"""!@package grass.temporal
Temporal raster algebra
(C) 2013 by the GRASS Development Team
This program is free software under the GNU General Public
License (>=v2). Read the file COPYING that comes with GRASS
for details.
:authors: Thomas Leppelt and Soeren Gebbert
.. code-block:: python
>>> p = TemporalRasterAlgebraLexer()
>>> p.build()
>>> p.debug = True
>>> expression = 'R = A[0,1,0] / B[0,0,1] * 20 + C[0,1,1] - 2.45'
>>> p.test(expression)
R = A[0,1,0] / B[0,0,1] * 20 + C[0,1,1] - 2.45
LexToken(NAME,'R',1,0)
LexToken(EQUALS,'=',1,2)
LexToken(NAME,'A',1,4)
LexToken(L_SPAREN,'[',1,5)
LexToken(INT,0,1,6)
LexToken(COMMA,',',1,7)
LexToken(INT,1,1,8)
LexToken(COMMA,',',1,9)
LexToken(INT,0,1,10)
LexToken(R_SPAREN,']',1,11)
LexToken(DIV,'/',1,13)
LexToken(NAME,'B',1,15)
LexToken(L_SPAREN,'[',1,16)
LexToken(INT,0,1,17)
LexToken(COMMA,',',1,18)
LexToken(INT,0,1,19)
LexToken(COMMA,',',1,20)
LexToken(INT,1,1,21)
LexToken(R_SPAREN,']',1,22)
LexToken(MULT,'*',1,24)
LexToken(INT,20,1,26)
LexToken(ADD,'+',1,29)
LexToken(NAME,'C',1,31)
LexToken(L_SPAREN,'[',1,32)
LexToken(INT,0,1,33)
LexToken(COMMA,',',1,34)
LexToken(INT,1,1,35)
LexToken(COMMA,',',1,36)
LexToken(INT,1,1,37)
LexToken(R_SPAREN,']',1,38)
LexToken(SUB,'-',1,40)
LexToken(FLOAT,2.45,1,42)
"""
from __future__ import print_function
try:
import ply.lex as lex
import ply.yacc as yacc
except:
pass
# i18N
import gettext
from .temporal_raster_base_algebra import TemporalRasterBaseAlgebraParser,\
TemporalRasterAlgebraLexer
import grass.pygrass.modules as pymod
from .space_time_datasets import RasterDataset
###############################################################################
[docs]class TemporalRasterAlgebraParser(TemporalRasterBaseAlgebraParser):
"""The temporal raster algebra class"""
def __init__(self, pid=None, run=False, debug=True, spatial=False,
register_null=False, dry_run=False, nprocs=1, time_suffix=None):
TemporalRasterBaseAlgebraParser.__init__(self, pid=pid, run=run, debug=debug,
spatial=spatial, register_null=register_null,
dry_run=dry_run, nprocs=nprocs,
time_suffix=time_suffix)
if spatial is True:
self.m_mapcalc = pymod.Module('r.mapcalc', region="union", run_=False)
else:
self.m_mapcalc = pymod.Module('r.mapcalc')
self.m_mremove = pymod.Module('g.remove')
[docs] def parse(self, expression, basename = None, overwrite=False):
# Check for space time dataset type definitions from temporal algebra
l = TemporalRasterAlgebraLexer()
l.build()
l.lexer.input(expression)
while True:
tok = l.lexer.token()
if not tok: break
if tok.type == "STVDS" or tok.type == "STRDS" or tok.type == "STR3DS":
raise SyntaxError("Syntax error near '%s'" %(tok.type))
self.lexer = TemporalRasterAlgebraLexer()
self.lexer.build()
self.parser = yacc.yacc(module=self, debug=self.debug, write_tables=False)
self.overwrite = overwrite
self.count = 0
self.stdstype = "strds"
self.maptype = "raster"
self.mapclass = RasterDataset
self.basename = basename
self.expression = expression
self.parser.parse(expression)
return self.process_chain_dict
######################### Temporal functions ##############################
[docs] def p_statement_assign(self, t):
# The expression should always return a list of maps.
"""
statement : stds EQUALS expr
"""
TemporalRasterBaseAlgebraParser.p_statement_assign(self, t)
[docs] def p_ts_neighbour_operation(self, t):
# Spatial and temporal neighbour operations via indexing
# Examples:
# A[1,0]
# B[-2]
# C[-2,1,3]
"""
expr : stds L_SPAREN number COMMA number R_SPAREN
| stds L_SPAREN number R_SPAREN
| stds L_SPAREN number COMMA number COMMA number R_SPAREN
"""
# Check input stds.
maplist = self.check_stds(t[1])
row_neigbour = None
col_neigbour = None
if len(t) == 5:
t_neighbour = t[3]
elif len(t) == 7:
t_neighbour = 0
row_neigbour = t[3]
col_neigbour = t[5]
elif len(t) == 9:
t_neighbour = t[7]
row_neigbour = t[3]
col_neigbour = t[5]
if self.run:
resultlist = []
max_index = len(maplist)
for map_i in maplist:
# Get map index and temporal extent.
map_index = maplist.index(map_i)
new_index = map_index + t_neighbour
if new_index < max_index and new_index >= 0:
map_i_t_extent = map_i.get_temporal_extent()
# Get neighbouring map and set temporal extent.
map_n = maplist[new_index]
# Generate an intermediate map for the result map list.
map_new = self.generate_new_map(map_n, bool_op = 'and', copy = True)
map_new.set_temporal_extent(map_i_t_extent)
# Create r.mapcalc expression string for the operation.
if "cmd_list" in dir(map_new) and len(t) == 5:
cmdstring = "%s" %(map_new.cmd_list)
elif "cmd_list" not in dir(map_new) and len(t) == 5:
cmdstring = "%s" %(map_n.get_id())
elif "cmd_list" in dir(map_new) and len(t) in (7, 9):
cmdstring = "%s[%s,%s]" %(map_new.cmd_list, row_neigbour, col_neigbour)
elif "cmd_list" not in dir(map_new) and len(t) in (7, 9):
cmdstring = "%s[%s,%s]" %(map_n.get_id(), row_neigbour, col_neigbour)
# Set new command list for map.
map_new.cmd_list = cmdstring
# Append map with updated command list to result list.
resultlist.append(map_new)
t[0] = resultlist
###############################################################################
if __name__ == "__main__":
import doctest
doctest.testmod()
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