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-rw-r--r--src/lib/embryo/embryo_float.c482
1 files changed, 482 insertions, 0 deletions
diff --git a/src/lib/embryo/embryo_float.c b/src/lib/embryo/embryo_float.c
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index 000000000..d84d73d3e
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+++ b/src/lib/embryo/embryo_float.c
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+/* Float arithmetic for the Small AMX engine
+ *
+ * Copyright (c) Artran, Inc. 1999
+ * Written by Greg Garner (gmg@artran.com)
+ * Portions Copyright (c) Carsten Haitzler, 2004 <raster@rasterman.com>
+ *
+ * This software is provided "as-is", without any express or implied warranty.
+ * In no event will the authors be held liable for any damages arising from
+ * the use of this software.
+ *
+ * Permission is granted to anyone to use this software for any purpose,
+ * including commercial applications, and to alter it and redistribute it
+ * freely, subject to the following restrictions:
+ *
+ * 1. The origin of this software must not be misrepresented; you must not
+ * claim that you wrote the original software. If you use this software in
+ * a product, an acknowledgment in the product documentation would be
+ * appreciated but is not required.
+ * 2. Altered source versions must be plainly marked as such, and must not be
+ * misrepresented as being the original software.
+ * 3. This notice may not be removed or altered from any source distribution.
+ */
+
+/* CHANGES -
+ * 2002-08-27: Basic conversion of source from C++ to C by Adam D. Moss
+ * <adam@gimp.org> <aspirin@icculus.org>
+ * 2003-08-29: Removal of the dynamic memory allocation and replacing two
+ * type conversion functions by macros, by Thiadmer Riemersma
+ * 2003-09-22: Moved the type conversion macros to AMX.H, and simplifications
+ * of some routines, by Thiadmer Riemersma
+ * 2003-11-24: A few more native functions (geometry), plus minor modifications,
+ * mostly to be compatible with dynamically loadable extension
+ * modules, by Thiadmer Riemersma
+ * 2004-03-20: Cleaned up and reduced size for Embryo, Modified to conform to
+ * E coding style. Added extra parameter checks.
+ * Carsten Haitzler, <raster@rasterman.com>
+ */
+
+
+#ifdef HAVE_CONFIG_H
+# include "config.h"
+#endif
+
+#include <stdlib.h>
+#include <math.h>
+
+#include <Eina.h>
+
+#include "Embryo.h"
+#include "embryo_private.h"
+
+#define PI 3.1415926535897932384626433832795f
+#ifndef MAXFLOAT
+#define MAXFLOAT 3.40282347e+38f
+#endif
+
+/* internally useful calls */
+
+static float
+_embryo_fp_degrees_to_radians(float angle, int radix)
+{
+ switch (radix)
+ {
+ case 1: /* degrees, sexagesimal system (technically: degrees/minutes/seconds) */
+ return (angle * PI / 180.0f);
+ case 2: /* grades, centesimal system */
+ return (angle * PI / 200.0f);
+ default: /* assume already radian */
