Subsurface 3.0.1 User Manual ============================ :author: Jacco_van_Koll,_Dirk_Hohndel,_Reinout_Hoornweg,_Linus_Torvalds,_Miika_Turkia_and_Amit_Chaudhuri :revnumber: v3.0.0 :revdate: February 2013 :revnumber: v3.0.1 :revdate: February 2013 :toc: :icons: :numbered: :website: http://subsurface.hohndel.org Scope of this document is the usage of the program. Please read the build manual for instructions how to build the software and (if needed) its dependencies. Audience: Fun Divers, Tec Divers, Professional Divers [[S_Introduction]] Introduction: ------------- Subsurface is an open source divelog program that runs on Windows, Mac and Linux. It was started because of a lack of viable divelog software on Linux. It then turned out that the resulting software was fairly easily ported to Windows and Mac and today great effort is put into making it a viable application on all three platforms. The program is under active development and at this point it compares favorably to many other programs in this market. While the list of supported dive computers is very long, in this manual the Suunto Vyper will be used for all examples. [[S_Requirements]] Requirements ------------ Before you are able to import information from your dive computer into Subsurface, you need some preparation. Do you have the following: 1. Your Dive Computer - compatible with libdivecomputer (see list in <>) 2. Communication interface - usually that means a cable to connect your dive computer to your PC/Laptop/Netbook; some dive computers use IRDA or Bluetooth as well 3. Working installation of Subsurface 4. If needed, the manual of your dive computer Alternatively you can import your divelogs from a couple of other divelog applications (JDiveLog, MacDive, Suunto Dive Manager, divelogs.de). However, native download from dive computer directly to Subsurface is recommended. [[S_StartUsing]] Start Using the Program ----------------------- When you start the program for the first time, it shows no information at all. This is because the program doesn't have any information available. If you have used the program before and saved the data, the program will automatically load the already available divelog files. There is a menu, containing 'File', 'Log', 'Filter', 'Planner' and 'Help'. The screen is divided in 3 area's (shown below with test dives loaded): - Area with 4 tabs: Dive Notes, Equipment, Dive Info, and Stats - Area next to the 4 tabs which will contain the dive profile - Area with the dives (usually called dive list) which can be sorted by number, date, etc. image::images/main_window.png["The Main Window",align="center"] [[S_DiveProfile]] Dive Profile and Included information ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The dive profile shown on the main screen is loaded with information. However, great effort was taken to keep the profile simple, yet informative. The main information of the dive profile is the depth graph. On top of the obvious information of the depth it shows also the ascent and descent rate compared to the recommended speed of going up or down in the water column. This information is given using different colors. Dark red means ascent faster than 18m/60ft per minute or decent faster than 30m/100ft per minute. Orange implies an ascent speed range between 9m and 18m (between 30 and 60ft) per minute (or descent between 18m and 30m (60ft - 100ft) per minute). Yellow and light green represent even slower speeds and dark green represents reasonably stable situations where the vertical speed is between +/- 1.5m or 5ft per minute. The depth graph also includes depth readings for the peaks in the graph. Thus you should see the depth of the deepest point and other peaks. Average depth is marked with a horizontal red line. The air consumption graph displays the tank pressure and its change during the dive. The air consumption takes depth into account so that even when manually entering the start and end pressures the graph is not a straight line. Similarly to the depth graph the tank pressure gives you information of the SAC rate when using air integrated dive computer. Here the color coding is not relative to some absolute values but relative to the average normalized air consumption during the dive. So areas that are red or orange indicate times of increased normalized air consumption while dark green reflects times when the diver was using less gas than average. Please note that the color coding is obviously only possible when a tank sensor is connected and tank pressure readings during the dive are available. Water temperature is displayed with its own blue line with degree markings placed adjacent to significant changes. It is also possible to zoom in the profile graph. This is done either by using the scroll wheel / scroll gesture of your mouse or trackpad or by holding down the left mouse button; the zoom area can be changed by moving the mouse around the profile. There is also a toggle zoom under the 'Log' menu that changes the scale of the dive to fill the whole area, useful especially for free divers. [[S_TecDiveProfile]] Tec Information in Dive Profile ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The dive profile can include Tec settings. Enabling these is described in chapter <>. Basically you can include graphs of accumulated pO2, pN2, pHe. These graphs are added below the profile data. On top of the profile the currently used gradient factors are shown (e.g. GF 35/75). The graph can also include both the dive computer reported ceiling and our calculated ceiling. Because of the differences in used algorithms it is unlikely that both of these are the same. It is even quite common that Subsurface calculates ceiling for non-decompression dives when the dive computer was not in deco mode during the dive. [[S_ImportNewDives]] Import New Dives from your Dive Computer --------------------------------------- Before you start fiddling around with your dive computer, note that there are dive computers that consume more power when they are in the PC-Communication mode. This could drain your battery. Therefor, ensure if your computer is recharging when connecting to the USB port. The Suunto Vyper does not recharge through the USB connection. Please consult the manual of your dive computer if you are unsure if it will be recharged when connected to the USB port. Now it is time to hook up your dive computer to your PC: - Make sure that your OS has the required drivers