gcc/testsuite/gcc.dg/vmx/dct.c - gcc - Git at Google

 /* { dg-do compile } */
 #include <altivec.h>

 inline void
 transpose_vmx (vector signed short *input, vector signed short *output)
 {
   vector signed short v0, v1, v2, v3, v4, v5, v6, v7;
   vector signed short x0, x1, x2, x3, x4, x5, x6, x7;

   /* Matrix transpose */
   v0 = vec_mergeh (input[0], input[4]);
   v1 = vec_mergel (input[0], input[4]);
   v2 = vec_mergeh (input[1], input[5]);
   v3 = vec_mergel (input[1], input[5]);
   v4 = vec_mergeh (input[2], input[6]);
   v5 = vec_mergel (input[2], input[6]);
   v6 = vec_mergeh (input[3], input[7]);
   v7 = vec_mergel (input[3], input[7]);

   x0 = vec_mergeh (v0, v4);
   x1 = vec_mergel (v0, v4);
   x2 = vec_mergeh (v1, v5);
   x3 = vec_mergel (v1, v5);
   x4 = vec_mergeh (v2, v6);
   x5 = vec_mergel (v2, v6);
   x6 = vec_mergeh (v3, v7);
   x7 = vec_mergel (v3, v7);

   output[0] = vec_mergeh (x0, x4);
   output[1] = vec_mergel (x0, x4);
   output[2] = vec_mergeh (x1, x5);
   output[3] = vec_mergel (x1, x5);
   output[4] = vec_mergeh (x2, x6);
   output[5] = vec_mergel (x2, x6);
   output[6] = vec_mergeh (x3, x7);
   output[7] = vec_mergel (x3, x7);
 }

 void
 dct_vmx (vector signed short *input, vector signed short *output,
 	 vector signed short *postscale)
 {
   vector signed short mul0, mul1, mul2, mul3, mul4, mul5, mul6, mul;
   vector signed short v0, v1, v2, v3, v4, v5, v6, v7, v8, v9;
   vector signed short v20, v21, v22, v23, v24, v25, v26, v27, v31;
   int i;
   vector signed short in[8], out[8];

   /* Load first eight rows of input data */

   /* Load multiplication constants */

   /* Splat multiplication constants */
   mul0 = vec_splat(input[8],0);
   mul1 = vec_splat(input[8],1);
   mul2 = vec_splat(input[8],2);
   mul3 = vec_splat(input[8],3);
   mul4 = vec_splat(input[8],4);
   mul5 = vec_splat(input[8],5);
   mul6 = vec_splat(input[8],6);

   /* Perform DCT on the eight columns */

   /*********** Stage 1 ***********/

   v8 = vec_adds (input[0], input[7]);
   v9 = vec_subs (input[0], input[7]);
   v0 = vec_adds (input[1], input[6]);
   v7 = vec_subs (input[1], input[6]);
   v1 = vec_adds (input[2], input[5]);
   v6 = vec_subs (input[2], input[5]);
   v2 = vec_adds (input[3], input[4]);
   v5 = vec_subs (input[3], input[4]);

   /*********** Stage 2 ***********/

   /* Top */
   v3 = vec_adds (v8, v2);		/* (V0+V7) + (V3+V4) */
   v4 = vec_subs (v8, v2);		/* (V0+V7) - (V3+V4) */
   v2 = vec_adds (v0, v1);		/* (V1+V6) + (V2+V5) */
   v8 = vec_subs (v0, v1);		/* (V1+V6) - (V2+V5) */

   /* Bottom */
   v0 = vec_subs (v7, v6);		/* (V1-V6) - (V2-V5) */
   v1 = vec_adds (v7, v6);		/* (V1-V6) + (V2-V5) */

   /*********** Stage 3 ***********/

   /* Top */
   in[0] = vec_adds (v3, v2);		/* y0 = v3 + v2 */
   in[4] = vec_subs (v3, v2);		/* y4 = v3 - v2 */
   in[2] = vec_mradds (v8, mul2, v4);	/* y2 = v8 * a0 + v4 */
   v6 = vec_mradds (v4, mul2, mul6);
   in[6] = vec_subs (v6, v8);		/* y6 = v4 * a0 - v8 */

