dhgdh

Dependencies:   MAX44000 PWM_Tone_Library nexpaq_mdk

Fork of LED_Demo by joey shelton

Committer:
cyberjoey
Date:
Sat Oct 22 01:31:58 2016 +0000
Revision:
9:6bb35cef007d
Parent:
1:55a6170b404f
WORKING

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nexpaq 1:55a6170b404f 1 # About the configuration system
nexpaq 1:55a6170b404f 2
nexpaq 1:55a6170b404f 3 The mbed configuration system can be used to customize the compile time configuration of various mbed components (targets, libraries and applications). Each such component can define a number of *configuration parameters*. The values of these configuration parameters can then be *overridden* in various ways. Configuration is defined using [JSON](http://www.json.org/). Some examples of configuration parameters:
nexpaq 1:55a6170b404f 4
nexpaq 1:55a6170b404f 5 - the sampling period for a data acquisition application.
nexpaq 1:55a6170b404f 6 - the default stack size for a newly created OS thread.
nexpaq 1:55a6170b404f 7 - the receive buffer size of a serial communication library.
nexpaq 1:55a6170b404f 8 - the flash and RAM memory size of a mbed target.
nexpaq 1:55a6170b404f 9
nexpaq 1:55a6170b404f 10 The configuration system gathers and interprets all the configuration defined in the source tree. The output of the configuration system is a list of macros that are automatically defined when compiling the code.
nexpaq 1:55a6170b404f 11
nexpaq 1:55a6170b404f 12 # Defining configuration parameters
nexpaq 1:55a6170b404f 13
nexpaq 1:55a6170b404f 14 The configuration system understands configuration data defined in targets, libraries and applications. While there are some slight differences in the way the configuration system works in these cases, the configuration parameters are always defined in a JSON object called "config". An example is given below:
nexpaq 1:55a6170b404f 15
nexpaq 1:55a6170b404f 16 ```
nexpaq 1:55a6170b404f 17 {
nexpaq 1:55a6170b404f 18 "config": {
nexpaq 1:55a6170b404f 19 "param1": {
nexpaq 1:55a6170b404f 20 "help": "The first configuration parameter",
nexpaq 1:55a6170b404f 21 "macro_name": "CUSTOM_MACRO_NAME",
nexpaq 1:55a6170b404f 22 "value": 0
nexpaq 1:55a6170b404f 23 },
nexpaq 1:55a6170b404f 24 "param2": {
nexpaq 1:55a6170b404f 25 "help": "The second configuration parameter",
nexpaq 1:55a6170b404f 26 "required": true
nexpaq 1:55a6170b404f 27 },
nexpaq 1:55a6170b404f 28 "param3": 10
nexpaq 1:55a6170b404f 29 }
nexpaq 1:55a6170b404f 30 }
nexpaq 1:55a6170b404f 31 ```
nexpaq 1:55a6170b404f 32
nexpaq 1:55a6170b404f 33 The JSON fragment above defines 3 configuration parameters named `param1`, `param2` and `param3`. There are two ways to define a configuration parameter:
nexpaq 1:55a6170b404f 34
nexpaq 1:55a6170b404f 35 - the short way: by name and value. `param3` above is an example of a short definition for a parameter named `param3` with value `10`.
nexpaq 1:55a6170b404f 36 - the long way: by name and description (another JSON object), like `param1` and `param2` above. The JSON description object can have the following keys:
nexpaq 1:55a6170b404f 37 - `help`: an optional help message that describes the purpose of the parameter.
nexpaq 1:55a6170b404f 38 - `value`: an optional field that defines the value of the parameter.
nexpaq 1:55a6170b404f 39 - `required`: an optional key that specifies if the parameter **must** be given a value before compiling the code (`false` by default). It's not possible to compile a source tree with one or more required parameters that don't have a value. Generally, it makes sense to define a required parameter only when it doesn't have a `value` key.
