def test2():
canvas = PDFCanvas('test2.pdf')
drawString(canvas, "<alpha/>", 10, 10 )
# drawString(canvas, "&", 10, 10)
drawString(canvas, "α", 10,30)
# drawString(canvas, "a", 10, 50, Font(face="symbol"))
# drawString(canvas, "hello there!", 30, 90, angle= -90)
# drawString(canvas, "<b>goodbye!</b> <u>yall</u>", 100, 90, angle= 45)
# drawString(canvas, "there is a <u>time</u> and a <b>place</b><super>2</super>",
# 100, 90, angle= -75)
canvas.flush()
def test2():
canvas = PDFCanvas('test2.pdf')
drawString(canvas, "<alpha/>", 10, 10)
# drawString(canvas, "&", 10, 10)
drawString(canvas, "α", 10, 30)
# drawString(canvas, "a", 10, 50, Font(face="symbol"))
# drawString(canvas, "hello there!", 30, 90, angle= -90)
# drawString(canvas, "<b>goodbye!</b> <u>yall</u>", 100, 90, angle= 45)
# drawString(canvas, "there is a <u>time</u> and a <b>place</b><super>2</super>",
# 100, 90, angle= -75)
canvas.flush()
def test1():
canvas = PDFCanvas('test1.pdf')
drawString(canvas, "<u><b>hello there</b></u><super>hi</super>", 10, 20)
drawString(canvas, "hello!", 10, 40)
print("'hello!' width = ", stringWidth(canvas, "hello!"))
print("'hello!' SPING width = ", canvas.stringWidth("hello!"))
drawString(canvas, "<b>hello!</b> goodbye", 10, 60)
print("'<b>hello!</b> goodbye' width = ", stringWidth(canvas, "<b>hello!</b> goodbye"))
drawString(canvas, "hello!", 10, 80, Font(bold=1))
print("'hello!' Font(bold=1) SPING width = ", canvas.stringWidth("hello!", Font(bold=1)))
drawString(canvas, " goodbye", 10, 100)
print("' goodbye' SPING width = ", canvas.stringWidth(" goodbye"))
canvas.flush()
def test1():
canvas = PDFCanvas('test1.pdf')
drawString(canvas,"<u><b>hello there</b></u><super>hi</super>",10,20)
drawString(canvas,"hello!",10,40)
print "'hello!' width = ", stringWidth(canvas,"hello!")
print "'hello!' SPING width = ", canvas.stringWidth("hello!")
drawString(canvas, "<b>hello!</b> goodbye", 10,60)
print "'<b>hello!</b> goodbye' width = ", stringWidth(canvas,"<b>hello!</b> goodbye")
drawString(canvas, "hello!", 10,80, Font(bold=1))
print "'hello!' Font(bold=1) SPING width = ", canvas.stringWidth("hello!",Font(bold=1))
drawString(canvas, " goodbye", 10,100)
print "' goodbye' SPING width = ", canvas.stringWidth(" goodbye")
canvas.flush()
lines.append("<sub>sub</sub>script and greek letter symbols like α, ω, and φ, as")
lines.append("specified in MathML")
print("""
This is an example using formatted strings. It renders its output to
a portable document file called "formatted-strings.pdf" and a
postscript file called "formatted-strings.ps" for viewing with Acrobat
Reader or for printing to a postscript printer.