+ break;
+ }
+ return angle;
+}
+
+/* exported float api */
+
+static Embryo_Cell
+_embryo_fp(Embryo_Program *ep EINA_UNUSED, Embryo_Cell *params)
+{
+ /* params[1] = long value to convert to a float */
+ float f;
+
+ if (params[0] != (1 * sizeof(Embryo_Cell))) return 0;
+ f = (float)params[1];
+ return EMBRYO_FLOAT_TO_CELL(f);
+}
+
+static Embryo_Cell
+_embryo_fp_str(Embryo_Program *ep, Embryo_Cell *params)
+{
+ /* params[1] = virtual string address to convert to a float */
+ char buf[64];
+ Embryo_Cell *str;
+ float f;
+ int len;
+
+ if (params[0] != (1 * sizeof(Embryo_Cell))) return 0;
+ str = embryo_data_address_get(ep, params[1]);
+ len = embryo_data_string_length_get(ep, str);
+ if ((len == 0) || (len >= (int)sizeof(buf))) return 0;
+ embryo_data_string_get(ep, str, buf);
+ f = (float)atof(buf);
+ return EMBRYO_FLOAT_TO_CELL(f);
+}
+
+static Embryo_Cell
+_embryo_fp_mul(Embryo_Program *ep EINA_UNUSED, Embryo_Cell *params)
+{
+ /* params[1] = float operand 1 */
+ /* params[2] = float operand 2 */
+ float f;
+
+ if (params[0] != (2 * sizeof(Embryo_Cell))) return 0;
+ f = EMBRYO_CELL_TO_FLOAT(params[1]) * EMBRYO_CELL_TO_FLOAT(params[2]);
+ return EMBRYO_FLOAT_TO_CELL(f);
+}
+
+static Embryo_Cell
+_embryo_fp_div(Embryo_Program *ep EINA_UNUSED, Embryo_Cell *params)
+{
+ /* params[1] = float dividend (top) */
+ /* params[2] = float divisor (bottom) */
+ float f, ff;
+
+ if (params[0] != (2 * sizeof(Embryo_Cell))) return 0;
+ f = EMBRYO_CELL_TO_FLOAT(params[1]);
+ ff = EMBRYO_CELL_TO_FLOAT(params[2]);
+ if (ff == 0.0)
+ {
+ if (f == 0.0)
+ return EMBRYO_FLOAT_TO_CELL(0.0f);
+ else if (f < 0.0)
+ return EMBRYO_FLOAT_TO_CELL(-MAXFLOAT);
+ else
+ return EMBRYO_FLOAT_TO_CELL(MAXFLOAT);
+ }
+ f = f / ff;
+ return EMBRYO_FLOAT_TO_CELL(f);
+}
+
+static Embryo_Cell
+_embryo_fp_add(Embryo_Program *ep EINA_UNUSED, Embryo_Cell *params)
+{
+ /* params[1] = float operand 1 */
+ /* params[2] = float operand 2 */
+ float f;
+
+ if (params[0] != (2 * sizeof(Embryo_Cell))) return 0;
+ f = EMBRYO_CELL_TO_FLOAT(params[1]) + EMBRYO_CELL_TO_FLOAT(params[2]);
+ return EMBRYO_FLOAT_TO_CELL(f);
+}
+
+static Embryo_Cell
+_embryo_fp_sub(Embryo_Program *ep EINA_UNUSED, Embryo_Cell *params)
+{
+ /* params[1] = float operand 1 */
+ /* params[2] = float operand 2 */
+ float f;
+
+ if (params[0] != (2 * sizeof(Embryo_Cell))) return 0;
+ f = EMBRYO_CELL_TO_FLOAT(params[1]) - EMBRYO_CELL_TO_FLOAT(params[2]);
+ return EMBRYO_FLOAT_TO_CELL(f);
+}
+
+/* Return fractional part of float */
+static Embryo_Cell
+_embryo_fp_fract(Embryo_Program *ep EINA_UNUSED, Embryo_Cell *params)
+{
+ /* params[1] = float operand */
+ float f;
+
+ if (params[0] != (1 * sizeof(Embryo_Cell))) return 0;
+ f = EMBRYO_CELL_TO_FLOAT(params[1]);
+ f -= (floorf(f));
+ return EMBRYO_FLOAT_TO_CELL(f);
+}
+
+/* Return integer part of float, rounded */
+static Embryo_Cell
+_embryo_fp_round(Embryo_Program *ep EINA_UNUSED, Embryo_Cell *params)
