1
0
mirror of https://github.com/InsanusMokrassar/TelegramBotAPI.git synced 2024-11-29 21:48:43 +00:00

Compare commits

..

9 Commits

6 changed files with 193 additions and 11 deletions

View File

@ -1,5 +1,15 @@
# TelegramBotAPI changelog # TelegramBotAPI changelog
## 0.38.15
* `Common`:
* `Version`:
* `MicroUtils`: `0.9.20` -> `0.9.24`
* `Core`:
* Fixes in `MessageContent#serializationModule`
* `BehaviourBuilder`:
* Add triggers for `DataCallbackQuery` and subtypes with regex checking of data
## 0.38.14 ## 0.38.14
__This update contains including of [Telegram Bot API 6.0](https://core.telegram.org/bots/api-changelog#april-16-2022)__ __This update contains including of [Telegram Bot API 6.0](https://core.telegram.org/bots/api-changelog#april-16-2022)__

View File

@ -12,7 +12,7 @@ klock_version=2.7.0
uuid_version=0.4.0 uuid_version=0.4.0
ktor_version=1.6.8 ktor_version=1.6.8
micro_utils_version=0.9.20 micro_utils_version=0.9.24
javax_activation_version=1.1.1 javax_activation_version=1.1.1
@ -20,6 +20,6 @@ javax_activation_version=1.1.1
dokka_version=1.6.10 dokka_version=1.6.10
library_group=dev.inmo library_group=dev.inmo
library_version=0.38.14 library_version=0.38.15
github_release_plugin_version=2.3.7 github_release_plugin_version=2.3.7

View File

@ -26,7 +26,7 @@ internal inline fun <BC, T, I1, I2> CustomBehaviourContextAndTwoTypesReceiver<BC
): CustomBehaviourContextAndTypeReceiver<BC, T, I2> = { invoke(this, i1, it) } ): CustomBehaviourContextAndTypeReceiver<BC, T, I2> = { invoke(this, i1, it) }
/** /**
* This class contains all necessary tools for work with bots and especially for [buildBehaviour] * This class contains all necessary tools for work with bots and especially [buildBehaviour]
* *
* @see DefaultBehaviourContext * @see DefaultBehaviourContext
*/ */

