Mercurial > hg > octave-terminal
changeset 10013:25417bd9a3c7
Use lognrnd instead of deprecated lognormal_rnd in build_sparse_tests.sh
author | Rik <rdrider0-list@yahoo.com> |
---|---|
date | Sun, 20 Dec 2009 20:51:54 -0800 |
parents | 2441327485a3 |
children | cb98128649e9 |
files | test/ChangeLog test/build_sparse_tests.sh |
diffstat | 2 files changed, 23 insertions(+), 18 deletions(-) [+] |
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--- a/test/ChangeLog +++ b/test/ChangeLog @@ -1,3 +1,7 @@ +2009-12-19 Rik <octave@nomad.inbox5.com> + + * build_sparse_tests.sh: Use lognrnd instead of deprecated lognormal_rnd + 2009-12-19 Rik <octave@nomad.inbox5.com> * Makefile.am: Eliminate TOPDIR variable in favor of built-in automake
--- a/test/build_sparse_tests.sh +++ b/test/build_sparse_tests.sh @@ -21,17 +21,18 @@ # Some tests are commented out because they are known to be broken! # Search for "# fails" -# ./buildtest.sh preset +# ./build_sparse_tests.sh preset # creates test_sparse.m with preset tests. # Use "test test_sparse" from octave to run the tests. # -# ./buildtest.sh random +# ./build_sparse_tests.sh random # Creates test_sprandom.m with randomly generated matrices. +# Use "test test_sprandom" from octave to run the tests. -# buildtest.sh generates tests for real and complex sparse matrices. +# build_sparse_tests.sh generates tests for real and complex sparse matrices. # Also, we want to run both fixed tests with known outputs (quick tests) # and longer tests with unknown outputs (thorough tests). This requires -# two sets of tests --- one which uses preset matrices and another which +# two sets of tests -- one which uses preset matrices and another which # uses randomly generated matrices. # # The tests are mostly identical for each case but the code is different, @@ -109,7 +110,7 @@ random) preset=false ;; preset) preset=true ;; '') preset=true ;; - *) echo "buildtest.sh random|preset" && exit 1 ;; + *) echo "build_sparse_tests.sh random|preset" && exit 1 ;; esac if $preset; then @@ -252,7 +253,7 @@ ## end ## The test log is appended to sprandomtest.log function [passes,total] = test_sprandom - warning("untested --- fix the source in buildtests.sh"); + warning("untested --- fix the source in build_sparse_tests.sh"); disp("appending test output to sprandomtest.log"); fid = fopen("sprandomtest.log","at"); test("test_sprandom","normal",fid); @@ -955,7 +956,7 @@ EOF else cat >>$TESTS <<EOF -%! n=floor(lognormal_rnd(8,2)+1)' +%! n=floor(lognrnd(8,2)+1)' %! ls = tril(sprandn(8,8,0.2),-1).*alpha + n*speye(8); lf = full(ls); %! us = triu(sprandn(8,8,0.2),1).*alpha + n*speye(8); uf = full(us); %! ts = spdiags(randn(8,3),-1:1,8,8).*alpha; tf = full(ts); @@ -1140,8 +1141,8 @@ cat >>$TESTS <<EOF %!test %! % generate m,n from 1 to <5000 -%! m=floor(lognormal_rnd(8,2)+1); -%! n=floor(lognormal_rnd(8,2)+1); +%! m=floor(lognrnd(8,2)+1); +%! n=floor(lognrnd(8,2)+1); %! as=sprandn(m,n,0.3); af = full(as+1i*sprandn(as)); %! bf = randn; EOF @@ -1157,8 +1158,8 @@ else cat >>$TESTS <<EOF %!test -%! m=floor(lognormal_rnd(8,2)+1); -%! n=floor(lognormal_rnd(8,2)+1); +%! m=floor(lognrnd(8,2)+1); +%! n=floor(lognrnd(8,2)+1); %! as=sprandn(m,n,0.3); af = full(as+1i*sprandn(as)); %! bs=sprandn(m,n,0.3); bf = full(bs+1i*sprandn(bs)); EOF @@ -1190,8 +1191,8 @@ else cat >>$TESTS <<EOF %!test -%! m=floor(lognormal_rnd(8,2)+1); -%! n=floor(lognormal_rnd(8,2)+1); +%! m=floor(lognrnd(8,2)+1); +%! n=floor(lognrnd(8,2)+1); %! as=sprandn(m,n,0.3); af = full(as+1i*sprandn(as)); %! bs=sprandn(m,n,0.3); bf = full(bs+1i*sprandn(bs)); EOF @@ -1225,7 +1226,7 @@ echo '%! bs=sparse(bf);' >> $TESTS else echo '# This has a small chance of failing to create a positive definite matrix' >> $TESTS - echo '%!test n=floor(lognormal_rnd(8,2)+1)' >> $TESTS + echo '%!test n=floor(lognrnd(8,2)+1)' >> $TESTS echo '%! bs = n*speye(n,n) + sprandn(n,n,0.3); bf = full(bs);' >> $TESTS fi @@ -1249,8 +1250,8 @@ cat >>$TESTS <<EOF %!test %! % generate m,n from 1 to <5000 -%! m=floor(lognormal_rnd(8,2)+1); -%! n=floor(lognormal_rnd(8,2)+1); +%! m=floor(lognrnd(8,2)+1); +%! n=floor(lognrnd(8,2)+1); %! nz=ceil((m+n)/2); %! r=floor(rand(5,nz)*n)+1; %! c=floor(rand(5,nn)*m)+1; @@ -1271,8 +1272,8 @@ cat >>$TESTS <<EOF %!test %! % generate m,n from 1 to <5000 -%! m=floor(lognormal_rnd(8,2)+1); -%! n=floor(lognormal_rnd(8,2)+1); +%! m=floor(lognrnd(8,2)+1); +%! n=floor(lognrnd(8,2)+1); %! as=sprandn(m,n,0.3); af = full(as+1i*sprandn(as)); %! ridx = ceil(m*rand(1,ceil(rand*m)) %! cidx = ceil(n*rand(1,ceil(rand*n))