+{
+ /* params[1] = float operand */
+ /* params[2] = Type of rounding (cell) */
+ float f;
+
+ if (params[0] != (2 * sizeof(Embryo_Cell))) return 0;
+ f = EMBRYO_CELL_TO_FLOAT(params[1]);
+ switch (params[2])
+ {
+ case 1: /* round downwards (truncate) */
+ f = (floorf(f));
+ break;
+ case 2: /* round upwards */
+ f = (ceilf(f));
+ break;
+ case 3: /* round towards zero */
+ if (f >= 0.0) f = (floorf(f));
+ else f = (ceilf(f));
+ break;
+ default: /* standard, round to nearest */
+ f = (floorf(f + 0.5));
+ break;
+ }
+ return (Embryo_Cell)f;
+}
+
+static Embryo_Cell
+_embryo_fp_cmp(Embryo_Program *ep EINA_UNUSED, Embryo_Cell *params)
+{
+ /* params[1] = float operand 1 */
+ /* params[2] = float operand 2 */
+ float f, ff;
+
+ if (params[0] != (2 * sizeof(Embryo_Cell))) return 0;
+ f = EMBRYO_CELL_TO_FLOAT(params[1]);
+ ff = EMBRYO_CELL_TO_FLOAT(params[2]);
+ if (f == ff) return 0;
+ else if (f > ff) return 1;
+ return -1;
+}
+
+static Embryo_Cell
+_embryo_fp_sqroot(Embryo_Program *ep, Embryo_Cell *params)
+{
+ /* params[1] = float operand */
+ float f;
+
+ if (params[0] != (1 * sizeof(Embryo_Cell))) return 0;
+ f = EMBRYO_CELL_TO_FLOAT(params[1]);
+ f = sqrtf(f);
+ if (f < 0)
+ {
+ embryo_program_error_set(ep, EMBRYO_ERROR_DOMAIN);
+ return 0;
+ }
+ return EMBRYO_FLOAT_TO_CELL(f);
+}
+
+static Embryo_Cell
+_embryo_fp_power(Embryo_Program *ep EINA_UNUSED, Embryo_Cell *params)
+{
+ /* params[1] = float operand 1 */
+ /* params[2] = float operand 2 */
+ float f, ff;
+
+ if (params[0] != (2 * sizeof(Embryo_Cell))) return 0;
+ f = EMBRYO_CELL_TO_FLOAT(params[1]);
+ ff = EMBRYO_CELL_TO_FLOAT(params[2]);
+ f = powf(f, ff);
+ return EMBRYO_FLOAT_TO_CELL(f);
+}
+
+static Embryo_Cell
+_embryo_fp_log(Embryo_Program *ep, Embryo_Cell *params)
+{
+ /* params[1] = float operand 1 (value) */
+ /* params[2] = float operand 2 (base) */
+ float f, ff, tf;
+
+ if (params[0] != (2 * sizeof(Embryo_Cell))) return 0;
+ f = EMBRYO_CELL_TO_FLOAT(params[1]);
+ ff = EMBRYO_CELL_TO_FLOAT(params[2]);
+ if ((f <= 0.0) || (ff <= 0.0))
+ {
+ embryo_program_error_set(ep, EMBRYO_ERROR_DOMAIN);
+ return 0;
+ }
+ if (ff == 10.0) f = log10f(f);
+ else if (ff == 2.0) f = log2f(f);
+ else
+ {
+ tf = logf(ff);
+ if (tf == 0.0) f = 0.0;
+ else f = (logf(f) / tf);
+ }
+ return EMBRYO_FLOAT_TO_CELL(f);
+}
+
+static Embryo_Cell
+_embryo_fp_sin(Embryo_Program *ep EINA_UNUSED, Embryo_Cell *params)
+{
+ /* params[1] = float operand 1 (angle) */
+ /* params[2] = float operand 2 (radix) */
+ float f;
+
+ if (params[0] != (2 * sizeof(Embryo_Cell))) return 0;
+ f = EMBRYO_CELL_TO_FLOAT(params[1]);
+ f = _embryo_fp_degrees_to_radians(f, params[2]);
+ f = sinf(f);
+ return EMBRYO_FLOAT_TO_CELL(f);
+}
+
+static Embryo_Cell
+_embryo_fp_cos(Embryo_Program *ep EINA_UNUSED, Embryo_Cell *params)
+{
+ /* params[1] = float operand 1 (angle) */
+ /* params[2] = float operand 2 (radix) */
