Better parameter naming

git-svn-id: https://svn.osgeo.org/grass/grass/trunk@42041 15284696-431f-4ddb-bdfa-cd5b030d7da7

raster/r.gwflow/main.c

@@ -54,68 +54,68 @@ void set_params(void)
 {
     param.phead = G_define_standard_option(G_OPT_R_INPUT);
     param.phead->key = "phead";
-    param.phead->description = _("The initial piezometric head in [m]");
+    param.phead->description = _("Input raster map with initial piezometric head in [m]");
 
     param.status = G_define_standard_option(G_OPT_R_INPUT);
     param.status->key = "status";
     param.status->description =
-	_("Boundary condition status, 0-inactive, 1-active, 2-dirichlet");
+	_("Input raster map providing Boundary condition status: 0-inactive, 1-active, 2-dirichlet");
 
     param.hc_x =G_define_standard_option(G_OPT_R_INPUT);
     param.hc_x->key = "hc_x";
     param.hc_x->description =
-	_("X-part of the hydraulic conductivity tensor in [m/s]");
+	_("Input raster map with x-part of the hydraulic conductivity tensor in [m/s]");
 
     param.hc_y = G_define_standard_option(G_OPT_R_INPUT);
     param.hc_y->key = "hc_y";
     param.hc_y->description =
-	_("Y-part of the hydraulic conductivity tensor in [m/s]");
+	_("Input raster map with y-part of the hydraulic conductivity tensor in [m/s]");
 
     param.q = G_define_standard_option(G_OPT_R_INPUT);
     param.q->key = "q";
     param.q->required = NO;
-    param.q->description = _("Raster map water sources and sinks in [m^3/s]");
+    param.q->description = _("Input raster map with water sources and sinks in [m^3/s]");
 
     param.s = G_define_standard_option(G_OPT_R_INPUT);
     param.s->key = "s";
-    param.s->description = _("Specific yield in [1/m]");
+    param.s->description = _("Input raster map with specific yield in [1/m]");
 
     param.r = G_define_standard_option(G_OPT_R_INPUT);
     param.r->key = "recharge";
     param.r->required = NO;
     param.r->guisection = _("Recharge");
     param.r->description =
-	_("Recharge map e.g: 6*10^-9 per cell in [m^3/s*m^2]");
+	_("Recharge input raster map e.g: 6*10^-9 per cell in [m^3/s*m^2]");
 
     param.top = G_define_standard_option(G_OPT_R_INPUT);
     param.top->key = "top";
-    param.top->description = _("Top surface of the aquifer in [m]");
+    param.top->description = _("Input raster map describing the top surface of the aquifer in [m]");
 
     param.bottom = G_define_standard_option(G_OPT_R_INPUT);
     param.bottom->key = "bottom";
-    param.bottom->description = _("Bottom surface of the aquifer in [m]");
+    param.bottom->description = _("Input raster map describing the bottom surface of the aquifer in [m]");
 
     param.output = G_define_standard_option(G_OPT_R_OUTPUT);
     param.output->key = "output";
-    param.output->description = _("The map storing the numerical result [m]");
+    param.output->description = _("Output raster map storing the numerical result [m]");
 
     param.vector_x = G_define_standard_option(G_OPT_R_OUTPUT);
     param.vector_x->key = "vx";
     param.vector_x->required = NO;
     param.vector_x->description =
-	_("Calculate and store the groundwater filter velocity vector part in x direction [m/s]\n");
+	_("Output raster map storing the groundwater filter velocity vector part in x direction [m/s]\n");
 
     param.vector_y = G_define_standard_option(G_OPT_R_OUTPUT);
     param.vector_y->key = "vy";
     param.vector_y->required = NO;
     param.vector_y->description =
-	_("Calculate and store the groundwater filter velocity vector part in y direction [m/s]\n");
+	_("Output raster map storing the groundwater filter velocity vector part in y direction [m/s]\n");
 
     param.budget = G_define_standard_option(G_OPT_R_OUTPUT);
     param.budget->key = "budget";
     param.budget->required = NO;
     param.budget->description =
-	_("Store the groundwater budget for each cell [m^3/s]\n");
+	_("Output raster map storing the groundwater budget for each cell [m^3/s]\n");
 
     param.type = G_define_option();
     param.type->key = "type";
@@ -129,7 +129,7 @@ void set_params(void)
     param.river_bed = G_define_standard_option(G_OPT_R_INPUT);
     param.river_bed->key = "river_bed";
     param.river_bed->required = NO;
-    param.river_bed->description = _("The height of the river bed in [m]");
+    param.river_bed->description = _("Input raster map providing the height of the river bed in [m]");
     param.river_bed->guisection = "River";
 
     param.river_head = G_define_standard_option(G_OPT_R_INPUT);
@@ -137,14 +137,14 @@ void set_params(void)
     param.river_head->required = NO;
     param.river_head->guisection = "River";
     param.river_head->description =
-	_("Water level (head) of the river with leakage connection in [m]");
+	_("Input raster map providing the water level (head) of the river with leakage connection in [m]");
 
     param.river_leak = G_define_standard_option(G_OPT_R_INPUT);
     param.river_leak->key = "river_leak";
     param.river_leak->required = NO;
     param.river_leak->guisection = "River";
     param.river_leak->description =
-	_("The leakage coefficient of the river bed in [1/s].");
+	_("Input raster map providing the leakage coefficient of the river bed in [1/s].");
 
     param.drain_bed = G_define_standard_option(G_OPT_R_INPUT);
     param.drain_bed->key = "drain_bed";
@@ -152,14 +152,14 @@ void set_params(void)
     param.drain_bed->required = NO;
     param.drain_bed->gisprompt = "old,raster,raster";
     param.drain_bed->guisection = "Drainage";
-    param.drain_bed->description = _("The height of the drainage bed in [m]");
+    param.drain_bed->description = _("Input raster map providing the height of the drainage bed in [m]");
 
     param.drain_leak = G_define_standard_option(G_OPT_R_INPUT);
     param.drain_leak->key = "drain_leak";
     param.drain_leak->required = NO;
     param.drain_leak->guisection = "Drainage";
     param.drain_leak->description =
-	_("The leakage coefficient of the drainage bed in [1/s]");
+	_("Input raster map providing the leakage coefficient of the drainage bed in [1/s]");
 
     param.dt = N_define_standard_option(N_OPT_CALC_TIME);
     param.maxit = N_define_standard_option(N_OPT_MAX_ITERATIONS);