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GAP 4.8.9 installation with standard packages -- copy to your CoCalc project to get it
Project: cocalc-sagemath-dev-slelievre
Views: 418384CC = gcc
CFLAGS = -fwritable-strings -DDIAG1 -pg
TOPDIR = /usb/carat
# LIB = -L$(TOPDIR)/lib -lcarat -lm
LIB = -L$(TOPDIR)/lib -lpresentation -lfunctions -lpresentation -lgmp -lm_alloc -lm
SRC = $(TOPDIR)/src
INCL = $(TOPDIR)/include
OBJ = $(TOPDIR)/obj
GLOBAL = -DTOPDIR=\"$(TOPDIR)\" -DTABLES=\"$(TOPDIR)/tables/\" \
-DATOMS=\"$(TOPDIR)/tables/atoms/\" \
-DTABLEDIM=\"$(TOPDIR)/tables/dim\"
COMP = $(CC) $(CFLAGS) $(GLOBAL) -I$(INCL)
ALL: DIR
#
# PROGRAMS
#
PROGRAMS: Add Aut_grp Bravais_equiv\
Bravais_grp Bravais_inclusions\
Con Conjugated Conj_bravais\
Conv Datei\
Elt Extract Extensions\
First_perfect Form_space Form_elt\
Formtovec Full Gauss Graph\
Idem Inv Invar_space Isometry Is_finite\
KSubgroups KSupergroups\
Kron Long_solve Ltm\
Modp Mtl Mul Mink_red Minpol\
Name Normalizer Normalizer_in_N Normlin\
Orbit Order\
Pair_red Pdet Perfect_neighbours Polyeder P_lse_solve\
Presentation Q_catalog QtoZ Red_gen Rest_short\
Rein Rform Reverse_name\
Same_generators Scalarmul Scpr Short\
Shortest Short_reduce Signature\
Simplify_mat Symbol\
TSubgroups TSupergroups\
Torsionfree Tr Trace Trbifo Tr_bravais\
Vor_vertices Vectoform ZZprog Zass_main Z_equiv
DIR: ./Makefile ./config.guess
if [ ! -d `./config.guess`-`basename $(CC)` ] ; then \
mkdir `./config.guess`-`basename $(CC)` ; \
fi
cp Makefile `./config.guess`-`basename $(CC)`
cd `./config.guess`-`basename $(CC)` ;\
make TOPDIR="$(TOPDIR)" CC="$(CC)" CFLAGS="$(CFLAGS)" PROGRAMS
#-------------------------------------------------------------
Add: $(SRC)/add.c
$(COMP) -o Add \
$(SRC)/add.c $(LIB)
Aut_grp: $(SRC)/autgrp.c
$(COMP) -o Aut_grp \
$(SRC)/autgrp.c $(LIB)
Bravais_equiv: $(SRC)/bravais_equiv.c
$(COMP) -o Bravais_equiv \
$(SRC)/bravais_equiv.c $(LIB)
Bravais_grp: $(SRC)/bravaisgroup.c
$(COMP) -o Bravais_grp \
$(SRC)/bravaisgroup.c $(LIB)
Bravais_inclusions: $(SRC)/bravais_inclusions.c
$(COMP) -o Bravais_inclusions \
$(SRC)/bravais_inclusions.c $(LIB)
Con: $(SRC)/con.c
$(COMP) -o Con \
$(SRC)/con.c $(LIB)
Conjugated: $(SRC)/conjugated.c
$(COMP) -o Conjugated \
$(SRC)/conjugated.c $(LIB)
Conj_bravais: $(SRC)/conj_bravais.c
$(COMP) -o Conj_bravais \
$(SRC)/conj_bravais.c $(LIB)
Conv: $(SRC)/conv.c
$(COMP) -o Conv \
$(SRC)/conv.c $(LIB)
Datei: $(SRC)/datei.c
$(COMP) -o Datei \
$(SRC)/datei.c $(LIB)
rm -f Bravais_catalog
