Remove dependency on MA_MAX_CHANNELS from ma_noise.

miniaudio.h

@@ -7614,6 +7614,7 @@ typedef enum
     ma_noise_type_brownian
 } ma_noise_type;
 
+
 typedef struct
 {
     ma_format format;
@@ -7635,19 +7636,25 @@ typedef struct
     {
         struct
         {
-            double bin[MA_MAX_CHANNELS][16];
-            double accumulation[MA_MAX_CHANNELS];
-            ma_uint32 counter[MA_MAX_CHANNELS];
+            double** bin;
+            double* accumulation;
+            ma_uint32* counter;
         } pink;
         struct
         {
-            double accumulation[MA_MAX_CHANNELS];
+            double* accumulation;
         } brownian;
     } state;
+
+    /* Memory management. */
+    void* _pHeap;
+    ma_bool32 _ownsHeap;
 } ma_noise;
 
-MA_API ma_result ma_noise_init(const ma_noise_config* pConfig, ma_noise* pNoise);
-MA_API void ma_noise_uninit(ma_noise* pNoise);
+MA_API ma_result ma_noise_get_heap_size(const ma_noise_config* pConfig, size_t* pHeapSizeInBytes);
+MA_API ma_result ma_noise_init_preallocated(const ma_noise_config* pConfig, void* pHeap, ma_noise* pNoise);
+MA_API ma_result ma_noise_init(const ma_noise_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_noise* pNoise);
+MA_API void ma_noise_uninit(ma_noise* pNoise, const ma_allocation_callbacks* pAllocationCallbacks);
 MA_API ma_result ma_noise_read_pcm_frames(ma_noise* pNoise, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead);
 MA_API ma_result ma_noise_set_amplitude(ma_noise* pNoise, double amplitude);
 MA_API ma_result ma_noise_set_seed(ma_noise* pNoise, ma_int32 seed);
@@ -57432,10 +57439,95 @@ static ma_data_source_vtable g_ma_noise_data_source_vtable =
     NULL    /* onGetLength. No notion of a length for noise. */
 };
 
-MA_API ma_result ma_noise_init(const ma_noise_config* pConfig, ma_noise* pNoise)
+
+#ifndef MA_PINK_NOISE_BIN_SIZE
+#define MA_PINK_NOISE_BIN_SIZE 16
+#endif
+
+typedef struct
+{
+    size_t sizeInBytes;
+    struct
+    {
+        size_t binOffset;
+        size_t accumulationOffset;
+        size_t counterOffset;
+    } pink;
+    struct
+    {
+        size_t accumulationOffset;
+    } brownian;
+} ma_noise_heap_layout;
+
+static ma_result ma_noise_get_heap_layout(const ma_noise_config* pConfig, ma_noise_heap_layout* pHeapLayout)
+{
+    MA_ASSERT(pHeapLayout != NULL);
+
+    MA_ZERO_OBJECT(pHeapLayout);
+
+    if (pConfig == NULL) {
+        return MA_INVALID_ARGS;
+    }
+
+    if (pConfig->channels == 0) {
+        return MA_INVALID_ARGS;
+    }
+
+    pHeapLayout->sizeInBytes = 0;
+
+    /* Pink. */
+    if (pConfig->type == ma_noise_type_pink) {
+        /* bin */
+        pHeapLayout->pink.binOffset = pHeapLayout->sizeInBytes;
+        pHeapLayout->sizeInBytes += sizeof(double*) * pConfig->channels;
+        pHeapLayout->sizeInBytes += sizeof(double ) * pConfig->channels * MA_PINK_NOISE_BIN_SIZE;
+
+        /* accumulation */
+        pHeapLayout->pink.accumulationOffset = pHeapLayout->sizeInBytes;
+        pHeapLayout->sizeInBytes += sizeof(double) * pConfig->channels;
+
+        /* counter */
+        pHeapLayout->pink.counterOffset = pHeapLayout->sizeInBytes;
+        pHeapLayout->sizeInBytes += sizeof(ma_uint32) * pConfig->channels;
+    }
+
+    /* Brownian. */
+    if (pConfig->type == ma_noise_type_brownian) {
+        /* accumulation */
+        pHeapLayout->brownian.accumulationOffset = pHeapLayout->sizeInBytes;
+        pHeapLayout->sizeInBytes += sizeof(double) * pConfig->channels;
+    }
+
+    return MA_SUCCESS;
+}
+
+MA_API ma_result ma_noise_get_heap_size(const ma_noise_config* pConfig, size_t* pHeapSizeInBytes)
+{
+    ma_result result;
+    ma_noise_heap_layout heapLayout;
+    
+    if (pHeapSizeInBytes == NULL) {
+        return MA_INVALID_ARGS;
+    }
+
+    *pHeapSizeInBytes = 0;
+
+    result = ma_noise_get_heap_layout(pConfig, &heapLayout);
+    if (result != MA_SUCCESS) {
+        return result;
+    }
+
+    *pHeapSizeInBytes = heapLayout.sizeInBytes;
+
+    return MA_SUCCESS;
+}
+
+MA_API ma_result ma_noise_init_preallocated(const ma_noise_config* pConfig, void* pHeap, ma_noise* pNoise)
 {
     ma_result result;
+    ma_noise_heap_layout heapLayout;
     ma_data_source_config dataSourceConfig;
+    ma_uint32 iChannel;
 