View File

@ -7,6 +7,7 @@ import dev.inmo.tgbotapi.extensions.behaviour_builder.filters.CallbackQueryFilte
import dev.inmo.tgbotapi.extensions.behaviour_builder.utils.SimpleFilter import dev.inmo.tgbotapi.extensions.behaviour_builder.utils.SimpleFilter
import dev.inmo.tgbotapi.extensions.behaviour_builder.utils.marker_factories.ByUserCallbackQueryMarkerFactory import dev.inmo.tgbotapi.extensions.behaviour_builder.utils.marker_factories.ByUserCallbackQueryMarkerFactory
import dev.inmo.tgbotapi.extensions.behaviour_builder.utils.marker_factories.MarkerFactory import dev.inmo.tgbotapi.extensions.behaviour_builder.utils.marker_factories.MarkerFactory
import dev.inmo.tgbotapi.extensions.behaviour_builder.utils.plus
import dev.inmo.tgbotapi.extensions.utils.asCallbackQueryUpdate import dev.inmo.tgbotapi.extensions.utils.asCallbackQueryUpdate
import dev.inmo.tgbotapi.types.CallbackQuery.* import dev.inmo.tgbotapi.types.CallbackQuery.*
import dev.inmo.tgbotapi.types.update.abstracts.Update import dev.inmo.tgbotapi.types.update.abstracts.Update
@ -44,6 +45,62 @@ suspend fun <BC : BehaviourContext> BC.onDataCallbackQuery(
scenarioReceiver scenarioReceiver
) )
/**
* @param dataRegex Will be used with [initialFilter] as [initialFilter] for upstream [onDataCallbackQuery] to filter
* [DataCallbackQuery] with [DataCallbackQuery.data] [String.matches] to [dataRegex]
* @param initialFilter This filter will be called to remove unnecessary data BEFORE [scenarioReceiver] call
* @param subcontextUpdatesFilter This filter will be applied to each update inside of [scenarioReceiver]. For example,
* this filter will be used if you will call [dev.inmo.tgbotapi.extensions.behaviour_builder.expectations.waitContentMessage].
* Use [dev.inmo.tgbotapi.extensions.behaviour_builder.BehaviourContextAndTwoTypesReceiver] function to create your own.
* Use [dev.inmo.tgbotapi.extensions.behaviour_builder.utils.plus] or [dev.inmo.tgbotapi.extensions.behaviour_builder.utils.times]
* to combinate several filters
* @param [markerFactory] Will be used to identify different "stream". [scenarioReceiver] will be called synchronously
* in one "stream". Output of [markerFactory] will be used as a key for "stream"
* @param scenarioReceiver Main callback which will be used to handle incoming data if [initialFilter] will pass that
* data
*/
suspend fun <BC : BehaviourContext> BC.onDataCallbackQuery(
dataRegex: Regex,
initialFilter: SimpleFilter<DataCallbackQuery>? = null,
subcontextUpdatesFilter: CustomBehaviourContextAndTwoTypesReceiver<BC, Boolean, DataCallbackQuery, Update>? = CallbackQueryFilterByUser,
markerFactory: MarkerFactory<in DataCallbackQuery, Any> = ByUserCallbackQueryMarkerFactory,
scenarioReceiver: CustomBehaviourContextAndTypeReceiver<BC, Unit, DataCallbackQuery>
) = onDataCallbackQuery(
initialFilter = initialFilter + {
it.data.matches(dataRegex)
},
subcontextUpdatesFilter,
markerFactory,
scenarioReceiver
)
/**
* @param data Will be converted to [Regex] via its constructor and pass it to upstream [onDataCallbackQuery]
* @param initialFilter This filter will be called to remove unnecessary data BEFORE [scenarioReceiver] call
* @param subcontextUpdatesFilter This filter will be applied to each update inside of [scenarioReceiver]. For example,
* this filter will be used if you will call [dev.inmo.tgbotapi.extensions.behaviour_builder.expectations.waitContentMessage].
* Use [dev.inmo.tgbotapi.extensions.behaviour_builder.BehaviourContextAndTwoTypesReceiver] function to create your own.
* Use [dev.inmo.tgbotapi.extensions.behaviour_builder.utils.plus] or [dev.inmo.tgbotapi.extensions.behaviour_builder.utils.times]
* to combinate several filters
* @param [markerFactory] Will be used to identify different "stream". [scenarioReceiver] will be called synchronously
* in one "stream". Output of [markerFactory] will be used as a key for "stream"
* @param scenarioReceiver Main callback which will be used to handle incoming data if [initialFilter] will pass that
* data
*/
suspend fun <BC : BehaviourContext> BC.onDataCallbackQuery(
data: String,
initialFilter: SimpleFilter<DataCallbackQuery>? = null,
subcontextUpdatesFilter: CustomBehaviourContextAndTwoTypesReceiver<BC, Boolean, DataCallbackQuery, Update>? = CallbackQueryFilterByUser,
markerFactory: MarkerFactory<in DataCallbackQuery, Any> = ByUserCallbackQueryMarkerFactory,
scenarioReceiver: CustomBehaviourContextAndTypeReceiver<BC, Unit, DataCallbackQuery>
) = onDataCallbackQuery(
Regex(data),
initialFilter,
subcontextUpdatesFilter,
markerFactory,
scenarioReceiver
)
/** /**
* @param initialFilter This filter will be called to remove unnecessary data BEFORE [scenarioReceiver] call * @param initialFilter This filter will be called to remove unnecessary data BEFORE [scenarioReceiver] call
* @param subcontextUpdatesFilter This filter will be applied to each update inside of [scenarioReceiver]. For example, * @param subcontextUpdatesFilter This filter will be applied to each update inside of [scenarioReceiver]. For example,
@ -116,6 +173,62 @@ suspend fun <BC : BehaviourContext> BC.onInlineMessageIdDataCallbackQuery(
scenarioReceiver scenarioReceiver
) )
/**
* @param dataRegex Will be used with [initialFilter] as [initialFilter] for upstream [onInlineMessageIdDataCallbackQuery]
* to filter [InlineMessageIdDataCallbackQuery] with [InlineMessageIdDataCallbackQuery.data] [String.matches] to [dataRegex]
* @param initialFilter This filter will be called to remove unnecessary data BEFORE [scenarioReceiver] call
* @param subcontextUpdatesFilter This filter will be applied to each update inside of [scenarioReceiver]. For example,
* this filter will be used if you will call [dev.inmo.tgbotapi.extensions.behaviour_builder.expectations.waitContentMessage].
* Use [dev.inmo.tgbotapi.extensions.behaviour_builder.BehaviourContextAndTwoTypesReceiver] function to create your own.
* Use [dev.inmo.tgbotapi.extensions.behaviour_builder.utils.plus] or [dev.inmo.tgbotapi.extensions.behaviour_builder.utils.times]
* to combinate several filters
* @param [markerFactory] Will be used to identify different "stream". [scenarioReceiver] will be called synchronously
* in one "stream". Output of [markerFactory] will be used as a key for "stream"
* @param scenarioReceiver Main callback which will be used to handle incoming data if [initialFilter] will pass that
* data
*/
suspend fun <BC : BehaviourContext> BC.onInlineMessageIdDataCallbackQuery(
dataRegex: Regex,
initialFilter: SimpleFilter<InlineMessageIdDataCallbackQuery>? = null,
subcontextUpdatesFilter: CustomBehaviourContextAndTwoTypesReceiver<BC, Boolean, InlineMessageIdDataCallbackQuery, Update>? = CallbackQueryFilterByUser,
