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39 Commits
v0.1.2 ... v0.1.8

Author SHA1 Message Date
Matt Jenkins
babd3d2052 Release 0.1.8 2019-07-22 23:24:16 +01:00
Matt Jenkins
9464839b4d Turn on JTattoo 2019-07-22 23:24:07 +01:00
Matt Jenkins
bcf7875414 Scrap Sample object and use double[][] instead. Disable processed audio caching - it causes heap overflows 2019-07-22 23:23:03 +01:00
Matt Jenkins
732894a0fb Add Chain effect to connect effects together 2019-07-22 10:43:53 +01:00
Matt Jenkins
146bf5a3c2 Release 0.1.7 2019-07-21 20:03:05 +01:00
Matt Jenkins
b05bfde094 Add pan effect 2019-07-21 20:02:16 +01:00
Matt Jenkins
37d372b8f5 Fix caching of processed audio. Add effect icon and name to tree 2019-07-21 20:02:07 +01:00
Matt Jenkins
c01fee3b73 Switch to Sample object instead of double, and refactor effects for whole sampleset processing 2019-07-21 17:21:50 +01:00
Matt Jenkins
c907e735c6 Prevent stacking of default effect chain 2019-07-21 15:36:33 +01:00
Matt Jenkins
7545e33d2f Make effects two-layerd 2019-07-20 23:03:05 +01:00
Matt Jenkins
ebf961449a Reinstate sphinx to replace defunct Haven 2019-07-18 15:07:04 +01:00
Matt Jenkins
45d6882527 Remove defunct Haven processing 2019-07-18 14:31:59 +01:00
Matt Jenkins
2ec370ad61 Add Shift+Space for Play From 2019-07-18 11:51:07 +01:00
Matt Jenkins
63d5c4af8e Released 0.1.6 2019-07-17 23:14:29 +01:00
Matt Jenkins
9619fd574e Apply default effect to room noise 2019-07-17 23:13:39 +01:00
Matt Jenkins
adeb42070d Added more example filters 2019-07-15 00:50:58 +01:00
Matt Jenkins
d207d246bf Added clipping filter 2019-07-14 22:15:10 +01:00
Matt Jenkins
4dd3a3b874 Released 0.1.5 2019-04-03 13:12:02 +01:00
Matt Jenkins
52b04a754c Added section break and stopped effects chain dropdown from intercepting keypresses 2019-04-03 13:11:19 +01:00
Matt Jenkins
c0efd152e8 Reinstated sample scroll bar 2019-01-21 15:06:30 +00:00
Matt Jenkins
9bda80d40d Update to readme 2019-01-20 13:17:14 +00:00
Matt Jenkins
0e12995063 Added AGC filter 2019-01-20 13:09:52 +00:00
Matt Jenkins
424ebafab5 Detailed LFO in example folder 2019-01-19 16:52:53 +00:00
Matt Jenkins
73d4feb679 Added LFO ring modulator 2019-01-19 16:23:33 +00:00
Matt Jenkins
887b2a9205 Added FFT trim threshold setting and example filters 2019-01-17 00:00:49 +00:00
Matt Jenkins
927eb3e1ff Implemented new effect chain system instead of EQ 2019-01-15 22:43:02 +00:00
Matt Jenkins
fd19f5befe Added Biquad processing class 2019-01-13 23:59:28 +00:00
Matt Jenkins
382775d6ab Reset post sentence gap on record 2019-01-11 22:32:54 +00:00
Matt Jenkins
c41ee27069 Restricted external processors to unlocked sentences 2019-01-07 16:51:51 +00:00
Matt Jenkins
e5b395ffa5 Added external processors 2019-01-07 15:45:52 +00:00
Matt Jenkins
b55f76c855 Add edit in external editor 2019-01-07 13:17:36 +00:00
Matt Jenkins
28a8bd3c51 Checkpoint release 2018-11-14 15:58:25 +00:00
Matt Jenkins
9adcd89cd5 Added groundwork for multiple EQ profiles 2018-11-14 12:00:19 +00:00
Matt Jenkins
14e6709c29 Added gain control and normalization, along with peak display 2018-11-13 13:26:54 +00:00
Matt Jenkins
024626019d Added overlay icons 2018-11-03 11:58:04 +00:00
Matt Jenkins
c0d86d5753 Merge branch 'master' of github.com:MajenkoProjects/AudiobookRecorder 2018-10-29 15:34:19 +00:00
Matt Jenkins
175281537c Added ethereal voice effect 2018-10-29 15:33:25 +00:00
Matt Jenkins
abb26288c6 Added book name to start of exported chapters 2018-10-22 14:08:16 +01:00
Matt Jenkins
f5c0d5bbfc Dumped Sphinx and instead using Haven OnDemand speech API 2018-10-21 13:52:20 +01:00
73 changed files with 5882 additions and 2422 deletions
Expand all files Collapse all files

77
ExampleFilters/README.md Normal file
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Filters are simply XML files with the extension ".eff"
Place them in a folder called `System` within your recordings folder.
The format is:
<effect name="Filter Name">
<filter....>
[optional sub-components or filters]
</filter>
[<filter...>]
</effect>
Currently implemented filters:
<amplifier gain="1.0" />
Amplify (or attenuate) the sample by the given factor (1 = unity gain, 0 = silence, 2 = double, etc)
<lfo frequency="10" depth="0.2" />
Modulate the audio with a low-frequency oscillator. Specify the frequency and a factor of how much to modulate the audio signal. You can also specify an optional `phase="..."` (specified in radians) as an initial phase offset for the modulation.
<biquad type="..." fc="..." q="..." gain="..." />
A Biquad filter of the given type with a center frequency `fc` in Hz, a Q `q` and gain in Decibals of `gain`.
Valid types are:
* lowpass
* highpass
* bandpass
* notch
* peak
* lowshelf
* highshelf
<delay>
<delayline samples="..." gain="...">
[optional effects to apply to the delay line]
</delayline>
</delay>
A multi-tap delay line where each tap can have its own additional filters applied. The delay is given in samples and the gain as
a factor where 1.0 is unity gain.
<group name="Name">
effects in the group
</group>
Allows you to group effects together within a chain. Not of any real use yet (except that the outer wrapper of an effect chain is
actually an effect group) but may be used in the future.
An example: the "Ethereal Voice" - echoes starting off quiet and getting louder with a variable high-pass filter on the pre-echoes. Also
includes a notch filter at 140Hz to cut out a specific annoying hum generated by my computer fans.
<effect name="Ethereal Voice">
<biquad type="notch" fc="140" q="20" gain="-50" />
<amplifier gain="0.1" />
<delayline>
<delay samples="4000" gain="1.0">
<biquad type="highpass" fc="400" q="1" gain="0" />
</delay>
<delay samples="8000" gain="1.5">
<biquad type="highpass" fc="300" q="1" gain="0" />
</delay>
<delay samples="12000" gain="2.0">
<biquad type="highpass" fc="200" q="1" gain="0" />
</delay>
<delay samples="16000" gain="3.0">
<biquad type="highpass" fc="100" q="1" gain="0" />
</delay>
<delay samples="20000" gain="15.0" />
</delayline>
<biquad type="lowshelf" fc="1000" q="2.2" gain="-10" />
<amplifier gain="1.5" />
</effect>

7
ExampleFilters/alien.eff Normal file
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<effect name="Alien">
<biquad type="notch" fc="28" q="20" gain="-50" />
<biquad type="notch" fc="91" q="20" gain="-50" />
<biquad type="notch" fc="120" q="20" gain="-50" />
<biquad type="lowpass" fc="10000" q="1" gain="-10" />
<lfo frequency="100" depth="0.5" />
</effect>

13
ExampleFilters/bigecho.eff Normal file
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<effect name="Big Echo">
<biquad type="notch" fc="28" q="20" gain="-50" />
<biquad type="notch" fc="91" q="20" gain="-50" />
<biquad type="notch" fc="120" q="20" gain="-50" />
<delayline>
<delay samples="22000" gain="0.2" pan="-0.3">
<biquad type="highpass" fc="300" q="1" gain="0" />
</delay>
<delay samples="44000" gain="0.05" pan="0.3">
<biquad type="highpass" fc="600" q="1" gain="0" />
</delay>
</delayline>
</effect>

6
ExampleFilters/cuthum.eff Normal file
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<effect name="Cut Computer Hum">
<biquad type="notch" fc="28" q="20" gain="-50" />
<biquad type="notch" fc="91" q="20" gain="-50" />
<biquad type="notch" fc="120" q="20" gain="-50" />
<biquad type="lowpass" fc="10000" q="1" gain="-10" />
</effect>

7
ExampleFilters/cuthumagc.eff Normal file
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<effect name="Cut Computer Hum (with AGC)">
<biquad type="notch" fc="28" q="20" gain="-50" />
<biquad type="notch" fc="91" q="20" gain="-50" />
<biquad type="notch" fc="120" q="20" gain="-50" />
<biquad type="lowpass" fc="10000" q="1" gain="-10" />
<agc ceiling="0.666" limit="1" attack="0.1" decay="0.01" />
</effect>

23
ExampleFilters/ethereal.eff Normal file
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<effect name="Ethereal Voice">
<biquad type="notch" fc="28" q="20" gain="-50" />
<biquad type="notch" fc="91" q="20" gain="-50" />
<biquad type="notch" fc="120" q="20" gain="-50" />
<amplifier gain="0.1" />
<delayline>
<delay samples="2000" gain="1.0" pan="-0.3">
<biquad type="highpass" fc="400" q="1" gain="0" />
</delay>
<delay samples="4000" gain="1.1" pan="0.3">
<biquad type="highpass" fc="800" q="1" gain="0" />
</delay>
<delay samples="8000" gain="1.2" pan="-0.5">
<biquad type="highpass" fc="1000" q="1" gain="0" />
</delay>
<delay samples="10000" gain="1.3" pan="0.5">
<biquad type="highpass" fc="1500" q="1" gain="0" />
</delay>
<delay samples="12000" gain="15.0" pan="0" />
</delayline>
<biquad type="lowshelf" fc="2000" q="2.2" gain="-10" />
<amplifier gain="1.5" />
</effect>

2
ExampleFilters/flat.eff Normal file
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<effect name="Flat">
</effect>

18
ExampleFilters/largeroom.eff Normal file
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<effect name="Large Room (quiet)">
<biquad type="notch" fc="28" q="20" gain="-50" />
<biquad type="notch" fc="91" q="20" gain="-50" />
<biquad type="notch" fc="120" q="20" gain="-50" />
<biquad type="lowpass" fc="10000" q="1" gain="-10" />
<delayline>
<delay samples="5500" gain="0.2" pan="-0.3">
<biquad type="highpass" fc="300" q="1" gain="0" />
</delay>
<delay samples="11000" gain="0.05" pan="0.3">
<biquad type="highpass" fc="600" q="1" gain="0" />
</delay>
<delay samples="16500" gain="0.01" pan="0.0">
<biquad type="highpass" fc="600" q="1" gain="0" />
</delay>
</delayline>
<amplifier gain="0.3" />
</effect>

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ExampleFilters/largeroomloud.eff Normal file
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<effect name="Large Room (loud)">
<biquad type="notch" fc="28" q="20" gain="-50" />
<biquad type="notch" fc="91" q="20" gain="-50" />
<biquad type="notch" fc="120" q="20" gain="-50" />
<biquad type="lowpass" fc="10000" q="1" gain="-10" />
<delayline>
<delay samples="5500" gain="0.2" pan="-0.3">
<biquad type="highpass" fc="300" q="1" gain="0" />
</delay>
<delay samples="11000" gain="0.05" pan="0.3">
<biquad type="highpass" fc="600" q="1" gain="0" />
</delay>
<delay samples="16500" gain="0.01" pan="0.0">
<biquad type="highpass" fc="600" q="1" gain="0" />
</delay>
</delayline>
<amplifier gain="0.9" />
</effect>

11
ExampleFilters/phone.eff Normal file
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<effect name="Telephone">
<biquad type="notch" fc="28" q="20" gain="-50" />
<biquad type="notch" fc="91" q="20" gain="-50" />
<biquad type="notch" fc="120" q="20" gain="-50" />
<biquad type="lowshelf" fc="400" q="10" gain="-20" />
<biquad type="highshelf" fc="8000" q="10" gain="-20" />
<delayline>
<delay samples="100" gain="0.5" />
</delayline>
<amplifier gain="1.4" />
</effect>

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<effect name="Radio">
<biquad type="notch" fc="28" q="20" gain="-50" />
<biquad type="notch" fc="91" q="20" gain="-50" />
<biquad type="notch" fc="120" q="20" gain="-50" />
<amplifier gain="0.1" />
<biquad type="peak" fc="1000" q="10" gain="45" />
<lfo frequency="5000" depth="0.3" />
<clipping clip="0.3" />
<biquad type="highshelf" fc="8000" q="1" gain="-20" />
<delayline>
<delay samples="100" gain="0.7" />
<delay samples="200" gain="0.5" />
</delayline>
</effect>

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<effect name="Robotic">
<biquad type="notch" fc="28" q="20" gain="-50" />
<biquad type="notch" fc="91" q="20" gain="-50" />
<biquad type="notch" fc="120" q="20" gain="-50" />
<biquad type="lowshelf" fc="100" q="2" gain="-20" />
<delayline>
<delay samples="400" gain="1" pan="-0.3" />
<delay samples="800" gain="1" pan="-0.3" />
<delay samples="1200" gain="1" pan="-0.3" />
<delay samples="1600" gain="1" pan="-0.3" />
<delay samples="2000" gain="1" pan="-0.3" />
</delayline>
</effect>

9
README.md
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@@ -8,6 +8,7 @@ A system for easing the task of recording and editing audiobooks.
* Zero editing * Zero editing
* MP3 export * MP3 export
* Chapter management * Chapter management
* Audio effect chains (biquad, delay line, etc)
Usage Usage
----- -----
@@ -52,17 +53,13 @@ edit the text of this ID to identify the recordings. You
may, for instance, change it to have the same text as the may, for instance, change it to have the same text as the
audio contains. audio contains.
To help with this CMU Sphinx (US EN dictionary) is bundled To help with this the Haven On-Demand online speech recognition
with the system and can be used to try and convert the service is integrated with the system and can be used to try and convert the
audio into text. Right clicking on a recording brings audio into text. Right clicking on a recording brings
up a menu which includes the option to try and convert up a menu which includes the option to try and convert
the audio into text. The detected text is then used to the audio into text. The detected text is then used to
replace the current recording ID / text. replace the current recording ID / text.
It's far from perfect (especially for a British English
speaker), but it can help you to navigate your way around
a chapter.
File layout File layout
----------- -----------

2
build.xml
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@@ -25,7 +25,7 @@
debug="true" debug="true"
debuglevel="lines,vars,source" debuglevel="lines,vars,source"
encoding="UTF-8" encoding="UTF-8"
bootclasspath="${bootclass.path}" bootclasspath="/usr/lib/jvm/java-8-openjdk-amd64/jre/lib/rt.jar"
includeAntRuntime="false" includeAntRuntime="false"
deprecation="true" deprecation="true"
srcdir="src" srcdir="src"

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licenses/apache-commons/LICENSE.txt Normal file
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Version 2.0, January 2004
http://www.apache.org/licenses/
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for use, reproduction, or distribution of Your modifications, or
for any such Derivative Works as a whole, provided Your use,
reproduction, and distribution of the Work otherwise complies with
the conditions stated in this License.
5. Submission of Contributions. Unless You explicitly state otherwise,
any Contribution intentionally submitted for inclusion in the Work
by You to the Licensor shall be under the terms and conditions of
this License, without any additional terms or conditions.
Notwithstanding the above, nothing herein shall supersede or modify
the terms of any separate license agreement you may have executed
with Licensor regarding such Contributions.
6. Trademarks. This License does not grant permission to use the trade
names, trademarks, service marks, or product names of the Licensor,
except as required for reasonable and customary use in describing the
origin of the Work and reproducing the content of the NOTICE file.
7. Disclaimer of Warranty. Unless required by applicable law or
agreed to in writing, Licensor provides the Work (and each
Contributor provides its Contributions) on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
implied, including, without limitation, any warranties or conditions
of TITLE, NON-INFRINGEMENT, MERCHANTABILITY, or FITNESS FOR A
PARTICULAR PURPOSE. You are solely responsible for determining the
appropriateness of using or redistributing the Work and assume any
risks associated with Your exercise of permissions under this License.
8. Limitation of Liability. In no event and under no legal theory,
whether in tort (including negligence), contract, or otherwise,
unless required by applicable law (such as deliberate and grossly
negligent acts) or agreed to in writing, shall any Contributor be
liable to You for damages, including any direct, indirect, special,
incidental, or consequential damages of any character arising as a
result of this License or out of the use or inability to use the
Work (including but not limited to damages for loss of goodwill,
work stoppage, computer failure or malfunction, or any and all
other commercial damages or losses), even if such Contributor
has been advised of the possibility of such damages.
9. Accepting Warranty or Additional Liability. While redistributing
the Work or Derivative Works thereof, You may choose to offer,
and charge a fee for, acceptance of support, warranty, indemnity,
or other liability obligations and/or rights consistent with this
License. However, in accepting such obligations, You may act only
on Your own behalf and on Your sole responsibility, not on behalf
of any other Contributor, and only if You agree to indemnify,
defend, and hold each Contributor harmless for any liability
incurred by, or claims asserted against, such Contributor by reason
of your accepting any such warranty or additional liability.
END OF TERMS AND CONDITIONS
=========================================================================
This project includes Public Suffix List copied from
<https://publicsuffix.org/list/effective_tld_names.dat>
licensed under the terms of the Mozilla Public License, v. 2.0
Full license text: <http://mozilla.org/MPL/2.0/>
Mozilla Public License Version 2.0
==================================
1. Definitions
--------------
1.1. "Contributor"
means each individual or legal entity that creates, contributes to
the creation of, or owns Covered Software.
1.2. "Contributor Version"
means the combination of the Contributions of others (if any) used
by a Contributor and that particular Contributor's Contribution.
1.3. "Contribution"
means Covered Software of a particular Contributor.
1.4. "Covered Software"
means Source Code Form to which the initial Contributor has attached
the notice in Exhibit A, the Executable Form of such Source Code
Form, and Modifications of such Source Code Form, in each case
including portions thereof.
1.5. "Incompatible With Secondary Licenses"
means
(a) that the initial Contributor has attached the notice described
in Exhibit B to the Covered Software; or
(b) that the Covered Software was made available under the terms of
version 1.1 or earlier of the License, but not also under the
terms of a Secondary License.
1.6. "Executable Form"
means any form of the work other than Source Code Form.
1.7. "Larger Work"
means a work that combines Covered Software with other material, in
a separate file or files, that is not Covered Software.
1.8. "License"
means this document.
1.9. "Licensable"
means having the right to grant, to the maximum extent possible,
whether at the time of the initial grant or subsequently, any and
all of the rights conveyed by this License.
1.10. "Modifications"
means any of the following:
(a) any file in Source Code Form that results from an addition to,
deletion from, or modification of the contents of Covered
Software; or
(b) any new file in Source Code Form that contains any Covered
Software.
1.11. "Patent Claims" of a Contributor
means any patent claim(s), including without limitation, method,
process, and apparatus claims, in any patent Licensable by such
Contributor that would be infringed, but for the grant of the
License, by the making, using, selling, offering for sale, having
made, import, or transfer of either its Contributions or its
Contributor Version.
1.12. "Secondary License"
means either the GNU General Public License, Version 2.0, the GNU
Lesser General Public License, Version 2.1, the GNU Affero General
Public License, Version 3.0, or any later versions of those
licenses.
1.13. "Source Code Form"
means the form of the work preferred for making modifications.
1.14. "You" (or "Your")
means an individual or a legal entity exercising rights under this
License. For legal entities, "You" includes any entity that
controls, is controlled by, or is under common control with You. For
purposes of this definition, "control" means (a) the power, direct
or indirect, to cause the direction or management of such entity,
whether by contract or otherwise, or (b) ownership of more than
fifty percent (50%) of the outstanding shares or beneficial
ownership of such entity.
2. License Grants and Conditions
--------------------------------
2.1. Grants
Each Contributor hereby grants You a world-wide, royalty-free,
non-exclusive license:
(a) under intellectual property rights (other than patent or trademark)
Licensable by such Contributor to use, reproduce, make available,
modify, display, perform, distribute, and otherwise exploit its
Contributions, either on an unmodified basis, with Modifications, or
as part of a Larger Work; and
(b) under Patent Claims of such Contributor to make, use, sell, offer
for sale, have made, import, and otherwise transfer either its
Contributions or its Contributor Version.
2.2. Effective Date
The licenses granted in Section 2.1 with respect to any Contribution
become effective for each Contribution on the date the Contributor first
distributes such Contribution.
2.3. Limitations on Grant Scope
The licenses granted in this Section 2 are the only rights granted under
this License. No additional rights or licenses will be implied from the
distribution or licensing of Covered Software under this License.
Notwithstanding Section 2.1(b) above, no patent license is granted by a
Contributor:
(a) for any code that a Contributor has removed from Covered Software;
or
(b) for infringements caused by: (i) Your and any other third party's
modifications of Covered Software, or (ii) the combination of its
Contributions with other software (except as part of its Contributor
Version); or
(c) under Patent Claims infringed by Covered Software in the absence of
its Contributions.
This License does not grant any rights in the trademarks, service marks,
or logos of any Contributor (except as may be necessary to comply with
the notice requirements in Section 3.4).
2.4. Subsequent Licenses
No Contributor makes additional grants as a result of Your choice to
distribute the Covered Software under a subsequent version of this
License (see Section 10.2) or under the terms of a Secondary License (if
permitted under the terms of Section 3.3).
2.5. Representation
Each Contributor represents that the Contributor believes its
Contributions are its original creation(s) or it has sufficient rights
to grant the rights to its Contributions conveyed by this License.
2.6. Fair Use
This License is not intended to limit any rights You have under
applicable copyright doctrines of fair use, fair dealing, or other
equivalents.
2.7. Conditions
Sections 3.1, 3.2, 3.3, and 3.4 are conditions of the licenses granted
in Section 2.1.
3. Responsibilities
-------------------
3.1. Distribution of Source Form
All distribution of Covered Software in Source Code Form, including any
Modifications that You create or to which You contribute, must be under
the terms of this License. You must inform recipients that the Source
Code Form of the Covered Software is governed by the terms of this
License, and how they can obtain a copy of this License. You may not
attempt to alter or restrict the recipients' rights in the Source Code
Form.
3.2. Distribution of Executable Form
If You distribute Covered Software in Executable Form then:
(a) such Covered Software must also be made available in Source Code
Form, as described in Section 3.1, and You must inform recipients of
the Executable Form how they can obtain a copy of such Source Code
Form by reasonable means in a timely manner, at a charge no more
than the cost of distribution to the recipient; and
(b) You may distribute such Executable Form under the terms of this
License, or sublicense it under different terms, provided that the
license for the Executable Form does not attempt to limit or alter
the recipients' rights in the Source Code Form under this License.
3.3. Distribution of a Larger Work
You may create and distribute a Larger Work under terms of Your choice,
provided that You also comply with the requirements of this License for
the Covered Software. If the Larger Work is a combination of Covered
Software with a work governed by one or more Secondary Licenses, and the
Covered Software is not Incompatible With Secondary Licenses, this
License permits You to additionally distribute such Covered Software
under the terms of such Secondary License(s), so that the recipient of
the Larger Work may, at their option, further distribute the Covered
Software under the terms of either this License or such Secondary
License(s).
3.4. Notices
You may not remove or alter the substance of any license notices
(including copyright notices, patent notices, disclaimers of warranty,
or limitations of liability) contained within the Source Code Form of
the Covered Software, except that You may alter any license notices to
the extent required to remedy known factual inaccuracies.
3.5. Application of Additional Terms
You may choose to offer, and to charge a fee for, warranty, support,
indemnity or liability obligations to one or more recipients of Covered
Software. However, You may do so only on Your own behalf, and not on
behalf of any Contributor. You must make it absolutely clear that any
such warranty, support, indemnity, or liability obligation is offered by
You alone, and You hereby agree to indemnify every Contributor for any
liability incurred by such Contributor as a result of warranty, support,
indemnity or liability terms You offer. You may include additional
disclaimers of warranty and limitations of liability specific to any
jurisdiction.
4. Inability to Comply Due to Statute or Regulation
---------------------------------------------------
If it is impossible for You to comply with any of the terms of this
License with respect to some or all of the Covered Software due to
statute, judicial order, or regulation then You must: (a) comply with
the terms of this License to the maximum extent possible; and (b)
describe the limitations and the code they affect. Such description must
be placed in a text file included with all distributions of the Covered
Software under this License. Except to the extent prohibited by statute
or regulation, such description must be sufficiently detailed for a
recipient of ordinary skill to be able to understand it.
5. Termination
--------------
5.1. The rights granted under this License will terminate automatically
if You fail to comply with any of its terms. However, if You become
compliant, then the rights granted under this License from a particular
Contributor are reinstated (a) provisionally, unless and until such
Contributor explicitly and finally terminates Your grants, and (b) on an
ongoing basis, if such Contributor fails to notify You of the
non-compliance by some reasonable means prior to 60 days after You have
come back into compliance. Moreover, Your grants from a particular
Contributor are reinstated on an ongoing basis if such Contributor
notifies You of the non-compliance by some reasonable means, this is the
first time You have received notice of non-compliance with this License
from such Contributor, and You become compliant prior to 30 days after
Your receipt of the notice.
5.2. If You initiate litigation against any entity by asserting a patent
infringement claim (excluding declaratory judgment actions,
counter-claims, and cross-claims) alleging that a Contributor Version
directly or indirectly infringes any patent, then the rights granted to
You by any and all Contributors for the Covered Software under Section
2.1 of this License shall terminate.
5.3. In the event of termination under Sections 5.1 or 5.2 above, all
end user license agreements (excluding distributors and resellers) which
have been validly granted by You or Your distributors under this License
prior to termination shall survive termination.
************************************************************************
* *
* 6. Disclaimer of Warranty *
* ------------------------- *
* *
* Covered Software is provided under this License on an "as is" *
* basis, without warranty of any kind, either expressed, implied, or *
* statutory, including, without limitation, warranties that the *
* Covered Software is free of defects, merchantable, fit for a *
* particular purpose or non-infringing. The entire risk as to the *
* quality and performance of the Covered Software is with You. *
* Should any Covered Software prove defective in any respect, You *
* (not any Contributor) assume the cost of any necessary servicing, *
* repair, or correction. This disclaimer of warranty constitutes an *
* essential part of this License. No use of any Covered Software is *
* authorized under this License except under this disclaimer. *
* *
************************************************************************
************************************************************************
* *
* 7. Limitation of Liability *
* -------------------------- *
* *
* Under no circumstances and under no legal theory, whether tort *
* (including negligence), contract, or otherwise, shall any *
* Contributor, or anyone who distributes Covered Software as *
* permitted above, be liable to You for any direct, indirect, *
* special, incidental, or consequential damages of any character *
* including, without limitation, damages for lost profits, loss of *
* goodwill, work stoppage, computer failure or malfunction, or any *
* and all other commercial damages or losses, even if such party *
* shall have been informed of the possibility of such damages. This *
* limitation of liability shall not apply to liability for death or *
* personal injury resulting from such party's negligence to the *
* extent applicable law prohibits such limitation. Some *
* jurisdictions do not allow the exclusion or limitation of *
* incidental or consequential damages, so this exclusion and *
* limitation may not apply to You. *
* *
************************************************************************
8. Litigation
-------------
Any litigation relating to this License may be brought only in the
courts of a jurisdiction where the defendant maintains its principal
place of business and such litigation shall be governed by laws of that
jurisdiction, without reference to its conflict-of-law provisions.
Nothing in this Section shall prevent a party's ability to bring
cross-claims or counter-claims.
9. Miscellaneous
----------------
This License represents the complete agreement concerning the subject
matter hereof. If any provision of this License is held to be
unenforceable, such provision shall be reformed only to the extent
necessary to make it enforceable. Any law or regulation which provides
that the language of a contract shall be construed against the drafter
shall not be used to construe this License against a Contributor.
10. Versions of the License
---------------------------
10.1. New Versions
Mozilla Foundation is the license steward. Except as provided in Section
10.3, no one other than the license steward has the right to modify or
publish new versions of this License. Each version will be given a
distinguishing version number.
10.2. Effect of New Versions
You may distribute the Covered Software under the terms of the version
of the License under which You originally received the Covered Software,
or under the terms of any subsequent version published by the license
steward.
10.3. Modified Versions
If you create software not governed by this License, and you want to
create a new license for such software, you may create and use a
modified version of this License if you rename the license and remove
any references to the name of the license steward (except to note that
such modified license differs from this License).
10.4. Distributing Source Code Form that is Incompatible With Secondary
Licenses
If You choose to distribute Source Code Form that is Incompatible With
Secondary Licenses under the terms of this version of the License, the
notice described in Exhibit B of this License must be attached.
Exhibit A - Source Code Form License Notice
-------------------------------------------
This Source Code Form is subject to the terms of the Mozilla Public
License, v. 2.0. If a copy of the MPL was not distributed with this
file, You can obtain one at http://mozilla.org/MPL/2.0/.
If it is not possible or desirable to put the notice in a particular
file, then You may include the notice in a location (such as a LICENSE
file in a relevant directory) where a recipient would be likely to look
for such a notice.
You may add additional accurate notices of copyright ownership.
Exhibit B - "Incompatible With Secondary Licenses" Notice
---------------------------------------------------------
This Source Code Form is "Incompatible With Secondary Licenses", as
defined by the Mozilla Public License, v. 2.0.