ln -f -s Datei Bravais_catalog
Elt: $(SRC)/elt.c
$(COMP) -o Elt \
$(SRC)/elt.c $(LIB)
Extract: $(SRC)/extract.c
$(COMP) -o Extract \
$(SRC)/extract.c $(LIB)
rm -f Standard_affine_form
ln -f -s Extract Standard_affine_form
Extensions: $(SRC)/extensions.c
$(COMP) -o Extensions \
$(SRC)/extensions.c $(LIB)
rm -f Vector_systems
ln -f -s Extensions Vector_systems
First_perfect: $(SRC)/first_perfect.c
$(COMP) -o First_perfect \
$(SRC)/first_perfect.c $(LIB)
Form_space: $(SRC)/form_space.c
$(COMP) -o Form_space \
$(SRC)/form_space.c $(LIB)
Form_elt: $(SRC)/form_elt.c
$(COMP) -o Form_elt \
$(SRC)/form_elt.c $(LIB)
Formtovec: $(SRC)/formtovec.c
$(COMP) -o Formtovec \
$(SRC)/formtovec.c $(LIB)
Full: $(SRC)/full.c
$(COMP) -o Full \
$(SRC)/full.c $(LIB)
#Fundamental_domain: $(SRC)/fundamental_domain.c
# $(COMP) -o Fundamental_domain \
# $(SRC)/fundamental_domain.c $(LIB)
Gauss: $(SRC)/gauss.c
$(COMP) -o Gauss \
$(SRC)/gauss.c $(LIB)
Graph: $(SRC)/graph.c
$(COMP) -o Graph \
$(SRC)/graph.c $(LIB)
#Gittstab: $(SRC)/gittstab.c
# $(COMP) -o Gittstab \
# $(SRC)/gittstab.c $(LIB)
#Hypisom: $(SRC)/hypisom.c
# $(COMP) -o Hypisom \
# $(SRC)/hypisom.c $(LIB)
#
#Hypstab: $(SRC)/hypstab.c
# $(COMP) -o Hypstab \
# $(SRC)/hypstab.c $(LIB)
Idem: $(SRC)/idem.c
$(COMP) -o Idem \
$(SRC)/idem.c $(LIB)
Inv: $(SRC)/inv.c
$(COMP) -o Inv \
$(SRC)/inv.c $(LIB)
Invar_space: $(SRC)/invar_space.c
$(COMP) -o Invar_space \
$(SRC)/invar_space.c $(LIB)
Isometry: $(SRC)/isometry.c
$(COMP) -o Isometry \
$(SRC)/isometry.c $(LIB)
Is_finite: $(SRC)/is_finite.c
$(COMP) -o Is_finite \
$(SRC)/is_finite.c $(LIB)
Kron: $(SRC)/kron.c
$(COMP) -o Kron \
$(SRC)/kron.c $(LIB)
KSubgroups: $(SRC)/sub-k-groups.c
$(COMP) -o KSubgroups \
$(SRC)/sub-k-groups.c $(LIB)
KSupergroups: $(SRC)/super-k-groups.c
$(COMP) -o KSupergroups \
$(SRC)/super-k-groups.c $(LIB)
Long_solve: $(SRC)/long_solve.c
$(COMP) -o Long_solve \
$(SRC)/long_solve.c $(LIB)
Ltm: $(SRC)/ltm.c
$(COMP) -o Ltm \
$(SRC)/ltm.c $(LIB)
Modp: $(SRC)/modp.c
$(COMP) -o Modp \
$(SRC)/modp.c $(LIB)
Mtl: $(SRC)/mtl.c
$(COMP) -o Mtl \
$(SRC)/mtl.c $(LIB)
Mink_red: $(SRC)/mink_red.c
$(COMP) -o Mink_red \
$(SRC)/mink_red.c $(LIB)
Minpol: $(SRC)/minpol.c
$(COMP) -o Minpol \
$(SRC)/minpol.c $(LIB)
Mul: $(SRC)/mul.c
$(COMP) -o Mul \
$(SRC)/mul.c $(LIB)
Name: $(SRC)/name.c
$(COMP) -o Name \
$(SRC)/name.c $(LIB)
Normalizer: $(SRC)/normalizer.c
$(COMP) -o Normalizer \
$(SRC)/normalizer.c $(LIB)
Normalizer_in_N: $(SRC)/normalizer_in_n.c
$(COMP) -o Normalizer_in_N \
$(SRC)/normalizer_in_n.c $(LIB)
Normlin: $(SRC)/normlin.c
$(COMP) -o Normlin \
$(SRC)/normlin.c $(LIB)
Orbit: $(SRC)/orbit.c
$(COMP) -o Orbit \
$(SRC)/orbit.c $(LIB)
#Orbit_representatives: $(SRC)/orbit_representatives.c
# $(COMP) -o Orbit_representatives \
# $(SRC)/orbit_representatives.c $(LIB)
#Orbrep: $(SRC)/orbrep.c
# $(COMP) -o Orbrep \
# $(SRC)/orbrep.c $(LIB)
Order: $(SRC)/order.c
$(COMP) -o Order \
$(SRC)/order.c $(LIB)
Pair_red: $(SRC)/pair_red.c
$(COMP) -o Pair_red \
$(SRC)/pair_red.c $(LIB)
Pdet: $(SRC)/pdet.c
$(COMP) -o Pdet \
$(SRC)/pdet.c $(LIB)
Perfect_neighbours: $(SRC)/perfect_neighbours.c
$(COMP) -o Perfect_neighbours \
$(SRC)/perfect_neighbours.c $(LIB)
#Poincare: $(SRC)/poincare.c
# $(COMP) -o Poincare \
# $(SRC)/poincare.c $(LIB)
Polyeder: $(SRC)/polyeder.c
$(COMP) -o Polyeder \
$(SRC)/polyeder.c $(LIB)
P_lse_solve: $(SRC)/p_lse_solve.c
$(COMP) -o P_lse_solve \
$(SRC)/p_lse_solve.c $(LIB)
Q_catalog: $(SRC)/Q_catalog.c
$(COMP) -o Q_catalog \
$(SRC)/Q_catalog.c $(LIB)
QtoZ: $(SRC)/qtoz.c
$(COMP) -o QtoZ \
$(SRC)/qtoz.c $(LIB)
Presentation: $(SRC)/presentation.c
$(COMP) -o Presentation \
$(SRC)/presentation.c $(LIB)
Red_gen: $(SRC)/red_gen.c
$(COMP) -o Red_gen \
$(SRC)/red_gen.c $(LIB)
Rein: $(SRC)/rein.c
$(COMP) -o Rein \
$(SRC)/rein.c $(LIB)
Rest_short: $(SRC)/rest_short.c
$(COMP) -o Rest_short \
$(SRC)/rest_short.c $(LIB)
Rform: $(SRC)/rform.c
$(COMP) -o Rform \
$(SRC)/rform.c $(LIB)
Reverse_name: $(SRC)/reverse_name.c
$(COMP) -o Reverse_name \
$(SRC)/reverse_name.c $(LIB)
Same_generators: $(SRC)/same_generators.c
$(COMP) -o Same_generators \
$(SRC)/same_generators.c $(LIB)
Scalarmul: $(SRC)/scalarmul.c
$(COMP) -o Scalarmul \
$(SRC)/scalarmul.c $(LIB)
Scpr: $(SRC)/scpr.c
$(COMP) -o Scpr \
$(SRC)/scpr.c $(LIB)
Short: $(SRC)/short.c
$(COMP) -o Short \
$(SRC)/short.c $(LIB)
Shortest: $(SRC)/shortest.c
$(COMP) -o Shortest \
$(SRC)/shortest.c $(LIB)
Short_reduce: $(SRC)/short_reduce.c
$(COMP) -o Short_reduce \
$(SRC)/short_reduce.c $(LIB)
Signature: $(SRC)/signature.c
$(COMP) -o Signature \
$(SRC)/signature.c $(LIB)
Simplify_mat: $(SRC)/simplify_mat.c
$(COMP) -o Simplify_mat \
$(SRC)/simplify_mat.c $(LIB)
#Solve: $(SRC)/solve.c
# $(COMP) -o Solve\
# $(SRC)/solve.c $(LIB)
Symbol: $(SRC)/symbol.c
$(COMP) -o Symbol \
$(SRC)/symbol.c $(LIB)
rm -f Bravais_type
ln -f -s Symbol Bravais_type
TSubgroups: $(SRC)/tsubgroups.c
$(COMP) -o TSubgroups \
$(SRC)/tsubgroups.c $(LIB)
TSupergroups: $(SRC)/tsupergroups.c
$(COMP) -o TSupergroups \
$(SRC)/tsupergroups.c $(LIB)