nexpaq 1:55a6170b404f 40 - `macro_name`: an optional name for the macro defined at compile time for this configuration parameter. The configuration system will automatically figure out the corresponding macro name for a configuration parameter, but the user can override this automatically computed name by specifying `macro_name`.
nexpaq 1:55a6170b404f 41
nexpaq 1:55a6170b404f 42 Note that the name of a parameter in `config` can't contain a dot (`.`) character.
nexpaq 1:55a6170b404f 43
nexpaq 1:55a6170b404f 44 The configuration system automatically appends an *implicit prefix* to the name of each parameter, so you don't have to worry about a name clash if you define a parameter with the same name in a library and a target, for example. The implicit prefix is:
nexpaq 1:55a6170b404f 45
nexpaq 1:55a6170b404f 46 - **target.** if the parameter is defined in a target.
nexpaq 1:55a6170b404f 47 - **app.** if the parameter is defined in the application.
nexpaq 1:55a6170b404f 48 - the name of the library followed by a dot (.) if the parameter is defined in a library.
nexpaq 1:55a6170b404f 49
nexpaq 1:55a6170b404f 50 # Configuration data in libraries
nexpaq 1:55a6170b404f 51
nexpaq 1:55a6170b404f 52 Each mbed library can have an optional `mbed_lib.json` file located in the root folder of the library that defines its configuration. For a library called `mylib`, the configuration file could look like this:
nexpaq 1:55a6170b404f 53
nexpaq 1:55a6170b404f 54 ```
nexpaq 1:55a6170b404f 55 {
nexpaq 1:55a6170b404f 56 "name": "mylib",
nexpaq 1:55a6170b404f 57 "config": {
nexpaq 1:55a6170b404f 58 "buffer_size": 1024,
nexpaq 1:55a6170b404f 59 "timer_period": {
nexpaq 1:55a6170b404f 60 "help": "The timer period (in us)",
nexpaq 1:55a6170b404f 61 "macro_name": "INTERNAL_GPTMR_PERIOD",
nexpaq 1:55a6170b404f 62 "required": true
nexpaq 1:55a6170b404f 63 },
nexpaq 1:55a6170b404f 64 "queue_size": {
nexpaq 1:55a6170b404f 65 "help": "Size of event queue (entries)",
nexpaq 1:55a6170b404f 66 "value": 10
nexpaq 1:55a6170b404f 67 }
nexpaq 1:55a6170b404f 68 },
nexpaq 1:55a6170b404f 69 "macros": ["MYMOD_MACRO1", "MYMOD_MACRO2=\"TEST\""],
nexpaq 1:55a6170b404f 70 "target_overrides": {
nexpaq 1:55a6170b404f 71 "K64F": {
nexpaq 1:55a6170b404f 72 "timer_period": 100,
nexpaq 1:55a6170b404f 73 "queue_size": 40
nexpaq 1:55a6170b404f 74 },
nexpaq 1:55a6170b404f 75 "NXP": {
nexpaq 1:55a6170b404f 76 "queue_size": 20,
nexpaq 1:55a6170b404f 77 "buffer_size": 128
nexpaq 1:55a6170b404f 78 }
nexpaq 1:55a6170b404f 79 }
nexpaq 1:55a6170b404f 80 }
nexpaq 1:55a6170b404f 81 ```
nexpaq 1:55a6170b404f 82
nexpaq 1:55a6170b404f 83 In this JSON file:
nexpaq 1:55a6170b404f 84
nexpaq 1:55a6170b404f 85 - `name` is the name of the library. **This is a required field.**
nexpaq 1:55a6170b404f 86 - `config` defines the configuration parameters of the library, as explained [here](#defining-configuration-parameters).
nexpaq 1:55a6170b404f 87 - `macros` is a list of extra macros that will be defined when compiling a project that includes this library. A macro can be defined without a value (like `MYMOD_MACRO1` above) or with a value (like `MYMOD_MACRO2` above).
