From 4d1d5b569f55dd613bea26714eb1ad931a10be35 Mon Sep 17 00:00:00 2001
From: Max Ryabinin <mryabinin0@gmail.com>
Date: Fri, 1 Jul 2022 17:40:02 +0300
Subject: Reduce diff

---
 csrc/pythonInterface.c | 115 ++++++++++++++++++++++++-------------------------
 1 file changed, 57 insertions(+), 58 deletions(-)

(limited to 'csrc/pythonInterface.c')

diff --git a/csrc/pythonInterface.c b/csrc/pythonInterface.c
index 229b7ed..1f690c5 100644
--- a/csrc/pythonInterface.c
+++ b/csrc/pythonInterface.c
@@ -38,15 +38,15 @@ MAKE_FUNC32(adagrad, ADAGRAD, half, 16)
 
 #define MAKE_FUNC8(fname, oname, gtype, gbits) \
 void fname##_static_8bit_g##gbits(gtype* p, gtype* g, unsigned char* state1, unsigned char* state2, \
-                                float *unorm, float max_unorm, float param_norm, \
+								float *unorm, float max_unorm, float param_norm, \
                 float beta1, float beta2, \
                 float eps, int step, float lr,  \
                 float* quantiles1, float* quantiles2, \
                 float* max1, float* max2, float* new_max1, float* new_max2, \
                 float weight_decay, float gnorm_scale, int n) \
 {  \
-    optimizerStatic8bit<gtype, oname>(g, p, state1, state2, unorm, max_unorm, param_norm, beta1, beta2, eps, step, lr, \
-                                              quantiles1, quantiles2, max1, max2, new_max1, new_max2, weight_decay, gnorm_scale, n); \
+	optimizerStatic8bit<gtype, oname>(g, p, state1, state2, unorm, max_unorm, param_norm, beta1, beta2, eps, step, lr, \
+			                                  quantiles1, quantiles2, max1, max2, new_max1, new_max2, weight_decay, gnorm_scale, n); \
 } \
 
 MAKE_FUNC8(adam, ADAM, float, 32)
@@ -86,37 +86,37 @@ void dequantizeBlockwise_fp32(float *code, unsigned char *A, float *absmax, floa
 