markerFactory: MarkerFactory<in InlineMessageIdDataCallbackQuery, Any> = ByUserCallbackQueryMarkerFactory,
scenarioReceiver: CustomBehaviourContextAndTypeReceiver<BC, Unit, InlineMessageIdDataCallbackQuery>
) = onInlineMessageIdDataCallbackQuery(
initialFilter = initialFilter + {
it.data.matches(dataRegex)
},
subcontextUpdatesFilter,
markerFactory,
scenarioReceiver
)
/**
* @param data Will be converted to [Regex] via its constructor and pass it to upstream [onInlineMessageIdDataCallbackQuery]
* @param initialFilter This filter will be called to remove unnecessary data BEFORE [scenarioReceiver] call
* @param subcontextUpdatesFilter This filter will be applied to each update inside of [scenarioReceiver]. For example,
* this filter will be used if you will call [dev.inmo.tgbotapi.extensions.behaviour_builder.expectations.waitContentMessage].
* Use [dev.inmo.tgbotapi.extensions.behaviour_builder.BehaviourContextAndTwoTypesReceiver] function to create your own.
* Use [dev.inmo.tgbotapi.extensions.behaviour_builder.utils.plus] or [dev.inmo.tgbotapi.extensions.behaviour_builder.utils.times]
* to combinate several filters
* @param [markerFactory] Will be used to identify different "stream". [scenarioReceiver] will be called synchronously
* in one "stream". Output of [markerFactory] will be used as a key for "stream"
* @param scenarioReceiver Main callback which will be used to handle incoming data if [initialFilter] will pass that
* data
*/
suspend fun <BC : BehaviourContext> BC.onInlineMessageIdDataCallbackQuery(
data: String,
initialFilter: SimpleFilter<InlineMessageIdDataCallbackQuery>? = null,
subcontextUpdatesFilter: CustomBehaviourContextAndTwoTypesReceiver<BC, Boolean, InlineMessageIdDataCallbackQuery, Update>? = CallbackQueryFilterByUser,
markerFactory: MarkerFactory<in InlineMessageIdDataCallbackQuery, Any> = ByUserCallbackQueryMarkerFactory,
scenarioReceiver: CustomBehaviourContextAndTypeReceiver<BC, Unit, InlineMessageIdDataCallbackQuery>
) = onInlineMessageIdDataCallbackQuery(
Regex(data),
initialFilter,
subcontextUpdatesFilter,
markerFactory,
scenarioReceiver
)
/** /**
* @param initialFilter This filter will be called to remove unnecessary data BEFORE [scenarioReceiver] call * @param initialFilter This filter will be called to remove unnecessary data BEFORE [scenarioReceiver] call
* @param subcontextUpdatesFilter This filter will be applied to each update inside of [scenarioReceiver]. For example, * @param subcontextUpdatesFilter This filter will be applied to each update inside of [scenarioReceiver]. For example,
@ -188,6 +301,62 @@ suspend fun <BC : BehaviourContext> BC.onMessageDataCallbackQuery(
scenarioReceiver scenarioReceiver
) )
/**
* @param dataRegex Will be used with [initialFilter] as [initialFilter] for upstream [onMessageDataCallbackQuery] to filter
* [MessageDataCallbackQuery] with [MessageDataCallbackQuery.data] [String.matches] to [dataRegex]
* @param initialFilter This filter will be called to remove unnecessary data BEFORE [scenarioReceiver] call
* @param subcontextUpdatesFilter This filter will be applied to each update inside of [scenarioReceiver]. For example,
* this filter will be used if you will call [dev.inmo.tgbotapi.extensions.behaviour_builder.expectations.waitContentMessage].
* Use [dev.inmo.tgbotapi.extensions.behaviour_builder.BehaviourContextAndTwoTypesReceiver] function to create your own.
* Use [dev.inmo.tgbotapi.extensions.behaviour_builder.utils.plus] or [dev.inmo.tgbotapi.extensions.behaviour_builder.utils.times]
* to combinate several filters
* @param [markerFactory] Will be used to identify different "stream". [scenarioReceiver] will be called synchronously
* in one "stream". Output of [markerFactory] will be used as a key for "stream"
* @param scenarioReceiver Main callback which will be used to handle incoming data if [initialFilter] will pass that
* data
*/
suspend fun <BC : BehaviourContext> BC.onMessageDataCallbackQuery(
dataRegex: Regex,
initialFilter: SimpleFilter<MessageDataCallbackQuery>? = null,
subcontextUpdatesFilter: CustomBehaviourContextAndTwoTypesReceiver<BC, Boolean, MessageDataCallbackQuery, Update>? = CallbackQueryFilterByUser,
markerFactory: MarkerFactory<in MessageDataCallbackQuery, Any> = ByUserCallbackQueryMarkerFactory,
scenarioReceiver: CustomBehaviourContextAndTypeReceiver<BC, Unit, MessageDataCallbackQuery>
) = onMessageDataCallbackQuery(
initialFilter = initialFilter + {
it.data.matches(dataRegex)
},
subcontextUpdatesFilter,
markerFactory,
scenarioReceiver
)
/**
* @param data Will be converted to [Regex] via its constructor and pass it to upstream [onMessageDataCallbackQuery]
* @param initialFilter This filter will be called to remove unnecessary data BEFORE [scenarioReceiver] call
* @param subcontextUpdatesFilter This filter will be applied to each update inside of [scenarioReceiver]. For example,
* this filter will be used if you will call [dev.inmo.tgbotapi.extensions.behaviour_builder.expectations.waitContentMessage].
* Use [dev.inmo.tgbotapi.extensions.behaviour_builder.BehaviourContextAndTwoTypesReceiver] function to create your own.
* Use [dev.inmo.tgbotapi.extensions.behaviour_builder.utils.plus] or [dev.inmo.tgbotapi.extensions.behaviour_builder.utils.times]
* to combinate several filters
* @param [markerFactory] Will be used to identify different "stream". [scenarioReceiver] will be called synchronously
* in one "stream". Output of [markerFactory] will be used as a key for "stream"
* @param scenarioReceiver Main callback which will be used to handle incoming data if [initialFilter] will pass that
* data
*/
suspend fun <BC : BehaviourContext> BC.onMessageDataCallbackQuery(
data: String,
initialFilter: SimpleFilter<MessageDataCallbackQuery>? = null,
subcontextUpdatesFilter: CustomBehaviourContextAndTwoTypesReceiver<BC, Boolean, MessageDataCallbackQuery, Update>? = CallbackQueryFilterByUser,
markerFactory: MarkerFactory<in MessageDataCallbackQuery, Any> = ByUserCallbackQueryMarkerFactory,
scenarioReceiver: CustomBehaviourContextAndTypeReceiver<BC, Unit, MessageDataCallbackQuery>
) = onMessageDataCallbackQuery(
Regex(data),
initialFilter,
subcontextUpdatesFilter,
markerFactory,
scenarioReceiver
)
/** /**
* @param initialFilter This filter will be called to remove unnecessary data BEFORE [scenarioReceiver] call * @param initialFilter This filter will be called to remove unnecessary data BEFORE [scenarioReceiver] call
* @param subcontextUpdatesFilter This filter will be applied to each update inside of [scenarioReceiver]. For example, * @param subcontextUpdatesFilter This filter will be applied to each update inside of [scenarioReceiver]. For example,