nexpaq 1:55a6170b404f 88 - `target_overrides` is a dictionary with target-specific values for the configuration parameters.
nexpaq 1:55a6170b404f 89
nexpaq 1:55a6170b404f 90 `target_overrides` is used to override the values of the parameters depending on the current compilation target. The keys in `target_overrides` are matched against toolchain *labels* (a description of mbed targets can be found [here](mbed_targets.md)). If a key inside `target_overrides` matches one of the target labels, the parameter values are changed according to the value of the key. In the example above:
nexpaq 1:55a6170b404f 91
nexpaq 1:55a6170b404f 92 - `config` is always processed first, independent of the target. `config` might define values for some of the parameters. In this case, `buffer_size` will be set to 1024, `queue_size` will be set to 10 and `timer_period` will not have a value.
nexpaq 1:55a6170b404f 93 - if the library is compiled for the `K64F` target, `timer_period` will be set to 100 and `queue_size` will be set to 40, since they are overridden by the `K64F` key in `target_overrides`. `buffer_size` will be set to 1024, as defined in `config`.
nexpaq 1:55a6170b404f 94 - assuming that `NXP` is a label defined by **all** NXP based targets, if the library is compiled for **any** `NXP` target (like `LPC1768` or `LPC11U24`), `buffer_size` will be set to 128 and `queue_size` will be set to 20, while `timer_period` will not have a value (since it doesn't get one neither in `config`, nor in the `NXP` override).
nexpaq 1:55a6170b404f 95 - the keys in `target_overrides` are processed in order: if a hypothetical target defines both `K64F` and `NXP` as labels, `timer_period` will be set to 100, `queue_size` will be set to 20 and `buffer_size` will be set to 128.
nexpaq 1:55a6170b404f 96 - if the library is compiled for a target that doesn't have `K64F` or `NXP` as labels, the values of the parameters will be the ones set in `config`.
nexpaq 1:55a6170b404f 97
nexpaq 1:55a6170b404f 98 Except `name`, all the above keys in the JSON file are optional, but if `target_overrides` is defined, `config` must also be defined.
nexpaq 1:55a6170b404f 99
nexpaq 1:55a6170b404f 100 As explained [here](#defining-configuration-parameters), the parameters have an implicit `mylib.` prefix. Outside `mylib`, `buffer_size` is accessible using the name `mylib.buffer_size`. An application will be able to override the value of this parameter, as described in [this section](#configuration-data-in-applications).
nexpaq 1:55a6170b404f 101
nexpaq 1:55a6170b404f 102 If the source tree has code for more than one library, each library needs its own `mbed_lib.json` file in its root folder.
nexpaq 1:55a6170b404f 103
nexpaq 1:55a6170b404f 104 # Configuration data in targets
nexpaq 1:55a6170b404f 105
nexpaq 1:55a6170b404f 106 Like libraries, targets can define their own configuration data. Additionally, tables can override the configuration of the target(s) they inherit from (for more details about how do define a target and target inheritance, check [this link](mbed_targets.md)). Target configuration data is defined in `targets.json` using `config`, as described [here](#defining-configuration-parameters). An example for a hypothetical `Base` target is given below:
nexpaq 1:55a6170b404f 107
nexpaq 1:55a6170b404f 108 ```
nexpaq 1:55a6170b404f 109 "Base": {
nexpaq 1:55a6170b404f 110 "core": "Cortex-M0",
nexpaq 1:55a6170b404f 111 "extra_labels": ["BASE_LABEL"],
nexpaq 1:55a6170b404f 112 "config": {
nexpaq 1:55a6170b404f 113 "serial_console_speed": {
nexpaq 1:55a6170b404f 114 "help": "Baud rate of the serial console",
nexpaq 1:55a6170b404f 115 "value": 115200,
nexpaq 1:55a6170b404f 116 "macro_name": "MBED_SERIAL_UART_SPEED"
nexpaq 1:55a6170b404f 117 },
nexpaq 1:55a6170b404f 118 "stack_size": {
nexpaq 1:55a6170b404f 119 "help": "Initial stack size of the application",
nexpaq 1:55a6170b404f 120 "value": 128
nexpaq 1:55a6170b404f 121 }
nexpaq 1:55a6170b404f 122 }
nexpaq 1:55a6170b404f 123 }
nexpaq 1:55a6170b404f 124 ```
nexpaq 1:55a6170b404f 125
nexpaq 1:55a6170b404f 126 Similar to libraries, the target defined parameters have an implicit prefix. For a target, the prefix is always called `target` (no matter what the actual target name is), so the above configuration parameters will be accessible outside the definition in `Base` (and any other target) as `target.serial_console_speed` and `target.stack_size`.