     if (pNoise == NULL) {
         return MA_INVALID_ARGS;
@@ -57443,13 +57535,13 @@ MA_API ma_result ma_noise_init(const ma_noise_config* pConfig, ma_noise* pNoise)
 
     MA_ZERO_OBJECT(pNoise);
 
-    if (pConfig == NULL) {
-        return MA_INVALID_ARGS;
+    result = ma_noise_get_heap_layout(pConfig, &heapLayout);
+    if (result != MA_SUCCESS) {
+        return result;
     }
 
-    if (pConfig->channels == 0) {
-        return MA_INVALID_ARGS;
-    }
+    pNoise->_pHeap = pHeap;
+    MA_ZERO_MEMORY(pNoise->_pHeap, heapLayout.sizeInBytes);
 
     dataSourceConfig = ma_data_source_config_init();
     dataSourceConfig.vtable = &g_ma_noise_data_source_vtable;
@@ -57463,15 +57555,20 @@ MA_API ma_result ma_noise_init(const ma_noise_config* pConfig, ma_noise* pNoise)
     ma_lcg_seed(&pNoise->lcg, pConfig->seed);
 
     if (pNoise->config.type == ma_noise_type_pink) {
-        ma_uint32 iChannel;
+        pNoise->state.pink.bin          = (double**  )ma_offset_ptr(pHeap, heapLayout.pink.binOffset);
+        pNoise->state.pink.accumulation = (double*   )ma_offset_ptr(pHeap, heapLayout.pink.accumulationOffset);
+        pNoise->state.pink.counter      = (ma_uint32*)ma_offset_ptr(pHeap, heapLayout.pink.counterOffset);
+        
         for (iChannel = 0; iChannel < pConfig->channels; iChannel += 1) {
+            pNoise->state.pink.bin[iChannel]          = (double*)ma_offset_ptr(pHeap, heapLayout.pink.binOffset + (sizeof(double*) * pConfig->channels) + (sizeof(double) * MA_PINK_NOISE_BIN_SIZE * iChannel));
             pNoise->state.pink.accumulation[iChannel] = 0;
             pNoise->state.pink.counter[iChannel]      = 1;
         }
     }
 
     if (pNoise->config.type == ma_noise_type_brownian) {
-        ma_uint32 iChannel;
+        pNoise->state.brownian.accumulation = (double*)ma_offset_ptr(pHeap, heapLayout.brownian.accumulationOffset);
+
         for (iChannel = 0; iChannel < pConfig->channels; iChannel += 1) {
             pNoise->state.brownian.accumulation[iChannel] = 0;
         }
@@ -57480,13 +57577,47 @@ MA_API ma_result ma_noise_init(const ma_noise_config* pConfig, ma_noise* pNoise)
     return MA_SUCCESS;
 }
 
-MA_API void ma_noise_uninit(ma_noise* pNoise)
+MA_API ma_result ma_noise_init(const ma_noise_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_noise* pNoise)
+{
+    ma_result result;
+    size_t heapSizeInBytes;
+    void* pHeap;
+
+    result = ma_noise_get_heap_size(pConfig, &heapSizeInBytes);
+    if (result != MA_SUCCESS) {
+        return result;
+    }
+
+    if (heapSizeInBytes > 0) {
+        pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks);
+        if (pHeap == NULL) {
+            return MA_OUT_OF_MEMORY;
+        }
+    } else {
+        pHeap = NULL;
+    }
+
+    result = ma_noise_init_preallocated(pConfig, pHeap, pNoise);
+    if (result != MA_SUCCESS) {
+        ma_free(pHeap, pAllocationCallbacks);
+        return result;
+    }
+
+    pNoise->_ownsHeap = MA_TRUE;
+    return MA_SUCCESS;
+}
+
+MA_API void ma_noise_uninit(ma_noise* pNoise, const ma_allocation_callbacks* pAllocationCallbacks)
 {
     if (pNoise == NULL) {
         return;
     }
 
