We know that a planet is formed from the nebula of gas and dust. Gravity pulls the particles together in a core. So we all know that the gas cloud is a cloud of hydrogen.
But how did water form? From where did oxygen come? How did it combine to make $\text{H}_2\text{O}$?
Stars, especially larger stars, are hot enough at their core to produce significant amounts of heavier elements: Carbon, Nitrogen and Oxygen. When the stars die, some of these elements are returned to the interstellar medium.
The nebula from which stars form contains not only Hydrogen, but also all the other elements found on Earth. The nebula contains the Carbon that is the basis of life, the Nitrogen that forms the atmosphere, the Silicon that makes rocks, and the oxygen that reacts with hydrogen to form water.
Most of the water on Earth was actually brought to the Earth on asteroids after the Earth had formed, see How did water get on Earth
Usually, when a star dies, it will usually form a planetary nebula or supernova and most of this matter will reach the interstellar medium.
When it collapses due to some disturbance, a protoplanetary disk forms, it will cool off eventually. Once it is low enough temperature to form compounds, usually molecular hydrogen (H2) will form first. Here is something that may help you: No, H2O cannot exist in stars, but H and O separately can. Hydrogen is the basic building material of the universe, created in the Big Bang. Oxygen is created by nuclear reactions in stars. If you put H and O together in the cold of space, you get H2O. There are enormous amounts of water in space. In fact, nearly all of the oxygen in space is in the form of water or carbon monoxide. Similarly, most the carbon and nitrogen in space are also in their most hydrogenated forms: methane (CH4) and ammonia (NH3). (Source) Since water is H2O, it is likely to form because nebulae contain so much hydrogen and some oxygen. The Earth was most likely hit by comets and asteroids that contained water, and when our planet cooled off, we got our oceans.