installed * On Linux this means you need to have the correct kernel module loaded. Most distributions will do this automatically for you. * On Windows, the OS should offer to download the correct driver when you connect your dive computer to the USB port. * On a Mac you at times have to manually hunt for the correct driver. For example the correct driver for the Mares Puck devices can be found as Mac_OSX_VCP_Driver.zip at http://www.silabs.com/support/pages/support.aspx?ProductFamily=USB+Bridges (see further hints in <>) - Connect your interface cable to a free USB port - Put your dive computer into PC Communication mode. (For 'Suunto Vyper', press Mode - 1 Memory - 3 TR-PC) (You should consult the manual of your specific dive computer for your brand and type) - In Subsurface go to 'Log - Download From Dive Computer' * Using the two drop down lists, choose your vendor and product. Here we choose 'Suunto' and 'Vyper' as is shown on the screenshot below. * Select the device name under which your interface is connected from the drop down list. * Click the 'OK' button. image::images/download_dc.png["Download from Dive Computer",align="center"] - Now watch how your data is retrieved from your dive computer! Depending on your type of computer and/or number of dives, this could take some time. Please be patient. [[S_ImportUemis]] Import New Dives from a Uemis Zurich ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Things are very similar when downloading dives from a Uemis Zurich dive computer (which certainly is one of the ones that DO recharge when connected to the USB port). The main difference is that you don't enter a device name, but instead the location where the UEMISSDA file system is mounted once you connect the dive computer. On Windows this is a drive letter (often 'E:' or 'F:'), on a Mac this is '/Volumes/UEMISSDA' and on Linux systems this differs depending on the distribution that you use. On Fedora it usually is '/var/run/media//UEMISSDA'. In all cases Subsurface should suggest the correct location in the drop down list. So once you have selected this as device name you can download the dives from the Uemis Zurich. One technical issue with the Uemis Zurich download implementation (this is a firmware limitation, not a Subsurface issue) is that you cannot download more than about 40-50 dives without running out of memory on the SDA. This will usually only happen the very first time you download dives from the Uemis Zurich - normally when downloading at the end of a day or even after a dive trip, the capacity is sufficient. If Subsurface displays and error that the dive computer ran out of space the solution is straight forward. Disconnect the SDA, turn it off and on again, and reconnect it. You can now retry (or start a new download session) and the download will continue where it stopped the last time you tried. You may have to do this more than once, depending on how many dives you have stored on your dive computer. At this point Subsurface downloads most of the information that is stored on the SDA, including information about dive spots and equipment. Buddy information is not yet downloaded. [[S_HowFindDeviceName]] How to Find the Device Name for USB devices ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ When you connect your dive computer by using an USB connector, usually Subsurface will propose a drop down list that contains the correct device name (or mount point for the Uemis Zurich). In the rare cases where this doesn't work here are some instructions on ways to find out what your dive name is: .On Windows: Simply try COM1, COM2, etc. The drop down list should contain all connected COM devices. .On MacOS: The drop down box should find all connected dive computers. .On Linux: - Disconnect your USB cable of your dive computer - Open a terminal - Type the command: 'dmesg' and press enter - Plug in your USB cable of your dive computer - Type the command: 'dmesg' and press enter Within your terminal you should see a message similar to this one: usb 2-1.1: new full speed USB device number 14 using ehci_hcd usbcore: registered new interface driver usbserial USB Serial support registered for generic usbcore: registered new interface driver usbserial_generic usbserial: USB Serial Driver core USB Serial support registered for FTDI USB Serial Device ftdi_sio 2-1.1:1.0: FTDI USB Serial Device converter detected usb 2-1.1: Detected FT232BM usb 2-1.1: Number of endpoints 2 usb 2-1.1: Endpoint 1 MaxPacketSize 64 usb 2-1.1: Endpoint 2 MaxPacketSize 64 usb 2-1.1: Setting MaxPacketSize 64 usb 2-1.1: FTDI USB Serial Device converter now attached to ttyUSB3 usbcore: registered new interface driver ftdi_sio ftdi_sio: v1.6.0:USB FTDI Serial Converters Driver You see that in the third line from the bottom, the USB adapter is detected and is connected to 'ttyUSB3'. Now you use this information in the import settings as '/dev/ttyUSB3'. Your dive computer interface is connected and you should be able to import your dives. [[S_HowFindBluetoothDeviceName]] Setting up bluetooth enabled devices ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ For dive computers communicating through bluetooth like the Heinrichs Weikamp Frog or the Shearwater Predator and Petrel there is a different procedure to get the devices name to communicate with subsurface. In general it consists of these steps: * enable bluetooth on your computer * pairing the device Please do not forget to set your divecomputer in Bluetooth or upload mode before Paring and Downloading logs. If you use a Shearwater Predator/Petrel just select 'Dive Log+' -> 'Upload Log' and wait until you see the 'Wait PC' message. .On Windows: Bluetooth is most likely already enabled. For pairing the device choose Control Panel->Bluetooth Devices->Add Wireless Device This should bring up a dialog showing your dive computer (in Bluetooth mode) and allowing to pair it. Choose "0000" as PIN set in your dive computer should work in most cases, if not, refer to the manufacturer of your dive computer. The dive computer should then show up in the list of Bluetooth devices and you may then right click on it and choose Properties->COM Ports to get known of the ports used for your dive computer. If there are several ports listed, use the one saying "Outgoing" instead of "Incoming". image::images/bluetooth_properties.png["Edit Dive Info",align="center"] Downloading in Subsurface, the drop down list should contain this COM port already, if not enter it manually. Note: If you have issues downloading from your dive computer in other software afterwards try to remove the pairing to get it working again (proven to work for Shearwater Desktop). .On MacOS: Click on the Bluetooth symbol in the menu bar and select 'Set up Bluetooth Device...'