diff options
Diffstat (limited to '')
-rw-r--r-- | libglitter_compose_double.c | 354 | ||||
-rw-r--r-- | libglitter_compose_uint64.c | 11 |
2 files changed, 352 insertions, 13 deletions
diff --git a/libglitter_compose_double.c b/libglitter_compose_double.c index 53da733..0419f4a 100644 --- a/libglitter_compose_double.c +++ b/libglitter_compose_double.c @@ -114,15 +114,363 @@ libglitter_compose_double(double **outputs, const double *restrict input, size_t #else -# ifndef ONLY_INT_COMPATIBLE int main(void) { - return 0; /* TODO add test */ + double input[20 * 60]; + double output1[3 * 10 * 4]; + double output2[sizeof(output1) / sizeof(*output1)]; + double output3[sizeof(output1) / sizeof(*output1)]; + double zeroes[sizeof(input) / sizeof(*input)]; + double *outputs[3]; + LIBGLITTER_RENDER_CONTEXT *ctx; + uint8_t cellmap[12]; + uint8_t ncellvalues[3]; + size_t input_rowsize; + size_t output_rowsize; + size_t output_cellsize; + size_t wmul, hmul; + size_t i; + +#define OPOS(X, Y) ((Y) * output_rowsize * output_cellsize + (X) * output_cellsize) +#define IPOS(X, Y, IX, IY) (((Y) * hmul + (IY)) * input_rowsize + ((X) * wmul + (IX))) +#define V(VAL) ((double)(VAL)) +#define VV(VAL) (V(VAL) + (double)1 / 2) + + memset(zeroes, 0, sizeof(zeroes)); + + /* vstrips */ + for (i = 0; i < 2; i++) { + input_rowsize = 5 * 3; + output_rowsize = 10; + output_cellsize = 4; + wmul = 3; + hmul = 1; + ncellvalues[0] = 1; + ncellvalues[1] = 1; + ncellvalues[2] = 1; + cellmap[0] = !i ? 0 : 1; + cellmap[1] = !i ? 1 : 2; + cellmap[2] = !i ? 2 : 0; + outputs[0] = !i ? output1 : output3; + outputs[1] = !i ? output2 : output1; + outputs[2] = !i ? output3 : output2; + memset(input, 0, sizeof(input)); + memset(output1, 0, sizeof(output1)); + memset(output2, 0, sizeof(output2)); + memset(output3, 0, sizeof(output3)); + input[IPOS(0, 0, 0, 0)] = V(111); + input[IPOS(0, 0, 1, 0)] = V(112); + input[IPOS(0, 0, 2, 0)] = V(113); + input[IPOS(0, 1, 0, 0)] = V(121); + input[IPOS(0, 1, 1, 0)] = V(122); + input[IPOS(0, 1, 2, 0)] = V(123); + input[IPOS(1, 0, 0, 0)] = V(211); + input[IPOS(1, 0, 1, 0)] = V(212); + input[IPOS(1, 0, 2, 0)] = V(213); + input[IPOS(1, 1, 0, 0)] = V(221); + input[IPOS(1, 1, 1, 0)] = V(222); + input[IPOS(1, 1, 2, 0)] = V(223); + input[IPOS(2, 0, 0, 0)] = V(311); + input[IPOS(2, 0, 1, 0)] = V(312); + input[IPOS(2, 0, 2, 0)] = V(313); + input[IPOS(2, 1, 0, 0)] = V(321); + input[IPOS(2, 1, 1, 0)] = V(322); + input[IPOS(2, 1, 2, 0)] = V(323); + ctx = libglitter_create_render_context(3, input_rowsize, wmul, hmul, cellmap, ncellvalues); + ASSERT(ctx); + ASSERT(ctx->render_method == RENDER_METHOD_VSTRIPS); + libglitter_compose_double(outputs, input, output_rowsize, output_cellsize, 3, 2, ctx); + ASSERT(output1[OPOS(0, 0)] == V(111)); + ASSERT(output2[OPOS(0, 