 extern "C"
 {
-#if BUILD_CUDA
-void cestimate_quantiles_fp32(float *A, float *code, float offset, int n){ estimateQuantiles_fp32(A, code, offset, n); }
-void cestimate_quantiles_fp16(half *A, float *code, float offset, int n){ estimateQuantiles_fp16(A, code, offset, n); }
-void cquantize(float *code, float *A, unsigned char *out, int n){ quantize(code, A, out, n); }
-void cdequantize(float *code, unsigned char *A, float *out, int n){ dequantize(code, A, out, n); }
-void cquantize_blockwise_fp16(float * code, half *A, float *absmax, unsigned char *out, const int n){ quantizeBlockwise_fp16(code, A, absmax, out, n); }
-void cquantize_blockwise_fp32(float * code, float *A, float *absmax, unsigned char *out, const int n){ quantizeBlockwise_fp32(code, A, absmax, out, n); }
-void cquantize_blockwise_stochastic_fp16(float * code, half *A, float *absmax, unsigned char *out, float *rand, int rand_offset, const int n){ quantizeBlockwise_stochastic_fp16(code, A, absmax, out, rand, rand_offset, n); }
-void cquantize_blockwise_stochastic_fp32(float * code, float *A, float *absmax, unsigned char *out, float *rand, int rand_offset, const int n){ quantizeBlockwise_stochastic_fp32(code, A, absmax, out, rand, rand_offset, n); }
-
-void cdequantize_blockwise_fp16(float *code, unsigned char *A, float *absmax, half *out, int blocksize, const int n){ dequantizeBlockwise_fp16(code, A, absmax, out, blocksize, n); }
-void cdequantize_blockwise_fp32(float *code, unsigned char *A, float *absmax, float *out, int blocksize, const int n){ dequantizeBlockwise_fp32(code, A, absmax, out, blocksize, n); }
-
-#define MAKE_CFUNC32(name, gtype, gbits) \
-    void c##name##32bit_g##gbits(gtype *g, gtype *p, \
-                                 float* state1, float* state2, float *unorm, float max_unorm, float param_norm, \
-                                 const float beta1, const float beta2, const float eps, const float weight_decay, \
-                                 const int step, const float lr, const float gnorm_scale, bool skip_zeros, const int n) \
-    { name##32bit_g##gbits(g, p, state1, state2, unorm, max_unorm, param_norm, beta1, beta2, eps, weight_decay, step, lr, gnorm_scale, skip_zeros, n); } \
-
-MAKE_CFUNC32(adam, float, 32)
-MAKE_CFUNC32(adam, half, 16)
-MAKE_CFUNC32(momentum, float, 32)
-MAKE_CFUNC32(momentum, half, 16)
-MAKE_CFUNC32(rmsprop, float, 32)
-MAKE_CFUNC32(rmsprop, half, 16)
-MAKE_CFUNC32(adagrad, float, 32)
-MAKE_CFUNC32(adagrad, half, 16)
-
-#define MAKE_CFUNC8(name, gtype, gbits) \
-    void c##name##_static_8bit_g##gbits(gtype* p, gtype* g, unsigned char* state1, unsigned char* state2, \
+    if #BUILD_CUDA
+	void cestimate_quantiles_fp32(float *A, float *code, float offset, int n){ estimateQuantiles_fp32(A, code, offset, n); }
+	void cestimate_quantiles_fp16(half *A, float *code, float offset, int n){ estimateQuantiles_fp16(A, code, offset, n); }
+	void cquantize(float *code, float *A, unsigned char *out, int n){ quantize(code, A, out, n); }
+	void cdequantize(float *code, unsigned char *A, float *out, int n){ dequantize(code, A, out, n); }
+  void cquantize_blockwise_fp16(float * code, half *A, float *absmax, unsigned char *out, const int n){ quantizeBlockwise_fp16(code, A, absmax, out, n); }
+  void cquantize_blockwise_fp32(float * code, float *A, float *absmax, unsigned char *out, const int n){ quantizeBlockwise_fp32(code, A, absmax, out, n); }
+  void cquantize_blockwise_stochastic_fp16(float * code, half *A, float *absmax, unsigned char *out, float *rand, int rand_offset, const int n){ quantizeBlockwise_stochastic_fp16(code, A, absmax, out, rand, rand_offset, n); }
+  void cquantize_blockwise_stochastic_fp32(float * code, float *A, float *absmax, unsigned char *out, float *rand, int rand_offset, const int n){ quantizeBlockwise_stochastic_fp32(code, A, absmax, out, rand, rand_offset, n); }
+
+  void cdequantize_blockwise_fp16(float *code, unsigned char *A, float *absmax, half *out, int blocksize, const int n){ dequantizeBlockwise_fp16(code, A, absmax, out, blocksize, n); }
+  void cdequantize_blockwise_fp32(float *code, unsigned char *A, float *absmax, float *out, int blocksize, const int n){ dequantizeBlockwise_fp32(code, A, absmax, out, blocksize, n); }
+
+	#define MAKE_CFUNC32(name, gtype, gbits) \
+	void c##name##32bit_g##gbits(gtype *g, gtype *p, \
+								 float* state1, float* state2, float *unorm, float max_unorm, float param_norm, \
+								 const float beta1, const float beta2, const float eps, const float weight_decay, \
+								 const int step, const float lr, const float gnorm_scale, bool skip_zeros, const int n) \
+	{ name##32bit_g##gbits(g, p, state1, state2, unorm, max_unorm, param_norm, beta1, beta2, eps, weight_decay, step, lr, gnorm_scale, skip_zeros, n); } \
+
+	MAKE_CFUNC32(adam, float, 32)
+	MAKE_CFUNC32(adam, half, 16)
+	MAKE_CFUNC32(momentum, float, 32)
+	MAKE_CFUNC32(momentum, half, 16)
+	MAKE_CFUNC32(rmsprop, float, 32)
+	MAKE_CFUNC32(rmsprop, half, 16)
+	MAKE_CFUNC32(adagrad, float, 32)
+	MAKE_CFUNC32(adagrad, half, 16)
+
+	#define MAKE_CFUNC8(name, gtype, gbits) \
+	void c##name##_static_8bit_g##gbits(gtype* p, gtype* g, unsigned char* state1, unsigned char* state2, \
                 float *unorm, float max_unorm, float param_norm, \
                 float beta1, float beta2, \
                 float eps, int step, float lr,  \
@@ -124,40 +124,39 @@ MAKE_CFUNC32(adagrad, half, 16)
                 float* max1, float* max2, float* new_max1, float* new_max2, \
                 float weight_decay, float gnorm_scale, int n) \
   {  \
-        name##_static_8bit_g##gbits(g, p, state1, state2, unorm, max_unorm, param_norm, beta1, beta2, eps, step, lr, \
-                                             quantiles1, quantiles2, max1, max2, new_max1, new_max2, weight_decay, gnorm_scale, n); \
+	    name##_static_8bit_g##gbits(g, p, state1, state2, unorm, max_unorm, param_norm, beta1, beta2, eps, step, lr, \
+			                                 quantiles1, quantiles2, max1, max2, new_max1, new_max2, weight_decay, gnorm_scale, n); \
   } \
 
