# Copyright (c) 2006, Mathieu Fenniak
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are
# met:
#
# * Redistributions of source code must retain the above copyright notice,
# this list of conditions and the following disclaimer.
# * Redistributions in binary form must reproduce the above copyright notice,
# this list of conditions and the following disclaimer in the documentation
# and/or other materials provided with the distribution.
# * The name of the author may not be used to endorse or promote products
# derived from this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
# ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
# LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
# CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
# SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
# INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
# CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
# ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
# POSSIBILITY OF SUCH DAMAGE.
__author__ = "Mathieu Fenniak"
__author_email__ = "biziqe@mathieu.fenniak.net"
import logging
import re
from io import BytesIO
from typing import Any, Dict, Iterable, List, Optional, Tuple, Union, cast
from .._utils import (
WHITESPACES,
StreamType,
b_,
deprecate_with_replacement,
hex_str,
logger_warning,
read_non_whitespace,
read_until_regex,
skip_over_comment,
)
from ..constants import (
CheckboxRadioButtonAttributes,
FieldDictionaryAttributes,
)
from ..constants import FilterTypes as FT
from ..constants import OutlineFontFlag
from ..constants import StreamAttributes as SA
from ..constants import TypArguments as TA
from ..constants import TypFitArguments as TF
from ..errors import STREAM_TRUNCATED_PREMATURELY, PdfReadError, PdfStreamError
from ._base import (
BooleanObject,
FloatObject,
IndirectObject,
NameObject,
NullObject,
NumberObject,
PdfObject,
TextStringObject,
)
from ._utils import read_hex_string_from_stream, read_string_from_stream
logger = logging.getLogger(__name__)
NumberSigns = b"+-"
IndirectPattern = re.compile(rb"[+-]?(\d+)\s+(\d+)\s+R[^a-zA-Z]")
class ArrayObject(list, PdfObject):
def items(self) -> Iterable[Any]:
"""
Emulate DictionaryObject.items for a list
(index, object)
"""
return enumerate(self)
def write_to_stream(
self, stream: StreamType, encryption_key: Union[None, str, bytes]
) -> None:
stream.write(b"[")
for data in self:
stream.write(b" ")
data.write_to_stream(stream, encryption_key)
stream.write(b" ]")
def writeToStream(
self, stream: StreamType, encryption_key: Union[None, str, bytes]
) -> None: # pragma: no cover
deprecate_with_replacement("writeToStream", "write_to_stream")
self.write_to_stream(stream, encryption_key)
@staticmethod
def read_from_stream(
stream: StreamType,
pdf: Any,
forced_encoding: Union[None, str, List[str], Dict[int, str]] = None,
) -> "ArrayObject": # PdfReader
arr = ArrayObject()
tmp = stream.read(1)
if tmp != b"[":
raise PdfReadError("Could not read array")
while True:
# skip leading whitespace
tok = stream.read(1)
while tok.isspace():
tok = stream.read(1)
stream.seek(-1, 1)
# check for array ending
peekahead = stream.read(1)
if peekahead == b"]":
break
stream.seek(-1, 1)
# read and append obj
arr.append(read_object(stream, pdf, forced_encoding))
return arr
@staticmethod
def readFromStream(
stream: StreamType, pdf: Any # PdfReader
) -> "ArrayObject": # pragma: no cover
deprecate_with_replacement("readFromStream", "read_from_stream")
return ArrayObject.read_from_stream(stream, pdf)
class DictionaryObject(dict, PdfObject):
def raw_get(self, key: Any) -> Any:
return dict.__getitem__(self, key)
def __setitem__(self, key: Any, value: Any) -> Any:
if not isinstance(key, PdfObject):
raise ValueError("key must be PdfObject")
if not isinstance(value, PdfObject):
raise ValueError("value must be PdfObject")
return dict.__setitem__(self, key, value)
def setdefault(self, key: Any, value: Optional[Any] = None) -> Any:
if not isinstance(key, PdfObject):
raise ValueError("key must be PdfObject")
if not isinstance(value, PdfObject):
raise ValueError("value must be PdfObject")
return dict.setdefault(self, key, value) # type: ignore
def __getitem__(self, key: Any) -> PdfObject:
return dict.__getitem__(self, key).get_object()
@property
def xmp_metadata(self) -> Optional[PdfObject]:
"""
Retrieve XMP (Extensible Metadata Platform) data relevant to the
this object, if available.
Stability: Added in v1.12, will exist for all future v1.x releases.
@return Returns a {@link #xmp.XmpInformation XmlInformation} instance
that can be used to access XMP metadata from the document. Can also
return None if no metadata was found on the document root.
