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https://gitlab.freedesktop.org/gstreamer/gstreamer.git
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febd74992d
Original commit message from CVS: * codegen/argtypes.py: * codegen/codegen.py: * codegen/definitions.py: * codegen/defsparser.py: * codegen/defsconvert.py: * codegen/docgen.py: Updated codegen to support miniobject * gst/Makefile.am: Use the included (and modified) codegen for code generation. * gst/pygstminiobject.c: * gst/pygstminiobject.h: * gst/pygstminiobject-private.h: New GstMiniObject inspired from pygobject.[ch] code * gst/common.h: * gst/gst-types.defs: * gst/gst.override: * gst/gstbuffer.override: * gst/gstcaps.override: * gst/gstmodule.c: * gst/gstpad.override: Modifications to support MiniObject * gst/gst.defs: Allow null second parameter for ElementFactory.create() and gst.element_factory_make()
135 lines
4.4 KiB
Python
135 lines
4.4 KiB
Python
import sys
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import string, re
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# ------------------ Create typecodes from typenames ---------
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_upperstr_pat1 = re.compile(r'([^A-Z])([A-Z])')
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_upperstr_pat2 = re.compile(r'([A-Z][A-Z])([A-Z][0-9a-z])')
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_upperstr_pat3 = re.compile(r'^([A-Z])([A-Z])')
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def to_upper_str(name):
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"""Converts a typename to the equivalent upercase and underscores
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name. This is used to form the type conversion macros and enum/flag
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name variables"""
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name = _upperstr_pat1.sub(r'\1_\2', name)
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name = _upperstr_pat2.sub(r'\1_\2', name)
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name = _upperstr_pat3.sub(r'\1_\2', name, count=1)
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return string.upper(name)
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def typecode(typename):
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"""create a typecode (eg. GTK_TYPE_WIDGET) from a typename"""
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return string.replace(to_upper_str(typename), '_', '_TYPE_', 1)
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STATE_START = 0
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STATE_OBJECT = 1
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STATE_INTERFACE = 2
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STATE_BOXED = 3
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STATE_ENUM = 4
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STATE_FLAGS = 5
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STATE_METHOD = 6
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STATE_FUNCTION = 7
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STATE_MINIOBJECT = 8
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def convert(infp=sys.stdin, outfp=sys.stdout):
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state = STATE_START
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seen_params = 0
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line = infp.readline()
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while line:
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if line[:8] == '(object ':
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state = STATE_OBJECT
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seen_params = 0
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outfp.write('(define-object ' + line[8:])
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elif line[:13] == '(mini-object ':
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state = STATE_MINI_OBJECT
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seen_params = 0
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outfp.write('(define mini-object ' + line[13:])
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elif line[:11] == '(interface ':
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state = STATE_INTERFACE
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seen_params = 0
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outfp.write('(define-interface ' + line[11:])
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elif line[:7] == '(boxed ':
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state = STATE_BOXED
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seen_params = 0
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outfp.write('(define-boxed ' + line[7:])
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elif line[:6] == '(enum ':
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state = STATE_ENUM
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seen_params = 0
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outfp.write('(define-enum ' + line[6:])
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elif line[:7] == '(flags ':
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state = STATE_FLAGS
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seen_params = 0
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outfp.write('(define-flags ' + line[7:])
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elif line[:8] == '(method ':
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state = STATE_METHOD
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seen_params = 0
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outfp.write('(define-method ' + line[8:])
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elif line[:10] == '(function ':
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state = STATE_FUNCTION
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seen_params = 0
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outfp.write('(define-function ' + line[10:])
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elif line[:13] == ' (in-module ':
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outfp.write(re.sub(r'^(\s+\(in-module\s+)(\w+)(.*)$',
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r'\1"\2"\3', line))
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elif line[:10] == ' (parent ':
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outfp.write(re.sub(r'^(\s+\(parent\s+)(\w+)(\s+\((\w+)\))?(.*)$',
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r'\1"\4\2"\5', line))
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elif line[:14] == ' (implements ':
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outfp.write(re.sub(r'^(\s+\(implements\s+)([^\s]+)(\s*\))$',
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r'\1"\2"\3', line))
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elif line[:13] == ' (of-object ':
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outfp.write(re.sub(r'^(\s+\(of-object\s+)(\w+)(\s+\((\w+)\))?(.*)$',
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r'\1"\4\2"\5', line))
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elif line[:10] == ' (c-name ':
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outfp.write(re.sub(r'^(\s+\(c-name\s+)([^\s]+)(\s*\))$',
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r'\1"\2"\3', line))
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if state in (STATE_OBJECT, STATE_INTERFACE, STATE_BOXED,
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STATE_ENUM, STATE_FLAGS):
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c_name = re.match(r'^\s+\(c-name\s+([^\s]+)\s*\)$',
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line).group(1)
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outfp.write(' (gtype-id "%s")\n' % typecode(c_name))
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elif line[:15] == ' (return-type ':
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outfp.write(re.sub(r'^(\s+\(return-type\s+)([^\s]+)(\s*\))$',
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r'\1"\2"\3', line))
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elif line[:13] == ' (copy-func ':
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outfp.write(re.sub(r'^(\s+\(copy-func\s+)(\w+)(.*)$',
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r'\1"\2"\3', line))
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elif line[:16] == ' (release-func ':
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outfp.write(re.sub(r'^(\s+\(release-func\s+)(\w+)(.*)$',
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r'\1"\2"\3', line))
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elif line[:9] == ' (field ':
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if not seen_params:
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outfp.write(' (fields\n')
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seen_params = 1
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outfp.write(re.sub(r'^\s+\(field\s+\(type-and-name\s+([^\s]+)\s+([^\s]+)\s*\)\s*\)$',
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' \'("\\1" "\\2")', line))
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elif line[:9] == ' (value ':
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if not seen_params:
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outfp.write(' (values\n')
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seen_params = 1
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outfp.write(re.sub(r'^\s+\(value\s+\(name\s+([^\s]+)\)\s+\(c-name\s+([^\s]+)\s*\)\s*\)$',
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' \'("\\1" "\\2")', line))
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elif line[:13] == ' (parameter ':
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if not seen_params:
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outfp.write(' (parameters\n')
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seen_params = 1
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outfp.write(re.sub(r'^\s+\(parameter\s+\(type-and-name\s+([^\s]+)\s+([^\s]+)\s*\)(\s*.*)\)$',
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' \'("\\1" "\\2"\\3)', line))
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elif line[:11] == ' (varargs ':
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if seen_params:
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outfp.write(' )\n')
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seen_params = 0
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outfp.write(' (varargs #t)\n')
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elif line[0] == ')':
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if seen_params:
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outfp.write(' )\n')
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seen_params = 0
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state = STATE_START
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outfp.write(line)
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else:
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outfp.write(line)
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line = infp.readline()
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if __name__ == '__main__':
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convert()
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