# Name: viewer.py # Package: wx.lib.pdfviewer # # Purpose: A PDF report viewer class # # Author: David Hughes dfh@forestfield.co.uk # Copyright: Forestfield Software Ltd # Licence: Same as wxPython host # History: Created 17 Jun 2009 # # 08 Oct 2011, Michael Hipp michael@redmule.com # Added prompt, printer_name, orientation options to # pdfViewer.Print(). Added option to pdfViewer.LoadFile() to # accept a file-like object as well as a path string # # Tags: phoenix-port, documented, unittest # #---------------------------------------------------------------------------- """ This module provides the :class:`~wx.lib.pdfviewer.viewer.pdfViewer` to view PDF files. """ import sys import os import time import types import copy import shutil from six import BytesIO, string_types import wx VERBOSE = True try: # see http://pythonhosted.org/PyMuPDF - documentation & installation import fitz mupdf = True if VERBOSE: print('pdfviewer using PyMuPDF (GPL)') except ImportError: mupdf = False try: # see http://pythonhosted.org/PyPDF2 import PyPDF2 from PyPDF2 import PdfFileReader from PyPDF2.pdf import ContentStream, PageObject from PyPDF2.filters import ASCII85Decode, FlateDecode if VERBOSE: print('pdfviewer using PyPDF2') except ImportError: msg = "PyMuPDF or PyPDF2 must be available to use pdfviewer" raise ImportError(msg) GraphicsContext = wx.GraphicsContext have_cairo = False if not mupdf: try: import wx.lib.wxcairo as wxcairo import cairo from wx.lib.graphics import GraphicsContext have_cairo = True if VERBOSE: print('pdfviewer using Cairo') except ImportError: if VERBOSE: print('pdfviewer using wx.GraphicsContext') # New PageObject method added by Forestfield Software def extractOperators(self): """ Locate and return all commands in the order they occur in the content stream """ ops = [] content = self["/Contents"].getObject() if not isinstance(content, ContentStream): content = ContentStream(content, self.pdf) for op in content.operations: if type(op[1] == bytes): op = (op[0], op[1].decode()) ops.append(op) return ops # Inject this method into the PageObject class PageObject.extractOperators = extractOperators # If reportlab is installed, use its stringWidth metric. For justifying text, # where widths are cumulative, dc.GetTextExtent consistently underestimates, # possibly because it returns integer rather than float. try: from reportlab.pdfbase.pdfmetrics import stringWidth have_rlwidth = True if VERBOSE: print('pdfviewer using reportlab stringWidth function') except ImportError: have_rlwidth = False #---------------------------------------------------------------------------- class pdfViewer(wx.ScrolledWindow): """ View pdf file in a scrolled window. Contents are read from PDF file and rendered in a GraphicsContext. Show visible window contents as quickly as possible then, when using pyPDF, read the whole file and build the set of drawing commands for each page. This can take time for a big file or if there are complex drawings eg. ReportLab's colour shading inside charts and a progress bar can be displayed by setting self.ShowLoadProgress = True (default) """ def __init__(self, parent, nid, pos, size, style): """ Default class constructor. :param wx.Window `parent`: parent window. Must not be ``None``; :param integer `nid`: window identifier. A value of -1 indicates a default value; :param `pos`: the control position. A value of (-1, -1) indicates a default position, chosen by either the windowing system or wxPython, depending on platform; :type `pos`: tuple or :class:`wx.Point` :param `size`: the control size. A value of (-1, -1) indicates a default size, chosen by either the windowing system or wxPython, depending on platform; :type `size`: tuple or :class:`wx.Size` :param integer `style`: the button style (unused); """ wx.ScrolledWindow.