"""
from ..xmp import XmpInformation
metadata = self.get("/Metadata", None)
if metadata is None:
return None
metadata = metadata.get_object()
if not isinstance(metadata, XmpInformation):
metadata = XmpInformation(metadata)
self[NameObject("/Metadata")] = metadata
return metadata
def getXmpMetadata(
self,
) -> Optional[PdfObject]: # pragma: no cover
"""
.. deprecated:: 1.28.3
Use :meth:`xmp_metadata` instead.
"""
deprecate_with_replacement("getXmpMetadata", "xmp_metadata")
return self.xmp_metadata
@property
def xmpMetadata(self) -> Optional[PdfObject]: # pragma: no cover
"""
.. deprecated:: 1.28.3
Use :meth:`xmp_metadata` instead.
"""
deprecate_with_replacement("xmpMetadata", "xmp_metadata")
return self.xmp_metadata
def write_to_stream(
self, stream: StreamType, encryption_key: Union[None, str, bytes]
) -> None:
stream.write(b"<<\n")
for key, value in list(self.items()):
key.write_to_stream(stream, encryption_key)
stream.write(b" ")
value.write_to_stream(stream, encryption_key)
stream.write(b"\n")
stream.write(b">>")
def writeToStream(
self, stream: StreamType, encryption_key: Union[None, str, bytes]
) -> None: # pragma: no cover
deprecate_with_replacement("writeToStream", "write_to_stream")
self.write_to_stream(stream, encryption_key)
@staticmethod
def read_from_stream(
stream: StreamType,
pdf: Any, # PdfReader
forced_encoding: Union[None, str, List[str], Dict[int, str]] = None,
) -> "DictionaryObject":
def get_next_obj_pos(
p: int, p1: int, rem_gens: List[int], pdf: Any
) -> int: # PdfReader
l = pdf.xref[rem_gens[0]]
for o in l:
if p1 > l[o] and p < l[o]:
p1 = l[o]
if len(rem_gens) == 1:
return p1
else:
return get_next_obj_pos(p, p1, rem_gens[1:], pdf)
def read_unsized_from_steam(stream: StreamType, pdf: Any) -> bytes: # PdfReader
# we are just pointing at beginning of the stream
eon = get_next_obj_pos(stream.tell(), 2**32, list(pdf.xref), pdf) - 1
curr = stream.tell()
rw = stream.read(eon - stream.tell())
p = rw.find(b"endstream")
if p < 0:
raise PdfReadError(
f"Unable to find 'endstream' marker for obj starting at {curr}."
)
stream.seek(curr + p + 9)
return rw[: p - 1]
tmp = stream.read(2)
if tmp != b"<<":
raise PdfReadError(
f"Dictionary read error at byte {hex_str(stream.tell())}: "
"stream must begin with '<<'"
)
data: Dict[Any, Any] = {}
while True:
tok = read_non_whitespace(stream)
if tok == b"\x00":
continue
elif tok == b"%":
stream.seek(-1, 1)
skip_over_comment(stream)
continue
if not tok:
raise PdfStreamError(STREAM_TRUNCATED_PREMATURELY)
if tok == b">":
stream.read(1)
break
stream.seek(-1, 1)
try:
key = read_object(stream, pdf)
tok = read_non_whitespace(stream)
stream.seek(-1, 1)
value = read_object(stream, pdf, forced_encoding)
except Exception as exc:
if pdf is not None and pdf.strict:
raise PdfReadError(exc.__repr__())
logger_warning(exc.__repr__(), __name__)
retval = DictionaryObject()
retval.update(data)
return retval # return partial data
if not data.get(key):
data[key] = value
else:
# multiple definitions of key not permitted
msg = (
f"Multiple definitions in dictionary at byte "
f"{hex_str(stream.tell())} for key {key}"
)
if pdf is not None and pdf.strict:
raise PdfReadError(msg)
logger_warning(msg, __name__)
pos = stream.tell()
s = read_non_whitespace(stream)
if s == b"s" and stream.read(5) == b"tream":
eol = stream.read(1)