nexpaq 1:55a6170b404f 127
nexpaq 1:55a6170b404f 128 Targets can inherit from other targets, and their configuration data is also inherited. A target that inherits from one or more other targets can add new parameters in its own `config` section and can also override the configuration parameters defined by its parent(s) in a `overrides` section. For example:
nexpaq 1:55a6170b404f 129
nexpaq 1:55a6170b404f 130 ```
nexpaq 1:55a6170b404f 131 "Derived": {
nexpaq 1:55a6170b404f 132 "inherits": ["Base"],
nexpaq 1:55a6170b404f 133 "extra_labels_add": ["NXP"],
nexpaq 1:55a6170b404f 134 "config": {
nexpaq 1:55a6170b404f 135 "my_own_config": {
nexpaq 1:55a6170b404f 136 "help": "My very own configuration parameter",
nexpaq 1:55a6170b404f 137 "value": 0
nexpaq 1:55a6170b404f 138 }
nexpaq 1:55a6170b404f 139 },
nexpaq 1:55a6170b404f 140 "overrides": {
nexpaq 1:55a6170b404f 141 "stack_size": 256
nexpaq 1:55a6170b404f 142 }
nexpaq 1:55a6170b404f 143 }
nexpaq 1:55a6170b404f 144 ```
nexpaq 1:55a6170b404f 145
nexpaq 1:55a6170b404f 146 `Derived` above defines its own configuration parameter called `my_own_config` and inherits the configuration parameters from `Base`, so its configuration parameters are `serial_console_speed`, `stack_size` and `my_own_config`. It also overrides the value of the `stack_size` parameter defined in `Base`. This means that:
nexpaq 1:55a6170b404f 147
nexpaq 1:55a6170b404f 148 - when compiling for `Base`, the target will define two configuration parameters: `serial_console_speed` with the value 115200 and `stack_size` with the value 128.
nexpaq 1:55a6170b404f 149 - when compiling for `Derived`, the target will define three configuration parameters: `serial_console_speed` with the value 115200, `stack_size` with the value 256 and `my_own_config` with the value 0.
nexpaq 1:55a6170b404f 150
nexpaq 1:55a6170b404f 151 It is an error for a derived target to re-define a configuration parameter already defined by its parent(s) in its `config` section. It is also an error for a derived target to override a configuration parameter that was not defined by its parent(s) in its `overrides` section.
nexpaq 1:55a6170b404f 152
nexpaq 1:55a6170b404f 153 # Configuration data in applications
nexpaq 1:55a6170b404f 154
nexpaq 1:55a6170b404f 155 Like the configuration for targets and libraries, application configuration is optional; if it exists, it must be defined in a `mbed_app.json` file. Unlike library configuration, there can be a single `mbed_app.json` file in the source tree.
nexpaq 1:55a6170b404f 156
nexpaq 1:55a6170b404f 157 There are quite a few similarities between configuration data in applications and libraries:
nexpaq 1:55a6170b404f 158
nexpaq 1:55a6170b404f 159 - applications define their configuration parameters in the `config` section of `mbed_app.json`, as explained [here](#defining-configuration-parameters).