__init__(self, parent, nid, pos, size, style | wx.NO_FULL_REPAINT_ON_RESIZE) self.SetBackgroundStyle(wx.BG_STYLE_CUSTOM) # recommended in wxWidgets docs self.buttonpanel = None # reference to panel is set by their common parent self._showLoadProgress = (not mupdf) self.Bind(wx.EVT_PAINT, self.OnPaint) self.Bind(wx.EVT_SIZE, self.OnResize) self.Bind(wx.EVT_SCROLLWIN, self.OnScroll) self.Bind(wx.EVT_IDLE, self.OnIdle) self.have_file = False self.resizing = False self.numpages = None self.zoomscale = -1 # fit page to screen width self.nom_page_gap = 20 # nominal inter-page gap (points) self.scrollrate = 20 # pixels per scrollbar increment self.page_buffer_valid = False self.page_after_zoom_change = None self.ClearBackground() def OnIdle(self, event): """ Redraw on resize. """ if self.resizing: self.page_buffer_valid = False self.Render() self.resizing = False event.Skip() def OnResize(self, event): """ Buffer size change due to client area resize. """ self.resizing = True event.Skip() def OnScroll(self, event): """ Recalculate and redraw visible area. CallAfter is *essential* for coordination. """ wx.CallAfter(self.Render) event.Skip() def OnPaint(self, event): """ Refresh visible window with bitmap contents. """ paintDC = wx.PaintDC(self) paintDC.Clear() # in case buffer now smaller than visible window if hasattr(self, 'pdc'): paintDC.Blit(0, 0, self.winwidth, self.winheight, self.pdc, self.xshift, self.yshift) #---------------------------------------------------------------------------- # This section defines the externally callable methods: # LoadFile, Save, Print, SetZoom, and GoPage # also the getter and setter for ShowLoadProgress # that is only applicable if using PyPDF2 def LoadFile(self, pdf_file): """ Read pdf file. Assume all pages are same size, for now. :param `pdf_file`: can be either a string holding a filename path or a file-like object. """ def create_fileobject(filename): """ Create and return a file object with the contents of filename, only used for testing. """ f = open(filename, 'rb') stream = f.read() return BytesIO(stream) self.pdfpathname = '' if isinstance(pdf_file, string_types): # a filename/path string, save its name self.pdfpathname = pdf_file # remove comment from next line to test using a file-like object # pdf_file = create_fileobject(pdf_file) if mupdf: self.pdfdoc = mupdfProcessor(self, pdf_file) else: self.pdfdoc = pypdfProcessor(self, pdf_file, self.ShowLoadProgress) self.numpages = self.pdfdoc.numpages self.pagewidth = self.pdfdoc.pagewidth self.pageheight = self.pdfdoc.pageheight self.page_buffer_valid = False self.Scroll(0, 0) # in case this is a re-LoadFile self.CalculateDimensions() # to get initial visible page range # draw and display the minimal set of pages self.pdfdoc.DrawFile(self.frompage, self.topage) self.have_file = True # now draw full set of pages wx.CallAfter(self.pdfdoc.DrawFile, 0, self.numpages-1) def Save(self): "Save a copy of the pdf file if it was originally named" if self.pdfpathname: wild = "Portable document format (*.pdf)|*.pdf" dlg = wx.FileDialog(self, message="Save file as ...", wildcard=wild, style=wx.FD_SAVE | wx.FD_OVERWRITE_PROMPT) if dlg.ShowModal() == wx.ID_OK: pathname = dlg.GetPath() shutil.copy(self.pdfpathname, pathname) dlg.Destroy() def Print(self, prompt=True, printer_name=None, orientation=None): """ Print the pdf. :param boolean `prompt`: show the print dialog to the user (True/False). If False, the print dialog will not be shown and the pdf will be printed immediately. Default: True. :param string `printer_name`: the name of the printer that is to receive the printout. Default: as set by the O/S. :param `orientation`: select the orientation (:class:`wx.PORTRAIT` or :class:`wx.LANDSCAPE`) for the printout. Default: as set by the O/S. """ pdd = wx.PrintDialogData() pdd.SetMinPage(1) pdd.SetFromPage(1) pdd.SetMaxPage(self.numpages) pdd.SetToPage(self.numpages) pdata = pdd.GetPrintData() if printer_name: pdata.SetPrinterName(printer_name) if orientation: pdata.SetOrientation(orientation) # PrintData does not return actual PrintQuality - it can't as printer_name not known # but it defaults to wx.PRINT_QUALITY_HIGH, overriding user's own setting for the # printer. However calling SetQuality with a value of 0 seems to leave the printer # setting untouched pdata.SetQuality(0) printer = wx.Printer(pdd) printout = pdfPrintout('', self) if (not printer.Print(self, printout, prompt=prompt) and printer.GetLastError() == wx.PRINTER_ERROR): dlg = wx.MessageDialog(self, 'Unable to perform printing', 'Printer' , wx.OK | wx.ICON_INFORMATION) dlg.ShowModal() dlg.Destroy() printout.Destroy() def SetZoom(self, zoomscale): """ Positive integer or floating zoom scale will render the file at corresponding size where 1.0 is "actual" point size (1/72"). -1 fits page width and -2 fits