[Bf-blender-cvs] SVN commit: /data/svn/bf-blender [30750] branches/soc-2010-nexyon/intern/ audaspace/Python: Audaspace Py API:
Joerg Mueller
nexyon at gmail.com
Mon Jul 26 11:29:38 CEST 2010
Revision: 30750
http://projects.blender.org/plugins/scmsvn/viewcvs.php?view=rev&root=bf-blender&revision=30750
Author: nexyon
Date: 2010-07-26 11:29:36 +0200 (Mon, 26 Jul 2010)
Log Message:
-----------
Audaspace Py API:
* Renaming superpose and double to mix and join
* Making most of the static methods of Sound normal ones
* Minor documentation fixes
Modified Paths:
--------------
branches/soc-2010-nexyon/intern/audaspace/Python/AUD_PyAPI.cpp
branches/soc-2010-nexyon/intern/audaspace/Python/doc/examples/tetris.py
branches/soc-2010-nexyon/intern/audaspace/Python/doc/templates/Module.rst
Modified: branches/soc-2010-nexyon/intern/audaspace/Python/AUD_PyAPI.cpp
===================================================================
--- branches/soc-2010-nexyon/intern/audaspace/Python/AUD_PyAPI.cpp 2010-07-26 09:23:34 UTC (rev 30749)
+++ branches/soc-2010-nexyon/intern/audaspace/Python/AUD_PyAPI.cpp 2010-07-26 09:29:36 UTC (rev 30750)
@@ -140,64 +140,54 @@
Sound_file(PyObject* nothing, PyObject* args);
PyDoc_STRVAR(M_aud_Sound_lowpass_doc,
- "lowpass(sound, frequency)\n\n"
+ "lowpass(frequency)\n\n"
"Creates a low quality lowpass filter.\n\n"
- ":arg sound: The sound to filter.\n"
- ":type sound: aud.Sound\n"
":arg frequency: The cut off trequency of the lowpass.\n"
":type frequency: float\n"
":return: The created aud.Sound object.\n"
":rtype: aud.Sound");
static PyObject *
-Sound_lowpass(PyObject* nothing, PyObject* args);
+Sound_lowpass(Sound* self, PyObject* args);
PyDoc_STRVAR(M_aud_Sound_delay_doc,
- "delay(sound, time)\n\n"
+ "delay(time)\n\n"
"Delays a sound by playing silence before the sound starts.\n\n"
- ":arg sound: The sound to filter.\n"
- ":type sound: aud.Sound\n"
":arg time: How many seconds of silence should be added before the sound.\n"
":type time: float\n"
":return: The created aud.Sound object.\n"
":rtype: aud.Sound");
static PyObject *
-Sound_delay(PyObject* nothing, PyObject* args);
+Sound_delay(Sound* self, PyObject* args);
-PyDoc_STRVAR(M_aud_Sound_double_doc,
- "double(first, second)\n\n"
+PyDoc_STRVAR(M_aud_Sound_join_doc,
+ "join(sound)\n\n"
"Plays two sounds in sequence.\n\n"
- ":arg first: The sound to play first.\n"
- ":type first: aud.Sound\n"
- ":arg second: The sound to play second.\n"
- ":type second: aud.Sound\n"
+ ":arg sound: The sound to play second.\n"
+ ":type sound: aud.Sound\n"
":return: The created aud.Sound object.\n"
":rtype: aud.Sound\n\n"
".. note:: The two sounds have to have the same specifications "
"(channels and samplerate).");
static PyObject *
-Sound_double(PyObject* nothing, PyObject* args);
+Sound_join(Sound* self, PyObject* object);
PyDoc_STRVAR(M_aud_Sound_highpass_doc,
- "highpass(sound, frequency)\n\n"
+ "highpass(frequency)\n\n"
"Creates a low quality highpass filter.\n\n"
- ":arg sound: The sound to filter.\n"
- ":type sound: aud.Sound\n"
":arg frequency: The cut off trequency of the highpass.\n"
":type frequency: float\n"
":return: The created aud.Sound object.\n"
":rtype: aud.Sound");
static PyObject *
-Sound_highpass(PyObject* nothing, PyObject* args);
+Sound_highpass(Sound* self, PyObject* args);
-PyDoc_STRVAR(M_aud_Sound_limiter_doc,
- "limit(sound, start, end)\n\n"
+PyDoc_STRVAR(M_aud_Sound_limit_doc,
+ "limit(start, end)\n\n"
"Limits a sound within a specific start and end time.\n\n"
- ":arg sound: The sound to filter.\n"
- ":type sound: aud.Sound\n"