6
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Apache HttpComponents Client
Copyright 1999-2018 The Apache Software Foundation
This product includes software developed at
The Apache Software Foundation (http://www.apache.org/).

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Apache HttpComponents Client
============================
Welcome to the HttpClient component of the Apache HttpComponents project.
Building Instructions
---------------------
For building from source instructions please refer to BUILDING.txt.
Dependencies
------------
HttpClient main module requires Java 6 compatible runtime and
depends on the following external libraries:
* Apache HttpComponents HttpCore
* Apache Commons Logging
* Apache Commons Codec
(for detailed information on external dependencies please see pom.xml)
HttpMime module is optional and requires Java 6 compatible runtime
and depends on the following external libraries:
* Apache HttpComponents HttpCore
* Apache Commons Logging
(for detailed information on external dependencies please see pom.xml)
Licensing
---------
Apache HttpComponents Client is licensed under the Apache License 2.0.
See the files called LICENSE.txt and NOTICE.txt for more information.
Cryptographic Software Notice
-----------------------------
This distribution may include software that has been designed for use
with cryptographic software. The country in which you currently reside
may have restrictions on the import, possession, use, and/or re-export
to another country, of encryption software. BEFORE using any encryption
software, please check your country's laws, regulations and policies
concerning the import, possession, or use, and re-export of encryption
software, to see if this is permitted. See <http://www.wassenaar.org/>
for more information.
The U.S. Government Department of Commerce, Bureau of Industry and
Security (BIS), has classified this software as Export Commodity
Control Number (ECCN) 5D002.C.1, which includes information security
software using or performing cryptographic functions with asymmetric
algorithms. The form and manner of this Apache Software Foundation
distribution makes it eligible for export under the License Exception
ENC Technology Software Unrestricted (TSU) exception (see the BIS
Export Administration Regulations, Section 740.13) for both object
code and source code.
The following provides more details on the included software that
may be subject to export controls on cryptographic software:
Apache HttpComponents Client interfaces with the
Java Secure Socket Extension (JSSE) API to provide
- HTTPS support
Apache HttpComponents Client does not include any
implementation of JSSE.
Contact
-------
o For general information visit the main project site at
http://hc.apache.org/
o For current status information visit the status page at
http://hc.apache.org/status.html

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version=0.1.2 version=0.1.8

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src/davaguine/jeq/core/EqualizerInputStream.java
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/*
* 21.04.2004 Original verion. davagin@udm.ru.
*-----------------------------------------------------------------------
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*----------------------------------------------------------------------
*/
package davaguine.jeq.core;
import java.io.IOException;
import java.io.InputStream;
/**
* The EqualizerInputStream class
* Author: Dmitry Vaguine
* Date: 02.05.2004
* Time: 12:00:29
*/
public class EqualizerInputStream extends InputStream {
private InputStream stream;
private IIR iir;
private final static int BUFFER_SIZE = 65536;
private byte[] inbuf = new byte[BUFFER_SIZE];
private int[] workbuf = new int[BUFFER_SIZE];
private byte[] outbuf = new byte[BUFFER_SIZE];
private int inpos = 0;
private int inlen = 0;
private int outpos = 0;
private int outlen = 0;
private boolean signed;
private int samplesize;
private boolean bigendian;
/**
* Constructs new EqualizerInputStream object
*
* @param stream is an input stream for pcm data
* @param samplerate is a sample rate of input data
* @param channels is the number of channels
* @param signed indicates that the data is signed
* @param samplesize is the sample bit size of data
* @param bigendian indicates that the dat is in "big endian" encoding
* @param bands is the number of bands
*/
public EqualizerInputStream(InputStream stream, float samplerate, int channels, boolean signed, int samplesize, boolean bigendian, int bands) {
this.stream = stream;
this.iir = new IIR(bands, samplerate, channels);
this.signed = signed;
this.samplesize = samplesize;
this.bigendian = bigendian;
if (!isParamsSupported(samplerate, channels, samplesize, bands))
throw new IllegalArgumentException("Unsupported sample bit size");
}
/**
* Returns Controls of equalizer
*
* @return Controls of equalizer
*/
public IIRControls getControls() {
return iir.getControls();
}
/**
* This is special method for checking of supported parameters of equalizer
*
* @param bands is the number of bands
* @param samplerate is the sample rate of data
* @param channels is the number of channels
* @param samplesize is the size of sample in bits
* @return true if parameters are supported
*/
public static boolean isParamsSupported(float samplerate, int channels, int samplesize, int bands) {
switch (samplesize) {
case 8:
case 16:
case 24:
case 32:
break;
default:
return false;
}
return IIR.isParamsSupported(bands, samplerate, channels);
}
private boolean fillInBuffer() throws IOException {
if (inpos != 0 && inlen > 0)
System.arraycopy(inbuf, inpos, inbuf, 0, inlen);
inpos = 0;
int num;
boolean eof = false;
while (inlen != inbuf.length) {
num = stream.read(inbuf, inlen, inbuf.length - inlen);
if (num < 0) {
eof = true;
break;
}
inlen += num;
}
return eof;
}
private void fillOutBuffer() {
if (outpos != 0 && outlen > 0)
System.arraycopy(outbuf, outpos, outbuf, 0, outlen);
outpos = 0;
int len = outbuf.length - outlen;
len = inlen < len ? inlen : len;
len = convertToInt(len);
if (len > 0) {
iir.iir(workbuf, len);
len = convertToByte(outbuf, outlen, len);
outlen += len;
}
}
private int convertToInt(int length) {
int l = length;
int temp;
byte a1[];
switch (samplesize) {
case 8: {
if (length > 0) {
System.arraycopy(inbuf, 0, workbuf, 0, length);
inpos += length;
inlen -= length;
}
break;
}
case 16: {
l = length >> 1;
if (l > 0) {
if (bigendian)
for (int i = 0; i < l; i++) {
temp = (((a1 = inbuf)[inpos++] & 0xff) << 8) | (a1[inpos++] & 0xff);
workbuf[i] = signed && temp > 32767 ? temp - 65536 : temp;
}
else
for (int i = 0; i < l; i++) {
temp = ((a1 = inbuf)[inpos++] & 0xff) | ((a1[inpos++] & 0xff) << 8);
workbuf[i] = signed && temp > 32767 ? temp - 65536 : temp;
}
inlen -= inpos;
}
break;
}
case 24: {
l = length / 3;
if (l > 0) {
if (bigendian)
for (int i = 0; i < l; i++) {
temp = ((a1 = inbuf)[inpos++] & 0xff) | ((a1[inpos++] & 0xff) << 8) | ((a1[inpos++] & 0xff) << 16);
workbuf[i] = signed && temp > 8388607 ? temp - 16777216 : temp;
}
else
for (int i = 0; i < l; i++) {
temp = (((a1 = inbuf)[inpos++] & 0xff) << 16) | ((a1[inpos++] & 0xff) << 8) | (a1[inpos++] & 0xff);
workbuf[i] = signed && temp > 8388607 ? temp - 16777216 : temp;
}
inlen -= inpos;
}
break;
}
case 32: {
l = length / 4;
if (l > 0) {
if (bigendian)
for (int i = 0; i < l; i++) {
temp = ((a1 = inbuf)[inpos++] & 0xff) | ((a1[inpos++] & 0xff) << 8) | ((a1[inpos++] & 0xff) << 16) | ((a1[inpos++] & 0xff) << 24);
workbuf[i] = temp; //signed && temp > 8388607 ? temp - 16777216 : temp;
}
else
for (int i = 0; i < l; i++) {
temp = (((a1 = inbuf)[inpos++] & 0xff) << 24) | ((a1[inpos++] & 0xff) << 16) | ((a1[inpos++] & 0xff) << 8) | (a1[inpos++] & 0xff);
workbuf[i] = temp; //signed && temp > 8388607 ? temp - 16777216 : temp;
}
inlen -= inpos;
}
break;
}
}
return l;
}
private int wrap8Bit(int data) {
if (data > 127)
data = 127;
else if (data < -128)
data = -128;
if (data < 0)
data += 256;
return data;
}
private int wrap16Bit(int data) {
if (data > 32767)
data = 32767;
else if (data < -32768)
data = -32768;
if (data < 0)
data += 65536;
return data;
}
private int wrap24Bit(int data) {
if (data > 8388607)
data = 8388607;
else if (data < -8388608)
data = -8388608;
if (data < 0)
data += 16777216;
return data;
}
private int convertToByte(byte[] b, int off, int length) {
int p = off;
int d;
switch (samplesize) {
case 8: {
for (int i = 0; i < length; i++)
b[p++] = (byte) (wrap8Bit(workbuf[i]) & 0xff);
break;
}
case 16: {
if (bigendian) {
for (int i = 0; i < length; i++) {
d = wrap16Bit(workbuf[i]);
b[p++] = (byte) ((d & 0xff00) >> 8);
b[p++] = (byte) (d & 0xff);
}
} else {
for (int i = 0; i < length; i++) {
d = wrap16Bit(workbuf[i]);
b[p++] = (byte) (d & 0xff);
b[p++] = (byte) ((d & 0xff00) >> 8);
}
}
break;
}
case 24: {
if (bigendian) {
for (int i = 0; i < length; i++) {
d = wrap24Bit(workbuf[i]);
b[p++] = (byte) (d & 0xff);
b[p++] = (byte) ((d & 0xff00) >> 8);
b[p++] = (byte) ((d & 0xff0000) >> 16);
}
} else {
for (int i = 0; i < length; i++) {
d = wrap24Bit(workbuf[i]);
b[p++] = (byte) ((d & 0xff0000) >> 16);
b[p++] = (byte) ((d & 0xff00) >> 8);
b[p++] = (byte) (d & 0xff);
}
}
break;
}
case 32: {
if (bigendian) {
for (int i = 0; i < length; i++) {
d = workbuf[i];
b[p++] = (byte) (d & 0xff);
b[p++] = (byte) ((d & 0xff00) >> 8);
b[p++] = (byte) ((d & 0xff0000) >> 16);
b[p++] = (byte) ((d & 0xff000000) >> 24);
}
} else {
for (int i = 0; i < length; i++) {
d = wrap24Bit(workbuf[i]);
b[p++] = (byte) ((d & 0xff000000) >> 24);
b[p++] = (byte) ((d & 0xff0000) >> 16);
b[p++] = (byte) ((d & 0xff00) >> 8);
b[p++] = (byte) (d & 0xff);
}
}
break;
}
}
return p - off;
}
/**
* Returns the number of bytes that can be read (or skipped over) from
* this input stream without blocking by the next caller of a method for
* this input stream. The next caller might be the same thread or
* another thread.
*
* @return the number of bytes that can be read from this input stream
* without blocking.
* @throws IOException if an I/O error occurs.
*/
public int available() throws IOException {
return outlen;
}
/**
* Closes this input stream and releases any system resources associated
* with the stream.
*
* @throws IOException if an I/O error occurs.
*/
public void close() throws IOException {
stream.close();
}
/**
* <p> The <code>mark</code> method of <code>EqualizerInputStream</code> does
* nothing.
*
* @param readlimit the maximum limit of bytes that can be read before
* the mark position becomes invalid.
*/
public synchronized void mark(int readlimit) {
}
/**
* Tests if this input stream supports the <code>mark</code> and
* <code>reset</code> methods. Whether or not <code>mark</code> and
* <code>reset</code> are supported is an invariant property of a
* particular input stream instance. The <code>markSupported</code> method
* of <code>EqualizerInputStream</code> returns <code>false</code>.
*
* @return false
*/
public boolean markSupported() {
return false;
}
/**
* Reads the next byte of data from the input stream. The value byte is
* returned as an <code>int</code> in the range <code>0</code> to
* <code>255</code>. If no byte is available because the end of the stream
* has been reached, the value <code>-1</code> is returned. This method
* blocks until input data is available, the end of the stream is detected,
* or an exception is thrown.
*
* @return the next byte of data, or <code>-1</code> if the end of the
* stream is reached.
* @throws IOException if an I/O error occurs.
*/
public int read() throws IOException {
if (outlen == 0) {
boolean eof = fillInBuffer();
fillOutBuffer();
if (outlen == 0 && eof)
return -1;
if (outlen == 0 && !eof)
throw new IOException("Impossible state");
}
int b = outbuf[outpos++];
outlen--;
return b;
}
/**
* Reads up to <code>len</code> bytes of data from the input stream into
* an array of bytes. An attempt is made to read as many as
* <code>len</code> bytes, but a smaller number may be read.
* The number of bytes actually read is returned as an integer.
* <p/>
* <p> This method blocks until input data is available, end of file is
* detected, or an exception is thrown.
* <p/>
* <p> If <code>b</code> is <code>null</code>, a
* <code>NullPointerException</code> is thrown.
* <p/>
* <p> If <code>off</code> is negative, or <code>len</code> is negative, or
* <code>off+len</code> is greater than the length of the array
* <code>b</code>, then an <code>IndexOutOfBoundsException</code> is
* thrown.
* <p/>
* <p> If <code>len</code> is zero, then no bytes are read and
* <code>0</code> is returned; otherwise, there is an attempt to read at
* least one byte. If no byte is available because the stream is at end of
* file, the value <code>-1</code> is returned; otherwise, at least one
* byte is read and stored into <code>b</code>.
* <p/>
* <p> The first byte read is stored into element <code>b[off]</code>, the
* next one into <code>b[off+1]</code>, and so on. The number of bytes read
* is, at most, equal to <code>len</code>. Let <i>k</i> be the number of
* bytes actually read; these bytes will be stored in elements
* <code>b[off]</code> through <code>b[off+</code><i>k</i><code>-1]</code>,
* leaving elements <code>b[off+</code><i>k</i><code>]</code> through
* <code>b[off+len-1]</code> unaffected.
* <p/>
* <p> In every case, elements <code>b[0]</code> through
* <code>b[off]</code> and elements <code>b[off+len]</code> through
* <code>b[b.length-1]</code> are unaffected.
* <p/>
* <p> If the first byte cannot be read for any reason other than end of
* file, then an <code>IOException</code> is thrown. In particular, an
* <code>IOException</code> is thrown if the input stream has been closed.
*
* @param b the buffer into which the data is read.
* @param off the start offset in array <code>b</code>
* at which the data is written.
* @param len the maximum number of bytes to read.
* @return the total number of bytes read into the buffer, or
* <code>-1</code> if there is no more data because the end of
* the stream has been reached.
* @throws IOException if an I/O error occurs.
* @throws NullPointerException if <code>b</code> is <code>null</code>.
*/
public int read(byte[] b, int off, int len) throws IOException {
if (outlen < len) {
boolean eof = fillInBuffer();
fillOutBuffer();
if (outlen == 0 && eof)
return -1;
if (outlen == 0 && !eof)
throw new IOException("Impossible state");
}
len = outlen < len ? outlen : len;
if (len > 0) {
System.arraycopy(outbuf, outpos, b, off, len);
outpos += len;
outlen -= len;
}
return len;
}
/**
* <p>The method <code>reset</code> for class <code>EqualizerInputStream</code>
* does nothing except throw an <code>IOException</code>.
*
* @throws IOException as an indication that the mark feature doesn't supported by EqualizerInputStream.
*/
public void reset() throws IOException {
throw new IOException("mark/reset not supported");
}
/**
* Skips over and discards <code>n</code> bytes of data from this input
* stream. The <code>skip</code> method may, for a variety of reasons, end
* up skipping over some smaller number of bytes, possibly <code>0</code>.
* This may result from any of a number of conditions; reaching end of file
* before <code>n</code> bytes have been skipped is only one possibility.
* The actual number of bytes skipped is returned. If <code>n</code> is
* negative, no bytes are skipped.
*
* @param n the number of bytes to be skipped.
* @return the actual number of bytes skipped.
* @throws IOException if an I/O error occurs.
*/
public long skip(long n) throws IOException {
int l;
if (n <= outlen) {
outpos += n;
outlen -= n;
return n;
}
n -= outlen;
l = outlen;
outlen = 0;
outpos = 0;
if (n <= inlen) {
inpos += n;
inlen -= n;
return l + n;
}
n -= inlen;
l += inlen;
inlen = 0;
inpos = 0;
return stream.skip(n) + l;
}
}