page height into client area Redisplay the current page(s) at the new size :param `zoomscale`: an integer or float """ pagenow = self.frompage self.zoomscale = zoomscale self.page_buffer_valid = False # calling GoPage now will trigger rendering at the new size but the page location # will be calculated based on the old zoom scale - so save the required page number # and call GoPage again *after* rendering at the new size self.page_after_zoom_change = pagenow self.GoPage(pagenow) def GoPage(self, pagenum): """ Go to page :param integer `pagenum`: go to the provided page number if it is valid """ if pagenum > 0 and pagenum <= self.numpages: self.Scroll(0, pagenum*self.Ypagepixels/self.GetScrollPixelsPerUnit()[1] + 1) else: self.Scroll(0, 0) # calling Scroll sometimes doesn't raise wx.EVT_SCROLLWIN eg Windows 8 64 bit - so wx.CallAfter(self.Render) @property def ShowLoadProgress(self): """Property to control if file reading progress is shown (PyPDF2 only)""" return self._showLoadProgress @ShowLoadProgress.setter def ShowLoadProgress(self, flag): """Setter for showLoadProgress.""" self._showLoadProgress = flag #---------------------------------------------------------------------------- # This section is concerned with rendering a sub-set of drawing commands on demand def CalculateDimensions(self): """ Compute the required buffer sizes to hold the viewed rectangle and the range of pages visible. Set self.page_buffer_valid = False if the current set of rendered pages changes """ self.frompage = 0 self.topage = 0 device_scale = wx.ClientDC(self).GetPPI()[0]/72.0 # pixels per inch/points per inch self.font_scale_metrics = 1.0 self.font_scale_size = 1.0 # for Windows only with wx.GraphicsContext the rendered font size is too big # in the ratio of screen pixels per inch to points per inch # and font metrics are too big in the same ratio for both for Cairo and wx.GC if wx.PlatformInfo[1] == 'wxMSW': self.font_scale_metrics = 1.0 / device_scale if not have_cairo: self.font_scale_size = 1.0 / device_scale self.winwidth, self.winheight = self.GetClientSize() if self.winheight < 100: return self.Ypage = self.pageheight + self.nom_page_gap if self.zoomscale > 0.0: self.scale = self.zoomscale * device_scale else: if int(self.zoomscale) == -1: # fit width self.scale = self.winwidth / self.pagewidth else: # fit page self.scale = self.winheight / self.pageheight self.Xpagepixels = int(round(self.pagewidth*self.scale)) self.Ypagepixels = int(round(self.Ypage*self.scale)) # adjust inter-page gap so Ypagepixels is a whole number of scroll increments # and page numbers change precisely on a scroll click idiv = self.Ypagepixels/self.scrollrate nlo = idiv * self.scrollrate nhi = (idiv + 1) * self.scrollrate if nhi - self.Ypagepixels < self.Ypagepixels - nlo: self.Ypagepixels = nhi else: self.Ypagepixels = nlo self.page_gap = self.Ypagepixels/self.scale - self.pageheight self.maxwidth = max(self.winwidth, self.Xpagepixels) self.maxheight = max(self.winheight, self.numpages*self.Ypagepixels) self.SetVirtualSize((self.maxwidth, self.maxheight)) self.SetScrollRate(self.scrollrate, self.scrollrate) xv, yv = self.GetViewStart() dx, dy = self.GetScrollPixelsPerUnit() self.x0, self.y0 = (xv * dx, yv * dy) self.frompage = int(min(self.y0/self.Ypagepixels, self.numpages-1)) self.topage = int(min((self.y0+self.winheight-1)/self.Ypagepixels, self.numpages-1)) self.pagebufferwidth = max(self.Xpagepixels, self.winwidth) self.pagebufferheight = (self.topage - self.frompage + 1) * self.Ypagepixels # Inform buttonpanel controls of any changes if self.buttonpanel: self.buttonpanel.Update(self.frompage, self.numpages, self.scale/device_scale) self.page_y0 = self.frompage * self.Ypagepixels self.page_x0 = 0 self.xshift = self.x0 - self.page_x0 self.yshift = self.y0 - self.page_y0 if not self.page_buffer_valid: # via external setting self.cur_frompage = self.frompage self.cur_topage = self.topage else: # page range unchanged? whole visible area will always be inside page buffer if self.frompage != self.cur_frompage or self.topage != self.cur_topage: self.page_buffer_valid = False # due to page buffer change self.cur_frompage = self.frompage self.cur_topage = self.topage return def Render(self): """ Recalculate dimensions as client area may have been scrolled or resized. The smallest