Torsionfree: $(SRC)/torsionfree.c
$(COMP) -o Torsionfree \
$(SRC)/torsionfree.c $(LIB)
Tr: $(SRC)/tr.c
$(COMP) -o Tr \
$(SRC)/tr.c $(LIB)
Trace: $(SRC)/trace.c
$(COMP) -o Trace \
$(SRC)/trace.c $(LIB)
Trbifo: $(SRC)/trbifo.c
$(COMP) -o Trbifo \
$(SRC)/trbifo.c $(LIB)
Tr_bravais: $(SRC)/tr_bravais.c
$(COMP) -o Tr_bravais \
$(SRC)/tr_bravais.c $(LIB)
Vor_vertices: $(SRC)/vor_vertices.c
$(COMP) -o Vor_vertices \
$(SRC)/vor_vertices.c $(LIB)
Vectoform: $(SRC)/vectoform.c
$(COMP) -o Vectoform \
$(SRC)/vectoform.c $(LIB)
ZZprog: $(SRC)/ZZprog.c
$(COMP) -o ZZprog \
$(SRC)/ZZprog.c $(LIB)
rm -f Sublattices
ln -f -s ZZprog Sublattices
Zass_main: $(SRC)/zass_main.c
$(COMP) -o Zass_main \
$(SRC)/zass_main.c $(LIB)
Z_equiv: $(SRC)/z_equiv.c
$(COMP) -o Z_equiv \
$(SRC)/z_equiv.c $(LIB)
test: $(SRC)/test.c
$(COMP) -o test \
$(SRC)/test.c $(LIB)
minset: $(SRC)/minset.c
$(COMP) -o minset \
$(SRC)/minset.c $(LIB)
min_in: $(SRC)/min_in.c
$(COMP) -o min_in \
$(SRC)/min_in.c $(LIB)
clean:
rm -f Add
rm -f Aut_grp
rm -f Bravais_flok
rm -f Bravais_catalog
rm -f Bravais_inclusions
rm -f Con
rm -f Conv
rm -f Datei
rm -f Dsylv
rm -f Elt
rm -f First_perfect
rm -f Form_elt
rm -f Form_space
rm -f Formtovec
rm -f Full
rm -f Fundamental_domain
rm -f Gauss
rm -f Graph
rm -f Gittstab
rm -f Hypisom
rm -f Hypstab
rm -f Idem
rm -f Inv
rm -f Invar_space
rm -f Isometry
rm -f Is_finite
rm -f Conj_bravais
rm -f KSubgroups
rm -f KSupergroups
rm -f Kron
rm -f Long_solve
rm -f Ltm
rm -f Malloc_liste
rm -f Mink_red
rm -f Modp
rm -f Mtl
rm -f Mul
rm -f Normalizer
rm -f Normalizer_in_N
rm -f Normlin
rm -f Orbit
rm -f Orbit_representatives
rm -f Orbrep
rm -f Order
rm -f P_lse_solve
rm -f Pair_red
rm -f Pdet
rm -f Perfect_neighbours
rm -f Polyeder
rm -f Poincare
rm -f Rein
rm -f Reverse_name
rm -f Rest_short
rm -f Rform
rm -f Same_generators
rm -f Scalarmul
rm -f Scpr
rm -f Short
rm -f Short_reduce
rm -f Shortest
rm -f Signature
rm -f Simplify_mat
rm -f Solve
rm -f Symbol ; rm -f Bravais_type
rm -f TSubgroups
rm -f TSupergroups
rm -f Torsionfree
rm -f Tr
rm -f Tr_bravais
rm -f Trace
rm -f Trbifo
rm -f Vor_vertices
rm -f ZZprog ; rm -f Sublattices
rm -f Zass
rm -f Zass_main
rm -f Bravais_flok
rm -f Extensions ; rm -f Vector_systems
rm -f Extract ; rm -f Standard_affine_form
rm -f Name
rm -f Minpol
rm -f Red_gen
rm -f Conjugated
rm -f Order
rm -f Malloc_liste
rm -f Presentation
rm -f Q_catalog
rm -f QtoZ
rm -f Z_equiv
rm -f Bravais_equiv
rm -f Bravais_grp
rm -f Vectoform
rm -f Malloc_liste
rm -f core
strip:
strip *