opencv/modules/java/gen_java.py

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import sys, re, os.path
from string import Template
try:
from cStringIO import StringIO
except:
from StringIO import StringIO
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# c_type : { java/jni correspondence }
type_dict = {
# "simple" : { j_type : "?", jn_type : "?", jni_type : "?", suffix : "?" },
"" : { "j_type" : "", "jn_type" : "long", "jni_type" : "jlong" }, # c-tor ret_type
"void" : { "j_type" : "void", "jn_type" : "void", "jni_type" : "void" },
"env" : { "j_type" : "", "jn_type" : "", "jni_type" : "JNIEnv*"},
"cls" : { "j_type" : "", "jn_type" : "", "jni_type" : "jclass"},
"bool" : { "j_type" : "boolean", "jn_type" : "boolean", "jni_type" : "jboolean", "suffix" : "Z" },
"int" : { "j_type" : "int", "jn_type" : "int", "jni_type" : "int", "suffix" : "I" },
"long" : { "j_type" : "int", "jn_type" : "int", "jni_type" : "int", "suffix" : "I" },
"float" : { "j_type" : "float", "jn_type" : "float", "jni_type" : "jfloat", "suffix" : "F" },
"double" : { "j_type" : "double", "jn_type" : "double", "jni_type" : "jdouble", "suffix" : "D" },
"size_t" : { "j_type" : "long", "jn_type" : "long", "jni_type" : "jlong", "suffix" : "J" },
"__int64" : { "j_type" : "long", "jn_type" : "long", "jni_type" : "jlong", "suffix" : "J" },
# "complex" : { j_type : "?", jn_args : (("", ""),), jn_name : "", jni_var : "", jni_name : "", "suffix" : "?" },
"Mat" : { "j_type" : "Mat", "jn_type" : "long", "jn_args" : (("__int64", ".nativeObj"),),
"jni_var" : "Mat& %(n)s = *((Mat*)%(n)s_nativeObj)",
"jni_type" : "jlong", #"jni_name" : "*%(n)s",
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"suffix" : "J" },
"Point" : { "j_type" : "Point", "jn_args" : (("double", ".x"), ("double", ".y")),
"jni_var" : "cv::Point %(n)s((int)%(n)s_x, (int)%(n)s_y)",
"suffix" : "DD"},
"Point2f" : { "j_type" : "Point", "jn_args" : (("double", ".x"), ("double", ".y")),
"jni_var" : "cv::Point2f %(n)s((float)%(n)s_x, (float)%(n)s_y)",
"suffix" : "DD"},
"Point2d" : { "j_type" : "Point", "jn_args" : (("double", ".x"), ("double", ".y")),
"jni_var" : "cv::Point2d %(n)s(%(n)s_x, %(n)s_y)",
"suffix" : "DD"},
"Point3i" : { "j_type" : "Point", "jn_args" : (("double", ".x"), ("double", ".y"), ("double", ".z")),
"jni_var" : "cv::Point3i %(n)s((int)%(n)s_x, (int)%(n)s_y, (int)%(n)s_z)",
"suffix" : "DDD"},
"Point3f" : { "j_type" : "Point", "jn_args" : (("double", ".x"), ("double", ".y"), ("double", ".z")),
"jni_var" : "cv::Point3f %(n)s((float)%(n)s_x, (float)%(n)s_y, (float)%(n)s_z)",
"suffix" : "DDD"},
"Point3d" : { "j_type" : "Point", "jn_args" : (("double", ".x"), ("double", ".y"), ("double", ".z")),
"jni_var" : "cv::Point3d %(n)s(%(n)s_x, %(n)s_y, %(n)s_z)",
"suffix" : "DDD"},
"Rect" : { "j_type" : "Rect", "jn_args" : (("int", ".x"), ("int", ".y"), ("int", ".width"), ("int", ".height")),
"jni_var" : "cv::Rect %(n)s(%(n)s_x, %(n)s_y, %(n)s_width, %(n)s_height)",
"suffix" : "IIII"},
"Size" : { "j_type" : "Size", "jn_args" : (("double", ".width"), ("double", ".height")),
"jni_var" : "cv::Size %(n)s((int)%(n)s_width, (int)%(n)s_height)",
"suffix" : "DD"},
"Size2f" : { "j_type" : "Size", "jn_args" : (("double", ".width"), ("double", ".height")),
"jni_var" : "cv::Size2f %(n)s((float)%(n)s_width, (float)%(n)s_height)",
"suffix" : "DD"},