# odd PDF file output has spaces after 'stream' keyword but before EOL.
# patch provided by Danial Sandler
while eol == b" ":
eol = stream.read(1)
if eol not in (b"\n", b"\r"):
raise PdfStreamError("Stream data must be followed by a newline")
if eol == b"\r":
# read \n after
if stream.read(1) != b"\n":
stream.seek(-1, 1)
# this is a stream object, not a dictionary
if SA.LENGTH not in data:
raise PdfStreamError("Stream length not defined")
length = data[SA.LENGTH]
if isinstance(length, IndirectObject):
t = stream.tell()
length = pdf.get_object(length)
stream.seek(t, 0)
pstart = stream.tell()
data["__streamdata__"] = stream.read(length)
e = read_non_whitespace(stream)
ndstream = stream.read(8)
if (e + ndstream) != b"endstream":
# (sigh) - the odd PDF file has a length that is too long, so
# we need to read backwards to find the "endstream" ending.
# ReportLab (unknown version) generates files with this bug,
# and Python users into PDF files tend to be our audience.
# we need to do this to correct the streamdata and chop off
# an extra character.
pos = stream.tell()
stream.seek(-10, 1)
end = stream.read(9)
if end == b"endstream":
# we found it by looking back one character further.
data["__streamdata__"] = data["__streamdata__"][:-1]
elif not pdf.strict:
stream.seek(pstart, 0)
data["__streamdata__"] = read_unsized_from_steam(stream, pdf)
pos = stream.tell()
else:
stream.seek(pos, 0)
raise PdfReadError(
"Unable to find 'endstream' marker after stream at byte "
f"{hex_str(stream.tell())} (nd='{ndstream!r}', end='{end!r}')."
)
else:
stream.seek(pos, 0)
if "__streamdata__" in data:
return StreamObject.initialize_from_dictionary(data)
else:
retval = DictionaryObject()
retval.update(data)
return retval
@staticmethod
def readFromStream(
stream: StreamType, pdf: Any # PdfReader
) -> "DictionaryObject": # pragma: no cover
deprecate_with_replacement("readFromStream", "read_from_stream")
return DictionaryObject.read_from_stream(stream, pdf)
class TreeObject(DictionaryObject):
def __init__(self) -> None:
DictionaryObject.__init__(self)
def hasChildren(self) -> bool: # pragma: no cover
deprecate_with_replacement("hasChildren", "has_children", "4.0.0")
return self.has_children()
def has_children(self) -> bool:
return "/First" in self
def __iter__(self) -> Any:
return self.children()
def children(self) -> Iterable[Any]:
if not self.has_children():
return
child_ref = self[NameObject("/First")]
child = child_ref.get_object()
while True:
yield child
if child == self[NameObject("/Last")]:
return
child_ref = child.get(NameObject("/Next")) # type: ignore
if child_ref is None:
return
child = child_ref.get_object()
def addChild(self, child: Any, pdf: Any) -> None: # pragma: no cover
deprecate_with_replacement("addChild", "add_child")
self.add_child(child, pdf)
def add_child(self, child: Any, pdf: Any) -> None: # PdfWriter
child_obj = child.get_object()
child = pdf.get_reference(child_obj)
assert isinstance(child, IndirectObject)
prev: Optional[DictionaryObject]
if "/First" not in self:
self[NameObject("/First")] = child
self[NameObject("/Count")] = NumberObject(0)
prev = None
else:
prev = cast(
DictionaryObject, self["/Last"]
) # TABLE 8.3 Entries in the outline dictionary
self[NameObject("/Last")] = child
self[NameObject("/Count")] = NumberObject(self[NameObject("/Count")] + 1) # type: ignore
if prev:
prev_ref = pdf.get_reference(prev)
assert isinstance(prev_ref, IndirectObject)
child_obj[NameObject("/Prev")] = prev_ref
prev[NameObject("/Next")] = child
parent_ref = pdf.get_reference(self)
assert isinstance(parent_ref, IndirectObject)
child_obj[NameObject("/Parent")] = parent_ref
def removeChild(self, child: Any) -> None: # pragma: no cover
deprecate_with_replacement("removeChild", "remove_child")
self.remove_child(child)
def _remove_node_from_tree(
self, prev: Any, prev_ref: Any, cur: Any, last: Any
) -> None:
"""Adjust the pointers of the linked list and tree node count."""
