forked from jrh13/hol-light
-
Notifications
You must be signed in to change notification settings - Fork 0
/
Makefile
148 lines (117 loc) · 8.93 KB
/
Makefile
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
###############################################################################
# Makefile for HOL Light #
# #
# Simple "make" just builds the camlp4/camlp5 syntax extension "pa_j.cmo", #
# which is necessary to load the HOL Light core into the OCaml toplevel. #
# #
# See the README file for more detailed information about the build process. #
# #
# Thanks to Carl Witty for 3.07 and 3.08 ports of pa_j.ml and this process. #
###############################################################################
# Installation directory for standalone binaries. Set here to the user's
# binary directory. You may want to change it to something like /usr/local/bin
BINDIR=${HOME}/bin
# This is the list of source files in the HOL Light core
HOLSRC=system.ml lib.ml fusion.ml basics.ml nets.ml preterm.ml \
parser.ml printer.ml equal.ml bool.ml drule.ml tactics.ml \
itab.ml simp.ml theorems.ml ind_defs.ml class.ml trivia.ml \
canon.ml meson.ml metis.ml quot.ml recursion.ml pair.ml \
nums.ml arith.ml wf.ml calc_num.ml normalizer.ml grobner.ml \
ind_types.ml lists.ml realax.ml calc_int.ml realarith.ml \
real.ml calc_rat.ml int.ml sets.ml iterate.ml cart.ml define.ml \
help.ml database.ml update_database.ml
# Some parameters to help decide how to build things
OCAML_VERSION=`ocamlc -version | cut -c1-4`
OCAML_BINARY_VERSION=`ocamlc -version | cut -c1-3`
OCAML_UNARY_VERSION=`ocamlc -version | cut -c1`
CAMLP5_BINARY_VERSION=`camlp5 -v 2>&1 | cut -f3 -d' ' | cut -c1`
CAMLP5_VERSION=`camlp5 -v 2>&1 | cut -f3 -d' ' | cut -f1-3 -d'.' | cut -f1 -d'-' | cut -c1-6`
# Main target
default: update_database.ml pa_j.cmo;
# Choose an appropriate "update_database.ml" file
update_database.ml:; if test ${OCAML_VERSION} = "4.14" ; \
then cp update_database_4.14.ml update_database.ml ; \
else cp update_database_${OCAML_UNARY_VERSION}.ml update_database.ml ; \
fi
# Build the camlp4 syntax extension file (camlp5 for OCaml >= 3.10)
pa_j.cmo: pa_j.ml; if test ${OCAML_BINARY_VERSION} = "3.0" ; \
then ocamlc -c -pp "camlp4r pa_extend.cmo q_MLast.cmo" -I `camlp4 -where` pa_j.ml ; \
elif test ${OCAML_BINARY_VERSION} = "3.1" -o ${OCAML_VERSION} = "4.00" -o ${OCAML_VERSION} = "4.01" -o ${OCAML_VERSION} = "4.02" -o ${OCAML_VERSION} = "4.03" -o ${OCAML_VERSION} = "4.04" -o ${OCAML_VERSION} = "4.05" ; \
then ocamlc -c -pp "camlp5r pa_lexer.cmo pa_extend.cmo q_MLast.cmo" -I `camlp5 -where` pa_j.ml ; \
else ocamlc -safe-string -c -pp "camlp5r pa_lexer.cmo pa_extend.cmo q_MLast.cmo" -I `camlp5 -where` -I `ocamlfind query camlp-streams` pa_j.ml ; \
