#Copyright ReportLab Europe Ltd. 2000-2004 #see license.txt for license details #history http://www.reportlab.co.uk/cgi-bin/viewcvs.cgi/public/reportlab/trunk/reportlab/platypus/flowables.py __version__=''' $Id$ ''' __doc__=""" A flowable is a "floating element" in a document whose exact position is determined by the other elements that precede it, such as a paragraph, a diagram interspersed between paragraphs, a section header, etcetera. Examples of non-flowables include page numbering annotations, headers, footers, fixed diagrams or logos, among others. Flowables are defined here as objects which know how to determine their size and which can draw themselves onto a page with respect to a relative "origin" position determined at a higher level. The object's draw() method should assume that (0,0) corresponds to the bottom left corner of the enclosing rectangle that will contain the object. The attributes vAlign and hAlign may be used by 'packers' as hints as to how the object should be placed. Some Flowables also know how to "split themselves". For example a long paragraph might split itself between one page and the next. Packers should set the canv attribute during wrap, split & draw operations to allow the flowable to work out sizes etc in the proper context. The "text" of a document usually consists mainly of a sequence of flowables which flow into a document from top to bottom (with column and page breaks controlled by higher level components). """ import os import string from copy import deepcopy from types import ListType, TupleType, StringType from reportlab.pdfgen import canvas from reportlab.lib.units import inch from reportlab.lib.colors import red, gray, lightgrey from reportlab.pdfbase import pdfutils from reportlab.rl_config import defaultPageSize, _FUZZ PAGE_HEIGHT = defaultPageSize[1] class TraceInfo: "Holder for info about where an object originated" def __init__(self): self.srcFile = '(unknown)' self.startLineNo = -1 self.startLinePos = -1 self.endLineNo = -1 self.endLinePos = -1 ############################################################# # Flowable Objects - a base class and a few examples. # One is just a box to get some metrics. We also have # a paragraph, an image and a special 'page break' # object which fills the space. ############################################################# class Flowable: """Abstract base class for things to be drawn. Key concepts: 1. It knows its size 2. It draws in its own coordinate system (this requires the base API to provide a translate() function. """ _fixedWidth = 0 #assume wrap results depend on arguments? _fixedHeight = 0 def __init__(self): self.width = 0 self.height = 0 self.wrapped = 0 #these are hints to packers/frames as to how the floable should be positioned self.hAlign = 'LEFT' #CENTER/CENTRE or RIGHT self.vAlign = 'BOTTOM' #MIDDLE or TOP #optional holder for trace info self._traceInfo = None self._showBoundary = None def _drawOn(self,canv): '''ensure canv is set on and then draw''' self.canv = canv self.draw()#this is the bit you overload del self.canv def drawOn(self, canvas, x, y, _sW=0): "Tell it to draw itself on the canvas. Do not override" if _sW and hasattr(self,'hAlign'): a = self.hAlign if a in ['CENTER','CENTRE']: x = x + 0.5*_sW elif a == 'RIGHT': x = x + _sW elif a != 'LEFT': raise ValueError, "Bad hAlign value "+str(a) canvas.saveState() canvas.translate(x, y) self._drawOn(canvas) if hasattr(self, '_showBoundary') and self._showBoundary: #diagnostic tool support canvas.setStrokeColor(gray) canvas.rect(0,0,self.width, self.height) canvas.restoreState() def wrapOn(self, canv, aW, aH): '''intended for use by packers allows setting the canvas on during the actual wrap''' self.canv = canv w, h = self.wrap(aW,aH) del self.canv return w, h def wrap(self, availWidth, availHeight): """This will be called by the enclosing frame before objects are asked their size, drawn or whatever. It returns the size actually used.""" return (self.width, self.height) def minWidth(self): """This should return the minimum required width""" return getattr(self,'_minWidth',self.width) def splitOn(self, canv, aW, aH): '''intended for use by packers allows setting the canvas on during the actual split''' self.canv = canv S = self.split(aW,aH) del self.canv return S def split(self, availWidth, availheight): """This will be called by more sophisticated frames when wrap fails. Stupid flowables should return []. Clever flowables should split themselves and return a list of flowables""" return [] def getKeepWithNext(self): """returns boolean determining whether the next flowable should stay with this one""" if hasattr(self,'keepWithNext'): return self.keepWithNext elif hasattr(self,'style') and hasattr(self.style,'keepWithNext'): return self.style.keepWithNext else: return 0 def getSpaceAfter(self): """returns how much space should follow this item if another item follows on the same page.""" if hasattr(self,'spaceAfter'): return self.spaceAfter elif hasattr(self,'style') and hasattr(self.style,'spaceAfter'): return self.style.spaceAfter else: return 0 def getSpaceBefore(self): """returns how much space should precede this item if another item precedess on the same page.""" if hasattr(self,'spaceBefore'): return self.spaceBefore elif hasattr(self,'style') and hasattr(self.style,'spaceBefore'): return self.style.spaceBefore else: return 0 def isIndexing(self): """Hook for IndexingFlowables - things which have cross references""" return 0 def identity(self, maxLen=None): ''' This method should attempt to return a string that can be used to identify a particular flowable uniquely. The result can then be used for debugging and or error printouts ''' if hasattr(self, 'getPlainText'): r = self.getPlainText(identify=1) elif hasattr(self, 'text'): r = self.text else: r = '...' if r and maxLen: r = r[:maxLen] return "<%s at %d>%s" % (self.__class__.__name__, id(self), r) class XBox(Flowable): """Example flowable - a box with an x through it and a caption. This has a known size, so does not need to respond to wrap().""" def __init__(self, width, height, text = 'A Box'): Flowable.__init__(self) self.width = width self.height = height self.text = text def __repr__(self): return "XBox(w=%s, h=%s, t=%s)" % (self.width, self.height, self.text) def draw(self): self.canv.rect(0, 0, self.width, self.height) self.canv.line(0, 0, self.width, self.height) self.canv.line(0, self.height, self.width, 0) #centre the text self.canv.setFont('Times-Roman',12) self.canv.drawCentredString(0.5*self.width, 0.5*self.height, self.text) def _trimEmptyLines(lines): #don't want the first or last to be empty while len(lines) and string.strip(lines[0]) == '': lines = lines[1:] while len(lines) and string.strip(lines[-1]) == '': lines = lines[:-1] return lines def _dedenter(text,dedent=0): ''' tidy up text - carefully, it is probably code. If people want to indent code within a source script, you can supply an arg to dedent and it will chop off that many character, otherwise it leaves left edge intact. ''' lines = string.split(text, '\n') if dedent>0: templines = _trimEmptyLines(lines) lines = [] for line in templines: line = string.rstrip(line[dedent:]) lines.append(line) else: lines = _trimEmptyLines(lines) return lines class Preformatted(Flowable): """This is like the HTML 
 tag.
    It attempts to display text exactly as you typed it in a fixed width "typewriter" font.
    The line breaks are exactly where you put
    them, and it will not be wrapped."""
    def __init__(self, text, style, bulletText = None, dedent=0):
        """text is the text to display. If dedent is set then common leading space
        will be chopped off the front (for example if the entire text is indented
        6 spaces or more then each line will have 6 spaces removed from the front).
        """
        self.style = style
        self.bulletText = bulletText
        self.lines = _dedenter(text,dedent)

