gcc/testsuite/jit.dg/test-dot-product.c - gcc - Git at Google

 #include <stdlib.h>
 #include <stdio.h>
 #include <string.h>

 #include "libgccjit.h"

 #include "harness.h"

 void
 create_code (gcc_jit_context *ctxt, void *user_data)
 {
   /* Let's try to inject the equivalent of:

 	double
 	my_dot_product (int n, double *a, double *b)
 	{
 	  double result = 0.;
 	  for (int i = 0; i < n; i++)
 	    result += a[i] * b[i];
 	  return result
 	}

      and see what the optimizer can do.  */
   gcc_jit_type *val_type =
     gcc_jit_context_get_type (ctxt, GCC_JIT_TYPE_DOUBLE);
   gcc_jit_type *ptr_type = gcc_jit_type_get_pointer (val_type);
   gcc_jit_type *int_type =
     gcc_jit_context_get_type (ctxt, GCC_JIT_TYPE_INT);

   gcc_jit_type *return_type = val_type;
   gcc_jit_param *param_n =
     gcc_jit_context_new_param (ctxt, NULL, int_type, "n");
   gcc_jit_param *param_a =
     gcc_jit_context_new_param (ctxt, NULL, ptr_type, "a");
   gcc_jit_param *param_b =
     gcc_jit_context_new_param (ctxt, NULL, ptr_type, "b");
   gcc_jit_param *params[3] = {param_n, param_a, param_b};
   gcc_jit_function *func =
     gcc_jit_context_new_function (ctxt, NULL,
 				  GCC_JIT_FUNCTION_EXPORTED,
 				  return_type,
 				  "my_dot_product",
 				  3, params, 0);

   gcc_jit_block *initial = gcc_jit_function_new_block (func, "initial");
   gcc_jit_block *loop_test = gcc_jit_function_new_block (func, "loop_test");
   gcc_jit_block *loop_body = gcc_jit_function_new_block (func, "loop_body");
   gcc_jit_block *final = gcc_jit_function_new_block (func, "final");

   /* Build: "double result = 0.;" */
   gcc_jit_lvalue *result =
     gcc_jit_function_new_local (func, NULL, val_type, "result");

   gcc_jit_block_add_assignment (initial, NULL,
     result, gcc_jit_context_zero (ctxt, val_type));

   /* Build: "for (int i = 0; i < n; i++)" */
   gcc_jit_lvalue *i =
     gcc_jit_function_new_local (func, NULL, int_type, "i");
   gcc_jit_block_add_assignment (initial, NULL,
     i, gcc_jit_context_zero (ctxt, int_type));

   gcc_jit_block_end_with_jump (initial, NULL, loop_test);

   gcc_jit_block_end_with_conditional (
     loop_test, NULL,

     /* (i < n) */
     gcc_jit_context_new_comparison (
       ctxt, NULL,
       GCC_JIT_COMPARISON_LT,
       gcc_jit_lvalue_as_rvalue (i),
       gcc_jit_param_as_rvalue (param_n)),

     loop_body,
     final);

   /* Build: "result += a[i] * b[i];" */
   gcc_jit_block_add_assignment_op (
     loop_body, NULL,
     result,
     GCC_JIT_BINARY_OP_PLUS,
     gcc_jit_context_new_binary_op (
       ctxt, NULL,
       GCC_JIT_BINARY_OP_MULT,
       val_type,
       gcc_jit_lvalue_as_rvalue (
 	gcc_jit_context_new_array_access (
           ctxt, NULL,
 	  gcc_jit_param_as_rvalue (param_a),
 	  gcc_jit_lvalue_as_rvalue (i))),
       gcc_jit_lvalue_as_rvalue (
 	gcc_jit_context_new_array_access (
           ctxt, NULL,
 	  gcc_jit_param_as_rvalue (param_b),
 	  gcc_jit_lvalue_as_rvalue (i)))));

   /* Build: "i++" */
   gcc_jit_block_add_assignment_op (
     loop_body, NULL,
     i,
     GCC_JIT_BINARY_OP_PLUS,
     gcc_jit_context_one (ctxt, int_type));

   gcc_jit_block_end_with_jump (loop_body, NULL, loop_test);

   /* Build: "return result;" */
   gcc_jit_block_end_with_return (
     final,
     NULL,
     gcc_jit_lvalue_as_rvalue (result));
 }

 void
 verify_code (gcc_jit_context *ctxt, gcc_jit_result *result)
 {
   typedef double (*my_dot_product_fn_type) (int n, double *a, double *b);
   CHECK_NON_NULL (result);

   my_dot_product_fn_type my_dot_product =
     (my_dot_product_fn_type)gcc_jit_result_get_code (result,
 						     "my_dot_product");
   CHECK_NON_NULL (my_dot_product);
   double test_array[] = {1., 2., 3., 4., 5., 6., 7., 8., 9., 10.};
   double val = my_dot_product (10, test_array, test_array);
   note ("my_dot_product returned: %f", val);
   CHECK_VALUE (val, 385.0);
 }
	#include <stdlib.h>
	#include <stdio.h>
	#include <string.h>