   /* Bottom */
   v6 = vec_mradds (v0, mul0, v5);	/* v6 = v0 * (c4) + v5 */
   v7 = vec_mradds (v0, mul4, v5);	/* v7 = v0 * (-c4) + v5 */
   v2 = vec_mradds (v1, mul4, v9);	/* v2 = v1 * (-c4) + v9 */
   v3 = vec_mradds (v1, mul0, v9);	/* v3 = v1 * (c4) + v9 */

   /*********** Stage 4 ***********/

   /* Bottom */
   in[1] = vec_mradds (v6, mul3, v3);	/* y1 = v6 * (a1) + v3 */
   v23 = vec_mradds (v3, mul3, mul6);
   in[7] = vec_subs (v23, v6);		/* y7 = v3 * (a1) - v6 */
   in[5] = vec_mradds (v2, mul1, v7);	/* y5 = v2 * (a2) + v7 */
   in[3] = vec_mradds (v7, mul5, v2);	/* y3 = v7 * (-a2) + v2 */

   transpose_vmx (in, out);

   /* Perform DCT on the eight rows */

   /*********** Stage 1 ***********/

   v8 = vec_adds (out[0], out[7]);
   v9 = vec_subs (out[0], out[7]);
   v0 = vec_adds (out[1], out[6]);
   v7 = vec_subs (out[1], out[6]);
   v1 = vec_adds (out[2], out[5]);
   v6 = vec_subs (out[2], out[5]);
   v2 = vec_adds (out[3], out[4]);
   v5 = vec_subs (out[3], out[4]);

   /*********** Stage 2 ***********/

   /* Top */
   v3 = vec_adds (v8, v2);		/* (V0+V7) + (V3+V4) */
   v4 = vec_subs (v8, v2);		/* (V0+V7) - (V3+V4) */
   v2 = vec_adds (v0, v1);		/* (V1+V6) + (V2+V5) */
   v8 = vec_subs (v0, v1);		/* (V1+V6) - (V2+V5) */

   /* Bottom */
   v0 = vec_subs (v7, v6);		/* (V1-V6) - (V2-V5) */
   v1 = vec_adds (v7, v6);		/* (V1-V6) + (V2-V5) */

   /*********** Stage 3 ***********/

   /* Top */
   v25 = vec_subs (v25, v25);          /* reinit v25 = 0 */

   v20 = vec_adds (v3, v2);		/* y0 = v3 + v2 */
   v24 = vec_subs (v3, v2);		/* y4 = v3 - v2 */
   v22 = vec_mradds (v8, mul2, v4);	/* y2 = v8 * a0 + v4 */
   v6 = vec_mradds (v4, mul2, v25);
   v26 = vec_subs (v6, v8);		/* y6 = v4 * a0 - v8 */

   /* Bottom */
   v6 = vec_mradds (v0, mul0, v5);	/* v6 = v0 * (c4) + v5 */
   v7 = vec_mradds (v0, mul4, v5);	/* v7 = v0 * (-c4) + v5 */
   v2 = vec_mradds (v1, mul4, v9);	/* v2 = v1 * (-c4) + v9 */
   v3 = vec_mradds (v1, mul0, v9);	/* v3 = v1 * (c4) + v9 */

   /*********** Stage 4 ***********/

   /* Bottom */
   v21 = vec_mradds (v6, mul3, v3);	/* y1 = v6 * (a1) + v3 */
   v23 = vec_mradds (v3, mul3, v25);
   v27 = vec_subs (v23, v6);		/* y7 = v3 * (a1) - v6 */
   v25 = vec_mradds (v2, mul1, v7);	/* y5 = v2 * (a2) + v7 */
   v23 = vec_mradds (v7, mul5, v2);	/* y3 = v7 * (-a2) + v2 */

   /* Post-scale and store reults */

   v31 = vec_subs (v31, v31);          /* reinit v25 = 0 */

   output[0] = vec_mradds (postscale[0], v20, v31);
   output[2] = vec_mradds (postscale[2], v22, v31);
   output[4] = vec_mradds (postscale[4], v24, v31);
   output[6] = vec_mradds (postscale[6], v26, v31);
   output[1] = vec_mradds (postscale[1], v21, v31);
   output[3] = vec_mradds (postscale[3], v23, v31);
   output[5] = vec_mradds (postscale[5], v25, v31);
   output[7] = vec_mradds (postscale[7], v27, v31);
 }
	/* { dg-do compile } */
	#include <altivec.h>

	inline void
	transpose_vmx (vector signed short input, vector signed short output)
	{
	vector signed short v0, v1, v2, v3, v4, v5, v6, v7;
	vector signed short x0, x1, x2, x3, x4, x5, x6, x7;