0)] == V(112)); + ASSERT(output3[OPOS(0, 0)] == V(113)); + ASSERT(output1[OPOS(0, 1)] == V(121)); + ASSERT(output2[OPOS(0, 1)] == V(122)); + ASSERT(output3[OPOS(0, 1)] == V(123)); + ASSERT(output1[OPOS(1, 0)] == V(211)); + ASSERT(output2[OPOS(1, 0)] == V(212)); + ASSERT(output3[OPOS(1, 0)] == V(213)); + ASSERT(output1[OPOS(1, 1)] == V(221)); + ASSERT(output2[OPOS(1, 1)] == V(222)); + ASSERT(output3[OPOS(1, 1)] == V(223)); + ASSERT(output1[OPOS(2, 0)] == V(311)); + ASSERT(output2[OPOS(2, 0)] == V(312)); + ASSERT(output3[OPOS(2, 0)] == V(313)); + ASSERT(output1[OPOS(2, 1)] == V(321)); + ASSERT(output2[OPOS(2, 1)] == V(322)); + ASSERT(output3[OPOS(2, 1)] == V(323)); + output1[OPOS(0, 0)] = 0; + output2[OPOS(0, 0)] = 0; + output3[OPOS(0, 0)] = 0; + output1[OPOS(0, 1)] = 0; + output2[OPOS(0, 1)] = 0; + output3[OPOS(0, 1)] = 0; + output1[OPOS(1, 0)] = 0; + output2[OPOS(1, 0)] = 0; + output3[OPOS(1, 0)] = 0; + output1[OPOS(1, 1)] = 0; + output2[OPOS(1, 1)] = 0; + output3[OPOS(1, 1)] = 0; + output1[OPOS(2, 0)] = 0; + output2[OPOS(2, 0)] = 0; + output3[OPOS(2, 0)] = 0; + output1[OPOS(2, 1)] = 0; + output2[OPOS(2, 1)] = 0; + output3[OPOS(2, 1)] = 0; + ASSERT(!memcmp(output1, zeroes, sizeof(output1))); + ASSERT(!memcmp(output2, zeroes, sizeof(output2))); + ASSERT(!memcmp(output3, zeroes, sizeof(output3))); + libglitter_free_render_context(ctx); + } + + /* hstrips */ + for (i = 0; i < 2; i++) { + input_rowsize = 5; + output_rowsize = 10; + output_cellsize = 4; + wmul = 1; + hmul = 3; + ncellvalues[0] = 1; + ncellvalues[1] = 1; + ncellvalues[2] = 1; + cellmap[0] = !i ? 0 : 1; + cellmap[1] = !i ? 1 : 2; + cellmap[2] = !i ? 2 : 0; + outputs[0] = !i ? output1 : output3; + outputs[1] = !i ? output2 : output1; + outputs[2] = !i ? output3 : output2; + memset(input, 0, sizeof(input)); + memset(output1, 0, sizeof(output1)); + memset(output2, 0, sizeof(output2)); + memset(output3, 0, sizeof(output3)); + input[IPOS(0, 0, 0, 0)] = V(111); + input[IPOS(0, 0, 0, 1)] = V(112); + input[IPOS(0, 0, 0, 2)] = V(113); + input[IPOS(1, 0, 0, 0)] = V(121); + input[IPOS(1, 0, 0, 1)] = V(122); + input[IPOS(1, 0, 0, 2)] = V(123); + input[IPOS(0, 1, 0, 0)] = V(211); + input[IPOS(0, 1, 0, 1)] = V(212); + input[IPOS(0, 1, 0, 2)] = V(213); + input[IPOS(1, 1, 0, 0)] = V(221); + input[IPOS(1, 1, 0, 1)] = V(222); + input[IPOS(1, 1, 0, 2)] = V(223); + input[IPOS(0, 2, 0, 0)] = V(311); + input[IPOS(0, 2, 0, 1)] = V(312); + input[IPOS(0, 2, 0, 2)] = V(313); + input[IPOS(1, 2, 0, 0)] = V(321); + input[IPOS(1, 2, 0, 1)] = V(322); + input[IPOS(1, 2, 0, 2)] = V(323); + ctx = libglitter_create_render_context(3, input_rowsize, wmul, hmul, cellmap, ncellvalues); + ASSERT(ctx); + ASSERT(ctx->render_method == RENDER_METHOD_HSTRIPS); + libglitter_compose_double(outputs, input, output_rowsize, output_cellsize, 