. Make sure that your dive computer is in upload mode; it should then show up in the list of devices. Select it and go through the pairing process. This step should only be needed once for initial setup. Once the pairing is completed the correct device will be shown in the 'Device or Mount Point' drop down in the Subsurface Download dialog. .On Linux Please make sure you have bluetooth enabled on your computer running Subsurface. On most common distributions this should be true out of the box, if not then depending on your system running initd or systemd this might be different and also involve loading modules specific to your hardware. In case your system is running systemd manually run 'sudo systemctl start bluetooth.service' to enable it, in case of initd run something like 'sudo rc.config start bluetoothd' or 'sudo /etc/init.d/buetooth start'. Pairing should be straight forward. Using Gnome3 for instance will show a bluetooth icon in the upper right corner of your desktop where you select 'Set up New Device'. This should show you a dialog where you are able to select your dive computer (in bluetooth mode) and pair it. If you have issues with PIN setting try manually setting '0000'. You may also use a manual approach by using such commands: * 'sudo hciconfig' - shows the bluetooth devices available on your computer (not dive computer), most likely you will see a hci0, if not try 'sudo hcitool -a' to see inactive devices and try to run 'sudo hciconfig hci0 up' to bring them up * 'sudo hcitool scanning'- use this to get a list of bluetooth enabled client devices, watch out for your dive computer and remember the MAC address shown there * 'sudo bluez-simple-agent hci0 10:00:E8:C4:BE:C4' - this will pair your dive computer with the bluetooth stack of your computer, copy/paste the MAC address from the output of 'hcitool scanning' Unforturnately on Linux binding to a communication device has to be done manually by running: * 'sudo rfcomm bind /dev/rfcomm0 10:00:E8:C4:BE:C4' - bind the dive computer to a communication device in your computer, in case rfcomm is already taken just use rfcomm1 or up, please copy/paste the MAC address from the output of 'hcitool scanning', the MAC shown in here will not work for you :-). For downloading dives in subsurface you have then to specify '/dev/rfcomm0' as device name to use. Troubleshooting: Using Bluetooth for downloading from dive computers on Linux seems to be tricky some times. If you have issues please have a look to the following notes. Using a Shearwater Predator you may be able to pair but then encounter issues when downloading, showing errors like "Slip RX: unexp. SLIP END" on the Predator. This might also be seen, when using other dive log software and operating systems than Linux. We have no detailed idea about the source and how to fix this, but it is reported to be solved sometimes by one of these steps: * use the bluetooth dongle which came with the Shearwater Predator instead of the built-in one of your computer * switch to different bluetooth drivers for your hardware * switch off WiFi while using Bluetooth Computers reportet to work fine: * Lenovo T410 running Arch Linux, kernel 3.7.x * MacBookPro Retina running Ubuntu 13.04, Kernel 3.8.0 hint: use bmcl drivers instead of b43, try to disable WiFi Please report issues or working environments to on http://trac.hohndel.org[our bugtracker] or send email to mailto:subsurface@hohndel.org[our mailing list]. [[S_ViewingLogs]] Viewing and Completing Your Logs -------------------------------- When all data from your dive computer is transferred, you will see a listing of your dives in Area 3. An example: On Sunday Oct 23, 2011 you made a dive. In the log line of this dive, you see the following information: [width="70%",cols="<20%,40%,40%",options="header"] |=============================================================================== | Header | Value | Description of field | # | 12 | Dive number | Date | Sun, Oct 23, 2011 10:50 | Date and time of your dive | * | | Your rating (none at this time) | m | 12.8 | Your maximum depth in meters | min | 31:20 | Your dive-time in minutes and seconds | Deg. C | 13.0 | Lowest water temperature during your dive | kg | | Weight carried (none at this time) | Suit | | Exposure protection suit worn (none at this time) | Cyl | | Your used cylinder (none at this time) | O2% | air | What type of mixture | SAC | | SAC (none at this time) | Location | | Where you performed your dive (empty) |=============================================================================== As you can see, some information is already there because it is retrieved from your dive computer. Some information is waiting for you to be added. By double clicking on this dive, you can view and complete the log. The different types of information shown in this list may differ depending on the settings. More about that in <>. [[S_EditDiveInfo]] Edit the Dive Info ~~~~~~~~~~~~~~~~~~ When you double click on the divelog line as described in <>, an editor window opens as shown in this screenshot: image::images/edit_dive_info.png["Edit Dive Info",align="center"] The purpose of the fields is described in the table below: [width="90%",cols="<33%,67%",options="header"] |=============================================================================== | Field | Description of field | Location | An input where you can enter your new location, or you can choose with the pull-down previous locations | GPS (WGS84 or GPS format) | An input where you can enter geographic coordinates of the dive site | Pick on map | A button you can click on to display an interactive map on which you can select the location of the dive site | Dive Master | An input where you can enter the name of your Dive Master, or you can choose with the pull-down a previous name | Buddy | An input where you can enter the name of you Buddy, or you can choose with the pull-down a previous name | Rating | A pull-down where you can rate your dive | Suit | An input where you can track the exposure protection suit you were wearing | Visibility | A pull-down where you can rate the visibility underwater | Air Temp in