next_ref = cur.get(NameObject("/Next"), None)
if prev is None:
if next_ref:
# Removing first tree node
next_obj = next_ref.get_object()
del next_obj[NameObject("/Prev")]
self[NameObject("/First")] = next_ref
self[NameObject("/Count")] = NumberObject(
self[NameObject("/Count")] - 1 # type: ignore
)
else:
# Removing only tree node
assert self[NameObject("/Count")] == 1
del self[NameObject("/Count")]
del self[NameObject("/First")]
if NameObject("/Last") in self:
del self[NameObject("/Last")]
else:
if next_ref:
# Removing middle tree node
next_obj = next_ref.get_object()
next_obj[NameObject("/Prev")] = prev_ref
prev[NameObject("/Next")] = next_ref
else:
# Removing last tree node
assert cur == last
del prev[NameObject("/Next")]
self[NameObject("/Last")] = prev_ref
self[NameObject("/Count")] = NumberObject(self[NameObject("/Count")] - 1) # type: ignore
def remove_child(self, child: Any) -> None:
child_obj = child.get_object()
if NameObject("/Parent") not in child_obj:
raise ValueError("Removed child does not appear to be a tree item")
elif child_obj[NameObject("/Parent")] != self:
raise ValueError("Removed child is not a member of this tree")
found = False
prev_ref = None
prev = None
cur_ref: Optional[Any] = self[NameObject("/First")]
cur: Optional[Dict[str, Any]] = cur_ref.get_object() # type: ignore
last_ref = self[NameObject("/Last")]
last = last_ref.get_object()
while cur is not None:
if cur == child_obj:
self._remove_node_from_tree(prev, prev_ref, cur, last)
found = True
break
# Go to the next node
prev_ref = cur_ref
prev = cur
if NameObject("/Next") in cur:
cur_ref = cur[NameObject("/Next")]
cur = cur_ref.get_object()
else:
cur_ref = None
cur = None
if not found:
raise ValueError("Removal couldn't find item in tree")
_reset_node_tree_relationship(child_obj)
def remove_from_tree(self) -> None:
"""
remove the object from the tree it is in
"""
if NameObject("/Parent") not in self:
raise ValueError("Removed child does not appear to be a tree item")
else:
cast("TreeObject", self["/Parent"]).remove_child(self)
def emptyTree(self) -> None: # pragma: no cover
deprecate_with_replacement("emptyTree", "empty_tree", "4.0.0")
self.empty_tree()
def empty_tree(self) -> None:
for child in self:
child_obj = child.get_object()
_reset_node_tree_relationship(child_obj)
if NameObject("/Count") in self:
del self[NameObject("/Count")]
if NameObject("/First") in self:
del self[NameObject("/First")]
if NameObject("/Last") in self:
del self[NameObject("/Last")]
def _reset_node_tree_relationship(child_obj: Any) -> None:
"""
Call this after a node has been removed from a tree.
This resets the nodes attributes in respect to that tree.
"""
del child_obj[NameObject("/Parent")]
if NameObject("/Next") in child_obj:
del child_obj[NameObject("/Next")]
if NameObject("/Prev") in child_obj:
del child_obj[NameObject("/Prev")]
class StreamObject(DictionaryObject):
def __init__(self) -> None:
self.__data: Optional[str] = None
self.decoded_self: Optional[DecodedStreamObject] = None
def hash_value_data(self) -> bytes:
data = super().hash_value_data()
data += b_(self._data)
return data
@property
def decodedSelf(self) -> Optional["DecodedStreamObject"]: # pragma: no cover
deprecate_with_replacement("decodedSelf", "decoded_self")
return self.decoded_self
@decodedSelf.setter
def decodedSelf(self, value: "DecodedStreamObject") -> None: # pragma: no cover
deprecate_with_replacement("decodedSelf", "decoded_self")
self.decoded_self = value
@property
def _data(self) -> Any:
return self.__data
@_data.setter
def _data(self, value: Any) -> None:
self.__data = value
def write_to_stream(
self, stream: StreamType, encryption_key: Union[None, str, bytes]
) -> None:
self[NameObject(SA.LENGTH)] = NumberObject(len(self._data))
DictionaryObject.write_to_stream(self, stream, encryption_key)
del self[SA.LENGTH]
stream.write(b"\nstream\n")
data = self._data
if encryption_key:
from .._security import RC4_encrypt
data = RC4_encrypt(encryption_key, data)
stream.write(data)
stream.write(b"\nendstream")
@staticmethod
def initializeFromDictionary(
data: Dict[str, Any]
) -> Union["EncodedStreamObject", "DecodedStreamObject"]: # pragma: no cover
return StreamObject.initialize_from_dictionary(data)
@staticmethod