nexpaq 1:55a6170b404f 160 - applications can specify target-dependent values in their `target_overrides` section, as described in the [library configuration paragraph][#configuration-data-in-libraries) (but see below for differences).
nexpaq 1:55a6170b404f 161 - applications can define macros that will be define at compile time by declaring them in `macros`.
nexpaq 1:55a6170b404f 162
nexpaq 1:55a6170b404f 163 There are also a few differences:
nexpaq 1:55a6170b404f 164
nexpaq 1:55a6170b404f 165 - applications **can't** have a `name` key in `mbed_app.json`. The prefix for the configuration parameters defined in an application is always `app.`.
nexpaq 1:55a6170b404f 166 - applications can also override configuration of libraries and targets in addition to its own configuration in its `target_overrides` section.
nexpaq 1:55a6170b404f 167
nexpaq 1:55a6170b404f 168 The last point above is important. The application can freely override the configuration of any of the libraries it depends on, as well as the configuration data in targets, so it has complete control over the configuration of the whole build. For an application called myapp that depends on mylib above, the configuration can look like this:
nexpaq 1:55a6170b404f 169
nexpaq 1:55a6170b404f 170 ```
nexpaq 1:55a6170b404f 171 {
nexpaq 1:55a6170b404f 172 "config": {
nexpaq 1:55a6170b404f 173 "welcome_string": {
nexpaq 1:55a6170b404f 174 "help": "The string printed on the display on start-up",
nexpaq 1:55a6170b404f 175 "value": "\"Hello!\""
nexpaq 1:55a6170b404f 176 }
nexpaq 1:55a6170b404f 177 },
nexpaq 1:55a6170b404f 178 "target_overrides": {
nexpaq 1:55a6170b404f 179 "*": {
nexpaq 1:55a6170b404f 180 "target.serial_console_speed": 2400,
nexpaq 1:55a6170b404f 181 "mylib.timer_period": 100
nexpaq 1:55a6170b404f 182 },
nexpaq 1:55a6170b404f 183 "Base": {
nexpaq 1:55a6170b404f 184 "target.serial_console_speed": 9600
nexpaq 1:55a6170b404f 185 }
nexpaq 1:55a6170b404f 186 }
nexpaq 1:55a6170b404f 187 }
nexpaq 1:55a6170b404f 188 ```
nexpaq 1:55a6170b404f 189
nexpaq 1:55a6170b404f 190 `target_overrides` works a lot like it does in libraries, but there are a few differences:
nexpaq 1:55a6170b404f 191
nexpaq 1:55a6170b404f 192 - since the application can override any configuration parameter, it must specify them using their prefix (like `mylib.timer_period`). If an overridden parameter doesn't have a prefix, it is assumed that it is one of the parameters defined by the application in its own `config` section.
nexpaq 1:55a6170b404f 193 - the `*` key in `target_overrides` will match *any* target. It is possible to use the `*` key in a library's `target_overrides` too, but it'd make little sense to do so, since it will always override the values defined in the library's `config` section. In an application it might make sense to use the `*` key, since it can be used to override the configuration defined by the target or the dependent libraries, no matter which target is used for building.
nexpaq 1:55a6170b404f 194
nexpaq 1:55a6170b404f 195 Other than this, `target_overrides` works exactly like it does for libraries. Keys in `target_overrides` are still processed in the order they are defined, so for the example above, the `*` override is always processed first (since it matches all targets) and then `Base` is only processed for the `Base` target.
nexpaq 1:55a6170b404f 196
nexpaq 1:55a6170b404f 197 `myapp` above defines its own configuration parameter (`welcome_string`) and overrides the configuration in both the target (`target.serial_console_speed`) and its `mylib` dependency (`mylib.timer_period`):
nexpaq 1:55a6170b404f 198
nexpaq 1:55a6170b404f 199 - when compiling for `Base`, `app.welcome_string` will be set to `"Hello!"`, `target.serial_console_speed` will be set to 9600 (from the `Base` override) and `mylib.timer_period` will be set to 100 (from the `*` override).