2, 3, ctx); + ASSERT(output1[OPOS(0, 0)] == V(111)); + ASSERT(output2[OPOS(0, 0)] == V(112)); + ASSERT(output3[OPOS(0, 0)] == V(113)); + ASSERT(output1[OPOS(1, 0)] == V(121)); + ASSERT(output2[OPOS(1, 0)] == V(122)); + ASSERT(output3[OPOS(1, 0)] == V(123)); + ASSERT(output1[OPOS(0, 1)] == V(211)); + ASSERT(output2[OPOS(0, 1)] == V(212)); + ASSERT(output3[OPOS(0, 1)] == V(213)); + ASSERT(output1[OPOS(1, 1)] == V(221)); + ASSERT(output2[OPOS(1, 1)] == V(222)); + ASSERT(output3[OPOS(1, 1)] == V(223)); + ASSERT(output1[OPOS(0, 2)] == V(311)); + ASSERT(output2[OPOS(0, 2)] == V(312)); + ASSERT(output3[OPOS(0, 2)] == V(313)); + ASSERT(output1[OPOS(1, 2)] == V(321)); + ASSERT(output2[OPOS(1, 2)] == V(322)); + ASSERT(output3[OPOS(1, 2)] == V(323)); + output1[OPOS(0, 0)] = 0; + output2[OPOS(0, 0)] = 0; + output3[OPOS(0, 0)] = 0; + output1[OPOS(1, 0)] = 0; + output2[OPOS(1, 0)] = 0; + output3[OPOS(1, 0)] = 0; + output1[OPOS(0, 1)] = 0; + output2[OPOS(0, 1)] = 0; + output3[OPOS(0, 1)] = 0; + output1[OPOS(1, 1)] = 0; + output2[OPOS(1, 1)] = 0; + output3[OPOS(1, 1)] = 0; + output1[OPOS(0, 2)] = 0; + output2[OPOS(0, 2)] = 0; + output3[OPOS(0, 2)] = 0; + output1[OPOS(1, 2)] = 0; + output2[OPOS(1, 2)] = 0; + output3[OPOS(1, 2)] = 0; + ASSERT(!memcmp(output1, zeroes, sizeof(output1))); + ASSERT(!memcmp(output2, zeroes, sizeof(output2))); + ASSERT(!memcmp(output3, zeroes, sizeof(output3))); + libglitter_free_render_context(ctx); + } + + /* simple */ + for (i = 0; i < 2; i++) { + input_rowsize = 14; + output_rowsize = 4; + output_cellsize = 2; + wmul = !i ? 4 : 1; + hmul = !i ? 1 : 4; + ncellvalues[0] = !i ? 1 : 2; + ncellvalues[1] = !i ? 1 : 1; + ncellvalues[2] = !i ? 2 : 1; + cellmap[0] = !i ? 0 : 1; + cellmap[1] = !i ? 1 : 2; + cellmap[2] = !i ? 2 : 0; + cellmap[3] = !i ? 2 : 0; + outputs[0] = !i ? output1 : output3; + outputs[1] = !i ? output2 : output1; + outputs[2] = !i ? output3 : output2; + memset(input, 0, sizeof(input)); + memset(output1, 0, sizeof(output1)); + memset(output2, 0, sizeof(output2)); + memset(output3, 0, sizeof(output3)); + input[IPOS(0, 0, !i ? 0 : 0, i ? 0 : 0)] = V(111); + input[IPOS(0, 0, !i ? 1 : 0, i ? 1 : 0)] = V(112); + input[IPOS(0, 0, !i ? 2 : 0, i ? 2 : 0)] = V(113); + input[IPOS(0, 0, !i ? 3 : 0, i ? 3 : 0)] = V(115); + input[IPOS(1, 0, !i ? 0 : 0, i ? 0 : 0)] = V(121); + input[IPOS(1, 0, !i ? 1 : 0, i ? 1 : 0)] = V(122); + input[IPOS(1, 0, !i ? 2 : 0, i ? 2 : 0)] = V(123); + input[IPOS(1, 0, !i ? 3 : 0, i ? 3 : 0)] = V(124); + input[IPOS(0, 1, !i ? 0 : 0, i ? 0 : 0)] = V(211); + input[IPOS(0, 1, !i ? 1 : 0, i ? 1 : 0)] = V(212); + input[IPOS(0, 1, !i ? 2 : 0, i ? 2 : 0)] = V(213); + input[IPOS(0, 1, !i ? 3 : 0, i ? 3 : 0)] = V(215); + input[IPOS(1, 1, !i ? 0 : 0, i ? 0 : 0)] = V(221); + input[IPOS(1, 1, !i ? 