def initialize_from_dictionary(
data: Dict[str, Any]
) -> Union["EncodedStreamObject", "DecodedStreamObject"]:
retval: Union["EncodedStreamObject", "DecodedStreamObject"]
if SA.FILTER in data:
retval = EncodedStreamObject()
else:
retval = DecodedStreamObject()
retval._data = data["__streamdata__"]
del data["__streamdata__"]
del data[SA.LENGTH]
retval.update(data)
return retval
def flateEncode(self) -> "EncodedStreamObject": # pragma: no cover
deprecate_with_replacement("flateEncode", "flate_encode")
return self.flate_encode()
def flate_encode(self) -> "EncodedStreamObject":
from ..filters import FlateDecode
if SA.FILTER in self:
f = self[SA.FILTER]
if isinstance(f, ArrayObject):
f.insert(0, NameObject(FT.FLATE_DECODE))
else:
newf = ArrayObject()
newf.append(NameObject("/FlateDecode"))
newf.append(f)
f = newf
else:
f = NameObject("/FlateDecode")
retval = EncodedStreamObject()
retval[NameObject(SA.FILTER)] = f
retval._data = FlateDecode.encode(self._data)
return retval
class DecodedStreamObject(StreamObject):
def get_data(self) -> Any:
return self._data
def set_data(self, data: Any) -> Any:
self._data = data
def getData(self) -> Any: # pragma: no cover
deprecate_with_replacement("getData", "get_data")
return self._data
def setData(self, data: Any) -> None: # pragma: no cover
deprecate_with_replacement("setData", "set_data")
self.set_data(data)
class EncodedStreamObject(StreamObject):
def __init__(self) -> None:
self.decoded_self: Optional[DecodedStreamObject] = None
@property
def decodedSelf(self) -> Optional["DecodedStreamObject"]: # pragma: no cover
deprecate_with_replacement("decodedSelf", "decoded_self")
return self.decoded_self
@decodedSelf.setter
def decodedSelf(self, value: DecodedStreamObject) -> None: # pragma: no cover
deprecate_with_replacement("decodedSelf", "decoded_self")
self.decoded_self = value
def get_data(self) -> Union[None, str, bytes]:
from ..filters import decode_stream_data
if self.decoded_self is not None:
# cached version of decoded object
return self.decoded_self.get_data()
else:
# create decoded object
decoded = DecodedStreamObject()
decoded._data = decode_stream_data(self)
for key, value in list(self.items()):
if key not in (SA.LENGTH, SA.FILTER, SA.DECODE_PARMS):
decoded[key] = value
self.decoded_self = decoded
return decoded._data
def getData(self) -> Union[None, str, bytes]: # pragma: no cover
deprecate_with_replacement("getData", "get_data")
return self.get_data()
def set_data(self, data: Any) -> None: # pragma: no cover
raise PdfReadError("Creating EncodedStreamObject is not currently supported")
def setData(self, data: Any) -> None: # pragma: no cover
deprecate_with_replacement("setData", "set_data")
return self.set_data(data)
class ContentStream(DecodedStreamObject):
def __init__(
self,
stream: Any,
pdf: Any,
forced_encoding: Union[None, str, List[str], Dict[int, str]] = None,
) -> None:
self.pdf = pdf
# The inner list has two elements:
# [0] : List
# [1] : str
self.operations: List[Tuple[Any, Any]] = []
# stream may be a StreamObject or an ArrayObject containing
# multiple StreamObjects to be cat'd together.
stream = stream.get_object()
if isinstance(stream, ArrayObject):
data = b""
for s in stream:
data += b_(s.get_object().get_data())
if len(data) == 0 or data[-1] != b"\n":
data += b"\n"
stream_bytes = BytesIO(data)
else:
stream_data = stream.get_data()
assert stream_data is not None
stream_data_bytes = b_(stream_data)
stream_bytes = BytesIO(stream_data_bytes)
self.forced_encoding = forced_encoding
self.__parse_content_stream(stream_bytes)
def __parse_content_stream(self, stream: StreamType) -> None:
stream.seek(0, 0)
operands: List[Union[int, str, PdfObject]] = []
while True:
peek = read_non_whitespace(stream)
if peek == b"" or peek == 0:
break
stream.seek(-1, 1)
if peek.isalpha() or peek in (b"'", b'"'):
operator = read_until_regex(stream, NameObject.delimiter_pattern, True)
if operator == b"BI":
# begin inline image - a completely different parsing
# mechanism is required, of course... thanks buddy...
assert operands == []
ii = self._read_inline_image(stream)
self.operations.append((ii, b"INLINE IMAGE"))
else:
self.operations.append((operands, operator))
operands = []
elif peek == b"%":