""")
import sping.stringformat
from sping.PDF import PDFCanvas
from sping.PS import PSCanvas
# Do PDF first
canvas = PDFCanvas(size=(350, 200), name="formatted-strings.pdf")
y = 20
for line in lines:
sping.stringformat.drawString(canvas, line, 10, y)
y = y + 20
canvas.flush()
canvas.save()
# Now do postscript
canvas = PSCanvas(size=(350, 200), name="formatted-strings.ps")
y = 20
for line in lines:
sping.stringformat.drawString(canvas, line, 10, y)
def stringformatTest():
# change the following line only to try a different SPING backend
canvas = PDFCanvas('bigtest1.pdf')
################################################### testing drawString tags
# < b > < /b > - bold
# < i > < /i > - italics
# < u > < /u > - underline
# < super > < /super > - superscript
# < sub > < /sub > - subscript
x = 10
y = canvas.defaultFont.size*1.5
##### try out each possible tags and all combos
(x,y) = allTagCombos(canvas, x, y)
##### now try various fonts
(x,y) = allTagCombos(canvas, x, y+30, Font(face="serif"))
(x,y) = allTagCombos(canvas, x, y+30, Font(face="monospaced"))
# what about rotated
(x,y) = allTagCombos(canvas, x, y+30, Font(face="serif"), angle=-30)
##### now try a couple of different font sizes
(x,y) = allTagCombos(canvas, x, y+30, Font(size=16))
(x,y) = allTagCombos(canvas, x, y+30, Font(size=9))
##### now try a different default style setting
(x,y) = allTagCombos(canvas, x, y+30, Font(underline=1))
##### now try a combo of the above 4 and a different color
(x,y) = allTagCombos(canvas, x, y+30, color = red)
################################################### testing stringWidth tags
sfwidth = stringWidth(canvas,
"<b><sub>bold+sub</sub></b> hello <u><super>underline+super</super></u>")
# break down the various string widths
print 'sw("<b><sub>bold+sub</sub></b>") = ', stringWidth(canvas,"<b><sub>bold+sub</sub></b>")
print 'sw(" hello ") = ', stringWidth(canvas," hello ")
print 'sw("<u><super>underline+super</super></u>") = ', \
stringWidth(canvas,"<u><super>underline+super</super></u>")
pwidth1 = canvas.stringWidth("bold+sub",Font(size=canvas.defaultFont.size-sizedelta, bold=1))
print "pwidth1 = ", pwidth1
pwidth2 = canvas.stringWidth(" hello ")
print "pwidth2 = ", pwidth2
pwidth3 = canvas.stringWidth("underline+super",
Font(size=canvas.defaultFont.size-sizedelta,underline=1))
print "pwidth3 = ", pwidth3
# these should be the same
print "sfwidth = ", sfwidth, " pwidth = ", pwidth1+pwidth2+pwidth3
################################################### testing greek characters
# looks better in a larger font
canvas = PDFCanvas('bigtest2.pdf')
x = 10
y = canvas.defaultFont.size*1.5
drawString(canvas,"α β <chi/> Δ <delta/>",x,y, Font(size=16), color = blue)
print "line starting with alpha should be font size 16"
y = y+30
drawString(canvas,"ϵ η Γ <gamma/>",x,y, color = green)
y = y+30
drawString(canvas,"ι κ Λ <lambda/>",x,y, color = blue)
y = y+30
drawString(canvas,"<u>μ</u> ν <b>Ω</b> <omega/>",x,y, color = green)
print "mu should be underlined, Omega should be big and bold"
y = y+30
drawString(canvas,"ο Φ φ <phiv/>",x,y, color = blue)
y = y+30
drawString(canvas,"Π π ϖ <Psi/> ψ ρ",x,y, color = green)
y = y+30
drawString(canvas,"<u>Σ σ ς <tau/></u>",x,y, color = blue)
print "line starting with sigma should be completely underlined"
y = y+30
drawString(canvas,"Θ θ ϑ <Xi/> ξ ζ",x,y, color = green)
y= y+30
drawString(canvas,"That's αll <u>folks</u><super>ω</super>",x,y)
canvas.flush()
def stringformatTest():
# change the following line only to try a different SPING backend
canvas = PDFCanvas('bigtest1.pdf')
################################################### testing drawString tags
