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Fix a bad input validation check.

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This commit is contained in:
David Reid
2018-03-31 15:46:42 +10:00
parent 72b28cc0bb
commit 322688d73e
2 changed files with 115 additions and 15 deletions
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tests/mal_test_0.c
+114 -14
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@@ -1290,7 +1290,6 @@ int do_channel_routing_tests()
mal_channel_router router;
mal_result result = mal_channel_router_init_separated(&routerConfig, channel_router_callback__passthrough_test, NULL, &router);
if (result == MAL_SUCCESS) {
// Expecing a passthrough.
if (!router.isPassthrough) {
printf("Failed to init router as passthrough.\n");
hasError = MAL_TRUE;
@@ -1338,7 +1337,6 @@ int do_channel_routing_tests()
mal_channel_router router;
mal_result result = mal_channel_router_init_separated(&routerConfig, channel_router_callback__passthrough_test, NULL, &router);
if (result == MAL_SUCCESS) {
// Expecing a shuffle, but not a passthrough.
if (router.isPassthrough) {
printf("Router incorrectly configured as a passthrough.\n");
hasError = MAL_TRUE;
@@ -1388,7 +1386,6 @@ int do_channel_routing_tests()
mal_channel_router router;
mal_result result = mal_channel_router_init_separated(&routerConfig, channel_router_callback__passthrough_test, NULL, &router);
if (result == MAL_SUCCESS) {
// Expecing a shuffle, but not a passthrough.
if (router.isPassthrough) {
printf("Router incorrectly configured as a passthrough.\n");
hasError = MAL_TRUE;
@@ -1435,7 +1432,6 @@ int do_channel_routing_tests()
mal_channel_router router;
mal_result result = mal_channel_router_init_separated(&routerConfig, channel_router_callback__passthrough_test, NULL, &router);
if (result == MAL_SUCCESS) {
// Expecing a shuffle, but not a passthrough.
if (router.isPassthrough) {
printf("Router incorrectly configured as a passthrough.\n");
hasError = MAL_TRUE;
@@ -1493,7 +1489,6 @@ int do_channel_routing_tests()
mal_channel_router router;
mal_result result = mal_channel_router_init_separated(&routerConfig, channel_router_callback__passthrough_test, NULL, &router);
if (result == MAL_SUCCESS) {
// Expecing a shuffle, but not a passthrough.
if (router.isPassthrough) {
printf("Router incorrectly configured as a passthrough.\n");
hasError = MAL_TRUE;
@@ -1505,14 +1500,14 @@ int do_channel_routing_tests()
float expectedWeights[MAL_MAX_CHANNELS][MAL_MAX_CHANNELS];
mal_zero_memory(expectedWeights, sizeof(expectedWeights));
expectedWeights[0][0] = 1.0f; // FRONT_LEFT -> FRONT_LEFT
expectedWeights[0][1] = 0.0f; // FRONT_LEFT -> FRONT_RIGHT
expectedWeights[0][2] = 0.5f; // FRONT_LEFT -> FRONT_CENTER
expectedWeights[0][3] = 0.0f; // FRONT_LEFT -> LFE
expectedWeights[0][4] = 0.25f; // FRONT_LEFT -> BACK_LEFT
expectedWeights[0][5] = 0.0f; // FRONT_LEFT -> BACK_RIGHT
expectedWeights[0][6] = 0.5f; // FRONT_LEFT -> SIDE_LEFT
expectedWeights[0][7] = 0.0f; // FRONT_LEFT -> SIDE_RIGHT
expectedWeights[0][0] = 1.0f; // FRONT_LEFT -> FRONT_LEFT
expectedWeights[0][1] = 0.0f; // FRONT_LEFT -> FRONT_RIGHT
expectedWeights[0][2] = 0.5f; // FRONT_LEFT -> FRONT_CENTER
expectedWeights[0][3] = 0.0f; // FRONT_LEFT -> LFE
expectedWeights[0][4] = 0.25f; // FRONT_LEFT -> BACK_LEFT
expectedWeights[0][5] = 0.0f; // FRONT_LEFT -> BACK_RIGHT
expectedWeights[0][6] = 0.5f; // FRONT_LEFT -> SIDE_LEFT
expectedWeights[0][7] = 0.0f; // FRONT_LEFT -> SIDE_RIGHT
expectedWeights[1][0] = 0.0f; // FRONT_RIGHT -> FRONT_LEFT
expectedWeights[1][1] = 1.0f; // FRONT_RIGHT -> FRONT_RIGHT
expectedWeights[1][2] = 0.5f; // FRONT_RIGHT -> FRONT_CENTER
@@ -1564,7 +1559,6 @@ int do_channel_routing_tests()
mal_channel_router router;
mal_result result = mal_channel_router_init_separated(&routerConfig, channel_router_callback__passthrough_test, NULL, &router);
if (result == MAL_SUCCESS) {
// Expecing a shuffle, but not a passthrough.