unit of rendering that can be done is the pdf page. So render the drawing commands for the pages in the visible rectangle into a buffer big enough to hold this set of pages. Force re-creating the page buffer only when client view moves outside it. With PyPDF2, use gc.Translate to render each page wrt the pdf origin, which is at the bottom left corner of the page. """ if not self.have_file: return self.CalculateDimensions() if not self.page_buffer_valid: # Initialize the buffer bitmap. self.pagebuffer = wx.Bitmap(self.pagebufferwidth, self.pagebufferheight) self.pdc = wx.MemoryDC(self.pagebuffer) # must persist gc = GraphicsContext.Create(self.pdc) # Cairo/wx.GraphicsContext API # white background path = gc.CreatePath() path.AddRectangle(0, 0, self.pagebuffer.GetWidth(), self.pagebuffer.GetHeight()) gc.SetBrush(wx.WHITE_BRUSH) gc.FillPath(path) for pageno in range(self.frompage, self.topage+1): self.xpageoffset = 0 - self.x0 self.ypageoffset = pageno*self.Ypagepixels - self.page_y0 gc.PushState() if mupdf: gc.Translate(self.xpageoffset, self.ypageoffset) # scaling is done inside RenderPage else: gc.Translate(self.xpageoffset, self.ypageoffset + self.pageheight*self.scale) gc.Scale(self.scale, self.scale) self.pdfdoc.RenderPage(gc, pageno, scale=self.scale) # Show inter-page gap gc.SetBrush(wx.Brush(wx.Colour(180, 180, 180))) #mid grey gc.SetPen(wx.TRANSPARENT_PEN) if mupdf: gc.DrawRectangle(0, self.pageheight*self.scale, self.pagewidth*self.scale, self.page_gap*self.scale) else: gc.DrawRectangle(0, 0, self.pagewidth, self.page_gap) gc.PopState() gc.PushState() gc.Translate(0-self.x0, 0-self.page_y0) self.RenderPageBoundaries(gc) gc.PopState() self.page_buffer_valid = True self.Refresh(0) # Blit appropriate area of new or existing page buffer to screen # ensure we stay on the same page after zoom scale is changed if self.page_after_zoom_change: self.GoPage(self.page_after_zoom_change) self.page_after_zoom_change = None def RenderPageBoundaries(self, gc): """ Show non-page areas in grey. """ gc.SetBrush(wx.Brush(wx.Colour(180, 180, 180))) #mid grey gc.SetPen(wx.TRANSPARENT_PEN) gc.Scale(1.0, 1.0) extrawidth = self.winwidth - self.Xpagepixels if extrawidth > 0: gc.DrawRectangle(self.winwidth-extrawidth, 0, extrawidth, self.maxheight) extraheight = self.winheight - (self.numpages*self.Ypagepixels - self.y0) if extraheight > 0: gc.DrawRectangle(0, self.winheight-extraheight, self.maxwidth, extraheight) #============================================================================ class mupdfProcessor(object): """ Create an instance of this class to open a PDF file, process the contents of each page and render each one on demand using the GPL mupdf library, which is accessed via the python-fitz package bindings (version 1.9.1 or later) """ def __init__(self, parent, pdf_file): """ :param `pdf_file`: a File object or an object that supports the standard read and seek methods similar to a File object. Could also be a string representing a path to a PDF file. """ self.parent = parent if isinstance(pdf_file, string_types): # a filename/path string, pass the name to fitz.open pathname = pdf_file self.pdfdoc = fitz.open(pathname) else: # assume it is a file-like object, pass the stream content to fitz.open # and a '.pdf' extension in pathname to identify the stream type pathname = 'fileobject.pdf' if pdf_file.tell() > 0: # not positioned at start pdf_file.seek(0) stream = bytearray(pdf_file.read()) self.pdfdoc = fitz.open(pathname, stream) self.numpages = self.pdfdoc.pageCount page = self.pdfdoc.loadPage(0) self.pagewidth = page.bound().width self.pageheight = page.bound().height self.page_rect = page.bound() self.zoom_error = False #set if memory errors during render def DrawFile(self, frompage, topage): """ This is a no-op for mupdf. Each page is scaled and drawn on demand during RenderPage directly via a call to page.getPixmap() """ self.parent.GoPage(frompage) def RenderPage(self, gc, pageno, scale=1.0): " Render the set of pagedrawings into gc for specified page " page = self.pdfdoc.loadPage(pageno) matrix = fitz.Matrix(scale, scale) try: pix = page.getPixmap(matrix=matrix) # MUST be keyword arg(s) bmp = wx.Bitmap.FromBufferRGBA(pix.width, pix.height, pix.samples) gc.DrawBitmap(bmp, 0, 0, pix.width, pix.height) self.zoom_error = False except (RuntimeError, MemoryError): if not self.zoom_error: # report once only self.zoom_error = True dlg = wx.MessageDialog(self.parent, 'Out of memory. Zoom level too high?', 'pdf viewer' , wx.OK |wx.ICON_EXCLAMATION) dlg.ShowModal() dlg.Destroy() #============================================================================ class pypdfProcessor(object): """ Create an instance of this class to open a PDF file, process the contents of every page using PyPDF2 then render each one on demand """ def __init__(self, parent, fileobj, showloadprogress): self.parent = parent self.showloadprogress = showloadprogress self.pdfdoc = PdfFileReader(fileobj) self.numpages = self.pdfdoc.getNumPages() page1 = self.pdfdoc.getPage(0) self.pagewidth = float(page1.mediaBox.getUpperRight_x()) self.pageheight = float(page1.mediaBox.getUpperRight_y()) self.pagedrawings = {} self.unimplemented = {} self.formdrawings = {} self.page = None self.gstate = None self.saved_state = None self.knownfont = False self.progbar = None # These methods interpret the PDF contents as a set of drawing commands def Progress(self, ptype, value): " This function is called at regular intervals during Drawfile" if ptype == 'start': pmsg = 'Reading pdf file' self.progbar = wx.ProgressDialog('Load file', pmsg, value, None, wx.PD_AUTO_HIDE| wx.PD_ESTIMATED_TIME|wx.PD_REMAINING_TIME) elif ptype == 'progress': self.progbar.Update(value) elif ptype == 'end': self.progbar.Destroy() def DrawFile(self, frompage, topage): """ Build set of drawing commands from PDF contents. Ideally these could be drawn straight into a PseudoDC and the visible section painted directly into scrolled window, but we need to be able to zoom and scale the output quickly without having to rebuild the drawing commands (slow). So build our own command lists, one per page, into self.pagedrawings. """ numpages_generated = 0 rp = (self.showloadprogress and frompage == 0 and topage == self.numpages-1) if rp: self.Progress('start', self.numpages) for pageno in range(frompage, topage+1): self.gstate = pdfState() # state is reset with every new page self.saved_state = [] self.page = self.pdfdoc.getPage(pageno) numpages_generated += 1 pdf_fonts = self.FetchFonts(self.page) self.pagedrawings[pageno] = self.ProcessOperators( self.page.extractOperators(), pdf_fonts) if rp: self.Progress('progress', numpages_generated) if rp: self.Progress('end', None) self.parent.GoPage(frompage) def RenderPage(self, gc, pageno, scale=None): """ Render the set of pagedrawings In a pdf file, bitmaps are treated as being of unit width and height and are scaled via a previous ConcatTransform containing the corresponding width and height as scale factors. wx.GraphicsContext/Cairo appear not to respond to this so scaling is removed from transform and width & height are added to the Drawbitmap call. """ drawdict = {'ConcatTransform': gc.ConcatTransform, 'PushState': gc.PushState, 'PopState': gc.PopState, 'SetFont': gc.SetFont, 'SetPen': gc.SetPen, 'SetBrush': gc.SetBrush, 'DrawText': gc.DrawText, 'DrawBitmap': gc.DrawBitmap, 'CreatePath': gc.CreatePath, 'DrawPath': gc.DrawPath } for drawcmd, args, kwargs in self.pagedrawings[pageno]: # scale font if requested by printer DC if drawcmd == 'SetFont' and hasattr(gc, 'font_scale'): args[0].Scale(gc.font_scale) if drawcmd == 'ConcatTransform': cm = gc.CreateMatrix(*args, **kwargs) args = (cm,) if drawcmd == 'CreatePath': gp = drawdict[drawcmd](*args, **kwargs) continue elif drawcmd == 'DrawPath': args = (gp, args[1]) if drawcmd in drawdict: drawdict[drawcmd](*args, **kwargs) # reset font scaling in case RenderPage call is repeated if drawcmd == 'SetFont' and hasattr(gc, 'font_scale'): args[0].Scale(1.0/gc.font_scale) else: pathdict = {'MoveToPoint': gp.MoveToPoint, 'AddLineToPoint': gp.AddLineToPoint, 'AddCurveToPoint': gp.AddCurveToPoint, 'AddRectangle': gp.AddRectangle, 'CloseSubpath': gp.CloseSubpath } if drawcmd in pathdict: pathdict[drawcmd](*args, **kwargs) def FetchFonts(self, currentobject): " Return the standard fonts in current page or form" pdf_fonts = {} try: fonts = currentobject["/Resources"].getObject()['/Font'] for key in fonts: pdf_fonts[key] = fonts[key]['/BaseFont'][1:] # remove the leading '/' except KeyError: pass return pdf_fonts def ProcessOperators(self, opslist, pdf_fonts): """ Interpret each