Lib/lib-stdwin/tablewin.py - platform/external/python/cpython3 - Gitiles

 # Module 'tablewin'

 # Display a table, with per-item actions:

 #	   A1   |   A2   |   A3   |  ....  |   AN
 #	   B1   |   B2   |   B3   |  ....  |   BN
 #	   C1   |   C2   |   C3   |  ....  |   CN
 #	   ..   |   ..   |   ..   |  ....  |   ..
 #	   Z1   |   Z2   |   Z3   |  ....  |   ZN

 # Not all columns need to have the same length.
 # The data structure is a list of columns;
 # each column is a list of items.
 # Each item is a pair of a string and an action procedure.
 # The first item may be a column title.

 import stdwin
 import gwin
 from stdwinevents import *

 def open(title, data): # Public function to open a table window
 	#
 	# Set geometry parameters (one day, these may be changeable)
 	#
 	margin = stdwin.textwidth('  ')
 	lineheight = stdwin.lineheight()
 	#
 	# Geometry calculations
 	#
 	colstarts = [0]
 	totwidth = 0
 	maxrows = 0
 	for coldata in data:
 		# Height calculations
 		rows = len(coldata)
 		if rows > maxrows: maxrows = rows
 		# Width calculations
 		width = colwidth(coldata) + margin
 		totwidth = totwidth + width
 		colstarts.append(totwidth)
 	#
 	# Calculate document and window height
 	#
 	docwidth, docheight = totwidth, maxrows*lineheight
 	winwidth, winheight = docwidth, docheight
 	if winwidth > stdwin.textwidth('n')*100: winwidth = 0
 	if winheight > stdwin.lineheight()*30: winheight = 0
 	#
 	# Create the window
 	#
 	stdwin.setdefwinsize(winwidth, winheight)
 	w = gwin.open(title)
 	#
 	# Set properties and override methods
 	#
 	w.data = data
 	w.margin = margin
 	w.lineheight = lineheight
 	w.colstarts = colstarts
 	w.totwidth = totwidth
 	w.maxrows = maxrows
 	w.selection = (-1, -1)
 	w.lastselection = (-1, -1)
 	w.selshown = 0
 	w.setdocsize(docwidth, docheight)
 	w.draw = draw
 	w.mup = mup
 	w.arrow = arrow
 	#
 	# Return
 	#
 	return w

 def update(w, data): # Change the data
 	#
 	# Hide selection
 	#
 	hidesel(w, w.begindrawing())
 	#
 	# Get old geometry parameters
 	#
 	margin = w.margin
 	lineheight = w.lineheight
 	#
 	# Geometry calculations
 	#
 	colstarts = [0]
 	totwidth = 0
 	maxrows = 0
 	for coldata in data:
 		# Height calculations
 		rows = len(coldata)
 		if rows > maxrows: maxrows = rows
 		# Width calculations
 		width = colwidth(coldata) + margin
 		totwidth = totwidth + width
 		colstarts.append(totwidth)
 	#
 	# Calculate document and window height
 	#
 	docwidth, docheight = totwidth, maxrows*lineheight
 	#
 	# Set changed properties and change window size
 	#
 	w.data = data
 	w.colstarts = colstarts
 	w.totwidth = totwidth
 	w.maxrows = maxrows
 	w.change((0, 0), (10000, 10000))
 	w.setdocsize(docwidth, docheight)
 	w.change((0, 0), (docwidth, docheight))
 	#
 	# Show selection, or forget it if out of range
 	#
 	showsel(w, w.begindrawing())
 	if not w.selshown: w.selection = (-1, -1)

 def colwidth(coldata): # Subroutine to calculate column width
 	maxwidth = 0
 	for string, action in coldata:
 		width = stdwin.textwidth(string)
 		if width > maxwidth: maxwidth = width
 	return maxwidth

 def draw(w, ((left, top), (right, bottom))): # Draw method
 	ileft = whichcol(w, left)
 	iright = whichcol(w, right-1) + 1
 	if iright > len(w.data): iright = len(w.data)
 	itop = divmod(top, w.lineheight)[0]
 	if itop < 0: itop = 0
 	ibottom, remainder = divmod(bottom, w.lineheight)
 	if remainder: ibottom = ibottom + 1
 	d = w.begindrawing()
 	if ileft <= w.selection[0] < iright:
 		if itop <= w.selection[1] < ibottom:
 			hidesel(w, d)
 	d.erase((left, top), (right, bottom))
 	for i in range(ileft, iright):
 		col = w.data[i]
 		jbottom = len(col)
 		if ibottom < jbottom: jbottom = ibottom
 		h = w.colstarts[i]
 		v = itop * w.lineheight
 		for j in range(itop, jbottom):
 			string, action = col[j]
 			d.text((h, v), string)
 			v = v + w.lineheight
 	showsel(w, d)

 def mup(w, detail): # Mouse up method
 	(h, v), nclicks, button, mask = detail
 	icol = whichcol(w, h)
 	if 0 <= icol < len(w.data):
 		irow = divmod(v, w.lineheight)[0]
 		col = w.data[icol]
 		if 0 <= irow < len(col):
 			string, action = col[irow]
 			action(w, string, (icol, irow), detail)

