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- core.math.abs
core.math.abs¶
This function returns the absolute value (i.e. the modulus) of input value.
Inputs¶
Name | Type | Title | Mandatory | Description |
|---|---|---|---|---|
input | core.type.f64 | Input | True | None |
Outputs¶
Name | Type | Title | Description |
|---|---|---|---|
output | core.type.f64 | Output | None |
Parameters¶
Function has no parameters
State variables¶
Function has no state variables
Usage XML code snippet¶
core_math_abs snippet for FLOW configuration file¶
<f name="abs" by_spec="core.math.abs"> <in alias="input">some_block_1/output</in> </f> Function’s artifacts¶
- Declaration for core_math_abs
- Implementation for core_math_abs
- Header of core_math_abs
- Specification of core_math_abs
- Interface of core_math_abs
declaration.py¶
from fspeclib import * Function( name='core.math.abs', title=LocalizedString( en='Absolute value of number' ), description=LocalizedString( en='This function returns the absolute value (i.e. the modulus) of input value.' ), inputs=[ Input( name='input', title='Input', value_type='core.type.f64' ) ], outputs=[ Output( name='output', title='Output', value_type='core.type.f64' ) ] ) core_math_abs_exec.c¶
#include "core_math_abs.h" #include <math.h> void core_math_abs_exec( const core_math_abs_inputs_t *i, core_math_abs_outputs_t *o ) { o->output = fabs(i->input); } core_math_abs.h¶
/** * Automatically-generated file. Do not edit! */ #ifndef FSPEC_CORE_MATH_ABS_H #define FSPEC_CORE_MATH_ABS_H #include <stdint.h> #include <eswb/types.h> #include "function.h" /* Include declaration of dependency types */ #include "core_type_f64.h" /** * @brief Inputs of `core.math.abs` function */ typedef struct core_math_abs_inputs_ { core_type_f64_t input; /// Input } core_math_abs_inputs_t; /** * @brief Outputs of `core.math.abs` function */ typedef struct core_math_abs_outputs_ { core_type_f64_t output; /// Output } core_math_abs_outputs_t; typedef struct core_math_abs_eswb_descriptors_ { eswb_topic_descr_t in_input; eswb_topic_descr_t out_all; } core_math_abs_eswb_descriptors_t; typedef struct core_math_abs_interface_ { core_math_abs_inputs_t i; core_math_abs_outputs_t o; core_math_abs_eswb_descriptors_t eswb_descriptors; } core_math_abs_interface_t; void core_math_abs_exec(const core_math_abs_inputs_t *i, core_math_abs_outputs_t *o); #endif // FSPEC_CORE_MATH_ABS_H core_math_abs_spec.c¶
/** * Automatically-generated file. Do not edit! */ #include "core_math_abs.h" #include <eswb/types.h> static const param_spec_t *params[1] = { NULL }; static const input_spec_t i_input = { .name = "input", .annotation = "Input", .flags = 0 }; static const input_spec_t *inputs[2] = { &i_input, NULL }; static const output_spec_t o_output = { .name = "output", .annotation = "Output", .flags = 0 }; static const output_spec_t *outputs[2] = { &o_output, NULL }; fspec_rv_t core_math_abs_call_init_inputs(void *dh, const func_conn_spec_t *conn_spec, eswb_topic_descr_t mounting_td); fspec_rv_t core_math_abs_call_init_outputs( void *dh, const func_conn_spec_t *conn_spec, eswb_topic_descr_t mounting_td, const char *func_name ); void core_math_abs_call_exec(void *dh); const function_spec_t atomic_core_math_abs_spec = { .name = "core.math.abs", .annotation = "Absolute value of number", .inputs = inputs, .outputs = outputs, .params = params }; const function_calls_t atomic_core_math_abs_calls = { .interface_handle_size = sizeof(core_math_abs_interface_t), .init = NULL, .init_inputs = core_math_abs_call_init_inputs, .init_outputs = core_math_abs_call_init_outputs, .pre_exec_init = NULL, .exec = core_math_abs_call_exec, .set_params = NULL }; const function_handler_t atomic_core_math_abs_handler = { .spec = &atomic_core_math_abs_spec, .calls = &atomic_core_math_abs_calls, .extension_handler = NULL }; core_math_abs_interface.c¶