nexpaq 1:55a6170b404f 200 - when compiling for `Derived`, `app.welcome_string` will be set to `"Hello!"`, `target.serial_console_speed` will be set to 2400 (from the `*` override) and `mylib.timer_period` will be set to 100 (also from the `*` override).
nexpaq 1:55a6170b404f 201
nexpaq 1:55a6170b404f 202 It is an error for the application configuration to override configuration parameters that were not defined.
nexpaq 1:55a6170b404f 203
nexpaq 1:55a6170b404f 204 ## Overriding cumulative target attributes
nexpaq 1:55a6170b404f 205
nexpaq 1:55a6170b404f 206 Target configurations contain a set of cumulative attributes that can be manipulated in the application configuration. These attributes can be overriden as a normal configuration parameter, or manipulated with the special `attribute_add` and `attribute_remove` meta-attributes.
nexpaq 1:55a6170b404f 207
nexpaq 1:55a6170b404f 208 Cumulative attributes:
nexpaq 1:55a6170b404f 209 - features: List of features which will be compiled into the resulting binary and available at runtime. Determines the FEATURE directories included during compilation. These are also emitted as FEATURE macros.
nexpaq 1:55a6170b404f 210 - device_has: List of hardware components available on the target. These are emitted as DEVICE_HAS macros.
nexpaq 1:55a6170b404f 211 - extra_labels: List of target labels which determine the TARGET directories included during compilation. These are also emitted as TARGET macros.
nexpaq 1:55a6170b404f 212 - macros: List of target-specific macros that are defined during compilation.
nexpaq 1:55a6170b404f 213
nexpaq 1:55a6170b404f 214 For example, an application may want to remove features with extra space or runtime cost. This `mbed_app.json` will disable the IPV4 network stack. Attempting to use this network stack will result in a compilation error:
nexpaq 1:55a6170b404f 215
nexpaq 1:55a6170b404f 216 ```
nexpaq 1:55a6170b404f 217 {
nexpaq 1:55a6170b404f 218 "target_overrides": {
nexpaq 1:55a6170b404f 219 "K64F": {
nexpaq 1:55a6170b404f 220 "target.features_remove": ["IPV4"]
nexpaq 1:55a6170b404f 221 }
nexpaq 1:55a6170b404f 222 }
nexpaq 1:55a6170b404f 223 }
nexpaq 1:55a6170b404f 224 ```
nexpaq 1:55a6170b404f 225
nexpaq 1:55a6170b404f 226 ## Custom targets
nexpaq 1:55a6170b404f 227
nexpaq 1:55a6170b404f 228 Application configuration can optionally define application-specific targets. These are mbed targets that are needed just to compile this specific application, so it doesn't make sense to add them to the list of official mbed targets; on the contrary, since they're part of `mbed_app.json`, they're versioned together with the application and only known by the application. Application-specific targets are defined with the key `custom_targets` in the `mbed_app.json` file and have the same syntax as a regular target definition, for example:
nexpaq 1:55a6170b404f 229
nexpaq 1:55a6170b404f 230
nexpaq 1:55a6170b404f 231 ```
nexpaq 1:55a6170b404f 232 {
nexpaq 1:55a6170b404f 233 "custom_targets": {
nexpaq 1:55a6170b404f 234 "k64f_myapp": {
nexpaq 1:55a6170b404f 235 "inherits": ["K64F"],
nexpaq 1:55a6170b404f 236 "extra_labels_add": ["CUSTOM_K64F_LIB"]
nexpaq 1:55a6170b404f 237 }
nexpaq 1:55a6170b404f 238 }
nexpaq 1:55a6170b404f 239 }
nexpaq 1:55a6170b404f 240 ```
nexpaq 1:55a6170b404f 241
nexpaq 1:55a6170b404f 242 This will define a new target named `k64f_myapp` that inherits from the `K64F` mbed target, but with an extra label defined, which will change the way the build system looks for sources in the tree.
