Human-computer interaction method and device and electronic equipment
A technology of human-computer interaction and human-computer interaction interface, applied in the field of human-computer interaction methods, devices and electronic equipment, can solve problems such as unfavorable safe driving, driver's inability to pay attention to road conditions, and complicated operation procedures, so as to improve safety Effect
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Embodiment 1
[0021] figure 1 A flow chart of a human-computer interaction method is shown, which includes:
[0022] S110, detecting whether there is a two-point sliding operation on the human-computer interaction interface;
[0023] The two-point sliding operation means that there are always two contact points with the human-computer interaction interface. The human-computer interaction interface can be the main interface of a smart device such as a mobile phone or a car, or an application interface of an application program of a smart device such as a mobile phone or a car, for example, an application interface of a radio on a car. Car machine refers to the abbreviation of in-vehicle infotainment products installed in the car. The car machine must be able to realize information communication between people and cars, and between cars and the outside world (car and car).
[0024] S120, when there is the two-point sliding operation on the human-computer interaction interface, run a predete...
Embodiment 2
[0030] On the basis of Embodiment 1, the embodiment of the present invention has been further improved, such as figure 2 As shown, optionally, S110 includes:
[0031] S210. Acquire the first start point coordinates and the first end point coordinates of the first touch point operation, the second start point coordinates and the second end point coordinates of the second touch point operation;
[0032] The two-point sliding operation includes the first touch point operation and the second touch point operation, such as image 3 As shown, the first starting point coordinates A1 and the first end point coordinates C1 are respectively (A1, B1) and (C1, D1), and the second starting point coordinates A2 and the second end point coordinates C2 are respectively (A2, B2) and (C2, D2).
[0033] S220. Detect whether the direction from the first starting point coordinates to the first end point coordinates is the same as the direction from the second starting point coordinates to the s...
Embodiment 3
[0038] On the basis of Embodiment 2, the embodiment of the present invention has been further improved, such as Figure 4 As shown, optionally, S230 includes:
[0039] S310, when the direction from the first start point coordinates to the first end point coordinates is the same as the direction from the second start point coordinates to the second end point coordinates, according to the first start point coordinates and the first end point coordinates, the second start point coordinates and the second end point coordinates The coordinates calculate the first sliding distance and the second sliding distance;
[0040] refer to image 3 , the first starting point coordinates A1 and the first end point coordinates C1 are (A1, B1) and (C1, D1) respectively, the second starting point coordinates A2 and the second end point coordinates C2 are (A2, B2) and (C2, D2) respectively , according to the formula Calculate the first sliding distance and the second sliding distance, where A...
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