aboutsummaryrefslogtreecommitdiff
path: root/reproduce/analysis/make
diff options
context:
space:
mode:
Diffstat (limited to 'reproduce/analysis/make')
-rw-r--r--reproduce/analysis/make/delete-me.mk169
-rw-r--r--reproduce/analysis/make/demo-plot.mk80
-rw-r--r--reproduce/analysis/make/download.mk17
-rw-r--r--reproduce/analysis/make/format.mk86
-rw-r--r--reproduce/analysis/make/initialize.mk20
-rw-r--r--reproduce/analysis/make/paper.mk51
-rw-r--r--reproduce/analysis/make/top-make.mk5
-rw-r--r--reproduce/analysis/make/verify.mk11
8 files changed, 242 insertions, 197 deletions
diff --git a/reproduce/analysis/make/delete-me.mk b/reproduce/analysis/make/delete-me.mk
deleted file mode 100644
index bc94bf1..0000000
--- a/reproduce/analysis/make/delete-me.mk
+++ /dev/null
@@ -1,169 +0,0 @@
-# Dummy Makefile to create a random dataset for plotting.
-#
-# Copyright (C) 2018-2020 Mohammad Akhlaghi <mohammad@akhlaghi.org>
-#
-# This Makefile is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This Makefile is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this Makefile. If not, see <http://www.gnu.org/licenses/>.
-
-
-
-
-
-# Dummy dataset
-# -------------
-#
-# Just as a demonstration(!): we will use AWK to generate a table showing X
-# and X^2 and draw its plot.
-#
-# Note that this dataset is directly read by LaTeX to generate a plot, so
-# we need to put it in the $(tex-publish-dir) directory.
-dm-squared = $(tex-publish-dir)/squared.txt
-$(dm-squared): $(pconfdir)/delete-me-squared-num.conf | $(tex-publish-dir)
-
- # When the plotted values are re-made, it is necessary to also
- # delete the TiKZ externalized files so the plot is also re-made by
- # PGFPlots.
- rm -f $(tikzdir)/delete-me-squared.pdf
-
- # Write the column metadata in a temporary file name (appending
- # '.tmp' to the actual target name). Once all steps are done, it is
- # renamed to the final target. We do this because if there is an
- # error in the middle, Make will not consider the job to be
- # complete and will stop here.
- echo "# Data for demonstration plot of default Maneage (MANaging data linEAGE)." > $@.tmp
- echo "# It is a simple plot, showing the power of two: y=x^2! " >> $@.tmp
- echo "# " >> $@.tmp
- echo "# Column 1: X [arbitrary, f32] The horizontal axis numbers." \
- >> $@.tmp
- echo "# Column 2: X_POW2 [arbitrary, f32] The horizontal axis to the power of two." \
- >> $@.tmp
- echo "# " >> $@.tmp
- $(call print-copyright, $@.tmp)
-
- # Generate the table of random values.
- awk 'BEGIN {for(i=1;i<=$(delete-me-squared-num);i+=0.5) \
- printf("%-8.1f%.2f\n", i, i*i); }' >> $@.tmp
-
- # Write it into the final target
- mv $@.tmp $@
-
-
-
-
-
-# Demo image PDF
-# --------------
-#
-# For an example image, we'll make a PDF copy of the WFPC II image to
-# display in the paper.
-dm-histdir = $(texdir)/image-histogram
-$(dm-histdir): | $(texdir); mkdir $@
-dm-img-pdf = $(dm-histdir)/wfpc2.pdf
-$(dm-img-pdf): $(dm-histdir)/%.pdf: $(indir)/%.fits | $(dm-histdir)
-
- # When the plotted values are re-made, it is necessary to also
- # delete the TiKZ externalized files so the plot is also re-made.
- rm -f $(tikzdir)/delete-me-image-histogram.pdf
-
- # Convert the dataset to a PDF.
- astconvertt --colormap=gray --fluxhigh=4 $< -h0 -o$@
-
-
-
-
-
-# Histogram of demo image
-# -----------------------
-#
-# For an example plot, we'll show the pixel value histogram also. IMPORTANT
-# NOTE: because this histogram contains data that is included in a plot, we
-# should publish it, so it will go into the $(tex-publish-dir).