operation in opslist and return in drawlist. """ drawlist = [] path = [] for operand, operator in opslist : g = self.gstate if operator == 'cm' and operand: # new transformation matrix # some operands need inverting because directions of y axis # in pdf and graphics context are opposite a, b, c, d, e, f = [float(n) for n in operand] drawlist.append(['ConcatTransform', (a, -b, -c, d, e, -f), {}]) elif operator == 'q': # save state self.saved_state.append(copy.deepcopy(g)) drawlist.append(['PushState', (), {}]) elif operator == 'Q': # restore state self.gstate = self.saved_state.pop() drawlist.append(['PopState', (), {}]) elif operator == 'RG': # Stroke RGB rs, gs, bs = [int(float(n)*255) for n in operand] g.strokeRGB = wx.Colour(rs, gs, bs) elif operator == 'rg': # Fill RGB rf, gf, bf = [int(float(n)*255) for n in operand] g.fillRGB = wx.Colour(rf, gf, bf) elif operator == 'K': # Stroke CMYK rs, gs, bs = self.ConvertCMYK(operand) g.strokeRGB = wx.Colour(rs, gs, bs) elif operator == 'k': # Fill CMYK rf, gf, bf = self.ConvertCMYK(operand) g.fillRGB = wx.Colour(rf, gf, bf) elif operator == 'w': # Line width g.lineWidth = max(float(operand[0]), 1.0) elif operator == 'J': # Line cap ix = float(operand[0]) g.lineCapStyle = {0: wx.CAP_BUTT, 1: wx.CAP_ROUND, 2: wx.CAP_PROJECTING}[ix] elif operator == 'j': # Line join ix = float(operand[0]) g.lineJoinStyle = {0: wx.JOIN_MITER, 1: wx.JOIN_ROUND, 2: wx.JOIN_BEVEL}[ix] elif operator == 'd': # Line dash pattern g.lineDashArray = [int(n) for n in operand[0]] g.lineDashPhase = int(operand[1]) elif operator in ('m', 'c', 'l', 're', 'v', 'y', 'h'): # path defining ops path.append([[float(n) for n in operand], operator]) elif operator in ('b', 'B', 'b*', 'B*', 'f', 'F', 'f*', 's', 'S', 'n'): # path drawing ops drawlist.extend(self.DrawPath(path, operator)) path = [] elif operator == 'BT': # begin text object g.textMatrix = [1, 0, 0, 1, 0, 0] g.textLineMatrix = [1, 0, 0, 1, 0, 0] elif operator == 'ET': # end text object continue elif operator == 'Tm': # text matrix g.textMatrix = [float(n) for n in operand] g.textLineMatrix = [float(n) for n in operand] elif operator == 'TL': # text leading g.leading = float(operand[0]) #elif operator == 'Tc': # character spacing # g.charSpacing = float(operand[0]) elif operator == 'Tw': # word spacing g.wordSpacing = float(operand[0]) elif operator == 'Ts': # super/subscript g.textRise = float(operand[0]) elif operator == 'Td': # next line via offsets g.textLineMatrix[4] += float(operand[0]) g.textLineMatrix[5] += float(operand[1]) g.textMatrix = copy.copy(g.textLineMatrix) elif operator == 'T*': # next line via leading g.textLineMatrix[4] += 0 g.textLineMatrix[5] -= g.leading if g.leading is not None else 0 g.textMatrix = copy.copy(g.textLineMatrix) elif operator == 'Tf': # text font g.font = pdf_fonts[operand[0]] g.fontSize = float(operand[1]) elif operator == 'Tj': # show text drawlist.extend(self.DrawTextString( operand[0].original_bytes.decode('latin-1'))) elif operator == 'Do': # invoke named XObject dlist = self.InsertXObject(operand[0]) if dlist: # may be unimplemented decode drawlist.extend(dlist) elif operator == 'INLINE IMAGE': # special pyPdf case + operand is a dict dlist = self.InlineImage(operand) if dlist: # may be unimplemented decode drawlist.extend(dlist) else: # report once if operator not in self.unimplemented: if VERBOSE: print('PDF operator %s is not implemented' % operator) self.unimplemented[operator] = 1 # Fix bitmap transform. Move the scaling from any transform matrix that precedes # a DrawBitmap operation into the op itself - the width and height extracted from # the bitmap is the size of the original PDF image not the size it is to be drawn for k in range(len(drawlist)-1): if drawlist[k][0] == 'ConcatTransform' and drawlist[k+1][0] == 'DrawBitmap': ctargs = list(drawlist[k][1]) bmargs = list(drawlist[k+1][1]) bmargs[2] = -ctargs[3] # y position bmargs[3] = ctargs[0] # width bmargs[4] = ctargs[3] # height ctargs[0] = 1.0 ctargs[3] = 1.0 drawlist[k][1] = tuple(ctargs) drawlist[k+1][1] = tuple(bmargs) return drawlist def SetFont(self, pdfont, size): """ Returns :class:`wx.Font` instance from supplied pdf font information. """ self.knownfont = True pdfont = pdfont.lower() if pdfont.count('courier'): family = wx.FONTFAMILY_MODERN font = 'Courier New' elif