# < b > < /b > - bold
# < i > < /i > - italics
# < u > < /u > - underline
# < super > < /super > - superscript
# < sub > < /sub > - subscript
x = 10
y = canvas.defaultFont.size * 1.5
##### try out each possible tags and all combos
(x, y) = allTagCombos(canvas, x, y)
##### now try various fonts
(x, y) = allTagCombos(canvas, x, y + 30, Font(face="serif"))
(x, y) = allTagCombos(canvas, x, y + 30, Font(face="monospaced"))
# what about rotated
(x, y) = allTagCombos(canvas, x, y + 30, Font(face="serif"), angle=-30)
##### now try a couple of different font sizes
(x, y) = allTagCombos(canvas, x, y + 30, Font(size=16))
(x, y) = allTagCombos(canvas, x, y + 30, Font(size=9))
##### now try a different default style setting
(x, y) = allTagCombos(canvas, x, y + 30, Font(underline=1))
##### now try a combo of the above 4 and a different color
(x, y) = allTagCombos(canvas, x, y + 30, color=red)
################################################### testing stringWidth tags
sfwidth = stringWidth(
canvas,
"<b><sub>bold+sub</sub></b> hello <u><super>underline+super</super></u>"
)
# break down the various string widths
print('sw("<b><sub>bold+sub</sub></b>") = ',
stringWidth(canvas, "<b><sub>bold+sub</sub></b>"))
print('sw(" hello ") = ', stringWidth(canvas, " hello "))
print('sw("<u><super>underline+super</super></u>") = ',
stringWidth(canvas, "<u><super>underline+super</super></u>"))
pwidth1 = canvas.stringWidth(
"bold+sub", Font(size=canvas.defaultFont.size - sizedelta, bold=1))
print("pwidth1 = ", pwidth1)
pwidth2 = canvas.stringWidth(" hello ")
print("pwidth2 = ", pwidth2)
pwidth3 = canvas.stringWidth(
"underline+super",
Font(size=canvas.defaultFont.size - sizedelta, underline=1))
print("pwidth3 = ", pwidth3)
# these should be the same
print("sfwidth = ", sfwidth, " pwidth = ", pwidth1 + pwidth2 + pwidth3)
################################################### testing greek characters
# looks better in a larger font
canvas = PDFCanvas('bigtest2.pdf')
x = 10
y = canvas.defaultFont.size * 1.5
drawString(canvas,
"α β <chi/> Δ <delta/>",
x,
y,
Font(size=16),
color=blue)
print("line starting with alpha should be font size 16")
y = y + 30
drawString(canvas, "ϵ η Γ <gamma/>", x, y, color=green)
y = y + 30
drawString(canvas, "ι κ Λ <lambda/>", x, y, color=blue)
y = y + 30
drawString(canvas,
"<u>μ</u> ν <b>Ω</b> <omega/>",
x,
y,
color=green)
print("mu should be underlined, Omega should be big and bold")
y = y + 30
drawString(canvas, "ο Φ φ <phiv/>", x, y, color=blue)
y = y + 30
drawString(canvas, "Π π ϖ <Psi/> ψ ρ", x, y, color=green)
y = y + 30
drawString(canvas,
"<u>Σ σ ς <tau/></u>",
x,
y,
color=blue)
print("line starting with sigma should be completely underlined")
y = y + 30
drawString(canvas,
"Θ θ ϑ <Xi/> ξ ζ",
x,
y,
color=green)
y = y + 30
drawString(canvas, "That's αll <u>folks</u><super>ω</super>",
x, y)
canvas.flush()
)
lines.append("specified in MathML")
print("""
This is an example using formatted strings. It renders its output to
a portable document file called "formatted-strings.pdf" and a
postscript file called "formatted-strings.ps" for viewing with Acrobat
Reader or for printing to a postscript printer.
""")
import sping.stringformat
from sping.PDF import PDFCanvas
from sping.PS import PSCanvas
# Do PDF first
canvas = PDFCanvas(size=(350, 200), name="formatted-strings.pdf")
y = 20
for line in lines:
sping.stringformat.drawString(canvas, line, 10, y)
y = y + 20
canvas.flush()
canvas.save()
# Now do postscript
canvas = PSCanvas(size=(350, 200), name="formatted-strings.ps")
y = 20
for line in lines:
sping.stringformat.drawString(canvas, line, 10, y)