-dm-img-histogram = $(tex-publish-dir)/wfpc2-histogram.txt
-$(dm-img-histogram): $(tex-publish-dir)/%-histogram.txt: $(indir)/%.fits \
- | $(tex-publish-dir)
-
- # When the plotted values are re-made, it is necessary to also
- # delete the TiKZ externalized files so the plot is also re-made.
- rm -f $(tikzdir)/delete-me-image-histogram.pdf
-
- # Generate the pixel value histogram.
- aststatistics --lessthan=5 $< -h0 --histogram -o$@.data
-
- # Put a two-line description of the dataset, copy the column
- # metadata from '$@.data', and add copyright.
- echo "# Histogram of example image to demonstrate Maneage (MANaging data linEAGE)." \
- > $@.tmp
- echo "# Example image URL: $(DEMO-URL)" >> $@.tmp
- echo "# " >> $@.tmp
- awk '/^# Column .:/' $@.data >> $@.tmp
- echo "# " >> $@.tmp
- $(call print-copyright, $@.tmp)
-
- # Add the column numbers in a formatted manner, rename it to the
- # output and clean up.
- awk '!/^#/{printf("%-15.4f%d\n", $$1, $$2)}' $@.data >> $@.tmp
- mv $@.tmp $@
- rm $@.data
-
-
-
-
-
-# Basic statistics
-# ----------------
-#
-# This is just as a demonstration on how to get analysic configuration
-# parameters from variables defined in `reproduce/analysis/config/'.
-dm-img-stats = $(dm-histdir)/wfpc2-stats.txt
-$(dm-img-stats): $(dm-histdir)/%-stats.txt: $(indir)/%.fits \
- | $(dm-histdir)
- aststatistics $< -h0 --mean --median > $@
-
-
-
-
-
-# TeX macros
-# ----------
-#
-# This is how we write the necessary parameters in the final PDF.
-#
-# NOTE: In LaTeX you cannot use any non-alphabetic character in a variable
-# name.
-$(mtexdir)/delete-me.tex: $(dm-squared) $(dm-img-pdf) $(dm-img-histogram) \
- $(dm-img-stats)
-
- # Write the number of random values used.
- echo "\newcommand{\deletemenum}{$(delete-me-squared-num)}" > $@
-
- # Note that since Make variables start with a `$(', if you want to
- # use `$' within the shell (not Make), you have to quote any
- # occurance of `$' with another `$'. That is why there are `$$' in
- # the AWK command below.
- #
- # Here, we are first using AWK to find the minimum and maximum
- # values, then using it again to read each separately to use in the
- # macro definition.
- mm=$$(awk 'BEGIN{min=99999; max=-min}
- !/^#/{if($$2>max) max=$$2; if($$2<min) min=$$2;}
- END{print min, max}' $(dm-squared));
- v=$$(echo "$$mm" | awk '{printf "%.3f", $$1}');
- echo "\newcommand{\deletememin}{$$v}" >> $@
- v=$$(echo "$$mm" | awk '{printf "%.3f", $$2}');
- echo "\newcommand{\deletememax}{$$v}" >> $@
-
- # Write the statistics of the demo image as a macro.
- mean=$$(awk '{printf("%.2f", $$1)}' $(dm-img-stats))
- echo "\newcommand{\deletemewfpctwomean}{$$mean}" >> $@
- median=$$(awk '{printf("%.2f", $$2)}' $(dm-img-stats))
- echo "\newcommand{\deletemewfpctwomedian}{$$median}" >> $@
diff --git a/reproduce/analysis/make/demo-plot.mk b/reproduce/analysis/make/demo-plot.mk
new file mode 100644
index 0000000..dc44c4e
--- /dev/null
+++ b/reproduce/analysis/make/demo-plot.mk
@@ -0,0 +1,80 @@
+# Second step of analysis:
+# Data for plot of number/fraction of tools per year.
+#
+# Copyright (C) 2020 Mohammad Akhlaghi <mohammad@akhlaghi.org>
+#
+# This Makefile is free software: you can redistribute it and/or modify it
+# under the terms of the GNU General Public License as published by the
+# Free Software Foundation, either version 3 of the License, or (at your
+# option) any later version.