1 : 0, i ? 1 : 0)] = V(222); + input[IPOS(1, 1, !i ? 2 : 0, i ? 2 : 0)] = V(223); + input[IPOS(1, 1, !i ? 3 : 0, i ? 3 : 0)] = V(224); + input[IPOS(0, 2, !i ? 0 : 0, i ? 0 : 0)] = V(311); + input[IPOS(0, 2, !i ? 1 : 0, i ? 1 : 0)] = V(312); + input[IPOS(0, 2, !i ? 2 : 0, i ? 2 : 0)] = V(313); + input[IPOS(0, 2, !i ? 3 : 0, i ? 3 : 0)] = V(315); + input[IPOS(1, 2, !i ? 0 : 0, i ? 0 : 0)] = V(321); + input[IPOS(1, 2, !i ? 1 : 0, i ? 1 : 0)] = V(322); + input[IPOS(1, 2, !i ? 2 : 0, i ? 2 : 0)] = V(323); + input[IPOS(1, 2, !i ? 3 : 0, i ? 3 : 0)] = V(324); + ctx = libglitter_create_render_context(3, input_rowsize, wmul, hmul, cellmap, ncellvalues); + ASSERT(ctx); + ASSERT(ctx->render_method == RENDER_METHOD_SIMPLE); + libglitter_compose_double(outputs, input, output_rowsize, output_cellsize, 2, 3, ctx); + ASSERT(output1[OPOS(0, 0)] == V(111)); + ASSERT(output2[OPOS(0, 0)] == V(112)); + ASSERT(output3[OPOS(0, 0)] == V(114)); + ASSERT(output1[OPOS(1, 0)] == V(121)); + ASSERT(output2[OPOS(1, 0)] == V(122)); + ASSERT(output3[OPOS(1, 0)] == VV(123)); + ASSERT(output1[OPOS(0, 1)] == V(211)); + ASSERT(output2[OPOS(0, 1)] == V(212)); + ASSERT(output3[OPOS(0, 1)] == V(214)); + ASSERT(output1[OPOS(1, 1)] == V(221)); + ASSERT(output2[OPOS(1, 1)] == V(222)); + ASSERT(output3[OPOS(1, 1)] == VV(223)); + ASSERT(output1[OPOS(0, 2)] == V(311)); + ASSERT(output2[OPOS(0, 2)] == V(312)); + ASSERT(output3[OPOS(0, 2)] == V(314)); + ASSERT(output1[OPOS(1, 2)] == V(321)); + ASSERT(output2[OPOS(1, 2)] == V(322)); + ASSERT(output3[OPOS(1, 2)] == VV(323)); + output1[OPOS(0, 0)] = 0; + output2[OPOS(0, 0)] = 0; + output3[OPOS(0, 0)] = 0; + output1[OPOS(1, 0)] = 0; + output2[OPOS(1, 0)] = 0; + output3[OPOS(1, 0)] = 0; + output1[OPOS(0, 1)] = 0; + output2[OPOS(0, 1)] = 0; + output3[OPOS(0, 1)] = 0; + output1[OPOS(1, 1)] = 0; + output2[OPOS(1, 1)] = 0; + output3[OPOS(1, 1)] = 0; + output1[OPOS(0, 2)] = 0; + output2[OPOS(0, 2)] = 0; + output3[OPOS(0, 2)] = 0; + output1[OPOS(1, 2)] = 0; + output2[OPOS(1, 2)] = 0; + output3[OPOS(1, 2)] = 0; + ASSERT(!memcmp(output1, zeroes, sizeof(output1))); + ASSERT(!memcmp(output2, zeroes, sizeof(output2))); + ASSERT(!memcmp(output3, zeroes, sizeof(output3))); + libglitter_free_render_context(ctx); + } + + /* generic */ + for (i = 0; i < 1; i++) { + input_rowsize = 14; + output_rowsize = 4; + output_cellsize = 2; + wmul = !i ? 3 : 1; + hmul = !i ? 1 : 3; + ncellvalues[0] = !i ? 1 : 2; + ncellvalues[1] = !i ? 2 : 1; + cellmap[0] = !i ? 0 : 1; + cellmap[1] = !i ? 1 : 0; + cellmap[2] = !i ? 1 : 0; + outputs[0] = !i ? output1 : output2; + outputs[1] = !i ? output2 : output1; + outputs[2] = NULL; + memset(input, 0, sizeof(input)); + memset(output1, 0, sizeof(output1)); + memset(output2, 0, sizeof(output2)); + input[IPOS(0, 0, !i ? 0 : 0, i ? 