deg. C | An input where you can enter the air temperature | Notes | A free input where you can enter information about your dive. What you've seen, etc. |=============================================================================== Now you can add information that is missing. Let's start with completing the example: In this example we use the following information: [width="70%",cols="<33%,67%"] |=============================================================================== | Location | Oostvoornse Meer | Dive Master | S. de Vries | Buddy | S. de Vries | Rating | 3 stars | Suit | 7mm wet | Notes | First dive here. Good visibility. Did see the concrete poles, some crab and fish. Very nice and easy dive. + Made movie with headcam. |=============================================================================== Now don't press OK yet! [[S_EditEquipmentInfo]] Edit Equipment Info ~~~~~~~~~~~~~~~~~~~ You also want to edit your Cylinder information and in the <>, this was not edited. There is still another item to edit in the Dive Info screen: 'Cylinder' [width="90%",cols="<33%,67%",options="header"] |=============================================================================== | Field | Description of field | Cylinder | A double-click field set. Here you can edit your Cylinder information |=============================================================================== So, when you double click on the cylinder info or press the 'Edit' button, you get another pop-up. image::images/cylinder.png["Edit Cylinder",align="center"] This pop-up window contains the following information: [width="90%",cols="<33%,67%",options="header"] |=============================================================================== | Field | Description of field | Cylinder | Pull-down where you can choose your Cylinder, or add your own | Size | The volume if not `filled' | Pressure | The maximum pressure of this Cylinder | Start Pressure _(optional)_ | What was the pressure starting the dive | End Pressure _(optional)_ | What was the pressure ending the dive | Gasmix _(optional)_ | What was the percentage O2 and He of the blend |=============================================================================== Now we are going to enter the data: [width="40%",cols="<34%,33%,33%",options="header"] |=============================================================================== | Cylinder | Size | Pressure | 15.0 l | 15.0 | 220 |=============================================================================== Now tick the option for Start & End pressure and enter the pressures: [width="40%",cols="<50%,50%",options="header"] |=============================================================================== | Start Pressure | End Pressure | 180 | 60 |=============================================================================== Press 'OK'. In very much the same way you can enter the weight you were carrying on the dive. Subsurface tracks the following: [width="90%",cols="<33%,67%",options="header"] |=============================================================================== | Field | Description of field | Type | Specific type of weight system, like weight belt, integrated pockets | Weight | Amount of weight (by default in kg, but can be switched to use lbs) |=============================================================================== Enter the following data: [width="40%",cols="<50%,50%",options="header"] |=============================================================================== | Type | Weight | Integrated | 13kg |=============================================================================== Press 'OK'. Now your dive information for this dive is complete. You can now press 'OK' in the Dive Info screen and view the results. [[S_ViewInfoStats]] View Dive Info & Stats ---------------------- After adding all the information, you can use the tab 'Dive Info' and the 'Stats tab'. These tabs will provide you with all the (statistical and calculated) information regarding your dive. The information contains: **Dive Info:** [width="90%",cols="<33%,67%",options="header"] |=============================================================================== | Field | Description of field | Date | Date and time of your dive | Dive Time | Duration of your dive | Surf Intv | Interval between previous dive and this dive | Max Depth | Maximum depth of this dive | Avg Depth | The average depth of this dive | Visibility | The visibility under water | Water Temp | Lowest temperature of the water | Air Temp | The temperature of the air at the surface | Air Press | The air pressure at the surface | SAC | The amount of Surface Air Consumption liters per minute | OTU | The Oxygen Toxicity Units of this dive | O2/He | Amount of Oxygen/Helium | Gas Used | The total volume of gas used during this dive |=============================================================================== **Statistics:** [width="90%",cols="<33%,67%",options="header"] |=============================================================================== | Field | Description of field | Dives | Number of dives covered (usually one, unless you select more dives) | Max/Min/Avg Temp | Corresponding temperature of the dives covered | Total time | Total time of the covered dives together, calculated | Avg/Long/Short Time | The average / longest / shortest dive time of the covered dives, calculated | Max/Min/Avg Depth | The maximum / minimum / average depth of the covered dives | Max/Min/Avg SAC | Highest / lowest / average Surface Air Consumption of your covered dives |=============================================================================== There is also a yearly statistics option that is reachable from the menu 'Log - Yearly Statistics'. These statistics show you information on how many dives you have done per year and how long you spent below surface in total (during each year). You can also dig into a monthly level displaying the same information on monthly basis. Following information is given for each year (and month when expanded): [width="90%",cols="<33%,67%",options="header"] |=============================================================================== | Field | Description of field | Year > Month | Year and month that is shown | # | Amount of dives during the year (or month) in question | Duration Total | Duration of all dives added together | Average | Average duration of a dive | Shortest | Duration of the shortest dive | Longest | Duration