+#
+# This Makefile is distributed in the hope that it will be useful, but
+# WITHOUT ANY WARRANTY; without even the implied warranty of
+# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General
+# Public License for more details. See <http://www.gnu.org/licenses/>.
+
+
+
+
+
+# Table for Figure 1C of Menke+20
+# -------------------------------
+a2mk20f1c = $(tex-publish-dir)/tools-per-year.txt
+$(a2mk20f1c): $(mk20tab3) | $(tex-publish-dir)
+
+ # Remove the (possibly) produced figure that is created from this
+ # table: it is created by LaTeX's TiKZ package, and includes
+ # multiple files with a fixed prefix.
+ rm -f $(tikzdir)/figure-tools-per-year*
+
+ # Write the column metadata in a temporary file name (appending
+ # '.tmp' to the actual target name). Once all steps are done, it is
+ # renamed to the final target. We do this because if there is an
+ # error in the middle, Make will not consider the job to be
+ # complete and will stop here.
+ echo "# Data of plot showing fraction of papers that mentioned software tools" > $@.tmp
+ echo "# per year to demonstrate the features of Maneage (MANaging data linEAGE)." >> $@.tmp
+ >> $@.tmp
+ echo "# Raw data taken from Menke+2020 (https://doi.org/10.1101/2020.01.15.908111)." \
+ >> $@.tmp
+ echo "# " >> $@.tmp
+ echo "# Column 1: YEAR [count, u16] Publication year of papers." \
+ >> $@.tmp
+ echo "# Column 2: WITH_TOOLS [frac, f32] Fraction of papers mentioning software tools." \
+ >> $@.tmp
+ echo "# Column 3: NUM_PAPERS [count, u32] Total number of papers studied in that year." \
+ >> $@.tmp
+ echo "# " >> $@.tmp
+ $(call print-copyright, $@.tmp)
+
+
+ # Find the maximum number of papers.
+ awk '!/^#/{all[$$1]+=$$2; id[$$1]+=$$3} \
+ END{ for(year in all) \
+ printf("%-7d%-10.3f%d\n", year, 100*id[year]/all[year], \
+ all[year]) \
+ }' $< \
+ >> $@.tmp
+
+ # Write it into the final target
+ mv $@.tmp $@
+
+
+
+
+
+# Final LaTeX macro
+$(mtexdir)/demo-plot.tex: $(a2mk20f1c) $(pconfdir)/demo-year.conf
+
+ # Find the first year (first column of first row) of data.
+ v=$$(awk '!/^#/ && c==0{c++; print $$1}' $(a2mk20f1c))
+ echo "\newcommand{\menkefirstyear}{$$v}" > $@
+
+ # Find the number of rows in the plotted table.
+ v=$$(awk '!/^#/{c++} END{print c}' $(a2mk20f1c))
+ echo "\newcommand{\menkenumyears}{$$v}" >> $@
+
+ # Find the number of papers in 1996.
+ v=$$(awk '$$1==$(menke-demo-year){print $$3}' $(a2mk20f1c))
+ echo "\newcommand{\menkenumpapersdemocount}{$$v}" >> $@
+ echo "\newcommand{\menkenumpapersdemoyear}{$(menke-demo-year)}" >> $@
diff --git a/reproduce/analysis/make/download.mk b/reproduce/analysis/make/download.mk
index 0eb28ff..fb3f21e 100644
--- a/reproduce/analysis/make/download.mk
+++ b/reproduce/analysis/make/download.mk
@@ -53,14 +53,14 @@
# progress at every moment.
$(indir):; mkdir $@
downloadwrapper = $(bashdir)/download-multi-try
-inputdatasets = $(foreach i, wfpc2, $(indir)/$(i).fits)
-$(inputdatasets): $(indir)/%.fits: | $(indir) $(lockdir)
+inputdatasets = $(indir)/menke20.xlsx
+$(inputdatasets): $(indir)/%: | $(indir) $(lockdir)
# Set the necessary parameters for this input file.
- if [ $* = wfpc2 ]; then
- localname=$(DEMO-DATA); url=$(DEMO-URL); mdf=$(DEMO-MD5);
+ if [ $* = menke20.xlsx ]; then
+ localname=$(MK20DATA); url=$(MK20URL); mdf=$(MK20MD5);
else
- echo; echo; echo "Not recognized input dataset: '$*.fits'."
