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#include <string.h>
#include <kalmia.h>
#include "geometry.h"
#include "test/test.h"
LILY_FILE_BEGIN(geometry_suite)
LILY_TEST("fail to read non-float_array")
{
struct kai_tag_t *t = kai_parse_string(
"<non_float_array></non_float_array>"
);
struct ka_float_array_t arr;
int result = kai_read_float_array(&arr, t);
CHECK_EQ(result, -1, "%d");
kai_tag_destroy(t);
}
#include LILY_PUSH_TEST()
LILY_TEST("fail to read float_array without count attribute")
{
struct kai_tag_t *t = kai_parse_string(
"<float_array id=\"some id\">"
" blah blah internals"
"</float_array>"
);
struct ka_float_array_t arr;
int result = kai_read_float_array(&arr, t);
CHECK_EQ(result, -1, "%d");
kai_tag_destroy(t);
}
#include LILY_PUSH_TEST()
LILY_TEST("read normal float_array")
{
struct kai_tag_t *t = kai_parse_string(
"<float_array count=\"3\" id=\"arr\">"
" -0.5 0.0 0.5"
"</float_array>"
);
struct ka_float_array_t arr;
int result = kai_read_float_array(&arr, t);
REQUIRE_EQ(result, 0, "%d");
kai_tag_destroy(t);
REQUIRE_EQ(arr.count, 3, "%d");
CHECK_EQS(arr.id, "arr");
CHECK_EQ(arr.digits, 6, "%d");
CHECK_EQ(arr.magnitude, 38, "%d");
CHECK_EQF(arr.buf[0], -0.5, "%f");
CHECK_EQF(arr.buf[1], 0.0, "%f");
CHECK_EQF(arr.buf[2], 0.5, "%f");
free(arr.id);
free(arr.buf);
}
#include LILY_PUSH_TEST()
LILY_TEST("fail to read non-param tag")
{
struct kai_tag_t *t = kai_parse_string(
"<tag />"
);
struct ka_param_t param;
int result = kai_read_param(¶m, t);
CHECK_EQ(result, -1, "%d");
kai_tag_destroy(t);
}
#include LILY_PUSH_TEST()
LILY_TEST("fail to read param tag with no specified type")
{
struct kai_tag_t *t = kai_parse_string(
"<param />"
);
struct ka_param_t param;
int result = kai_read_param(¶m, t);
CHECK_EQ(result, -1, "%d");
kai_tag_destroy(t);
}
#include LILY_PUSH_TEST()
LILY_TEST("read param tag")
{
struct kai_tag_t *t = kai_parse_string(
"<param type=\"float\" name=\"x\" />"
);
struct ka_param_t param;
int result = kai_read_param(¶m, t);
kai_tag_destroy(t);
REQUIRE_EQ(result, 0, "%d");
CHECK_EQS(param.name, "x");
CHECK_EQ(param.sid, NULL, "%p");
CHECK_EQS(param.type, "float");
CHECK_EQ(param.semantic, NULL, "%p");
}
#include LILY_PUSH_TEST()
LILY_TEST("fail to read non-accessor tag")
{
struct kai_tag_t *t = kai_parse_string(
"<tag />"
);
struct ka_accessor_t accessor;
int result = kai_read_accessor(&accessor, t);
CHECK_EQ(result, -1, "%d");
kai_tag_destroy(t);
}
#include LILY_PUSH_TEST()
LILY_TEST("fail to read accessor tag with no specified count or source")
{
struct kai_tag_t *t = kai_parse_string(
"<accessor />"
);
struct ka_accessor_t accessor;
int result = kai_read_accessor(&accessor, t);
CHECK_EQ(result, -1, "%d");
kai_tag_destroy(t);
}
#include LILY_PUSH_TEST()
LILY_TEST("parse accessor")
{
struct kai_tag_t *t = kai_parse_string(
"<accessor source=\"some id\" count=\"6\" stride=\"3\">"
" <param type=\"float\" name=\"x\" />"
" <param type=\"float\" name=\"y\" />"
" <param type=\"float\" name=\"z\" />"
"</accessor>"
);
struct ka_accessor_t acc;
int result = kai_read_accessor(&acc, t);
kai_tag_destroy(t);
CHECK_EQ(result, 0, "%d");
CHECK_EQ(acc.count, 6, "%d");
CHECK_EQ(acc.offset, 0, "%d");
CHECK_EQS(acc.source, "some id");
CHECK_EQ(acc.stride, 3, "%d");
REQUIRE_EQ(acc.param_count, 3, "%d");
CHECK_EQS(acc.param[0].name, "x");
CHECK_EQS(acc.param[1].name, "y");
CHECK_EQS(acc.param[2].name, "z");
free(acc.source);
for (int i=0; i<3; i++) free(acc.param[i].name);
}
#include LILY_PUSH_TEST()
#define LILY_FILE_END
#include LILY_REGISTER_TESTS()
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