nexpaq 1:55a6170b404f 243
nexpaq 1:55a6170b404f 244 # Configuration data precedence
nexpaq 1:55a6170b404f 245
nexpaq 1:55a6170b404f 246 The order in which the various bits of configurations are considered is this:
nexpaq 1:55a6170b404f 247
nexpaq 1:55a6170b404f 248 - the configuration defined by an inherited target overrides the configuration defined by its parent(s), as described [above](#configuration-data-in-targets).
nexpaq 1:55a6170b404f 249 - the configuration of the top level application overrides the configuration defined by the target and any of the libraries on which it depends.
nexpaq 1:55a6170b404f 250
nexpaq 1:55a6170b404f 251 For `myapp` above:
nexpaq 1:55a6170b404f 252
nexpaq 1:55a6170b404f 253 - the value of `target.serial_console_speed` will be 9600 when compiling for `Base` because of the `Base` override in myapp's `target_overrides`.
nexpaq 1:55a6170b404f 254 - the value of `target.serial_console_speed` will be 2400 when compiling for any other target because of the `*` override in myapp's `target_overrides`.
nexpaq 1:55a6170b404f 255 - the value of `target.stack_size` will be 256 when compiling for `Derived` and 128 when compiling for `Base` or any other target that derives from `Base` (assuming of course that `Derived` is the only target that redefines `stack_size`).
nexpaq 1:55a6170b404f 256 - the value of `mylib.timer_period` will be 100, since that's overridden by the application and thus takes precedence over the values defined in `mylib`.
nexpaq 1:55a6170b404f 257 - when compiling for `Base`, the values of `mylib.buffer_size` and `mylib.queue_size` will be 1024 and 10 respectively, as defined in the `config` section of `mylib`.
nexpaq 1:55a6170b404f 258 - when compiling for `Derived`, the values of `mylib.buffer_size `and `mylib.queue_size` will be 128 and 20 respectively, since `Derived` defines the `NXP` label and `mylib` defines a specific configuration for this label. Also, since `Derived` has its own `my_own_config` configuration parameter, `target.my_own_config` will also be defined in this case.
nexpaq 1:55a6170b404f 259
nexpaq 1:55a6170b404f 260 # Using configuration data in the code
nexpaq 1:55a6170b404f 261
nexpaq 1:55a6170b404f 262 When compiling, the configuration system will automatically generate macro definitions for the configuration parameters and all the macros defined in libraries and the application in their `macros` keys. These definitions will be written in a file named `mbed_config.h` located in the build directory. When compiling `myapp` for target `Base`, the `mbed_config.h` file will look like this (note that the order of the definitions might be different):
nexpaq 1:55a6170b404f 263
nexpaq 1:55a6170b404f 264 ```
nexpaq 1:55a6170b404f 265 // Automatically generated configuration file.
nexpaq 1:55a6170b404f 266 // DO NOT EDIT, content will be overwritten.