+ echo; echo; echo "Not recognized input dataset: '$*'."
echo; echo; exit 1
fi
@@ -103,5 +103,8 @@ $(inputdatasets): $(indir)/%.fits: | $(indir) $(lockdir)
#
# It is very important to mention the address where the data were
# downloaded in the final report.
-$(mtexdir)/download.tex: $(pconfdir)/INPUTS.conf | $(mtexdir)
- echo "\\newcommand{\\wfpctwourl}{$(DEMO-URL)}" > $@
+$(mtexdir)/download.tex: $(indir)/menke20.xlsx | $(mtexdir)
+ echo "\newcommand{\menketwentyxlsxname}{$(MK20DATA)}" > $@
+ echo "\newcommand{\menketwentychecksum}{$(MK20MD5)}" >> $@
+ echo "\newcommand{\menketwentybytesize}{$(MK20SIZE)}" >> $@
+ echo "\newcommand{\menketwentyurl}{$(MK20URL)}" >> $@
diff --git a/reproduce/analysis/make/format.mk b/reproduce/analysis/make/format.mk
new file mode 100644
index 0000000..3070e6a
--- /dev/null
+++ b/reproduce/analysis/make/format.mk
@@ -0,0 +1,86 @@
+# First step of analysis:
+# Prepare the data, return basic values.
+#
+# As a demonstration analysis to go with the paper, we use the data from
+# Menke 2020 (DOI:10.1101/2020.01.15.908111). This is a relevant paper
+# because it provides interesting statistics about tools and methods used
+# in scientific papers.
+#
+# Copyright (C) 2020 Mohammad Akhlaghi <mohammad@akhlaghi.org>
+#
+# This Makefile is free software: you can redistribute it and/or modify it
+# under the terms of the GNU General Public License as published by the
+# Free Software Foundation, either version 3 of the License, or (at your
+# option) any later version.
+#
+# This Makefile is distributed in the hope that it will be useful, but
+# WITHOUT ANY WARRANTY; without even the implied warranty of
+# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General
+# Public License for more details. See <http://www.gnu.org/licenses/>.
+
+
+
+
+# Save the "Table 3" spreadsheet from the downloaded `.xlsx' file into a
+# simple plain-text file that is easy to use.
+a1dir = $(BDIR)/analysis1
+mk20tab3 = $(a1dir)/table-3.txt
+$(a1dir):; mkdir $@
+$(mk20tab3): $(indir)/menke20.xlsx | $(a1dir)
+
+ # Set a base-name for the table-3 data.
+ base=$(basename $(notdir $<))-table-3
+
+ # Unfortunately XLSX I/O only works when the input and output are
+ # in the directory it is running. So first, we need to switch to
+ # the input directory, run it, then put our desired output where we
+ # want and delete the extra files.
+ topdir=$$(pwd)
+ cd $(indir)
+ xlsxio_xlsx2csv $(notdir $<)
+ cp $(notdir $<)."Table 3 All by journal by year".csv $$base.csv
+ rm $(notdir $<).*.csv
+ cd $$topdir
+
+ # Read the necessary information. Note that we are dealing with a
+ # CSV (comma-separated value) file. But when there are commas in a
+ # string, quotation signs are put around it. The `FPAT' values is
+ # fully described in the GNU AWK manual. In short, it ensures that
+ # if there is a comma in the middle of double-quotes, it doesn't
+ # count as a delimter.
+ echo "# Column 1: YEAR [counter, i16] Year of journal's publication." > $@.tmp
+ echo "# Column 2: NUM_PAPERS [counter, i16] Number of studied papers in that journal." >> $@.tmp
+ echo "# Column 3: NUM_PAPERS_WITH_TOOLS [counter, i16] Number of papers with an identified tool." >> $@.tmp
+ echo "# Column 4: NUM_ID_TOOLS [counter, i16] Number of software/tools that were identified." >> $@.tmp
+ echo "# Column 5: JOURNAL_NAME [string, str150] Name of journal." >> $@.tmp
+ awk 'NR>1{printf("%-10d%-10d%-10d%-10d %s\n", $$2, $$3, $$3*$$NF, $$(NF-1), $$1)}' \
+ FPAT='([^,]+)|("[^"]+")' $(indir)/$$base.csv >> $@.tmp
+
+ # Set the temporary file as the final target. This was done so if
+ # there is any possible crash in the steps above, this rule is
+ # re-run (its final target isn't rebuilt).
