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author | Mattias Andrée <maandree@kth.se> | 2019-10-22 20:47:49 +0200 |
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committer | Mattias Andrée <maandree@kth.se> | 2019-10-22 20:48:13 +0200 |
commit | 6aeb2443f562c9b879009137c4aa92cfd592a93e (patch) | |
tree | b8e1a7028b0472fbd88019a2b9325024038443e3 /src/test | |
parent | Fix Python 3.7 compatility (diff) | |
download | pylibcoopgamma-6aeb2443f562c9b879009137c4aa92cfd592a93e.tar.gz pylibcoopgamma-6aeb2443f562c9b879009137c4aa92cfd592a93e.tar.bz2 pylibcoopgamma-6aeb2443f562c9b879009137c4aa92cfd592a93e.tar.xz |
Change license, flat file hier, do not use gpp, join .py and .pyx, simpler makefile1.1.2
Signed-off-by: Mattias Andrée <maandree@kth.se>
Diffstat (limited to 'src/test')
-rwxr-xr-x | src/test | 376 |
1 files changed, 0 insertions, 376 deletions
diff --git a/src/test b/src/test deleted file mode 100755 index f2bb71e..0000000 --- a/src/test +++ /dev/null @@ -1,376 +0,0 @@ -#!/usr/bin/env python3 -''' -pylibcoopgamma -- Python library for interfacing with cooperative gamma servers -Copyright (C) 2016 Mattias Andrée (maandree@kth.se) - -This library 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 library 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 library. If not, see <http://www.gnu.org/licenses/>. -''' - -import os, sys, time, errno, select - -os.chdir('/'.join(sys.argv[0].split('/')[:-1])) -sys.path.append('../bin') - -import libcoopgamma -cg = libcoopgamma - -if len(sys.argv) == 1: - - print('\033[1m%s:\033[m' % 'Methods') - for m in cg.get_methods(): - print(m) - print() - - print('\033[1m%s:\033[m' % 'Method') - print(cg.get_method_and_site()[0]) - print() - - print('\033[1m%s:\033[m' % 'Site') - print(cg.get_method_and_site()[1]) - print() - - print('\033[1m%s:\033[m' % 'PID file') - print(cg.get_pid_file()) - print() - - print('\033[1m%s:\033[m' % 'Socket') - print(cg.get_socket_file()) - print() - - g = cg.Context() - g.connect() - g.detach() - gstr = repr(g) - del g - - argv0 = './' + sys.argv[0].split('/')[-1] - os.execl(argv0, argv0, gstr) -else: - g = eval(sys.argv[1]) - g.attach() - pass - -print('\033[1m%s:\033[m' % 'CRTC:s') -crtcs = g.get_crtcs_sync() -for crtc in crtcs: - print(crtc) -print() - -info = g.get_gamma_info_sync(crtc) -print('\033[1m%s:\033[m' % 'CRTC info') -print('Cooperative:', 'yes' if info.cooperative else 'no') -if info.depth is not None: - print('Depth:', cg.Depth.str(info.depth)) -print('Supported:', cg.Support.str(info.supported)) -if info.red_size is not None: - print('Red stops:', info.red_size) -if info.green_size is not None: - print('Green stops:', info.green_size) -if info.blue_size is not None: - print('Blue stops:', info.blue_size) -print('Colourspace:', cg.Colourspace.str(info.colourspace)) -if info.gamut is not None: - print('Red point:', str(info.gamut.red)) - print('Green point:', str(info.gamut.green)) - print('Blue point:', str(info.gamut.blue)) - print('White point:', str(info.gamut.white)) -print() - -table = g.get_gamma_sync(cg.FilterQuery(crtc = crtc, coalesce = False)) -print('\033[1m%s:\033[m' % 'Filter table') -print('Red stops:', table.red_size) -print('Green stops:', table.green_size) -print('Blue stops:', table.blue_size) -print('Depth:', cg.Depth.str(table.depth)) -for i, fltr in enumerate(table.filters): - print('Filter %i:' % i) - print(' Priority:', fltr.priority) - print(' Class:', fltr.fclass) - print(' Ramps:') - rr, gr, br = fltr.ramps.red, fltr.ramps.green, fltr.ramps.blue - n = max(len(rr), len(gr), len(br)) - fmt = ' \033[31m%s \033[32m%s \033[34m%s\033[m' - rr = [str(rr[i]) if i < len(rr) else '' for i in range(n)] - gr = [str(gr[i]) if i < len(gr) else '' for i in range(n)] - br = [str(br[i]) if