"RotatedRect": { "j_type" : "RotatedRect", "jn_args" : (("double", ".center.x"), ("double", ".center.y"), ("double", ".size.width"), ("double", ".size.height"), ("double", ".angle")),
"jni_var" : "cv::RotatedRect %(n)s(cv::Point2f(%(n)s_center_x, %(n)s_center_y), cv::Size2f(%(n)s_size_width, %(n)s_size_height), %(n)s_angle)",
"suffix" : "DDDDD"},
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"Scalar" : { "j_type" : "Scalar", "jn_args" : (("double", ".v0"), ("double", ".v1"), ("double", ".v2"), ("double", ".v3")),
"jni_var" : "cv::Scalar %(n)s(%(n)s_v0, %(n)s_v1, %(n)s_v2, %(n)s_v3)",
"suffix" : "DDDD"},
"Range" : { "j_type" : "Range", "jn_args" : (("int", ".start"), ("int", ".end")),
"jni_var" : "cv::Range %(n)s(%(n)s_start, %(n)s_end)",
"suffix" : "II"},
"CvSlice" : { "j_type" : "Range", "jn_args" : (("int", ".start"), ("int", ".end")),
"jni_var" : "cv::Range %(n)s(%(n)s_start, %(n)s_end)",
"suffix" : "II"},
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"string" : { "j_type" : "java.lang.String", "jn_type" : "java.lang.String",
"jni_type" : "jstring", "jni_name" : "n_%(n)s",
"jni_var" : 'const char* utf_%(n)s = env->GetStringUTFChars(%(n)s, 0); std::string n_%(n)s( utf_%(n)s ? utf_%(n)s : "" ); env->ReleaseStringUTFChars(%(n)s, utf_%(n)s)',
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"suffix" : "Ljava_lang_String_2"},
"String" : { "j_type" : "java.lang.String", "jn_type" : "java.lang.String",
"jni_type" : "jstring", "jni_name" : "n_%(n)s",
"jni_var" : 'const char* utf_%(n)s = env->GetStringUTFChars(%(n)s, 0); String n_%(n)s( utf_%(n)s ? utf_%(n)s : "" ); env->ReleaseStringUTFChars(%(n)s, utf_%(n)s)',
"suffix" : "Ljava_lang_String_2"},
"c_string": { "j_type" : "java.lang.String", "jn_type" : "java.lang.String",
"jni_type" : "jstring", "jni_name" : "n_%(n)s.c_str()",
"jni_var" : 'const char* utf_%(n)s = env->GetStringUTFChars(%(n)s, 0); std::string n_%(n)s( utf_%(n)s ? utf_%(n)s : "" ); env->ReleaseStringUTFChars(%(n)s, utf_%(n)s)',
"suffix" : "Ljava_lang_String_2"},
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}
class ConstInfo(object):
def __init__(self, cname, name, val):
## self.name = re.sub(r"^cv\.", "", name).replace(".", "_")
self.cname = cname
self.name = re.sub(r"^Cv", "", name)
#self.name = re.sub(r"([a-z])([A-Z])", r"\1_\2", name)
#self.name = self.name.upper()
self.value = val
class ClassInfo(object):
def __init__(self, decl): # [ 'class/struct cname', [bases], [modlist] ]
name = decl[0]
name = name[name.find(" ")+1:].strip()
self.cname = self.name = self.jname = re.sub(r"^cv\.", "", name)
self.cname =self.cname.replace(".", "::")
#self.jname = re.sub(r"^Cv", "", self.jname)
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self.methods = {}
self.consts = [] # using a list to save the occurence order
for m in decl[2]:
if m.startswith("="):
self.jname = m[1:]
class ArgInfo(object):
def __init__(self, arg_tuple): # [ ctype, name, def val, [mod], argno ]
self.ctype = arg_tuple[0]
self.name = arg_tuple[1]
self.defval = arg_tuple[2]
self.out = ""
if "/O" in arg_tuple[3]:
self.out = "O"
if "/IO" in arg_tuple[3]:
self.out = "IO"
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class FuncInfo(object):
def __init__(self, decl): # [ funcname, return_ctype, [modifiers], [args] ]
name = re.sub(r"^cv\.", "", decl[0])
self.cname = name.replace(".", "::")
classname = ""
dpos = name.rfind(".")