+ mv $@.tmp $@
+
+
+
+
+
+# Main LaTeX macro file
+$(mtexdir)/format.tex: $(mk20tab3)
+
+ # Count the total number of papers in their study.
+ v=$$(awk '!/^#/{c+=$$2} END{print c}' $(mk20tab3))
+ echo "\newcommand{\menkenumpapers}{$$v}" > $@
+
+ # Count how many unique journals there were in the study. Note that
+ # the `31' comes because we put 10 characters for each numeric
+ # column and separated the last numeric column from the string
+ # column with a space. If the number of numeric columns change in
+ # the future, the `31' also has to change.
+ v=$$(awk 'BEGIN{FIELDWIDTHS="41 10000"} !/^#/{print $$2}' \
+ $(mk20tab3) | uniq | wc -l)
+ echo "\newcommand{\menkenumjournals}{$$v}" >> $@
+
+ # Count how many rows the original catalog has.
+ v=$$(awk '!/^#/{c++} END{print c}' $(mk20tab3))
+ echo "\newcommand{\menkenumorigrows}{$$v}" >> $@
diff --git a/reproduce/analysis/make/initialize.mk b/reproduce/analysis/make/initialize.mk
index fca75f5..fbd110f 100644
--- a/reproduce/analysis/make/initialize.mk
+++ b/reproduce/analysis/make/initialize.mk
@@ -132,6 +132,7 @@ curdir := $(shell echo $$(pwd))
# we are also going to overwrite `TEXINPUTS' just before `pdflatex'.
.ONESHELL:
.SHELLFLAGS = -ec
+export TERM=xterm
export TEXINPUTS :=
export CCACHE_DISABLE := 1
export PATH := $(installdir)/bin
@@ -280,10 +281,13 @@ $(project-package-contents): paper.pdf | $(texdir)
# (including the bibliography).
m=$$dir/Makefile
echo "paper.pdf: paper.tex paper.bbl" > $$m
- printf "\tpdflatex -shell-escape -halt-on-error paper\n" >> $$m
+ printf "\tlatex -shell-escape -halt-on-error paper\n" >> $$m
+ printf "\tdvips paper.dvi\n" >> $$m
+ printf "\tps2pdf -dNOSAFER paper.ps\n" >> $$m
echo "paper.bbl: tex/src/references.tex" >> $$m
- printf "\tpdflatex -shell-escape -halt-on-error paper\n" >> $$m
- printf "\tbiber paper\n" >> $$m
+ printf "\tlatex -shell-escape -halt-on-error paper\n" >> $$m
+ printf "\tbibtex paper\n" >> $$m
+ printf "\tlatex -shell-escape -halt-on-error paper\n" >> $$m
echo ".PHONY: clean" >> $$m
echo "clean:" >> $$m
printf "\trm -f *.aux *.auxlock *.bbl *.bcf\n" >> $$m
@@ -324,6 +328,8 @@ $(project-package-contents): paper.pdf | $(texdir)
# be using Bash's extended globbing ('extglob') for excluding this
# directory.
shopt -s extglob
+ cp -r tex/img $$dir/tex/img
+ cp tex/tikz/*.eps $$dir/tex/tikz
cp -r tex/build/!($(project-package-name)) $$dir/tex/build
# Clean up the $(texdir)/build* directories in the archive (when
@@ -351,8 +357,8 @@ $(project-package-contents): paper.pdf | $(texdir)
