Changeset: 6294f5cb11ec for MonetDB
URL: http://dev.monetdb.org/hg/MonetDB?cmd=changeset;node=6294f5cb11ec
Modified Files:
clients/Tests/MAL-signatures.stable.out
clients/Tests/exports.stable.out
monetdb5/mal/Tests/tst235.mal
monetdb5/mal/Tests/tst235.stable.out
monetdb5/modules/kernel/algebra.mal
monetdb5/modules/mal/Tests/inspect05.stable.out
monetdb5/optimizer/Tests/groups00.mal
monetdb5/optimizer/Tests/groups00.stable.out
Branch: default
Log Message:
Void-headed bat signatures
diffs (truncated from 895 to 300 lines):
diff --git a/clients/Tests/MAL-signatures.stable.out
b/clients/Tests/MAL-signatures.stable.out
--- a/clients/Tests/MAL-signatures.stable.out
+++ b/clients/Tests/MAL-signatures.stable.out
@@ -138,31 +138,31 @@ command aggr.avg(b:bat[:oid,:bte],e:bat[
address AGGRavg12_dbl;
comment Grouped tail average on bte
-command aggr.avg(b:bat[:any_1,:dbl]):dbl
+command aggr.avg(b:bat[:oid,:dbl]):dbl
address ALGavg;
comment Gives the avg of all tail values
-command aggr.avg(b:bat[:any_1,:flt]):dbl
+command aggr.avg(b:bat[:oid,:flt]):dbl
address ALGavg;
comment Gives the avg of all tail values
-command aggr.avg(b:bat[:any_1,:lng]):dbl
+command aggr.avg(b:bat[:oid,:lng]):dbl
address ALGavg;
comment Gives the avg of all tail values
-command aggr.avg(b:bat[:any_1,:wrd]):dbl
+command aggr.avg(b:bat[:oid,:wrd]):dbl
address ALGavg;
comment Gives the avg of all tail values
-command aggr.avg(b:bat[:any_1,:int]):dbl
+command aggr.avg(b:bat[:oid,:int]):dbl
address ALGavg;
comment Gives the avg of all tail values
-command aggr.avg(b:bat[:any_1,:sht]):dbl
+command aggr.avg(b:bat[:oid,:sht]):dbl
address ALGavg;
comment Gives the avg of all tail values
-command aggr.avg(b:bat[:any_1,:bte]):dbl
+command aggr.avg(b:bat[:oid,:bte]):dbl
address ALGavg;
comment Gives the avg of all tail values
@@ -214,7 +214,7 @@ command aggr.count(b:bat[:oid,:any_1],e:
address AGGRcount2;
comment Grouped count
-command aggr.cardinality(b:bat[:any_1,:any_2]):lng
+command aggr.cardinality(b:bat[:oid,:any_2]):lng
address ALGcard;
comment Return the cardinality of the BAT tail values.
@@ -2130,59 +2130,59 @@ pattern aggr.sum(b:bat[:oid,:bte]):bte
address CMDBATsum;
comment Calculate aggregate sum of B.
-command aggr.stdevp(b:bat[:any_1,:dbl]):dbl
+command aggr.stdevp(b:bat[:oid,:dbl]):dbl
address ALGstdevp;
comment Gives the standard deviation of all tail values
-command aggr.stdev(b:bat[:any_1,:dbl]):dbl
+command aggr.stdev(b:bat[:oid,:dbl]):dbl
address ALGstdev;
comment Gives the standard deviation of all tail values
-command aggr.stdevp(b:bat[:any_1,:flt]):dbl
+command aggr.stdevp(b:bat[:oid,:flt]):dbl
address ALGstdevp;
comment Gives the standard deviation of all tail values
-command aggr.stdev(b:bat[:any_1,:flt]):dbl
+command aggr.stdev(b:bat[:oid,:flt]):dbl
address ALGstdev;
comment Gives the standard deviation of all tail values
-command aggr.stdevp(b:bat[:any_1,:lng]):dbl
+command aggr.stdevp(b:bat[:oid,:lng]):dbl
address ALGstdevp;
comment Gives the standard deviation of all tail values
-command aggr.stdev(b:bat[:any_1,:lng]):dbl
+command aggr.stdev(b:bat[:oid,:lng]):dbl
address ALGstdev;
comment Gives the standard deviation of all tail values
-command aggr.stdevp(b:bat[:any_1,:wrd]):dbl
+command aggr.stdevp(b:bat[:oid,:wrd]):dbl
address ALGstdevp;
comment Gives the standard deviation of all tail values
-command aggr.stdev(b:bat[:any_1,:wrd]):dbl
+command aggr.stdev(b:bat[:oid,:wrd]):dbl
address ALGstdev;
comment Gives the standard deviation of all tail values
-command aggr.stdevp(b:bat[:any_1,:int]):dbl
