#include "SupportTestsF32.h" #include #include #include "Error.h" #include "Test.h" #define SNR_THRESHOLD 120 #define REL_ERROR (1.0e-5) #define ABS_Q15_ERROR ((q15_t)10) #define ABS_Q31_ERROR ((q31_t)80) #define ABS_Q7_ERROR ((q7_t)10) void SupportTestsF32::test_weighted_average_f32() { const float32_t *inp = input.ptr(); const float32_t *coefsp = coefs.ptr(); float32_t *refp = ref.ptr(); float32_t *outp = output.ptr(); *outp=arm_weighted_average_f32(inp, coefsp,this->nbSamples); ASSERT_REL_ERROR(*outp,refp[this->offset],REL_ERROR); ASSERT_EMPTY_TAIL(output); } void SupportTestsF32::test_copy_f32() { const float32_t *inp = input.ptr(); float32_t *outp = output.ptr(); arm_copy_f32(inp, outp,this->nbSamples); ASSERT_EQ(input,output); ASSERT_EMPTY_TAIL(output); } void SupportTestsF32::test_fill_f32() { float32_t *outp = output.ptr(); float32_t val = 1.1; int i; arm_fill_f32(val, outp,this->nbSamples); for(i=0 ; i < this->nbSamples; i++) { ASSERT_EQ(val,outp[i]); } ASSERT_EMPTY_TAIL(output); } void SupportTestsF32::test_float_to_q15() { const float32_t *inp = input.ptr(); q15_t *outp = outputQ15.ptr(); arm_float_to_q15(inp, outp,this->nbSamples); ASSERT_NEAR_EQ(refQ15,outputQ15,ABS_Q15_ERROR); ASSERT_EMPTY_TAIL(outputQ15); } void SupportTestsF32::test_float_to_f64() { const float32_t *inp = input.ptr(); float64_t *outp = outputF64.ptr(); arm_float_to_f64(inp, outp,this->nbSamples); ASSERT_REL_ERROR(refF64,outputF64,REL_ERROR); ASSERT_EMPTY_TAIL(outputF64); } void SupportTestsF32::test_float_to_q31() { const float32_t *inp = input.ptr(); q31_t *outp = outputQ31.ptr(); arm_float_to_q31(inp, outp,this->nbSamples); ASSERT_NEAR_EQ(refQ31,outputQ31,ABS_Q31_ERROR); ASSERT_EMPTY_TAIL(outputQ31); } void SupportTestsF32::test_float_to_q7() { const float32_t *inp = input.ptr(); q7_t *outp = outputQ7.ptr(); arm_float_to_q7(inp, outp,this->nbSamples); ASSERT_NEAR_EQ(refQ7,outputQ7,ABS_Q7_ERROR); ASSERT_EMPTY_TAIL(outputQ7); } void SupportTestsF32::test_bitonic_sort_out_f32() { float32_t *inp = input.ptr(); float32_t *outp = output.ptr(); arm_sort_instance_f32 S; arm_sort_init_f32(&S, ARM_SORT_BITONIC, ARM_SORT_ASCENDING); arm_sort_f32(&S,inp,outp,this->nbSamples); ASSERT_EMPTY_TAIL(output); ASSERT_EQ(output,ref); } void SupportTestsF32::test_bitonic_sort_in_f32() { float32_t *inp = input.ptr(); arm_sort_instance_f32 S; arm_sort_init_f32(&S, ARM_SORT_BITONIC, ARM_SORT_ASCENDING); arm_sort_f32(&S,inp,inp,this->nbSamples); ASSERT_EMPTY_TAIL(input); ASSERT_EQ(input,ref); } void SupportTestsF32::test_bitonic_sort_const_f32() { float32_t *inp = input.ptr(); float32_t *outp = output.ptr(); arm_sort_instance_f32 S; arm_sort_init_f32(&S, ARM_SORT_BITONIC, ARM_SORT_ASCENDING); arm_sort_f32(&S,inp,outp,this->nbSamples); ASSERT_EMPTY_TAIL(output); ASSERT_EQ(output,ref); } void SupportTestsF32::test_bubble_sort_out_f32() { float32_t *inp = input.ptr(); float32_t *outp = output.ptr(); arm_sort_instance_f32 S; arm_sort_init_f32(&S, ARM_SORT_BUBBLE, ARM_SORT_ASCENDING); arm_sort_f32(&S,inp,outp,this->nbSamples); ASSERT_EMPTY_TAIL(output); ASSERT_EQ(output,ref); } void SupportTestsF32::test_bubble_sort_in_f32() { float32_t *inp = input.ptr(); arm_sort_instance_f32 S; arm_sort_init_f32(&S, ARM_SORT_BUBBLE, ARM_SORT_ASCENDING); arm_sort_f32(&S,inp,inp,this->nbSamples); ASSERT_EMPTY_TAIL(input); ASSERT_EQ(input,ref); } void SupportTestsF32::test_bubble_sort_const_f32() { float32_t *inp = input.ptr(); float32_t *outp = output.ptr(); arm_sort_instance_f32 