+ float f;
+
+ if (params[0] != (2 * sizeof(Embryo_Cell))) return 0;
+ f = EMBRYO_CELL_TO_FLOAT(params[1]);
+ f = _embryo_fp_degrees_to_radians(f, params[2]);
+ f = cosf(f);
+ return EMBRYO_FLOAT_TO_CELL(f);
+}
+
+static Embryo_Cell
+_embryo_fp_tan(Embryo_Program *ep EINA_UNUSED, Embryo_Cell *params)
+{
+ /* params[1] = float operand 1 (angle) */
+ /* params[2] = float operand 2 (radix) */
+ float f;
+
+ if (params[0] != (2 * sizeof(Embryo_Cell))) return 0;
+ f = EMBRYO_CELL_TO_FLOAT(params[1]);
+ f = _embryo_fp_degrees_to_radians(f, params[2]);
+ f = tanf(f);
+ return EMBRYO_FLOAT_TO_CELL(f);
+}
+
+static Embryo_Cell
+_embryo_fp_abs(Embryo_Program *ep EINA_UNUSED, Embryo_Cell *params)
+{
+ /* params[1] = float operand */
+ float f;
+
+ if (params[0] != (1 * sizeof(Embryo_Cell))) return 0;
+ f = EMBRYO_CELL_TO_FLOAT(params[1]);
+ f = (f >= 0) ? f : -f;
+ return EMBRYO_FLOAT_TO_CELL(f);
+}
+
+static Embryo_Cell
+_embryo_fp_asin(Embryo_Program *ep EINA_UNUSED, Embryo_Cell *params)
+{
+ /* params[1] = float operand 1 (angle) */
+ /* params[2] = float operand 2 (radix) */
+ float f;
+
+ if (params[0] != (2 * sizeof(Embryo_Cell))) return 0;
+ f = EMBRYO_CELL_TO_FLOAT(params[1]);
+ f = sinf(f);
+ f = _embryo_fp_degrees_to_radians(f, params[2]);
+ return EMBRYO_FLOAT_TO_CELL(f);
+}
+
+static Embryo_Cell
+_embryo_fp_acos(Embryo_Program *ep EINA_UNUSED, Embryo_Cell *params)
+{
+ /* params[1] = float operand 1 (angle) */
+ /* params[2] = float operand 2 (radix) */
+ float f;
+
+ if (params[0] != (2 * sizeof(Embryo_Cell))) return 0;
+ f = EMBRYO_CELL_TO_FLOAT(params[1]);
+ f = cosf(f);
+ f = _embryo_fp_degrees_to_radians(f, params[2]);
+ return EMBRYO_FLOAT_TO_CELL(f);
+}
+
+static Embryo_Cell
+_embryo_fp_atan(Embryo_Program *ep EINA_UNUSED, Embryo_Cell *params)
+{
+ /* params[1] = float operand 1 (angle) */
+ /* params[2] = float operand 2 (radix) */
+ float f;
+
+ if (params[0] != (2 * sizeof(Embryo_Cell))) return 0;
+ f = EMBRYO_CELL_TO_FLOAT(params[1]);
+ f = tanf(f);
+ f = _embryo_fp_degrees_to_radians(f, params[2]);
+ return EMBRYO_FLOAT_TO_CELL(f);
+}
+
+static Embryo_Cell
+_embryo_fp_atan2(Embryo_Program *ep EINA_UNUSED, Embryo_Cell *params)
+{
+ /* params[1] = float operand 1 (y) */
+ /* params[2] = float operand 2 (x) */
+ /* params[3] = float operand 3 (radix) */
+ float f, ff;
+
+ if (params[0] != (3 * sizeof(Embryo_Cell))) return 0;
+ f = EMBRYO_CELL_TO_FLOAT(params[1]);
+ ff = EMBRYO_CELL_TO_FLOAT(params[2]);
+ f = atan2f(f, ff);
+ f = _embryo_fp_degrees_to_radians(f, params[3]);
+ return EMBRYO_FLOAT_TO_CELL(f);
+}
+
+static Embryo_Cell
+_embryo_fp_log1p(Embryo_Program *ep EINA_UNUSED, Embryo_Cell *params)
+{
+ /* params[1] = float operand */
+ float f;
+
+ if (params[0] != (1 * sizeof(Embryo_Cell))) return 0;
+ f = EMBRYO_CELL_TO_FLOAT(params[1]);
+ f = log1pf(f);
+ return EMBRYO_FLOAT_TO_CELL(f);
+}
+
+static Embryo_Cell