if dpos >= 0:
classname = name[:dpos]
name = name[dpos+1:]
self.classname = classname
self.jname = self.name = name
if "[" in name:
self.jname = "getelem"
for m in decl[2]:
if m.startswith("="):
self.jname = m[1:]
self.jn_name = "n_" + self.jname
self.jni_name= re.sub(r"_", "_1", self.jn_name)
if self.classname:
self.jni_name = "00024" + self.classname + "_" + self.jni_name
self.static = ["","static"][ "/S" in decl[2] ]
self.ctype = decl[1] or ""
self.args = []
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#self.jni_suffix = "__"
#if self.classname and self.ctype and not self.static: # non-static class methods except c-tors
# self.jni_suffix += "J" # artifical 'self'
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for a in decl[3]:
ai = ArgInfo(a)
self.args.append(ai)
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# self.jni_suffix += ctype2j.get(ai.ctype, ["","","",""])[3]
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class FuncFamilyInfo(object):
def __init__(self, decl): # [ funcname, return_ctype, [modifiers], [args] ]
self.funcs = []
self.funcs.append( FuncInfo(decl) )
self.jname = self.funcs[0].jname
self.isconstructor = self.funcs[0].name == self.funcs[0].classname
def add_func(self, fi):
self.funcs.append( fi )
class JavaWrapperGenerator(object):
def __init__(self):
self.clear()
def clear(self):
self.classes = { "Mat" : ClassInfo([ 'class Mat', [], [] ]) }
self.funcs = {}
self.consts = [] # using a list to save the occurence order
self.module = ""
self.java_code = StringIO()
self.jn_code = StringIO()
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self.cpp_code = StringIO()
self.ported_func_counter = 0
self.ported_func_list = []
self.skipped_func_list = []
self.total_func_counter = 0
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def add_class(self, decl):
classinfo = ClassInfo(decl)
if classinfo.name in self.classes:
print "Generator error: class %s (%s) is duplicated" % \
(classinfo.name, classinfo.cname)
sys.exit(-1)
self.classes[classinfo.name] = classinfo
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if classinfo.name in type_dict:
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print "Duplicated class: " + classinfo.name
sys.exit(-1)
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type_dict[classinfo.name] = \
{ "j_type" : classinfo.name, "jn_args" : (("__int64", ".nativeObj"),),
"jni_name" : "(*("+classinfo.name+"*)%(n)s_nativeObj)",
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"suffix" : "J" }
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def add_const(self, decl): # [ "const cname", val, [], [] ]
consts = self.consts
name = decl[0].replace("const ", "").strip()
name = re.sub(r"^cv\.", "", name)
cname = name.replace(".", "::")
# check if it's a class member
dpos = name.rfind(".")
