the highest      bits based on the 
part_nr/nr_parts) 
-
-command algebra.markH(b:bat[:any_1,:any_2],base:oid):bat[:oid,:any_2] 
-address ALGmarkHead;
-comment Produces a new BAT with fresh unique dense sequense of OIDs in         
the head that starts at base (i.e. [base,..base+b.count()-1] ).
-
-command algebra.markH(b:bat[:any_1,:any_2]):bat[:oid,:any_2] 
-address ALGmarkHead_default;
-comment Produces a BAT with fresh OIDs in the head starting at 0@0.
-
 command 
algebra.mark(b:bat[:any_1,:any_2],nr_parts:int,part_nr:int):bat[:any_1,:oid] 
 address ALGtmarkp;
 comment Produces a BAT with fresh unique dense sequense of OIDs in     the 
tail that starts at base (i.e. [base,..base+b.count()-1] ). The base is 
uniquely defined by the part_nr (ie we set the highest      bits based on the 
part_nr/nr_parts) 
diff --git a/clients/Tests/MAL-signatures_fits_geom.stable.out 
b/clients/Tests/MAL-signatures_fits_geom.stable.out
--- a/clients/Tests/MAL-signatures_fits_geom.stable.out
+++ b/clients/Tests/MAL-signatures_fits_geom.stable.out
@@ -2395,10 +2395,6 @@ command algebra.bandjoin(outer:bat[:oid,
 address ALGbandjoin2;
 comment This is a join() for which the predicate is that two BUNs match        
        if the left-tail value is within the range [right-head - minus,         
        right-head + plus], depending on (l_in/h_in), the bounds                
are included. Works only for the builtin numerical types,               and 
their derivates.
 
-command 
algebra.crossproduct(left:bat[:any_1,:any_2],right:bat[:any_3,:any_4]):bat[:any_1,:any_4]
 
-address ALGcross;
-comment Returns the cross product
-
 command algebra.crossproduct(left:bat[:oid,:any_1],right:bat[:oid,:any_2]) 
(l:bat[:oid,:oid],r:bat[:oid,:oid]) 
 address ALGcrossproduct2;
 comment Returns 2 columns with all BUNs, consisting of the head-oids     from 
'left' and 'right' for which there are BUNs in 'left'      and 'right' with 
equal tails
@@ -2542,18 +2538,6 @@ command algebra.mark_grp(b:bat[:any_1,:o
 address ALGmark_grp_1;
 comment "grouped mark": Produces a new BAT with per group a locally unique 
dense ascending sequence of OIDs in the tail. The tail of the first BAT (b) 
identifies the group that each BUN of b belongs to. The second BAT (g) 
represents the group extent, i.e., the head is the unique list of group IDs 
from b's tail. The tail of g gives for each group the base value for the new 
OID sequence.
 
-command 
algebra.markH(b:bat[:any_1,:any_2],nr_parts:int,part_nr:int):bat[:oid,:any_2] 
-address ALGhmarkp;
-comment Produces a BAT with fresh unique dense sequense of OIDs in     the 
head that starts at base (i.e. [base,..base+b.count()-1] ). The base is 
uniquely defined by the part_nr (ie we set the highest      bits based on the 
part_nr/nr_parts) 
-
-command algebra.markH(b:bat[:any_1,:any_2],base:oid):bat[:oid,:any_2] 
-address ALGmarkHead;
-comment Produces a new BAT with fresh unique dense sequense of OIDs in         
        the head that starts at base (i.e. [base,..base+b.count()-1] ).
-
-command algebra.markH(b:bat[:any_1,:any_2]):bat[:oid,:any_2] 
-address ALGmarkHead_default;
-comment Produces a BAT with fresh OIDs in the head starting at 0@0.
-
 command 
algebra.mark(b:bat[:any_1,:any_2],nr_parts:int,part_nr:int):bat[:any_1,:oid] 
 address ALGtmarkp;
 comment Produces a BAT with fresh unique dense sequense of OIDs in     the 
tail that starts at base (i.e. [base,..base+b.count()-1] ). The base is 
uniquely defined by the part_nr (ie we set the highest      bits based on the 
part_nr/nr_parts) 
diff --git a/clients/Tests/MAL-signatures_geom.stable.out 
b/clients/Tests/MAL-signatures_geom.stable.out
--- a/clients/Tests/MAL-signatures_geom.stable.out
+++ b/clients/Tests/MAL-signatures_geom.stable.out
@@ -2395,10 +2395,6 @@ command algebra.bandjoin(outer:bat[:oid,
 address ALGbandjoin2;
 comment This is a join() for which the predicate is that two BUNs match        
        if the left-tail value is within the range [right-head - minus,         
        right-head + plus], depending on (l_in/h_in), the bounds                
are included. Works only for the builtin numerical types,               and 
their derivates.
 
-command 
algebra.crossproduct(left:bat[:any_1,:any_2],right:bat[:any_3,:any_4]):bat[:any_1,:any_4]
 
-address ALGcross;
-comment Returns the cross product
-
 command algebra.crossproduct(left:bat[:oid,:any_1],right:bat[:oid,:any_2]) 
(l:bat[:oid,:oid],r:bat[:oid,:oid]) 
 address ALGcrossproduct2;
 comment Returns 2 columns with all BUNs, consisting of the head-oids     from 
'left' and 'right' for which there are BUNs in 'left'      and 'right' with 
equal tails
@@ -2542,18 +2538,6 @@ command algebra.mark_grp(b:bat[:any_1,:o
 address ALGmark_grp_1;
 comment "grouped mark": Produces a new BAT with per group a locally unique 
dense ascending sequence of OIDs in the tail. The tail of the first BAT (b) 
identifies the group that each BUN of b belongs to. The second BAT (g) 
represents the group extent, i.e., the head is the unique list of group IDs 
from b's tail. The tail of g gives for each group the base value for the new 
OID sequence.
 