+command aggr.stdevp(b:bat[:oid,:int]):dbl
address ALGstdevp;
comment Gives the standard deviation of all tail values
-command aggr.stdev(b:bat[:any_1,:int]):dbl
+command aggr.stdev(b:bat[:oid,:int]):dbl
address ALGstdev;
comment Gives the standard deviation of all tail values
-command aggr.stdevp(b:bat[:any_1,:sht]):dbl
+command aggr.stdevp(b:bat[:oid,:sht]):dbl
address ALGstdevp;
comment Gives the standard deviation of all tail values
-command aggr.stdev(b:bat[:any_1,:sht]):dbl
+command aggr.stdev(b:bat[:oid,:sht]):dbl
address ALGstdev;
comment Gives the standard deviation of all tail values
-command aggr.stdevp(b:bat[:any_1,:bte]):dbl
+command aggr.stdevp(b:bat[:oid,:bte]):dbl
address ALGstdevp;
comment Gives the standard deviation of all tail values
-command aggr.stdev(b:bat[:any_1,:bte]):dbl
+command aggr.stdev(b:bat[:oid,:bte]):dbl
address ALGstdev;
comment Gives the standard deviation of all tail values
@@ -2298,59 +2298,59 @@ command aggr.variance(b:bat[:oid,:bte],e
address AGGRvariance2_dbl;
comment Grouped tail variance (sample/non-biased) on bte
-command aggr.variancep(b:bat[:any_1,:dbl]):dbl
+command aggr.variancep(b:bat[:oid,:dbl]):dbl
address ALGvariancep;
comment Gives the variance of all tail values
-command aggr.variance(b:bat[:any_1,:dbl]):dbl
+command aggr.variance(b:bat[:oid,:dbl]):dbl
address ALGvariance;
comment Gives the variance of all tail values
-command aggr.variancep(b:bat[:any_1,:flt]):dbl
+command aggr.variancep(b:bat[:oid,:flt]):dbl
address ALGvariancep;
comment Gives the variance of all tail values
-command aggr.variance(b:bat[:any_1,:flt]):dbl
+command aggr.variance(b:bat[:oid,:flt]):dbl
address ALGvariance;
comment Gives the variance of all tail values
-command aggr.variancep(b:bat[:any_1,:lng]):dbl
+command aggr.variancep(b:bat[:oid,:lng]):dbl
address ALGvariancep;
comment Gives the variance of all tail values
-command aggr.variance(b:bat[:any_1,:lng]):dbl
+command aggr.variance(b:bat[:oid,:lng]):dbl
address ALGvariance;
comment Gives the variance of all tail values
-command aggr.variancep(b:bat[:any_1,:wrd]):dbl
+command aggr.variancep(b:bat[:oid,:wrd]):dbl
address ALGvariancep;
comment Gives the variance of all tail values
-command aggr.variance(b:bat[:any_1,:wrd]):dbl
+command aggr.variance(b:bat[:oid,:wrd]):dbl
address ALGvariance;
comment Gives the variance of all tail values
-command aggr.variancep(b:bat[:any_1,:int]):dbl
+command aggr.variancep(b:bat[:oid,:int]):dbl
address ALGvariancep;
comment Gives the variance of all tail values
-command aggr.variance(b:bat[:any_1,:int]):dbl
+command aggr.variance(b:bat[:oid,:int]):dbl
address ALGvariance;
comment Gives the variance of all tail values
-command aggr.variancep(b:bat[:any_1,:sht]):dbl
+command aggr.variancep(b:bat[:oid,:sht]):dbl
address ALGvariancep;
comment Gives the variance of all tail values
-command aggr.variance(b:bat[:any_1,:sht]):dbl
+command aggr.variance(b:bat[:oid,:sht]):dbl
address ALGvariance;
comment Gives the variance of all tail values
-command aggr.variancep(b:bat[:any_1,:bte]):dbl
+command aggr.variancep(b:bat[:oid,:bte]):dbl
address ALGvariancep;
comment Gives the variance of all tail values
-command aggr.variance(b:bat[:any_1,:bte]):dbl
+command aggr.variance(b:bat[:oid,:bte]):dbl
address ALGvariance;
comment Gives the variance of all tail values
@@ -2575,7 +2575,7 @@ command algebra.position(b:bat[:any_1,:a
address ALGposition;
comment Returns BAT position [0.. b.count] of 'v' in the head column of b. It
Return an error if 'v' does not exist.