	/* Matrix transpose */
	v0 = vec_mergeh (input[0], input[4]);
	v1 = vec_mergel (input[0], input[4]);
	v2 = vec_mergeh (input[1], input[5]);
	v3 = vec_mergel (input[1], input[5]);
	v4 = vec_mergeh (input[2], input[6]);
	v5 = vec_mergel (input[2], input[6]);
	v6 = vec_mergeh (input[3], input[7]);
	v7 = vec_mergel (input[3], input[7]);

	x0 = vec_mergeh (v0, v4);
	x1 = vec_mergel (v0, v4);
	x2 = vec_mergeh (v1, v5);
	x3 = vec_mergel (v1, v5);
	x4 = vec_mergeh (v2, v6);
	x5 = vec_mergel (v2, v6);
	x6 = vec_mergeh (v3, v7);
	x7 = vec_mergel (v3, v7);

	output[0] = vec_mergeh (x0, x4);
	output[1] = vec_mergel (x0, x4);
	output[2] = vec_mergeh (x1, x5);
	output[3] = vec_mergel (x1, x5);
	output[4] = vec_mergeh (x2, x6);
	output[5] = vec_mergel (x2, x6);
	output[6] = vec_mergeh (x3, x7);
	output[7] = vec_mergel (x3, x7);
	}

	void
	dct_vmx (vector signed short input, vector signed short output,
	vector signed short *postscale)
	{
	vector signed short mul0, mul1, mul2, mul3, mul4, mul5, mul6, mul;
	vector signed short v0, v1, v2, v3, v4, v5, v6, v7, v8, v9;
	vector signed short v20, v21, v22, v23, v24, v25, v26, v27, v31;
	int i;
	vector signed short in[8], out[8];

	/* Load first eight rows of input data */

	/* Load multiplication constants */

	/* Splat multiplication constants */
	mul0 = vec_splat(input[8],0);
	mul1 = vec_splat(input[8],1);
	mul2 = vec_splat(input[8],2);
	mul3 = vec_splat(input[8],3);
	mul4 = vec_splat(input[8],4);
	mul5 = vec_splat(input[8],5);
	mul6 = vec_splat(input[8],6);

	/* Perform DCT on the eight columns */

	/********* Stage 1 *********/

	v8 = vec_adds (input[0], input[7]);
	v9 = vec_subs (input[0], input[7]);
	v0 = vec_adds (input[1], input[6]);
	v7 = vec_subs (input[1], input[6]);
	v1 = vec_adds (input[2], input[5]);
	v6 = vec_subs (input[2], input[5]);
	v2 = vec_adds (input[3], input[4]);
	v5 = vec_subs (input[3], input[4]);

	/********* Stage 2 *********/

	/* Top */
	v3 = vec_adds (v8, v2); /* (V0+V7) + (V3+V4) */
	v4 = vec_subs (v8, v2); /* (V0+V7) - (V3+V4) */
	v2 = vec_adds (v0, v1); /* (V1+V6) + (V2+V5) */
	v8 = vec_subs (v0, v1); /* (V1+V6) - (V2+V5) */

	/* Bottom */
	v0 = vec_subs (v7, v6); /* (V1-V6) - (V2-V5) */
	v1 = vec_adds (v7, v6); /* (V1-V6) + (V2-V5) */

	/********* Stage 3 *********/

	/* Top */
	in[0] = vec_adds (v3, v2); /* y0 = v3 + v2 */
	in[4] = vec_subs (v3, v2); /* y4 = v3 - v2 */
	in[2] = vec_mradds (v8, mul2, v4); /* y2 = v8 * a0 + v4 */
	v6 = vec_mradds (v4, mul2, mul6);
	in[6] = vec_subs (v6, v8); /* y6 = v4 * a0 - v8 */