-command 
algebra.markH(b:bat[:any_1,:any_2],nr_parts:int,part_nr:int):bat[:oid,:any_2] 
-address ALGhmarkp;
-comment Produces a BAT with fresh unique dense sequense of OIDs in     the 
head that starts at base (i.e. [base,..base+b.count()-1] ). The base is 
uniquely defined by the part_nr (ie we set the highest      bits based on the 
part_nr/nr_parts) 
-
-command algebra.markH(b:bat[:any_1,:any_2],base:oid):bat[:oid,:any_2] 
-address ALGmarkHead;
-comment Produces a new BAT with fresh unique dense sequense of OIDs in         
        the head that starts at base (i.e. [base,..base+b.count()-1] ).
-
-command algebra.markH(b:bat[:any_1,:any_2]):bat[:oid,:any_2] 
-address ALGmarkHead_default;
-comment Produces a BAT with fresh OIDs in the head starting at 0@0.
-
 command 
algebra.mark(b:bat[:any_1,:any_2],nr_parts:int,part_nr:int):bat[:any_1,:oid] 
 address ALGtmarkp;
 comment Produces a BAT with fresh unique dense sequense of OIDs in     the 
tail that starts at base (i.e. [base,..base+b.count()-1] ). The base is 
uniquely defined by the part_nr (ie we set the highest      bits based on the 
part_nr/nr_parts) 
diff --git a/clients/Tests/MAL-signatures_none.stable.out 
b/clients/Tests/MAL-signatures_none.stable.out
--- a/clients/Tests/MAL-signatures_none.stable.out
+++ b/clients/Tests/MAL-signatures_none.stable.out
@@ -2394,10 +2394,6 @@ command algebra.bandjoin(outer:bat[:oid,
 address ALGbandjoin2;
 comment This is a join() for which the predicate is that two BUNs match        
        if the left-tail value is within the range [right-head - minus,         
right-head + plus], depending on (l_in/h_in), the bounds                are 
included. Works only for the builtin numerical types,               and their 
derivates.
 
-command 
algebra.crossproduct(left:bat[:any_1,:any_2],right:bat[:any_3,:any_4]):bat[:any_1,:any_4]
 
-address ALGcross;
-comment Returns the cross product
-
 command algebra.crossproduct(left:bat[:oid,:any_1],right:bat[:oid,:any_2]) 
(l:bat[:oid,:oid],r:bat[:oid,:oid]) 
 address ALGcrossproduct2;
 comment Returns 2 columns with all BUNs, consisting of the head-oids     from 
'left' and 'right' for which there are BUNs in 'left'      and 'right' with 
equal tails
@@ -2541,18 +2537,6 @@ command algebra.mark_grp(b:bat[:any_1,:o
 address ALGmark_grp_1;
 comment "grouped mark": Produces a new BAT with per group a locally unique 
dense ascending sequence of OIDs in the tail. The tail of the first BAT (b) 
identifies the group that each BUN of b belongs to. The second BAT (g) 
represents the group extent, i.e., the head is the unique list of group IDs 
from b's tail. The tail of g gives for each group the base value for the new 
OID sequence.
 
-command 
algebra.markH(b:bat[:any_1,:any_2],nr_parts:int,part_nr:int):bat[:oid,:any_2] 
-address ALGhmarkp;
-comment Produces a BAT with fresh unique dense sequense of OIDs in     the 
head that starts at base (i.e. [base,..base+b.count()-1] ). The base is 
uniquely defined by the part_nr (ie we set the highest      bits based on the 
part_nr/nr_parts) 
-
-command algebra.markH(b:bat[:any_1,:any_2],base:oid):bat[:oid,:any_2] 
-address ALGmarkHead;
-comment Produces a new BAT with fresh unique dense sequense of OIDs in         
the head that starts at base (i.e. [base,..base+b.count()-1] ).
-
-command algebra.markH(b:bat[:any_1,:any_2]):bat[:oid,:any_2] 
-address ALGmarkHead_default;
-comment Produces a BAT with fresh OIDs in the head starting at 0@0.
-
 command 
algebra.mark(b:bat[:any_1,:any_2],nr_parts:int,part_nr:int):bat[:any_1,:oid] 
 address ALGtmarkp;
 comment Produces a BAT with fresh unique dense sequense of OIDs in     the 
tail that starts at base (i.e. [base,..base+b.count()-1] ). The base is 
uniquely defined by the part_nr (ie we set the highest      bits based on the 
part_nr/nr_parts) 
diff --git a/clients/Tests/exports.stable.out b/clients/Tests/exports.stable.out
--- a/clients/Tests/exports.stable.out
+++ b/clients/Tests/exports.stable.out
@@ -754,7 +754,6 @@ str ALGleftfetchjoin(bat *result, const 
 str ALGleftjoin(bat *result, const bat *lid, const bat *rid);
 str ALGleftjoinestimate(bat *result, const bat *lid, const bat *rid, const lng 
*estimate);
 str ALGlike(bat *ret, const bat *bid, const str *k);
-str ALGmarkHead(bat *result, const bat *bid, const oid *base);
 str ALGmarkHead_default(bat *result, const bat *bid);
 str ALGmark_grp_1(bat *result, const bat *bid, const bat *gid);
 str ALGmark_grp_2(bat *result, const bat *bid, const bat *gid, const oid 
*base);
@@ -2525,7 +2524,6 @@ char *mal_trace;
 void mal_unquote(char *msg);
 str manifoldRef;
 str mapiRef;
-str markHRef;
 str markRef;
 str mark_grpRef;
 str matRef;
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