	#include "libgccjit.h"

	#include "harness.h"

	void
	create_code (gcc_jit_context ctxt, void user_data)
	{
	/* Let's try to inject the equivalent of:

	double
	my_dot_product (int n, double a, double b)
	{
	double result = 0.;
	for (int i = 0; i < n; i++)
	result += a[i] * b[i];
	return result
	}

	and see what the optimizer can do. */
	gcc_jit_type *val_type =
	gcc_jit_context_get_type (ctxt, GCC_JIT_TYPE_DOUBLE);
	gcc_jit_type *ptr_type = gcc_jit_type_get_pointer (val_type);
	gcc_jit_type *int_type =
	gcc_jit_context_get_type (ctxt, GCC_JIT_TYPE_INT);

	gcc_jit_type *return_type = val_type;
	gcc_jit_param *param_n =
	gcc_jit_context_new_param (ctxt, NULL, int_type, "n");
	gcc_jit_param *param_a =
	gcc_jit_context_new_param (ctxt, NULL, ptr_type, "a");
	gcc_jit_param *param_b =
	gcc_jit_context_new_param (ctxt, NULL, ptr_type, "b");
	gcc_jit_param *params[3] = {param_n, param_a, param_b};
	gcc_jit_function *func =
	gcc_jit_context_new_function (ctxt, NULL,
	GCC_JIT_FUNCTION_EXPORTED,
	return_type,
	"my_dot_product",
	3, params, 0);

	gcc_jit_block *initial = gcc_jit_function_new_block (func, "initial");
	gcc_jit_block *loop_test = gcc_jit_function_new_block (func, "loop_test");
	gcc_jit_block *loop_body = gcc_jit_function_new_block (func, "loop_body");
	gcc_jit_block *final = gcc_jit_function_new_block (func, "final");

	/* Build: "double result = 0.;" */
	gcc_jit_lvalue *result =
	gcc_jit_function_new_local (func, NULL, val_type, "result");

	gcc_jit_block_add_assignment (initial, NULL,
	result, gcc_jit_context_zero (ctxt, val_type));

	/* Build: "for (int i = 0; i < n; i++)" */
	gcc_jit_lvalue *i =
	gcc_jit_function_new_local (func, NULL, int_type, "i");
	gcc_jit_block_add_assignment (initial, NULL,
	i, gcc_jit_context_zero (ctxt, int_type));

	gcc_jit_block_end_with_jump (initial, NULL, loop_test);

	gcc_jit_block_end_with_conditional (
	loop_test, NULL,

	/* (i < n) */
	gcc_jit_context_new_comparison (
	ctxt, NULL,
	GCC_JIT_COMPARISON_LT,
	gcc_jit_lvalue_as_rvalue (i),
	gcc_jit_param_as_rvalue (param_n)),

	loop_body,
	final);

	/* Build: "result += a[i] * b[i];" */
	gcc_jit_block_add_assignment_op (
	loop_body, NULL,
	result,
	GCC_JIT_BINARY_OP_PLUS,
	gcc_jit_context_new_binary_op (
	ctxt, NULL,
	GCC_JIT_BINARY_OP_MULT,
	val_type,
	gcc_jit_lvalue_as_rvalue (
	gcc_jit_context_new_array_access (
	ctxt, NULL,
	gcc_jit_param_as_rvalue (param_a),
	gcc_jit_lvalue_as_rvalue (i))),
	gcc_jit_lvalue_as_rvalue (
	gcc_jit_context_new_array_access (
	ctxt, NULL,
	gcc_jit_param_as_rvalue (param_b),
	gcc_jit_lvalue_as_rvalue (i)))));

	/* Build: "i++" */
	gcc_jit_block_add_assignment_op (
	loop_body, NULL,
	i,
	GCC_JIT_BINARY_OP_PLUS,
	gcc_jit_context_one (ctxt, int_type));

	gcc_jit_block_end_with_jump (loop_body, NULL, loop_test);

	/* Build: "return result;" */
	gcc_jit_block_end_with_return (
	final,
	NULL,
	gcc_jit_lvalue_as_rvalue (result));
	}

	void
	verify_code (gcc_jit_context ctxt, gcc_jit_result result)
	{
	typedef double (my_dot_product_fn_type) (int n, double a, double *b);
	CHECK_NON_NULL (result);

	my_dot_product_fn_type my_dot_product =
	(my_dot_product_fn_type)gcc_jit_result_get_code (result,
	"my_dot_product");
	CHECK_NON_NULL (my_dot_product);
	double test_array[] = {1., 2., 3., 4., 5., 6., 7., 8., 9., 10.};
	double val = my_dot_product (10, test_array, test_array);
	note ("my_dot_product returned: %f", val);
	CHECK_VALUE (val, 385.0);
	}