    def __repr__(self):
        bT = self.bulletText
        H = "Preformatted("
        if bT is not None:
            H = "Preformatted(bulletText=%s," % repr(bT)
        return "%s'''\\ \n%s''')" % (H, string.join(self.lines,'\n'))

    def wrap(self, availWidth, availHeight):
        self.width = availWidth
        self.height = self.style.leading*len(self.lines)
        return (self.width, self.height)

    def split(self, availWidth, availHeight):
        #returns two Preformatted objects

        #not sure why they can be called with a negative height
        if availHeight < self.style.leading:
            return []

        linesThatFit = int(availHeight * 1.0 / self.style.leading)

        text1 = string.join(self.lines[0:linesThatFit], '\n')
        text2 = string.join(self.lines[linesThatFit:], '\n')
        style = self.style
        if style.firstLineIndent != 0:
            style = deepcopy(style)
            style.firstLineIndent = 0
        return [Preformatted(text1, self.style), Preformatted(text2, style)]


    def draw(self):
        #call another method for historical reasons.  Besides, I
        #suspect I will be playing with alternate drawing routines
        #so not doing it here makes it easier to switch.

        cur_x = self.style.leftIndent
        cur_y = self.height - self.style.fontSize
        self.canv.addLiteral('%PreformattedPara')
        if self.style.textColor:
            self.canv.setFillColor(self.style.textColor)
        tx = self.canv.beginText(cur_x, cur_y)
        #set up the font etc.
        tx.setFont( self.style.fontName,
                    self.style.fontSize,
                    self.style.leading)

        for text in self.lines:
            tx.textLine(text)
        self.canv.drawText(tx)

class Image(Flowable):
    """an image (digital picture).  Formats supported by PIL/Java 1.4 (the Python/Java Imaging Library
       are supported.  At the present time images as flowables are always centered horozontally
       in the frame. We allow for two kinds of lazyness to allow for many images in a document
       which could lead to file handle starvation.
       lazy=1 don't open image until required.
       lazy=2 open image when required then shut it.
    """
    _fixedWidth = 1
    _fixedHeight = 1
    def __init__(self, filename, width=None, height=None, kind='direct', mask="auto", lazy=1):
        """If size to draw at not specified, get it from the image."""
        self.hAlign = 'CENTER'
        self._mask = mask
        # if it is a JPEG, will be inlined within the file -
        # but we still need to know its size now
        fp = hasattr(filename,'read')
        if fp:
            self._file = filename
            self.filename = `filename`
        else:
            self._file = self.filename = filename
        if not fp and os.path.splitext(filename)[1] in ['.jpg', '.JPG', '.jpeg', '.JPEG']:
            from reportlab.lib.utils import open_for_read
            f = open_for_read(filename, 'b')
            info = pdfutils.readJPEGInfo(f)
            f.close()
            self.imageWidth = info[0]
            self.imageHeight = info[1]
            self._img = None
            self._setup(width,height,kind,0)
        elif fp:
            self._setup(width,height,kind,0)
        else:
            self._setup(width,height,kind,lazy)

    def _setup(self,width,height,kind,lazy):
        self._lazy = lazy
        self._width = width
        self._height = height
        self._kind = kind
        if lazy<=0: self._setup_inner()

    def _setup_inner(self):
        width = self._width
        height = self._height
        kind = self._kind
        img = self._img
        if img: self.imageWidth, self.imageHeight = img.getSize()
        if self._lazy>=2: del self._img
        if kind in ['direct','absolute']:
            self.drawWidth = width or self.imageWidth
            self.drawHeight = height or self.imageHeight
        elif kind in ['percentage','%']:
            self.drawWidth = self.imageWidth*width*0.01
            self.drawHeight = self.imageHeight*height*0.01
        elif kind in ['bound','proportional']:
            factor = min(float(width)/self.imageWidth,float(height)/self.imageHeight)
            self.drawWidth = self.imageWidth*factor
            self.drawHeight = self.imageHeight*factor

    def __getattr__(self,a):
        if a=='_img':
            from reportlab.lib.utils import ImageReader  #this may raise an error
            self._img = ImageReader(self._file)
            del self._file
            return self._img
        elif a in ('drawWidth','drawHeight','imageWidth','imageHeight'):
            self._setup_inner()
            return self.__dict__[a]
        raise AttributeError(a)

    def wrap(self, availWidth, availHeight):
        #the caller may decide it does not fit.
        return (self.drawWidth, self.drawHeight)

    def draw(self):
        lazy = self._lazy
        if lazy>=2: self._lazy = 1
        self.canv.drawImage(    self._img or self.filename,
                                0,
                                0,
                                self.drawWidth,
                                self.drawHeight,
                                mask=self._mask,
                                )
        if lazy>=2:
            self._img = None
            self._lazy = lazy

    def identity(self,maxLen=None):
        r = Flowable.identity(self,maxLen)
        if r[-4:]=='>...' and type(self.filename) is StringType:
            r = "%s filename=%s>" % (r[:-4],self.filename)
        return r

class Spacer(Flowable):
    """A spacer just takes up space and doesn't draw anything - it guarantees
       a gap between objects."""
    _fixedWidth = 1
    _fixedHeight = 1
    def __init__(self, width, height):
        self.width = width
        self.height = height

    def __repr__(self):
        return "%s(%s, %s)" % (self.__class__.__name__,self.width, self.height)

