Control of robotic devices with non-constant body pitch

What is claimed is: 1 . A robot comprising: a body having a front body portion and a rear body portion; front legs coupled to the front body portion; rear legs coupled to the rear body portion; data processing hardware comprising a first controller and a second controller; and memory hardware storing instructions that when executed by the data processing hardware cause the data processing hardware to perform operations comprising: obtaining instructions for controlling movement of the robot; determining, by the first controller, a first target height for the front body portion of the robot based on the instructions for controlling movement of the robot; instructing, by the first controller, the front legs to apply a first vertical force to move the front body portion to the first target height; determining, by the second controller, a second target height for the rear body portion of the robot based on the instructions for controlling movement of the robot, the second target height determined independent of the first target height; instructing, by the second controller, the rear legs to apply a second vertical force to move the rear body portion to the second target height; and controlling a first height of the front body portion using the first controller independent of controlling a second height of the rear body portion using the second controller. 2 . The robot of claim 1 , the operations further comprising controlling the first height of the front body portion using the first controller in parallel with controlling the second height of the rear body portion using the second controller. 3 . The robot of claim 1 , the operations further comprising controlling the first height of the front body portion and the second height of the rear body portion independently from a gait of the robot. 4 . The robot of claim 1 , further comprising: a first point associated with the front body portion; and a second point associated with the rear body portion, wherein the first vertical force applied with the front legs does not affect a height of the second point and the second vertical force applied with the rear legs does not affect a height of the first point. 5 . The robot of claim 1 , wherein: the data processing hardware further comprises a first lateral displacement controller and a second lateral displacement controller, and the operations further comprise: determining, by the first lateral displacement controller, a lateral displacement for the front legs with respect to the body based on the instructions for controlling movement of the robot; instructing, by the first lateral displacement controller, the front legs to move in accordance with the lateral displacement for the front legs; determining, by the second lateral displacement controller, a lateral displacement for the rear legs with respect to the body based on the instructions for controlling movement of the robot; and instructing, by the second lateral displacement controller, the rear legs to move in accordance with the lateral displacement for the rear legs. 6 . The robot of claim 1 , the operations further comprising: receiving, by the first controller, a state of the front legs and a template front footstep sequence, the template front footstep sequence comprising predetermined front footstep timing values; modifying, at the first controller, the front footstep timing values of the template front footstep sequence to generate a modified front footstep sequence based on the front legs state; and instructing, by the first controller, movement of the front legs based on the modified front footstep sequence. 7 . The robot of claim 6 , the operations further comprising: receiving, by the second controller, a state of the rear legs and a template rear footstep sequence, the template rear footstep sequence comprising predetermined rear footstep timing values; modifying, at the second controller, the rear footstep timing values of the template rear footstep sequence to generate a modified rear footstep sequence based on the rear legs state; and instructing, by the second controller, movement of the rear legs based on the modified rear footstep sequence. 8 . The robot of claim 1 , the operations further comprising: obtaining, by the first controller, a state of the front legs and a model that represents the robot as a first mass coupled to a second mass along a longitudinal axis, the first mass associated with the front legs and the second mass associated with the rear legs; determining, by the first controller, a current height of the front body portion based on the state of the front legs; and determining, by the first controller, the first vertical force based on the current height of the front body portion, the first target height, and the model. 9 . The robot of claim 8 , wherein the first vertical force applied with the front legs does not affect a height of the second mass and the second vertical force applied with the rear legs does not affect a height of the first mass. 10 . A method comprising: obtaining, by data processing hardware, instructions for controlling movement of a robot, the robot including a body having a front body portion and a rear body portion, front legs coupled to the front body portion, rear legs coupled to the rear body portion, and the data processing hardware; determining, by a first controller of the data processing hardware, a first target height for the front body portion of the robot based on the instructions for controlling movement of the robot; instructing, by the first controller, the front legs to apply a first vertical force to move the front body portion to the first target height; determining, by a second controller of the data processing hardware, a second target height for the rear body portion of the robot based on the instructions for controlling movement of the robot, the second target height determined independent of the first target height; instructing, by the second controller, the rear legs to apply a second vertical force to move the rear body portion to the second target height; and controlling a first height of the front body portion using the first controller independent of controlling a second height of the rear body portion using the second controller. 11 . The method of claim 10 , further comprising: controlling the first height of the front body portion using the first controller in parallel with controlling the second height of the rear body portion using the second controller. 12 . The method of claim 10 , further comprising: controlling the first height of the front body portion and the second height of the rear body portion independently from a gait of the robot. 13 . The method of claim 10 , wherein: the robot further includes a first point associated with the front body portion, and a second point associated with the rear body portion, and the first vertical force applied with the front legs does not affect a height of the second point and the second vertical force applied with the rear legs does not affect a height of the first point. 14 . The method of claim 10 , further comprising: determining, by a first lateral displacement controller of the data processing hardware, a lateral displacement for the front legs with respect to the body based on the instructions for controlling movement of the robot; instructing, by the first lateral displacement controller, the front legs to move in accordance with the lateral displacement for the front legs; determining, by a second lateral displacement controller of the data processing hardwar