File:Domain coloring x2-1 x-2-i x-2-i d x2+2+2i.xcf
页面内容不支持其他语言。
外观
此XCF文件的PNG预览的大小:600 × 600像素。 其他分辨率:240 × 240像素 | 480 × 480像素 | 768 × 768像素 | 1,024 × 1,024像素 | 2,000 × 2,000像素。
原始文件 (2,000 × 2,000像素,文件大小:15.09 MB,MIME类型:image/x-xcf)
警告: XCF files must be compatible with GIMP 2.8 in order to be displayed. Files created with GIMP 2.10 format currently are not supported by the MediaWiki software (see T196054). Furthermore, indexed images are not supported and must be converted to RGB or grayscale. |
摘要
描述Domain coloring x2-1 x-2-i x-2-i d x2+2+2i.xcf |
Français : Coloration de régions de la fonction complexe sur le domaine . La couleur (teinte) représente l'argument de la fonction. Les lignes noires et blanches (saturation, valeur) représentent les valeurs de la fonction à module constant. Ce fichier comporte 4 calques : les lignes blanches indiquant les lignes iso-argument tous les pi/6, la grille transformée du plan complexe, les variations d'intensité représentant le module, la couleur représentant l'argument
English: Domain coloring of the complex function on the domain . Phase is coded by the hue and module by the value. Image generated by python script conformal.py v0.4 (Michael J Gruber and JB Cuenot) with Gimp v2.8 |
日期 | |
来源 | 自己的作品 |
作者 | Djiboun |
其他版本 |
|
XCF开发 InfoField |
许可协议
我,本作品著作权人,特此采用以下许可协议发表本作品:
本文件采用知识共享署名-相同方式共享 4.0 国际许可协议授权。
- 您可以自由地:
- 共享 – 复制、发行并传播本作品
- 修改 – 改编作品
- 惟须遵守下列条件:
- 署名 – 您必须对作品进行署名,提供授权条款的链接,并说明是否对原始内容进行了更改。您可以用任何合理的方式来署名,但不得以任何方式表明许可人认可您或您的使用。
- 相同方式共享 – 如果您再混合、转换或者基于本作品进行创作,您必须以与原先许可协议相同或相兼容的许可协议分发您贡献的作品。
Python src code
#!/usr/bin/env python
# conformal.py
# Copyright (C) 2006-2011 Michael J. Gruber <[email protected]>
#
# This program 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, version 2 of the License.
#
# This program 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 program; if not, write to the Free Software
# Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
confversion = "0.3+"
# allow access through module and without
import math, cmath
from math import *
from cmath import *
from array import array
from gimpfu import *
# try importing typical math modules
try:
from fpconst import *
import scipy.special
except ImportError:
pass
try:
import mpmath
except ImportError:
pass
def conformal_batch(width, height, code, constraint, xl, xr, yt, yb, grid, checkboard, gradient, filename):
conformal_core(width, height, code, constraint, xl, xr, yt, yb, grid, checkboard, gradient, filename)
def conformal(width, height, code, constraint, xl, xr, yt, yb, grid, checkboard, gradient):
conformal_core(width, height, code, constraint, xl, xr, yt, yb, grid, checkboard, gradient, None)
def conformal_core(width, height, code, constraint, xl, xr, yt, yb, grid, checkboard, gradient, filename):
image = gimp.Image(width, height, RGB)
drawables = [ gimp.Layer(image, "Argument", width, height, RGBA_IMAGE, 100, NORMAL_MODE),
gimp.Layer(image, "Log. modulus", width, height, RGBA_IMAGE, 35, VALUE_MODE),
gimp.Layer(image, "Grid", width, height, RGBA_IMAGE, 10, DARKEN_ONLY_MODE)]
image.disable_undo()
l = 1
for drawable in drawables:
image.add_layer(drawable, l)
l = -1
bpp = drawables[0].bpp
gimp.tile_cache_ntiles(2 * (width + 63) / 64)
dest_rgns = [ drawable.get_pixel_rgn(0, 0, width, height, True, False) for drawable in drawables ]
progress = 0
max_progress = width * height
if filename is None:
gimp.progress_init("Conformally Mapping...")
sx = (width-1.0)/(xr-xl)
sy = (height-1.0)/(yt-yb)
w = complex(0.0)
z = complex(0.0)
cx, cy = 0, 0
mp2 = 2.0*math.pi # no need to do this 500*500 times...
ml2 = 2.0*math.log(2) # no need to do this 500*500 times...
ml = math.log(2) # no need to do this 500*500 times...
