// Copyright 2011 Google Inc. // // This code is licensed under the same terms as WebM: // Software License Agreement: http://www.webmproject.org/license/software/ // Additional IP Rights Grant: http://www.webmproject.org/license/additional/ // ----------------------------------------------------------------------------- // // libwebp swig interface definition // // Author: James Zern (jzern@google.com) /* Java bindings: $ mkdir -p java/com/google/webp $ swig -java \ -package com.google.webp \ -outdir java/com/google/webp \ -o libwebp_java_wrap.c libwebp.i Python bindings: $ swig -python \ -outdir . \ -o libwebp_python_wrap.c libwebp.i */ #ifdef SWIGPYTHON %module(package="com.google.webp") libwebp #else %module libwebp #endif /* SWIGPYTHON */ %include "constraints.i" %include "typemaps.i" #ifdef SWIGJAVA %include "arrays_java.i"; %include "enums.swg" /*NB: requires JDK-1.5+ See: http://www.swig.org/Doc1.3/Java.html#enumerations */ // map uint8_t* such that a byte[] is used %{ #include "webp/types.h" %} // from arrays_java.i (signed char) JAVA_ARRAYS_DECL(uint8_t, jbyte, Byte, Uint8) JAVA_ARRAYS_IMPL(uint8_t, jbyte, Byte, Uint8) JAVA_ARRAYS_TYPEMAPS(uint8_t, byte, jbyte, Uint8, "[B") %apply uint8_t[] { uint8_t* } #endif /* SWIGJAVA */ #ifdef SWIGPYTHON %apply (char* STRING, size_t LENGTH) { (const uint8_t* data, size_t data_size) } %typemap(out) uint8_t* { $result = PyString_FromStringAndSize( (const char*)$1, ($1 == NULL) ? 0 : ReturnedBufferSize("$symname", arg3, arg4)); } %typemap (in) const uint8_t* rgb (Py_buffer rgb_buffer) { // NB: with Python < 2.6 the old style buffer protocol may be used: // Py_ssize_t unused; // PyObject_AsReadBuffer($input, (const void**)(&$1), &unused); if (!PyObject_CheckBuffer($input)) { SWIG_exception_fail(SWIG_TypeError, "in method '$symname', argument $argnum" " does not support the buffer interface"); } if (PyObject_GetBuffer($input, &rgb_buffer, PyBUF_SIMPLE)) { SWIG_exception_fail(SWIG_RuntimeError, "in method '$symname', unable to get buffer view"); } $1 = ($1_ltype)rgb_buffer.buf; } %typemap(freearg) const uint8_t* rgb { PyBuffer_Release(&rgb_buffer$argnum); } %define DECODE_AUTODOC(func) %feature("autodoc", #func "(uint8_t data) -> (rgb, width, height)") func; %enddef %feature("autodoc", "1"); DECODE_AUTODOC(WebPDecodeRGB); DECODE_AUTODOC(WebPDecodeRGBA); DECODE_AUTODOC(WebPDecodeARGB); DECODE_AUTODOC(WebPDecodeBGR); DECODE_AUTODOC(WebPDecodeBGRA); %feature("autodoc", "WebPGetInfo(uint8_t data) -> (width, height)") WebPGetInfo; #endif /* SWIGPYTHON */ //------------------------------------------------------------------------------ // Decoder specific %apply int* OUTPUT { int* width, int* height } // free the buffer returned by these functions after copying into // the native type %newobject WebPDecodeRGB; %newobject WebPDecodeRGBA; %newobject WebPDecodeARGB; %newobject WebPDecodeBGR; %newobject WebPDecodeBGRA; %typemap(newfree) uint8_t* "free($1);" int WebPGetDecoderVersion(void); int WebPGetInfo(const uint8_t* data, size_t data_size, int* width, int* height); uint8_t* WebPDecodeRGB(const uint8_t* data, size_t data_size, int* width, int* height); uint8_t* WebPDecodeRGBA(const uint8_t* data, size_t data_size, int* width, int* height); uint8_t* WebPDecodeARGB(const uint8_t* data, size_t data_size, int* width, int* height); uint8_t* WebPDecodeBGR(const uint8_t* data, size_t data_size, int* width, int* height); uint8_t* WebPDecodeBGRA(const uint8_t* data, size_t data_size, int* width, int* height); //------------------------------------------------------------------------------ // Encoder specific int WebPGetEncoderVersion(void); //------------------------------------------------------------------------------ // Wrapper code additions %{ #include "webp/decode.h" #include "webp/encode.h" %} #ifdef SWIGJAVA %{ #define FillMeInAsSizeCannotBeDeterminedAutomatically \ (result ? (jint)ReturnedBufferSize(__FUNCTION__, arg3, arg4) : 0) %} #endif /* SWIGJAVA */ #if defined(SWIGJAVA) || defined(SWIGPYTHON) %{ static size_t ReturnedBufferSize( const char* function, int* width, int* height) { static const struct sizemap { const char* function; int size_multiplier; } size_map[] = { #ifdef SWIGJAVA { "Java_com_google_webp_libwebpJNI_WebPDecodeRGB", 3 }, { "Java_com_google_webp_libwebpJNI_WebPDecodeRGBA", 4 }, { "Java_com_google_webp_libwebpJNI_WebPDecodeARGB", 4 }, { "Java_com_google_webp_libwebpJNI_WebPDecodeBGR", 3 }, { "Java_com_google_webp_libwebpJNI_WebPDecodeBGRA", 4 }, { "Java_com_google_webp_libwebpJNI_wrap_1WebPEncodeRGB", 1 }, { "Java_com_google_webp_libwebpJNI_wrap_1WebPEncodeBGR", 1 }, { "Java_com_google_webp_libwebpJNI_wrap_1WebPEncodeRGBA", 1 }, { "Java_com_google_webp_libwebpJNI_wrap_1WebPEncodeBGRA", 1 }, { "Java_com_google_webp_libwebpJNI_wrap_1WebPEncodeLosslessRGB", 1 }, { "Java_com_google_webp_libwebpJNI_wrap_1WebPEncodeLosslessBGR", 1 }, { "Java_com_google_webp_libwebpJNI_wrap_1WebPEncodeLosslessRGBA", 1 }, { "Java_com_google_webp_libwebpJNI_wrap_1WebPEncodeLosslessBGRA", 1 }, #endif #ifdef SWIGPYTHON { "WebPDecodeRGB", 3 }, { "WebPDecodeRGBA", 4 }, { "WebPDecodeARGB", 4 }, { "WebPDecodeBGR", 3 }, { "WebPDecodeBGRA", 4 }, { "wrap_WebPEncodeRGB", 1 }, { "wrap_WebPEncodeBGR", 1 }, { "wrap_WebPEncodeRGBA", 1 }, { "wrap_WebPEncodeBGRA", 1 }, { "wrap_WebPEncodeLosslessRGB", 1 }, { "wrap_WebPEncodeLosslessBGR", 1 }, { "wrap_WebPEncodeLosslessRGBA", 1 }, { "wrap_WebPEncodeLosslessBGRA", 1 }, #endif { NULL, 0 } }; const struct sizemap* p; size_t size = 0; for (p = size_map; p->function; ++p) { if (!strcmp(function, p->function)) { size = *width * *height * p->size_multiplier; break; } } return size; } %} #endif /* SWIGJAVA || SWIGPYTHON */ %{ typedef size_t (*WebPEncodeFunction)(const uint8_t* rgb, int width, int height, int stride, float quality_factor, uint8_t** output); typedef size_t (*WebPEncodeLosslessFunction)(const uint8_t* rgb, int width, int height, int stride, uint8_t** output); static uint8_t* EncodeLossy(const uint8_t* rgb, int width, int height, int stride, float quality_factor, WebPEncodeFunction encfn, int* output_size, int* unused) { uint8_t* output = NULL; const size_t image_size = encfn(rgb, width, height, stride, quality_factor, &output); // the values of following two will be interpreted by ReturnedBufferSize() // as 'width' and 'height' in the size calculation. *output_size = image_size; *unused = 1; return image_size ? output : NULL; } static uint8_t* EncodeLossless(const uint8_t* rgb, int width, int height, int stride, WebPEncodeLosslessFunction encfn, int* output_size, int* unused) { uint8_t* output = NULL; const size_t image_size = encfn(rgb, width, height, stride, &output); // the values of the following two will be interpreted by // ReturnedBufferSize() as 'width' and 'height' in the size calculation. *output_size = image_size; *unused = 1; return image_size ? output : NULL; } %} //------------------------------------------------------------------------------ // libwebp/encode wrapper functions %apply int* INPUT { int* unused1, int* unused2 } %apply int* OUTPUT { int* output_size } // free the buffer returned by these functions after copying into // the native type %newobject wrap_WebPEncodeRGB; %newobject wrap_WebPEncodeBGR; %newobject wrap_WebPEncodeRGBA; %newobject wrap_WebPEncodeBGRA; %newobject wrap_WebPEncodeLosslessRGB; %newobject wrap_WebPEncodeLosslessBGR; %newobject wrap_WebPEncodeLosslessRGBA; %newobject wrap_WebPEncodeLosslessBGRA; #ifdef SWIGJAVA // There's no reason to call these directly %javamethodmodifiers wrap_WebPEncodeRGB "private"; %javamethodmodifiers wrap_WebPEncodeBGR "private"; %javamethodmodifiers wrap_WebPEncodeRGBA "private"; %javamethodmodifiers wrap_WebPEncodeBGRA "private"; %javamethodmodifiers wrap_WebPEncodeLosslessRGB "private"; %javamethodmodifiers