# If we encounter a comment in the content stream, we have to
# handle it here. Typically, read_object will handle
# encountering a comment -- but read_object assumes that
# following the comment must be the object we're trying to
# read. In this case, it could be an operator instead.
while peek not in (b"\r", b"\n"):
peek = stream.read(1)
else:
operands.append(read_object(stream, None, self.forced_encoding))
def _read_inline_image(self, stream: StreamType) -> Dict[str, Any]:
# begin reading just after the "BI" - begin image
# first read the dictionary of settings.
settings = DictionaryObject()
while True:
tok = read_non_whitespace(stream)
stream.seek(-1, 1)
if tok == b"I":
# "ID" - begin of image data
break
key = read_object(stream, self.pdf)
tok = read_non_whitespace(stream)
stream.seek(-1, 1)
value = read_object(stream, self.pdf)
settings[key] = value
# left at beginning of ID
tmp = stream.read(3)
assert tmp[:2] == b"ID"
data = BytesIO()
# Read the inline image, while checking for EI (End Image) operator.
while True:
# Read 8 kB at a time and check if the chunk contains the E operator.
buf = stream.read(8192)
# We have reached the end of the stream, but haven't found the EI operator.
if not buf:
raise PdfReadError("Unexpected end of stream")
loc = buf.find(b"E")
if loc == -1:
data.write(buf)
else:
# Write out everything before the E.
data.write(buf[0:loc])
# Seek back in the stream to read the E next.
stream.seek(loc - len(buf), 1)
tok = stream.read(1)
# Check for End Image
tok2 = stream.read(1)
if tok2 == b"I" and buf[loc - 1 : loc] in WHITESPACES:
# Data can contain [\s]EI, so check for the separator \s; 4 chars suffisent Q operator not required.
tok3 = stream.read(1)
info = tok + tok2
# We need to find at least one whitespace after.
has_q_whitespace = False
while tok3 in WHITESPACES:
has_q_whitespace = True
info += tok3
tok3 = stream.read(1)
if has_q_whitespace:
stream.seek(-1, 1)
break
else:
stream.seek(-1, 1)
data.write(info)
else:
stream.seek(-1, 1)
data.write(tok)
return {"settings": settings, "data": data.getvalue()}
@property
def _data(self) -> bytes:
newdata = BytesIO()
for operands, operator in self.operations:
if operator == b"INLINE IMAGE":
newdata.write(b"BI")
dicttext = BytesIO()
operands["settings"].write_to_stream(dicttext, None)
newdata.write(dicttext.getvalue()[2:-2])
newdata.write(b"ID ")
newdata.write(operands["data"])
newdata.write(b"EI")
else:
for op in operands:
op.write_to_stream(newdata, None)
newdata.write(b" ")
newdata.write(b_(operator))
newdata.write(b"\n")
return newdata.getvalue()
@_data.setter
def _data(self, value: Union[str, bytes]) -> None:
self.__parse_content_stream(BytesIO(b_(value)))
def read_object(
stream: StreamType,
pdf: Any, # PdfReader
forced_encoding: Union[None, str, List[str], Dict[int, str]] = None,
) -> Union[PdfObject, int, str, ContentStream]:
tok = stream.read(1)
stream.seek(-1, 1) # reset to start
if tok == b"/":
return NameObject.read_from_stream(stream, pdf)
elif tok == b"<":
# hexadecimal string OR dictionary
peek = stream.read(2)
stream.seek(-2, 1) # reset to start
if peek == b"<<":
return DictionaryObject.read_from_stream(stream, pdf, forced_encoding)
else:
return read_hex_string_from_stream(stream, forced_encoding)
elif tok == b"[":
return ArrayObject.read_from_stream(stream, pdf, forced_encoding)
elif tok == b"t" or tok == b"f":
return BooleanObject.read_from_stream(stream)
elif tok == b"(":
return read_string_from_stream(stream, forced_encoding)
elif tok == b"e" and stream.read(6) == b"endobj":
stream.seek(-6, 1)
return NullObject()
elif tok == b"n":
return NullObject.read_from_stream(stream)
elif tok == b"%":
# comment
while tok not in (b"\r", b"\n"):
tok = stream.read(1)
# Prevents an infinite loop by raising an error if the stream is at
# the EOF
if len(tok) <= 0:
raise PdfStreamError("File ended unexpectedly.")
tok = read_non_whitespace(stream)
stream.seek(-1, 1)
return read_object(stream, pdf, forced_encoding)
elif tok in b"0123456789+-.":
# number object OR indirect reference
peek = stream.read(20)
stream.seek(-len(peek), 1) # reset to start
if IndirectPattern.match(peek) is not None:
return IndirectObject.read_from_stream(stream, pdf)
else:
return NumberObject.read_from_stream(stream)
else:
stream.seek(-20, 1)
raise PdfReadError(
f"Invalid Elementary Object starting with {tok!r} @{stream.tell()}: {stream.read(80).__repr__()}"
)
[docs]class Field(TreeObject):
"""
A class representing a field dictionary.