    def draw(self):
        pass

class PageBreak(Spacer):
    """Move on to the next page in the document.
       This works by consuming all remaining space in the frame!"""
    def __init__(self):
        pass

    def __repr__(self):
        return "PageBreak()"

    def wrap(self, availWidth, availHeight):
        self.width = availWidth
        self.height = availHeight
        return (availWidth,availHeight)  #step back a point

class SlowPageBreak(PageBreak):
    pass

class CondPageBreak(Spacer):
    """Throw a page if not enough vertical space"""
    def __init__(self, height):
        self.height = height

    def __repr__(self):
        return "CondPageBreak(%s)" %(self.height,)

    def wrap(self, availWidth, availHeight):
        if availHeightaH) and (not self._maxHeight or H<=self._maxHeight)
        return W, 0xffffff  # force a split

    def split(self, aW, aH):
        S = getattr(self,'_CPage',1) and [CondPageBreak(aH+1)] or []
        for f in self._flowables: S.append(f)
        return S

class Macro(Flowable):
    """This is not actually drawn (i.e. it has zero height)
    but is executed when it would fit in the frame.  Allows direct
    access to the canvas through the object 'canvas'"""
    def __init__(self, command):
        self.command = command
    def __repr__(self):
        return "Macro(%s)" % repr(self.command)
    def wrap(self, availWidth, availHeight):
        return (0,0)
    def draw(self):
        exec self.command in globals(), {'canvas':self.canv}

class CallerMacro(Flowable):
    '''
    like Macro, but with callable command(s)
    drawCallable(self)
    wrapCallable(self,aW,aH)
    '''
    def __init__(self, drawCallable=None, wrapCallable=None):
        _ = lambda *args: None
        self._drawCallable = drawCallable or _
        self._wrapCallable = wrapCallable or _
    def __repr__(self):
        return "CallerMacro(%s)" % repr(self.command)
    def wrap(self, aW, aH):
        self._wrapCallable(self,aW,aH)
        return (0,0)
    def draw(self):
        self._drawCallable(self)

class ParagraphAndImage(Flowable):
    '''combine a Paragraph and an Image'''
    def __init__(self,P,I,xpad=3,ypad=3):
        self.P, self.style, self.I, self.xpad, self.ypad = P,P.style,I,xpad,ypad

    def wrap(self,availWidth,availHeight):
        wI, hI = self.I.wrap(availWidth,availHeight)
        self.wI, self.hI = wI, hI
        # work out widths array for breaking
        self.width = availWidth
        P, style, xpad, ypad = self.P, self.style, self.xpad, self.ypad
        leading = style.leading
        leftIndent = style.leftIndent
        later_widths = availWidth - leftIndent - style.rightIndent
        intermediate_widths = later_widths - xpad - wI
        first_line_width = intermediate_widths - style.firstLineIndent
        P.width = 0
        P.blPara = P.breakLines([first_line_width] + int((hI+ypad)/leading)*[intermediate_widths]+[later_widths])
        P.height = len(P.blPara.lines)*leading
        self.height = max(hI,P.height)
        return (self.width, self.height)

    def split(self,availWidth, availHeight):
        P, wI, hI, ypad = self.P, self.wI, self.hI, self.ypad
        if hI+ypad>availHeight or len(P.frags)<=0: return []
        S = P.split(availWidth,availHeight)
        if not S: return S
        P = self.P = S[0]
        del S[0]
        style = self.style = P.style
        P.height = len(self.P.blPara.lines)*style.leading
        self.height = max(hI,P.height)
        return [self]+S

    def draw(self):
        canv = self.canv
        self.I.drawOn(canv,self.width-self.wI-self.xpad,self.height-self.hI)
        self.P.drawOn(canv,0,0)

class FailOnWrap(Flowable):
    def wrap(self, availWidth, availHeight):
        raise ValueError("FailOnWrap flowable wrapped and failing as ordered!")

    def draw(self):
        pass

class FailOnDraw(Flowable):
    def wrap(self, availWidth, availHeight):
        return (0,0)

    def draw(self):
        raise ValueError("FailOnDraw flowable drawn, and failing as ordered!")