 def whichcol(w, h): # Return column number (may be >= len(w.data))
 	for icol in range(0, len(w.data)):
 		if h < w.colstarts[icol+1]:
 			return icol
 	return len(w.data)

 def arrow(w, type):
 	if type == WC_LEFT:
 		incr = -1, 0
 	elif type == WC_UP:
 		incr = 0, -1
 	elif type == WC_RIGHT:
 		incr = 1, 0
 	elif type == WC_DOWN:
 		incr = 0, 1
 	else:
 		return
 	icol, irow = w.lastselection
 	icol = icol + incr[0]
 	if icol < 0: icol = len(w.data)-1
 	if icol >= len(w.data): icol = 0
 	if 0 <= icol < len(w.data):
 		irow = irow + incr[1]
 		if irow < 0: irow = len(w.data[icol]) - 1
 		if irow >= len(w.data[icol]): irow = 0
 	else:
 		irow = 0
 	if 0 <= icol < len(w.data) and 0 <= irow < len(w.data[icol]):
 		w.lastselection = icol, irow
 		string, action = w.data[icol][irow]
 		detail = (0, 0), 1, 1, 1
 		action(w, string, (icol, irow), detail)


 # Selection management
 # TO DO: allow multiple selected entries

 def select(w, selection): # Public function to set the item selection
 	d = w.begindrawing()
 	hidesel(w, d)
 	w.selection = selection
 	showsel(w, d)
 	if w.selshown: lastselection = selection

 def hidesel(w, d): # Hide the selection, if shown
 	if w.selshown: invertsel(w, d)

 def showsel(w, d): # Show the selection, if hidden
 	if not w.selshown: invertsel(w, d)

 def invertsel(w, d): # Invert the selection, if valid
 	icol, irow = w.selection
 	if 0 <= icol < len(w.data) and 0 <= irow < len(w.data[icol]):
 		left = w.colstarts[icol]
 		right = w.colstarts[icol+1]
 		top = irow * w.lineheight
 		bottom = (irow+1) * w.lineheight
 		d.invert((left, top), (right, bottom))
 		w.selshown = (not w.selshown)


 # Demonstration

 def demo_action(w, string, (icol, irow), detail): # Action function for demo
 	select(w, (irow, icol))

 def demo(): # Demonstration
 	da = demo_action # shorthand
 	col0 = [('a1', da), ('bbb1', da), ('c1', da)]
 	col1 = [('a2', da), ('bbb2', da)]
 	col2 = [('a3', da), ('b3', da), ('c3', da), ('d4', da), ('d5', da)]
 	col3 = []
 	for i in range(1, 31): col3.append('xxx' + `i`, da)
 	data = [col0, col1, col2, col3]
 	w = open('tablewin.demo', data)
 	gwin.mainloop()
 	return w
	# Module 'tablewin'

	# Display a table, with per-item actions:

	# A1 \| A2 \| A3 \| .... \| AN
	# B1 \| B2 \| B3 \| .... \| BN
	# C1 \| C2 \| C3 \| .... \| CN
	# .. \| .. \| .. \| .... \| ..
	# Z1 \| Z2 \| Z3 \| .... \| ZN

	# Not all columns need to have the same length.
	# The data structure is a list of columns;
	# each column is a list of items.
	# Each item is a pair of a string and an action procedure.
	# The first item may be a column title.

	import stdwin
	import gwin
	from stdwinevents import *

	def open(title, data): # Public function to open a table window
	#
	# Set geometry parameters (one day, these may be changeable)
	#
	margin = stdwin.textwidth(' ')
	lineheight = stdwin.lineheight()
	#
	# Geometry calculations
	#
	colstarts = [0]
	totwidth = 0
	maxrows = 0
	for coldata in data:
	# Height calculations
	rows = len(coldata)
	if rows > maxrows: maxrows = rows
	# Width calculations
	width = colwidth(coldata) + margin
	totwidth = totwidth + width
	colstarts.append(totwidth)
	#
	# Calculate document and window height
	#
	docwidth, docheight = totwidth, maxrows*lineheight
	winwidth, winheight = docwidth, docheight
	if winwidth > stdwin.textwidth('n')*100: winwidth = 0
	if winheight > stdwin.lineheight()*30: winheight = 0
	#
	# Create the window
	#
	stdwin.setdefwinsize(winwidth, winheight)
	w = gwin.open(title)
	#
	# Set properties and override methods
	#
	w.data = data
	w.margin = margin
	w.lineheight = lineheight
	w.colstarts = colstarts
	w.totwidth = totwidth
	w.maxrows = maxrows
	w.selection = (-1, -1)
	w.lastselection = (-1, -1)
	w.selshown = 0
	w.setdocsize(docwidth, docheight)
	w.draw = draw
	w.mup = mup
	w.arrow = arrow
	#
	# Return
	#
	return w