S; arm_sort_init_f32(&S, ARM_SORT_BUBBLE, ARM_SORT_ASCENDING); arm_sort_f32(&S,inp,outp,this->nbSamples); ASSERT_EMPTY_TAIL(output); ASSERT_EQ(output,ref); } void SupportTestsF32::test_heap_sort_out_f32() { float32_t *inp = input.ptr(); float32_t *outp = output.ptr(); arm_sort_instance_f32 S; arm_sort_init_f32(&S, ARM_SORT_HEAP, ARM_SORT_ASCENDING); arm_sort_f32(&S,inp,outp,this->nbSamples); ASSERT_EMPTY_TAIL(output); ASSERT_EQ(output,ref); } void SupportTestsF32::test_heap_sort_in_f32() { float32_t *inp = input.ptr(); arm_sort_instance_f32 S; arm_sort_init_f32(&S, ARM_SORT_HEAP, ARM_SORT_ASCENDING); arm_sort_f32(&S,inp,inp,this->nbSamples); ASSERT_EMPTY_TAIL(input); ASSERT_EQ(input,ref); } void SupportTestsF32::test_heap_sort_const_f32() { float32_t *inp = input.ptr(); float32_t *outp = output.ptr(); arm_sort_instance_f32 S; arm_sort_init_f32(&S, ARM_SORT_HEAP, ARM_SORT_ASCENDING); arm_sort_f32(&S,inp,outp,this->nbSamples); ASSERT_EMPTY_TAIL(output); ASSERT_EQ(output,ref); } void SupportTestsF32::test_insertion_sort_out_f32() { float32_t *inp = input.ptr(); float32_t *outp = output.ptr(); arm_sort_instance_f32 S; arm_sort_init_f32(&S, ARM_SORT_INSERTION, ARM_SORT_ASCENDING); arm_sort_f32(&S,inp,outp,this->nbSamples); ASSERT_EMPTY_TAIL(output); ASSERT_EQ(output,ref); } void SupportTestsF32::test_insertion_sort_in_f32() { float32_t *inp = input.ptr(); arm_sort_instance_f32 S; arm_sort_init_f32(&S, ARM_SORT_INSERTION, ARM_SORT_ASCENDING); arm_sort_f32(&S,inp,inp,this->nbSamples); ASSERT_EMPTY_TAIL(input); ASSERT_EQ(input,ref); } void SupportTestsF32::test_insertion_sort_const_f32() { float32_t *inp = input.ptr(); float32_t *outp = output.ptr(); arm_sort_instance_f32 S; arm_sort_init_f32(&S, ARM_SORT_INSERTION, ARM_SORT_ASCENDING); arm_sort_f32(&S,inp,outp,this->nbSamples); ASSERT_EMPTY_TAIL(output); ASSERT_EQ(output,ref); } void SupportTestsF32::test_merge_sort_out_f32() { float32_t *inp = input.ptr(); float32_t *outp = output.ptr(); float32_t *buf = buffer.ptr(); buf = (float32_t *)malloc((this->nbSamples)*sizeof(float32_t) ); arm_merge_sort_instance_f32 S; arm_merge_sort_init_f32(&S, ARM_SORT_ASCENDING, buf); arm_merge_sort_f32(&S,inp,outp,this->nbSamples); ASSERT_EMPTY_TAIL(output); ASSERT_EQ(output,ref); } void SupportTestsF32::test_merge_sort_const_f32() { float32_t *inp = input.ptr(); float32_t *outp = output.ptr(); float32_t *buf = buffer.ptr(); buf = (float32_t *)malloc((this->nbSamples)*sizeof(float32_t) ); arm_merge_sort_instance_f32 S; arm_merge_sort_init_f32(&S, ARM_SORT_ASCENDING, buf); arm_merge_sort_f32(&S,inp,outp,this->nbSamples); ASSERT_EMPTY_TAIL(output); ASSERT_EQ(output,ref); } void SupportTestsF32::test_quick_sort_out_f32() { float32_t *inp = input.ptr(); float32_t *outp = output.ptr(); arm_sort_instance_f32 S; arm_sort_init_f32(&S, ARM_SORT_QUICK, ARM_SORT_ASCENDING); arm_sort_f32(&S,inp,outp,this->nbSamples); ASSERT_EMPTY_TAIL(output); ASSERT_EQ(output,ref); } void SupportTestsF32::test_quick_sort_in_f32() { float32_t *inp = input.ptr(); arm_sort_instance_f32 S; arm_sort_init_f32(&S, ARM_SORT_QUICK, ARM_SORT_ASCENDING); arm_sort_f32(&S,inp,inp,this->nbSamples); ASSERT_EMPTY_TAIL(input); ASSERT_EQ(input,ref); } void SupportTestsF32::test_quick_sort_const_f32() { float32_t *inp = input.ptr(); float32_t *outp = output.ptr(); arm_sort_instance_f32 S; arm_sort_init_f32(&S, ARM_SORT_QUICK, ARM_SORT_ASCENDING); arm_sort_f32(&S,inp,outp,this->nbSamples); ASSERT_EMPTY_TAIL(output); ASSERT_EQ(output,ref); } void