View File

@ -28,16 +28,20 @@ fun <T> SimpleFilter<T>.listNone() = SimpleFilter<Iterable<T>> {
/** /**
* Makes an AND (&&) operation between [this] and [other] * Makes an AND (&&) operation between [this] and [other]
*/ */
operator fun <T> SimpleFilter<T>.times(other: SimpleFilter<T>): SimpleFilter<T> = { operator fun <T> SimpleFilter<T>?.times(other: SimpleFilter<T>): SimpleFilter<T> = this ?.let {
{
this(it) && other(it) this(it) && other(it)
} }
} ?: other
/** /**
* Makes an OR (||) operation between [this] and [other] * Makes an OR (||) operation between [this] and [other]
*/ */
operator fun <T> SimpleFilter<T>.plus(other: SimpleFilter<T>): SimpleFilter<T> = { operator fun <T> SimpleFilter<T>?.plus(other: SimpleFilter<T>): SimpleFilter<T> = this ?.let {
{
this(it) || other(it) this(it) || other(it)
} }
} ?: other
/** /**
* Reverse results of [this] * Reverse results of [this]

View File

@ -20,8 +20,7 @@ interface MessageContent: ResendableContent {
subclass(DiceContent::class) subclass(DiceContent::class)
subclass(TextContent::class) subclass(TextContent::class)
subclass(LiveLocationContent::class) subclass(LocationContent::class, LocationContentSerializer)
subclass(StaticLocationContent::class)
subclass(PhotoContent::class) subclass(PhotoContent::class)
subclass(VideoContent::class) subclass(VideoContent::class)