292
src/davaguine/jeq/core/IIR.java
View File

@@ -1,292 +0,0 @@
/*
* 21.04.2004 Original verion. davagin@udm.ru.
*-----------------------------------------------------------------------
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*----------------------------------------------------------------------
*/
package davaguine.jeq.core;
/**
* Generic wrapper around IIR algorithm.
* Author: Dmitry Vaguine
* Date: 02.05.2004
* Time: 12:00:29
*/
public class IIR extends IIRBase {
/**
* Max number of channels supported
*/
public final static int EQ_MAX_CHANNELS = 2;
/**
* Max bands supported by the code
*/
public final static int EQ_MAX_BANDS = 31;
/**
* Supported sample rates
*/
public final static float EQ_11025_RATE = 11025;
public final static float EQ_22050_RATE = 22050;
public final static float EQ_44100_RATE = 44100;
public final static float EQ_48000_RATE = 48000;
public final static float EQ_96000_RATE = 96000;
/**
* Supported number of bands
*/
public final static int EQ_10_BANDS = 10;
public final static int EQ_15_BANDS = 15;
public final static int EQ_25_BANDS = 25;
public final static int EQ_31_BANDS = 31;
/* Indexes for the history arrays
* These have to be kept between calls to this function
* hence they are static */
private int i;
private int j;
private int k;
/* History for two filters */
private XYData[][] dataHistory = new XYData[EQ_MAX_BANDS][EQ_MAX_CHANNELS];
private XYData[][] dataHistory2 = new XYData[EQ_MAX_BANDS][EQ_MAX_CHANNELS];
/* Coefficients */
private IIRCoefficients[] iircf;
/* Equalizer config */
private IIRControls eqcfg;
/* rate */
private float rate;
/* channels */
private int channels;
/* bands */
private int bands;
/**
* Constructs equalizer with given config
*
* @param bands is the number of bands to be used
* @param rate is the sample rate of equalizer
* @param channels is the number of channels
*/
public IIR(int bands, float rate, int channels) {
this.rate = rate;
this.channels = channels;
this.bands = bands;
this.eqcfg = new IIRControls(bands, channels);
if (!isParamsSupported(bands, rate, channels))
throw new IllegalArgumentException("Unsupported parameters");
initIIR();
}
/**
* Returns Controls of equalizer
*
* @return Controls of equalizer
*/
public IIRControls getControls() {
return eqcfg;
}
/**
* This is special method for checking of supported parameters of equalizer
*
* @param bands is the number of bands
* @param rate is the sample rate of data
* @param channels is the number of channels
* @return true if parameters are supported
*/
public static boolean isParamsSupported(int bands, float rate, int channels) {
if (rate != EQ_11025_RATE && rate != EQ_22050_RATE && rate != EQ_44100_RATE && rate != EQ_48000_RATE && rate != EQ_96000_RATE)
return false;
switch (bands) {
case EQ_10_BANDS:
case EQ_15_BANDS:
case EQ_25_BANDS:
case EQ_31_BANDS:
break;
default:
return false;
}
switch (channels) {
case 1:
case 2:
break;
default:
return false;
}
return (rate != EQ_11025_RATE && rate != EQ_22050_RATE) || bands == EQ_10_BANDS;
}
/* Init the filters */
private void initIIR() {
setFilters();
for (int ii = 0; ii < EQ_MAX_BANDS; ii++)
for (int jj = 0; jj < EQ_MAX_CHANNELS; jj++) {
dataHistory[ii][jj] = new XYData();
dataHistory2[ii][jj] = new XYData();
}
i = 0;
j = 2;
k = 1;
}
private void setFilters() {
if (rate == EQ_11025_RATE)
iircf = iir_cf10_11k_11025;
else if (rate == EQ_22050_RATE)
iircf = iir_cf10_22k_22050;
else if (rate == EQ_44100_RATE) {
switch (bands) {
case 31:
iircf = iir_cf31_44100;
break;
case 25:
iircf = iir_cf25_44100;
break;
case 15:
iircf = iir_cf15_44100;
break;
default:
iircf = iir_cf10_44100;
break;
}
} else if (rate == EQ_48000_RATE) {
switch (bands) {
case 31:
iircf = iir_cf31_48000;
break;
case 25:
iircf = iir_cf25_48000;
break;
case 15:
iircf = iir_cf15_48000;
break;
default:
iircf = iir_cf10_48000;
break;
}
} else if (rate == EQ_96000_RATE) {
switch (bands) {
case 31:
iircf = iir_cf31_96000;
break;
}
}
}
/**
* Clear filter history.
*/
public void cleanHistory() {
/* Zero the history arrays */
for (int ii = 0; ii < EQ_MAX_BANDS; ii++)
for (int jj = 0; jj < EQ_MAX_CHANNELS; jj++) {
dataHistory[ii][jj].zero();
dataHistory2[ii][jj].zero();
}
i = 0;
j = 2;
k = 1;
}
/**
* Main filtering method.
*
* @param data - data to be filtered
* @param length - length of data in buffer
*/
public void iir(int[] data, int length) {
int index, band, channel;
float eqpreamp[] = eqcfg.getPreamp();
float eqbands[][] = eqcfg.getBands();
double pcm, out;
/**
* IIR filter equation is
* y[n] = 2 * (alpha*(x[n]-x[n-2]) + gamma*y[n-1] - beta*y[n-2])
*
* NOTE: The 2 factor was introduced in the coefficients to save
* a multiplication
*
* This algorithm cascades two filters to get nice filtering
* at the expense of extra CPU cycles
*/
IIRCoefficients tempcf;
XYData tempd;
for (index = 0; index < length; index += channels) {
/* For each channel */
for (channel = 0; channel < channels; channel++) {
/* Preamp gain */
pcm = data[index + channel] * eqpreamp[channel];
out = 0f;
/* For each band */
for (band = 0; band < bands; band++) {
/* Store Xi(n) */
tempd = dataHistory[band][channel];
tempd.x[i] = pcm;
/* Calculate and store Yi(n) */
tempcf = iircf[band];
tempd.y[i] =
(
/* = alpha * [x(n)-x(n-2)] */
tempcf.alpha * (pcm - tempd.x[k])
/* + gamma * y(n-1) */
+ tempcf.gamma * tempd.y[j]
/* - beta * y(n-2) */
- tempcf.beta * tempd.y[k]
);
/*
* The multiplication by 2.0 was 'moved' into the coefficients to save
* CPU cycles here */
/* Apply the gain */
out += (tempd.y[i] * eqbands[band][channel]); // * 2.0;
} /* For each band */
/* Volume stuff
Scale down original PCM sample and add it to the filters
output. This substitutes the multiplication by 0.25
Go back to use the floating point multiplication before the
conversion to give more dynamic range
*/
out += (pcm * 0.25);
/* Normalize the output */
out *= 4;
/* Round and convert to integer */
data[index + channel] = (int) out;
} /* For each channel */
i++;
j++;
k++;
/* Wrap around the indexes */
if (i == 3)
i = 0;
else if (j == 3)
j = 0;
else
k = 0;
}/* For each pair of samples */
}
}

486
src/davaguine/jeq/core/IIRBase.java
View File

@@ -1,486 +0,0 @@
/*
* 21.04.2004 Original verion. davagin@udm.ru.
*-----------------------------------------------------------------------
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*----------------------------------------------------------------------
*/
package davaguine.jeq.core;
/**
* Author: Dmitry Vaguine
* Date: 02.05.2004
* Time: 12:00:29
*/
public class IIRBase {
/* BETA, ALPHA, GAMMA */
public final static IIRCoefficients iir_cf10_11k_11025[] = {
/* 31 Hz*/
new IIRCoefficients(9.8758524689e-01, 6.2073765555e-03, 1.9872750693e+00),
/* 62 Hz*/
new IIRCoefficients(9.7532461998e-01, 1.2337690008e-02, 1.9740916593e+00),
/* 125 Hz*/
new IIRCoefficients(9.5087485437e-01, 2.4562572817e-02, 1.9459267562e+00),
/* 250 Hz*/
new IIRCoefficients(9.0416308662e-01, 4.7918456688e-02, 1.8848691023e+00),
/* 500 Hz*/
new IIRCoefficients(8.1751373987e-01, 9.1243130064e-02, 1.7442229115e+00),
/* 1k Hz*/
new IIRCoefficients(6.6840529852e-01, 1.6579735074e-01, 1.4047189863e+00),
/* 2k Hz*/
new IIRCoefficients(4.4858358977e-01, 2.7570820511e-01, 6.0517475334e-01),
/* 3k Hz*/
new IIRCoefficients(3.1012671838e-01, 3.4493664081e-01, -1.8141012760e-01),
/* 4k Hz*/
new IIRCoefficients(2.4198119087e-01, 3.7900940457e-01, -8.0845085113e-01),
/* 5.5k Hz*/
new IIRCoefficients(3.3453245058e-01, 3.3273377471e-01, -1.3344985880e+00)
};
public final static IIRCoefficients iir_cf10_22k_22050[] = {
/* 31 Hz*/
new IIRCoefficients(9.9377323686e-01, 3.1133815717e-03, 1.9936954495e+00),
/* 62 Hz*/
new IIRCoefficients(9.8758524689e-01, 6.2073765555e-03, 1.9872750693e+00),
/* 125 Hz*/
new IIRCoefficients(9.7512812040e-01, 1.2435939802e-02, 1.9738753198e+00),
/* 250 Hz*/
new IIRCoefficients(9.5087485437e-01, 2.4562572817e-02, 1.9459267562e+00),
/* 500 Hz*/
new IIRCoefficients(9.0416308662e-01, 4.7918456688e-02, 1.8848691023e+00),
/* 1k Hz*/
new IIRCoefficients(8.1751373987e-01, 9.1243130064e-02, 1.7442229115e+00),
/* 2k Hz*/
new IIRCoefficients(6.6840529852e-01, 1.6579735074e-01, 1.4047189863e+00),
/* 4k Hz*/
new IIRCoefficients(4.4858358977e-01, 2.7570820511e-01, 6.0517475334e-01),
/* 8k Hz*/
new IIRCoefficients(2.4198119087e-01, 3.7900940457e-01, -8.0845085113e-01),
/* 11k Hz*/
new IIRCoefficients(3.3453245058e-01, 3.3273377471e-01, -1.3344985880e+00)
};
public final static IIRCoefficients iir_cf10_44100[] = {
/* 31 Hz*/
new IIRCoefficients(9.9688176273e-01, 1.5591186337e-03, 1.9968622855e+00),
/* 62 Hz*/
new IIRCoefficients(9.9377323686e-01, 3.1133815717e-03, 1.9936954495e+00),
/* 125 Hz*/
new IIRCoefficients(9.8748575691e-01, 6.2571215431e-03, 1.9871705722e+00),
/* 250 Hz*/
new IIRCoefficients(9.7512812040e-01, 1.2435939802e-02, 1.9738753198e+00),
/* 500 Hz*/
new IIRCoefficients(9.5087485437e-01, 2.4562572817e-02, 1.9459267562e+00),
/* 1k Hz*/
new IIRCoefficients(9.0416308662e-01, 4.7918456688e-02, 1.8848691023e+00),
/* 2k Hz*/
new IIRCoefficients(8.1751373987e-01, 9.1243130064e-02, 1.7442229115e+00),
/* 4k Hz*/
new IIRCoefficients(6.6840529852e-01, 1.6579735074e-01, 1.4047189863e+00),
/* 8k Hz*/
new IIRCoefficients(4.4858358977e-01, 2.7570820511e-01, 6.0517475334e-01),
/* 16k Hz*/
new IIRCoefficients(2.4198119087e-01, 3.7900940457e-01, -8.0845085113e-01)
};
public final static IIRCoefficients iir_cf10_48000[] = {
/* 31 Hz*/
new IIRCoefficients(9.9713475915e-01, 1.4326204244e-03, 1.9971183163e+00),
/* 62 Hz*/
new IIRCoefficients(9.9427771143e-01, 2.8611442874e-03, 1.9942120343e+00),
/* 125 Hz*/
new IIRCoefficients(9.8849666727e-01, 5.7516663664e-03, 1.9882304829e+00),
/* 250 Hz*/
new IIRCoefficients(9.7712566171e-01, 1.1437169144e-02, 1.9760670839e+00),
/* 500 Hz*/
new IIRCoefficients(9.5477456091e-01, 2.2612719547e-02, 1.9505892385e+00),
/* 1k Hz*/
new IIRCoefficients(9.1159452679e-01, 4.4202736607e-02, 1.8952405706e+00),
/* 2k Hz*/
new IIRCoefficients(8.3100647694e-01, 8.4496761532e-02, 1.7686164442e+00),
/* 4k Hz*/
new IIRCoefficients(6.9062328809e-01, 1.5468835596e-01, 1.4641227157e+00),
/* 8k Hz*/
new IIRCoefficients(4.7820368352e-01, 2.6089815824e-01, 7.3910184176e-01),
/* 16k Hz*/
new IIRCoefficients(2.5620076154e-01, 3.7189961923e-01, -6.2810038077e-01)
};
public final static IIRCoefficients iir_cf15_44100[] = {
/* 25 Hz*/
new IIRCoefficients(9.9834072702e-01, 8.2963648917e-04, 1.9983280505e+00),
/* 40 Hz*/
new IIRCoefficients(9.9734652663e-01, 1.3267366865e-03, 1.9973140908e+00),
/* 63 Hz*/
new IIRCoefficients(9.9582396353e-01, 2.0880182333e-03, 1.9957435641e+00),
/* 100 Hz*/
new IIRCoefficients(9.9337951306e-01, 3.3102434709e-03, 1.9931771947e+00),
/* 160 Hz*/
new IIRCoefficients(9.8942832039e-01, 5.2858398053e-03, 1.9889114258e+00),
/* 250 Hz*/
new IIRCoefficients(9.8353109588e-01, 8.2344520610e-03, 1.9822729654e+00),
/* 400 Hz*/
new IIRCoefficients(9.7378088082e-01, 1.3109559588e-02, 1.9705764276e+00),
/* 630 Hz*/
new IIRCoefficients(9.5901979676e-01, 2.0490101620e-02, 1.9511333590e+00),
/* 1k Hz*/
new IIRCoefficients(9.3574903986e-01, 3.2125480071e-02, 1.9161350100e+00),
/* 1.6k Hz*/
new IIRCoefficients(8.9923630641e-01, 5.0381846793e-02, 1.8501014162e+00),
/* 2.5k Hz*/
new IIRCoefficients(8.4722457681e-01, 7.6387711593e-02, 1.7312785699e+00),
/* 4k Hz*/
new IIRCoefficients(7.6755471307e-01, 1.1622264346e-01, 1.4881981417e+00),
/* 6.3k Hz*/
new IIRCoefficients(6.6125377473e-01, 1.6937311263e-01, 1.0357747868e+00),
/* 10k Hz*/
new IIRCoefficients(5.2683267950e-01, 2.3658366025e-01, 2.2218349322e-01),
/* 16k Hz*/
new IIRCoefficients(4.0179628792e-01, 2.9910185604e-01, -9.1248032613e-01)
};
public final static IIRCoefficients iir_cf15_48000[] = {
/* 25 Hz*/
new IIRCoefficients(9.9847546664e-01, 7.6226668143e-04, 1.9984647656e+00),
/* 40 Hz*/
new IIRCoefficients(9.9756184654e-01, 1.2190767289e-03, 1.9975344645e+00),
/* 63 Hz*/
new IIRCoefficients(9.9616261379e-01, 1.9186931041e-03, 1.9960947369e+00),
/* 100 Hz*/
new IIRCoefficients(9.9391578543e-01, 3.0421072865e-03, 1.9937449618e+00),
/* 160 Hz*/
new IIRCoefficients(9.9028307215e-01, 4.8584639242e-03, 1.9898465702e+00),
/* 250 Hz*/
new IIRCoefficients(9.8485897264e-01, 7.5705136795e-03, 1.9837962543e+00),
/* 400 Hz*/
new IIRCoefficients(9.7588512657e-01, 1.2057436715e-02, 1.9731772447e+00),
/* 630 Hz*/
new IIRCoefficients(9.6228521814e-01, 1.8857390928e-02, 1.9556164694e+00),
/* 1k Hz*/
new IIRCoefficients(9.4080933132e-01, 2.9595334338e-02, 1.9242054384e+00),
/* 1.6k Hz*/
new IIRCoefficients(9.0702059196e-01, 4.6489704022e-02, 1.8653476166e+00),
/* 2.5k Hz*/
new IIRCoefficients(8.5868004289e-01, 7.0659978553e-02, 1.7600401337e+00),
/* 4k Hz*/
new IIRCoefficients(7.8409610788e-01, 1.0795194606e-01, 1.5450725522e+00),
/* 6.3k Hz*/
new IIRCoefficients(6.8332861002e-01, 1.5833569499e-01, 1.1426447155e+00),
/* 10k Hz*/
new IIRCoefficients(5.5267518228e-01, 2.2366240886e-01, 4.0186190803e-01),
/* 16k Hz*/
new IIRCoefficients(4.1811888447e-01, 2.9094055777e-01, -7.0905944223e-01)
};
public final static IIRCoefficients iir_cf25_44100[] = {
/* 20 Hz*/
new IIRCoefficients(9.9934037157e-01, 3.2981421662e-04, 1.9993322545e+00),
/* 31.5 Hz*/
new IIRCoefficients(9.9896129025e-01, 5.1935487310e-04, 1.9989411587e+00),
/* 40 Hz*/
new IIRCoefficients(9.9868118265e-01, 6.5940867495e-04, 1.9986487252e+00),
/* 50 Hz*/
new IIRCoefficients(9.9835175161e-01, 8.2412419683e-04, 1.9983010452e+00),
/* 80 Hz*/
new IIRCoefficients(9.9736411067e-01, 1.3179446674e-03, 1.9972343673e+00),
/* 100 Hz*/
new IIRCoefficients(9.9670622662e-01, 1.6468866919e-03, 1.9965035707e+00),
/* 125 Hz*/
new IIRCoefficients(9.9588448566e-01, 2.0577571681e-03, 1.9955679690e+00),
/* 160 Hz*/
new IIRCoefficients(9.9473519326e-01, 2.6324033689e-03, 1.9942169198e+00),
/* 250 Hz*/
new IIRCoefficients(9.9178600786e-01, 4.1069960678e-03, 1.9905226414e+00),
/* 315 Hz*/
new IIRCoefficients(9.8966154150e-01, 5.1692292513e-03, 1.9876580847e+00),
/* 400 Hz*/
new IIRCoefficients(9.8689036168e-01, 6.5548191616e-03, 1.9836646251e+00),
/* 500 Hz*/
new IIRCoefficients(9.8364027156e-01, 8.1798642207e-03, 1.9786090689e+00),
/* 800 Hz*/
new IIRCoefficients(9.7395577681e-01, 1.3022111597e-02, 1.9611472340e+00),
/* 1k Hz*/
new IIRCoefficients(9.6755437936e-01, 1.6222810321e-02, 1.9476180811e+00),
/* 1.25k Hz*/
new IIRCoefficients(9.5961458750e-01, 2.0192706249e-02, 1.9286193446e+00),
/* 1.6k Hz*/
new IIRCoefficients(9.4861481164e-01, 2.5692594182e-02, 1.8982024567e+00),
/* 2.5k Hz*/
new IIRCoefficients(9.2095325455e-01, 3.9523372724e-02, 1.8003794694e+00),
/* 3.15k Hz*/
new IIRCoefficients(9.0153642498e-01, 4.9231787512e-02, 1.7132251201e+00),
/* 4k Hz*/
new IIRCoefficients(8.7685876255e-01, 6.1570618727e-02, 1.5802270232e+00),
/* 5k Hz*/
new IIRCoefficients(8.4886734822e-01, 7.5566325889e-02, 1.3992391376e+00),
/* 8k Hz*/
new IIRCoefficients(7.7175298860e-01, 1.1412350570e-01, 7.4018523020e-01),
/* 10k Hz*/
new IIRCoefficients(7.2627049462e-01, 1.3686475269e-01, 2.5120552756e-01),
/* 12.5k Hz*/
new IIRCoefficients(6.7674787974e-01, 1.6162606013e-01, -3.4978377639e-01),
/* 16k Hz*/
new IIRCoefficients(6.2482197550e-01, 1.8758901225e-01, -1.0576558797e+00),
/* 20k Hz*/
new IIRCoefficients(6.1776148240e-01, 1.9111925880e-01, -1.5492465594e+00)
};
public final static IIRCoefficients iir_cf25_48000[] = {
/* 20 Hz*/
new IIRCoefficients(9.9939388451e-01, 3.0305774630e-04, 1.9993870327e+00),
/* 31.5 Hz*/
new IIRCoefficients(9.9904564663e-01, 4.7717668529e-04, 1.9990286528e+00),
/* 40 Hz*/
new IIRCoefficients(9.9878827195e-01, 6.0586402557e-04, 1.9987608731e+00),
/* 50 Hz*/
new IIRCoefficients(9.9848556942e-01, 7.5721528829e-04, 1.9984427652e+00),
/* 80 Hz*/
new IIRCoefficients(9.9757801538e-01, 1.2109923088e-03, 1.9974684869e+00),
/* 100 Hz*/
new IIRCoefficients(9.9697343933e-01, 1.5132803374e-03, 1.9968023538e+00),
/* 125 Hz*/
new IIRCoefficients(9.9621823598e-01, 1.8908820086e-03, 1.9959510180e+00),
/* 160 Hz*/
new IIRCoefficients(9.9516191728e-01, 2.4190413595e-03, 1.9947243453e+00),
/* 250 Hz*/
new IIRCoefficients(9.9245085008e-01, 3.7745749576e-03, 1.9913840669e+00),
/* 315 Hz*/
new IIRCoefficients(9.9049749914e-01, 4.7512504310e-03, 1.9888056233e+00),
/* 400 Hz*/
new IIRCoefficients(9.8794899744e-01, 6.0255012789e-03, 1.9852245824e+00),
/* 500 Hz*/
new IIRCoefficients(9.8495930023e-01, 7.5203498850e-03, 1.9807093500e+00),
/* 800 Hz*/
new IIRCoefficients(9.7604570090e-01, 1.1977149551e-02, 1.9652207158e+00),
/* 1k Hz*/
new IIRCoefficients(9.7014963927e-01, 1.4925180364e-02, 1.9532947360e+00),
/* 1.25k Hz*/
new IIRCoefficients(9.6283181641e-01, 1.8584091793e-02, 1.9366149237e+00),
/* 1.6k Hz*/
new IIRCoefficients(9.5268463224e-01, 2.3657683878e-02, 1.9100137880e+00),
/* 2.5k Hz*/
new IIRCoefficients(9.2711765003e-01, 3.6441174983e-02, 1.8248457659e+00),
/* 3.15k Hz*/
new IIRCoefficients(9.0912548757e-01, 4.5437256213e-02, 1.7491177803e+00),
/* 4k Hz*/
new IIRCoefficients(8.8619860800e-01, 5.6900696000e-02, 1.6334959111e+00),
/* 5k Hz*/
new IIRCoefficients(8.6010264114e-01, 6.9948679430e-02, 1.4757186436e+00),
/* 8k Hz*/
new IIRCoefficients(7.8757448309e-01, 1.0621275845e-01, 8.9378724155e-01),
/* 10k Hz*/
new IIRCoefficients(7.4415362476e-01, 1.2792318762e-01, 4.5142017567e-01),
/* 12.5k Hz*/
new IIRCoefficients(6.9581428034e-01, 1.5209285983e-01, -1.1091156053e-01),
/* 16k Hz*/
new IIRCoefficients(6.4120506488e-01, 1.7939746756e-01, -8.2060253244e-01),
/* 20k Hz*/
new IIRCoefficients(6.0884213704e-01, 1.9557893148e-01, -1.3932981614e+00)
};
public final static IIRCoefficients iir_cf31_44100[] = {
/* 20 Hz*/
new IIRCoefficients(9.9934037157e-01, 3.2981421662e-04, 1.9993322545e+00),
/* 25 Hz*/
new IIRCoefficients(9.9917555233e-01, 4.1222383516e-04, 1.9991628705e+00),
/* 31.5 Hz*/
new IIRCoefficients(9.9896129025e-01, 5.1935487310e-04, 1.9989411587e+00),
/* 40 Hz*/
new IIRCoefficients(9.9868118265e-01, 6.5940867495e-04, 1.9986487252e+00),
/* 50 Hz*/
new IIRCoefficients(9.9835175161e-01, 8.2412419683e-04, 1.9983010452e+00),
/* 63 Hz*/
new IIRCoefficients(9.9792365217e-01, 1.0381739160e-03, 1.9978431682e+00),
/* 80 Hz*/
new IIRCoefficients(9.9736411067e-01, 1.3179446674e-03, 1.9972343673e+00),
/* 100 Hz*/
new IIRCoefficients(9.9670622662e-01, 1.6468866919e-03, 1.9965035707e+00),
/* 125 Hz*/
new IIRCoefficients(9.9588448566e-01, 2.0577571681e-03, 1.9955679690e+00),
/* 160 Hz*/
new IIRCoefficients(9.9473519326e-01, 2.6324033689e-03, 1.9942169198e+00),
/* 200 Hz*/
new IIRCoefficients(9.9342335280e-01, 3.2883236020e-03, 1.9926141028e+00),
/* 250 Hz*/
new IIRCoefficients(9.9178600786e-01, 4.1069960678e-03, 1.9905226414e+00),
/* 315 Hz*/
new IIRCoefficients(9.8966154150e-01, 5.1692292513e-03, 1.9876580847e+00),
/* 400 Hz*/
new IIRCoefficients(9.8689036168e-01, 6.5548191616e-03, 1.9836646251e+00),
/* 500 Hz*/
new IIRCoefficients(9.8364027156e-01, 8.1798642207e-03, 1.9786090689e+00),
/* 630 Hz*/
new IIRCoefficients(9.7943153305e-01, 1.0284233476e-02, 1.9714629236e+00),
/* 800 Hz*/
new IIRCoefficients(9.7395577681e-01, 1.3022111597e-02, 1.9611472340e+00),
/* 1k Hz*/
new IIRCoefficients(9.6755437936e-01, 1.6222810321e-02, 1.9476180811e+00),
/* 1.25k Hz*/
new IIRCoefficients(9.5961458750e-01, 2.0192706249e-02, 1.9286193446e+00),
/* 1.6k Hz*/
new IIRCoefficients(9.4861481164e-01, 2.5692594182e-02, 1.8982024567e+00),
/* 2k Hz*/
new IIRCoefficients(9.3620971896e-01, 3.1895140519e-02, 1.8581325022e+00),
/* 2.5k Hz*/
new IIRCoefficients(9.2095325455e-01, 3.9523372724e-02, 1.8003794694e+00),
/* 3.15k Hz*/
new IIRCoefficients(9.0153642498e-01, 4.9231787512e-02, 1.7132251201e+00),
/* 4k Hz*/
new IIRCoefficients(8.7685876255e-01, 6.1570618727e-02, 1.5802270232e+00),
/* 5k Hz*/
new IIRCoefficients(8.4886734822e-01, 7.5566325889e-02, 1.3992391376e+00),
/* 6.3k Hz*/
new IIRCoefficients(8.1417575446e-01, 9.2912122771e-02, 1.1311200817e+00),
/* 8k Hz*/
new IIRCoefficients(7.7175298860e-01, 1.1412350570e-01, 7.4018523020e-01),
/* 10k Hz*/
new IIRCoefficients(7.2627049462e-01, 1.3686475269e-01, 2.5120552756e-01),
/* 12.5k Hz*/
new IIRCoefficients(6.7674787974e-01, 1.6162606013e-01, -3.4978377639e-01),
/* 16k Hz*/
new IIRCoefficients(6.2482197550e-01, 1.8758901225e-01, -1.0576558797e+00),
/* 20k Hz*/
new IIRCoefficients(6.1776148240e-01, 1.9111925880e-01, -1.5492465594e+00)
};
public final static IIRCoefficients iir_cf31_48000[] = {
/* 20 Hz*/
new IIRCoefficients(9.9939388451e-01, 3.0305774630e-04, 1.9993870327e+00),
/* 25 Hz*/
new IIRCoefficients(9.9924247917e-01, 3.7876041632e-04, 1.9992317740e+00),
/* 31.5 Hz*/
new IIRCoefficients(9.9904564663e-01, 4.7717668529e-04, 1.9990286528e+00),
/* 40 Hz*/
new IIRCoefficients(9.9878827195e-01, 6.0586402557e-04, 1.9987608731e+00),
/* 50 Hz*/
new IIRCoefficients(9.9848556942e-01, 7.5721528829e-04, 1.9984427652e+00),
/* 63 Hz*/
new IIRCoefficients(9.9809219264e-01, 9.5390367779e-04, 1.9980242502e+00),
/* 80 Hz*/
new IIRCoefficients(9.9757801538e-01, 1.2109923088e-03, 1.9974684869e+00),
/* 100 Hz*/
new IIRCoefficients(9.9697343933e-01, 1.5132803374e-03, 1.9968023538e+00),
/* 125 Hz*/
new IIRCoefficients(9.9621823598e-01, 1.8908820086e-03, 1.9959510180e+00),
/* 160 Hz*/
new IIRCoefficients(9.9516191728e-01, 2.4190413595e-03, 1.9947243453e+00),
/* 200 Hz*/
new IIRCoefficients(9.9395607757e-01, 3.0219612131e-03, 1.9932727986e+00),
/* 250 Hz*/
new IIRCoefficients(9.9245085008e-01, 3.7745749576e-03, 1.9913840669e+00),
/* 315 Hz*/
new IIRCoefficients(9.9049749914e-01, 4.7512504310e-03, 1.9888056233e+00),
/* 400 Hz*/
new IIRCoefficients(9.8794899744e-01, 6.0255012789e-03, 1.9852245824e+00),
/* 500 Hz*/
new IIRCoefficients(9.8495930023e-01, 7.5203498850e-03, 1.9807093500e+00),
/* 630 Hz*/
new IIRCoefficients(9.8108651246e-01, 9.4567437704e-03, 1.9743538683e+00),
/* 800 Hz*/
new IIRCoefficients(9.7604570090e-01, 1.1977149551e-02, 1.9652207158e+00),
/* 1k Hz*/
new IIRCoefficients(9.7014963927e-01, 1.4925180364e-02, 1.9532947360e+00),
/* 1.25k Hz*/
new IIRCoefficients(9.6283181641e-01, 1.8584091793e-02, 1.9366149237e+00),
/* 1.6k Hz*/
new IIRCoefficients(9.5268463224e-01, 2.3657683878e-02, 1.9100137880e+00),
/* 2k Hz*/
new IIRCoefficients(9.4122788957e-01, 2.9386055213e-02, 1.8750821533e+00),
/* 2.5k Hz*/
new IIRCoefficients(9.2711765003e-01, 3.6441174983e-02, 1.8248457659e+00),
/* 3.15k Hz*/
new IIRCoefficients(9.0912548757e-01, 4.5437256213e-02, 1.7491177803e+00),
/* 4k Hz*/
new IIRCoefficients(8.8619860800e-01, 5.6900696000e-02, 1.6334959111e+00),
/* 5k Hz*/
new IIRCoefficients(8.6010264114e-01, 6.9948679430e-02, 1.4757186436e+00),
/* 6.3k Hz*/
new IIRCoefficients(8.2760520925e-01, 8.6197395374e-02, 1.2405797786e+00),
/* 8k Hz*/
new IIRCoefficients(7.8757448309e-01, 1.0621275845e-01, 8.9378724155e-01),
/* 10k Hz*/
new IIRCoefficients(7.4415362476e-01, 1.2792318762e-01, 4.5142017567e-01),
/* 12.5k Hz*/
new IIRCoefficients(6.9581428034e-01, 1.5209285983e-01, -1.1091156053e-01),
/* 16k Hz*/
new IIRCoefficients(6.4120506488e-01, 1.7939746756e-01, -8.2060253244e-01),
/* 20k Hz*/
new IIRCoefficients(6.0884213704e-01, 1.9557893148e-01, -1.3932981614e+00),
};
public final static IIRCoefficients iir_cf31_96000[] = {
/* 20.0 Hz */
new IIRCoefficients(9.9969659208e-01, 1.517040e-04, 1.9996948789e+00),
/* 25.0 Hz */
new IIRCoefficients(9.9962116126e-01, 1.894194e-04, 1.9996184845e+00),
/* 31.5 Hz */
new IIRCoefficients(9.9952283343e-01, 2.385833e-04, 1.9995185840e+00),
/* 40.0 Hz */
new IIRCoefficients(9.9939398196e-01, 3.030090e-04, 1.9993871301e+00),
/* 50.0 Hz */
new IIRCoefficients(9.9924251688e-01, 3.787416e-04, 1.9992318117e+00),
/* 63.0 Hz */
new IIRCoefficients(9.9904565182e-01, 4.771741e-04, 1.9990286580e+00),
/* 80.0 Hz */
new IIRCoefficients(9.9878828573e-01, 6.058571e-04, 1.9987608868e+00),
/* 100.0 Hz */
new IIRCoefficients(9.9848557077e-01, 7.572146e-04, 1.9984427665e+00),
/* 125.0 Hz */
new IIRCoefficients(9.9810732562e-01, 9.463372e-04, 1.9980404568e+00),
/* 160.0 Hz */
new IIRCoefficients(9.9757801618e-01, 1.210992e-03, 1.9974684877e+00),
/* 200.0 Hz */
new IIRCoefficients(9.9697343858e-01, 1.513281e-03, 1.9968023530e+00),
/* 250.0 Hz */
new IIRCoefficients(9.9621823615e-01, 1.890882e-03, 1.9959510182e+00),
/* 315.0 Hz */
new IIRCoefficients(9.9523733132e-01, 2.381334e-03, 1.9948133101e+00),
/* 400.0 Hz */
new IIRCoefficients(9.9395607744e-01, 3.021961e-03, 1.9932727985e+00),
/* 500.0 Hz */
new IIRCoefficients(9.9245084999e-01, 3.774575e-03, 1.9913840669e+00),
/* 630.0 Hz */
new IIRCoefficients(9.9049749915e-01, 4.751250e-03, 1.9888056234e+00),
/* 800.0 Hz */
new IIRCoefficients(9.8794899744e-01, 6.025501e-03, 1.9852245824e+00),
/* 1000.0 Hz */
new IIRCoefficients(9.8495930024e-01, 7.520350e-03, 1.9807093500e+00),
/* 1250.0 Hz */
new IIRCoefficients(9.8123517675e-01, 9.382412e-03, 1.9746084192e+00),
/* 1600.0 Hz */
new IIRCoefficients(9.7604570090e-01, 1.197715e-02, 1.9652207158e+00),
/* 2000.0 Hz */
new IIRCoefficients(9.7014963927e-01, 1.492518e-02, 1.9532947360e+00),
/* 2500.0 Hz */
new IIRCoefficients(9.6283181641e-01, 1.858409e-02, 1.9366149237e+00),
/* 3150.0 Hz */
new IIRCoefficients(9.5340564248e-01, 2.329718e-02, 1.9120378855e+00),
/* 4000.0 Hz */
new IIRCoefficients(9.4122788957e-01, 2.938606e-02, 1.8750821533e+00),
/* 5000.0 Hz */
new IIRCoefficients(9.2711765003e-01, 3.644117e-02, 1.8248457659e+00),
/* 6300.0 Hz */
new IIRCoefficients(9.0912548757e-01, 4.543726e-02, 1.7491177803e+00),
/* 8000.0 Hz */
new IIRCoefficients(8.8619860800e-01, 5.690070e-02, 1.6334959111e+00),
/* 10000.0 Hz */
new IIRCoefficients(8.6010264114e-01, 6.994868e-02, 1.4757186436e+00),
/* 12500.0 Hz */
new IIRCoefficients(8.2882509035e-01, 8.558745e-02, 1.2501707535e+00),
/* 16000.0 Hz */
new IIRCoefficients(7.8757448309e-01, 1.062128e-01, 8.9378724155e-01),
/* 20000.0 Hz */
new IIRCoefficients(7.4415362476e-01, 1.279232e-01, 4.5142017567e-01),
};
}