if (router.isPassthrough) {
printf("Router incorrectly configured as a passthrough.\n");
hasError = MAL_TRUE;
@@ -1611,6 +1605,112 @@ int do_channel_routing_tests()
}
}
printf("Mono -> 2.1 + None... ");
{
mal_channel_router_config routerConfig;
mal_zero_object(&routerConfig);
routerConfig.mixingMode = mal_channel_mix_mode_planar_blend;
// Use very specific mappings for this test.
routerConfig.channelsIn = 1;
routerConfig.channelMapIn[0] = MAL_CHANNEL_MONO;
routerConfig.channelsOut = 4;
routerConfig.channelMapOut[0] = MAL_CHANNEL_FRONT_LEFT;
routerConfig.channelMapOut[1] = MAL_CHANNEL_FRONT_RIGHT;
routerConfig.channelMapOut[2] = MAL_CHANNEL_NONE;
routerConfig.channelMapOut[3] = MAL_CHANNEL_LFE;
mal_channel_router router;
mal_result result = mal_channel_router_init_separated(&routerConfig, channel_router_callback__passthrough_test, NULL, &router);
if (result == MAL_SUCCESS) {
if (router.isPassthrough) {
printf("Router incorrectly configured as a passthrough.\n");
hasError = MAL_TRUE;
}
if (router.isSimpleShuffle) {
printf("Router incorrectly configured as a simple shuffle.\n");
hasError = MAL_TRUE;
}
float expectedWeights[MAL_MAX_CHANNELS][MAL_MAX_CHANNELS];
mal_zero_memory(expectedWeights, sizeof(expectedWeights));
expectedWeights[0][0] = 1.0f; // MONO -> FRONT_LEFT
expectedWeights[0][1] = 1.0f; // MONO -> FRONT_RIGHT
expectedWeights[0][2] = 0.0f; // MONO -> NONE
expectedWeights[0][3] = 0.0f; // MONO -> LFE
for (mal_uint32 iChannelIn = 0; iChannelIn < routerConfig.channelsIn; ++iChannelIn) {
for (mal_uint32 iChannelOut = 0; iChannelOut < routerConfig.channelsOut; ++iChannelOut) {
if (router.weights[iChannelIn][iChannelOut] != expectedWeights[iChannelIn][iChannelOut]) {
printf("Failed. Channel weight incorrect for [%d][%d]. Expected %f, got %f\n", iChannelIn, iChannelOut, expectedWeights[iChannelIn][iChannelOut], router.weights[iChannelIn][iChannelOut]);
hasError = MAL_TRUE;
}
}
}
} else {
printf("Failed to init router.\n");
hasError = MAL_TRUE;
}
if (!hasError) {
printf("PASSED\n");
}
}
printf("2.1 + None -> Mono... ");
{
mal_channel_router_config routerConfig;
mal_zero_object(&routerConfig);
routerConfig.mixingMode = mal_channel_mix_mode_planar_blend;
// Use very specific mappings for this test.
routerConfig.channelsIn = 4;
routerConfig.channelMapIn[0] = MAL_CHANNEL_FRONT_LEFT;
routerConfig.channelMapIn[1] = MAL_CHANNEL_FRONT_RIGHT;
routerConfig.channelMapIn[2] = MAL_CHANNEL_NONE;
routerConfig.channelMapIn[3] = MAL_CHANNEL_LFE;
routerConfig.channelsOut = 1;
routerConfig.channelMapOut[0] = MAL_CHANNEL_MONO;
mal_channel_router router;
mal_result result = mal_channel_router_init_separated(&routerConfig, channel_router_callback__passthrough_test, NULL, &router);
if (result == MAL_SUCCESS) {
if (router.isPassthrough) {
printf("Router incorrectly configured as a passthrough.\n");
hasError = MAL_TRUE;
}
if (router.isSimpleShuffle) {
printf("Router incorrectly configured as a simple shuffle.\n");
hasError = MAL_TRUE;
}
float expectedWeights[MAL_MAX_CHANNELS][MAL_MAX_CHANNELS];
mal_zero_memory(expectedWeights, sizeof(expectedWeights));
expectedWeights[0][0] = 0.5f; // FRONT_LEFT -> MONO
expectedWeights[1][0] = 0.5f; // FRONT_RIGHT -> MONO
expectedWeights[2][0] = 0.0f; // NONE -> MONO
expectedWeights[3][0] = 0.0f; // LFE -> MONO
for (mal_uint32 iChannelIn = 0; iChannelIn < routerConfig.channelsIn; ++iChannelIn) {
for (mal_uint32 iChannelOut = 0; iChannelOut < routerConfig.channelsOut; ++iChannelOut) {
if (router.weights[iChannelIn][iChannelOut] != expectedWeights[iChannelIn][iChannelOut]) {
printf("Failed. Channel weight incorrect for [%d][%d]. Expected %f, got %f\n", iChannelIn, iChannelOut, expectedWeights[iChannelIn][iChannelOut], router.weights[iChannelIn][iChannelOut]);
hasError = MAL_TRUE;
}
}
}
} else {
printf("Failed to init router.\n");
hasError = MAL_TRUE;
}
if (!hasError) {
printf("PASSED\n");
}
}
if (hasError) {
return -1;