pdfont.count('helvetica'): family = wx.FONTFAMILY_SWISS font = 'Arial' elif pdfont.count('times'): family = wx.FONTFAMILY_ROMAN font = 'Times New Roman' elif pdfont.count('symbol'): family = wx.FONTFAMILY_DEFAULT font = 'Symbol' elif pdfont.count('zapfdingbats'): family = wx.FONTFAMILY_DEFAULT font = 'Wingdings' else: if VERBOSE: print('Unknown font %s' % pdfont) self.knownfont = False family = wx.FONTFAMILY_SWISS font = 'Arial' weight = wx.FONTWEIGHT_NORMAL if pdfont.count('bold'): weight = wx.FONTWEIGHT_BOLD style = wx.FONTSTYLE_NORMAL if pdfont.count('oblique') or pdfont.count('italic'): style = wx.FONTSTYLE_ITALIC return wx.Font(max(1, size), family, style, weight, faceName=font) def DrawTextString(self, text): """ Draw a text string. Word spacing only works for horizontal text. :param string `text`: the text to draw """ dlist = [] g = self.gstate f0 = self.SetFont(g.font, g.fontSize) f0.Scale(self.parent.font_scale_metrics) f1 = self.SetFont(g.font, g.fontSize) f1.Scale(self.parent.font_scale_size) dlist.append(['SetFont', (f1, g.fillRGB), {}]) if g.wordSpacing > 0: textlist = text.split(' ') else: textlist = [text,] for item in textlist: dlist.append(self.DrawTextItem(item, f0)) return dlist def DrawTextItem(self, textitem, f): """ Draw a text item. :param `textitem`: the item to draw :param `f`: the font to use for text extent measuring """ dc = wx.ClientDC(self.parent) # dummy dc for text extents g = self.gstate x = g.textMatrix[4] y = g.textMatrix[5] + g.textRise if g.wordSpacing > 0: textitem += ' ' wid, ht, descend, x_lead = dc.GetFullTextExtent(textitem, f) if have_rlwidth and self.knownfont: # use ReportLab stringWidth if available width = stringWidth(textitem, g.font, g.fontSize) else: width = wid g.textMatrix[4] += (width + g.wordSpacing) # update current x position return ['DrawText', (textitem, x, -y-(ht-descend)), {}] def DrawPath(self, path, action): """ Stroke and/or fill the defined path depending on operator. """ dlist = [] g = self.gstate acts = {'S': (1, 0, 0), 's': (1, 0, 0), 'f': (0, 1, wx.WINDING_RULE), 'F': (0, 1, wx.WINDING_RULE), 'f*': (0, 1, wx.ODDEVEN_RULE), 'B': (1, 1, wx.WINDING_RULE), 'B*': (1, 1, wx.ODDEVEN_RULE), 'b': (1, 1, wx.WINDING_RULE), 'b*': (1, 1, wx.ODDEVEN_RULE), 'n': (0, 0, 0) } stroke, fill, rule = acts[action] if action in ('s', 'b', 'b*'): path.append([[], 'h']) # close path if stroke: if g.lineDashArray: style = wx.PENSTYLE_USER_DASH else: style = wx.PENSTYLE_SOLID cpen = wx.Pen(g.strokeRGB, g.lineWidth, style) cpen.SetCap(g.lineCapStyle) cpen.SetJoin(g.lineJoinStyle) if g.lineDashArray: cpen.SetDashes(g.lineDashArray) dlist.append(['SetPen', (cpen,), {}]) else: dlist.append(['SetPen', (wx.TRANSPARENT_PEN,), {}]) if fill: dlist.append(['SetBrush', (wx.Brush(g.fillRGB),), {}]) else: dlist.append(['SetBrush', (wx.TRANSPARENT_BRUSH,), {}]) dlist.append(['CreatePath', (), {}]) for xylist, op in path: if op == 'm': # move (to) current point x0 = xc = xylist[0] y0 = yc = -xylist[1] dlist.append(['MoveToPoint', (x0, y0), {}]) elif op == 'l': # draw line x2 = xylist[0] y2 = -xylist[1] dlist.append(['AddLineToPoint', (x2, y2), {}]) xc = x2 yc = y2 elif op == 're': # draw rectangle x = xylist[0] y = -xylist[1] w = xylist[2] h = xylist[3] retuple = (x, y-h, w, h) if h < 0.0: retuple = (x, y, w, -h) dlist.append(['AddRectangle', retuple, {}]) elif op in ('c', 'v', 'y'): # draw Bezier curve args = [] if op == 'v': args.extend([xc, yc]) args.extend([xylist[0], -xylist[1], xylist[2], -xylist[3]]) if op == 'y': args.extend([xylist[2], -xylist[3]]) if op == 'c': args.extend([xylist[4], -xylist[5]]) dlist.append(['AddCurveToPoint', args, {}]) elif op == 'h': dlist.append(['CloseSubpath', (), {}]) dlist.append(['DrawPath', ('GraphicsPath', rule), {}]) return dlist def InsertXObject(self, name): """ XObject can be an image or a 'form' (an arbitrary PDF sequence). """ dlist = [] xobject = self.page["/Resources"].getObject()['/XObject'] stream = xobject[name] if stream.get('/Subtype') == '/Form': # insert contents into current page drawing if not name in self.formdrawings: # extract if not already done pdf_fonts = self.FetchFonts(stream) x_bbox = stream.get('/BBox') matrix = stream.get('/Matrix') form_ops = ContentStream(stream, self.pdfdoc).operations oplist = [([], 'q'), (matrix, 'cm')] # push state & apply matrix oplist.extend(form_ops) # add form contents oplist.append(([], 'Q')) # restore original state self.formdrawings[name] = self.ProcessOperators(oplist, pdf_fonts) dlist.extend(self.formdrawings[name]) elif stream.get('/Subtype') == '/Image': width = stream['/Width'] height = stream['/Height'] x_depth = stream['/BitsPerComponent'] filters = stream["/Filter"] item = self.AddBitmap(stream._data, width, height, filters) if item: # may be unimplemented dlist.append(item) return dlist def InlineImage(self, operand): """ operand contains an image""" dlist = [] data = operand.get('data') settings = operand.get('settings') width = settings['/W'] height = settings['/H'] x_depth = settings['/BPC'] filters = settings['/F'] item = self.AddBitmap(data, width, height, filters) if item: # may be unimplemented dlist.append(item) return dlist def AddBitmap(self, data, width, height, filters): """ Add wx.Bitmap from data, processed by filters. """ if '/A85' in filters or '/ASCII85Decode' in filters: data = ASCII85Decode.decode(data) if '/Fl' in filters or '/FlateDecode' in filters: data = FlateDecode.decode(data, None) if '/CCF' in filters or '/CCITTFaxDecode' in filters: if VERBOSE: print('PDF operation /CCITTFaxDecode is not implemented') return [] if '/DCT' in filters or '/DCTDecode' in filters: stream = BytesIO(data) image = wx.Image(stream, wx.BITMAP_TYPE_JPEG) bitmap = wx.Bitmap(image) else: try: bitmap = wx.Bitmap.FromBuffer(width, height, data) except: return [] # any error return ['DrawBitmap', (bitmap, 0, 0-height, width, height), {}] def ConvertCMYK(self, operand): """ Convert CMYK values (0 to 1.0) in operand to nearest RGB. """ c, m, y, k = operand r = round((1-c)*(1-k)*255) b = round((1-y)*(1-k)*255) g = round((1-m)*(1-k)*255) return (r, g, b) #---------------------------------------------------------------------------- class pdfState(object): """ Instance holds the current pdf graphics and text state. It can be saved (pushed) and restored (popped) by the owning parent """ def __init__ (self): """ Creates an instance with default values. Individual attributes are modified directly not via getters and setters """ self.lineWidth = 1.0 self.lineCapStyle = wx.CAP_BUTT self.lineJoinStyle = wx.JOIN_MITER self.lineDashArray = [] self.lineDashPhase = 0 self.miterLimit = None self.strokeRGB = wx.Colour(0, 0, 0) self.fillRGB = wx.Colour(0, 0, 0) # used for both shapes & text self.fillMode = None self.textMatrix = [1, 0, 0, 1, 0, 0] self.textLineMatrix = [1, 0, 0, 1, 0, 0] self.charSpacing = 0 self.wordSpacing = 0 self.horizontalScaling = None self.leading = None self.font = None self.fontSize = None self.textRenderMode = None self.textRise = 0 #------------------------------------------------------------------------------ class pdfPrintout(wx.Printout): """ Class encapsulating the functionality of printing out the document. The methods below over-ride those of the base class and supply document-specific information to the printing framework that calls them internally. """ def __init__(self, title, view): """ Pass in the instance of dpViewer to be printed. """ wx.Printout.__init__(self, title) self.view = view def HasPage(self, pageno): """ Report whether pageno exists. """ if pageno <= self.view.numpages: return True else: return False def GetPageInfo(self): """ Supply maximum range of pages and the range to be printed These are initial values passed to Printer dialog, where they can be amended by user. """ maxnum = self.view.numpages return (1, maxnum, 1, maxnum) def OnPrintPage(self, page): """ Provide the data for page by rendering the drawing commands to the printer DC, MuPDF returns the page content from an internally generated bitmap and sfac sets it to a high enough resolution that reduces anti-aliasing blur but keeps it small to minimise printing time """ sfac = 1.0 if mupdf: sfac = 4.0 pageno = page - 1 # zero based width = self.view.pagewidth height = self.view.pageheight self.FitThisSizeToPage(wx.Size(width*sfac, height*sfac)) dc = self.GetDC() gc = wx.GraphicsContext.Create(dc) if not mupdf: gc.Translate(0, height) if wx.PlatformInfo[1] == 'wxMSW' and have_cairo: device_scale = wx.ClientDC(self.view).GetPPI()[0]/72.0 # pixels per inch/ppi gc.font_scale = 1.0 / device_scale self.view.pdfdoc.RenderPage(gc, pageno, sfac) return True