This class is accessed through
:meth:`get_fields()<PyPDF2.PdfReader.get_fields>`
"""
def __init__(self, data: Dict[str, Any]) -> None:
DictionaryObject.__init__(self)
field_attributes = (
FieldDictionaryAttributes.attributes()
+ CheckboxRadioButtonAttributes.attributes()
)
for attr in field_attributes:
try:
self[NameObject(attr)] = data[attr]
except KeyError:
pass
# TABLE 8.69 Entries common to all field dictionaries
@property
def field_type(self) -> Optional[NameObject]:
"""Read-only property accessing the type of this field."""
return self.get(FieldDictionaryAttributes.FT)
@property
def fieldType(self) -> Optional[NameObject]: # pragma: no cover
"""
.. deprecated:: 1.28.3
Use :py:attr:`field_type` instead.
"""
deprecate_with_replacement("fieldType", "field_type")
return self.field_type
@property
def parent(self) -> Optional[DictionaryObject]:
"""Read-only property accessing the parent of this field."""
return self.get(FieldDictionaryAttributes.Parent)
@property
def kids(self) -> Optional[ArrayObject]:
"""Read-only property accessing the kids of this field."""
return self.get(FieldDictionaryAttributes.Kids)
@property
def name(self) -> Optional[str]:
"""Read-only property accessing the name of this field."""
return self.get(FieldDictionaryAttributes.T)
@property
def alternate_name(self) -> Optional[str]:
"""Read-only property accessing the alternate name of this field."""
return self.get(FieldDictionaryAttributes.TU)
@property
def altName(self) -> Optional[str]: # pragma: no cover
"""
.. deprecated:: 1.28.3
Use :py:attr:`alternate_name` instead.
"""
deprecate_with_replacement("altName", "alternate_name")
return self.alternate_name
@property
def mapping_name(self) -> Optional[str]:
"""
Read-only property accessing the mapping name of this field. This
name is used by PyPDF2 as a key in the dictionary returned by
:meth:`get_fields()<PyPDF2.PdfReader.get_fields>`
"""
return self.get(FieldDictionaryAttributes.TM)
@property
def mappingName(self) -> Optional[str]: # pragma: no cover
"""
.. deprecated:: 1.28.3
Use :py:attr:`mapping_name` instead.
"""
deprecate_with_replacement("mappingName", "mapping_name")
return self.mapping_name
@property
def flags(self) -> Optional[int]:
"""
Read-only property accessing the field flags, specifying various
characteristics of the field (see Table 8.70 of the PDF 1.7 reference).
"""
return self.get(FieldDictionaryAttributes.Ff)
@property
def value(self) -> Optional[Any]:
"""
Read-only property accessing the value of this field. Format
varies based on field type.
"""
return self.get(FieldDictionaryAttributes.V)
@property
def default_value(self) -> Optional[Any]:
"""Read-only property accessing the default value of this field."""
return self.get(FieldDictionaryAttributes.DV)
@property
def defaultValue(self) -> Optional[Any]: # pragma: no cover
"""
.. deprecated:: 1.28.3
Use :py:attr:`default_value` instead.
"""
deprecate_with_replacement("defaultValue", "default_value")
return self.default_value
@property
def additional_actions(self) -> Optional[DictionaryObject]:
"""
Read-only property accessing the additional actions dictionary.
This dictionary defines the field's behavior in response to trigger events.
See Section 8.5.2 of the PDF 1.7 reference.
"""
return self.get(FieldDictionaryAttributes.AA)
@property
def additionalActions(self) -> Optional[DictionaryObject]: # pragma: no cover
"""
.. deprecated:: 1.28.3
Use :py:attr:`additional_actions` instead.
"""
deprecate_with_replacement("additionalActions", "additional_actions")
return self.additional_actions
[docs]class Destination(TreeObject):
"""
A class representing a destination within a PDF file.
See section 8.2.1 of the PDF 1.6 reference.
:param str title: Title of this destination.
:param IndirectObject page: Reference to the page of this destination. Should
be an instance of :class:`IndirectObject<PyPDF2.generic.IndirectObject>`.
:param str typ: How the destination is displayed.
:param args: Additional arguments may be necessary depending on the type.
:raises PdfReadError: If destination type is invalid.