of the longest dive | Depth Average | Average depth of the dives | Minimum | This is the maximum depth of the shallowest dive | Maximum | Greatest maximum depth of the deepest | SAC Average | Average air consumption | Minimum | Minimum air consumption on a single dive | Maximum | Maximum air consumption on a single dive | Temperature Average | The average temperature of the recorded minimum temperatures of the dives | Minimum | The minimum temperature of the dives | Maximum | The maximum (minimum) temperature of the recorded dives |=============================================================================== [[S_SettingUpPreferences]] Setting up Preferences ---------------------- Subsurface has the ability to modify the preferences you want. By using menu 'File - Preferences' you will be presented a pop-up. The pop-up has two tabs: 'General Settings' and 'Tec Settings' as shown below. image::images/preferences.png["Preferences",align="center"] The General Settings allow you to select units, columns to be shown, the font used for the dive list and the default file that contains the data. The Tec Settings offer extra columns to show, settings for more graphs and information to be shown in the dive profile and settings for GFlow and GFhigh. In General Settings you are free to choose what your preference are for the units to be displayed, with other words, use Metric or Imperial. You can set the following options with 'Units': [width="90%",cols="<33%,67%",options="header"] |=============================================================================== | Field | Units to be displayed | Depth | Your diving depth in Meters or Feet | Pressure | The pressure of your tank(s) in Bar/Ato or PSI (Pressure Square Inch) | Volume | The volume of your tank(s) in Liter or CuFt (Cubic Feet) (At sea-level pressure) | Temperature | The temperature of the water in Celsius or Fahrenheit | Weight | The weight of your weight system in kg or lbs |=============================================================================== In the main screen, you did see in Area 3, some information. With the 'Show Columns', you can enable/disable options you would like to show there: [width="90%",cols="<33%,67%",options="header"] |=============================================================================== | Column type | Description | Temp | Shows the temperature of your dive | Cyl | Shows the cylinder(s) of your dive | O2% | Shows the O2% of your dive | SAC | Shows the SAC of your dive (Surface Air Consumption) | Weight | Shows the total weight carried | Suit | Shows the suit you were wearing |=============================================================================== With 'Divelist Font', you can change the font used in the dive list, And you can use 'Default XML Data File' to specify which file contains the data the program will use by default. The other tab holds the 'Tec Settings' You can select more columns to be shown with 'Show Columns': [width="90%",cols="<33%,67%",options="header"] |=============================================================================== | Column type | Description | OTU | The number of Oxygen Toxicity Units | maxCNS |The maximum Central Nervous System oxygen toxicity |=============================================================================== The 'Profile Setting' allow you to show extra information in the dive profile: [width="90%",cols="<33%,67%",options="header"] |=============================================================================== | Setting | Description | Show pO2 graph | Show a graph of the oxygen partial pressure (with a threshold, default 1.6) | Show pN2 graph | Show a graph of the nitrogen partial pressure (with a threshold, default 4.0) | Show pHe graph | Show a graph of the helium partial pressure (with a threshold, default 13.0) | Show MOD | Show the Maximum Operating Depth of the used gas-mix (for the given max. ppO2, default 1.6) | Show EAD, END, EADD | Show Equivalent Air Depth (considering N2 and O2 narcotic), Equivalent Nitrogen Depth (considering just N2 narcotic) and Equivalent Air Density Depth | Show dc reported ceiling in red | Show the ceiling as reported by the dive computer | Show calculated ceiling | Show the ceiling as calculated by Subsurface | 3m increments for calculated ceiling | The calculated ceiling is not continuous, but increments in 3m steps | GFlow | Set the Low Gradient Factor (default 30) | GFhigh | Set the High Gradient Factor (default 75) |=============================================================================== I will give an example here: I am a diver in The Netherlands, using the Metric System. Therefor, I go to the menu File, choose Preferences here. In the Units section, I use the following: - Depth: Meter - Pressure: Bar - Volume: Liter - Temperature: Celsius - Weight: kg I would like to see the: - Temperature - Show Cyl - Show O2% - Show SAC Clicking 'OK' on the dialog stores these settings. [[S_ImportingAlienDiveLogs]] Importing Divelogs from other Software -------------------------------------- Subsurface will import divelogs from a couple of other log software. We support currently XML exports from DivingLog, divelogs.de and Suunto DiveManager. Native format of JDiveLog and MacDive are imported as well. When importing dives subsurface tries to detect multiple records for the same dive and merges the information as best as it can. So as long as there are no time zone issues (or other reasons that would cause the beginning time of the dives to be substantially different) subsurface will not create duplicate entries. [[S_ImportingDivesJDiveLog]] Importing Dives from JDiveLog ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Maybe you have been using JDiveLog and you have a lot of dives logged in this program. You don't have to type all information by hand into Subsurface, because you can import your divelogs from JDiveLog. JDiveLog stores its information into files with the extension of .jlb. These .jlb contain all the information that has been stored, except your images in XML format. By using the menu 'File - Import XML File(s)' you get a popup asking for the file name. To import your JDiveLog file(s) do the following: - Open 'File - Import XML Files(s)' on the menu - Browse your directories to the location where your *.jlb file is - Select your existing *.jlb file and click 'open' - Click the OK button in the popup After a few moments, you see your existing logs in Subsurface. Now you can edit your dives like explained in <>. Information that is imported from JDiveLog into the location field: - Extended dive location information Information that is merged into the location or notes field: - Used amount of weight - Used type of suit - Used type of gloves - Type of dive - Dive activity Alternatively, you can start subsurface with the --import command line which will have the same effect: subsurface MyDives.xml --import JDiveLogDives.jlb will open your divelog (assuming that's called MyDives.xml) and then import the dives from JdivelogDives.jlb. You can now save the combined divelog back as MyDives.xml. [[S_ImportingDivesSuunto]] Importing dives from Suunto Divemanager 3.* ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Before you can start importing dives from Suunto Divemanager, you first have to export the dives you want to import. Subsurface does not import directly from the Suunto Divemanager log files. The following procedures unpacking instructions for Linux and Windows. Export from Suunto Divemanager ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ - Start Suunto Divemanager and login with the name containing the logs - Do not start the import wizard to import dives from your computer. - In the navigation tree on the left side of the program-window, select your dives. - Within the list of dives, select the dives you would like to import later: * To select certain dives: hold ctrl and point & click the dive * To select all dives: Select the first dive, hold down shift and select the last dive - With the dives marked, use the program menu 'File - Export' - The export pop-up will show - Within this pop-up, there is one field called Export Path. * Click the button browse next to the field Export Path ** A file-manager like window pops up ** Navigate to the directory where you want to store the Divelog.SDE file ** Optional change the name of the file you want to save ** Click 'Save' * You are back in the Export pop-up. Press the button 'Export' - Your dives are now exported to the file Divelogs.SDE. Reading Suunto Divemanager Export in Subsurface ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ The file Divelogs.SDE can now be opened (or imported) in Subsurface. Different from earlier versions of Subsurface, no manual unpacking of the .SDE file is needed anymore. [[S_ImportingMacDive]] Importing Dives from MacDive ~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Importing logs from MacDive is as easy as it gets. Do the following steps in Subsurface: - Open the following menu 'File - Import XML Files(s)' - Browse your directories to the location where your MacDive logs are stored - Select the log file(s) you want to import and click 'open' - Click the OK button in the popup After a few moments, you see your existing logs in Subsurface. Now you can edit your dives like explained in <>. We currently attempt to import all the relevant dive information excluding the used equipment and diver name. It is also possible to do the importing from command line just like with JDiveLog (see <>): subsurface MyDives.xml --import MacDiveDives.xml [[S_ImportingDivelogsDe]] Importing Dives from divelogs.de ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Before you can start importing dives from divelogs.de, you first have to export the dives you want to import. The exported DLD file can be imported to Subsurface either from command line or from GUI. Export from divelogs.de ^^^^^^^^^^^^^^^^^^^^^^^ - Login to http://en.divelogs.de with your account - Go to the 'Export Logbook' page - Choose 'DLD Export of your logbook' and save the resulting yourUserName.DLD file Import divelogs.de to Subsurface ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ The import works similarly as importing any other divelogs. Just do the following steps on Subsurface: - Open the following menu 'File - Import XML Files(s)' - Browse your directories to the location where yourUserName.DLD is - Select the log file and click OK After a few moments, you see your existing logs in Subsurface. Now you can edit your dives like explained in <>. The fields that are currently not imported are: weather, visibility and boat. It is also possible to do the importing from command line just like with JDiveLog (see <>): subsurface MyDives.xml --import yourUserName.DLD [[S_ImporintgDivinglog]] Importing Dives from DivingLog 5.0 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Before you can start importing dives from DivingLog you first have to export those dives. Unfortunately DivingLog XML files give us no indication on the preferences set on your system. So in order for Subsurface to be able to successfully import XML files from DivingLog you first need to make sure that your copy of DivingLog is configured to use the Metric system (you can easily change this in 'File - Preferences - Units and Language' by clicking the 'Metric' button). Then do the following: - Open the 'File - Export - XML' menu - Select the dives that you want to export - Click on the export button and select the filename This file can now be opened in Subsurface (as described in the previous sections). [[S_DivePlanning]] Planning Dives -------------- Subsurface supports planning of dives using open and closed circuit equipment. This allows users to experiment with different plans and see the effects of changing various parameters of the dives. [WARNING] Deco calculations with optionally displaying the ceiling is done using a new implementation of the Buhlmann ZH16 algorithm with gradient factors. Since the planner and our implementation of the decompression algorithms are new and have received only a limited amount of testing: + **WE STRONGLY RECOMMEND NOT TO PLAN DIVES SIMPLY BASED ON THE RESULTS GIVEN HERE.