-MAKE_CFUNC8(adam, float, 32)
-MAKE_CFUNC8(adam, half, 16)
-MAKE_CFUNC8(momentum, float, 32)
-MAKE_CFUNC8(momentum, half, 16)
-MAKE_CFUNC8(rmsprop, float, 32)
-MAKE_CFUNC8(rmsprop, half, 16)
+	MAKE_CFUNC8(adam, float, 32)
+	MAKE_CFUNC8(adam, half, 16)
+	MAKE_CFUNC8(momentum, float, 32)
+	MAKE_CFUNC8(momentum, half, 16)
+	MAKE_CFUNC8(rmsprop, float, 32)
+	MAKE_CFUNC8(rmsprop, half, 16)
 
-#define MAKE_CBLOCKWISE8(fname, optim_name, gtype, gbits) \
+  #define MAKE_CBLOCKWISE8(fname, optim_name, gtype, gbits) \
   void c##fname##_8bit_blockwise_fp##gbits(gtype* p, gtype* g, \
                 unsigned char* state1, unsigned char* state2, float beta1, float beta2, float eps, int step, float lr,  \
                 float* quantiles1, float* quantiles2, float* absmax1, float* absmax2, float weight_decay, const float gnorm_scale, bool skip_zeros, int n) \
   {	fname##_8bit_blockwise_fp##gbits(p, g, state1, state2, beta1, beta2, eps, step, lr, quantiles1, quantiles2, absmax1, absmax2, weight_decay, gnorm_scale, skip_zeros, n); } \
 
-MAKE_CBLOCKWISE8(adam, ADAM, half, 16)
-MAKE_CBLOCKWISE8(adam, ADAM, float, 32)
-MAKE_CBLOCKWISE8(momentum, MOMENTUM, half, 16)
-MAKE_CBLOCKWISE8(momentum, MOMENTUM, float, 32)
-MAKE_CBLOCKWISE8(rmsprop, RMSPROP, half, 16)
-MAKE_CBLOCKWISE8(rmsprop, RMSPROP, float, 32)
-MAKE_CBLOCKWISE8(adagrad, ADAGRAD, half, 16)
-MAKE_CBLOCKWISE8(adagrad, ADAGRAD, float, 32)
+	MAKE_CBLOCKWISE8(adam, ADAM, half, 16)
+	MAKE_CBLOCKWISE8(adam, ADAM, float, 32)
+	MAKE_CBLOCKWISE8(momentum, MOMENTUM, half, 16)
+	MAKE_CBLOCKWISE8(momentum, MOMENTUM, float, 32)
+	MAKE_CBLOCKWISE8(rmsprop, RMSPROP, half, 16)
+	MAKE_CBLOCKWISE8(rmsprop, RMSPROP, float, 32)
+	MAKE_CBLOCKWISE8(adagrad, ADAGRAD, half, 16)
+	MAKE_CBLOCKWISE8(adagrad, ADAGRAD, float, 32)
 
 
-void cpercentile_clipping_g32(float * g, float *gnorm_vec, int step, const int n){ percentileClipping_g32(g, gnorm_vec, step, n); }
-void cpercentile_clipping_g16(half * g, float *gnorm_vec, int step, const int n){ percentileClipping_g16(g, gnorm_vec, step, n); }
-void chistogram_scatter_add_2d(float* histogram, int *index1, int *index2, float *src, int maxidx1, int n){ histogramScatterAdd2D(histogram, index1, index2, src, maxidx1, n); }
-#endif
+	void cpercentile_clipping_g32(float * g, float *gnorm_vec, int step, const int n){ percentileClipping_g32(g, gnorm_vec, step, n); }
+	void cpercentile_clipping_g16(half * g, float *gnorm_vec, int step, const int n){ percentileClipping_g16(g, gnorm_vec, step, n); }
+	void chistogram_scatter_add_2d(float* histogram, int *index1, int *index2, float *src, int maxidx1, int n){ histogramScatterAdd2D(histogram, index1, index2, src, maxidx1, n); }
 
-void cquantize_blockwise_cpu_fp32(float *code, float *A, float *absmax, unsigned char *out, const int n){ quantize_cpu(code, A, absmax, out, n); }
-void cdequantize_blockwise_cpu_fp32(float *code, unsigned char *A, float *absmax, float *out, const int n){ dequantize_cpu(code, A, absmax, out, n); }
+    #endif
+	void cquantize_blockwise_cpu_fp32(float *code, float *A, float *absmax, unsigned char *out, const int n){ quantize_cpu(code, A, absmax, out, n); }
+	void cdequantize_blockwise_cpu_fp32(float *code, unsigned char *A, float *absmax, float *out, const int n){ dequantize_cpu(code, A, absmax, out, n); }
 }
 
-
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