fi
# Choose an appropriate camlp4 or camlp5 syntax extension.
#
# For OCaml < 3.10 (OCAML_BINARY_VERSION = "3.0"), this uses the built-in
# camlp4, and in general there are different versions for each OCaml version
#
# For OCaml >= 3.10 (OCAML_BINARY_VERSION = "3.1" or "4.x"), this uses the
# separate program camlp5. Now the appropriate syntax extensions is determined
# based on the camlp5 version. The main distinction is < 6.00 and >= 6.00, but
# there are some other incompatibilities, unfortunately.
pa_j.ml: pa_j_3.07.ml pa_j_3.08.ml pa_j_3.09.ml pa_j_3.1x_5.xx.ml pa_j_3.1x_6.xx.ml pa_j_4.xx_8.00.ml pa_j_4.xx_8.02.ml; \
if test ${OCAML_BINARY_VERSION} = "3.0" ; \
then cp pa_j_${OCAML_VERSION}.ml pa_j.ml ; \
elif test $(shell echo ${CAMLP5_VERSION} | head -c4) = "8.02" ; \
then cp pa_j_4.xx_8.02.ml pa_j.ml; \
elif test ${CAMLP5_BINARY_VERSION} = "8" ; \
then cp pa_j_4.xx_8.00.ml pa_j.ml; \
elif test ${CAMLP5_BINARY_VERSION} = "7" ; \
then if test ${CAMLP5_VERSION} = "7.01" -o ${CAMLP5_VERSION} = "7.02" -o ${CAMLP5_VERSION} = "7.03" -o ${CAMLP5_VERSION} = "7.04" -o ${CAMLP5_VERSION} = "7.05" -o ${CAMLP5_VERSION} = "7.06" ; \
then cp pa_j_4.xx_7.06.ml pa_j.ml; \
else cp pa_j_4.xx_7.xx.ml pa_j.ml; \
fi \
elif test ${CAMLP5_VERSION} = "6.02.1" ; \
then cp pa_j_3.1x_6.02.1.ml pa_j.ml; \
elif test ${CAMLP5_VERSION} = "6.02.2" -o ${CAMLP5_VERSION} = "6.02.3" -o ${CAMLP5_VERSION} = "6.03" -o ${CAMLP5_VERSION} = "6.04" -o ${CAMLP5_VERSION} = "6.05" -o ${CAMLP5_VERSION} = "6.06" ; \
then cp pa_j_3.1x_6.02.2.ml pa_j.ml; \
elif test ${CAMLP5_VERSION} = "6.06" -o ${CAMLP5_VERSION} = "6.07" -o ${CAMLP5_VERSION} = "6.08" -o ${CAMLP5_VERSION} = "6.09" -o ${CAMLP5_VERSION} = "6.10" -o ${CAMLP5_VERSION} = "6.11" -o ${CAMLP5_VERSION} = "6.12" -o ${CAMLP5_VERSION} = "6.13" -o ${CAMLP5_VERSION} = "6.14" -o ${CAMLP5_VERSION} = "6.15" -o ${CAMLP5_VERSION} = "6.16" -o ${CAMLP5_VERSION} = "6.17" ; \
then cp pa_j_3.1x_6.11.ml pa_j.ml; \
else cp pa_j_3.1x_${CAMLP5_BINARY_VERSION}.xx.ml pa_j.ml; \
fi
# TODO: update this and hol.* commands to use one of checkpointing tools
# other than ckpt.
# Build a standalone hol image called "hol" (needs Linux and ckpt program)
hol: pa_j.cmo ${HOLSRC} update_database.ml; \
if test `uname` = Linux; then \
echo -e '#use "make.ml";;\nloadt "update_database.ml";;\nself_destruct "";;' | ckpt -a SIGUSR1 -n hol.snapshot ocaml;\
mv hol.snapshot hol; \
else \
echo '******************************************************'; \
echo 'FAILURE: Image build assumes Linux and ckpt program'; \
echo '******************************************************'; \
fi
# Build an image with multivariate calculus preloaded.
hol.multivariate: ./hol \
Library/card.ml Library/permutations.ml Library/products.ml \
Library/floor.ml Multivariate/misc.ml Library/iter.ml \
Multivariate/metric.ml Multivariate/vectors.ml \
Multivariate/determinants.ml Multivariate/topology.ml \
Multivariate/convex.ml Multivariate/paths.ml \
Multivariate/polytope.ml Multivariate/degree.ml \
Multivariate/derivatives.ml Multivariate/clifford.ml \
Multivariate/integration.ml Multivariate/measure.ml \
Multivariate/multivariate_database.ml update_database.ml; \
echo -e 'loadt "Multivariate/make.ml";;\nloadt "update_database.ml";;\nself_destruct "Preloaded with multivariate analysis";;' | ./hol; mv hol.snapshot hol.multivariate;
# Build an image with analysis and SOS procedure preloaded
hol.sosa: ./hol \
Library/analysis.ml Library/transc.ml \
Examples/sos.ml update_database.ml; \
echo -e 'loadt "Library/analysis.ml";;\nloadt "Library/transc.ml";;\nloadt "Examples/sos.ml";;\nloadt "update_database.ml";;\nself_destruct "Preloaded with analysis and SOS";;' | ./hol; mv hol.snapshot hol.sosa;
# Build an image with cardinal arithmetic preloaded
hol.card: ./hol Library/card.ml; update_database.ml; \
echo -e 'loadt "Library/card.ml";;\nloadt "update_database.ml";;\nself_destruct "Preloaded with cardinal arithmetic";;' | ./hol; mv hol.snapshot hol.card;
# Build an image with multivariate-based complex analysis preloaded
hol.complex: ./hol.multivariate \
Library/binomial.ml Multivariate/complexes.ml \
Multivariate/canal.ml Multivariate/transcendentals.ml \
Multivariate/realanalysis.ml Multivariate/moretop.ml \
Multivariate/cauchy.ml Multivariate/complex_database.ml \
update_database.ml; \
echo -e 'loadt "Multivariate/complexes.ml";;\nloadt "Multivariate/canal.ml";;\nloadt "Multivariate/transcendentals.ml";;\nloadt "Multivariate/realanalysis.ml";;\nloadt "Multivariate/cauchy.ml";;\nloadt "Multivariate/complex_database.ml";;\nloadt "update_database.ml";;\nself_destruct "Preloaded with multivariate-based complex analysis";;' | ./hol.multivariate; mv hol.snapshot hol.complex;
# Build all those
all: hol hol.multivariate hol.sosa hol.card hol.complex;
# Build binaries and copy them to binary directory
install: hol hol.multivariate hol.sosa hol.card hol.complex; cp hol hol.multivariate hol.sosa hol.card hol.complex ${BINDIR}
# Clean up all compiled files
clean:; rm -f update_database.ml pa_j.ml pa_j.cmi pa_j.cmo hol hol.multivariate hol.sosa hol.card hol.complex;