":arg start: Start time in seconds.\n"
":type start: float\n"
":arg end: End time in seconds.\n"
@@ -206,13 +196,11 @@
":rtype: aud.Sound");
static PyObject *
-Sound_limiter(PyObject* nothing, PyObject* args);
+Sound_limit(Sound* self, PyObject* args);
PyDoc_STRVAR(M_aud_Sound_pitch_doc,
- "pitch(sound, factor)\n\n"
+ "pitch(factor)\n\n"
"Changes the pitch of a sound with a specific factor.\n\n"
- ":arg sound: The sound to filter.\n"
- ":type sound: aud.Sound\n"
":arg factor: The factor to change the pitch with.\n"
":type factor: float\n"
":return: The created aud.Sound object.\n"
@@ -222,57 +210,53 @@
"value rounded and the factor may not be 100 % accurate.");
static PyObject *
-Sound_pitch(PyObject* nothing, PyObject* args);
+Sound_pitch(Sound* self, PyObject* args);
PyDoc_STRVAR(M_aud_Sound_volume_doc,
- "volume(sound, volume)\n\n"
+ "volume(volume)\n\n"
"Changes the volume of a sound.\n\n"
- ":arg sound: The sound to filter.\n"
- ":type sound: aud.Sound\n"
":arg volume: The new volume..\n"
":type volume: float\n"
":return: The created aud.Sound object.\n"
":rtype: aud.Sound\n\n"
- ".. note:: Should be in the range [0, 1] to avoid clipping.");
+ ".. note:: Should be in the range [0, 1] to avoid clipping.\n\n"
+ ".. note:: This is a filter function, you might consider using "
+ "aud.Handle.pitch instead.");
static PyObject *
-Sound_volume(PyObject* nothing, PyObject* args);
+Sound_volume(Sound* self, PyObject* args);
PyDoc_STRVAR(M_aud_Sound_fadein_doc,
- "fadein(sound, start, length)\n\n"
+ "fadein(start, length)\n\n"
"Fades a sound in.\n\n"
- ":arg sound: The sound to filter.\n"
- ":type sound: aud.Sound\n"
":arg start: Time in seconds when the fading should start.\n"
- ":type filename: float\n"
+ ":type start: float\n"
":arg length: Time in seconds how long the fading should last.\n"
- ":type filename: float\n"
+ ":type length: float\n"
":return: The created aud.Sound object.\n"
- ":rtype: aud.Sound");
+ ":rtype: aud.Sound\n\n"
+ ".. note:: This is a filter function, you might consider using "
+ "aud.Handle.volume instead.");
static PyObject *
-Sound_fadein(PyObject* nothing, PyObject* args);
+Sound_fadein(Sound* self, PyObject* args);
PyDoc_STRVAR(M_aud_Sound_fadeout_doc,
- "fadeout(sound, start, length)\n\n"
+ "fadeout(start, length)\n\n"
"Fades a sound out.\n\n"
- ":arg sound: The sound to filter.\n"
- ":type sound: aud.Sound\n"
":arg start: Time in seconds when the fading should start.\n"
- ":type filename: float\n"
+ ":type start: float\n"
":arg length: Time in seconds how long the fading should last.\n"
- ":type filename: float\n"
+ ":type length: float\n"
":return: The created aud.Sound object.\n"
":rtype: aud.Sound");
static PyObject *
-Sound_fadeout(PyObject* nothing, PyObject* args);
+Sound_fadeout(Sound* self, PyObject* args);
PyDoc_STRVAR(M_aud_Sound_loop_doc,
- "loop(sound, count)\n\n"
+ "loop(count)\n\n"
"Loops a sound.\n\n"
- ":arg sound: The sound to filter.\n"
- ":type sound: aud.Sound\n"
":arg count: How often the sound should be looped. "
"Negative values mean endlessly.\n"
":type count: integer\n"
@@ -280,69 +264,61 @@
":rtype: aud.Sound");
static PyObject *
-Sound_loop(PyObject* nothing, PyObject* args);
+Sound_loop(Sound* self, PyObject* args);
-PyDoc_STRVAR(M_aud_Sound_superpose_doc,
- "superpose(sound1, sound2)\n\n"
+PyDoc_STRVAR(M_aud_Sound_mix_doc,
+ "mix(sound)\n\n"
"Mixes two sounds.\n\n"
- ":arg sound1: The sound to filter.\n"
- ":type sound1: aud.Sound\n"
- ":arg sound2: The sound to filter.\n"
- ":type sound2: aud.Sound\n"
+ ":arg sound: The sound to mix over the other.\n"