SupportTestsF32::test_selection_sort_out_f32() { float32_t *inp = input.ptr(); float32_t *outp = output.ptr(); arm_sort_instance_f32 S; arm_sort_init_f32(&S, ARM_SORT_SELECTION, ARM_SORT_ASCENDING); arm_sort_f32(&S,inp,outp,this->nbSamples); ASSERT_EMPTY_TAIL(output); ASSERT_EQ(output,ref); } void SupportTestsF32::test_selection_sort_in_f32() { float32_t *inp = input.ptr(); arm_sort_instance_f32 S; arm_sort_init_f32(&S, ARM_SORT_SELECTION, ARM_SORT_ASCENDING); arm_sort_f32(&S,inp,inp,this->nbSamples); ASSERT_EMPTY_TAIL(input); ASSERT_EQ(input,ref); } void SupportTestsF32::test_selection_sort_const_f32() { float32_t *inp = input.ptr(); float32_t *outp = output.ptr(); arm_sort_instance_f32 S; arm_sort_init_f32(&S, ARM_SORT_SELECTION, ARM_SORT_ASCENDING); arm_sort_f32(&S,inp,outp,this->nbSamples); ASSERT_EMPTY_TAIL(output); ASSERT_EQ(output,ref); } void SupportTestsF32::setUp(Testing::testID_t id,std::vector& paramsArgs,Client::PatternMgr *mgr) { (void)paramsArgs; switch(id) { case TEST_WEIGHTED_AVERAGE_F32_1: this->nbSamples = 3; input.reload(SupportTestsF32::INPUTS_F32_ID,mgr,this->nbSamples); coefs.reload(SupportTestsF32::WEIGHTS_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_F32_ID,mgr); output.create(1,SupportTestsF32::OUT_F32_ID,mgr); this->offset=0; break; case TEST_WEIGHTED_AVERAGE_F32_2: this->nbSamples = 8; input.reload(SupportTestsF32::INPUTS_F32_ID,mgr,this->nbSamples); coefs.reload(SupportTestsF32::WEIGHTS_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_F32_ID,mgr); output.create(1,SupportTestsF32::OUT_F32_ID,mgr); this->offset=1; break; case TEST_WEIGHTED_AVERAGE_F32_3: this->nbSamples = 11; input.reload(SupportTestsF32::INPUTS_F32_ID,mgr,this->nbSamples); coefs.reload(SupportTestsF32::WEIGHTS_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_F32_ID,mgr); output.create(1,SupportTestsF32::OUT_F32_ID,mgr); this->offset=2; break; case TEST_COPY_F32_4: this->nbSamples = 3; input.reload(SupportTestsF32::SAMPLES_F32_ID,mgr,this->nbSamples); output.create(input.nbSamples(),SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_COPY_F32_5: this->nbSamples = 8; input.reload(SupportTestsF32::SAMPLES_F32_ID,mgr,this->nbSamples); output.create(input.nbSamples(),SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_COPY_F32_6: this->nbSamples = 11; input.reload(SupportTestsF32::SAMPLES_F32_ID,mgr,this->nbSamples); output.create(input.nbSamples(),SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_FILL_F32_7: this->nbSamples = 3; output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_FILL_F32_8: this->nbSamples = 8; output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_FILL_F32_9: this->nbSamples = 11; output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_FLOAT_TO_Q15_10: this->nbSamples = 7; input.reload(SupportTestsF32::SAMPLES_F32_ID,mgr,this->nbSamples); refQ15.reload(SupportTestsF32::SAMPLES_Q15_ID,mgr,this->nbSamples); outputQ15.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_FLOAT_TO_Q15_11: this->nbSamples = 16; input.reload(SupportTestsF32::SAMPLES_F32_ID,mgr,this->nbSamples); refQ15.reload(SupportTestsF32::SAMPLES_Q15_ID,mgr,this->nbSamples); outputQ15.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_FLOAT_TO_Q15_12: this->nbSamples = 17; input.reload(SupportTestsF32::SAMPLES_F32_ID,mgr,this->nbSamples); refQ15.reload(SupportTestsF32::SAMPLES_Q15_ID,mgr,this->nbSamples); outputQ15.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_FLOAT_TO_Q31_13: this->nbSamples = 3; input.reload(SupportTestsF32::SAMPLES_F32_ID,mgr,this->nbSamples); refQ31.reload(SupportTestsF32::SAMPLES_Q31_ID,mgr,this->nbSamples); outputQ31.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_FLOAT_TO_Q31_14: this->nbSamples = 8; input.reload(SupportTestsF32::SAMPLES_F32_ID,mgr,this->nbSamples); refQ31.reload(SupportTestsF32::SAMPLES_Q31_ID,mgr,this->nbSamples); outputQ31.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_FLOAT_TO_Q31_15: this->nbSamples = 11; input.reload(SupportTestsF32::SAMPLES_F32_ID,mgr,this->nbSamples); refQ31.reload(SupportTestsF32::SAMPLES_Q31_ID,mgr,this->nbSamples); outputQ31.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_FLOAT_TO_Q7_16: this->nbSamples = 15; input.reload(SupportTestsF32::SAMPLES_F32_ID,mgr,this->nbSamples); refQ7.reload(SupportTestsF32::SAMPLES_Q7_ID,mgr,this->nbSamples); outputQ7.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_FLOAT_TO_Q7_17: this->nbSamples = 32; input.reload(SupportTestsF32::SAMPLES_F32_ID,mgr,this->nbSamples); refQ7.reload(SupportTestsF32::SAMPLES_Q7_ID,mgr,this->nbSamples); outputQ7.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_FLOAT_TO_Q7_18: this->nbSamples = 33; input.reload(SupportTestsF32::SAMPLES_F32_ID,mgr,this->nbSamples); refQ7.reload(SupportTestsF32::SAMPLES_Q7_ID,mgr,this->nbSamples); outputQ7.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_BITONIC_SORT_OUT_F32_19: this->nbSamples = 16; input.reload(SupportTestsF32::INPUT_BITONIC_SORT_16_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_BITONIC_SORT_16_F32_ID,mgr); output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_BITONIC_SORT_OUT_F32_20: this->nbSamples = 32; input.reload(SupportTestsF32::INPUT_BITONIC_SORT_32_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_BITONIC_SORT_32_F32_ID,mgr); output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_BITONIC_SORT_IN_F32_21: this->nbSamples = 32; input.reload(SupportTestsF32::INPUT_BITONIC_SORT_32_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_BITONIC_SORT_32_F32_ID,mgr); output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_BITONIC_SORT_CONST_F32_22: this->nbSamples = 16; input.reload(SupportTestsF32::INPUT_SORT_CONST_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_SORT_CONST_F32_ID,mgr); output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_BUBBLE_SORT_OUT_F32_23: this->nbSamples = 11; input.reload(SupportTestsF32::INPUT_SORT_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_SORT_F32_ID,mgr); output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_BUBBLE_SORT_IN_F32_24: this->nbSamples = 11; input.reload(SupportTestsF32::INPUT_SORT_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_SORT_F32_ID,mgr); output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_BUBBLE_SORT_CONST_F32_25: this->nbSamples = 16; input.reload(SupportTestsF32::INPUT_SORT_CONST_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_SORT_CONST_F32_ID,mgr); output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_HEAP_SORT_OUT_F32_26: this->nbSamples = 11; input.reload(SupportTestsF32::INPUT_SORT_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_SORT_F32_ID,mgr); output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_HEAP_SORT_IN_F32_27: this->nbSamples = 11; input.reload(SupportTestsF32::INPUT_SORT_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_SORT_F32_ID,mgr); output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_HEAP_SORT_CONST_F32_28: this->nbSamples = 