36
src/davaguine/jeq/core/IIRCoefficients.java
View File

@@ -1,36 +0,0 @@
/*
* 21.04.2004 Original verion. davagin@udm.ru.
*-----------------------------------------------------------------------
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*----------------------------------------------------------------------
*/
package davaguine.jeq.core;
/**
* Author: Dmitry Vaguine
* Date: 02.05.2004
* Time: 12:00:29
*/
public class IIRCoefficients {
public double beta;
public double alpha;
public double gamma;
public IIRCoefficients(double beta, double alpha, double gamma) {
this.beta = beta;
this.alpha = alpha;
this.gamma = gamma;
}
}

214
src/davaguine/jeq/core/IIRControls.java
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@@ -1,214 +0,0 @@
/*
* 21.04.2004 Original verion. davagin@udm.ru.
*-----------------------------------------------------------------------
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*----------------------------------------------------------------------
*/
package davaguine.jeq.core;
/**
* Constols of equalizer
* Author: Dmitry Vaguine
* Date: 02.05.2004
* Time: 12:00:29
*/
public class IIRControls {
/**
* Volume gain
* values should be between 0.0 and 1.0
*/
private float preamp[];
/**
* Gain for each band
* values should be between -0.2 and 1.0
*/
private float bands[][];
/**
* Creates new IIRControls object for given number of bands
*
* @param bandsnum is the number of bands
* @param channels is the number of channels
*/
public IIRControls(int bandsnum, int channels) {
preamp = new float[channels];
bands = new float[bandsnum][channels];
for (int j = 0; j < channels; j++) {
preamp[j] = 1.0f;
for (int i = 0; i < bandsnum; i++)
bands[i][j] = 0f;
}
}
/**
* Returns the maximum value for band control
*
* @return the maximum value for band control
*/
public float getMaximumBandValue() {
return 1.0f;
}
/**
* Returns the minimum value for band control
*
* @return the minimum value for band control
*/
public float getMinimumBandValue() {
return -0.2f;
}
/**
* Returns the maximum value for band control (in Db)
*
* @return the maximum value for band control
*/
public float getMaximumBandDbValue() {
return 12;
}
/**
* Returns the minimum value for band control (in Db)
*
* @return the minimum value for band control
*/
public float getMinimumBandDbValue() {
return -12f;
}
/**
* Returns the maximum value for preamp control
*
* @return the maximum value for preamp control
*/
public float getMaximumPreampValue() {
return 1.0f;
}
/**
* Returns the minimum value for preamp control
*
* @return the minimum value for preamp control
*/
public float getMinimumPreampValue() {
return 0f;
}
/**
* Returns the maximum value for preamp control (in Db)
*
* @return the maximum value for preamp control
*/
public float getMaximumPreampDbValue() {
return 12f;
}
/**
* Returns the minimum value for preamp control (in Db)
*
* @return the minimum value for preamp control
*/
public float getMinimumPreampDbValue() {
return -12f;
}
/**
* Returns bands array
*
* @return bands array
*/
float[][] getBands() {
return bands;
}
/**
* Returns preamp array
*
* @return preamp array
*/
float[] getPreamp() {
return preamp;
}
/**
* Returns value of control for given band and channel
*
* @param band is the index of band
* @param channel is the index of channel
* @return the value
*/
public float getBandValue(int band, int channel) {
return bands[band][channel];
}
/**
* Setter for value of control for given band and channel
*
* @param band is the index of band
* @param channel is the index of channel
* @param value is the new value
*/
public void setBandValue(int band, int channel, float value) {
bands[band][channel] = value;
}
/**
* Setter for value of control for given band and channel (in Db)
*
* @param band is the index of band
* @param channel is the index of channel
* @param value is the new value
*/
public void setBandDbValue(int band, int channel, float value) {
/* Map the gain and preamp values */
/* -12dB .. 12dB mapping */
bands[band][channel] = (float) (2.5220207857061455181125E-01 *
Math.exp(8.0178361802353992349168E-02 * value)
- 2.5220207852836562523180E-01);
}
/**
* Returns value of preamp control for given channel
*
* @param channel is the index of channel
* @return the value
*/
public float getPreampValue(int channel) {
return preamp[channel];
}
/**
* Setter for value of preamp control for given channel
*
* @param channel is the index of channel
* @param value is the new value
*/
public void setPreampValue(int channel, float value) {
preamp[channel] = value;
}
/**
* Setter for value of preamp control for given channel (in Db)
*
* @param channel is the index of channel
* @param value is the new value
*/
public void setPreampDbValue(int channel, float value) {
/* -12dB .. 12dB mapping */
preamp[channel] = (float) (9.9999946497217584440165E-01 *
Math.exp(6.9314738656671842642609E-02 * value)
+ 3.7119444716771825623636E-07);
}
}

53
src/davaguine/jeq/core/XYData.java
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/*
* 21.04.2004 Original verion. davagin@udm.ru.
*-----------------------------------------------------------------------
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*----------------------------------------------------------------------
*/
package davaguine.jeq.core;
/**
* Structure for storing XYData of equalizer.
* Author: Dmitry Vaguine
* Date: 02.05.2004
* Time: 12:00:29
*/
public class XYData {
/**
* X data
*/
public double x[] = new double[3]; /* x[n], x[n-1], x[n-2] */
/**
* Y data
*/
public double y[] = new double[3]; /* y[n], y[n-1], y[n-2] */
/**
* Constructs new XYData object
*/
public XYData() {
zero();
}
/**
* Fills all content with zero
*/
public void zero() {
for (int i = 0; i < 3; i++) {
x[i] = 0;
y[i] = 0;
}
}
}

265
src/davaguine/jeq/spi/EqualizerInputStream.java
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/*
* 21.04.2004 Original verion. davagin@udm.ru.
*-----------------------------------------------------------------------
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*----------------------------------------------------------------------
*/
package davaguine.jeq.spi;
import davaguine.jeq.core.IIRControls;
import javax.sound.sampled.AudioFormat;
import javax.sound.sampled.AudioInputStream;
import java.io.IOException;
/**
* The EqualizerInputStream input stream
* Author: Dmitry Vaguine
* Date: 02.05.2004
* Time: 12:00:29
*/
public class EqualizerInputStream extends AudioInputStream {
private davaguine.jeq.core.EqualizerInputStream eq;
/**
* Constructs new audio stream
*
* @param stream input stream with audio data
* @param bands is the number of bands
*/
public EqualizerInputStream(AudioInputStream stream, int bands) {
super(stream, stream.getFormat(), stream.getFrameLength());
AudioFormat format = stream.getFormat();
if (!format.getEncoding().equals(AudioFormat.Encoding.PCM_SIGNED) && !!format.getEncoding().equals(AudioFormat.Encoding.PCM_UNSIGNED))
throw new IllegalArgumentException("Unsupported encoding");
eq = new davaguine.jeq.core.EqualizerInputStream(stream,
format.getSampleRate(),
format.getChannels(),
format.getEncoding().equals(AudioFormat.Encoding.PCM_SIGNED),
format.getSampleSizeInBits(),
format.isBigEndian(),
bands);
}
/**
* Returns Controls of equalizer
*
* @return Controls of equalizer
*/
public IIRControls getControls() {
return eq.getControls();
}
/**
* This is special method helps to determine supported audio format
*
* @param format is an audio format
* @param bands is the number of bands
* @return true if params supported
*/
public static boolean isParamsSupported(AudioFormat format, int bands) {
if (!format.getEncoding().equals(AudioFormat.Encoding.PCM_SIGNED) && !!format.getEncoding().equals(AudioFormat.Encoding.PCM_UNSIGNED))
return false;
return davaguine.jeq.core.EqualizerInputStream.isParamsSupported(
format.getSampleRate(),
format.getChannels(),
format.getSampleSizeInBits(),
bands);
}
/**
* Returns the number of bytes that can be read (or skipped over) from
* this input stream without blocking by the next caller of a method for
* this input stream. The next caller might be the same thread or
* another thread.
*
* @return the number of bytes that can be read from this input stream
* without blocking.
* @throws java.io.IOException if an I/O error occurs.
*/
public int available() throws IOException {
return eq.available();
}
/**
* Closes this input stream and releases any system resources associated
* with the stream.
*
* @throws IOException if an I/O error occurs.
*/
public void close() throws IOException {
eq.close();
}
/**
* <p> The <code>mark</code> method of <code>EqualizerInputStream</code> does
* nothing.
*
* @param readlimit the maximum limit of bytes that can be read before
* the mark position becomes invalid.
*/
public synchronized void mark(int readlimit) {
eq.mark(readlimit);
}
/**
* Tests if this input stream supports the <code>mark</code> and
* <code>reset</code> methods. Whether or not <code>mark</code> and
* <code>reset</code> are supported is an invariant property of a
* particular input stream instance. The <code>markSupported</code> method
* of <code>EqualizerInputStream</code> returns <code>false</code>.
*
* @return false
*/
public boolean markSupported() {
return eq.markSupported();
}
/**
* Reads the next byte of data from the input stream. The value byte is
* returned as an <code>int</code> in the range <code>0</code> to
* <code>255</code>. If no byte is available because the end of the stream
* has been reached, the value <code>-1</code> is returned. This method
* blocks until input data is available, the end of the stream is detected,
* or an exception is thrown.
*
* @return the next byte of data, or <code>-1</code> if the end of the
* stream is reached.
* @throws IOException if an I/O error occurs.
*/
public int read() throws IOException {
return eq.read();
}
/**
* Reads some number of bytes from the input stream and stores them into
* the buffer array <code>b</code>. The number of bytes actually read is
* returned as an integer. This method blocks until input data is
* available, end of file is detected, or an exception is thrown.
* <p/>
* <p> If <code>b</code> is <code>null</code>, a
* <code>NullPointerException</code> is thrown. If the length of
* <code>b</code> is zero, then no bytes are read and <code>0</code> is
* returned; otherwise, there is an attempt to read at least one byte. If
* no byte is available because the stream is at end of file, the value
* <code>-1</code> is returned; otherwise, at least one byte is read and
* stored into <code>b</code>.
* <p/>
* <p> The first byte read is stored into element <code>b[0]</code>, the
* next one into <code>b[1]</code>, and so on. The number of bytes read is,
* at most, equal to the length of <code>b</code>. Let <i>k</i> be the
* number of bytes actually read; these bytes will be stored in elements
* <code>b[0]</code> through <code>b[</code><i>k</i><code>-1]</code>,
* leaving elements <code>b[</code><i>k</i><code>]</code> through
* <code>b[b.length-1]</code> unaffected.
* <p/>
* <p> If the first byte cannot be read for any reason other than end of
* file, then an <code>IOException</code> is thrown. In particular, an
* <code>IOException</code> is thrown if the input stream has been closed.
* <p/>
* <p> The <code>read(b)</code> method for class <code>EqualizerInputStream</code>
* has the same effect as: <pre><code> read(b, 0, b.length) </code></pre>
*
* @param b the buffer into which the data is read.
* @return the total number of bytes read into the buffer, or
* <code>-1</code> is there is no more data because the end of
* the stream has been reached.
* @throws IOException if an I/O error occurs.
* @throws NullPointerException if <code>b</code> is <code>null</code>.
*/
public int read(byte b[]) throws IOException {
return read(b, 0, b.length);
}
/**
* Reads up to <code>len</code> bytes of data from the input stream into
* an array of bytes. An attempt is made to read as many as
* <code>len</code> bytes, but a smaller number may be read.
* The number of bytes actually read is returned as an integer.
* <p/>
* <p> This method blocks until input data is available, end of file is
* detected, or an exception is thrown.
* <p/>
* <p> If <code>b</code> is <code>null</code>, a
* <code>NullPointerException</code> is thrown.
* <p/>
* <p> If <code>off</code> is negative, or <code>len</code> is negative, or
* <code>off+len</code> is greater than the length of the array
* <code>b</code>, then an <code>IndexOutOfBoundsException</code> is
* thrown.
* <p/>
* <p> If <code>len</code> is zero, then no bytes are read and
* <code>0</code> is returned; otherwise, there is an attempt to read at
* least one byte. If no byte is available because the stream is at end of
* file, the value <code>-1</code> is returned; otherwise, at least one
* byte is read and stored into <code>b</code>.
* <p/>
* <p> The first byte read is stored into element <code>b[off]</code>, the
* next one into <code>b[off+1]</code>, and so on. The number of bytes read
* is, at most, equal to <code>len</code>. Let <i>k</i> be the number of
* bytes actually read; these bytes will be stored in elements
* <code>b[off]</code> through <code>b[off+</code><i>k</i><code>-1]</code>,
* leaving elements <code>b[off+</code><i>k</i><code>]</code> through
* <code>b[off+len-1]</code> unaffected.
* <p/>
* <p> In every case, elements <code>b[0]</code> through
* <code>b[off]</code> and elements <code>b[off+len]</code> through
* <code>b[b.length-1]</code> are unaffected.
* <p/>
* <p> If the first byte cannot be read for any reason other than end of
* file, then an <code>IOException</code> is thrown. In particular, an
* <code>IOException</code> is thrown if the input stream has been closed.
*
* @param b the buffer into which the data is read.
* @param off the start offset in array <code>b</code>
* at which the data is written.
* @param len the maximum number of bytes to read.
* @return the total number of bytes read into the buffer, or
* <code>-1</code> if there is no more data because the end of
* the stream has been reached.
* @throws IOException if an I/O error occurs.
* @throws NullPointerException if <code>b</code> is <code>null</code>.
*/
public int read(byte[] b, int off, int len) throws IOException {
return eq.read(b, off, len);
}
/**
* <p>The method <code>reset</code> for class <code>EqualizerInputStream</code>
* does nothing except throw an <code>IOException</code>.
*
* @throws IOException as an indication that the mark feature doesn't supported by EqualizerInputStream.
*/
public void reset() throws IOException {
eq.reset();
}
/**
* Skips over and discards <code>n</code> bytes of data from this input
* stream. The <code>skip</code> method may, for a variety of reasons, end
* up skipping over some smaller number of bytes, possibly <code>0</code>.
* This may result from any of a number of conditions; reaching end of file
* before <code>n</code> bytes have been skipped is only one possibility.
* The actual number of bytes skipped is returned. If <code>n</code> is
* negative, no bytes are skipped.
*
* @param n the number of bytes to be skipped.
* @return the actual number of bytes skipped.
* @throws IOException if an I/O error occurs.
*/
public long skip(long n) throws IOException {
return eq.skip(n);
}
}