class HRFlowable(Flowable):
    '''Like the hr tag'''
    def __init__(self,
            width="80%",
            thickness=1,
            lineCap='round',
            color=lightgrey,
            spaceBefore=1, spaceAfter=1,
            hAlign='CENTER', vAlign='BOTTOM'):
        Flowable.__init__(self)
        self.width = width
        self.lineWidth = thickness
        self.lineCap=lineCap
        self.spaceBefore = spaceBefore
        self.spaceAfter = spaceAfter
        self.color = color
        self.hAlign = hAlign
        self.vAlign = vAlign

    def __repr__(self):
        return "HRFlowable(width=%s, height=%s)" % (self.width, self.height)

    def wrap(self, availWidth, availHeight):
        w = self.width
        if type(w) is type(''):
            w = w.strip()
            if w.endswith('%'): w = availWidth*float(w[:-1])*0.01
            else: w = float(w)
        w = min(w,availWidth)
        self._width = w
        return w, self.lineWidth

    def draw(self):
        canv = self.canv
        canv.saveState()
        canv.setLineWidth(self.lineWidth)
        canv.setLineCap({'butt':0,'round':1, 'square': 2}[self.lineCap.lower()])
        canv.setStrokeColor(self.color)
        canv.line(0, 0, self._width, self.height)
        canv.restoreState()

class _PTOInfo:
    def __init__(self,trailer,header):
        self.trailer = _makeIndexable(trailer)
        self.header = _makeIndexable(header)

class PTOContainer(Flowable):
    '''PTOContainer(contentList,trailerList,headerList)
    
    A container for flowables decorated with trailer & header lists.
    If the split operation would be called then the trailer and header
    lists are injected before and after the split. This allows specialist
    "please turn over" and "continued from previous" like behaviours.''' 
    def __init__(self,content,trailer=None,header=None):
        I = _PTOInfo(trailer,header)
        self._content = C = []
        for _ in _makeIndexable(content):
            if isinstance(_,PTOContainer):
                C.extend(_._content)
            else:
                C.append(_)
                if not hasattr(_,'_ptoinfo'): _._ptoinfo = I

    def wrap(self,availWidth,availHeight):
        self.width, self.height = _listWrapOn(self._content,availWidth,self.canv)
        return self.width,self.height

    def getSpaceBefore(self):
        return self._content[0].getSpaceBefore()

    def getSpaceAfter(self):
        return self._content[-1].getSpaceAfter()

    def split(self, availWidth, availHeight):
        canv = self.canv
        C = self._content
        x = i = H = pS = 0
        n = len(C)
        I2W = {}
        for x in xrange(n):
            c = C[x]
            I = c._ptoinfo
            if I not in I2W.keys():
                T = I.trailer
                Hdr = I.header
                tW, tH = _listWrapOn(T, availWidth, self.canv)
                tSB = T[0].getSpaceBefore()
                I2W[I] = T,tW,tH,tSB
            else:
                T,tW,tH,tSB = I2W[I]
            _, h = c.wrapOn(canv,availWidth,0xfffffff)
            if x: h += max(c.getSpaceBefore()-pS,0)
            pS = c.getSpaceAfter()
            H += h+pS
            if H+tH+max(tSB,pS)>=availHeight-_FUZZ: break
            i += 1

        #first retract last thing we tried
        H -= (h+pS)

        #attempt a sub split on the last one we have
        aH = (availHeight - H - max(pS,tSB) - tH)*0.99
        if aH>=0.05*availHeight:
            SS = c.splitOn(canv,availWidth,aH)
        else:
            SS = []
        if SS:
            from doctemplate import  FrameBreak
            F = [FrameBreak()]

        if SS:
            R1 = C[:i] + SS[:1] + T + F
            R2 = Hdr + SS[1:]+C[i+1:]
        elif not i:
            return []
        else:
            R1 = C[:i-1]+T
            R2 = Hdr + C[i:]
        return R1 + [PTOContainer(R2,deepcopy(I.trailer),deepcopy(I.header))]

    def drawOn(self, canv, x, y, _sW=0):
        '''we simulate being added to a frame'''
        pS = 0
        aW = self.width+_sW
        C = self._content
        y += self.height
        for c in C:
            w, h = c.wrapOn(canv,aW,0xfffffff)
            if c is not C[0]: h += max(c.getSpaceBefore()-pS,0)
            y -= h
            c.drawOn(canv,x,y,_sW=aW-w)
            if c is not C[-1]:
                pS = c.getSpaceAfter()
                y -= pS