+ ":type sound: aud.Sound\n"
":return: The created aud.Sound object.\n"
- ":rtype: aud.Sound");
+ ":rtype: aud.Sound\n\n"
+ ".. note:: The two sounds have to have the same specifications "
+ "(channels and samplerate).");
static PyObject *
-Sound_superpose(PyObject* nothing, PyObject* args);
+Sound_mix(Sound* self, PyObject* object);
PyDoc_STRVAR(M_aud_Sound_pingpong_doc,
- "pingpong(sound)\n\n"
+ "pingpong()\n\n"
"Plays a sound forward and then backward.\n\n"
- ":arg sound: The sound to filter.\n"
- ":type sound: aud.Sound\n"
":return: The created aud.Sound object.\n"
":rtype: aud.Sound\n\n"
".. note:: The sound has to be buffered to be played reverse.");
static PyObject *
-Sound_pingpong(PyObject* nothing, PyObject* args);
+Sound_pingpong(Sound* self);
PyDoc_STRVAR(M_aud_Sound_reverse_doc,
- "reverse(sound)\n\n"
+ "reverse()\n\n"
"Plays a sound reversed.\n\n"
- ":arg sound: The sound to filter.\n"
- ":type sound: aud.Sound\n"
":return: The created aud.Sound object.\n"
":rtype: aud.Sound\n\n"
".. note:: The sound has to be buffered to be played reverse.");
static PyObject *
-Sound_reverse(PyObject* nothing, PyObject* args);
+Sound_reverse(Sound* self);
PyDoc_STRVAR(M_aud_Sound_buffer_doc,
- "buffer(sound)\n\n"
+ "buffer()\n\n"
"Buffers a sound into RAM.\n\n"
- ":arg sound: The sound to buffer.\n"
- ":type sound: aud.Sound\n"
":return: The created aud.Sound object.\n"
":rtype: aud.Sound\n\n"
".. note:: Raw PCM data needs a lot of space, only buffer short sounds.");
static PyObject *
-Sound_buffer(PyObject* nothing, PyObject* args);
+Sound_buffer(Sound* self);
PyDoc_STRVAR(M_aud_Sound_square_doc,
- "squre(sound, threshold)\n\n"
+ "squre(threshold)\n\n"
"Makes a square wave out of an audio wave.\n\n"
- ":arg sound: The sound to filter.\n"
- ":type sound: aud.Sound\n"
":arg threshold: Threshold value over which an amplitude counts non-zero.\n"
":type threshold: float\n"
":return: The created aud.Sound object.\n"
":rtype: aud.Sound");
static PyObject *
-Sound_square(PyObject* nothing, PyObject* args);
+Sound_square(Sound* self, PyObject* args);
static PyMethodDef Sound_methods[] = {
{"sine", (PyCFunction)Sound_sine, METH_VARARGS | METH_STATIC,
@@ -351,49 +327,49 @@
{"file", (PyCFunction)Sound_file, METH_VARARGS | METH_STATIC,
M_aud_Sound_file_doc
},
- {"lowpass", (PyCFunction)Sound_lowpass, METH_VARARGS | METH_STATIC,
+ {"lowpass", (PyCFunction)Sound_lowpass, METH_VARARGS,
M_aud_Sound_lowpass_doc
},
- {"delay", (PyCFunction)Sound_delay, METH_VARARGS | METH_STATIC,
+ {"delay", (PyCFunction)Sound_delay, METH_VARARGS,
M_aud_Sound_delay_doc
},
- {"double", (PyCFunction)Sound_double, METH_VARARGS | METH_STATIC,
- M_aud_Sound_double_doc
+ {"join", (PyCFunction)Sound_join, METH_O,
+ M_aud_Sound_join_doc
},
- {"highpass", (PyCFunction)Sound_highpass, METH_VARARGS | METH_STATIC,
+ {"highpass", (PyCFunction)Sound_highpass, METH_VARARGS,
M_aud_Sound_highpass_doc
},
- {"limiter", (PyCFunction)Sound_limiter, METH_VARARGS | METH_STATIC,
- M_aud_Sound_limiter_doc
+ {"limit", (PyCFunction)Sound_limit, METH_VARARGS,
+ M_aud_Sound_limit_doc
},
- {"pitch", (PyCFunction)Sound_pitch, METH_VARARGS | METH_STATIC,
+ {"pitch", (PyCFunction)Sound_pitch, METH_VARARGS,
M_aud_Sound_pitch_doc
},
- {"volume", (PyCFunction)Sound_volume, METH_VARARGS | METH_STATIC,
+ {"volume", (PyCFunction)Sound_volume, METH_VARARGS,
M_aud_Sound_volume_doc
},
- {"fadein", (PyCFunction)Sound_fadein, METH_VARARGS | METH_STATIC,
@@ Diff output truncated at 10240 characters. @@
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