67
src/uk/co/majenko/audiobookrecorder/AGC.java Normal file
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package uk.co.majenko.audiobookrecorder;
import java.util.ArrayList;
public class AGC implements Effect {
double limit;
double gain;
double ceiling;
double decay;
double attack;
public AGC(double c, double a, double d, double l) {
ceiling = c;
attack = a;
decay = d;
limit = l;
gain = 1d;
}
public String getName() {
return "AGC (Ceiling = " + ceiling + " attack = " + attack + " decay = " + decay + " limit = " + limit;
}
public String toString() {
return getName();
}
public void process(double[][] samples) {
gain = 1d;
for (int i = 0; i < samples.length; i++) {
double absSampleLeft = Math.abs(samples[i][Sentence.LEFT]) * gain;
double absSampleRight = Math.abs(samples[i][Sentence.RIGHT]) * gain;
if (absSampleLeft > ceiling) {
gain -= attack;
if (gain < 0) gain = 0;
}
if (absSampleRight > ceiling) {
gain -= attack;
if (gain < 0) gain = 0;
}
if ((absSampleLeft < ceiling) && (absSampleRight < ceiling)) {
gain += decay;
if (gain > limit) {
gain = limit;
}
}
samples[i][Sentence.LEFT] *= gain;
samples[i][Sentence.RIGHT] *= gain;
}
}
public void init(double sr) {
gain = 1d;
}
public void dump() {
System.out.println(toString());
}
public ArrayList<Effect> getChildEffects() {
return null;
}
}

47
src/uk/co/majenko/audiobookrecorder/Amplifier.java Normal file
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package uk.co.majenko.audiobookrecorder;
import java.util.ArrayList;
public class Amplifier implements Effect {
double gain;
public Amplifier() {
gain = 1.0d;
}
public Amplifier(double g) {
gain = g;
}
public String getName() {
return "Amplifier (" + gain + ")";
}
public ArrayList<Effect> getChildEffects() {
return null;
}
public void process(double[][] samples) {
for (int i = 0; i < samples.length; i++) {
samples[i][Sentence.LEFT] *= gain;
samples[i][Sentence.RIGHT] *= gain;
}
}
public double getGain() {
return gain;
}
public void setGain(double g) {
gain = g;
}
public String toString() {
return getName();
}
public void dump() {
System.out.println(toString());
}
public void init(double sf) {
}
}

767
src/uk/co/majenko/audiobookrecorder/AudiobookRecorder.java
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src/uk/co/majenko/audiobookrecorder/Biquad.java Normal file
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package uk.co.majenko.audiobookrecorder;
// Biquad.java
//
// Created by Nigel Redmon on 11/24/12
// EarLevel Engineering: earlevel.com
// Copyright 2012 Nigel Redmon
// Translated to Java 2019 Majenko Technologies
//
// For a complete explanation of the Biquad code:
// http://www.earlevel.com/main/2012/11/26/biquad-c-source-code/
//
// License:
//
// This source code is provided as is, without warranty.
// You may copy and distribute verbatim copies of this document.
// You may modify and use this source code to create binary code
// for your own purposes, free or commercial.
//
import java.util.ArrayList;
public class Biquad implements Effect {
public static final int Lowpass = 0;
public static final int Highpass = 1;
public static final int Bandpass = 2;
public static final int Notch = 3;
public static final int Peak = 4;
public static final int Lowshelf = 5;
public static final int Highshelf = 6;
int type;
double a0, a1, a2, b1, b2;
double Fc, Q, peakGain;
double lz1, lz2;
double rz1, rz2;
double sampleFrequency;
public Biquad() {
type = Lowpass;
a0 = 1.0d;
a1 = 0.0d;
a2 = 0.0d;
b1 = 0.0d;
b2 = 0.0d;
Fc = 440d;
Q = 0.707d;
peakGain = 0.0d;
lz1 = 0.0d;
lz2 = 0.0d;
rz1 = 0.0d;
rz2 = 0.0d;
sampleFrequency = 44100d;
}
public Biquad(int type, double Fc, double Q, double peakGainDB) {
setBiquad(type, Fc, Q, peakGainDB);
lz1 = 0.0;
lz2 = 0.0;
rz1 = 0.0;
rz2 = 0.0;
sampleFrequency = 44100d;
}
public void setType(int typei) {
type = typei;
calcBiquad();
}
public void setQ(double Qi) {
Q = Qi;
calcBiquad();
}
public void setFc(double Fci) {
Fc = Fci;
calcBiquad();
}
public void setPeakGain(double peakGainDB) {
peakGain = peakGainDB;
calcBiquad();
}
public void setBiquad(int typei, double Fci, double Qi, double peakGainDB) {
type = typei;
Q = Qi;
Fc = Fci;
setPeakGain(peakGainDB);
}
public void process(double[][] samples) {
lz1 = 0d;
lz2 = 0d;
rz1 = 0d;
rz2 = 0d;
for (double[] in : samples) {
double lout = in[Sentence.LEFT] * a0 + lz1;
lz1 = in[Sentence.LEFT] * a1 + lz2 - b1 * lout;
lz2 = in[Sentence.LEFT] * a2 - b2 * lout;
double rout = in[Sentence.RIGHT] * a0 + rz1;
rz1 = in[Sentence.RIGHT] * a1 + rz2 - b1 * rout;
rz2 = in[Sentence.RIGHT] * a2 - b2 * rout;
in[Sentence.LEFT] = lout;
in[Sentence.RIGHT] = rout;
}
}
public void init(double sf) {
sampleFrequency = sf;
lz1 = 0d;
lz2 = 0d;
rz1 = 0d;
rz2 = 0d;
calcBiquad();
}
void calcBiquad() {
double norm;
double V = Math.pow(10, Math.abs(peakGain) / 20.0);
double K = Math.tan(Math.PI * (Fc/sampleFrequency));
switch (type) {
case Lowpass:
norm = 1d / (1d + K / Q + K * K);
a0 = K * K * norm;
a1 = 2d * a0;
a2 = a0;
b1 = 2d * (K * K - 1d) * norm;
b2 = (1d - K / Q + K * K) * norm;
break;
case Highpass:
norm = 1d / (1d + K / Q + K * K);
a0 = 1d * norm;
a1 = -2d * a0;
a2 = a0;
b1 = 2d * (K * K - 1d) * norm;
b2 = (1d - K / Q + K * K) * norm;
break;
case Bandpass:
norm = 1d / (1d + K / Q + K * K);
a0 = K / Q * norm;
a1 = 0d;
a2 = -a0;
b1 = 2d * (K * K - 1d) * norm;
b2 = (1d - K / Q + K * K) * norm;
break;
case Notch:
norm = 1d / (1d + K / Q + K * K);
a0 = (1d + K * K) * norm;
a1 = 2d * (K * K - 1d) * norm;
a2 = a0;
b1 = a1;
b2 = (1d - K / Q + K * K) * norm;
break;
case Peak:
if (peakGain >= 0d) { // boost
norm = 1d / (1d + 1d/Q * K + K * K);
a0 = (1d + V/Q * K + K * K) * norm;
a1 = 2d * (K * K - 1d) * norm;
a2 = (1d - V/Q * K + K * K) * norm;
b1 = a1;
b2 = (1d - 1d/Q * K + K * K) * norm;
}
else { // cut
norm = 1d / (1d + V/Q * K + K * K);
a0 = (1d + 1d/Q * K + K * K) * norm;
a1 = 2d * (K * K - 1d) * norm;
a2 = (1d - 1d/Q * K + K * K) * norm;
b1 = a1;
b2 = (1d - V/Q * K + K * K) * norm;
}
break;
case Lowshelf:
if (peakGain >= 0) { // boost
norm = 1d / (1 + Math.sqrt(2d) * K + K * K);
a0 = (1d + Math.sqrt(2d*V) * K + V * K * K) * norm;
a1 = 2d * (V * K * K - 1d) * norm;
a2 = (1d - Math.sqrt(2d*V) * K + V * K * K) * norm;
b1 = 2d * (K * K - 1d) * norm;
b2 = (1d - Math.sqrt(2d) * K + K * K) * norm;
}
else { // cut
norm = 1d / (1 + Math.sqrt(2d*V) * K + V * K * K);
a0 = (1d + Math.sqrt(2d) * K + K * K) * norm;
a1 = 2d * (K * K - 1d) * norm;
a2 = (1d - Math.sqrt(2d) * K + K * K) * norm;
b1 = 2d * (V * K * K - 1d) * norm;
b2 = (1d - Math.sqrt(2d*V) * K + V * K * K) * norm;
}
break;
case Highshelf:
if (peakGain >= 0d) { // boost
norm = 1d / (1d + Math.sqrt(2d) * K + K * K);
a0 = (V + Math.sqrt(2d*V) * K + K * K) * norm;
a1 = 2d * (K * K - V) * norm;
a2 = (V - Math.sqrt(2d*V) * K + K * K) * norm;
b1 = 2d * (K * K - 1d) * norm;
b2 = (1d - Math.sqrt(2d) * K + K * K) * norm;
}
else { // cut
norm = 1d / (V + Math.sqrt(2d*V) * K + K * K);
a0 = (1d + Math.sqrt(2d) * K + K * K) * norm;
a1 = 2d * (K * K - 1d) * norm;
a2 = (1d - Math.sqrt(2d) * K + K * K) * norm;
b1 = 2d * (K * K - V) * norm;
b2 = (V - Math.sqrt(2d*V) * K + K * K) * norm;
}
break;
}
return;
}
public String getName() {
String n = "Biquad Filter (";
switch (type) {
case Lowpass: n += "Lowpass"; break;
case Highpass: n += "Highpass"; break;
case Bandpass: n += "Bandpass"; break;
case Notch: n += "Notch"; break;
case Peak: n += "Peak"; break;
case Lowshelf: n += "Lowshelf"; break;
case Highshelf: n += "Highshelf"; break;
}
n += ", Fc=";
n += Fc;
n += ", Q=";
n += Q;
n += ", Gain=";
n += peakGain;
n += "dB)";
return n;
}
public ArrayList<Effect> getChildEffects() {
return null;
}
public String toString() {
return getName();
}
public void dump() {
System.out.println(toString());
}
}

54
src/uk/co/majenko/audiobookrecorder/Book.java
View File

@@ -8,7 +8,6 @@ import java.util.*;
import java.io.*; import java.io.*;
import java.nio.file.*; import java.nio.file.*;
import javax.swing.tree.*; import javax.swing.tree.*;
import davaguine.jeq.core.IIRControls;
import javax.sound.sampled.*; import javax.sound.sampled.*;
public class Book extends DefaultMutableTreeNode { public class Book extends DefaultMutableTreeNode {
@@ -25,14 +24,13 @@ public class Book extends DefaultMutableTreeNode {
ImageIcon icon; ImageIcon icon;
public Equaliser equaliser; Properties prefs;
float[] eqChannels = new float[31]; public Book(Properties p, String bookname) {
public Book(String bookname) {
super(bookname); super(bookname);
prefs = p;
name = bookname; name = bookname;
equaliser = new Equaliser();
AudiobookRecorder.window.setTitle("AudioBook Recorder :: " + name); AudiobookRecorder.window.setTitle("AudioBook Recorder :: " + name);
} }
@@ -164,4 +162,48 @@ public class Book extends DefaultMutableTreeNode {
public AudioFormat getAudioFormat() { public AudioFormat getAudioFormat() {
return new AudioFormat(getSampleRate(), getResolution(), getChannels(), true, false); return new AudioFormat(getSampleRate(), getResolution(), getChannels(), true, false);
} }
public String get(String key) {
if (prefs.getProperty(key) == null) { return Options.get(key); }
return prefs.getProperty(key);
}
public Integer getInteger(String key) {
if (prefs.getProperty(key) == null) { return Options.getInteger(key); }
return Utils.s2i(prefs.getProperty(key));
}
public void set(String key, String value) {
prefs.setProperty(key, value);
}
public void set(String key, Integer value) {
prefs.setProperty(key, "" + value);
}
public File getBookFolder() {
File dir = new File(Options.get("path.storage"), name);
return dir;
}
public ArrayList<String> getUsedEffects() {
ArrayList<String> out = new ArrayList<String>();
for (Enumeration o = children(); o.hasMoreElements();) {
Object ob = (Object)o.nextElement();
if (ob instanceof Chapter) {
Chapter c = (Chapter)ob;
ArrayList<String> effs = c.getUsedEffects();
for (String ef : effs) {
if (out.indexOf(ef) == -1) {
out.add(ef);
}
}
}
}
return out;
}
} }

36
src/uk/co/majenko/audiobookrecorder/BookTreeRenderer.java
View File

@@ -11,22 +11,34 @@ public class BookTreeRenderer extends DefaultTreeCellRenderer {
if (value instanceof Sentence) { if (value instanceof Sentence) {
Sentence s = (Sentence)value; Sentence s = (Sentence)value;
if (s.getAttentionFlag()) { OverlayIcon icn = new OverlayIcon(Icons.sentence);
ret.setForeground(new Color(0xFF, 0xFF, 0x00));
ret.setIcon(Icons.attention); if (s.getOverrideText() != null) {
} else if (s.isLocked()) { ret.setText(s.getOverrideText());
ret.setForeground(new Color(0x00, 0x80, 0xFF));
ret.setIcon(Icons.locked);
} else if (s.getStartOffset() == 0) {
ret.setIcon(Icons.important);
} else {
ret.setIcon(Icons.sentence);
} }
if (s.isInSample()) { if (s.getAttentionFlag()) {
ret.setIcon(Icons.star); ret.setForeground(new Color(0xFF, 0xFF, 0x00));
icn.add(Overlays.attention, OverlayIcon.TOP_LEFT);
}
if (s.isLocked()) {
ret.setForeground(new Color(0x00, 0x80, 0xFF));
icn.add(Overlays.locked, OverlayIcon.BOTTOM_LEFT);
}
if (s.getStartOffset() == 0) {
icn.add(Overlays.important, OverlayIcon.TOP_RIGHT);
}
if (s.getEffectChain() != null) {
if (!s.getEffectChain().equals("none")) {
icn.add(Overlays.filter, OverlayIcon.BOTTOM_RIGHT);
}
} }
ret.setIcon(icn);
} else if (value instanceof Chapter) { } else if (value instanceof Chapter) {
ret.setIcon(Icons.chapter); ret.setIcon(Icons.chapter);
} else if (value instanceof Book) { } else if (value instanceof Book) {

58
src/uk/co/majenko/audiobookrecorder/Chain.java Normal file
View File

@@ -0,0 +1,58 @@
package uk.co.majenko.audiobookrecorder;
import java.util.ArrayList;
public class Chain implements Effect {
String target;
public Chain(String t) {
target = t;
}
public Chain() {
target = null;
}
public void process(double[][] samples) {
if (target != null) {
Effect t = AudiobookRecorder.window.effects.get(target);
if (t != null) {
t.process(samples);
}
}
}
public void setTarget(String t) {
target = t;
}
public String getTarget() {
return target;
}
public String toString() {
return "Chain to " + target;
}
public void dump() {
System.out.println(toString());
}
public void init(double sf) {
if (target != null) {
Effect t = AudiobookRecorder.window.effects.get(target);
if (t != null) {
t.init(sf);
}
}
}
public ArrayList<Effect> getChildEffects() {
return null;
}
public String getName() {
return toString();
}
}

25
src/uk/co/majenko/audiobookrecorder/Chapter.java
View File

@@ -121,7 +121,8 @@ public class Chapter extends DefaultMutableTreeNode {
attributes.setAudioAttributes(audioAttributes); attributes.setAudioAttributes(audioAttributes);
AudioFormat format = AudiobookRecorder.window.roomNoise.getAudioFormat(); AudioFormat sampleformat = AudiobookRecorder.window.roomNoise.getAudioFormat();
AudioFormat format = new AudioFormat(sampleformat.getSampleRate(), 16, 2, true, false);
byte[] data; byte[] data;
int fullLength = 0; int fullLength = 0;
@@ -135,7 +136,7 @@ public class Chapter extends DefaultMutableTreeNode {
File exportFile = new File(export, name + ".wax"); File exportFile = new File(export, name + ".wax");
File wavFile = new File(export, name + ".wav"); File wavFile = new File(export, name + ".wav");
File mp3File = new File(export, name + "-untagged.mp3"); File mp3File = new File(export, name + "-untagged.mp3");
File taggedFile = new File(export, name + ".mp3"); File taggedFile = new File(export, book.getName() + " - " + name + ".mp3");
FileOutputStream fos = new FileOutputStream(exportFile); FileOutputStream fos = new FileOutputStream(exportFile);
data = AudiobookRecorder.window.getRoomNoise(Utils.s2i(Options.get("catenation.pre-chapter"))); data = AudiobookRecorder.window.getRoomNoise(Utils.s2i(Options.get("catenation.pre-chapter")));
@@ -149,7 +150,7 @@ public class Chapter extends DefaultMutableTreeNode {
kidno++; kidno++;
if (exportDialog != null) exportDialog.setProgress(kidno * 1000 / kids); if (exportDialog != null) exportDialog.setProgress(kidno * 1000 / kids);
Sentence snt = (Sentence)s.nextElement(); Sentence snt = (Sentence)s.nextElement();
data = snt.getRawAudioData(); data = snt.getPCMData();
fullLength += data.length; fullLength += data.length;
fos.write(data); fos.write(data);
@@ -214,4 +215,22 @@ public class Chapter extends DefaultMutableTreeNode {
return totalTime; return totalTime;
} }
public ArrayList<String> getUsedEffects() {
ArrayList<String> out = new ArrayList<String>();
for (Enumeration o = children(); o.hasMoreElements();) {
Object ob = (Object)o.nextElement();
if (ob instanceof Sentence) {
Sentence s = (Sentence)ob;
String ec = s.getEffectChain();
if (out.indexOf(ec) == -1) {
out.add(ec);
}
}
}
return out;
}
} }

49
src/uk/co/majenko/audiobookrecorder/Clipping.java Normal file
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@@ -0,0 +1,49 @@
package uk.co.majenko.audiobookrecorder;
import java.util.ArrayList;
public class Clipping implements Effect {
double clip;
public Clipping() {
clip = 1.0d;
}
public Clipping(double g) {
clip = g;
}
public String getName() {
return "Clipping (" + clip + ")";
}
public ArrayList<Effect> getChildEffects() {
return null;
}
public void process(double[][] samples) {
for (double[] sample : samples) {
if (sample[Sentence.LEFT] > clip) sample[Sentence.LEFT] = clip;
if (sample[Sentence.LEFT] < -clip) sample[Sentence.LEFT] = -clip;
if (sample[Sentence.RIGHT] > clip) sample[Sentence.RIGHT] = clip;
if (sample[Sentence.RIGHT] < -clip) sample[Sentence.RIGHT] = -clip;
}
}
public double getClip() {
return clip;
}
public void setClip(double g) {
clip = g;
}
public String toString() {
return getName();
}
public void dump() {
System.out.println(toString());
}
public void init(double sf) {
}
}

115
src/uk/co/majenko/audiobookrecorder/DelayLine.java Normal file
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@@ -0,0 +1,115 @@
package uk.co.majenko.audiobookrecorder;
import java.util.ArrayList;
public class DelayLine implements Effect {
ArrayList<DelayLineStore> delayLines;
boolean wetOnly = false;
public DelayLine() {
delayLines = new ArrayList<DelayLineStore>();
}
public String getName() {
return "Delay Line (" + delayLines.size() + " lines)";
}
public void process(double[][] samples) {
double[][] savedSamples = new double[samples.length][2];
for (int i = 0; i < samples.length; i++) {
savedSamples[i][Sentence.LEFT] = samples[i][Sentence.LEFT];
savedSamples[i][Sentence.RIGHT] = samples[i][Sentence.RIGHT];
}
if (wetOnly) {
for (int i = 0; i < samples.length; i++) {
samples[i][Sentence.LEFT] = 0d;
samples[i][Sentence.RIGHT] = 0d;
}
}
double[][] subSamples = new double[samples.length][2];
for (int i = 0; i < samples.length; i++) {
subSamples[i][Sentence.LEFT] = savedSamples[i][Sentence.LEFT];
subSamples[i][Sentence.RIGHT] = savedSamples[i][Sentence.RIGHT];
}
for (DelayLineStore d : delayLines) {
for (int i = 0; i < samples.length; i++) {
subSamples[i][Sentence.LEFT] = savedSamples[i][Sentence.LEFT];
subSamples[i][Sentence.RIGHT] = savedSamples[i][Sentence.RIGHT];
}
d.process(subSamples);
for (int i = 0; i < subSamples.length; i++) {
int off = i + d.getSamples();
if ((off < samples.length) && (off > 0)) {
double[] ns = mix(samples[off], subSamples[i]);
samples[off][Sentence.LEFT] = ns[Sentence.LEFT];
samples[off][Sentence.RIGHT] = ns[Sentence.RIGHT];
}
}
}
}
double[] mix(double[] a, double[] b) {
double[] out = new double[2];
if ((a[Sentence.LEFT] < 0) && (b[Sentence.LEFT] < 0)) {
out[Sentence.LEFT] = (a[Sentence.LEFT] + b[Sentence.LEFT]) - (a[Sentence.LEFT] * b[Sentence.LEFT]);
} else if ((a[Sentence.LEFT] > 0) && (b[Sentence.LEFT] > 0)) {
out[Sentence.LEFT] = (a[Sentence.LEFT] + b[Sentence.LEFT]) - (a[Sentence.LEFT] * b[Sentence.LEFT]);
} else {
out[Sentence.LEFT] = a[Sentence.LEFT] + b[Sentence.LEFT];
}
if ((a[Sentence.RIGHT] < 0) && (b[Sentence.RIGHT] < 0)) {
out[Sentence.RIGHT] = (a[Sentence.RIGHT] + b[Sentence.RIGHT]) - (a[Sentence.RIGHT] * b[Sentence.RIGHT]);
} else if ((a[Sentence.RIGHT] > 0) && (b[Sentence.RIGHT] > 0)) {
out[Sentence.RIGHT] = (a[Sentence.RIGHT] + b[Sentence.RIGHT]) - (a[Sentence.RIGHT] * b[Sentence.RIGHT]);
} else {
out[Sentence.RIGHT] = a[Sentence.RIGHT] + b[Sentence.RIGHT];
}
return out;
}
public DelayLineStore addDelayLine(int samples, double gain, double pan) {
DelayLineStore s = new DelayLineStore(samples, gain, pan);
delayLines.add(s);
return s;
}
public DelayLineStore addDelayLine(int samples, double gain) {
DelayLineStore s = new DelayLineStore(samples, gain);
delayLines.add(s);
return s;
}
public ArrayList<Effect> getChildEffects() {
return null;
}
public String toString() {
return getName();
}
public void dump() {
System.out.println(toString());
for (DelayLineStore s : delayLines) {
s.dump();
}
}
public void init(double sf) {
for (DelayLineStore s : delayLines) {
s.init(sf);
}
}
public void setWetOnly(boolean b) {
wetOnly = b;
}
}