# that may cause problems on the arXiv server.
cp tex/build/build/paper.bbl $$dir/
tltopdir=.local/texlive/maneage/texmf-dist/tex/latex
- find $$tltopdir/biblatex/ -maxdepth 1 -type f -print0 \
- | xargs -0 cp -t $$dir
+ #find $$tltopdir/biblatex/ -maxdepth 1 -type f -print0 \
+ # | xargs -0 cp -t $$dir
# Just in case the package users want to rebuild some of the
# figures (manually un-comment the `makepdf' command we commented
@@ -485,6 +491,10 @@ $(mtexdir)/initialize.tex: | $(mtexdir)
echo "\newcommand{\projecttitle}{$(metadata-title)}" > $@
echo "\newcommand{\projectversion}{$(project-commit-hash)}" >> $@
+ # Zenodo identifier (necessary for download link):
+ v=$$(echo $(metadata-doi-zenodo) | sed -e's/\./ /g' | awk '{print $$NF}')
+ echo "\newcommand{\projectzenodoid}{$$v}" >> $@
+
# Calculate the latest Maneage commit used to build this
# project:
# - The '--dirty' option (used in 'project-commit-hash') isn't
diff --git a/reproduce/analysis/make/paper.mk b/reproduce/analysis/make/paper.mk
index e207337..2c08847 100644
--- a/reproduce/analysis/make/paper.mk
+++ b/reproduce/analysis/make/paper.mk
@@ -44,7 +44,7 @@ $(mtexdir)/project.tex: $(mtexdir)/verify.tex
# If no PDF is requested, or if LaTeX isn't available, don't
# continue to building the final PDF. Otherwise, merge all the TeX
# macros into one for building the PDF.
- @if [ -f .local/bin/pdflatex ] && [ x"$(pdf-build-final)" != x ]; then
+ @if [ -f .local/bin/latex ] && [ x"$(pdf-build-final)" != x ]; then
# Put a LaTeX input command for all the necessary macro files.
rm -f $(mtexdir)/project.tex
@@ -86,18 +86,32 @@ $(mtexdir)/project.tex: $(mtexdir)/verify.tex
#
# NOTE: `$(mtexdir)/project.tex' is an order-only-prerequisite for
# `paper.bbl'. This is because we need to run LaTeX in both the `paper.bbl'
-# recipe and the `paper.pdf' recipe. But if `tex/src/references.tex' hasn't
+# recipe and the `paper.pdf' recipe. But if `tex/src/references.bib' hasn't
# been modified, we don't want to re-build the bibliography, only the final
# PDF.
$(texbdir)/paper.bbl: tex/src/references.tex $(mtexdir)/dependencies-bib.tex \
| $(mtexdir)/project.tex
+
# If `$(mtexdir)/project.tex' is empty, don't build PDF.
@macros=$$(cat $(mtexdir)/project.tex)
if [ x"$$macros" != x ]; then
+ # Unfortunately I can't get bibtex to look into a special
+ # directory for the references, so we'll copy it into the LaTeX
+ # building directory.
+ p=$$(pwd)
+ if ! [ -L $(texbdir)/references.bib ]; then
+ ln -s $$p/tex/src/references.tex $(texbdir)/references.bib
+ fi
+
+ # Copy the improved IEEE bst file into the build directory.
+ # The improved bst file provides ArXiv clickable URLs and
+ # if available, open-access URLs based on the DOIs, with
+ # closed-access URLs as a fallback, via https://oadoi.org .
+ cp -pv $$p/tex/src/IEEEtran_openaccess.bst $(texbdir)
+
# We'll run LaTeX first to generate the `.bcf' file (necessary
# for `biber') and then run `biber' to generate the `.bbl' file.
- p=$$(pwd)
export TEXINPUTS=$$p:
cd $(texbdir);
@@ -113,9 +127,23 @@ $(texbdir)/paper.bbl: tex/src/references.tex $(mtexdir)/dependencies-bib.tex \
# do not use PGFPlots, then you should remove the `-shell-escape'
# option for better security. See
# https://savannah.nongnu.org/task/?15694 for details.
- pdflatex -shell-escape -halt-on-error $$p/paper.tex
- biber paper
-
+ latex -shell-escape -halt-on-error $$p/paper.tex
+ bibtex paper
+
+ # Hack: tidy up eprint+doi style that didn't work in .bst file.
+ # TODO (better): read Part 4 of
+ # http://mirrors.ctan.org/info/bibtex/tamethebeast/ttb_en.pdf
+ # and fix the .bst style properly.