nexpaq 1:55a6170b404f 267
nexpaq 1:55a6170b404f 268 #ifndef __MBED_CONFIG_DATA__
nexpaq 1:55a6170b404f 269 #define __MBED_CONFIG_DATA__
nexpaq 1:55a6170b404f 270
nexpaq 1:55a6170b404f 271 // Configuration parameters
nexpaq 1:55a6170b404f 272 #define MBED_CONF_MYAPP_WELCOME_STRING "Hello!" // set by application
nexpaq 1:55a6170b404f 273 #define MBED_SERIAL_UART_SPEED 9600 // set by application[Base]
nexpaq 1:55a6170b404f 274 #define MBED_CONF_TARGET_STACK_SIZE 128 // set by target
nexpaq 1:55a6170b404f 275 #define INTERNAL_GPTMR_PERIOD 100 // set by application[*]
nexpaq 1:55a6170b404f 276 #define MBED_CONF_MYLIB_BUFFER_SIZE 1024 // set by library:mylib
nexpaq 1:55a6170b404f 277 #define MBED_CONF_MYLIB_QUEUE_SIZE 10 // set by library:mylib
nexpaq 1:55a6170b404f 278 // Macros
nexpaq 1:55a6170b404f 279 #define MYMOD_MACRO1 // defined by library:mylib
nexpaq 1:55a6170b404f 280 #define MYMOD_MACRO2 "TEST" // defined by library:mylib
nexpaq 1:55a6170b404f 281
nexpaq 1:55a6170b404f 282 #endif
nexpaq 1:55a6170b404f 283 ```
nexpaq 1:55a6170b404f 284
nexpaq 1:55a6170b404f 285 When compiling for `Derived`, `mbed_config.h` will look like this:
nexpaq 1:55a6170b404f 286
nexpaq 1:55a6170b404f 287
nexpaq 1:55a6170b404f 288 ```
nexpaq 1:55a6170b404f 289 // Automatically generated configuration file.
nexpaq 1:55a6170b404f 290 // DO NOT EDIT, content will be overwritten.
nexpaq 1:55a6170b404f 291
nexpaq 1:55a6170b404f 292 #ifndef __MBED_CONFIG_DATA__
nexpaq 1:55a6170b404f 293 #define __MBED_CONFIG_DATA__
nexpaq 1:55a6170b404f 294
nexpaq 1:55a6170b404f 295 // Configuration parameters
nexpaq 1:55a6170b404f 296 #define MBED_CONF_MYAPP_WELCOME_STRING "Hello!" // set by application
nexpaq 1:55a6170b404f 297 #define MBED_SERIAL_UART_SPEED 2400 // set by application[*]
nexpaq 1:55a6170b404f 298 #define MBED_CONF_TARGET_STACK_SIZE 256 // set by target
nexpaq 1:55a6170b404f 299 #define MBED_CONF_TARGET_MY_OWN_CONFIG 0 // set by target
nexpaq 1:55a6170b404f 300 #define INTERNAL_GPTMR_PERIOD 100 // set by application[*]
nexpaq 1:55a6170b404f 301 #define MBED_CONF_MYLIB_BUFFER_SIZE 128 // set by library:mylib[NXP]
nexpaq 1:55a6170b404f 302 #define MBED_CONF_MYLIB_QUEUE_SIZE 20 // set by library:mylib[NXP]
nexpaq 1:55a6170b404f 303 // Macros
nexpaq 1:55a6170b404f 304 #define MYMOD_MACRO1 // defined by library:mylib
nexpaq 1:55a6170b404f 305 #define MYMOD_MACRO2 "TEST" // defined by library:mylib
nexpaq 1:55a6170b404f 306
nexpaq 1:55a6170b404f 307 #endif
nexpaq 1:55a6170b404f 308 ```
nexpaq 1:55a6170b404f 309
nexpaq 1:55a6170b404f 310 Note that a macro definition will *not* be generated for a parameter that doesn't have a value.
nexpaq 1:55a6170b404f 311
nexpaq 1:55a6170b404f 312 The names of the macros for the configuration parameter (unless explicitly specified by `macro_name`) are prefixed by **MBED_CONF_**, followed by the full (prefixed) name of the parameter, capitalized and converted to a valid C macro name (if needed).
nexpaq 1:55a6170b404f 313
nexpaq 1:55a6170b404f 314 `mbed_config.h` will be included automatically by the toolchain in all compiled sources, so you'll have access to the configuration data without having to include `mbed_config.h` manually.
nexpaq 1:55a6170b404f 315
nexpaq 1:55a6170b404f 316 *Do not edit mbed_config.h manually*. It will be overwritten the next time you compile or export your project and all your changes will be lost.