78
src/uk/co/majenko/audiobookrecorder/DelayLineStore.java Normal file
View File

@@ -0,0 +1,78 @@
package uk.co.majenko.audiobookrecorder;
import java.util.concurrent.ArrayBlockingQueue;
import java.util.ArrayList;
public class DelayLineStore {
double gain;
int numSamples;
double pan;
ArrayList<Effect> effects;
public DelayLineStore(int s, double g, double p) {
numSamples = s;
gain = g;
pan = p;
effects = new ArrayList<Effect>();
}
public DelayLineStore(int s, double g) {
numSamples = s;
gain = g;
pan = 0d;
effects = new ArrayList<Effect>();
}
public void process(double[][] samples) {
for (Effect e : effects) {
e.process(samples);
}
for (double[] sample : samples) {
sample[Sentence.LEFT] *= gain;
sample[Sentence.RIGHT] *= gain;
if (pan < 0) {
double p = 1 + pan;
sample[Sentence.RIGHT] *= p;
} else {
double p = 1 - pan;
sample[Sentence.LEFT] *= p;
}
}
}
public void setSamples(int s) {
numSamples = s;
}
public void setGain(double g) {
gain = g;
}
public int getSamples() {
return numSamples;
}
public double getGain() {
return gain;
}
public void addEffect(Effect e) {
effects.add(e);
}
public void init(double sf) {
for (Effect e : effects) {
e.init(sf);
}
}
public void dump() {
System.out.println(" Samples: " + numSamples + ", gain: " + gain);
for (Effect e : effects) {
e.dump();
}
}
}

12
src/uk/co/majenko/audiobookrecorder/Effect.java Normal file
View File

@@ -0,0 +1,12 @@
package uk.co.majenko.audiobookrecorder;
import java.util.ArrayList;
public interface Effect {
public void process(double[][] samples);
public String getName();
public ArrayList<Effect> getChildEffects();
public void dump();
public void init(double sr);
public String toString();
}

69
src/uk/co/majenko/audiobookrecorder/EffectGroup.java Normal file
View File

@@ -0,0 +1,69 @@
package uk.co.majenko.audiobookrecorder;
import java.util.ArrayList;
public class EffectGroup implements Effect {
String name;
ArrayList<Effect> effects;
public EffectGroup(String n) {
name = n;
effects = new ArrayList<Effect>();
}
public EffectGroup() {
name = "Unnamed Group";
effects = new ArrayList<Effect>();
}
public void process(double[][] samples) {
for (Effect e : effects) {
e.process(samples);
}
}
public void setName(String n) {
name = n;
}
public String getName() {
return name;
}
public void addEffect(Effect e) {
effects.add(e);
}
public void clearEffects() {
effects.clear();
}
public void removeEffect(Effect e) {
effects.remove(e);
}
public void removeEffect(int n) {
effects.remove(n);
}
public ArrayList<Effect> getChildEffects() {
return effects;
}
public String toString() {
return name;
}
public void dump() {
System.out.println(toString() + " >> ");
for (Effect e : effects) {
e.dump();
}
}
public void init(double sf) {
for (Effect e : effects) {
e.init(sf);
}
}
}

99
src/uk/co/majenko/audiobookrecorder/Equaliser.java
View File

@@ -1,99 +0,0 @@
package uk.co.majenko.audiobookrecorder;
import javax.swing.*;
import javax.swing.event.*;
import java.awt.*;
import java.awt.event.*;
import java.util.*;
import java.io.*;
import java.nio.file.*;
import javax.swing.tree.*;
import javax.sound.sampled.*;
import davaguine.jeq.core.IIRControls;
public class Equaliser extends JPanel {
EqualiserChannel channels[];
static final double[] frequencies = {
20d, 25d, 31.5d, 40d, 50d, 63d, 80d, 100d, 125d, 160d, 200d,
250d, 315d, 400d, 500d, 630d, 800d, 1000d, 1250d, 1600d, 2000d,
2500d, 3150d, 4000d, 5000d, 6300d, 8000d, 10000d, 12500d, 16000d,
20000d
};
public Equaliser() {
super();
channels = new EqualiserChannel[31];
setLayout(new BorderLayout());
JPanel inner = new JPanel();
inner.setLayout(new FlowLayout());
for (int i = 0; i < 31; i++) {
channels[i] = new EqualiserChannel(frequencies[i]);
inner.add(channels[i]);
}
add(inner, BorderLayout.CENTER);
JButton smooth = new JButton("Smooth curve");
smooth.addActionListener(new ActionListener() {
public void actionPerformed(ActionEvent e) {
Float ave[] = new Float[31];
for (int i = 1; i < 30; i++) {
ave[i] = (channels[i-1].getValue() + channels[i].getValue() + channels[i+1].getValue()) / 3.0f;
}
for (int i = 1; i < 30; i++) {
channels[i].setValue(ave[i]);
}
}
});
JButton def = new JButton("Set as default");
def.addActionListener(new ActionListener() {
public void actionPerformed(ActionEvent e) {
for (int i = 0; i < 31; i++) {
Options.set("audio.eq." + i, channels[i].getValue());
}
}
});
JButton load = new JButton("Load from default");
load.addActionListener(new ActionListener() {
public void actionPerformed(ActionEvent e) {
for (int i = 0; i < 31; i++) {
channels[i].setValue(Options.getFloat("audio.eq." + i));
}
}
});
JPanel buttons = new JPanel();
buttons.setLayout(new FlowLayout());
buttons.add(smooth);
buttons.add(def);
buttons.add(load);
add(buttons, BorderLayout.SOUTH);
}
public float getChannel(int c) {
return channels[c].getValue();
}
public void setChannel(int c, float v) {
channels[c].setValue(v);
}
public void apply(IIRControls c, int chans) {
for (int i = 0; i < 31; i++) {
c.setBandDbValue(i, 0, channels[i].getValue());
if (chans == 2) {
c.setBandDbValue(i, 1, channels[i].getValue());
}
}
}
}

96
src/uk/co/majenko/audiobookrecorder/EqualiserChannel.java
View File

@@ -1,96 +0,0 @@
package uk.co.majenko.audiobookrecorder;
import javax.swing.*;
import javax.swing.event.*;
import java.awt.*;
import java.awt.event.*;
import java.util.*;
import java.io.*;
import java.nio.file.*;
import javax.swing.tree.*;
import javax.sound.sampled.*;
public class EqualiserChannel extends JPanel {
float value;
JSlider slider;
JTextField textbox;
JLabel frequency;
public EqualiserChannel(double freq) {
super();
value = 0;
slider = new JSlider(-120, 120, 0);
textbox = new JTextField();
String suffix = "Hz";
if (freq > 1000) {
freq /= 1000;
suffix = "kHz";
}
String ftxt = String.format("%.4f", freq);
while (ftxt.endsWith("0")) {
ftxt = ftxt.substring(0, ftxt.length() - 1);
}
if (ftxt.endsWith(".")) {
ftxt = ftxt.substring(0, ftxt.length() - 1);
}
frequency = new JLabel(ftxt + suffix);
setLayout(new BorderLayout());
add(frequency, BorderLayout.NORTH);
slider.setOrientation(SwingConstants.VERTICAL);
add(slider, BorderLayout.CENTER);
textbox = new JTextField("0.0");
add(textbox, BorderLayout.SOUTH);
textbox.setPreferredSize(new Dimension(40, 20));
slider.addChangeListener(new ChangeListener() {
public void stateChanged(ChangeEvent e) {
value = (float)slider.getValue() / 10.0f;
textbox.setText(String.format("%.1f", value));
}
});
textbox.addFocusListener(new FocusListener() {
public void focusGained(FocusEvent e) {
textbox.selectAll();
}
public void focusLost(FocusEvent e) {
value = Utils.s2f(textbox.getText());
if (value < -12f) value = -12f;
if (value > 12f) value = 12f;
slider.setValue((int)(value * 10));
textbox.setText(String.format("%.1f", value));
}
});
textbox.addActionListener(new ActionListener() {
public void actionPerformed(ActionEvent e) {
value = Utils.s2f(textbox.getText());
if (value < -12f) value = -12f;
if (value > 12f) value = 12f;
slider.setValue((int)(value * 10));
textbox.setText(String.format("%.1f", value));
}
});
}
public float getValue() {
return value;
}
public void setValue(float v) {
value = v;
slider.setValue((int)(value * 10));
textbox.setText(String.format("%.1f", value));
}
}

1
src/uk/co/majenko/audiobookrecorder/Icons.java
View File

@@ -32,4 +32,5 @@ public class Icons {
static public final ImageIcon zoomOut = new ImageIcon(Icons.class.getResource("icons/zoom-out.png")); static public final ImageIcon zoomOut = new ImageIcon(Icons.class.getResource("icons/zoom-out.png"));
static public final ImageIcon dollar = new ImageIcon(Icons.class.getResource("icons/dollar.png")); static public final ImageIcon dollar = new ImageIcon(Icons.class.getResource("icons/dollar.png"));
static public final ImageIcon attention = new ImageIcon(Icons.class.getResource("icons/attention.png")); static public final ImageIcon attention = new ImageIcon(Icons.class.getResource("icons/attention.png"));
static public final ImageIcon normalize = new ImageIcon(Icons.class.getResource("icons/normalize.png"));
} }

31
src/uk/co/majenko/audiobookrecorder/KVPair.java Normal file
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@@ -0,0 +1,31 @@
package uk.co.majenko.audiobookrecorder;
public class KVPair<K,V> implements Comparable {
public K key;
public V value;
public KVPair(K k, V v) {
key = k;
value = v;
}
public String toString() {
return (String)value;
}
public int compareTo(Object o) {
// if (o instanceof KVPair) {
// KVPair ko = (KVPair)o;
// return key.compareTo(ko.key);
// }
return 0;
}
public K getKey() {
return key;
}
public V getValue() {
return value;
}
}

67
src/uk/co/majenko/audiobookrecorder/LFO.java Normal file
View File

@@ -0,0 +1,67 @@
package uk.co.majenko.audiobookrecorder;
import java.util.ArrayList;
public class LFO implements Effect {
double phase;
double frequency;
double depth;
double sampleRate;
double sampleStep;
public LFO(double f, double d) {
frequency = f;
depth = d;
phase = 0;
}
public LFO(double f, double d, double p) {
frequency = f;
depth = d;
phase = p;
}
public void process(double[][] samples) {
for (double[] sample : samples) {
double v = Math.sin(phase);
phase += sampleStep;
if (phase > (Math.PI * 2d)) {
phase -= (Math.PI * 2d);
}
// // Make it between 0 and 1.
// v = 1d + v;
// v /= 2d;
// Multiply it by the gain factor
v *= depth;
// Apply it to the sample
sample[Sentence.LEFT] += (sample[Sentence.LEFT] * v);
sample[Sentence.RIGHT] += (sample[Sentence.RIGHT] * v);
}
}
public String getName() { return "Low Frequency Oscillator (" + frequency + " Hz, " + (depth * 100d) + "%)"; }
public ArrayList<Effect> getChildEffects() { return null; }
public void dump() {
System.out.println(getName());
}
public void init(double sr) {
sampleRate = sr;
// Number of samples that make up one cycle of the LFO
double oneCycle = sampleRate / frequency;
// Amount to increase each step
sampleStep = (Math.PI * 2d) / oneCycle;
}
public String toString() { return getName(); }
}

4
src/uk/co/majenko/audiobookrecorder/MainToolBar.java
View File

@@ -86,9 +86,9 @@ public class MainToolBar extends JToolBar {
add(stopPlaying); add(stopPlaying);
addSeparator(); addSeparator();
eq = new JButtonSpacePlay(Icons.eq, "Equaliser", new ActionListener() { eq = new JButtonSpacePlay(Icons.eq, "Reload Effects", new ActionListener() {
public void actionPerformed(ActionEvent e) { public void actionPerformed(ActionEvent e) {
root.showEqualiser(); root.loadEffects();
} }
}); });

336
src/uk/co/majenko/audiobookrecorder/Options.java
View File

@@ -8,6 +8,7 @@ import java.awt.event.*;
import java.util.*; import java.util.*;
import java.util.prefs.*; import java.util.prefs.*;
import java.io.*; import java.io.*;
import javax.swing.tree.*;
public class Options extends JDialog { public class Options extends JDialog {
@@ -15,6 +16,8 @@ public class Options extends JDialog {
GridBagConstraints constraint; GridBagConstraints constraint;
public static ArrayList<EffectGroup> effectChains;
JComboBox<KVPair> mixerList; JComboBox<KVPair> mixerList;
JComboBox<KVPair> playbackList; JComboBox<KVPair> playbackList;
JComboBox<KVPair> channelList; JComboBox<KVPair> channelList;
@@ -28,41 +31,28 @@ public class Options extends JDialog {
JSpinner postSentenceGap; JSpinner postSentenceGap;
JSpinner shortSentenceGap; JSpinner shortSentenceGap;
JSpinner postParagraphGap; JSpinner postParagraphGap;
JSpinner postSectionGap;
JTextField ffmpegLocation; JTextField ffmpegLocation;
JComboBox<KVPair> bitRate; JComboBox<KVPair> bitRate;
JComboBox<KVPair> exportRate; JComboBox<KVPair> exportRate;
JCheckBox enableParsing; JCheckBox enableParsing;
JSpinner cacheSize; JSpinner cacheSize;
Equaliser equaliser; JSpinner fftThreshold;
JSpinner etherealIterations;
JSpinner etherealAttenuation;
JSpinner etherealOffset;
JTextField externalEditor;
JTextArea startupScript; JTextArea startupScript;
ArrayList<JTextField[]> processorList;
static HashMap<String, String> defaultPrefs; static HashMap<String, String> defaultPrefs;
static Preferences prefs = null; static Preferences prefs = null;
static class KVPair implements Comparable {
public String key;
public String value;
public KVPair(String k, String v) {
key = k;
value = v;
}
public String toString() {
return value;
}
public int compareTo(Object o) {
if (o instanceof KVPair) {
KVPair ko = (KVPair)o;
return key.compareTo(ko.key);
}
return 0;
}
}
class JButtonObject extends JButton { class JButtonObject extends JButton {
Object object; Object object;
public JButtonObject(String s, Object o) { public JButtonObject(String s, Object o) {
@@ -98,6 +88,61 @@ public class Options extends JDialog {
return o; return o;
} }
void addTwoLabel(JPanel panel, String label1, String label2) {
JLabel l1 = new JLabel(label1);
constraint.gridx = 0;
constraint.gridwidth = 1;
constraint.gridheight = 1;
constraint.anchor = GridBagConstraints.LINE_START;
panel.add(l1, constraint);
JLabel l2 = new JLabel(label2);
constraint.gridx = 1;
constraint.gridwidth = 1;
constraint.gridheight = 1;
constraint.anchor = GridBagConstraints.LINE_START;
panel.add(l2, constraint);
constraint.gridy++;
}
JTextField addTextField(JPanel panel, String label, String def) {
JLabel l = new JLabel(label);
constraint.gridx = 0;
constraint.gridwidth = 1;
constraint.gridheight = 1;
constraint.anchor = GridBagConstraints.LINE_START;
panel.add(l, constraint);
JTextField a = new JTextField(def);
constraint.gridx = 1;
constraint.fill = GridBagConstraints.HORIZONTAL;
panel.add(a, constraint);
constraint.fill = GridBagConstraints.NONE;
constraint.gridy++;
return a;
}
JTextField[] addTwoField(JPanel panel, String def1, String def2) {
JTextField a = new JTextField(def1);
constraint.gridx = 0;
constraint.fill = GridBagConstraints.HORIZONTAL;
panel.add(a, constraint);
JTextField b = new JTextField(def2);
constraint.gridx = 1;
panel.add(b, constraint);
constraint.fill = GridBagConstraints.NONE;
constraint.gridy++;
return new JTextField[] { a, b };
}
JTextField addFilePath(JPanel panel, String label, String path, boolean dironly) { JTextField addFilePath(JPanel panel, String label, String path, boolean dironly) {
JLabel l = new JLabel(label); JLabel l = new JLabel(label);
constraint.gridx = 0; constraint.gridx = 0;
@@ -251,6 +296,7 @@ public class Options extends JDialog {
rateList = addDropdown(optionsPanel, "Sample rate:", getSampleRateList(), get("audio.recording.samplerate")); rateList = addDropdown(optionsPanel, "Sample rate:", getSampleRateList(), get("audio.recording.samplerate"));
bitDepth = addDropdown(optionsPanel, "Sample resolution:", getResolutionList(), get("audio.recording.resolution")); bitDepth = addDropdown(optionsPanel, "Sample resolution:", getResolutionList(), get("audio.recording.resolution"));
trimMethod = addDropdown(optionsPanel, "Auto-trim method:", getTrimMethods(), get("audio.recording.trim")); trimMethod = addDropdown(optionsPanel, "Auto-trim method:", getTrimMethods(), get("audio.recording.trim"));
fftThreshold = addSpinner(optionsPanel, "FFT threshold:", 0, 100, 1, getInteger("audio.recording.trim.fft"), "");
addSeparator(optionsPanel); addSeparator(optionsPanel);
@@ -266,6 +312,7 @@ public class Options extends JDialog {
postSentenceGap = addSpinner(optionsPanel, "Default post-sentence gap:", 0, 5000, 100, getInteger("catenation.post-sentence"), "ms"); postSentenceGap = addSpinner(optionsPanel, "Default post-sentence gap:", 0, 5000, 100, getInteger("catenation.post-sentence"), "ms");
shortSentenceGap = addSpinner(optionsPanel, "Short post-sentence gap:", 0, 5000, 100, getInteger("catenation.short-sentence"), "ms"); shortSentenceGap = addSpinner(optionsPanel, "Short post-sentence gap:", 0, 5000, 100, getInteger("catenation.short-sentence"), "ms");
postParagraphGap = addSpinner(optionsPanel, "Default post-paragraph gap:", 0, 5000, 100, getInteger("catenation.post-paragraph"), "ms"); postParagraphGap = addSpinner(optionsPanel, "Default post-paragraph gap:", 0, 5000, 100, getInteger("catenation.post-paragraph"), "ms");
postSectionGap = addSpinner(optionsPanel, "Default post-section gap:", 0, 5000, 100, getInteger("catenation.post-section"), "ms");
addSeparator(optionsPanel); addSeparator(optionsPanel);
@@ -277,6 +324,10 @@ public class Options extends JDialog {
addSeparator(optionsPanel); addSeparator(optionsPanel);
enableParsing = addCheckBox(optionsPanel, "Enable automatic sphinx speech-to-text (**SLOW**)", getBoolean("process.sphinx")); enableParsing = addCheckBox(optionsPanel, "Enable automatic sphinx speech-to-text (**SLOW**)", getBoolean("process.sphinx"));
addSeparator(optionsPanel);
externalEditor = addTextField(optionsPanel, "External Editor Command", get("editor.external"));
addSeparator(optionsPanel); addSeparator(optionsPanel);
@@ -284,17 +335,82 @@ public class Options extends JDialog {
addSeparator(optionsPanel); addSeparator(optionsPanel);
tabs.add("Options", new JScrollPane(optionsPanel)); tabs.add("Options", new JScrollPane(optionsPanel));
equaliser = new Equaliser();
for (int i = 0; i < 31; i++) { JPanel effectChains = new JPanel();
equaliser.setChannel(i, Options.getFloat("audio.eq." + i)); effectChains.setLayout(new BorderLayout());
}
tabs.add("Default EQ", new JScrollPane(equaliser)); JPanel effectDetails = new JPanel() {
public Dimension getPreferredSize() {
return new Dimension(200, 400);
}
};
DefaultTreeModel m = new DefaultTreeModel(new DefaultMutableTreeNode("Effect Chains"));
JTree effectChainTree = new JTree(m);
effectChains.add(effectChainTree, BorderLayout.CENTER);
effectChains.add(effectDetails, BorderLayout.EAST);
tabs.add("Effects Chains", new JScrollPane(effectChains));
JPanel startScript = new JPanel(); JPanel startScript = new JPanel();
startScript.setLayout(new BorderLayout()); startScript.setLayout(new BorderLayout());
startupScript = new JTextArea(get("scripts.startup")); startupScript = new JTextArea(get("scripts.startup"));
startScript.add(startupScript, BorderLayout.CENTER); startScript.add(startupScript, BorderLayout.CENTER);
tabs.add("Startup Script", startScript); tabs.add("Startup Script", startScript);
JPanel effects = new JPanel();
effects.setLayout(new GridBagLayout());
constraint.gridx = 0;
constraint.gridy = 0;
constraint.gridwidth = 1;
constraint.gridheight = 1;
etherealOffset = addSpinner(effects, "Ethereal Voice Offset", 0, 2000, 10, getInteger("effects.ethereal.offset"), "ms");
etherealIterations = addSpinner(effects, "Ethereal Voice Iterations", 1, 10, 1, getInteger("effects.ethereal.iterations"), "");
etherealAttenuation = addSpinner(effects, "Ethereal Voice Attenuation", 0, 100, 1, getInteger("effects.ethereal.attenuation"), "%");
tabs.add("Effects", effects);
JPanel processors = new JPanel();
processors.setLayout(new BorderLayout());
JPanel processorListPanel = new JPanel();
JScrollPane psp = new JScrollPane(processorListPanel);
processors.add(psp, BorderLayout.CENTER);
processorListPanel.setLayout(new GridBagLayout());
constraint.gridx = 0;
constraint.gridy = 0;
constraint.gridwidth = 1;
constraint.gridheight = 1;
addTwoLabel(processorListPanel, "Name", "Command");
processorList = new ArrayList<JTextField[]>();
for (int i = 0; i < 999; i++) {
String name = get("editor.processor." + i + ".name");
String command = get("editor.processor." + i + ".command");
if (name == null || command == null) break;
if (name.equals("") || command.equals("")) break;
JTextField[] f = addTwoField(processorListPanel, name, command);
processorList.add(f);
}
JTextField[] f = addTwoField(processorListPanel, "", "");
processorList.add(f);
tabs.add("Processors", processors);
add(tabs, BorderLayout.CENTER); add(tabs, BorderLayout.CENTER);
setTitle("Options"); setTitle("Options");
@@ -339,8 +455,9 @@ public class Options extends JDialog {
setVisible(true); setVisible(true);
} }
static KVPair[] getRecordingMixerList() { @SuppressWarnings("unchecked")
TreeSet<KVPair> list = new TreeSet<KVPair>(); static KVPair<String, String>[] getRecordingMixerList() {
TreeSet<KVPair<String, String>> list = new TreeSet<KVPair<String, String>>();
AudioFormat stereoFormat = new AudioFormat(44100f, 16, 2, true, false); AudioFormat stereoFormat = new AudioFormat(44100f, 16, 2, true, false);
AudioFormat monoFormat = new AudioFormat(44100f, 16, 1, true, false); AudioFormat monoFormat = new AudioFormat(44100f, 16, 1, true, false);
@@ -367,7 +484,7 @@ public class Options extends JDialog {
} }
if (supported) { if (supported) {
KVPair p = new KVPair(i.getName(), i.getName()); //i.getDescription()); KVPair<String, String> p = new KVPair<String, String>(i.getName(), i.getName()); //i.getDescription());
list.add(p); list.add(p);
} }
} }
@@ -376,7 +493,7 @@ public class Options extends JDialog {
} }
static KVPair[] getPlaybackMixerList() { static KVPair[] getPlaybackMixerList() {
TreeSet<KVPair> list = new TreeSet<KVPair>(); TreeSet<KVPair<String, String>> list = new TreeSet<KVPair<String, String>>();
AudioFormat stereoFormat = new AudioFormat(44100f, 16, 2, true, false); AudioFormat stereoFormat = new AudioFormat(44100f, 16, 2, true, false);
AudioFormat monoFormat = new AudioFormat(44100f, 16, 1, true, false); AudioFormat monoFormat = new AudioFormat(44100f, 16, 1, true, false);
@@ -404,7 +521,7 @@ public class Options extends JDialog {
if (supported) { if (supported) {
KVPair p = new KVPair(i.getName(), i.getName()); //i.getDescription()); KVPair<String, String> p = new KVPair<String, String>(i.getName(), i.getName()); //i.getDescription());
list.add(p); list.add(p);
} }
} }
@@ -414,16 +531,16 @@ public class Options extends JDialog {
static KVPair[] getChannelCountList() { static KVPair[] getChannelCountList() {
KVPair[] l = new KVPair[2]; KVPair[] l = new KVPair[2];
l[0] = new KVPair("1", "Mono"); l[0] = new KVPair<String, String>("1", "Mono");
l[1] = new KVPair("2", "Stereo"); l[1] = new KVPair<String, String>("2", "Stereo");
return l; return l;
} }
static KVPair[] getSampleRateList() { static KVPair[] getSampleRateList() {
KVPair[] l = new KVPair[3]; KVPair[] l = new KVPair[3];
l[0] = new KVPair("44100", "44100"); l[0] = new KVPair<String, String>("44100", "44100");
l[1] = new KVPair("48000", "48000"); l[1] = new KVPair<String, String>("48000", "48000");
l[2] = new KVPair("96000", "96000"); l[2] = new KVPair<String, String>("96000", "96000");
return l; return l;
} }
@@ -435,7 +552,7 @@ public class Options extends JDialog {
KVPair[] playbackMixers = getPlaybackMixerList(); KVPair[] playbackMixers = getPlaybackMixerList();
if (recordingMixers.length > 0) { if (recordingMixers.length > 0) {
defaultPrefs.put("audio.recording.device", recordingMixers[0].key); defaultPrefs.put("audio.recording.device", (String)recordingMixers[0].key);
} else { } else {
defaultPrefs.put("audio.recording.device", ""); defaultPrefs.put("audio.recording.device", "");
} }
@@ -444,7 +561,7 @@ public class Options extends JDialog {
defaultPrefs.put("audio.recording.resolution", "16"); defaultPrefs.put("audio.recording.resolution", "16");
defaultPrefs.put("audio.recording.trim", "peak"); defaultPrefs.put("audio.recording.trim", "peak");
if (playbackMixers.length > 0) { if (playbackMixers.length > 0) {
defaultPrefs.put("audio.playback.device", playbackMixers[0].key); defaultPrefs.put("audio.playback.device", (String)playbackMixers[0].key);
} else { } else {
defaultPrefs.put("audio.playback.device", ""); defaultPrefs.put("audio.playback.device", "");
} }
@@ -454,6 +571,9 @@ public class Options extends JDialog {
defaultPrefs.put("catenation.post-sentence", "1000"); defaultPrefs.put("catenation.post-sentence", "1000");
defaultPrefs.put("catenation.short-sentence", "100"); defaultPrefs.put("catenation.short-sentence", "100");
defaultPrefs.put("catenation.post-paragraph", "2000"); defaultPrefs.put("catenation.post-paragraph", "2000");
defaultPrefs.put("catenation.post-section", "3000");
defaultPrefs.put("audio.recording.trim.fft", "10");
defaultPrefs.put("path.storage", (new File(System.getProperty("user.home"), "Recordings")).toString()); defaultPrefs.put("path.storage", (new File(System.getProperty("user.home"), "Recordings")).toString());
defaultPrefs.put("path.archive", (new File(new File(System.getProperty("user.home"), "Recordings"),"archive")).toString()); defaultPrefs.put("path.archive", (new File(new File(System.getProperty("user.home"), "Recordings"),"archive")).toString());
@@ -461,45 +581,18 @@ public class Options extends JDialog {
defaultPrefs.put("audio.export.bitrate", "256000"); defaultPrefs.put("audio.export.bitrate", "256000");
defaultPrefs.put("audio.export.samplerate", "44100"); defaultPrefs.put("audio.export.samplerate", "44100");
defaultPrefs.put("process.sphinx", "false"); defaultPrefs.put("process.sphinx", "false");
defaultPrefs.put("editor.external", "");
defaultPrefs.put("cache.size", "100"); defaultPrefs.put("cache.size", "100");
defaultPrefs.put("audio.eq.0", "0.00");
defaultPrefs.put("audio.eq.1", "0.00");
defaultPrefs.put("audio.eq.2", "0.00");
defaultPrefs.put("audio.eq.3", "0.00");
defaultPrefs.put("audio.eq.4", "0.00");
defaultPrefs.put("audio.eq.5", "0.00");
defaultPrefs.put("audio.eq.6", "0.00");
defaultPrefs.put("audio.eq.7", "0.00");
defaultPrefs.put("audio.eq.8", "0.00");
defaultPrefs.put("audio.eq.9", "0.00");
defaultPrefs.put("audio.eq.10", "0.00");
defaultPrefs.put("audio.eq.11", "0.00");
defaultPrefs.put("audio.eq.12", "0.00");
defaultPrefs.put("audio.eq.13", "0.00");
defaultPrefs.put("audio.eq.14", "0.00");
defaultPrefs.put("audio.eq.15", "0.00");
defaultPrefs.put("audio.eq.16", "0.00");
defaultPrefs.put("audio.eq.17", "0.00");
defaultPrefs.put("audio.eq.18", "0.00");
defaultPrefs.put("audio.eq.19", "-1.00");
defaultPrefs.put("audio.eq.20", "-2.00");
defaultPrefs.put("audio.eq.21", "-3.00");
defaultPrefs.put("audio.eq.22", "-4.00");
defaultPrefs.put("audio.eq.23", "-5.00");
defaultPrefs.put("audio.eq.24", "-6.00");
defaultPrefs.put("audio.eq.25", "-7.00");
defaultPrefs.put("audio.eq.26", "-8.00");
defaultPrefs.put("audio.eq.27", "-9.00");
defaultPrefs.put("audio.eq.28", "-10.00");
defaultPrefs.put("audio.eq.29", "-11.00");
defaultPrefs.put("audio.eq.30", "-12.00");
defaultPrefs.put("scripts.startup", ""); defaultPrefs.put("scripts.startup", "");
defaultPrefs.put("effects.ethereal.offset", "50");
defaultPrefs.put("effects.ethereal.iterations", "3");
defaultPrefs.put("effects.ethereal.attenuation", "50");
if (prefs == null) { if (prefs == null) {
prefs = Preferences.userNodeForPackage(AudiobookRecorder.class); prefs = Preferences.userNodeForPackage(AudiobookRecorder.class);
} }
@@ -531,6 +624,14 @@ public class Options extends JDialog {
return 0; return 0;
} }
public static Double getDouble(String key) {
try {
Double f = Double.parseDouble(get(key));
return f;
} catch (Exception e) {
}
return 0.0d;
}
public static Float getFloat(String key) { public static Float getFloat(String key) {
try { try {
Float f = Float.parseFloat(get(key)); Float f = Float.parseFloat(get(key));
@@ -600,17 +701,32 @@ public class Options extends JDialog {
set("catenation.post-sentence", postSentenceGap.getValue()); set("catenation.post-sentence", postSentenceGap.getValue());
set("catenation.short-sentence", shortSentenceGap.getValue()); set("catenation.short-sentence", shortSentenceGap.getValue());
set("catenation.post-paragraph", postParagraphGap.getValue()); set("catenation.post-paragraph", postParagraphGap.getValue());
set("catenation.post-section", postSectionGap.getValue());
set("audio.export.bitrate", ((KVPair)bitRate.getSelectedItem()).key); set("audio.export.bitrate", ((KVPair)bitRate.getSelectedItem()).key);
set("audio.export.samplerate", ((KVPair)exportRate.getSelectedItem()).key); set("audio.export.samplerate", ((KVPair)exportRate.getSelectedItem()).key);
set("process.sphinx", enableParsing.isSelected()); set("process.sphinx", enableParsing.isSelected());
set("editor.external", externalEditor.getText());
set("cache.size", cacheSize.getValue()); set("cache.size", cacheSize.getValue());
set("audio.recording.trim.fft", fftThreshold.getValue());
for (int i = 0; i < 31; i++) { set("effects.ethereal.offset", etherealOffset.getValue());
set("audio.eq." + i, equaliser.getChannel(i)); set("effects.ethereal.iterations", etherealIterations.getValue());
} set("effects.ethereal.attenuation", etherealAttenuation.getValue());
set("scripts.startup", startupScript.getText()); set("scripts.startup", startupScript.getText());
int procNo = 0;
for (JTextField[] proc : processorList) {
String name = proc[0].getText();
String command = proc[1].getText();
if (name.equals("") || command.equals("")) {
continue;
}
set("editor.processor." + procNo + ".name", name);
set("editor.processor." + procNo + ".command", command);
procNo++;
}
savePreferences(); savePreferences();
} }
@@ -644,23 +760,73 @@ public class Options extends JDialog {
public static KVPair[] getBitrates() { public static KVPair[] getBitrates() {
KVPair[] pairs = new KVPair[4]; KVPair[] pairs = new KVPair[4];
pairs[0] = new KVPair("128000", "128kbps"); pairs[0] = new KVPair<String, String>("128000", "128kbps");
pairs[1] = new KVPair("192000", "192kbps"); pairs[1] = new KVPair<String, String>("192000", "192kbps");
pairs[2] = new KVPair("256000", "256kbps"); pairs[2] = new KVPair<String, String>("256000", "256kbps");
pairs[3] = new KVPair("320000", "320kbps"); pairs[3] = new KVPair<String, String>("320000", "320kbps");
return pairs; return pairs;
} }
public static KVPair[] getResolutionList() { public static KVPair[] getResolutionList() {
KVPair[] pairs = new KVPair[1]; KVPair[] pairs = new KVPair[2];
pairs[0] = new KVPair("16", "16 Bit"); pairs[0] = new KVPair<String, String>("16", "16 Bit");
pairs[1] = new KVPair<String, String>("24", "24 Bit");
return pairs; return pairs;
} }
public static KVPair[] getTrimMethods() { public static KVPair[] getTrimMethods() {
KVPair[] pairs = new KVPair[2]; KVPair[] pairs = new KVPair[3];
pairs[0] = new KVPair("peak", "Peak Amplitude"); pairs[0] = new KVPair<String, String>("none", "None");
pairs[1] = new KVPair("fft", "FFT Analysis"); pairs[1] = new KVPair<String, String>("peak", "Peak Amplitude");
pairs[2] = new KVPair<String, String>("fft", "FFT Analysis");
return pairs; return pairs;
} }
public static void createEffectChains() {
effectChains = new ArrayList<EffectGroup>();
for (int i = 0; i < 999999; i++) {
if (get("effects." + i + ".name") == null) {
EffectGroup e = new EffectGroup(get("effects." + i + ".name"));
for (int j = 0; i < 999999; j++) {
String type = get("effects." + i + ".children." + j + ".type");
if (type == null) break;
if (type.equals("biquad")) {
int bqt = getInteger("effects." + i + ".children." + j + ".filtertype");
double fc = getDouble("effects." + i + ".children." + j + ".fc");
double q = getDouble("effects." + i + ".children." + j + ".q");
double gain = getDouble("effects." + i + ".children." + j + ".gain");
Biquad b = new Biquad(bqt, fc, q, gain);
e.addEffect(b);
continue;
}
if (type.equals("amplifier")) {
double gain = getDouble("effects." + i + ".children." + j + ".gain");
Amplifier a = new Amplifier(gain);
e.addEffect(a);
continue;
}
if (type.equals("delayline")) {
DelayLine l = new DelayLine();
for (int c = 0; c < 999999; c++) {
if (get("effects." + i + ".children." + j + ".lines." + c + ".samples") == null) break;
int samples = getInteger("effects." + i + ".children." + j + ".lines." + c + ".samples");
double gain = getDouble("effects." + i + ".children." + j + ".lines." + c + ".gain");
l.addDelayLine(samples, gain);
}
e.addEffect(l);
continue;
}
}
effectChains.add(e);
break;
}
}
}
} }