+ cp paper.bbl paper-tmp.bbl \
+ && sed -e "s/\'/EOLINE/g" paper-tmp.bbl \
+ | tr -d '\n' \
+ | sed -e 's/\([0-9]\)\( \|EOLINE\)}/\1}/g' \
+ | sed -e 's/\([^,]\) *\( \|EOLINE\) *\\eprint/\1, \\eprint/g' \
+ | sed -e 's/\([^,]\) *\( \|EOLINE\) *\\doi/\1, \\doi/g' \
+ | sed -e 's/EOLINE/\n/g' > paper.bbl
+
+ # The pre-final run of LaTeX after 'paper.bbl' was created.
+ latex -shell-escape -halt-on-error $$p/paper.tex
fi
@@ -140,13 +168,20 @@ paper.pdf: $(mtexdir)/project.tex paper.tex $(texbdir)/paper.bbl
p=$$(pwd)
export TEXINPUTS=$$p:
cd $(texbdir)
+
# See above for a warning and brief discussion on the the
# pdflatex option `-shell-escape'.
- pdflatex -shell-escape -halt-on-error $$p/paper.tex
+ latex -shell-escape -halt-on-error $$p/paper.tex
+
+ # Convert the DVI to PostScript, and the PostScript to PDF. The
+ # `-dNOSAFER' option to GhostScript allows transparencies in the
+ # conversion from PostScript to PDF, see
+ # https://www.ghostscript.com/doc/current/Language.htm#Transparency
+ dvips paper.dvi
+ ps2pdf -dNOSAFER paper.ps
# Come back to the top project directory and copy the built PDF
# file here.
cd $$p
cp $(texbdir)/$@ $(final-paper)
-
fi
diff --git a/reproduce/analysis/make/top-make.mk b/reproduce/analysis/make/top-make.mk
index 9a26f22..55b1f43 100644
--- a/reproduce/analysis/make/top-make.mk
+++ b/reproduce/analysis/make/top-make.mk
@@ -62,7 +62,7 @@ include reproduce/software/config/LOCAL.conf
# -----------------------------
#
# If you are just interested in the processing and don't want to build the
-# PDF, you can skip the creatation of the final PDF by removing the value
+# PDF, you can skip the creation of the final PDF by removing the value
# of `pdf-build-final' in `reproduce/analysis/config/pdf-build.conf'.
ifeq (x$(reproducible_paper_group_name),x$(GROUP-NAME))
all: paper.pdf
@@ -112,7 +112,8 @@ endif
# wild-card like the configuration Makefiles).
makesrc = initialize \
download \
- delete-me \
+ format \
+ demo-plot \
verify \
paper
diff --git a/reproduce/analysis/make/verify.mk b/reproduce/analysis/make/verify.mk
index b3d62f2..fe828dd 100644
--- a/reproduce/analysis/make/verify.mk
+++ b/reproduce/analysis/make/verify.mk
@@ -127,16 +127,15 @@ $(mtexdir)/verify.tex: $(foreach s, $(verify-dep), $(mtexdir)/$(s).tex)
rm -f $@.tmp
# Verify the figure datasets.
- $(call verify-txt-no-comments-no-space, \
- $(dm-squared), 6b6d3b0f9c351de53606507b59bca5d1, $@.tmp)
- $(call verify-txt-no-comments-no-space, \
- $(dm-img-histogram), b1f9c413f915a1ad96078fee8767b16c, $@.tmp)
+ $(call verify-txt-no-comments-leading-space, \
+ $(a2mk20f1c), 76fc5b13495c4d8e8e6f8d440304cf69)
# Verify TeX macros (the values that go into the PDF text).
for m in $(verify-check); do
file=$(mtexdir)/$$m.tex
- if [ $$m == download ]; then s=49e4e9f049aa9da0453a67203d798587
- elif [ $$m == delete-me ]; then s=711e2f7fa1f16ecbeeb3df6bcb4ec705
+ if [ $$m == download ]; then s=64da83ee3bfaa236849927cdc001f5d3
+ elif [ $$m == format ]; then s=e04d95a539b5540c940bf48994d8d45f
+ elif [ $$m == demo-plot ]; then s=48bffe6cf8db790c63a33302d20db77f
else echo; echo "'$$m' not recognized."; exit 1
fi
$(call verify-txt-no-comments-no-space, $$file, $$s, $@.tmp)