compiled=compile(code, "compiled code", "exec", 0, 1)
compiledconstraint=compile(constraint, "compiled constraint code", "exec", 0, 1)
dests = [ array("B", "\x00" * width*height*bpp) for i in range(3) ]
QUANT = 4096
args = [ i/(QUANT-1.0) for i in range(QUANT) ]
arggradsamples = list(gimp.gradient_get_custom_samples(gradient, args)) + [[0,]*bpp]
modgradsamples = list(gimp.gradient_get_custom_samples("Default", args)) + [[0,]*bpp]
sqrsamples = [ [0,]*(bpp-1) + [255,], [255,]*(bpp-1) + [255,] , [0,]*bpp ]
for col in range(QUANT+1):
arggradsamples[col] = [ ((int)(255*arggradsamples[col][i]+0.5)) for i in range(bpp)]
modgradsamples[col] = [ ((int)(255*modgradsamples[col][i]+0.5)) for i in range(bpp)]
qinf = 1.0 + 1.0/(QUANT-1) # uggely uggely
args = [0.0,] * width
mods = [0.0,] * width
sqrs = [0,] * width
for row in range(0, height):
for col in range(0, width):
z = col/sx + xl + 1j*( yt - row/sy)
p = True
try:
exec(compiledconstraint)
except (OverflowError, ValueError):
p = False
if not p:
w = 0.0
else:
try:
exec(compiled)
except (OverflowError, ValueError):
p = False
if not p or isnan(w) or isinf(w):
w = 0.0
try:
logw = cmath.log(w)
arg = logw.imag
if isnan(arg) or isinf(arg):
arg = 0.0
p = False
elif arg < 0.0:
arg = arg + mp2
mod = ( logw.real/ml ) % 1.0
if isnan(mod) or isinf(mod):
mod = 0.0
p = False
except (OverflowError, ValueError):
arg = 0.0
mod = 0.0
p = False
arg = arg/mp2
try:
sqr = int(w.imag/grid % 2.0) + int(w.real/grid % 2.0)
if isnan(sqr) or isinf(sqr):
sqr = 0
p = False
except (OverflowError, ValueError):
sqr = 0
p = False
sqr = sqr % 2
if not p:
arg = qinf
mod = qinf
sqr = 2
args[col] = arg
mods[col] = mod
sqrs[col] = sqr
dests[0][row*width*bpp : (row+1)*width*bpp] = array("B", [ arggradsamples [int((QUANT-1)*args[col]+0.5)][i] for col in range(0, width) for i in range(bpp) ] )
dests[1][row*width*bpp : (row+1)*width*bpp] = array("B", [ modgradsamples[int((QUANT-1)*mods[col]+0.5)][i] for col in range(0, width) for i in range(bpp) ] )
dests[2][row*width*bpp : (row+1)*width*bpp]= array("B", [ sqrsamples[sqrs[col]][i] for col in range(0,width) for i in range(bpp) ] )
progress = progress + width
if filename is None:
gimp.progress_update(float(progress) / max_progress)
for i in range(3):
dest_rgns[i][0:width, 0:height] = dests[i].tostring()
for drawable in drawables:
drawable.flush()
drawable.update(0,0,width,height)
if not checkboard:
pdb.plug_in_edge(image,drawables[2], 10, 0, 0) # amount, WRAP, SOBEL
pdb.plug_in_vinvert(image,drawables[2])
if image.parasite_find("gimp-comment"):
image.parasite.detach("gimp-comment")
image.attach_new_parasite("gimp-comment", PARASITE_PERSISTENT, """# conformal %s
code = \"\"\"
%s
\"\"\"
constraint = \"\"\"
%s
\"\"\"
xl = %f
xr = %f
yt = %f
yb = %f
grid = %f
checkboard = %d
gradient = "%s"
width = %d
height = %d
""" % (confversion, code, constraint, xl, xr, yt, yb, grid, checkboard, gradient, width, height))
if filename is None:
image.enable_undo()
gimp.Display(image)
gimp.displays_flush
else:
if filename.find('.xcf') > 0:
pdb.gimp_xcf_save(1, image, drawables[0], filename, filename)
else:
flat_layer = pdb.gimp_image_flatten(image)
pdb.gimp_file_save(image, flat_layer, filename, filename)
register(
"conformal_batch",
"Colour representation of a conformal map",
"Colour representation of a conformal map",
"Michael J Gruber",
"Michael J Gruber",
"2011",
"",
"",
[
(PF_INT, "width", "width", 512),
(PF_INT, "height", "height", 512),
(PF_TEXT, "code", "code", "w=z"),
(PF_TEXT, "constraint", "constraint", "p=True"),
(PF_FLOAT, "xl", "x left", -1.0),
(PF_FLOAT, "xr", "x right", 1.0),
(PF_FLOAT, "yt", "y top", 1.0),
(PF_FLOAT, "yb", "y bottom", -1.0),
(PF_FLOAT, "grid", "grid spacing", 1.0),
(PF_BOOL, "checkboard", "checker board grid", 0),
(PF_GRADIENT, "gradient", "gradient", "Full saturation spectrum CCW"),
(PF_FILE, "file", "file", "out.xcf.bz2"),
],
[],
conformal_batch)
register(
"conformal",
"Colour representation of a conformal map",
"Colour representation of a conformal map",
"Michael J Gruber",
"Michael J Gruber",
"2012",
"<Toolbox>/File/Create/_Conformal ...",
"",
[
(PF_INT, "width", "width", 512),
(PF_INT, "height", "height", 512),
(PF_TEXT, "code", "code", "w=z"),
(PF_TEXT, "constraint", "constraint", "p=True"),
(PF_FLOAT, "xl", "x left", -1.0),
(PF_FLOAT, "xr", "x right", 1.0),
(PF_FLOAT, "yt", "y top", 1.0),
(PF_FLOAT, "yb", "y bottom", -1.0),
(PF_FLOAT, "grid", "grid spacing", 1.0),
(PF_BOOL, "checkboard", "checker board grid", 0),
(PF_GRADIENT, "gradient", "gradient", "Full saturation spectrum CCW"),
],
[],
conformal)
main()
此文件中描述的项目
描绘内容
知识共享署名-相同方式共享4.0国际 简体中文(已转写)
16 8 2015
媒体类型 简体中文(已转写)
image/x-xcf
文件历史
点击某个日期/时间查看对应时刻的文件。
日期/时间 | 缩略图 | 大小 | 用户 | 备注 | |
---|---|---|---|---|---|
当前 | 2015年8月16日 (日) 16:26 | 2,000 × 2,000(15.09 MB) | Djiboun | User created page with UploadWizard |
文件用途
以下页面使用本文件:
全域文件用途
以下其他wiki使用此文件:
- en.wikipedia.org上的用途
- es.wikipedia.org上的用途
- ja.wikipedia.org上的用途
- ru.wikipedia.org上的用途
- www.wikidata.org上的用途
隐藏分类: