Coverage Report

Created: 2025-05-08 13:16

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
/home/liu/actions-runner/_work/ccv/ccv/test/int/nnc/unique_consecutive.tests.c
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Source
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#include "case.h"
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#include "ccv_case.h"
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#include "ccv_nnc_case.h"
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#include <ccv.h>
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#include <nnc/ccv_nnc.h>
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#include <nnc/ccv_nnc_easy.h>
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#include <3rdparty/dsfmt/dSFMT.h>
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TEST_SETUP()
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{
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  ccv_nnc_init();
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}
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TEST_CASE("unique consecutive a 1d tensor")
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{
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1
  GUARD_ELSE_RETURN(ccv_nnc_cmd_ok(CCV_NNC_UNIQUE_CONSECUTIVE_FORWARD, CCV_NNC_BACKEND_GPU_REF) || ccv_nnc_cmd_ok(CCV_NNC_UNIQUE_CONSECUTIVE_FORWARD, CCV_NNC_BACKEND_MPS));
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1
  float ap[] = {
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1
    2, 2, 2, 0, 0, 2, 2, 1, 1, 2, 3
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1
  };
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1
  ccv_nnc_tensor_t* const ha = ccv_nnc_tensor_new(ap, CPU_TENSOR_NHWC(32F, 11), 0);
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1
  ccv_nnc_tensor_t* const hb = ccv_nnc_tensor_new(0, CPU_TENSOR_NHWC(32F, 7), 0);
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1
  ccv_nnc_tensor_t* const hindices = ccv_nnc_tensor_new(0, CPU_TENSOR_NHWC(32S, 7), 0);
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1
  ccv_nnc_tensor_t* const a = ccv_nnc_tensor_new(0, GPU_TENSOR_NHWC(000, 32F, 11), 0);
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1
  ccv_nnc_tensor_t* const b = ccv_nnc_tensor_new(0, GPU_TENSOR_NHWC(000, 32F, 7), 0);
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1
  ccv_nnc_tensor_t* const indices = ccv_nnc_tensor_new(0, GPU_TENSOR_NHWC(000, 32S, 7), 0);
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1
  ccv_nnc_cmd_exec(CMD_DATA_TRANSFER_FORWARD(), ccv_nnc_no_hint, 0, TENSOR_LIST(ha), TENSOR_LIST(a), 0);
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  ccv_nnc_cmd_exec(CMD_UNIQUE_CONSECUTIVE_FORWARD(7), ccv_nnc_no_hint, 0, TENSOR_LIST(a), TENSOR_LIST(b, indices), 0);
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1
  ccv_nnc_cmd_exec(CMD_DATA_TRANSFER_FORWARD(), ccv_nnc_no_hint, 0, TENSOR_LIST(b, indices), TENSOR_LIST(hb, hindices), 0);
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1
  float btp[] = {
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1
    2, 0, 2, 1, 2, 3, -1
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1
  };
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1
  ccv_nnc_tensor_t const bt = ccv_nnc_tensor(btp, CPU_TENSOR_NHWC(32F, 7), 0);
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1
  REQUIRE_TENSOR_EQ(hb, &bt, "should be equal");
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1
  int indicestp[] = {
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1
    3, 2, 2, 2, 1, 1, 0
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1
  };
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1
  ccv_nnc_tensor_t const indicest = ccv_nnc_tensor(indicestp, CPU_TENSOR_NHWC(32S, 7), 0);
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1
  REQUIRE_TENSOR_EQ(hindices, &indicest, "should be equal");
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1
  ccv_nnc_tensor_free(a);
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1
  ccv_nnc_tensor_free(b);
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1
  ccv_nnc_tensor_free(indices);
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1
  ccv_nnc_tensor_free(ha);
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1
  ccv_nnc_tensor_free(hb);
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1
  ccv_nnc_tensor_free(hindices);
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1
}
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TEST_CASE("unique consecutive a 1d tensor, int")
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1
{
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  GUARD_ELSE_RETURN(ccv_nnc_cmd_ok(CCV_NNC_UNIQUE_CONSECUTIVE_FORWARD, CCV_NNC_BACKEND_GPU_REF) || ccv_nnc_cmd_ok(CCV_NNC_UNIQUE_CONSECUTIVE_FORWARD, CCV_NNC_BACKEND_MPS));
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1
  int ap[] = {
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1
    2, 2, 2, 0, 0, 2, 2, 1, 1, 2, 3
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1
  };
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1
  ccv_nnc_tensor_t* const ha = ccv_nnc_tensor_new(ap, CPU_TENSOR_NHWC(32S, 11), 0);
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1
  ccv_nnc_tensor_t* const hb = ccv_nnc_tensor_new(0, CPU_TENSOR_NHWC(32S, 7), 0);
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  ccv_nnc_tensor_t* const hindices = ccv_nnc_tensor_new(0, CPU_TENSOR_NHWC(32S, 7), 0);
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1
  ccv_nnc_tensor_t* const a = ccv_nnc_tensor_new(0, GPU_TENSOR_NHWC(000, 32S, 11), 0);
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1
  ccv_nnc_tensor_t* const b = ccv_nnc_tensor_new(0, GPU_TENSOR_NHWC(000, 32S, 7), 0);
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1
  ccv_nnc_tensor_t* const indices = ccv_nnc_tensor_new(0, GPU_TENSOR_NHWC(000, 32S, 7), 0);
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  ccv_nnc_cmd_exec(CMD_DATA_TRANSFER_FORWARD(), ccv_nnc_no_hint, 0, TENSOR_LIST(ha), TENSOR_LIST(a), 0);
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  ccv_nnc_cmd_exec(CMD_UNIQUE_CONSECUTIVE_FORWARD(7), ccv_nnc_no_hint, 0, TENSOR_LIST(a), TENSOR_LIST(b, indices), 0);
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  ccv_nnc_cmd_exec(CMD_DATA_TRANSFER_FORWARD(), ccv_nnc_no_hint, 0, TENSOR_LIST(b, indices), TENSOR_LIST(hb, hindices), 0);
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1
  int btp[] = {
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1
    2, 0, 2, 1, 2, 3, -1
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1
  };
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1
  ccv_nnc_tensor_t const bt = ccv_nnc_tensor(btp, CPU_TENSOR_NHWC(32S, 7), 0);
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  REQUIRE_TENSOR_EQ(hb, &bt, "should be equal");
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  int indicestp[] = {
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1
    3, 2, 2, 2, 1, 1, 0
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1
  };
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  ccv_nnc_tensor_t const indicest = ccv_nnc_tensor(indicestp, CPU_TENSOR_NHWC(32S, 7), 0);
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  REQUIRE_TENSOR_EQ(hindices, &indicest, "should be equal");
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  ccv_nnc_tensor_free(a);
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  ccv_nnc_tensor_free(b);
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  ccv_nnc_tensor_free(indices);
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  ccv_nnc_tensor_free(ha);
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  ccv_nnc_tensor_free(hb);
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  ccv_nnc_tensor_free(hindices);
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1
}
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TEST_CASE("unique consecutive a 1d tensor, int, same elements at end")
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{
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  GUARD_ELSE_RETURN(ccv_nnc_cmd_ok(CCV_NNC_UNIQUE_CONSECUTIVE_FORWARD, CCV_NNC_BACKEND_GPU_REF) || ccv_nnc_cmd_ok(CCV_NNC_UNIQUE_CONSECUTIVE_FORWARD, CCV_NNC_BACKEND_MPS));
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1
  int ap[] = {
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    2, 2, 2, 0, 0, 2, 2, 1, 3, 3, 3
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1
  };
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1
  ccv_nnc_tensor_t* const ha = ccv_nnc_tensor_new(ap, CPU_TENSOR_NHWC(32S, 11), 0);
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1
  ccv_nnc_tensor_t* const hb = ccv_nnc_tensor_new(0, CPU_TENSOR_NHWC(32S, 7), 0);
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  ccv_nnc_tensor_t* const hindices = ccv_nnc_tensor_new(0, CPU_TENSOR_NHWC(32S, 7), 0);
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  ccv_nnc_tensor_t* const a = ccv_nnc_tensor_new(0, GPU_TENSOR_NHWC(000, 32S, 11), 0);
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  ccv_nnc_tensor_t* const b = ccv_nnc_tensor_new(0, GPU_TENSOR_NHWC(000, 32S, 7), 0);
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  ccv_nnc_tensor_t* const indices = ccv_nnc_tensor_new(0, GPU_TENSOR_NHWC(000, 32S, 7), 0);
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  ccv_nnc_cmd_exec(CMD_DATA_TRANSFER_FORWARD(), ccv_nnc_no_hint, 0, TENSOR_LIST(ha), TENSOR_LIST(a), 0);
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  ccv_nnc_cmd_exec(CMD_UNIQUE_CONSECUTIVE_FORWARD(7), ccv_nnc_no_hint, 0, TENSOR_LIST(a), TENSOR_LIST(b, indices), 0);
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  ccv_nnc_cmd_exec(CMD_DATA_TRANSFER_FORWARD(), ccv_nnc_no_hint, 0, TENSOR_LIST(b, indices), TENSOR_LIST(hb, hindices), 0);
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1
  int btp[] = {
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    2, 0, 2, 1, 3, -1, -1
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1
  };
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  ccv_nnc_tensor_t const bt = ccv_nnc_tensor(btp, CPU_TENSOR_NHWC(32S, 7), 0);
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  REQUIRE_TENSOR_EQ(hb, &bt, "should be equal");
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  int indicestp[] = {
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1
    3, 2, 2, 1, 3, 0, 0
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  };
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  ccv_nnc_tensor_t const indicest = ccv_nnc_tensor(indicestp, CPU_TENSOR_NHWC(32S, 7), 0);
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  REQUIRE_TENSOR_EQ(hindices, &indicest, "should be equal");
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  ccv_nnc_tensor_free(a);
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  ccv_nnc_tensor_free(b);
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  ccv_nnc_tensor_free(indices);
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  ccv_nnc_tensor_free(ha);
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  ccv_nnc_tensor_free(hb);
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  ccv_nnc_tensor_free(hindices);
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}
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#include "case_main.h"