pxt-ev3/libs/base/shims.d.ts
2017-08-28 21:52:09 -07:00

160 lines
5.4 KiB
TypeScript

// Auto-generated. Do not edit.
//% indexerGet=BufferMethods::getByte indexerSet=BufferMethods::setByte
declare interface Buffer {
/**
* Write a number in specified format in the buffer.
*/
//% shim=BufferMethods::setNumber
setNumber(format: NumberFormat, offset: int32, value: number): void;
/**
* Read a number in specified format from the buffer.
*/
//% shim=BufferMethods::getNumber
getNumber(format: NumberFormat, offset: int32): number;
/** Returns the length of a Buffer object. */
//% property shim=BufferMethods::length
length: int32;
/**
* Fill (a fragment) of the buffer with given value.
*/
//% offset.defl=0 length.defl=-1 shim=BufferMethods::fill
fill(value: int32, offset?: int32, length?: int32): void;
/**
* Return a copy of a fragment of a buffer.
*/
//% offset.defl=0 length.defl=-1 shim=BufferMethods::slice
slice(offset?: int32, length?: int32): Buffer;
/**
* Shift buffer left in place, with zero padding.
* @param offset number of bytes to shift; use negative value to shift right
* @param start start offset in buffer. Default is 0.
* @param length number of elements in buffer. If negative, length is set as the buffer length minus
* start. eg: -1
*/
//% start.defl=0 length.defl=-1 shim=BufferMethods::shift
shift(offset: int32, start?: int32, length?: int32): void;
/**
* Convert a buffer to its hexadecimal representation.
*/
//% shim=BufferMethods::toHex
toHex(): string;
/**
* Rotate buffer left in place.
* @param offset number of bytes to shift; use negative value to shift right
* @param start start offset in buffer. Default is 0.
* @param length number of elements in buffer. If negative, length is set as the buffer length minus
* start. eg: -1
*/
//% start.defl=0 length.defl=-1 shim=BufferMethods::rotate
rotate(offset: int32, start?: int32, length?: int32): void;
/**
* Write contents of `src` at `dstOffset` in current buffer.
*/
//% shim=BufferMethods::write
write(dstOffset: int32, src: Buffer): void;
}
declare namespace loops {
/**
* Repeats the code forever in the background. On each iteration, allows other codes to run.
* @param body code to execute
*/
//% help=loops/forever weight=100 blockGap=8
//% blockId=forever block="forever" blockAllowMultiple=1 shim=loops::forever
function forever(a: () => void): void;
/**
* Pause for the specified time in milliseconds
* @param ms how long to pause for, eg: 100, 200, 500, 1000, 2000
*/
//% help=loops/pause weight=99
//% async block="pause (ms) %pause"
//% blockId=device_pause shim=loops::pause
function pause(ms: int32): void;
}
declare namespace control {
/**
* Gets the number of milliseconds elapsed since power on.
*/
//% help=control/millis weight=50
//% blockId=control_running_time block="millis (ms)" shim=control::millis
function millis(): int32;
/**
* Run code when a registered event happens.
* @param id the event compoent id
* @param value the event value to match
*/
//% weight=20 blockGap=8 blockId="control_on_event" block="on event|from %src|with value %value"
//% blockExternalInputs=1
//% help="control/on-event" shim=control::onEvent
function onEvent(src: int32, value: int32, handler: () => void): void;
/**
* Reset the device.
*/
//% weight=30 async help=control/reset blockGap=8
//% blockId="control_reset" block="reset" shim=control::reset
function reset(): void;
/**
* Block the current fiber for the given microseconds
* @param micros number of micro-seconds to wait. eg: 4
*/
//% help=control/wait-micros weight=29 async
//% blockId="control_wait_us" block="wait (µs)%micros" shim=control::waitMicros
function waitMicros(micros: int32): void;
/**
* Run other code in the background.
*/
//% help=control/run-in-background blockAllowMultiple=1
//% blockId="control_run_in_background" block="run in background" blockGap=8 shim=control::runInBackground
function runInBackground(a: () => void): void;
/**
* Blocks the calling thread until the specified event is raised.
*/
//% help=control/wait-for-event async
//% blockId=control_wait_for_event block="wait for event|from %src|with value %value" shim=control::waitForEvent
function waitForEvent(src: int32, value: int32): void;
/**
* Derive a unique, consistent serial number of this device from internal data.
*/
//% blockId="control_device_serial_number" block="device serial number" weight=9
//% help=control/device-serial-number shim=control::deviceSerialNumber
function deviceSerialNumber(): int32;
}
declare namespace serial {
/**
* Write some text to the serial port.
*/
//% help=serial/write-string
//% weight=87
//% blockId=serial_writestring block="serial|write string %text" shim=serial::writeString
function writeString(text: string): void;
/**
* Send a buffer across the serial connection.
*/
//% help=serial/write-buffer advanced=true weight=6
//% blockId=serial_writebuffer block="serial|write buffer %buffer" shim=serial::writeBuffer
function writeBuffer(buffer: Buffer): void;
}
// Auto-generated. Do not edit. Really.