/** * Automatically-generated file. Do not edit! */ #include "core_math_abs.h" #include "error.h" #include <eswb/api.h> #include <eswb/topic_proclaiming_tree.h> #include <eswb/errors.h> int core_math_abs_interface_inputs_init( core_math_abs_interface_t *interface, const func_conn_spec_t *conn_spec, eswb_topic_descr_t mounting_td ) { eswb_rv_t rv; int errcnt_no_topic = 0; int errcnt_no_input = 0; const char *topic_path_in_input = fspec_find_path2connect(conn_spec,"input"); // Connecting mandatory input "input" if (topic_path_in_input != NULL) { rv = eswb_connect_nested(mounting_td, topic_path_in_input, &interface->eswb_descriptors.in_input); if(rv != eswb_e_ok) { error("failed connect input \"input\" to topic \"%s\": %s", topic_path_in_input, eswb_strerror(rv)); errcnt_no_topic++; } } else { error("mandatory input \"input\" is not speicifed"); errcnt_no_input++; } if ((errcnt_no_input > 0) || (errcnt_no_topic > 0)) { if (errcnt_no_input > errcnt_no_topic) { return fspec_rv_no_input; } else { return fspec_rv_no_topic; } } return fspec_rv_ok; } fspec_rv_t core_math_abs_interface_inputs_update(core_math_abs_interface_t *interface) { eswb_rv_t rv; rv = eswb_read(interface->eswb_descriptors.in_input, &interface->i.input); if(rv != eswb_e_ok) { /*FIXME nothing to do yet*/ } return 0; } fspec_rv_t core_math_abs_interface_outputs_init( core_math_abs_interface_t *interface, const func_conn_spec_t *conn_spec, eswb_topic_descr_t mounting_td, const char *func_name ) { TOPIC_TREE_CONTEXT_LOCAL_DEFINE(cntx, 2); core_math_abs_outputs_t out; eswb_rv_t rv; topic_proclaiming_tree_t *rt = usr_topic_set_struct(cntx, out, func_name); usr_topic_add_struct_child(cntx, rt, core_math_abs_outputs_t, output, "output", tt_double); rv = eswb_proclaim_tree(mounting_td, rt, cntx->t_num, &interface->eswb_descriptors.out_all); if (rv != eswb_e_ok) { return fspec_rv_publish_err; } return fspec_rv_ok; } fspec_rv_t core_math_abs_interface_outputs_update(core_math_abs_interface_t *interface) { eswb_rv_t rv; rv = eswb_update_topic(interface->eswb_descriptors.out_all, &interface->o); if (rv != eswb_e_ok) { return 1; } return 0; } void core_math_abs_interface_update(core_math_abs_interface_t *interface) { core_math_abs_interface_inputs_update(interface); core_math_abs_exec(&interface->i, &interface->o); core_math_abs_interface_outputs_update(interface); } fspec_rv_t core_math_abs_call_init_inputs(void *dh, const func_conn_spec_t *conn_spec, eswb_topic_descr_t mounting_td) { core_math_abs_interface_t *interface = (core_math_abs_interface_t*) dh; return core_math_abs_interface_inputs_init(interface, conn_spec, mounting_td); } fspec_rv_t core_math_abs_call_init_outputs( void *dh, const func_conn_spec_t *conn_spec, eswb_topic_descr_t mounting_td, const char *func_name ) { core_math_abs_interface_t *interface = (core_math_abs_interface_t*) dh; return core_math_abs_interface_outputs_init(interface, conn_spec, mounting_td, func_name); } void core_math_abs_call_exec(void *dh) { core_math_abs_interface_t *interface = (core_math_abs_interface_t*) dh; core_math_abs_interface_update(interface); }