The temperature increase from pressure is all about change. For a given quantity of gas, double the pressure and the temperature doubles if no heat is lost from the system.

However the pressure itself does not cause a higher temperature.

More relevant than the atmospheric pressure by itself is the effect that the atmosphere has in trapping the heat energy applied to the surface of the planet. The moon has no atmoshphere but is roughly the same distance from the Sun as the Earth is. However,the moon is searingly hot on the side facing the Sun and perishingly cold on its dark side. The Earth has a more equal temperature becuase the heat energy provided by the Sun is trapped within the air whilst that same air also insulates the Earth's surface preventing it suffering the full impact of the Sun's energy.

Temperature and Heat are two different things.
A body, such as the surface of the Earth, radiates electromagnetic radiation. As the temperature increases, the wavelength of the radiation decreases.
The Sun is a very hot body and gives off short wave electromagnetic radiation.
This penetrates the Earth's atmosphere, with little absorption, and heats up the ground. The warm ground gives off longer wavelength raiation (infrared) which is easily absorbed by atmospheric molecules such as carbon dioxide, methane and water.
An increase in pressure of a gas will increase the number of radiation absorbing molecules and hence increase the degree of absorption.

Great answer Teddio.

I was thinking more of the gas equation in my answer.

In Mercury and Venus' case, isn't proximity to the sun a factor. I believe Mercury has a geostationary orbit with obvious effects.

It has just been announced that the Messenger probe has found water on Mercury. Surprising on a planet where lead will melt in some places.