i < len(br) else '' for i in range(n)] - for y in zip(rr, gr, br): - print(fmt % y) -print() -table_nc = table - -table = g.get_gamma_sync(cg.FilterQuery(crtc = crtc, coalesce = True)) -print('\033[1m%s:\033[m' % 'Filter table') -print('Red stops:', table.red_size) -print('Green stops:', table.green_size) -print('Blue stops:', table.blue_size) -print('Depth:', cg.Depth.str(table.depth)) -for fltr in table.filters: - print('Ramps:') - rr, gr, br = fltr.ramps.red, fltr.ramps.green, fltr.ramps.blue - n = max(len(rr), len(gr), len(br)) - fmt = ' \033[31m%s \033[32m%s \033[34m%s\033[m' - rr = [str(rr[i]) if i < len(rr) else '' for i in range(n)] - gr = [str(gr[i]) if i < len(gr) else '' for i in range(n)] - br = [str(br[i]) if i < len(br) else '' for i in range(n)] - for y in zip(rr, gr, br): - print(fmt % y) -print() -table_c = table - -fltr = cg.Filter(0, crtc, 'pylibcoopgamma::test::test', cg.Lifespan.UNTIL_DEATH, table.depth, - cg.Ramps(table.red_size, table.green_size, table.blue_size)) - -if table.depth < 0: - Y = lambda x : x -else: - m = 2 ** table.depth - 1 - Y = lambda x : int(x * m) - -redzero = fltr.ramps.red -greenzero = fltr.ramps.green -redid = [Y(x / (table.red_size - 1)) for x in range(table.red_size)] -greenid = [Y(x / (table.green_size - 1)) for x in range(table.green_size)] -blueid = [Y(x / (table.blue_size - 1)) for x in range(table.blue_size)] - -fltr.ramps.red = redid -g.set_gamma_sync(fltr) -time.sleep(0.5) -fltr.ramps.red = redzero - -fltr.ramps.green = greenid -g.set_gamma_sync(fltr) -time.sleep(0.5) -fltr.ramps.green = greenzero - -fltr.ramps.blue = blueid -g.set_gamma_sync(fltr) -time.sleep(0.5) - -g.set_nonbreaking(False) - -asynch = cg.AsyncContext() - -def flush(e): - if e.errno in (errno.EINTR, errno.EWOULDBLOCK, errno.EAGAIN): - while True: - try: - g.flush() - except OSError as ex: - if ex.errno in (errno.EINTR, errno.EWOULDBLOCK, errno.EAGAIN): - continue - else: - raise ex - break - else: - raise e - -try: - g.get_crtcs_send(asynch) -except OSError as e: - flush(e) -if g.synchronise([asynch]) != 0: - sys.exit(1) -if g.get_crtcs_recv(asynch) != crtcs: - sys.exit(2) - -try: - g.get_gamma_info_send(crtc, asynch) -except OSError as e: - flush(e) -if g.synchronise([asynch]) != 0: - sys.exit(3) -info2 = g.get_gamma_info_recv(asynch) -if info2.cooperative != info.cooperative: - sys.exit(4) -if info2.depth != info.depth: - sys.exit(4) -if info2.supported != info.supported: - sys.exit(4) -if info2.red_size != info.red_size: - sys.exit(4) -if info2.green_size != info.green_size: - sys.exit(4) -if info2.blue_size != info.blue_size: - sys.exit(4) -if info2.colourspace != info.colourspace: - sys.exit(4) -if (info2.gamut is None) != (info.gamut is None): - sys.exit(4) -if info.gamut is not None: - if info2.gamut.red.x_raw != info.gamut.red.x_raw or info2.gamut.red.x != info.gamut.red.x: - sys.exit(4) - if info2.gamut.red.y_raw != info.gamut.red.y_raw or info2.gamut.red.y != info.gamut.red.y: - sys.exit(4) - if info2.gamut.green.x_raw != info.gamut.green.x_raw or info2.gamut.green.x != info.gamut.green.x: - sys.exit(4) - if info2.gamut.green.y_raw != info.gamut.green.y_raw or info2.gamut.green.y != info.gamut.green.y: - sys.exit(4) - if info2.gamut.blue.x_raw != info.gamut.blue.x_raw or info2.gamut.blue.x != info.gamut.blue.x: - sys.exit(4) - if info2.gamut.blue.y_raw != info.gamut.blue.y_raw or info2.gamut.blue.y != info.gamut.blue.y: - sys.exit(4) - if info2.gamut.white.x_raw != info.gamut.white.x_raw or info2.gamut.white.x != info.gamut.white.x: - sys.exit(4) - if info2.gamut.white.y_raw != info.gamut.white.y_raw or info2.gamut.white.y != info.gamut.white.y: - sys.exit(4) - -try: - g.set_gamma_send(cg.Filter(crtc = crtc, fclass = 'pylibcoopgamma::test::test', - lifespan = cg.Lifespan.REMOVE), asynch) -except OSError as e: - flush(e) -if g.synchronise([asynch]) != 0: - sys.exit(1) -g.set_gamma_recv(asynch) - -try: - g.get_gamma_send(cg.FilterQuery(crtc = crtc, coalesce = False), asynch) -except OSError as e: - flush(e) -if g.synchronise([asynch]) != 0: - sys.exit(5) -table = g.get_gamma_recv(asynch) -if table.red_size != table_nc.red_size: - sys.exit(6) -if table.green_size != table_nc.green_size: - sys.exit(6) -if table.blue_size != table_nc.blue_size: - sys.exit(6) -if table.depth != table_nc.depth: - sys.exit(6) -if len(table.filters) != len(table_nc.filters): - sys.exit(6) -for i, (fltr1, fltr2) in enumerate(zip(table.filters, table_nc.filters)): - if fltr1.priority != fltr2.priority: - sys.exit(6) - if fltr1.fclass != fltr2.fclass: - sys.exit(6) - if fltr1.ramps.red != fltr2.ramps.red: - sys.exit(6) - if fltr1.ramps.green != fltr2.ramps.green: - sys.exit(6) - if fltr1.ramps.blue != fltr2.ramps.blue: - sys.exit(6) - -try: - g.get_gamma_send(cg.FilterQuery(crtc = crtc, coalesce = True), asynch) -except OSError as e: - flush(e) -if g.synchronise([asynch]) != 0: - sys.exit(7) -table = g.get_gamma_recv(asynch) -if table.red_size != table_c.red_size: - sys.exit(8) -if table.green_size != table_c.green_size: - sys.exit(8) -if table.blue_size != table_c.blue_size: - sys.exit(8) -if table.depth != table_c.depth: - sys.exit(8) -if len(table.filters) != len(table_c.filters): - sys.exit(8) -for i, (fltr1, fltr2) in enumerate(zip(table.filters, table_c.filters)): - if fltr1.ramps.red != fltr2.ramps.red: - sys.exit(8) - if fltr1.ramps.green != fltr2.ramps.green: - sys.exit(8) - if fltr1.ramps.blue != fltr2.ramps.blue: - sys.exit(8) - - -fltr = cg.Filter(0, crtc, 'pylibcoopgamma::test::test', cg.Lifespan.UNTIL_DEATH, table.depth, - cg.Ramps(table.red_size, table.green_size, table.blue_size)) - -fltr.ramps.red = list(reversed(redid)) -fltr.ramps.green = list(reversed(greenid)) -fltr.ramps.blue = list(reversed(blueid)) -try: - g.set_gamma_send(fltr, asynch) -except OSError as e: - flush(e) -if g.synchronise([asynch]) != 0: - sys.exit(9) -g.skip_message() -time.sleep(0.5) - -fltr.ramps.red = redid -fltr.ramps.green = greenid -fltr.ramps.blue = blueid -g.set_gamma_sync(fltr) - -g.set_nonbreaking(True) - -async1 = asynch -async2 = cg.AsyncContext() -async3 = cg.AsyncContext() -time.sleep(0.5) - -fltr.ramps.red = list(reversed(redid)) -fltr.fclass = 'pylibcoopgamma::test::red' -try: - g.set_gamma_send(fltr, async1) - need_flush = True -except OSError as e: - if e.errno not in (errno.EINTR, errno.EWOULDBLOCK, errno.EAGAIN): - sys.exit(10) - need_flush = False -fltr.ramps.red = redid - -fltr.ramps.green = list(reversed(greenid)) -fltr.fclass = 'pylibcoopgamma::test::green' -try: - g.set_gamma_send(fltr, async2) - need_flush = True -except OSError as e: - if e.errno not in (errno.EINTR, errno.EWOULDBLOCK, errno.EAGAIN): - sys.exit(10) - need_flush = False -fltr.ramps.green = greenid - -fltr.ramps.blue = list(reversed(blueid)) -fltr.fclass = 'pylibcoopgamma::test::blue' -try: - g.set_gamma_send(fltr, async3) - need_flush = True -except OSError as e: - if e.errno not in (errno.EINTR, errno.EWOULDBLOCK, errno.EAGAIN): - sys.exit(10) - need_flush = False -fltr.ramps.blue = blueid - -while need_flush: - try: - g.flush() - break - except OSError as e: - if e.errno in (errno.EINTR, errno.EWOULDBLOCK, errno.EAGAIN): - continue - else: - sys.exit(11) - -poll = select.poll() -poll.register(g.fd, select.POLLIN | select.POLLPRI) - -unsynced = [True] * 3 -while any(unsynced): - poll.poll() - n = g.synchronise([async1, async2, async3]) - if n < 0 or n >= 3 or not unsynced[n]: - sys.exit(12) - unsynced[n] = False - g.set_gamma_recv([async1, async2, async3][n]) - -time.sleep(0.5) -del g - |