0 : 0)] = V(111); + input[IPOS(0, 0, !i ? 1 : 0, i ? 1 : 0)] = V(112); + input[IPOS(0, 0, !i ? 2 : 0, i ? 2 : 0)] = V(114); + input[IPOS(1, 0, !i ? 0 : 0, i ? 0 : 0)] = V(121); + input[IPOS(1, 0, !i ? 1 : 0, i ? 1 : 0)] = V(122); + input[IPOS(1, 0, !i ? 2 : 0, i ? 2 : 0)] = V(123); + input[IPOS(0, 1, !i ? 0 : 0, i ? 0 : 0)] = V(211); + input[IPOS(0, 1, !i ? 1 : 0, i ? 1 : 0)] = V(212); + input[IPOS(0, 1, !i ? 2 : 0, i ? 2 : 0)] = V(214); + input[IPOS(1, 1, !i ? 0 : 0, i ? 0 : 0)] = V(221); + input[IPOS(1, 1, !i ? 1 : 0, i ? 1 : 0)] = V(222); + input[IPOS(1, 1, !i ? 2 : 0, i ? 2 : 0)] = V(223); + input[IPOS(0, 2, !i ? 0 : 0, i ? 0 : 0)] = V(311); + input[IPOS(0, 2, !i ? 1 : 0, i ? 1 : 0)] = V(312); + input[IPOS(0, 2, !i ? 2 : 0, i ? 2 : 0)] = V(314); + input[IPOS(1, 2, !i ? 0 : 0, i ? 0 : 0)] = V(321); + input[IPOS(1, 2, !i ? 1 : 0, i ? 1 : 0)] = V(322); + input[IPOS(1, 2, !i ? 2 : 0, i ? 2 : 0)] = V(323); + ctx = libglitter_create_render_context(2, input_rowsize, wmul, hmul, cellmap, ncellvalues); + ASSERT(ctx); + ASSERT(ctx->render_method == RENDER_METHOD_GENERIC); + libglitter_compose_double(outputs, input, output_rowsize, output_cellsize, 2, 3, ctx); + ASSERT(output1[OPOS(0, 0)] == V(111)); + ASSERT(output2[OPOS(0, 0)] == V(113)); + ASSERT(output1[OPOS(1, 0)] == V(121)); + ASSERT(output2[OPOS(1, 0)] == VV(122)); + ASSERT(output1[OPOS(0, 1)] == V(211)); + ASSERT(output2[OPOS(0, 1)] == V(213)); + ASSERT(output1[OPOS(1, 1)] == V(221)); + ASSERT(output2[OPOS(1, 1)] == VV(222)); + ASSERT(output1[OPOS(0, 2)] == V(311)); + ASSERT(output2[OPOS(0, 2)] == V(313)); + ASSERT(output1[OPOS(1, 2)] == V(321)); + ASSERT(output2[OPOS(1, 2)] == VV(322)); + output1[OPOS(0, 0)] = 0; + output2[OPOS(0, 0)] = 0; + output1[OPOS(1, 0)] = 0; + output2[OPOS(1, 0)] = 0; + output1[OPOS(0, 1)] = 0; + output2[OPOS(0, 1)] = 0; + output1[OPOS(1, 1)] = 0; + output2[OPOS(1, 1)] = 0; + output1[OPOS(0, 2)] = 0; + output2[OPOS(0, 2)] = 0; + output1[OPOS(1, 2)] = 0; + output2[OPOS(1, 2)] = 0; + ASSERT(!memcmp(output1, zeroes, sizeof(output1))); + ASSERT(!memcmp(output2, zeroes, sizeof(output2))); + libglitter_free_render_context(ctx); + } + + return 0; } -# endif #endif diff --git a/libglitter_compose_uint64.c b/libglitter_compose_uint64.c index 6784055..323f10b 100644 --- a/libglitter_compose_uint64.c +++ b/libglitter_compose_uint64.c @@ -2,6 +2,7 @@ #include "common.h" #define ONLY_INT_COMPATIBLE #define double uint64_t +#define libglitter_compose_double libglitter_compose_uint64 #include "libglitter_compose_double.c" #ifdef greater_t # define MIX(A, B) (((greater_t)(A) + (greater_t)(B)) >> 1) @@ -93,14 +94,4 @@ libglitter_compose_uint64(uint64_t **outputs, const uint64_t *restrict input, si } -#else - - -int -main(void) -{ - return 0; /* TODO add test */ -} - - #endif |