wrap_WebPEncodeLosslessBGR "private"; %javamethodmodifiers wrap_WebPEncodeLosslessRGBA "private"; %javamethodmodifiers wrap_WebPEncodeLosslessBGRA "private"; #endif /* SWIGJAVA */ #ifdef SWIGPYTHON // This autodoc will serve as a catch-all for wrap_*. %feature("autodoc", "private, do not call directly."); #endif %inline %{ // Changes the return type of WebPEncode* to more closely match Decode*. // This also makes it easier to wrap the output buffer in a native type rather // than dealing with the return pointer. // The additional parameters are to allow reuse of ReturnedBufferSize(), // unused2 and output_size will be used in this case. #define LOSSY_WRAPPER(FUNC) \ static uint8_t* wrap_##FUNC( \ const uint8_t* rgb, int* unused1, int* unused2, int* output_size, \ int width, int height, int stride, float quality_factor) { \ return EncodeLossy(rgb, width, height, stride, quality_factor, \ FUNC, output_size, unused2); \ } \ LOSSY_WRAPPER(WebPEncodeRGB) LOSSY_WRAPPER(WebPEncodeBGR) LOSSY_WRAPPER(WebPEncodeRGBA) LOSSY_WRAPPER(WebPEncodeBGRA) #undef LOSSY_WRAPPER #define LOSSLESS_WRAPPER(FUNC) \ static uint8_t* wrap_##FUNC( \ const uint8_t* rgb, int* unused1, int* unused2, int* output_size, \ int width, int height, int stride) { \ return EncodeLossless(rgb, width, height, stride, \ FUNC, output_size, unused2); \ } \ LOSSLESS_WRAPPER(WebPEncodeLosslessRGB) LOSSLESS_WRAPPER(WebPEncodeLosslessBGR) LOSSLESS_WRAPPER(WebPEncodeLosslessRGBA) LOSSLESS_WRAPPER(WebPEncodeLosslessBGRA) #undef LOSSLESS_WRAPPER %} //------------------------------------------------------------------------------ // Language specific #ifdef SWIGJAVA %{ /* Work around broken gcj jni.h */ #ifdef __GCJ_JNI_H__ # undef JNIEXPORT # define JNIEXPORT # undef JNICALL # define JNICALL #endif %} %pragma(java) modulecode=%{ private static final int UNUSED = 1; private static int outputSize[] = { 0 }; %} %define CALL_ENCODE_LOSSY_WRAPPER(func) %pragma(java) modulecode=%{ public static byte[] func( byte[] rgb, int width, int height, int stride, float quality_factor) { return wrap_##func( rgb, UNUSED, UNUSED, outputSize, width, height, stride, quality_factor); } %} %enddef %define CALL_ENCODE_LOSSLESS_WRAPPER(func) %pragma(java) modulecode=%{ public static byte[] func( byte[] rgb, int width, int height, int stride) { return wrap_##func( rgb, UNUSED, UNUSED, outputSize, width, height, stride); } %} %enddef CALL_ENCODE_LOSSY_WRAPPER(WebPEncodeRGB) CALL_ENCODE_LOSSY_WRAPPER(WebPEncodeRGBA) CALL_ENCODE_LOSSY_WRAPPER(WebPEncodeBGR) CALL_ENCODE_LOSSY_WRAPPER(WebPEncodeBGRA) CALL_ENCODE_LOSSLESS_WRAPPER(WebPEncodeLosslessRGB) CALL_ENCODE_LOSSLESS_WRAPPER(WebPEncodeLosslessRGBA) CALL_ENCODE_LOSSLESS_WRAPPER(WebPEncodeLosslessBGR) CALL_ENCODE_LOSSLESS_WRAPPER(WebPEncodeLosslessBGRA) #endif /* SWIGJAVA */ #ifdef SWIGPYTHON %pythoncode %{ _UNUSED = 1 %} %define CALL_ENCODE_LOSSY_WRAPPER(func) %pythoncode %{ def func(rgb, width, height, stride, quality_factor): """func(uint8_t rgb, int width, int height, int stride, float quality_factor) -> lossy_webp""" webp = wrap_##func( rgb, _UNUSED, _UNUSED, width, height, stride, quality_factor) if len(webp[0]) == 0: return None return webp[0] %} %enddef %define CALL_ENCODE_LOSSLESS_WRAPPER(func) %pythoncode %{ def func(rgb, width, height, stride): """func(uint8_t rgb, int width, int height, int stride) -> lossless_webp""" webp = wrap_##func(rgb, _UNUSED, _UNUSED, width, height, stride) if len(webp[0]) == 0: return None return webp[0] %} %enddef CALL_ENCODE_LOSSY_WRAPPER(WebPEncodeRGB) CALL_ENCODE_LOSSY_WRAPPER(WebPEncodeRGBA) CALL_ENCODE_LOSSY_WRAPPER(WebPEncodeBGR) CALL_ENCODE_LOSSY_WRAPPER(WebPEncodeBGRA) CALL_ENCODE_LOSSLESS_WRAPPER(WebPEncodeLosslessRGB) CALL_ENCODE_LOSSLESS_WRAPPER(WebPEncodeLosslessRGBA) CALL_ENCODE_LOSSLESS_WRAPPER(WebPEncodeLosslessBGR) CALL_ENCODE_LOSSLESS_WRAPPER(WebPEncodeLosslessBGRA) #endif /* SWIGPYTHON */