-command algebra.reuse(b:bat[:any_1,:any_2]):bat[:any_1,:any_2]
+command algebra.reuse(b:bat[:oid,:any_2]):bat[:oid,:any_2]
address ALGreuse;
comment Reuse a temporary BAT if you can. Otherwise, allocate enough storage
to accept result of an operation (not involving the heap)
@@ -2885,7 +2885,7 @@ command array.project(b:bat[:oid,:any_1]
address ARRAYproject;
comment Fill an array representation with constants
-command
array.product(b:bat[:any_3,:any_1],c:bat[:any_4,:any_2]):bat[:any_1,:any_2]
+command array.product(b:bat[:oid,:any_1],c:bat[:oid,:any_2])
(X_3:bat[:oid,:any_1],c:bat[:oid,:any_2])
address ARRAYproduct;
comment Produce an array product
@@ -31768,11 +31768,11 @@ command bat.densebat(size:wrd):bat[:void
address BKCdensebat;
comment Creates a new [void,void] BAT of size 'size'.
-command bat.getHeat(b:bat[:any_1,:any_2]):lng
+command bat.getHeat(b:bat[:oid,:any_2]):lng
address BKCheat;
comment Return the current BBP heat (LRU stamp)
-command bat.getName(b:bat[:any_1,:any_2]):str
+command bat.getName(b:bat[:oid,:any_2]):str
address BKCgetBBPname;
comment Gives back the logical name of a BAT.
@@ -31800,11 +31800,11 @@ command bat.getAccess(b:bat[:any_1,:any_
address BKCgetAccess;
comment return the access mode attached to this BAT as a character.
-command bat.getRole(bid:bat[:any_1,:any_2]):str
+command bat.getRole(bid:bat[:oid,:any_2]):str
address BKCgetRole;
comment Returns the rolename of the head column of a BAT.
-command bat.getTailType(b:bat[:any_1,:any_2]):str
+command bat.getTailType(b:bat[:oid,:any_2]):str
address BKCgetTailType;
comment Returns the type of the tail column of a BAT, as an integer type
number.
@@ -31812,19 +31812,19 @@ command bat.getHeadType(b:bat[:any_1,:an
address BKCgetHeadType;
comment Returns the type of the head column of a BAT, as an integer type
number.
-command bat.getCapacity(b:bat[:any_1,:any_2]):lng
+command bat.getCapacity(b:bat[:oid,:any_2]):lng
address BKCgetCapacity;
comment Returns the current allocation size (in max number of elements) of a
BAT.
-command bat.getDiskSize(b:bat[:any_1,:any_2]):lng
+command bat.getDiskSize(b:bat[:oid,:any_2]):lng
address BKCbatdisksize;
comment Approximate size of the (persistent) BAT heaps as stored on disk in
pages of 512 bytes. Indices are not included, as they only live temporarilyin
virtual memory.
-command bat.getMemorySize(b:bat[:any_1,:any_2]):lng
+command bat.getMemorySize(b:bat[:oid,:any_2]):lng
address BKCbatvmsize;
comment Calculate the size of the BAT heaps and indices in bytesrounded to the
memory page size (see bbp.getPageSize()).
-command bat.getSize(b:bat[:any_1,:any_2]):lng
+command bat.getSize(b:bat[:oid,:any_2]):lng
address BKCbatsize;
comment Calculate the size of the BAT descriptor, heaps and indices in bytes.
@@ -31872,17 +31872,17 @@ command bat.intersectcand(a:bat[:oid,:oi
address BKCintersectcand;
comment Intersect two candidate lists into one
-command bat.isSynced(b1:bat[:any_1,:any_2],b2:bat[:any_3,:any_4]):bit
+command bat.isSynced(b1:bat[:oid,:any_2],b2:bat[:oid,:any_4]):bit
address BKCisSynced;
comment Tests whether two BATs are synced or not.
-command bat.isCached(b:bat[:any_1,:any_2]):bit
+command bat.isCached(b:bat[:oid,:any_2]):bit
address BKCisCached;
comment Bat is stored in main memory.
-command bat.isPersistent(b:bat[:any_1,:any_2]):bit
+command bat.isPersistent(b:bat[:oid,:any_2]):bit
address BKCisPersistent;
-command bat.isTransient(b:bat[:any_1,:any_2]):bit
+command bat.isTransient(b:bat[:oid,:any_2]):bit
address BKCisTransient;
command
bat.inplace(o:bat[:any_1,:any_2],d:bat[:any_1,:any_2],force:bit):bat[:any_1,:any_2]
address BKCbat_inplace_force;
@@ -31932,11 +31932,11 @@ command bat.isaKey(b:bat[:any_1,:any_2])
address BKCgetKey;
comment return whether the head column of a BAT is unique (key).
-command bat.info(b:bat[:any_1,:any_2]) (X_2:bat[:oid,:str],X_3:bat[:oid,:str])
+command bat.info(b:bat[:oid,:any_2]) (X_2:bat[:oid,:str],X_3:bat[:oid,:str])
address BKCinfo;
comment Produce a BAT containing info about a BAT in [attribute,value] format.
It contains all properties of the BAT record. See the BAT documentation
in GDK for more information.
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