Computes the product of a 4-component vector and a 4x3 matrix.
m4x3 dst, src0, src1 |
---|
where
Pixel shader versions | 1_1 | 1_2 | 1_3 | 1_4 | 2_0 | 2_x | 2_sw | 3_0 | 3_sw |
---|---|---|---|---|---|---|---|---|---|
m4x3 | x | x | x | x | x |
The xyz mask is required for the destination register. Negate and swizzle modifiers are allowed for src0, but not for src1.
The following code snippet shows the operations performed.
dest.x = (src0.x*src1.x) + (src0.y*src1.y) + (src0.z*src1.z) + (src0.w*src1.w); dest.y = (src0.x*src2.x) + (src0.y*src2.y) + (src0.z*src2.z) + (src0.w*src2.w); dest.z = (src0.x*src3.x) + (src0.y*src3.y) + (src0.z*src3.z) + (src0.w*src3.w);
The input vector is in register src0. The input 4x3 matrix is in register src1, and the next two higher registers, as shown in the expansion below. A 3D result is produced, leaving the other element of the destination register (dest.w) unaffected.
This operation is commonly used for transforming a position vector by a matrix that has no projective effect, such as occurs in model-space transformations. This instruction is implemented as a set of dot products as shown below.
m4x3 r0.xyz, r1, c0 will be expanded to: dp4 r0.x, r1, c0 dp4 r0.y, r1, c1 dp4 r0.z, r1, c2
Swizzle and negate modifiers are invalid for the src1 register. The dst and src0 register cannot be the same.