     ma_data_source_uninit(&pNoise->ds);
+
+    if (pNoise->_ownsHeap) {
+        ma_free(pNoise->_pHeap, pAllocationCallbacks);
+    }
 }
 
 MA_API ma_result ma_noise_set_amplitude(ma_noise* pNoise, double amplitude)
@@ -57629,7 +57760,7 @@ static MA_INLINE float ma_noise_f32_pink(ma_noise* pNoise, ma_uint32 iChannel)
     double binNext;
     unsigned int ibin;
 
-    ibin = ma_tzcnt32(pNoise->state.pink.counter[iChannel]) & (ma_countof(pNoise->state.pink.bin[0]) - 1);
+    ibin = ma_tzcnt32(pNoise->state.pink.counter[iChannel]) & (MA_PINK_NOISE_BIN_SIZE - 1);
 
     binPrev = pNoise->state.pink.bin[iChannel][ibin];
     binNext = ma_lcg_rand_f64(&pNoise->lcg);

tests/test_common/ma_test_common.c

-/* Make sure we include the Speex resampler so we can test it. */
-#define MINIAUDIO_SPEEX_RESAMPLER_IMPLEMENTATION
-#include "../../extras/speex_resampler/ma_speex_resampler.h"
-
 #define MINIAUDIO_IMPLEMENTATION
 #include "../../miniaudio.h"
 

tests/test_deviceio/ma_test_deviceio.c

@@ -235,13 +235,12 @@ ma_bool32 try_parse_noise(const char* arg, ma_noise_type* pNoiseType)
 ma_result print_device_info(ma_context* pContext, ma_device_type deviceType, const ma_device_info* pDeviceInfo)
 {
     ma_result result;
-    ma_uint32 iFormat;
     ma_device_info detailedDeviceInfo;
 
     MA_ASSERT(pDeviceInfo != NULL);
 
 #if 1
-    result = ma_context_get_device_info(pContext, deviceType, &pDeviceInfo->id, ma_share_mode_shared, &detailedDeviceInfo);
+    result = ma_context_get_device_info(pContext, deviceType, &pDeviceInfo->id, &detailedDeviceInfo);
     if (result != MA_SUCCESS) {
         return result;
     }
@@ -249,6 +248,11 @@ ma_result print_device_info(ma_context* pContext, ma_device_type deviceType, con
     detailedDeviceInfo = *pDeviceInfo;
 #endif
 
+    /* TODO: Update this to print the new device info structure. */
+    #if 0
+    {
+        ma_uint32 iFormat;
+
         printf("%s\n", pDeviceInfo->name);
         printf("    Default:         %s\n", (detailedDeviceInfo.isDefault) ? "Yes" : "No");
         printf("    Min Channels:    %d\n", detailedDeviceInfo.minChannels);
@@ -260,6 +264,8 @@ ma_result print_device_info(ma_context* pContext, ma_device_type deviceType, con
             printf("        %s\n", ma_get_format_name(detailedDeviceInfo.formats[iFormat]));
         }
         printf("\n");
+    }
+    #endif
 
     return MA_SUCCESS;
 }
@@ -299,10 +305,9 @@ ma_result enumerate_devices(ma_context* pContext)
     return MA_SUCCESS;
 }
 
-void on_log(ma_context* pContext, ma_device* pDevice, ma_uint32 logLevel, const char* message)
+void on_log(void* pUserData, ma_uint32 logLevel, const char* message)
 {
-    (void)pContext;
-    (void)pDevice;
+    (void)pUserData;
 
     printf("%s: %s\n", ma_log_level_to_string(logLevel), message);
 }
@@ -321,11 +326,11 @@ void on_data(ma_device* pDevice, void* pFramesOut, const void* pFramesIn, ma_uin
         {
             /* In the playback case we just read from our input source. */
             if (g_State.sourceType == source_type_decoder) {
-                ma_decoder_read_pcm_frames(&g_State.decoder, pFramesOut, frameCount);
+                ma_decoder_read_pcm_frames(&g_State.decoder, pFramesOut, frameCount, NULL);
             } else if (g_State.sourceType == source_type_waveform) {
-                ma_waveform_read_pcm_frames(&g_State.waveform, pFramesOut, frameCount);
+                ma_waveform_read_pcm_frames(&g_State.waveform, pFramesOut, frameCount, NULL);
             } else if (g_State.sourceType == source_type_noise) {
-                ma_noise_read_pcm_frames(&g_State.noise, pFramesOut, frameCount);
+                ma_noise_read_pcm_frames(&g_State.noise, pFramesOut, frameCount, NULL);
             }
         } break;
 