+_embryo_fp_cbrt(Embryo_Program *ep EINA_UNUSED, Embryo_Cell *params)
+{
+ /* params[1] = float operand */
+ float f;
+
+ if (params[0] != (1 * sizeof(Embryo_Cell))) return 0;
+ f = EMBRYO_CELL_TO_FLOAT(params[1]);
+ f = cbrtf(f);
+ return EMBRYO_FLOAT_TO_CELL(f);
+}
+
+static Embryo_Cell
+_embryo_fp_exp(Embryo_Program *ep EINA_UNUSED, Embryo_Cell *params)
+{
+ /* params[1] = float operand */
+ float f;
+
+ if (params[0] != (1 * sizeof(Embryo_Cell))) return 0;
+ f = EMBRYO_CELL_TO_FLOAT(params[1]);
+ f = expf(f);
+ return EMBRYO_FLOAT_TO_CELL(f);
+}
+
+static Embryo_Cell
+_embryo_fp_exp2(Embryo_Program *ep EINA_UNUSED, Embryo_Cell *params)
+{
+ /* params[1] = float operand */
+ float f;
+
+ if (params[0] != (1 * sizeof(Embryo_Cell))) return 0;
+ f = EMBRYO_CELL_TO_FLOAT(params[1]);
+ f = exp2f(f);
+ return EMBRYO_FLOAT_TO_CELL(f);
+}
+
+static Embryo_Cell
+_embryo_fp_hypot(Embryo_Program *ep EINA_UNUSED, Embryo_Cell *params)
+{
+ /* params[1] = float operand */
+ float f, ff;
+
+ if (params[0] != (2 * sizeof(Embryo_Cell))) return 0;
+ f = EMBRYO_CELL_TO_FLOAT(params[1]);
+ ff = EMBRYO_CELL_TO_FLOAT(params[2]);
+ f = hypotf(f, ff);
+ return EMBRYO_FLOAT_TO_CELL(f);
+}
+
+/* functions used by the rest of embryo */
+
+void
+_embryo_fp_init(Embryo_Program *ep)
+{
+ embryo_program_native_call_add(ep, "float", _embryo_fp);
+ embryo_program_native_call_add(ep, "atof", _embryo_fp_str);
+ embryo_program_native_call_add(ep, "float_mul", _embryo_fp_mul);
+ embryo_program_native_call_add(ep, "float_div", _embryo_fp_div);
+ embryo_program_native_call_add(ep, "float_add", _embryo_fp_add);
+ embryo_program_native_call_add(ep, "float_sub", _embryo_fp_sub);
+ embryo_program_native_call_add(ep, "fract", _embryo_fp_fract);
+ embryo_program_native_call_add(ep, "round", _embryo_fp_round);
+ embryo_program_native_call_add(ep, "float_cmp", _embryo_fp_cmp);
+ embryo_program_native_call_add(ep, "sqrt", _embryo_fp_sqroot);
+ embryo_program_native_call_add(ep, "pow", _embryo_fp_power);
+ embryo_program_native_call_add(ep, "log", _embryo_fp_log);
+ embryo_program_native_call_add(ep, "sin", _embryo_fp_sin);
+ embryo_program_native_call_add(ep, "cos", _embryo_fp_cos);
+ embryo_program_native_call_add(ep, "tan", _embryo_fp_tan);
+ embryo_program_native_call_add(ep, "abs", _embryo_fp_abs);
+ /* Added in embryo 1.2 */
+ embryo_program_native_call_add(ep, "asin", _embryo_fp_asin);
+ embryo_program_native_call_add(ep, "acos", _embryo_fp_acos);
+ embryo_program_native_call_add(ep, "atan", _embryo_fp_atan);
+ embryo_program_native_call_add(ep, "atan2", _embryo_fp_atan2);
+ embryo_program_native_call_add(ep, "log1p", _embryo_fp_log1p);
+ embryo_program_native_call_add(ep, "cbrt", _embryo_fp_cbrt);
+ embryo_program_native_call_add(ep, "exp", _embryo_fp_exp);
+ embryo_program_native_call_add(ep, "exp2", _embryo_fp_exp2);
+ embryo_program_native_call_add(ep, "hypot", _embryo_fp_hypot);
+}