131
src/uk/co/majenko/audiobookrecorder/OverlayIcon.java Normal file
View File

@@ -0,0 +1,131 @@
/*
* Copyright (c) 2015, Majenko Technologies
* 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.
*
* * Neither the name of Majenko Technologies nor the names of its
* contributors may 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 HOLDER 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.
*/
package uk.co.majenko.audiobookrecorder;
import javax.swing.ImageIcon;
import java.util.List;
import java.util.ArrayList;
import java.awt.Component;
import java.awt.Graphics;
public class OverlayIcon extends ImageIcon {
class IconSpec {
public ImageIcon icon;
int location;
public IconSpec(ImageIcon i, int loc) {
icon = i;
location = loc;
}
}
private ImageIcon base;
private ArrayList<IconSpec> overlays;
public static final int TOP_LEFT = 0;
public static final int TOP_MIDDLE = 1;
public static final int TOP_RIGHT = 2;
public static final int MIDDLE_LEFT = 3;
public static final int MIDDLE_MIDDLE = 4;
public static final int MIDDLE_RIGHT = 5;
public static final int BOTTOM_LEFT = 6;
public static final int BOTTOM_MIDDLE = 7;
public static final int BOTTOM_RIGHT = 8;
public OverlayIcon(ImageIcon base) {
super(base.getImage());
this.base = base;
this.overlays = new ArrayList<IconSpec>();
}
public void add(ImageIcon overlay, int position) {
overlays.add(new IconSpec(overlay, position));
}
@Override
public synchronized void paintIcon(Component c, Graphics g, int x, int y) {
base.paintIcon(c, g, x, y);
int bw = base.getIconWidth();
int bh = base.getIconHeight();
for(IconSpec icon : overlays) {
int iw = icon.icon.getIconWidth();
int ih = icon.icon.getIconHeight();
int ix = 0;
int iy = 0;
switch (icon.location) {
case TOP_LEFT:
case MIDDLE_LEFT:
case BOTTOM_LEFT:
ix = 0;
break;
case TOP_MIDDLE:
case MIDDLE_MIDDLE:
case BOTTOM_MIDDLE:
ix = (bw / 2) - (iw / 2);
break;
case TOP_RIGHT:
case MIDDLE_RIGHT:
case BOTTOM_RIGHT:
ix = bw - iw;
break;
}
switch (icon.location) {
case TOP_LEFT:
case TOP_MIDDLE:
case TOP_RIGHT:
iy = 0;
break;
case MIDDLE_LEFT:
case MIDDLE_MIDDLE:
case MIDDLE_RIGHT:
iy = (bh / 2) - (ih / 2);
break;
case BOTTOM_LEFT:
case BOTTOM_MIDDLE:
case BOTTOM_RIGHT:
iy = bh - ih;
break;
}
icon.icon.paintIcon(c, g, x + ix, y + iy);
}
}
}

11
src/uk/co/majenko/audiobookrecorder/Overlays.java Normal file
View File

@@ -0,0 +1,11 @@
package uk.co.majenko.audiobookrecorder;
import javax.swing.*;
public class Overlays {
static public final ImageIcon locked = new ImageIcon(Overlays.class.getResource("overlays/locked.png"));
static public final ImageIcon star = new ImageIcon(Overlays.class.getResource("overlays/star.png"));
static public final ImageIcon important = new ImageIcon(Overlays.class.getResource("overlays/important.png"));
static public final ImageIcon attention = new ImageIcon(Overlays.class.getResource("overlays/attention.png"));
static public final ImageIcon filter = new ImageIcon(Overlays.class.getResource("overlays/filter.png"));
}

52
src/uk/co/majenko/audiobookrecorder/Pan.java Normal file
View File

@@ -0,0 +1,52 @@
package uk.co.majenko.audiobookrecorder;
import java.util.ArrayList;
public class Pan implements Effect {
double pan;
public Pan() {
pan = 0.0d;
}
public Pan(double p) {
pan = p;
}
public String getName() {
return "Pan (" + pan + ")";
}
public ArrayList<Effect> getChildEffects() {
return null;
}
public void process(double[][] samples) {
for (double[] sample : samples) {
if (pan < 0) {
double p = 1 + pan;
sample[Sentence.RIGHT] *= p;
} else {
double p = 1 - pan;
sample[Sentence.LEFT] *= p;
}
}
}
public double getPan() {
return pan;
}
public void setPan(double p) {
pan = p;
}
public String toString() {
return getName();
}
public void dump() {
System.out.println(toString());
}
public void init(double sf) {
}
}

1
src/uk/co/majenko/audiobookrecorder/ProgressDialog.java
View File

@@ -44,6 +44,7 @@ public class ProgressDialog extends JDialog implements EncoderProgressListener {
pack(); pack();
setSize(new Dimension(300, 100)); setSize(new Dimension(300, 100));
setResizable(false);
// setVisible(true); // setVisible(true);
} }