if dpos >= 0:
classname = name[:dpos]
name = name[dpos+1:]
if classname in self.classes:
consts = self.classes[classname].consts
else:
# this class isn't wrapped
# skipping this const
return
constinfo = ConstInfo(cname, name, decl[1])
# checking duplication
for c in consts:
if c.name == constinfo.name:
print "Generator error: constant %s (%s) is duplicated" \
% (constinfo.name, constinfo.cname)
sys.exit(-1)
consts.append(constinfo)
def add_func(self, decl):
ffi = FuncFamilyInfo(decl)
func_map = self.funcs
classname = ffi.funcs[0].classname
if classname:
if classname in self.classes:
func_map = self.classes[classname].methods
else:
print "Generator error: the class %s for method %s is missing" % \
(classname, ffi.jname)
sys.exit(-1)
if ffi.jname in func_map:
func_map[ffi.jname].add_func(ffi.funcs[0])
else:
func_map[ffi.jname] = ffi
def save(self, path, name, buf):
f = open(path + "/" + name, "wt")
f.write(buf.getvalue())
f.close()
def gen(self, srcfiles, module, output_path):
self.clear()
self.module = module
parser = hdr_parser.CppHeaderParser()
# step 1: scan the headers and build more descriptive maps of classes, consts, functions
for hdr in srcfiles:
decls = parser.parse(hdr)
for decl in decls:
name = decl[0]
if name.startswith("struct") or name.startswith("class"):
self.add_class(decl)
pass
elif name.startswith("const"):
self.add_const(decl)
else: # function
self.add_func(decl)
pass
# java module header
self.java_code.write("package org.opencv;\n\npublic class %s {\n" % module)
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if module == "core":
self.java_code.write(\
"""
private static final int
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CV_8U = 0,
CV_8S = 1,
CV_16U = 2,
CV_16S = 3,
CV_32S = 4,
CV_32F = 5,
CV_64F = 6,
CV_USRTYPE1 = 7;
""" )
if module == "imgproc":
self.java_code.write(\
"""
public static final int
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IPL_BORDER_CONSTANT = 0,
IPL_BORDER_REPLICATE = 1,
IPL_BORDER_REFLECT = 2,
IPL_BORDER_WRAP = 3,
IPL_BORDER_REFLECT_101 = 4,
IPL_BORDER_TRANSPARENT = 5;
""" )
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if module == "calib3d":
self.java_code.write(\
"""
public static final int
CV_LMEDS = 4,
CV_RANSAC = 8,
CV_FM_LMEDS = CV_LMEDS,
CV_FM_RANSAC = CV_RANSAC;
public static final int
CV_FM_7POINT = 1,
CV_FM_8POINT = 2;
public static final int
CV_CALIB_USE_INTRINSIC_GUESS = 1,
CV_CALIB_FIX_ASPECT_RATIO = 2,
CV_CALIB_FIX_PRINCIPAL_POINT = 4,
CV_CALIB_ZERO_TANGENT_DIST = 8,
CV_CALIB_FIX_FOCAL_LENGTH = 16,
CV_CALIB_FIX_K1 = 32,
CV_CALIB_FIX_K2 = 64,
CV_CALIB_FIX_K3 = 128,
CV_CALIB_FIX_K4 = 2048,
CV_CALIB_FIX_K5 = 4096,
CV_CALIB_FIX_K6 = 8192,
CV_CALIB_RATIONAL_MODEL = 16384,
CV_CALIB_FIX_INTRINSIC = 256,
CV_CALIB_SAME_FOCAL_LENGTH = 512,
CV_CALIB_ZERO_DISPARITY = 1024;
""" )
# java native stuff
self.jn_code.write("""
//
// native stuff
//
static { System.loadLibrary("opencv_java"); }
""")
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# cpp module header
self.cpp_code.write(\
"""//
// This file is auto-generated, please don't edit!
//
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#include <jni.h>
#ifdef DEBUG
#include <android/log.h>
#define MODULE_LOG_TAG "OpenCV.%s"
#define LOGD(...) ((void)__android_log_print(ANDROID_LOG_DEBUG, MODULE_LOG_TAG, __VA_ARGS__))
#endif // DEBUG
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""" % module)
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self.cpp_code.write( "\n".join(['#include "opencv2/%s/%s"' % (module, os.path.basename(f)) \
for f in srcfiles]) )
self.cpp_code.write('\nusing namespace cv;\n')
self.cpp_code.write('\n\nextern "C" {\n\n')
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# step 2: generate the code for global constants
self.gen_consts()
# step 3: generate the code for all the global functions
self.gen_funcs()
# step 4: generate code for the classes
self.gen_classes()
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# module tail
self.java_code.write("\n\n" + self.jn_code.getvalue() + "\n")
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self.java_code.write("}\n")
self.cpp_code.write('} // extern "C"\n')
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self.save(output_path, module+".java", self.java_code)
self.save(output_path, module+".cpp", self.cpp_code)
# report
report = StringIO()
report.write("PORTED FUNCs LIST (%i of %i):\n\n" % \
(self.ported_func_counter, self.total_func_counter) \
)
report.write("\n".join(self.ported_func_list))
report.write("\n\nSKIPPED FUNCs LIST (%i of %i):\n\n" % \
(self.total_func_counter - self.ported_func_counter, self.total_func_counter) \
)