@@ -333,7 +338,7 @@ void on_data(ma_device* pDevice, void* pFramesOut, const void* pFramesIn, ma_uin
         case ma_device_type_loopback:
         {
             /* In the capture and loopback cases we just output straight to a file. */
-            ma_encoder_write_pcm_frames(&g_State.encoder, pFramesIn, frameCount);
+            ma_encoder_write_pcm_frames(&g_State.encoder, pFramesIn, frameCount, NULL);
         } break;
 
         case ma_device_type_duplex:
@@ -345,7 +350,7 @@ void on_data(ma_device* pDevice, void* pFramesOut, const void* pFramesIn, ma_uin
 
             /* Also output to the encoder if necessary. */
             if (g_State.hasEncoder) {
-                ma_encoder_write_pcm_frames(&g_State.encoder, pFramesIn, frameCount);
+                ma_encoder_write_pcm_frames(&g_State.encoder, pFramesIn, frameCount, NULL);
             }
         } break;
 
@@ -426,13 +431,14 @@ int main(int argc, char** argv)
 
     /* Initialize the context first. If no backends were passed into the command line we just use defaults. */
     contextConfig = ma_context_config_init();
-    contextConfig.logCallback = on_log;
     result = ma_context_init((backendCount == 0) ? NULL : backends, backendCount, &contextConfig, &g_State.context);
     if (result != MA_SUCCESS) {
         printf("Failed to initialize context.\n");
         return -1;
     }
 
+    ma_log_register_callback(ma_context_get_log(&g_State.context), ma_log_callback_init(on_log, NULL));
+
     /* Here we'll print some info about what we're doing. */
     printf("Backend: %s\n", ma_get_backend_name(g_State.context.backend));
     printf("Mode:    %s\n", get_mode_description(deviceType));
@@ -503,7 +509,7 @@ int main(int argc, char** argv)
         if (g_State.sourceType == source_type_noise) {
             ma_noise_config noiseConfig;
             noiseConfig = ma_noise_config_init(g_State.device.playback.format, g_State.device.playback.channels, noiseType, 0, 0.1);
-            result = ma_noise_init(&noiseConfig, &g_State.noise);
+            result = ma_noise_init(&noiseConfig, NULL, &g_State.noise);
             if (result != MA_SUCCESS) {
                 printf("Failed to initialize noise.\n");
                 ma_device_uninit(&g_State.device);
@@ -515,7 +521,7 @@ int main(int argc, char** argv)
 
     if (deviceType == ma_device_type_capture || deviceType == ma_device_type_loopback || (deviceType == ma_device_type_duplex && pFilePath != NULL && pFilePath[0] != '\0')) {
         ma_encoder_config encoderConfig;
-        encoderConfig = ma_encoder_config_init(ma_resource_format_wav, g_State.device.capture.format, g_State.device.capture.channels, g_State.device.sampleRate);
+        encoderConfig = ma_encoder_config_init(ma_encoding_format_wav, g_State.device.capture.format, g_State.device.capture.channels, g_State.device.sampleRate);
         result = ma_encoder_init_file(pFilePath, &encoderConfig, &g_State.encoder);
         if (result != MA_SUCCESS) {
             printf("Failed to initialize output file for capture \"%s\".\n", pFilePath);
@@ -579,6 +585,12 @@ done:
     if (g_State.sourceType == source_type_decoder) {
         ma_decoder_uninit(&g_State.decoder);
     }
+    if (g_State.sourceType == source_type_waveform) {
+        ma_waveform_uninit(&g_State.waveform);
+    }
+    if (g_State.sourceType == source_type_noise) {
+        ma_noise_uninit(&g_State.noise, NULL);
+    }
     if (g_State.hasEncoder) {
         ma_encoder_uninit(&g_State.encoder);
     }