** When you start the planner, a dialog appears as shown in the following screen capture: image::images/dive_planning.png["Dive Planning",align="center"] In order to plan a dive some basic information needs to be entered: - planned start time of the dive - air consumption - planned depths - planned segment times There is also other information available for those who are familiar with dive planning or use closed circuit rebreathers. [width="90%",cols="<25%,<75%"] |=============================================================================== | Dive starts | Start time of the dive; '+60:00' means that the dive is 60 minutes in the future | Surface Pressure | Air pressure on surface, default 1013 should suffice for most | SAC during dive | Air consumption during the dive, use conservative value based on your own air consumption e.g. 20l/min | SAC during decostop | Air consumption during decompression stop, e.g. 17 l/min | GFlow | Gradient factor low value affects the ceiling calculation, leave to default if you are not familiar with GF | GFhigh | Gradient factor high value affects the ceiling calculation, leave to default if you are not familiar GF | **Ending Depth** | Depth where current segment ends; a different depth from the previous segment creates a transition segment for ascent or descent, keeping the same depth creates a segment at the given depth. By default the planner uses the measurement for length set in the preferences (meters for most users) - this can be overridden by explicitly specifying 'm' or 'ft'. | **Segment Time** | Enter time in minutes; segment duration / relative time is indicated by a '+': '+3' or '+3:00' creates a segment that lasts 3 minutes, a bare number like '7' is used for a segment that ends 7 minutes after the start of the dive. | **Gas Used** | Breathing gas mix used; the parser is reasonably flexible and understands terms like AIR, EAN32, 36% or 15/50 (compressed air, 32% nitrox, 36% nitrox or 15% O₂ / 50% He trimix, respectively); leaving this field empty indicates continued use of the previous gas, air by default | **CC SetPoint** | SetPoint when diving with a closed circuit rebreather. Leave empty for open circuit dives with standard scuba equipment |=============================================================================== The last four elements are repeated for each segment of a planned dive. To illustrate the functionality let's plan a dive to 20 meters lasting 20 minutes at that depth and another 10 minutes at 10 meters. We'll only concentrate on the dive profile here filling the segments. [width="30%",cols="<33%,<33%,34%",options="header"] |=============================================================================== | Ending Depth | Segment Time | Gas Used | 20 | +3 | AIR | 20 | +20 | | 10 | +1:30 | | 10 | +10 | |=============================================================================== So we define the ending depth for the first segment to be 20 meters (assuming metric preferences, you can also define the depth explicitly to m or ft). We will take it easy and descent takes 3 minutes from surface to the planned depth. Then we spend 20 minutes in same level using same air as before (used gas is left empty). Ascent to 10 meters will take one and half minutes that is slower than the fastest recommendation. However, as you can see in Subsurface's calculations it is still marked with yellow, meaning somewhat conservative speed (green would be conservative and red on the fast side). After the defined 10 minutes at even depth of 10 meters we let Subsurface calculate how we will surface. If decompression is required these stops are taken into account and can be easily visualized by setting the first depth to e.g. 40 meters (somewhat dependent on the GF settings). For the ascend phase of the dive calculation Subsurface assumes a typical 9m/min (30ft/min) ascend speed. If needed more segments can be added by clicking 'Add waypoint'. To add the dive to the divelist simply click 'OK'. Double-clicking on the planned dive will show the details, including a written diveplan in the Notes. The dive we defined earlier will present itself like this: -------------------------- DISCLAIMER / WARNING: THIS IS A NEW IMPLEMENTATION OF THE BUHLMANN ALGORITHM AND A DIVE PLANNER IMPLEMENTION BASED ON THAT WHICH HAS RECEIVED ONLY A LIMITED AMOUNT OF TESTING. WE STRONGLY RECOMMEND NOT TO PLAN DIVES SIMPLY BASED ON THE RESULTS GIVEN HERE. Subsurface dive plan based on GFlow = 30 and GFhigh = 80 <1> Transition to 20 m in 3:00 min - runtime 3:00 on air <2> Stay at 20 m for 20:00 min - runtime 23:00 on air <3> Transition to 10.0 m in 1:30 min - runtime 24:30 on air Stay at 10.0 m for 10:00 min - runtime 34:30 on air Transition to 0.0 m in 1:06 min - runtime 35:36 on air <4> Gas consumption: 1849l of air <5> -------------------------- <1> This shows the values used for GFlow and GFhigh <2> A 'transition' is a change in depth in a certain amount of time <3> A 'stay' is a constant depth for a specified amount of time <4> Note that the planner assumes you always want to end the dive at the surface. The final segment to 0m with a sane ascent rate is automatically added. <5> The planner tries to estimate the needed amount of gas based on the plan and SAC Following image shows the resulting profile along with a glimpse of the aforementioned dive plan: image::images/planned_dive.png["Planned Dive",align="center"] [[S_Webservice,Web Service and Companion App]] Web Service and Companion App ----------------------------- This part of Subsurface is a bit of 'work in progress'. We are developing a companion application for Android that will allow you to track dive sites from your GPS-enabled Android device; at the time of the Subsurface 3.0 release the app wasn't ready to be submitted to the Google Play store, but since it is mostly usable when built form source we left the server side integration in Subsurface. Assuming you have used the companion app to name and locate dive sites you can use this menu item to connect to our back-end server and download this data. Enter your userid (you got this when registering with the web service) and click 'Download'. If the data was successfully downloaded you can click apply and Subsurface will match the time stamps of the downloaded location and site name information with the dives in your log and will add the GPS locations and dive site names to your dives. [[S_Menu]] The Menu and Sub-Menus ---------------------- Within Subsurface, there are several menu and sub-menu options. All of those will be described here with their function. The File Menu ~~~~~~~~~~~~~ The file menu is used for the following menu options: - New:: Close your current divelog (saving if necessary) and start a new empty dive list - Open:: Open your saved Subsurface xml file(s) - Save:: Save your current divelogs or changes you made to your divelogs - Save As:: Save your current divelogs or changes you made to your divelogs under a different name - Close:: Close your current divelog, saving as necessary - Import XML File(s):: Import your dives from files exported by other divelogs - Print:: Print your current divelog profiles and information