report.write("".join(self.skipped_func_list))
self.save(output_path, module+".txt", report)
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print "Done %i of %i funcs." % (self.ported_func_counter, self.total_func_counter)
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def gen_consts(self):
# generate the code for global constants
if self.consts:
self.java_code.write("""
public static final int
""" + """,
""".join(["%s = %s" % (c.name, c.value) for c in self.consts]) + \
";\n\n")
def gen_func(self, fi, isoverload, jn_code):
self.total_func_counter += 1
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# // C++: c_decl
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# e.g:
# // C++: void add(Mat src1, Mat src2, Mat dst, Mat mask = Mat(), int dtype = -1)
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c_decl = "%s %s %s(%s)" % \
( fi.static, fi.ctype, fi.cname, \
", ".join(a.ctype + " " + a.name + [""," = "+a.defval][bool(a.defval)] for a in fi.args) )
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indent = " " * 4
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if fi.classname:
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indent += " " * 4
# java comment
self.java_code.write( "\n%s// C++: %s\n" % (indent, c_decl) )
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# check if we 'know' all the types
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type_info = type_dict.get(fi.ctype)
if not (type_info and type_info.get("jn_type")): # unsupported ret type
msg = "// Return type '%s' is not supported, skipping the function\n\n" % fi.ctype
self.skipped_func_list.append(c_decl + "\n" + msg)
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self.java_code.write( indent + msg )
#self.cpp_code.write( msg )
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print "SKIP:", c_decl, "\n\tdue to RET type", fi.ctype
return
for a in fi.args:
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if a.ctype not in type_dict:
msg = "// Unknown type '%s', skipping the function\n\n" % a.ctype
self.skipped_func_list.append(c_decl + "\n" + msg)
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self.java_code.write( indent + msg )
#self.cpp_code.write( msg )
print "SKIP:", c_decl, "\n\tdue to ARG type", a.ctype, a.out
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return
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if a.ctype != "Mat" and "jn_args" in type_dict[a.ctype] and a.out: # complex out args not yet supported
msg = "// Unsupported type '%s&', skipping the function\n\n" % a.ctype
self.skipped_func_list.append(c_decl + "\n" + msg)
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self.java_code.write( indent + msg )
#self.cpp_code.write( msg )
print "SKIP:", c_decl, "\n\tdue to OUT ARG of type", a.ctype, a.out
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return
self.ported_func_counter += 1
self.ported_func_list.append(c_decl)
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# jn & cpp comment
jn_code.write( "\n%s// C++: %s\n" % (indent, c_decl) )
self.cpp_code.write( "\n//\n// %s\n//\n" % c_decl )
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# java args
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args = fi.args[:] # copy
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if args and args[-1].defval:
isoverload = True
while True:
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# java native method args
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jn_args = []
# jni (cpp) function args
jni_args = [ArgInfo([ "env", "env", "", [], "" ]), ArgInfo([ "cls", "cls", "", [], "" ])]
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suffix = "__"
if fi.classname and fi.ctype and not fi.static: # non-static class method except c-tor
# adding 'self'
jn_args.append ( ArgInfo([ "__int64", "nativeObj", "", [], "" ]) )
jni_args.append( ArgInfo([ "__int64", "self", "", [], "" ]) )
suffix += "J"
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for a in args:
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suffix += type_dict[a.ctype].get("suffix") or ""
fields = type_dict[a.ctype].get("jn_args") or []
if fields: # complex type
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for f in fields:
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jn_args.append ( ArgInfo([ f[0], a.name + f[1], "", [], "" ]) )
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jni_args.append( ArgInfo([ f[0], a.name + f[1].replace(".","_"), "", [], "" ]) )
else:
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jn_args.append(a)
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jni_args.append(a)
