X-Git-Url: https://vcs.fsf.org/?p=rainbowstream.git;a=blobdiff_plain;f=rainbowstream%2Fc_image.py;h=0959150bd3d300fb6b2a1f07cf18e02bd40a4989;hp=7b334894530f801bfb4c99023e95595e0acb29bf;hb=e9c756ae4bdb855d44fba37eb96d97d0b4a971e9;hpb=632c6fa515fe36cf88ef2bf39378464bd24701d8 diff --git a/rainbowstream/c_image.py b/rainbowstream/c_image.py index 7b33489..0959150 100644 --- a/rainbowstream/c_image.py +++ b/rainbowstream/c_image.py @@ -1,6 +1,7 @@ from PIL import Image from os.path import join, dirname, getmtime, exists, expanduser from .config import * +from .py3patch import * import ctypes import sys @@ -8,11 +9,14 @@ import os def call_c(): + """ + Call the C program for converting RGB to Ansi colors + """ library = expanduser('~/.image.so') sauce = join(dirname(__file__), 'image.c') if not exists(library) or getmtime(sauce) > getmtime(library): - build = "gcc -fPIC -shared -o %s %s" % (library, sauce) - assert os.system(build + " >/dev/null 2>&1") == 0 + build = "cc -fPIC -shared -o %s %s" % (library, sauce) + os.system(build + " >/dev/null 2>&1") image_c = ctypes.cdll.LoadLibrary(library) image_c.init() return image_c.rgb_to_ansi @@ -20,11 +24,41 @@ def call_c(): rgb2short = call_c() -def pixel_print(ansicolor): - sys.stdout.write('\033[48;5;%sm \033[0m' % (ansicolor)) +def pixel_print(pixel): + """ + Print a pixel with given Ansi color + """ + r, g, b = pixel[:3] + if c['24BIT'] is True: + sys.stdout.write('\033[48;2;%d;%d;%dm \033[0m' + % (r, g, b)) + else: + ansicolor = rgb2short(r, g, b) + sys.stdout.write('\033[48;5;%sm \033[0m' % (ansicolor)) -def image_to_display(path,start=None,length=None): + +def block_print(higher, lower): + """ + Print two pixels arranged above each other with Ansi color. + Abuses Unicode to print two pixels in the space of one terminal block. + """ + r0, g0, b0 = lower[:3] + r1, g1, b1 = higher[:3] + + if c['24BIT'] is True: + sys.stdout.write('\033[38;2;%d;%d;%dm\033[48;2;%d;%d;%dm▄\033[0m' + % (r1, g1, b1, r0, g0, b0)) + else: + i0 = rgb2short(r0, g0, b0) + i1 = rgb2short(r1, g1, b1) + sys.stdout.write('\033[38;5;%sm\033[48;5;%sm▄\033[0m' % (i1, i0)) + + +def image_to_display(path, start=None, length=None): + """ + Display an image + """ rows, columns = os.popen('stty size', 'r').read().split() if not start: start = c['IMAGE_SHIFT'] @@ -36,17 +70,31 @@ def image_to_display(path,start=None,length=None): i.load() width = min(w, length) height = int(float(h) * (float(width) / float(w))) - height //= 2 + if c['HIGHER_RESOLUTION'] is False: + height //= 2 i = i.resize((width, height), Image.ANTIALIAS) height = min(height, c['IMAGE_MAX_HEIGHT']) - for y in xrange(height): - print ' ' * start, - for x in xrange(width): - p = i.getpixel((x, y)) - r, g, b = p[:3] - pixel_print(rgb2short(r, g, b)) - print '' + if c['HIGHER_RESOLUTION'] is True: + for real_y in xrange(height // 2): + sys.stdout.write(' ' * start) + for x in xrange(width): + y = real_y * 2 + p0 = i.getpixel((x, y)) + p1 = i.getpixel((x, y+1)) + block_print(p1, p0) + sys.stdout.write('\n') + else: + for y in xrange(height): + sys.stdout.write(' ' * start) + for x in xrange(width): + p = i.getpixel((x, y)) + pixel_print(p) + sys.stdout.write('\n') + +""" +For direct using purpose +""" if __name__ == '__main__': image_to_display(sys.argv[1])