.. list-table:: Valid ``typ`` arguments (see PDF spec for details)
:widths: 50 50
* - /Fit
- No additional arguments
* - /XYZ
- [left] [top] [zoomFactor]
* - /FitH
- [top]
* - /FitV
- [left]
* - /FitR
- [left] [bottom] [right] [top]
* - /FitB
- No additional arguments
* - /FitBH
- [top]
* - /FitBV
- [left]
"""
def __init__(
self,
title: str,
page: Union[NumberObject, IndirectObject, NullObject, DictionaryObject],
typ: Union[str, NumberObject],
*args: Any, # ZoomArgType
) -> None:
DictionaryObject.__init__(self)
self[NameObject("/Title")] = TextStringObject(title)
self[NameObject("/Page")] = page
self[NameObject("/Type")] = typ
# from table 8.2 of the PDF 1.7 reference.
if typ == "/XYZ":
(
self[NameObject(TA.LEFT)],
self[NameObject(TA.TOP)],
self[NameObject("/Zoom")],
) = args
elif typ == TF.FIT_R:
(
self[NameObject(TA.LEFT)],
self[NameObject(TA.BOTTOM)],
self[NameObject(TA.RIGHT)],
self[NameObject(TA.TOP)],
) = args
elif typ in [TF.FIT_H, TF.FIT_BH]:
try: # Prefered to be more robust not only to null parameters
(self[NameObject(TA.TOP)],) = args
except Exception:
(self[NameObject(TA.TOP)],) = (NullObject(),)
elif typ in [TF.FIT_V, TF.FIT_BV]:
try: # Prefered to be more robust not only to null parameters
(self[NameObject(TA.LEFT)],) = args
except Exception:
(self[NameObject(TA.LEFT)],) = (NullObject(),)
elif typ in [TF.FIT, TF.FIT_B]:
pass
else:
raise PdfReadError(f"Unknown Destination Type: {typ!r}")
@property
def dest_array(self) -> ArrayObject:
return ArrayObject(
[self.raw_get("/Page"), self["/Type"]]
+ [
self[x]
for x in ["/Left", "/Bottom", "/Right", "/Top", "/Zoom"]
if x in self
]
)
[docs] def getDestArray(self) -> ArrayObject: # pragma: no cover
"""
.. deprecated:: 1.28.3
Use :py:attr:`dest_array` instead.
"""
deprecate_with_replacement("getDestArray", "dest_array")
return self.dest_array
[docs] def write_to_stream(
self, stream: StreamType, encryption_key: Union[None, str, bytes]
) -> None:
stream.write(b"<<\n")
key = NameObject("/D")
key.write_to_stream(stream, encryption_key)
stream.write(b" ")
value = self.dest_array
value.write_to_stream(stream, encryption_key)
key = NameObject("/S")
key.write_to_stream(stream, encryption_key)
stream.write(b" ")
value_s = NameObject("/GoTo")
value_s.write_to_stream(stream, encryption_key)
stream.write(b"\n")
stream.write(b">>")
@property
def title(self) -> Optional[str]:
"""Read-only property accessing the destination title."""
return self.get("/Title")
@property
def page(self) -> Optional[int]:
"""Read-only property accessing the destination page number."""
return self.get("/Page")
@property
def typ(self) -> Optional[str]:
"""Read-only property accessing the destination type."""
return self.get("/Type")
@property
def zoom(self) -> Optional[int]:
"""Read-only property accessing the zoom factor."""
return self.get("/Zoom", None)
@property
def left(self) -> Optional[FloatObject]:
"""Read-only property accessing the left horizontal coordinate."""
return self.get("/Left", None)
@property
def right(self) -> Optional[FloatObject]:
"""Read-only property accessing the right horizontal coordinate."""
return self.get("/Right", None)
@property
def top(self) -> Optional[FloatObject]:
"""Read-only property accessing the top vertical coordinate."""
return self.get("/Top", None)
@property
def bottom(self) -> Optional[FloatObject]:
"""Read-only property accessing the bottom vertical coordinate."""
return self.get("/Bottom", None)
@property
def color(self) -> Optional[ArrayObject]:
"""Read-only property accessing the color in (R, G, B) with values 0.0-1.0"""
return self.get(
"/C", ArrayObject([FloatObject(0), FloatObject(0), FloatObject(0)])
)
@property
def font_format(self) -> Optional[OutlineFontFlag]:
"""Read-only property accessing the font type. 1=italic, 2=bold, 3=both"""
return self.get("/F", 0)
@property
def outline_count(self) -> Optional[int]:
"""
Read-only property accessing the outline count.
positive = expanded
negative = collapsed
absolute value = number of visible descendents at all levels
"""
return self.get("/Count", None)