# java part:
# private java NATIVE method decl
# e.g.
# private static native void n_add(long src1, long src2, long dst, long mask, int dtype);
jn_code.write( Template(\
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"${indent}private static native $jn_type $jn_name($jn_args);\n").substitute(\
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indent = indent, \
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jn_type = type_dict[fi.ctype]["jn_type"], \
jn_name = fi.jn_name, \
jn_args = ", ".join(["%s %s" % (type_dict[a.ctype]["jn_type"], a.name.replace(".","_")) for a in jn_args])
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) );
# java part:
#java doc comment
f_name = fi.name
if fi.classname:
f_name = fi.classname + "::" + fi.name
self.java_code.write(indent + "//javadoc: " + f_name + "(%s)\n" % \
", ".join([a.name for a in args])
)
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# public java wrapper method impl (calling native one above)
# e.g.
# public static void add( Mat src1, Mat src2, Mat dst, Mat mask, int dtype )
# { n_add( src1.nativeObj, src2.nativeObj, dst.nativeObj, mask.nativeObj, dtype ); }
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impl_code = "return $jn_name($jn_args_call);"
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if fi.ctype == "void":
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impl_code = "$jn_name($jn_args_call);"
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elif fi.ctype == "": # c-tor
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impl_code = "nativeObj = $jn_name($jn_args_call);"
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elif fi.ctype in self.classes: # wrapped class
impl_code = " return new %s( $jn_name($jn_args_call) ); " % \
self.classes[fi.ctype].jname
static = "static"
if fi.classname:
static = fi.static
self.java_code.write( Template(\
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"${indent}public $static $j_type $j_name($j_args)").substitute(\
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indent = indent, \
static=static, \
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j_type=type_dict[fi.ctype]["j_type"], \
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j_name=fi.jname, \
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j_args=", ".join(["%s %s" % (type_dict[a.ctype]["j_type"], a.name) for a in args]) \
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) )
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self.java_code.write( Template("\n$indent{ " + impl_code + " }\n").substitute(\
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indent = indent, \
jn_name=fi.jn_name, \
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jn_args_call=", ".join( [a.name for a in jn_args] )\
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) )
# cpp part:
# jni_func(..) { return cv_func(..); }
ret = "return "
ext = ""
default = "return 0;"
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if fi.ctype == "void":
ret = ""
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default = ""
elif fi.ctype == "string":
ret = "return env->NewStringUTF"
ext = ".c_str()"
default = 'return env->NewStringUTF("");'
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elif fi.ctype in self.classes: # wrapped class:
ret = "return (jlong) new " + self.classes[fi.ctype].jname
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cvname = "cv::" + fi.name
j2cvargs = []
if fi.classname:
if not fi.ctype: # c-tor
cvname = "(jlong) new " + fi.classname
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elif fi.static:
cvname = "%s::%s" % (fi.classname, fi.name)
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else:
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cvname = "me->" + fi.name
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j2cvargs.append(\
"%(cls)s* me = (%(cls)s*) self; //TODO: check for NULL" \
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% { "cls" : fi.classname} \
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)
cvargs = []
for a in args:
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cvargs.append( type_dict[a.ctype].get("jni_name", "%(n)s") % {"n" : a.name})
if "jni_var" in type_dict[a.ctype]: # complex type
j2cvargs.append(type_dict[a.ctype]["jni_var"] % {"n" : a.name} + ";")
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rtype = type_dict[fi.ctype]["jni_type"]
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self.cpp_code.write ( Template( \
"""
JNIEXPORT $rtype JNICALL Java_org_opencv_${module}_$fname
($args)
{
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try {
#ifdef DEBUG
LOGD("$module::$fname()");
#endif // DEBUG
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$j2cv
$ret( $cvname( $cvargs )$ext );
} catch(cv::Exception e) {
#ifdef DEBUG