	/* Bottom */
	v6 = vec_mradds (v0, mul0, v5); /* v6 = v0 * (c4) + v5 */
	v7 = vec_mradds (v0, mul4, v5); /* v7 = v0 * (-c4) + v5 */
	v2 = vec_mradds (v1, mul4, v9); /* v2 = v1 * (-c4) + v9 */
	v3 = vec_mradds (v1, mul0, v9); /* v3 = v1 * (c4) + v9 */

	/********* Stage 4 *********/

	/* Bottom */
	in[1] = vec_mradds (v6, mul3, v3); /* y1 = v6 * (a1) + v3 */
	v23 = vec_mradds (v3, mul3, mul6);
	in[7] = vec_subs (v23, v6); /* y7 = v3 * (a1) - v6 */
	in[5] = vec_mradds (v2, mul1, v7); /* y5 = v2 * (a2) + v7 */
	in[3] = vec_mradds (v7, mul5, v2); /* y3 = v7 * (-a2) + v2 */

	transpose_vmx (in, out);

	/* Perform DCT on the eight rows */

	/********* Stage 1 *********/

	v8 = vec_adds (out[0], out[7]);
	v9 = vec_subs (out[0], out[7]);
	v0 = vec_adds (out[1], out[6]);
	v7 = vec_subs (out[1], out[6]);
	v1 = vec_adds (out[2], out[5]);
	v6 = vec_subs (out[2], out[5]);
	v2 = vec_adds (out[3], out[4]);
	v5 = vec_subs (out[3], out[4]);

	/********* Stage 2 *********/

	/* Top */
	v3 = vec_adds (v8, v2); /* (V0+V7) + (V3+V4) */
	v4 = vec_subs (v8, v2); /* (V0+V7) - (V3+V4) */
	v2 = vec_adds (v0, v1); /* (V1+V6) + (V2+V5) */
	v8 = vec_subs (v0, v1); /* (V1+V6) - (V2+V5) */

	/* Bottom */
	v0 = vec_subs (v7, v6); /* (V1-V6) - (V2-V5) */
	v1 = vec_adds (v7, v6); /* (V1-V6) + (V2-V5) */

	/********* Stage 3 *********/

	/* Top */
	v25 = vec_subs (v25, v25); /* reinit v25 = 0 */

	v20 = vec_adds (v3, v2); /* y0 = v3 + v2 */
	v24 = vec_subs (v3, v2); /* y4 = v3 - v2 */
	v22 = vec_mradds (v8, mul2, v4); /* y2 = v8 * a0 + v4 */
	v6 = vec_mradds (v4, mul2, v25);
	v26 = vec_subs (v6, v8); /* y6 = v4 * a0 - v8 */

	/* Bottom */
	v6 = vec_mradds (v0, mul0, v5); /* v6 = v0 * (c4) + v5 */
	v7 = vec_mradds (v0, mul4, v5); /* v7 = v0 * (-c4) + v5 */
	v2 = vec_mradds (v1, mul4, v9); /* v2 = v1 * (-c4) + v9 */
	v3 = vec_mradds (v1, mul0, v9); /* v3 = v1 * (c4) + v9 */

	/********* Stage 4 *********/

	/* Bottom */
	v21 = vec_mradds (v6, mul3, v3); /* y1 = v6 * (a1) + v3 */
	v23 = vec_mradds (v3, mul3, v25);
	v27 = vec_subs (v23, v6); /* y7 = v3 * (a1) - v6 */
	v25 = vec_mradds (v2, mul1, v7); /* y5 = v2 * (a2) + v7 */
	v23 = vec_mradds (v7, mul5, v2); /* y3 = v7 * (-a2) + v2 */

	/* Post-scale and store reults */

	v31 = vec_subs (v31, v31); /* reinit v25 = 0 */

	output[0] = vec_mradds (postscale[0], v20, v31);
	output[2] = vec_mradds (postscale[2], v22, v31);
	output[4] = vec_mradds (postscale[4], v24, v31);
	output[6] = vec_mradds (postscale[6], v26, v31);
	output[1] = vec_mradds (postscale[1], v21, v31);
	output[3] = vec_mradds (postscale[3], v23, v31);
	output[5] = vec_mradds (postscale[5], v25, v31);
	output[7] = vec_mradds (postscale[7], v27, v31);
	}