	def update(w, data): # Change the data
	#
	# Hide selection
	#
	hidesel(w, w.begindrawing())
	#
	# Get old geometry parameters
	#
	margin = w.margin
	lineheight = w.lineheight
	#
	# Geometry calculations
	#
	colstarts = [0]
	totwidth = 0
	maxrows = 0
	for coldata in data:
	# Height calculations
	rows = len(coldata)
	if rows > maxrows: maxrows = rows
	# Width calculations
	width = colwidth(coldata) + margin
	totwidth = totwidth + width
	colstarts.append(totwidth)
	#
	# Calculate document and window height
	#
	docwidth, docheight = totwidth, maxrows*lineheight
	#
	# Set changed properties and change window size
	#
	w.data = data
	w.colstarts = colstarts
	w.totwidth = totwidth
	w.maxrows = maxrows
	w.change((0, 0), (10000, 10000))
	w.setdocsize(docwidth, docheight)
	w.change((0, 0), (docwidth, docheight))
	#
	# Show selection, or forget it if out of range
	#
	showsel(w, w.begindrawing())
	if not w.selshown: w.selection = (-1, -1)

	def colwidth(coldata): # Subroutine to calculate column width
	maxwidth = 0
	for string, action in coldata:
	width = stdwin.textwidth(string)
	if width > maxwidth: maxwidth = width
	return maxwidth

	def draw(w, ((left, top), (right, bottom))): # Draw method
	ileft = whichcol(w, left)
	iright = whichcol(w, right-1) + 1
	if iright > len(w.data): iright = len(w.data)
	itop = divmod(top, w.lineheight)[0]
	if itop < 0: itop = 0
	ibottom, remainder = divmod(bottom, w.lineheight)
	if remainder: ibottom = ibottom + 1
	d = w.begindrawing()
	if ileft <= w.selection[0] < iright:
	if itop <= w.selection[1] < ibottom:
	hidesel(w, d)
	d.erase((left, top), (right, bottom))
	for i in range(ileft, iright):
	col = w.data[i]
	jbottom = len(col)
	if ibottom < jbottom: jbottom = ibottom
	h = w.colstarts[i]
	v = itop * w.lineheight
	for j in range(itop, jbottom):
	string, action = col[j]
	d.text((h, v), string)
	v = v + w.lineheight
	showsel(w, d)

	def mup(w, detail): # Mouse up method
	(h, v), nclicks, button, mask = detail
	icol = whichcol(w, h)
	if 0 <= icol < len(w.data):
	irow = divmod(v, w.lineheight)[0]
	col = w.data[icol]
	if 0 <= irow < len(col):
	string, action = col[irow]
	action(w, string, (icol, irow), detail)

	def whichcol(w, h): # Return column number (may be >= len(w.data))
	for icol in range(0, len(w.data)):
	if h < w.colstarts[icol+1]:
	return icol
	return len(w.data)

	def arrow(w, type):
	if type == WC_LEFT:
	incr = -1, 0
	elif type == WC_UP:
	incr = 0, -1
	elif type == WC_RIGHT:
	incr = 1, 0
	elif type == WC_DOWN:
	incr = 0, 1
	else:
	return
	icol, irow = w.lastselection
	icol = icol + incr[0]
	if icol < 0: icol = len(w.data)-1
	if icol >= len(w.data): icol = 0
	if 0 <= icol < len(w.data):
	irow = irow + incr[1]
	if irow < 0: irow = len(w.data[icol]) - 1
	if irow >= len(w.data[icol]): irow = 0
	else:
	irow = 0
	if 0 <= icol < len(w.data) and 0 <= irow < len(w.data[icol]):
	w.lastselection = icol, irow
	string, action = w.data[icol][irow]
	detail = (0, 0), 1, 1, 1
	action(w, string, (icol, irow), detail)


	# Selection management
	# TO DO: allow multiple selected entries

	def select(w, selection): # Public function to set the item selection
	d = w.begindrawing()
	hidesel(w, d)
	w.selection = selection
	showsel(w, d)
	if w.selshown: lastselection = selection

	def hidesel(w, d): # Hide the selection, if shown
	if w.selshown: invertsel(w, d)

	def showsel(w, d): # Show the selection, if hidden
	if not w.selshown: invertsel(w, d)

	def invertsel(w, d): # Invert the selection, if valid
	icol, irow = w.selection
	if 0 <= icol < len(w.data) and 0 <= irow < len(w.data[icol]):
	left = w.colstarts[icol]
	right = w.colstarts[icol+1]
	top = irow * w.lineheight
	bottom = (irow+1) * w.lineheight
	d.invert((left, top), (right, bottom))
	w.selshown = (not w.selshown)


	# Demonstration

	def demo_action(w, string, (icol, irow), detail): # Action function for demo
	select(w, (irow, icol))

	def demo(): # Demonstration
	da = demo_action # shorthand
	col0 = [('a1', da), ('bbb1', da), ('c1', da)]
	col1 = [('a2', da), ('bbb2', da)]
	col2 = [('a3', da), ('b3', da), ('c3', da), ('d4', da), ('d5', da)]
	col3 = []
	for i in range(1, 31): col3.append('xxx' + `i`, da)
	data = [col0, col1, col2, col3]
	w = open('tablewin.demo', data)
	gwin.mainloop()
	return w