LOGD("$module::$fname() catched cv::Exception: %s", e.what());
#endif // DEBUG
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jclass je = env->FindClass("org/opencv/CvException");
if(!je) je = env->FindClass("java/lang/Exception");
env->ThrowNew(je, e.what());
$default
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} catch (...) {
#ifdef DEBUG
LOGD("$module::$fname() catched unknown exception (...)");
#endif // DEBUG
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jclass je = env->FindClass("java/lang/Exception");
env->ThrowNew(je, "Unknown exception in JNI code {$module::$fname()}");
$default
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}
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}
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""" ).substitute( \
rtype = rtype, \
module = self.module, \
fname = fi.jni_name + ["",suffix][isoverload], \
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args = ", ".join(["%s %s" % (type_dict[a.ctype].get("jni_type"), a.name) for a in jni_args]), \
j2cv = "\n ".join([a for a in j2cvargs]), \
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ret = ret, \
cvname = cvname, \
cvargs = ", ".join([a for a in cvargs]), \
ext = ext, \
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default = default
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) )
# processing args with default values
if args and args[-1].defval:
a = args.pop()
else:
break
def gen_funcs(self):
# generate the code for all the global functions
indent = "\t"
fflist = self.funcs.items()
fflist.sort()
for name, ffi in fflist:
assert not ffi.funcs[0].classname, "Error: global func is a class member - "+name
for fi in ffi.funcs:
self.gen_func(fi, len(ffi.funcs)>1, self.jn_code)
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def gen_classes(self):
# generate code for the classes (their methods and consts)
indent = " " * 4
indent_m = indent + " " * 4
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classlist = self.classes.items()
classlist.sort()
for name, ci in classlist:
if name == "Mat":
continue
self.java_code.write( "\n\n" + indent + "// C++: class %s" % (ci.cname) + "\n" )
self.java_code.write( indent + "//javadoc: " + name + "\n" ) #java doc comment
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self.java_code.write( indent + "public static class %s {\n\n" % (ci.jname) )
# self
self.java_code.write( indent_m + "protected final long nativeObj;\n" )
self.java_code.write( indent_m + "protected %s(long addr) { nativeObj = addr; }\n\n" \
% name );
# constants
if ci.consts:
prefix = "\n" + indent_m + "\t"
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s = indent_m + "public static final int" + prefix +\
("," + prefix).join(["%s = %s" % (c.name, c.value) for c in ci.consts]) + ";\n\n"
self.java_code.write( s )
# methods
jn_code = StringIO()
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# c-tors
fflist = ci.methods.items()
fflist.sort()
for n, ffi in fflist:
if ffi.isconstructor:
for fi in ffi.funcs:
self.gen_func(fi, len(ffi.funcs)>1, jn_code)
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self.java_code.write( "\n" )
for n, ffi in fflist:
if not ffi.isconstructor:
for fi in ffi.funcs:
self.gen_func(fi, len(ffi.funcs)>1, jn_code)
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# finalize()
self.java_code.write(
"""
@Override
protected void finalize() throws Throwable {
n_delete(nativeObj);
super.finalize();
}
"""
)
self.java_code.write(indent_m + "// native stuff\n\n")
self.java_code.write(indent_m + 'static { System.loadLibrary("opencv_java"); }\n')
self.java_code.write( jn_code.getvalue() )
self.java_code.write(
"""
// native support for java finalize()
private static native void n_delete(long nativeObj);
"""
)
self.java_code.write("\n" + indent + "}\n\n")
# native support for java finalize()
self.cpp_code.write( \
"""
//
// native support for java finalize()
// static void %(cls)s::n_delete( __int64 self )
//
JNIEXPORT void JNICALL Java_org_opencv_%(module)s_00024%(cls)s_n_1delete
(JNIEnv* env, jclass cls, jlong self)
{
delete (%(cls)s*) self;
}
""" % {"module" : module, "cls" : name}
)
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if __name__ == "__main__":
if len(sys.argv) < 4:
print "Usage:\n", \
os.path.basename(sys.argv[0]), \
"<full path to hdr_parser.py> <module name> <C++ header> [<C++ header>...]"
print "Current args are: ", ", ".join(["'"+a+"'" for a in sys.argv])
exit(0)
dstdir = "."
hdr_parser_path = os.path.abspath(sys.argv[1])
if hdr_parser_path.endswith(".py"):
hdr_parser_path = os.path.dirname(hdr_parser_path)
sys.path.append(hdr_parser_path)
import hdr_parser
module = sys.argv[2]
srcfiles = sys.argv[3:]
print "Generating module '" + module + "' from headers:\n\t" + "\n\t".join(srcfiles)
generator = JavaWrapperGenerator()
generator.gen(srcfiles, module, dstdir)