704
src/uk/co/majenko/audiobookrecorder/Sentence.java
View File

@@ -9,11 +9,26 @@ import java.io.*;
import java.nio.file.*; import java.nio.file.*;
import javax.swing.tree.*; import javax.swing.tree.*;
import javax.sound.sampled.*; import javax.sound.sampled.*;
import org.apache.http.HttpEntity;
import org.apache.http.client.methods.CloseableHttpResponse;
import org.apache.http.client.methods.HttpPost;
import org.apache.http.entity.ContentType;
import org.apache.http.entity.mime.MultipartEntityBuilder;
import org.apache.http.entity.mime.content.FileBody;
import org.apache.http.entity.mime.content.StringBody;
import org.apache.http.impl.client.CloseableHttpClient;
import org.apache.http.impl.client.HttpClients;
import org.apache.http.util.EntityUtils;
import edu.cmu.sphinx.api.*; import edu.cmu.sphinx.api.*;
import edu.cmu.sphinx.decoder.adaptation.*; import edu.cmu.sphinx.decoder.adaptation.*;
import edu.cmu.sphinx.result.*; import edu.cmu.sphinx.result.*;
import davaguine.jeq.spi.EqualizerInputStream;
import davaguine.jeq.core.IIRControls; import org.json.*;
import java.util.Timer;
public class Sentence extends DefaultMutableTreeNode implements Cacheable { public class Sentence extends DefaultMutableTreeNode implements Cacheable {
@@ -34,15 +49,31 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
boolean inSample; boolean inSample;
boolean attention = false; boolean attention = false;
String effectChain = null;
double gain = 1.0d;
String overrideText = null;
public void setOverrideText(String s) { overrideText = s; }
public String getOverrideText() { return overrideText; }
public static final int LEFT = 0;
public static final int RIGHT = 1;
TargetDataLine line; TargetDataLine line;
AudioInputStream inputStream; AudioInputStream inputStream;
AudioFormat storedFormat = null; AudioFormat storedFormat = null;
double storedLength = -1d; double storedLength = -1d;
int[] storedAudioData = null; double[][] audioData = null;
// double[][] processedAudio = null;
RecordingThread recordingThread; RecordingThread recordingThread;
boolean effectEthereal = false;
static class RecordingThread implements Runnable { static class RecordingThread implements Runnable {
boolean running = false; boolean running = false;
@@ -107,7 +138,6 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
} }
} }
public Sentence() { public Sentence() {
super(""); super("");
id = UUID.randomUUID().toString(); id = UUID.randomUUID().toString();
@@ -131,7 +161,7 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
} }
recordingThread = new RecordingThread(getTempFile(), getFile(), AudiobookRecorder.window.book.getAudioFormat()); recordingThread = new RecordingThread(getTempFile(), getFile(), Options.getAudioFormat());
Thread rc = new Thread(recordingThread); Thread rc = new Thread(recordingThread);
rc.setDaemon(true); rc.setDaemon(true);
@@ -146,63 +176,43 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
try { try {
Thread.sleep(10); Thread.sleep(10);
} catch (Exception e) { } catch (Exception e) {
e.printStackTrace();
} }
} }
storedAudioData = null; audioData = null;
// processedAudio = null;
storedFormat = null; storedFormat = null;
storedLength = -1; storedLength = -1;
if (!id.equals("room-noise")) { if (!id.equals("room-noise")) {
String tm = Options.get("audio.recording.trim"); String tm = Options.get("audio.recording.trim");
if (tm.equals("peak")) { if (tm.equals("peak")) {
autoTrimSamplePeak(); autoTrimSamplePeak(true);
} else if (tm.equals("fft")) { } else if (tm.equals("fft")) {
autoTrimSampleFFT(); autoTrimSampleFFT(true);
} }
if (Options.getBoolean("process.sphinx")) { if (Options.getBoolean("process.sphinx")) {
recognise(); recognise();
} }
} }
} }
public static final int FFTBuckets = 1024; public static final int FFTBuckets = 1024;
public double[][] getFFTProfile() { public void autoTrimSampleFFT() {
double[] real = new double[FFTBuckets]; autoTrimSampleFFT(false);
double[] imag = new double[FFTBuckets];
int[] samples = getAudioData();
int slices = (samples.length / FFTBuckets) + 1;
double[][] out = new double[slices][];
int slice = 0;
for (int i = 0; i < samples.length; i += FFTBuckets) {
for (int j = 0; j < FFTBuckets; j++) {
if (i + j < samples.length) {
real[j] = samples[i+j] / 32768d;
imag[j] = 0;
} else {
real[j] = 0;
imag[j] = 0;
}
}
out[slice++] = FFT.fft(real, imag, true);
}
return out;
} }
public void autoTrimSampleFFT() { public void autoTrimSampleFFT(boolean useRaw) {
crossStartOffset = -1; crossStartOffset = -1;
crossEndOffset = -1; crossEndOffset = -1;
int[] samples = getAudioData(); double[][] samples;
if (useRaw) {
samples = getRawAudioData();
} else {
samples = getProcessedAudioData();
}
if (samples == null) return; if (samples == null) return;
int blocks = samples.length / 4096 + 1; int blocks = samples.length / 4096 + 1;
@@ -216,7 +226,7 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
for (int j = 0; j < 4096; j++) { for (int j = 0; j < 4096; j++) {
if (i + j < samples.length) { if (i + j < samples.length) {
real[j] = samples[i+j] / 32768d; real[j] = (samples[i+j][LEFT] + samples[i+j][RIGHT]) / 2d;
imag[j] = 0; imag[j] = 0;
} else { } else {
real[j] = 0; real[j] = 0;
@@ -240,14 +250,15 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
} }
} }
block++; block++;
} }
// Find first block with > 0 intensity and subtract one. int limit = Options.getInteger("audio.recording.trim.fft");
// Find first block with > 1 intensity and subtract one.
int start = 0; int start = 0;
for (int i = 0; i < blocks; i++) { for (int i = 0; i < blocks; i++) {
if (intens[i] > 0) break; if (intens[i] > limit) break;
start = i; start = i;
} }
@@ -260,9 +271,9 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
if (startOffset >= samples.length) startOffset = samples.length; if (startOffset >= samples.length) startOffset = samples.length;
int end = blocks - 1; int end = blocks - 1;
// And last block with > 0 intensity and add one. // And last block with > 1 intensity and add one.
for (int i = blocks-1; i >= 0; i--) { for (int i = blocks-1; i >= 0; i--) {
if (intens[i] > 0) break; if (intens[i] > limit) break;
end = i; end = i;
} }
@@ -282,16 +293,26 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
} }
public void autoTrimSamplePeak() { public void autoTrimSamplePeak() {
autoTrimSamplePeak(false);
}
public void autoTrimSamplePeak(boolean useRaw) {
crossStartOffset = -1; crossStartOffset = -1;
crossEndOffset = -1; crossEndOffset = -1;
int[] samples = getAudioData(); double[][] samples;
if (useRaw) {
samples = getRawAudioData();
} else {
samples = getProcessedAudioData();
}
if (samples == null) return; if (samples == null) return;
int noiseFloor = AudiobookRecorder.window.getNoiseFloor(); double noiseFloor = AudiobookRecorder.window.getNoiseFloor();
noiseFloor *= 1.1;
// Find start // Find start
for (int i = 0; i < samples.length; i++) { for (int i = 0; i < samples.length; i++) {
startOffset = i; startOffset = i;
if (Math.abs(samples[i]) > noiseFloor) { if (Math.abs((samples[i][LEFT] + samples[i][RIGHT])/2d) > noiseFloor) {
startOffset --; startOffset --;
if (startOffset < 0) startOffset = 0; if (startOffset < 0) startOffset = 0;
break; break;
@@ -306,7 +327,7 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
for (int i = samples.length-1; i >= 0; i--) { for (int i = samples.length-1; i >= 0; i--) {
endOffset = i; endOffset = i;
if (Math.abs(samples[i]) > noiseFloor) { if (Math.abs((samples[i][LEFT] + samples[i][RIGHT])/2d) > noiseFloor) {
endOffset ++; endOffset ++;
if (endOffset >= samples.length-1) endOffset = samples.length-1; if (endOffset >= samples.length-1) endOffset = samples.length-1;
break; break;
@@ -330,6 +351,7 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
} }
public void setText(String t) { public void setText(String t) {
overrideText = null;
text = t; text = t;
} }
@@ -363,7 +385,11 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
} }
public String toString() { public String toString() {
return text; if (effectChain == null) return text;
if (effectChain.equals("none")) return text;
Effect e = AudiobookRecorder.window.effects.get(effectChain);
if (e == null) return text;
return text + " (" + e.toString() + ")";
} }
public boolean isRecording() { public boolean isRecording() {
@@ -392,60 +418,6 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
} }
} }
public int[] getAudioDataS16LE(AudioInputStream s, AudioFormat format) throws IOException {
long len = s.getFrameLength();
int frameSize = format.getFrameSize();
int chans = format.getChannels();
int bytes = frameSize / chans;
byte[] frame = new byte[frameSize];
int[] samples = new int[(int)len];
for (long fno = 0; fno < len; fno++) {
s.read(frame);
int sample = 0;
if (chans == 2) { // Stereo
int left = (frame[1] << 8) | frame[0];
int right = (frame[3] << 8) | frame[2];
sample = (left + right) / 2;
} else {
sample = (frame[1] << 8) | frame[0];
}
samples[(int)fno] = sample;
}
return samples;
}
public int[] getAudioData() {
if (storedAudioData != null) {
return storedAudioData;
}
File f = getFile();
try {
AudioInputStream s = AudioSystem.getAudioInputStream(f);
AudioFormat format = getAudioFormat();
int[] samples = null;
switch (format.getSampleSizeInBits()) {
case 16:
samples = getAudioDataS16LE(s, format);
break;
}
s.close();
sampleSize = samples.length;
storedAudioData = samples;
CacheManager.addToCache(this);
return samples;
} catch (Exception e) {
}
return null;
}
public int getStartCrossing() { public int getStartCrossing() {
return crossStartOffset; return crossStartOffset;
} }
@@ -495,33 +467,11 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
public int getSampleSize() { public int getSampleSize() {
if (sampleSize == -1) { if (sampleSize == -1) {
getAudioData(); loadFile();
} }
return sampleSize; return sampleSize;
} }
// Open the audio file as an AudioInputStream and automatically
// skip the first startOffset frames.
public EqualizerInputStream getAudioStream() {
File f = getFile();
try {
AudioInputStream s = AudioSystem.getAudioInputStream(f);
EqualizerInputStream eq = new EqualizerInputStream(s, 31);
AudioFormat format = getAudioFormat();
IIRControls controls = eq.getControls();
AudiobookRecorder.window.book.equaliser.apply(controls, format.getChannels());
int frameSize = format.getFrameSize();
eq.skip(frameSize * startOffset);
return eq;
} catch (Exception e) {
e.printStackTrace();
}
return null;
}
public AudioFormat getAudioFormat() { public AudioFormat getAudioFormat() {
if (storedFormat != null) return storedFormat; if (storedFormat != null) return storedFormat;
@@ -536,67 +486,15 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
} }
return null; return null;
} }
public byte[] getRawAudioData() {
File f = getFile();
try {
updateCrossings();
AudioInputStream s = AudioSystem.getAudioInputStream(f);
EqualizerInputStream eq = new EqualizerInputStream(s, 31);
AudioFormat format = getAudioFormat();
IIRControls controls = eq.getControls();
AudiobookRecorder.window.book.equaliser.apply(controls, format.getChannels());
int frameSize = format.getFrameSize();
int length = crossEndOffset - crossStartOffset;
int bytesToRead = length * frameSize;
byte[] data = new byte[bytesToRead];
byte[] buf = new byte[65536];
int pos = 0;
eq.skip(crossStartOffset * frameSize);
while (bytesToRead > 0) {
int r = eq.read(buf, 0, bytesToRead > 65536 ? 65536 : bytesToRead);
for (int i = 0; i < r; i++) {
data[pos++] = buf[i];
bytesToRead--;
}
}
return data;
} catch (Exception e) {
e.printStackTrace();
}
return null;
}
public void doRecognition(StreamSpeechRecognizer recognizer) { public void doRecognition(StreamSpeechRecognizer recognizer) {
try { try {
setText("[recognising...]"); setText("[recognising...]");
AudiobookRecorder.window.bookTreeModel.reload(this); AudiobookRecorder.window.bookTreeModel.reload(this);
AudioFormat format = getAudioFormat(); byte[] inData = getPCMData();
byte[] inData = getRawAudioData(); ByteArrayInputStream bas = new ByteArrayInputStream(inData);
int inLength = inData.length;
int bps = format.getFrameSize();
int inSamples = inLength / bps;
int outSamples = inSamples / 4;
byte[] outData = new byte[outSamples * bps];
for (int i = 0; i < outSamples; i++) {
for (int j = 0; j < bps; j++) {
outData[i * bps + j] = inData[(i * 4) * bps + j];
}
}
ByteArrayInputStream bas = new ByteArrayInputStream(outData);
recognizer.startRecognition(bas); recognizer.startRecognition(bas);
SpeechResult result; SpeechResult result;
String res = ""; String res = "";
@@ -606,9 +504,8 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
} }
recognizer.stopRecognition(); recognizer.stopRecognition();
text = res; setText(res);
AudiobookRecorder.window.bookTreeModel.reload(this);
AudiobookRecorder.window.bookTreeModel.reload(Sentence.this);
} catch (Exception e) { } catch (Exception e) {
e.printStackTrace(); e.printStackTrace();
} }
@@ -620,14 +517,14 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
try { try {
Configuration sphinxConfig = new Configuration(); Configuration sphinxConfig = new Configuration();
sphinxConfig.setAcousticModelPath("resource:/edu/cmu/sphinx/models/en-us/en-us"); sphinxConfig.setAcousticModelPath(AudiobookRecorder.SPHINX_MODEL);
sphinxConfig.setDictionaryPath("resource:/edu/cmu/sphinx/models/en-us/cmudict-en-us.dict"); sphinxConfig.setDictionaryPath("resource:/edu/cmu/sphinx/models/en-us/cmudict-en-us.dict");
sphinxConfig.setLanguageModelPath("resource:/edu/cmu/sphinx/models/en-us/en-us.lm.bin"); sphinxConfig.setLanguageModelPath("resource:/edu/cmu/sphinx/models/en-us/en-us.lm.bin");
AudioInputStream s = AudioSystem.getAudioInputStream(getFile()); AudioInputStream s = AudioSystem.getAudioInputStream(getFile());
AudioFormat format = getAudioFormat(); AudioFormat format = getAudioFormat();
sphinxConfig.setSampleRate((int)(format.getSampleRate() / 4f)); sphinxConfig.setSampleRate((int)(format.getSampleRate()));
StreamSpeechRecognizer recognizer; StreamSpeechRecognizer recognizer;
@@ -660,8 +557,8 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
} }
public void clearCache() { public void clearCache() {
storedAudioData = null; audioData = null;
System.gc(); // processedAudio = null;
} }
public boolean lockedInCache() { public boolean lockedInCache() {
@@ -669,7 +566,7 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
} }
public int findNearestZeroCrossing(int pos, int range) { public int findNearestZeroCrossing(int pos, int range) {
int[] data = getAudioData(); double[][] data = getProcessedAudioData();
if (data == null) return 0; if (data == null) return 0;
if (data.length == 0) return 0; if (data.length == 0) return 0;
@@ -679,19 +576,19 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
int backwards = pos; int backwards = pos;
int forwards = pos; int forwards = pos;
int backwardsPrev = data[backwards]; double backwardsPrev = (data[backwards][LEFT] + data[backwards][RIGHT]) / 2d;
int forwardsPrev = data[forwards]; double forwardsPrev = (data[forwards][LEFT] + data[forwards][RIGHT]) / 2d;
while (backwards > 0 || forwards < data.length-2) { while (backwards > 0 || forwards < data.length-2) {
if (forwards < data.length-2) forwards++; if (forwards < data.length-2) forwards++;
if (backwards > 0) backwards--; if (backwards > 0) backwards--;
if (backwardsPrev >= 0 && data[backwards] < 0) { // Found one! if (backwardsPrev >= 0 && ((data[backwards][LEFT] + data[backwards][RIGHT]) / 2d) < 0) { // Found one!
return backwards; return backwards;
} }
if (forwardsPrev < 0 && data[forwards] >= 0) { if (forwardsPrev < 0 && ((data[forwards][LEFT] + data[forwards][RIGHT]) / 2d) >= 0) {
return forwards; return forwards;
} }
@@ -700,8 +597,8 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
return pos; return pos;
} }
backwardsPrev = data[backwards]; backwardsPrev = (data[backwards][LEFT] + data[backwards][RIGHT]) / 2d;
forwardsPrev = data[forwards]; forwardsPrev = (data[forwards][LEFT] + data[forwards][RIGHT]) / 2d;
} }
return pos; return pos;
} }
@@ -741,4 +638,419 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
public boolean getAttentionFlag() { public boolean getAttentionFlag() {
return attention; return attention;
} }
public double getPeakValue() {
double oldGain = gain;
gain = 1.0d;
double[][] samples = getProcessedAudioData();
gain = oldGain;
if (samples == null) {
return 0;
}
double ms = 0;
for (int i = 0; i < samples.length; i++) {
if (Math.abs((samples[i][LEFT] + samples[i][RIGHT]) / 2d) > ms) {
ms = Math.abs((samples[i][LEFT] + samples[i][RIGHT]) / 2d);
}
}
return ms;
}
public int getHeadroom() {
double r = getPeakValue();
if (r == 0) return 0;
double l10 = Math.log10(r);
double db = 20d * l10;
return (int)db;
}
public void setGain(double g) {
if (g <= 0.0001d) g = 1.0d;
if (g == gain) return;
if (gain != g) {
clearCache();
}
gain = g;
}
public double getGain() {
return gain;
}
public void normalize() {
if (locked) return;
double max = getPeakValue();
double d = 0.708 / max;
if (d > 1d) d = 1d;
setGain(d);
}
class ExternalEditor implements Runnable {
Sentence sentence;
ExternalEditor(Sentence s) {
sentence = s;
}
public void run() {
String command = Options.get("editor.external");
if (command == null) return;
if (command.equals("")) return;
String[] parts = command.split("::");
ArrayList<String> args = new ArrayList<String>();
for (String part : parts) {
if (part.equals("%f")) {
args.add(getFile().getAbsolutePath());
} else {
args.add(part);
}
}
try {
ProcessBuilder process = new ProcessBuilder(args);
Process proc = process.start();
proc.waitFor();
} catch (Exception e) {
}
clearCache();
AudiobookRecorder.window.updateWaveform();
}
}
public void openInExternalEditor() {
ExternalEditor ed = new ExternalEditor(this);
Thread t = new Thread(ed);
t.start();
}
public void backup() throws IOException {
File whereto = getFile().getParentFile();
String name = getFile().getName();
int backupNumber = -1;
for (int i = 1; i < 999999; i++) {
String fn = String.format("backup-%08d-%s", i, name);
File testFile = new File(whereto, fn);
if (!testFile.exists()) {
backupNumber = i;
break;
}
}
if (backupNumber == -1) {
System.err.println("Out of backup space!");
return;
}
String fn = String.format("backup-%08d-%s", backupNumber, getFile().getName());
File bak = new File(getFile().getParentFile(), fn);
Files.copy(getFile().toPath(), bak.toPath());
}
class ExternalProcessor implements Runnable {
Sentence sentence;
int number;
public ExternalProcessor(Sentence s, int num) {
sentence = s;
number = num;
}
public void run() {
String command = Options.get("editor.processor." + number + ".command");
if (command == null) return;
if (command.equals("")) return;
String[] parts = command.split("::");
ArrayList<String> args = new ArrayList<String>();
try {
backup();
} catch (Exception e) {
e.printStackTrace();
return;
}
File out = new File(getFile().getParentFile(), "proc-" + getFile().getName());
for (String part : parts) {
if (part.equals("%f")) {
args.add(getFile().getAbsolutePath());
} else if (part.equals("%o")) {
args.add(out.getAbsolutePath());
} else {
args.add(part);
}
}
try {
ProcessBuilder process = new ProcessBuilder(args);
Process proc = process.start();
proc.waitFor();
} catch (Exception e) {
}
if (out.exists()) {
try {
File in = getFile();
in.delete();
Files.copy(out.toPath(), in.toPath());
out.delete();
} catch (Exception e) {
e.printStackTrace();
}
}
clearCache();
AudiobookRecorder.window.updateWaveform();
}
}
public void runExternalProcessor(int num) {
if (isLocked()) return;
ExternalProcessor ed = new ExternalProcessor(this, num);
Thread t = new Thread(ed);
t.start();
}
public void undo() {
File whereto = getFile().getParentFile();
String name = getFile().getName();
int backupNumber = -1;
for (int i = 1; i < 999999; i++) {
String fn = String.format("backup-%08d-%s", i, name);
File testFile = new File(whereto, fn);
if (testFile.exists()) {
backupNumber = i;
} else {
break;
}
}
if (backupNumber == -1) {
return;
}
String fn = String.format("backup-%08d-%s", backupNumber, getFile().getName());
File bak = new File(getFile().getParentFile(), fn);
try {
File in = getFile();
in.delete();
Files.copy(bak.toPath(), in.toPath());
bak.delete();
} catch (Exception e) {
e.printStackTrace();
}
clearCache();
AudiobookRecorder.window.updateWaveform();
}
public double[][] getDoubleDataS16LE(AudioInputStream s, AudioFormat format) throws IOException {
long len = s.getFrameLength();
int frameSize = format.getFrameSize();
int chans = format.getChannels();
int bytes = frameSize / chans;
byte[] frame = new byte[frameSize];
double[][] samples = new double[(int)len][2];
for (long fno = 0; fno < len; fno++) {
s.read(frame);
if (chans == 2) { // Stereo
int ll = frame[0] >= 0 ? frame[0] : 256 + frame[0];
int lh = frame[1] >= 0 ? frame[1] : 256 + frame[1];
int rl = frame[2] >= 0 ? frame[2] : 256 + frame[2];
int rh = frame[3] >= 0 ? frame[3] : 256 + frame[3];
int left = (lh << 8) | ll;
int right = (rh << 8) | rl;
if ((left & 0x8000) == 0x8000) left |= 0xFFFF0000;
if ((right & 0x8000) == 0x8000) right |= 0xFFFF0000;
samples[(int)fno][LEFT] = (double)left / 32768d;
samples[(int)fno][RIGHT] = (double)right / 32768d;
} else {
int l = frame[0] >= 0 ? frame[0] : 256 + frame[0];
int h = frame[1] >= 0 ? frame[1] : 256 + frame[1];
int mono = (h << 8) | l;
if ((mono & 0x8000) == 0x8000) mono |= 0xFFFF0000;
samples[(int)fno][LEFT] = (double)mono / 32768d;
samples[(int)fno][RIGHT] = (double)mono / 32768d;
}
}
return samples;
}
public double[][] getDoubleDataS24LE(AudioInputStream s, AudioFormat format) throws IOException {
long len = s.getFrameLength();
int frameSize = format.getFrameSize();
int chans = format.getChannels();
int bytes = frameSize / chans;
byte[] frame = new byte[frameSize];
double[][] samples = new double[(int)len][2];
for (long fno = 0; fno < len; fno++) {
s.read(frame);
int sample = 0;
if (chans == 2) { // Stereo
int ll = frame[0] >= 0 ? frame[0] : 256 + frame[0];
int lm = frame[1] >= 0 ? frame[1] : 256 + frame[1];
int lh = frame[2] >= 0 ? frame[2] : 256 + frame[2];
int rl = frame[3] >= 0 ? frame[3] : 256 + frame[3];
int rm = frame[4] >= 0 ? frame[4] : 256 + frame[4];
int rh = frame[5] >= 0 ? frame[5] : 256 + frame[5];
int left = (lh << 16) | (lm << 8) | ll;
int right = (rh << 16) | (rm << 8) | rl;
if ((left & 0x800000) == 0x800000) left |= 0xFF000000;
if ((right & 0x800000) == 0x800000) right |= 0xFF000000;
samples[(int)fno][LEFT] = (double)left / 8388608d;
samples[(int)fno][RIGHT] = (double)right / 8388608d;
} else {
int l = frame[0] >= 0 ? frame[0] : 256 + frame[0];
int m = frame[1] >= 0 ? frame[1] : 256 + frame[1];
int h = frame[2] >= 0 ? frame[2] : 256 + frame[2];
int mono = (h << 16) | (m << 8) | l;
if ((mono & 0x800000) == 0x800000) mono |= 0xFF000000;
samples[(int)fno][LEFT] = (double)mono / 8388608d;
samples[(int)fno][RIGHT] = (double)mono / 8388608d;
}
}
return samples;
}
public void loadFile() {
if (audioData != null) return;
File f = getFile();
try {
AudioInputStream s = AudioSystem.getAudioInputStream(f);
AudioFormat format = getAudioFormat();
double[][] samples = null;
switch (format.getSampleSizeInBits()) {
case 16:
samples = getDoubleDataS16LE(s, format);
break;
case 24:
samples = getDoubleDataS24LE(s, format);
break;
}
s.close();
sampleSize = samples.length;
audioData = samples;
CacheManager.addToCache(this);
} catch (Exception e) {
}
}
synchronized public double[][] getRawAudioData() {
loadFile();
return audioData;
}
synchronized public double[][] getProcessedAudioData() {
loadFile();
// if (processedAudio != null) return processedAudio;
if (audioData == null) return null;
double[][] processedAudio = new double[audioData.length][2];
for (int i = 0; i < audioData.length; i++) {
processedAudio[i][LEFT] = audioData[i][LEFT];
processedAudio[i][RIGHT] = audioData[i][RIGHT];
}
// Add processing in here.
String def = AudiobookRecorder.window.getDefaultEffectsChain();
Effect eff = AudiobookRecorder.window.effects.get(def);
if (eff != null) {
eff.init(getAudioFormat().getFrameRate());
eff.process(processedAudio);
}
if (effectChain != null) {
// Don't double up the default chain
if (!effectChain.equals(def)) {
eff = AudiobookRecorder.window.effects.get(effectChain);
if (eff != null) {
eff.init(getAudioFormat().getFrameRate());
eff.process(processedAudio);
}
}
}
// Add final master gain stage
for (int i = 0; i < processedAudio.length; i++) {
processedAudio[i][LEFT] *= gain;
processedAudio[i][RIGHT] *= gain;
}
return processedAudio;
}
public double[][] getDoubleAudioData() {
return getProcessedAudioData();
}
public double[][] getCroppedAudioData() {
double[][] inSamples = getDoubleAudioData();
if (inSamples == null) return null;
updateCrossings();
int length = crossEndOffset - crossStartOffset;
double[][] samples = new double[length][2];
for (int i = 0; i < length; i++) {
samples[i][LEFT] = inSamples[crossStartOffset + i][LEFT];
samples[i][RIGHT] = inSamples[crossStartOffset + i][RIGHT];
}
return samples;
}
public byte[] getPCMData() {
double[][] croppedData = getCroppedAudioData();
if (croppedData == null) return null;
int length = croppedData.length;
byte[] pcmData = new byte[length * 4];
for (int i = 0; i < length; i++) {
double sd = croppedData[i][LEFT] * 32768d;
int si = (int)sd;
if (si > 32767) si = 32767;
if (si < -32768) si = -32768;
pcmData[i * 4] = (byte)(si & 0xFF);
pcmData[(i * 4) + 1] = (byte)((si & 0xFF00) >> 8);
sd = croppedData[i][RIGHT] * 32768d;
si = (int)sd;
if (si > 32767) si = 32767;
if (si < -32768) si = -32768;
pcmData[(i * 4) + 2] = (byte)(si & 0xFF);
pcmData[(i * 4) + 3] = (byte)((si & 0xFF00) >> 8);
}
return pcmData;
}
public void setEffectChain(String key) {
if ((effectChain != null) && (!effectChain.equals(key))) {
clearCache();
}
effectChain = key;
}
public String getEffectChain() {
if (effectChain == null) return "none";
return effectChain;
}
} }

8
src/uk/co/majenko/audiobookrecorder/Utils.java
View File

@@ -47,6 +47,14 @@ public class Utils {
return 0.0f; return 0.0f;
} }
public static double s2d(String s) {
try {
return Double.parseDouble(s);
} catch (Exception e) {
}
return 0.0d;
}
public static void browse(String url) { public static void browse(String url) {
if (Desktop.isDesktopSupported()) { if (Desktop.isDesktopSupported()) {
try { try {

51
src/uk/co/majenko/audiobookrecorder/Waveform.java
View File

@@ -9,7 +9,7 @@ import javax.sound.sampled.*;
public class Waveform extends JPanel implements MouseListener, MouseMotionListener { public class Waveform extends JPanel implements MouseListener, MouseMotionListener {
int[] samples = null; double[][] samples = null;
int leftMarker = 0; int leftMarker = 0;
int rightMarker = 0; int rightMarker = 0;
@@ -62,12 +62,15 @@ public class Waveform extends JPanel implements MouseListener, MouseMotionListen
g.drawLine(x, 0, x, h); g.drawLine(x, 0, x, h);
} }
int h2 = h/2;
int db3 = (int) (h2 * 0.708);
for (int x = 0; x < w; x += 4) { for (int x = 0; x < w; x += 4) {
g.drawLine(x, h/4, x, h/4); g.drawLine(x, h2 + db3, x, h2 + db3);
g.drawLine(x, h/4*3, x, h/4*3); g.drawLine(x, h2 - db3, x, h2 - db3);
} }
int scale = 32768/(h/2); double scale = (h/2);
if (samples != null) { if (samples != null) {
@@ -81,15 +84,15 @@ public class Waveform extends JPanel implements MouseListener, MouseMotionListen
for (int n = 0; n < w; n++) { for (int n = 0; n < w; n++) {
int hcnt = 0; int hcnt = 0;
long have = 0; double have = 0;
int hmax = 0; double hmax = 0;
int lcnt = 0; int lcnt = 0;
int lave = 0; double lave = 0;
int lmax = 0; double lmax = 0;
for (int o = 0; o < step; o++) { for (int o = 0; o < step; o++) {
int sample = samples[offset + (n * step) + o]; double sample = (samples[offset + (n * step) + o][Sentence.LEFT] + samples[offset + (n * step) + o][Sentence.RIGHT]) / 2d;
if (sample >= 0) { if (sample >= 0) {
have += sample; have += sample;
hcnt++; hcnt++;
@@ -105,15 +108,29 @@ public class Waveform extends JPanel implements MouseListener, MouseMotionListen
if (hcnt > 0) have /= hcnt; if (hcnt > 0) have /= hcnt;
if (lcnt > 0) lave /= lcnt; if (lcnt > 0) lave /= lcnt;
hmax /= scale; boolean clip = false;
lmax /= scale;
have /= scale;
lave /= scale;
g.setColor(new Color(0, 20, 200)); if (lmax > 0.708) { // -3dB == 23198?
g.drawLine(n, h/2 + lmax, n, h/2 - hmax); clip = true;
}
if (hmax > 0.708) { // -3dB
clip = true;
}
hmax *= scale;
lmax *= scale;
have *= scale;
lave *= scale;
if (clip) {
g.setColor(new Color(200, 20, 0));
} else {
g.setColor(new Color(0, 20, 200));
}
g.drawLine(n, (int)(h/2 + lmax), n, (int)(h/2 - hmax));
g.setColor(new Color(0, 100, 255)); g.setColor(new Color(0, 100, 255));
g.drawLine(n, h/2 + (int)lave, n, h/2 - (int)have); g.drawLine(n, (int)(h/2 + lave), n, (int)(h/2 - have));
} }
g.setColor(new Color(255, 0, 0, 32)); g.setColor(new Color(255, 0, 0, 32));
@@ -172,7 +189,7 @@ public class Waveform extends JPanel implements MouseListener, MouseMotionListen
repaint(); repaint();
} }
public void setData(int[] s) { public void setData(double[][] s) {
samples = s; samples = s;
playMarker = 0; playMarker = 0;
repaint(); repaint();