about the dive - Preferences:: Set your preferences as described in <> - Quit:: Quit the program The Log Menu ~~~~~~~~~~~~ Within the Log menu, you will find the following sub-items: - Download From Dive Computer:: Allows you to download dive information from your dive computer - Download From Web Service:: Allows you to download dive information from the webservice (see <>) - Edit Device Names:: Allows you to add device nicknames to dive computers - Add Dive:: Manually add a dive that you cannot download from an existing computer - Renumber:: This option provides you with a pop-up. Within this pop-up you can choose what the first number of your dives should be for this set of dives. - Autogroup:: Toggle the auto group setting (see the discussion in the <>) - Toggle Zoom:: The dive profile tries to convey some first glance information about the depth of a dive - so the vertical scaling of the profile always show a minimum of 30m / 90ft. This can be changed to be only 10m / 30ft. - Yearly Statistics:: Contrary to the Statistics in the main display, these are purely calendar based - Dives Locations:: Show an interactive map with locations of the logged dives with GPS coordinates - View:: This is a submenu containing: * List:: Show only the list of dives you have made * Profile:: Show only the dive profile of the selected dive * Info:: Show only the 3 tab information screen * Three:: Show the 'default' 3 screen setup * Prev DC Switch to the previous dive computer * Next DC Switch to the next dive computer The Filter Menu ~~~~~~~~~~~~~~~ This menu gives you the choice to enable or disable Events for the selected divelog(s). At this time, you can enable or disable ascent. When you enable ascent for your dives, within the dive profile, a yellow marker with exclamation sign (!) will show on the points where you have ascended. The Planner Menu ~~~~~~~~~~~~~~~~ This menu opens up a dive planning dialog. The dive planning is described in <>. The Help Menu ~~~~~~~~~~~~~ The Help menu shows only the About, which contains the version and author information and License button. [[AppendixA]] Appendix A: Supported Dive Computers ------------------------------------ The use of libdivecomputer provides the support for dive computers. Within the 'File - import' dialog box you will see a list of dive computer vendors and respective products. This list is covering a compatible set. Please check your users manual to check if your computer will be supported. Supported dive computers:: Atomics Aquatics::: * Cobalt Cressi / Zeagle / Mares::: * Edy, Nemo Sport * N2iTiON3 Mares::: * Nemo, Nemo Excel, Nemo Apneist, ... * Puck, Puck Air, Nemo Air, Nemo Wide, ... * Darwin, Darwin Air, M1, M2, Airlab * Icon HD, Icon HD Net Ready, Nemo Wide 2 Oceanic / Aeris / Sherwood / Hollis / Genesis / Tusa (Pelagic)::: * VT Pro, Versa Pro, Pro Plus 2, Wisdom, Atmos 2, Atmos AI, Atmos Elite, ... * Veo 250, Veo 180Nx, XR2, React Pro, DG02, Insight, ... * Atom 2.0, VT3, Datamask, Geo, Geo 2.0, Veo 2.0, Veo 3.0, Pro Plus 2.1, Compumask, Elite T3, Epic, Manta, IQ-900 (Zen), IQ-950 (Zen Air), IQ-750 (Element II), ... Heinrichs Weikamp::: * OSTC, OSTC Mk.2, OSTC 2N * Frog Reefnet::: * Sensus * Sensus Pro * Sensus Ultra Shearwater::: * Predator, Petrel Suunto::: * Solution * Eon, Solution Alpha and Solution Nitrox/Vario * Vyper, Cobra, Vytec, Vytec DS, D3, Spyder, Gekko, Mosquito, Stinger, Zoop * Vyper2, Cobra2, Cobra3, Vyper Air and HelO2 * D9, D6, D4, D9tx, D6i and D4i Uemis::: * Zurich Uwatec::: * Aladin * Memo Mouse * Smart, Galileo (infraread) Zeagle::: * N2iTiON 3 [[AppendixB]] Appendix B: Mac OSX Driver Installation --------------------------------------- Working out which driver to use for a Mac when using a particular dive computer can require some experimentation. The libdivecomputer website provides a useful point from which to start: http://www.divesoftware.org/libdc/drivers.html. It lists a number of sites for manufacturers of the serial to USB chips which provide the necessary conversions. Here you have two alternatives. Either you try each of the major drivers in turn until you find the right one, or you follow some further steps to try and identify the right driver up front. To determine the required driver up front, first attach the USB download cable for your dive computer. Next open a terminal window and run the command: system_profiler SPUSBDataType > usb.txt You should end up with a file (usb.txt in this example) which contains the VID/PID information which can then be used with the URL above to narrow the field. Just open the text file and compare the information with the table in the drivers section of the web page. This should point you to the relevant driver manufacturer. Typically, you then need to navigate to the relevant sub page for "drivers" and then the one for "VCP drivers." VCP stands for Virtual Com Port. You want VCP rather than D2XX drivers, for example. Make sure to download the correct version for your particular version of OS X. Downloaded that driver to your Mac and install it in the usual way. Details on how to install on OS X 10.8 differ from earlier versions due to the new security functions. Put simply, unless the driver has been digitally signed in an approved way OS X will block the installation. You can either make some changes to your system security settings or manually override the block. The latter seems more sensible and only involves control-clicking the installation package and answering some standard dialogs. The sequence goes like this: - download the driver .dmg package to your downloads folder - right click the downloads folder and navigate to the new dmg package - control-click the package: a dialog will open stating that the package has not been signed and is from an unknown developer and asking whether you really want to proceed - if happy, you accept the dialog and the package opens and may show you one or more versions - select the relevant version, click the package installer and that should be it. You can find a high-level explanation of the new security features from apple here: https://www.apple.com/osx/what-is/security.html. Until you have the correct driver installed, subsurface will not be able to connect to your dive computer. If you try one VCP driver and it still doesn't work, try the next manufacturer until it does. If you run out of drivers and still can't get things working perhaps it is time to contact us via the subsurface mail lists.