16; input.reload(SupportTestsF32::INPUT_SORT_CONST_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_SORT_CONST_F32_ID,mgr); output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_INSERTION_SORT_OUT_F32_29: this->nbSamples = 11; input.reload(SupportTestsF32::INPUT_SORT_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_SORT_F32_ID,mgr); output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_INSERTION_SORT_IN_F32_30: this->nbSamples = 11; input.reload(SupportTestsF32::INPUT_SORT_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_SORT_F32_ID,mgr); output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_INSERTION_SORT_CONST_F32_31: this->nbSamples = 16; input.reload(SupportTestsF32::INPUT_SORT_CONST_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_SORT_CONST_F32_ID,mgr); output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_MERGE_SORT_OUT_F32_32: this->nbSamples = 11; input.reload(SupportTestsF32::INPUT_SORT_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_SORT_F32_ID,mgr); output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_MERGE_SORT_CONST_F32_33: this->nbSamples = 16; input.reload(SupportTestsF32::INPUT_SORT_CONST_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_SORT_CONST_F32_ID,mgr); output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_QUICK_SORT_OUT_F32_34: this->nbSamples = 11; input.reload(SupportTestsF32::INPUT_SORT_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_SORT_F32_ID,mgr); output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_QUICK_SORT_IN_F32_35: this->nbSamples = 11; input.reload(SupportTestsF32::INPUT_SORT_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_SORT_F32_ID,mgr); output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_QUICK_SORT_CONST_F32_36: this->nbSamples = 16; input.reload(SupportTestsF32::INPUT_SORT_CONST_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_SORT_CONST_F32_ID,mgr); output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_SELECTION_SORT_OUT_F32_37: this->nbSamples = 11; input.reload(SupportTestsF32::INPUT_SORT_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_SORT_F32_ID,mgr); output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_SELECTION_SORT_IN_F32_38: this->nbSamples = 11; input.reload(SupportTestsF32::INPUT_SORT_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_SORT_F32_ID,mgr); output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_SELECTION_SORT_CONST_F32_39: this->nbSamples = 16; input.reload(SupportTestsF32::INPUT_SORT_CONST_F32_ID,mgr,this->nbSamples); ref.reload(SupportTestsF32::REF_SORT_CONST_F32_ID,mgr); output.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_FLOAT_TO_F64_40: this->nbSamples = 7; input.reload(SupportTestsF32::SAMPLES_F32_ID,mgr,this->nbSamples); refF64.reload(SupportTestsF32::SAMPLES_F64_ID,mgr,this->nbSamples); outputF64.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_FLOAT_TO_F64_41: this->nbSamples = 16; input.reload(SupportTestsF32::SAMPLES_F32_ID,mgr,this->nbSamples); refF64.reload(SupportTestsF32::SAMPLES_F64_ID,mgr,this->nbSamples); outputF64.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; case TEST_FLOAT_TO_F64_42: this->nbSamples = 17; input.reload(SupportTestsF32::SAMPLES_F32_ID,mgr,this->nbSamples); refF64.reload(SupportTestsF32::SAMPLES_F64_ID,mgr,this->nbSamples); outputF64.create(this->nbSamples,SupportTestsF32::OUT_F32_ID,mgr); break; } } void SupportTestsF32::tearDown(Testing::testID_t id,Client::PatternMgr *mgr) { (void)id; output.dump(mgr); }